/* This file is part of TDE
Copyright ( C ) 2012 Timothy Pearson < kb9vqf @ pearsoncomputing . net >
This library is free software ; you can redistribute it and / or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation ; either
version 2 of the License , or ( at your option ) any later version .
This library is distributed in the hope that it will be useful ,
but WITHOUT ANY WARRANTY ; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
Library General Public License for more details .
You should have received a copy of the GNU Library General Public License
along with this library ; see the file COPYING . LIB . If not , write to
the Free Software Foundation , Inc . , 51 Franklin Street , Fifth Floor ,
Boston , MA 02110 - 1301 , USA .
*/
# include <config.h>
# include <tqvalidator.h>
# include <tqpushbutton.h>
# include <tqlineedit.h>
# include <tqlabel.h>
# include <tqtabwidget.h>
# include <tqgroupbox.h>
# include <tqlayout.h>
# include <tqslider.h>
# include <tqpainter.h>
# include <tqstyle.h>
# include <tqinternal_p.h>
# include <dcopclient.h>
# include <dcopref.h>
# undef Unsorted // Required for --enable-final (tqdir.h)
# include <tqfiledialog.h>
# include <kpassdlg.h>
# include <kactivelabel.h>
# include <kbuttonbox.h>
# include <kcombobox.h>
# include <tdelocale.h>
# include <tdeapplication.h>
# include <klineedit.h>
# include <kpushbutton.h>
# include <kstdguiitem.h>
# include <tdemessagebox.h>
# include <ksslcertificate.h>
# include "cryptpassworddlg.h"
# include "passworddlg.h"
# include "devicepropsdlg.h"
SensorDisplayLabelsWidget : : SensorDisplayLabelsWidget ( TQWidget * parent )
: TQWidget ( parent )
{
m_nameLabel = new TQLabel ( this ) ;
m_valueLabel = new TQLabel ( this ) ;
TQGridLayout * mainGrid = new TQGridLayout ( this , 1 , 2 , 0 , 1 ) ;
mainGrid - > setRowStretch ( 1 , 0 ) ;
mainGrid - > addWidget ( m_nameLabel , 0 , 0 ) ;
mainGrid - > addWidget ( m_valueLabel , 0 , 1 ) ;
}
SensorDisplayLabelsWidget : : ~ SensorDisplayLabelsWidget ( )
{
}
void SensorDisplayLabelsWidget : : setSensorName ( TQString name ) {
m_nameLabel - > setText ( name ) ;
}
void SensorDisplayLabelsWidget : : setSensorValue ( TQString value ) {
m_valueLabel - > setText ( value ) ;
}
bool SensorBar : : setIndicator ( TQString & progress_str , int progress , int totalSteps ) {
Q_UNUSED ( progress ) ;
Q_UNUSED ( totalSteps ) ;
if ( progress_str ! = m_currentValueString ) {
progress_str = m_currentValueString ;
return true ;
}
else {
return false ;
}
}
void SensorBar : : drawContents ( TQPainter * p ) {
// Draw warn/crit/value bars
TQRect bar = contentsRect ( ) ;
TQSharedDoubleBuffer buffer ( p , bar . x ( ) , bar . y ( ) , bar . width ( ) , bar . height ( ) ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : white ) ;
TQStyle : : SFlags flags = TQStyle : : Style_Default ;
if ( isEnabled ( ) ) {
flags | = TQStyle : : Style_Enabled ;
}
if ( hasFocus ( ) ) {
flags | = TQStyle : : Style_HasFocus ;
}
style ( ) . drawControl ( TQStyle : : CE_ProgressBarGroove , buffer . painter ( ) , this , TQStyle : : visualRect ( style ( ) . subRect ( TQStyle : : SR_ProgressBarGroove , this ) , this ) , colorGroup ( ) , flags ) ;
if ( m_warningLocation > 0 ) {
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_warningLocation * 1.0 ) / totalSteps ( ) ) ) - 2 ) ;
bar . setWidth ( 5 ) ;
bar . setHeight ( 3 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : yellow ) ;
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_warningLocation * 1.0 ) / totalSteps ( ) ) ) - 2 ) ;
bar . setWidth ( 5 ) ;
bar . setY ( bar . height ( ) - 3 ) ;
bar . setHeight ( 3 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : yellow ) ;
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_warningLocation * 1.0 ) / totalSteps ( ) ) ) - 0 ) ;
bar . setWidth ( 1 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : yellow ) ;
}
if ( m_criticalLocation > 0 ) {
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_criticalLocation * 1.0 ) / totalSteps ( ) ) ) - 2 ) ;
bar . setWidth ( 5 ) ;
bar . setHeight ( 3 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : red ) ;
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_criticalLocation * 1.0 ) / totalSteps ( ) ) ) - 2 ) ;
bar . setWidth ( 5 ) ;
bar . setY ( bar . height ( ) - 3 ) ;
bar . setHeight ( 3 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : red ) ;
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_criticalLocation * 1.0 ) / totalSteps ( ) ) ) - 0 ) ;
bar . setWidth ( 1 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : red ) ;
}
if ( m_currentLocation > 0 ) {
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_currentLocation * 1.0 ) / totalSteps ( ) ) ) - 2 ) ;
bar . setWidth ( 5 ) ;
bar . setHeight ( 3 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : green ) ;
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_currentLocation * 1.0 ) / totalSteps ( ) ) ) - 2 ) ;
bar . setWidth ( 5 ) ;
bar . setY ( bar . height ( ) - 3 ) ;
bar . setHeight ( 3 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : green ) ;
bar = contentsRect ( ) ;
bar . setX ( ( bar . width ( ) * ( ( m_currentLocation * 1.0 ) / totalSteps ( ) ) ) - 0 ) ;
bar . setWidth ( 1 ) ;
buffer . painter ( ) - > fillRect ( bar , TQt : : green ) ;
}
bar = contentsRect ( ) ;
buffer . painter ( ) - > setPen ( TQt : : black ) ;
buffer . painter ( ) - > drawText ( bar . x ( ) , bar . y ( ) , bar . width ( ) / 3 , bar . height ( ) , TQt : : AlignVCenter | TQt : : AlignLeft , m_minimumValueString ) ;
buffer . painter ( ) - > drawText ( bar . x ( ) + ( bar . width ( ) / 3 ) , bar . y ( ) , bar . width ( ) / 3 , bar . height ( ) , TQt : : AlignVCenter | TQt : : AlignHCenter , m_currentValueString ) ;
buffer . painter ( ) - > drawText ( bar . x ( ) + ( ( bar . width ( ) / 3 ) * 2 ) , bar . y ( ) , bar . width ( ) / 3 , bar . height ( ) , TQt : : AlignVCenter | TQt : : AlignRight , m_maximumValueString ) ;
}
SensorDisplayWidget : : SensorDisplayWidget ( TQWidget * parent )
: TQWidget ( parent )
{
m_nameLabel = new TQLabel ( this ) ;
m_progressBar = new SensorBar ( this ) ;
TQGridLayout * mainGrid = new TQGridLayout ( this , 1 , 2 , 0 , 1 ) ;
mainGrid - > setRowStretch ( 1 , 0 ) ;
mainGrid - > addWidget ( m_nameLabel , 0 , 0 ) ;
mainGrid - > addWidget ( m_progressBar , 0 , 1 ) ;
}
SensorDisplayWidget : : ~ SensorDisplayWidget ( )
{
}
void SensorDisplayWidget : : setSensorName ( TQString name ) {
m_nameLabel - > setText ( name ) ;
}
void SensorDisplayWidget : : setSensorCurrentValue ( double value ) {
m_current = value ;
}
void SensorDisplayWidget : : setSensorMinimumValue ( double value ) {
m_minimum = value ;
}
void SensorDisplayWidget : : setSensorMaximumValue ( double value ) {
m_maximum = value ;
}
void SensorDisplayWidget : : setSensorWarningValue ( double value ) {
m_warning = value ;
}
void SensorDisplayWidget : : setSensorCriticalValue ( double value ) {
m_critical = value ;
}
void SensorDisplayWidget : : updateDisplay ( ) {
double minimum = m_minimum ;
double maximum = m_maximum ;
double current = m_current ;
double warning = m_warning ;
double critical = m_critical ;
if ( minimum < 0 ) {
minimum = 0 ;
}
if ( maximum < 0 ) {
if ( critical < 0 ) {
maximum = warning ;
}
else {
maximum = critical ;
}
}
if ( warning > maximum ) {
maximum = warning ;
}
if ( critical > maximum ) {
maximum = critical ;
}
m_progressBar - > setTotalSteps ( maximum ) ;
m_progressBar - > m_currentLocation = current - minimum ;
m_progressBar - > setProgress ( 0 ) ;
if ( warning < 0 ) {
m_progressBar - > m_warningLocation = - 1 ;
}
else {
m_progressBar - > m_warningLocation = warning - minimum ;
}
if ( critical < 0 ) {
m_progressBar - > m_criticalLocation = - 1 ;
}
else {
m_progressBar - > m_criticalLocation = critical - minimum ;
}
m_progressBar - > m_minimumValueString = ( TQString ( " %1 " ) . arg ( minimum ) ) ;
m_progressBar - > m_maximumValueString = ( TQString ( " %1 " ) . arg ( maximum ) ) ;
m_progressBar - > m_currentValueString = TQString ( " %1 " ) . arg ( current ) ;
}
DevicePropertiesDialog : : DevicePropertiesDialog ( TDEGenericDevice * device , TQWidget * parent )
: KDialogBase ( Plain , TQString : : null , Ok | Cancel , Ok , parent , 0L , true , true ) , m_passDlg ( NULL )
{
m_device = device ;
enableButtonOK ( false ) ;
if ( m_device ) {
base = new DevicePropertiesDialogBase ( plainPage ( ) ) ;
// Remove all non-applicable tabs
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : Disk ) {
base - > tabBarWidget - > removePage ( base - > tabDisk ) ;
base - > tabBarWidget - > removePage ( base - > tabDiskCrypt ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : CPU ) {
base - > tabBarWidget - > removePage ( base - > tabCPU ) ;
}
if ( ( m_device - > type ( ) ! = TDEGenericDeviceType : : OtherSensor ) & & ( m_device - > type ( ) ! = TDEGenericDeviceType : : ThermalSensor ) ) {
base - > tabBarWidget - > removePage ( base - > tabSensor ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : Battery ) {
base - > tabBarWidget - > removePage ( base - > tabBattery ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : PowerSupply ) {
base - > tabBarWidget - > removePage ( base - > tabPowerSupply ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : Network ) {
base - > tabBarWidget - > removePage ( base - > tabNetwork ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : Backlight ) {
base - > tabBarWidget - > removePage ( base - > tabBacklight ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : Monitor ) {
base - > tabBarWidget - > removePage ( base - > tabMonitor ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : RootSystem ) {
base - > tabBarWidget - > removePage ( base - > tabRootSystem ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : Event ) {
base - > tabBarWidget - > removePage ( base - > tabEvent ) ;
}
if ( m_device - > type ( ) ! = TDEGenericDeviceType : : CryptographicCard ) {
base - > tabBarWidget - > removePage ( base - > tabCryptographicCard ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : CPU ) {
connect ( base - > comboCPUGovernor , TQT_SIGNAL ( activated ( const TQString & ) ) , this , TQT_SLOT ( setCPUGovernor ( const TQString & ) ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
connect ( base - > buttonDiskMount , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( mountDisk ( ) ) ) ;
connect ( base - > buttonDiskUnmount , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( unmountDisk ( ) ) ) ;
connect ( base - > buttonDiskUnlock , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( unlockDisk ( ) ) ) ;
connect ( base - > buttonDiskLock , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( lockDisk ( ) ) ) ;
if ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : LUKS ) ) {
connect ( base - > cryptLUKSAddKey , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( cryptLUKSAddKey ( ) ) ) ;
connect ( base - > cryptLUKSDelKey , TQT_SIGNAL ( clicked ( ) ) , this , TQT_SLOT ( cryptLUKSDelKey ( ) ) ) ;
connect ( base - > cryptLUKSKeySlotList , TQT_SIGNAL ( selectionChanged ( ) ) , this , TQT_SLOT ( processLockouts ( ) ) ) ;
base - > cryptLUKSKeySlotList - > setAllColumnsShowFocus ( true ) ;
base - > cryptLUKSKeySlotList - > setFullWidth ( true ) ;
cryptLUKSPopulateList ( ) ;
processLockouts ( ) ;
}
else {
base - > tabBarWidget - > removePage ( base - > tabDiskCrypt ) ;
}
}
if ( ( m_device - > type ( ) = = TDEGenericDeviceType : : OtherSensor ) | | ( m_device - > type ( ) = = TDEGenericDeviceType : : ThermalSensor ) ) {
base - > groupSensors - > setColumnLayout ( 0 , TQt : : Vertical ) ;
base - > groupSensors - > layout ( ) - > setSpacing ( KDialog : : spacingHint ( ) ) ;
base - > groupSensors - > layout ( ) - > setMargin ( KDialog : : marginHint ( ) ) ;
m_sensorDataGrid = new TQGridLayout ( base - > groupSensors - > layout ( ) ) ;
m_sensorDataGrid - > setAlignment ( TQt : : AlignTop ) ;
m_sensorDataGridWidgets . setAutoDelete ( true ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Backlight ) {
connect ( base - > sliderBacklightBrightness , TQT_SIGNAL ( valueChanged ( int ) ) , this , TQT_SLOT ( setBacklightBrightness ( int ) ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : RootSystem ) {
connect ( base - > comboSystemHibernationMethod , TQT_SIGNAL ( activated ( int ) ) , this , TQT_SLOT ( setHibernationMethod ( int ) ) ) ;
}
TQGridLayout * mainGrid = new TQGridLayout ( plainPage ( ) , 1 , 1 , 0 , spacingHint ( ) ) ;
mainGrid - > setRowStretch ( 1 , 1 ) ;
mainGrid - > addWidget ( base , 0 , 0 ) ;
}
TDEHardwareDevices * hwdevices = TDEGlobal : : hardwareDevices ( ) ;
connect ( hwdevices , TQT_SIGNAL ( hardwareRemoved ( TDEGenericDevice * ) ) , this , TQT_SLOT ( processHardwareRemoved ( TDEGenericDevice * ) ) ) ;
connect ( hwdevices , TQT_SIGNAL ( hardwareUpdated ( TDEGenericDevice * ) ) , this , TQT_SLOT ( processHardwareUpdated ( TDEGenericDevice * ) ) ) ;
populateDeviceInformation ( ) ;
}
DevicePropertiesDialog : : ~ DevicePropertiesDialog ( )
{
if ( m_passDlg )
{
delete m_passDlg ;
}
}
void DevicePropertiesDialog : : processHardwareRemoved ( TDEGenericDevice * dev ) {
if ( dev = = m_device ) {
close ( ) ;
}
}
void DevicePropertiesDialog : : processHardwareUpdated ( TDEGenericDevice * dev ) {
if ( dev = = m_device ) {
populateDeviceInformation ( ) ;
}
}
TQString assembleSwitchList ( TDESwitchType : : TDESwitchType switches ) {
return ( TDEEventDevice : : friendlySwitchList ( switches ) . join ( " <br> " ) ) ;
}
static TQString formatDisplayString ( TQString input ) {
return TQStyleSheet : : escape ( input ) ;
}
void DevicePropertiesDialog : : populateDeviceInformation ( ) {
if ( m_device ) {
base - > labelDeviceType - > setText ( m_device - > friendlyDeviceType ( ) ) ;
base - > iconDeviceType - > setPixmap ( m_device - > icon ( TDEIcon : : SizeSmall ) ) ;
base - > labelDeviceName - > setText ( formatDisplayString ( m_device - > friendlyName ( ) ) ) ;
base - > labelDeviceNode - > setText ( formatDisplayString ( ( m_device - > deviceNode ( ) . isNull ( ) ) ? i18n ( " <none> " ) : m_device - > deviceNode ( ) ) ) ;
base - > labelSystemPath - > setText ( formatDisplayString ( m_device - > systemPath ( ) ) ) ;
base - > labelSubsytemType - > setText ( formatDisplayString ( m_device - > subsystem ( ) ) ) ;
base - > labelDeviceDriver - > setText ( formatDisplayString ( ( m_device - > deviceDriver ( ) . isNull ( ) ) ? i18n ( " <none> " ) : m_device - > deviceDriver ( ) ) ) ;
base - > labelDeviceClass - > setText ( formatDisplayString ( ( m_device - > PCIClass ( ) . isNull ( ) ) ? i18n ( " <n/a> " ) : m_device - > PCIClass ( ) ) ) ;
base - > labelModalias - > setText ( formatDisplayString ( ( m_device - > moduleAlias ( ) . isNull ( ) ) ? i18n ( " <none> " ) : m_device - > moduleAlias ( ) ) ) ;
// These might be redundant
#if 0
base - > labelVendorName - > setText ( ( m_device - > vendorName ( ) . isNull ( ) ) ? i18n ( " <unknown> " ) : m_device - > vendorName ( ) ) ;
base - > labelVendorModel - > setText ( ( m_device - > vendorModel ( ) . isNull ( ) ) ? i18n ( " <unknown> " ) : m_device - > vendorModel ( ) ) ;
# else
base - > labelVendorName - > hide ( ) ;
base - > stocklabelVendorName - > hide ( ) ;
base - > labelVendorModel - > hide ( ) ;
base - > stocklabelVendorModel - > hide ( ) ;
# endif
base - > labelSerialNumber - > setText ( formatDisplayString ( ( m_device - > serialNumber ( ) . isNull ( ) ) ? i18n ( " <unknown> " ) : m_device - > serialNumber ( ) ) ) ;
if ( m_device - > subsystem ( ) = = " pci " ) {
base - > labelBusID - > setText ( formatDisplayString ( m_device - > busID ( ) ) ) ;
base - > labelBusID - > show ( ) ;
base - > stocklabelBusID - > show ( ) ;
}
else {
base - > labelBusID - > hide ( ) ;
base - > stocklabelBusID - > hide ( ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
TQString mountPoint = sdevice - > mountPath ( ) ;
if ( mountPoint = = " " ) mountPoint = i18n ( " <none> " ) ;
base - > labelDiskMountpoint - > setText ( formatDisplayString ( mountPoint ) ) ;
TQString fsName = sdevice - > fileSystemName ( ) ;
if ( fsName = = " " ) fsName = i18n ( " <unknown> " ) ;
base - > labelDiskFileSystemType - > setText ( formatDisplayString ( fsName ) ) ;
TQString volUUID = sdevice - > diskUUID ( ) ;
if ( volUUID = = " " ) volUUID = i18n ( " <none> " ) ;
base - > labelDiskUUID - > setText ( formatDisplayString ( volUUID ) ) ;
TQString mappedName = sdevice - > mappedName ( ) ;
if ( mappedName = = " " ) mappedName = i18n ( " <none> " ) ;
base - > labelMappedName - > setText ( formatDisplayString ( mappedName ) ) ;
// Show status
TQString status_text = " <qt> " ;
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : Mountable ) ) {
status_text + = i18n ( " Mountable " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : Removable ) ) {
status_text + = i18n ( " Removable " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : Inserted ) ) {
status_text + = i18n ( " Inserted " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : Blank ) ) {
status_text + = i18n ( " Blank " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : UsedByDevice ) ) {
status_text + = i18n ( " In use " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : UsesDevice ) ) {
status_text + = i18n ( " Uses other device " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : ContainsFilesystem ) ) {
status_text + = i18n ( " Contains a filesystem " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : Hotpluggable ) ) {
status_text + = i18n ( " Hotpluggable " ) + " <br> " ;
}
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : Hidden ) ) {
status_text + = i18n ( " Hidden " ) + " <br> " ;
}
if ( status_text = = " <qt> " ) {
status_text + = " <i> " + i18n ( " Unknown " ) + " </i> " ;
}
status_text + = " </qt> " ;
base - > labelDiskStatus - > setText ( status_text ) ;
// Update mount/unmount button status
base - > buttonDiskMount - > setEnabled ( false ) ;
base - > buttonDiskUnmount - > setEnabled ( false ) ;
base - > buttonDiskUnlock - > setEnabled ( false ) ;
base - > buttonDiskLock - > setEnabled ( false ) ;
base - > buttonDiskMount - > setHidden ( true ) ;
base - > buttonDiskUnmount - > setHidden ( true ) ;
base - > buttonDiskUnlock - > setHidden ( true ) ;
base - > buttonDiskLock - > setHidden ( true ) ;
if ( sdevice - > checkDiskStatus ( TDEDiskDeviceStatus : : Mountable ) ) {
base - > groupDiskActions - > show ( ) ;
base - > buttonDiskMount - > setEnabled ( ( sdevice - > mountPath ( ) = = " " ) ) ;
base - > buttonDiskUnmount - > setEnabled ( ( sdevice - > mountPath ( ) ! = " " ) ) ;
base - > buttonDiskMount - > setHidden ( false ) ;
base - > buttonDiskUnmount - > setHidden ( false ) ;
}
else if ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : LUKS ) ) {
base - > buttonDiskUnlock - > setEnabled ( ! sdevice - > isDiskOfType ( TDEDiskDeviceType : : UnlockedCrypt ) ) ;
base - > buttonDiskLock - > setEnabled ( sdevice - > isDiskOfType ( TDEDiskDeviceType : : UnlockedCrypt ) ) ;
base - > buttonDiskUnlock - > setHidden ( false ) ;
base - > buttonDiskLock - > setHidden ( false ) ;
}
else {
base - > groupDiskActions - > hide ( ) ;
}
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : CPU ) {
TDECPUDevice * cdevice = static_cast < TDECPUDevice * > ( m_device ) ;
// Show information
base - > labelCPUVendor - > setText ( cdevice - > vendorEncoded ( ) ) ;
base - > labelCPUFrequency - > setText ( ( cdevice - > frequency ( ) < 0 ) ? i18n ( " <unsupported> " ) : TQString ( " %1 MHz " ) . arg ( cdevice - > frequency ( ) ) ) ;
base - > labelMinCPUFrequency - > setText ( ( cdevice - > minFrequency ( ) < 0 ) ? i18n ( " <unsupported> " ) : TQString ( " %1 MHz " ) . arg ( cdevice - > minFrequency ( ) ) ) ;
base - > labelMaxCPUFrequency - > setText ( ( cdevice - > maxFrequency ( ) < 0 ) ? i18n ( " <unsupported> " ) : TQString ( " %1 MHz " ) . arg ( cdevice - > maxFrequency ( ) ) ) ;
base - > labelScalingDriver - > setText ( ( cdevice - > scalingDriver ( ) . isNull ( ) ) ? i18n ( " <none> " ) : cdevice - > scalingDriver ( ) ) ;
TQStringList scalingfreqs = cdevice - > availableFrequencies ( ) ;
if ( scalingfreqs . count ( ) > 0 ) {
TQString scalingfreqsstring = " <qt> " ;
for ( TQStringList : : Iterator it = scalingfreqs . begin ( ) ; it ! = scalingfreqs . end ( ) ; + + it ) {
TQString freq = ( * it ) ;
scalingfreqsstring . append ( TQString ( " %1 MHz<br> " ) . arg ( freq . toDouble ( ) / 1000 ) ) ;
}
scalingfreqsstring . append ( " </qt> " ) ;
base - > labelScalingFrequencies - > setText ( scalingfreqsstring ) ;
}
else {
base - > labelScalingFrequencies - > setText ( i18n ( " <none> " ) ) ;
}
TQStringList dependentcpus = cdevice - > dependentProcessors ( ) ;
if ( dependentcpus . count ( ) > 0 ) {
TQString dependentcpusstring = " <qt> " ;
for ( TQStringList : : Iterator it = dependentcpus . begin ( ) ; it ! = dependentcpus . end ( ) ; + + it ) {
TQString proc = ( * it ) ;
dependentcpusstring . append ( TQString ( " CPU %1<br> " ) . arg ( proc ) ) ;
}
dependentcpusstring . append ( " </qt> " ) ;
base - > labelDependentCPUs - > setText ( dependentcpusstring ) ;
}
else {
base - > labelDependentCPUs - > setText ( i18n ( " <none> " ) ) ;
}
base - > comboCPUGovernor - > setEnabled ( cdevice - > canSetGovernor ( ) ) ;
TQStringList governorPolicies = cdevice - > availableGovernors ( ) ;
if ( ( uint ) governorPolicies . count ( ) ! = ( uint ) base - > comboCPUGovernor - > count ( ) ) {
base - > comboCPUGovernor - > clear ( ) ;
int i = 0 ;
for ( TQStringList : : Iterator it = governorPolicies . begin ( ) ; it ! = governorPolicies . end ( ) ; + + it ) {
base - > comboCPUGovernor - > insertItem ( * it , i ) ;
i + + ;
}
}
base - > comboCPUGovernor - > setCurrentItem ( cdevice - > governor ( ) , false ) ;
}
if ( ( m_device - > type ( ) = = TDEGenericDeviceType : : OtherSensor ) | | ( m_device - > type ( ) = = TDEGenericDeviceType : : ThermalSensor ) ) {
TDESensorDevice * sdevice = static_cast < TDESensorDevice * > ( m_device ) ;
TDESensorClusterMap map = sdevice - > values ( ) ;
TDESensorClusterMap : : Iterator it ;
unsigned int i ;
if ( m_sensorDataGridWidgets . count ( ) ! = map . count ( ) ) {
m_sensorDataGridWidgets . clear ( ) ;
for ( i = 0 ; i < map . count ( ) ; i + + ) {
SensorDisplayWidget * sensorWidget = new SensorDisplayWidget ( base - > groupSensors ) ;
m_sensorDataGrid - > addWidget ( sensorWidget , i , 0 ) ;
m_sensorDataGridWidgets . append ( sensorWidget ) ;
}
}
i = 0 ;
for ( it = map . begin ( ) ; it ! = map . end ( ) ; + + it ) {
TQString sensorlabel = it . key ( ) ;
TQString sensordatastring ;
TDESensorCluster values = it . data ( ) ;
if ( ! values . label . isNull ( ) ) {
sensorlabel = values . label ;
}
if ( sensorlabel . isNull ( ) ) {
sensorlabel = i18n ( " <unnamed> " ) ;
}
m_sensorDataGridWidgets . at ( i ) - > setSensorName ( sensorlabel ) ;
m_sensorDataGridWidgets . at ( i ) - > setSensorCurrentValue ( values . current ) ;
m_sensorDataGridWidgets . at ( i ) - > setSensorMinimumValue ( values . minimum ) ;
m_sensorDataGridWidgets . at ( i ) - > setSensorMaximumValue ( values . maximum ) ;
m_sensorDataGridWidgets . at ( i ) - > setSensorWarningValue ( values . warning ) ;
m_sensorDataGridWidgets . at ( i ) - > setSensorCriticalValue ( values . critical ) ;
m_sensorDataGridWidgets . at ( i ) - > updateDisplay ( ) ;
i + + ;
}
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Battery ) {
TDEBatteryDevice * bdevice = static_cast < TDEBatteryDevice * > ( m_device ) ;
base - > labelCurrentBatteryEnergy - > setText ( ( bdevice - > energy ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 Ah " ) . arg ( bdevice - > energy ( ) ) ) ;
base - > labelMaximumBatteryEnergy - > setText ( ( bdevice - > maximumEnergy ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 Ah " ) . arg ( bdevice - > maximumEnergy ( ) ) ) ;
base - > labelMaximumBatteryDesignEnergy - > setText ( ( bdevice - > maximumDesignEnergy ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 Ah " ) . arg ( bdevice - > maximumDesignEnergy ( ) ) ) ;
base - > labelMinimumBatteryVoltage - > setText ( ( bdevice - > minimumVoltage ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 V " ) . arg ( bdevice - > minimumVoltage ( ) ) ) ;
base - > labelCurrentBatteryVoltage - > setText ( ( bdevice - > voltage ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 V " ) . arg ( bdevice - > voltage ( ) ) ) ;
base - > labelCurrentBatteryDischargeRate - > setText ( ( bdevice - > dischargeRate ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 A " ) . arg ( bdevice - > dischargeRate ( ) ) ) ;
TQString batteryStatusString = i18n ( " Unknown " ) ;
TDEBatteryStatus : : TDEBatteryStatus batteryStatus = bdevice - > status ( ) ;
if ( batteryStatus = = TDEBatteryStatus : : Charging ) {
batteryStatusString = i18n ( " Charging " ) ;
}
if ( batteryStatus = = TDEBatteryStatus : : Discharging ) {
batteryStatusString = i18n ( " Discharging " ) ;
}
if ( batteryStatus = = TDEBatteryStatus : : Full ) {
batteryStatusString = i18n ( " Full " ) ;
}
base - > labelCurrentBatteryStatus - > setText ( batteryStatusString ) ;
base - > labelBatteryTechnology - > setText ( ( bdevice - > technology ( ) . isNull ( ) ) ? i18n ( " <unknown> " ) : bdevice - > technology ( ) ) ;
base - > labelBatteryInstalled - > setText ( ( bdevice - > installed ( ) = = 0 ) ? i18n ( " No " ) : i18n ( " Yes " ) ) ;
base - > labelBatteryCharge - > setText ( ( bdevice - > chargePercent ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 % " ) . arg ( bdevice - > chargePercent ( ) ) ) ;
base - > labelBatteryTimeRemaining - > setText ( ( bdevice - > timeRemaining ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 seconds " ) . arg ( bdevice - > timeRemaining ( ) ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : PowerSupply ) {
TDEMainsPowerDevice * pdevice = static_cast < TDEMainsPowerDevice * > ( m_device ) ;
base - > labelPowerSupplyOnline - > setText ( ( pdevice - > online ( ) = = 0 ) ? i18n ( " No " ) : i18n ( " Yes " ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Network ) {
TDENetworkDevice * ndevice = static_cast < TDENetworkDevice * > ( m_device ) ;
base - > labelNetworkMAC - > setText ( ( ndevice - > macAddress ( ) . isNull ( ) ) ? i18n ( " <unknown> " ) : ndevice - > macAddress ( ) ) ;
base - > labelNetworkState - > setText ( ( ndevice - > state ( ) . isNull ( ) ) ? i18n ( " <unknown> " ) : ndevice - > state ( ) ) ;
base - > labelNetworkCarrierPresent - > setText ( ( ndevice - > carrierPresent ( ) = = 0 ) ? i18n ( " No " ) : i18n ( " Yes " ) ) ;
base - > labelNetworkDormant - > setText ( ( ndevice - > dormant ( ) = = 0 ) ? i18n ( " No " ) : i18n ( " Yes " ) ) ;
base - > labelNetworkIPV4Address - > setText ( ( ndevice - > ipV4Address ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV4Address ( ) ) ;
base - > labelNetworkIPV4Netmask - > setText ( ( ndevice - > ipV4Netmask ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV4Netmask ( ) ) ;
base - > labelNetworkIPV4Broadcast - > setText ( ( ndevice - > ipV4Broadcast ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV4Broadcast ( ) ) ;
base - > labelNetworkIPV4Destination - > setText ( ( ndevice - > ipV4Destination ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV4Destination ( ) ) ;
base - > labelNetworkIPV6Address - > setText ( ( ndevice - > ipV6Address ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV6Address ( ) ) ;
base - > labelNetworkIPV6Netmask - > setText ( ( ndevice - > ipV6Netmask ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV6Netmask ( ) ) ;
base - > labelNetworkIPV6Broadcast - > setText ( ( ndevice - > ipV6Broadcast ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV6Broadcast ( ) ) ;
base - > labelNetworkIPV6Destination - > setText ( ( ndevice - > ipV6Destination ( ) . isNull ( ) ) ? i18n ( " <none> " ) : ndevice - > ipV6Destination ( ) ) ;
base - > labelNetworkRXBytes - > setText ( ( ndevice - > rxBytes ( ) < 0 ) ? i18n ( " <unknown> " ) : TDEHardwareDevices : : bytesToFriendlySizeString ( ndevice - > rxBytes ( ) ) ) ;
base - > labelNetworkTXBytes - > setText ( ( ndevice - > txBytes ( ) < 0 ) ? i18n ( " <unknown> " ) : TDEHardwareDevices : : bytesToFriendlySizeString ( ndevice - > txBytes ( ) ) ) ;
base - > labelNetworkRXPackets - > setText ( ( ndevice - > rxPackets ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 " ) . arg ( ndevice - > rxPackets ( ) ) ) ;
base - > labelNetworkTXPackets - > setText ( ( ndevice - > txPackets ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 " ) . arg ( ndevice - > txPackets ( ) ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Backlight ) {
TDEBacklightDevice * bdevice = static_cast < TDEBacklightDevice * > ( m_device ) ;
base - > labelBacklightStatus - > setText ( ( bdevice - > powerLevel ( ) = = TDEDisplayPowerLevel : : On ) ? i18n ( " On " ) : i18n ( " Off " ) ) ;
base - > labelBacklightBrightness - > setText ( ( bdevice - > brightnessPercent ( ) < 0 ) ? i18n ( " <unknown> " ) : TQString ( " %1 % " ) . arg ( bdevice - > brightnessPercent ( ) ) ) ;
base - > sliderBacklightBrightness - > setOrientation ( TQt : : Horizontal ) ;
base - > sliderBacklightBrightness - > setMinValue ( 0 ) ;
base - > sliderBacklightBrightness - > setMaxValue ( bdevice - > brightnessSteps ( ) - 1 ) ;
base - > sliderBacklightBrightness - > setValue ( bdevice - > rawBrightness ( ) ) ;
base - > sliderBacklightBrightness - > setEnabled ( bdevice - > canSetBrightness ( ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Monitor ) {
TDEMonitorDevice * mdevice = static_cast < TDEMonitorDevice * > ( m_device ) ;
base - > labelDisplayPortType - > setText ( ( mdevice - > portType ( ) . isNull ( ) ) ? i18n ( " <unknown> " ) : mdevice - > portType ( ) ) ;
base - > labelDisplayConnected - > setText ( ( mdevice - > connected ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
base - > labelDisplayEnabled - > setText ( ( mdevice - > enabled ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
TQString dpmsLevel ;
TDEDisplayPowerLevel : : TDEDisplayPowerLevel dpms = TDEDisplayPowerLevel : : On ;
if ( dpms = = TDEDisplayPowerLevel : : On ) {
dpmsLevel = i18n ( " On " ) ;
}
else if ( dpms = = TDEDisplayPowerLevel : : Standby ) {
dpmsLevel = i18n ( " Standby " ) ;
}
else if ( dpms = = TDEDisplayPowerLevel : : Suspend ) {
dpmsLevel = i18n ( " Suspend " ) ;
}
else if ( dpms = = TDEDisplayPowerLevel : : Off ) {
dpmsLevel = i18n ( " Off " ) ;
}
base - > labelDisplayDPMS - > setText ( dpmsLevel ) ;
TDEResolutionList resolutionList = mdevice - > resolutions ( ) ;
if ( resolutionList . count ( ) > 0 ) {
TQString resolutionsstring = " <qt> " ;
TDEResolutionList : : iterator it ;
for ( it = resolutionList . begin ( ) ; it ! = resolutionList . end ( ) ; + + it ) {
TDEResolutionPair res = * it ;
resolutionsstring + = TQString ( " %1x%2<br> " ) . arg ( res . first ) . arg ( res . second ) ;
}
resolutionsstring + = " </qt> " ;
base - > labelDisplayResolutions - > setText ( resolutionsstring ) ;
}
else {
base - > labelDisplayResolutions - > setText ( i18n ( " <unknown> " ) ) ;
}
// RandR warning
base - > labelRandrWarning - > setText ( i18n ( " <qt><b>NOTE: Any further integration of displays into TDE <i>REQUIRES</i> multi GPU support and other features slated for RandR 2.0.</b><p>Development on such features has been sorely lacking for well over a year as of 2012; if you want to see Linux come up to Windows and Macintosh standards in this area <i>please tell the Xorg developers</i> at http://www.x.org/wiki/XorgMailingLists<p>The TDE project badly needs these features before it can proceed with graphical monitor configuration tools:<br> * GPU object support<br> * The ability to query the active driver name for any Xorg output<p><b>To recap, this is <i>not a TDE shortcoming</i>, but rather is the result of a lack of fundamental Linux support for graphics configuration!</b></qt> " ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : RootSystem ) {
TDERootSystemDevice * rdevice = static_cast < TDERootSystemDevice * > ( m_device ) ;
TQString formFactorString ;
TDESystemFormFactor : : TDESystemFormFactor formFactor = rdevice - > formFactor ( ) ;
if ( formFactor = = TDESystemFormFactor : : Unclassified ) {
formFactorString = i18n ( " Unknown " ) ;
}
else if ( formFactor = = TDESystemFormFactor : : Desktop ) {
formFactorString = i18n ( " Desktop " ) ;
}
else if ( formFactor = = TDESystemFormFactor : : Laptop ) {
formFactorString = i18n ( " Laptop " ) ;
}
else if ( formFactor = = TDESystemFormFactor : : Server ) {
formFactorString = i18n ( " Server " ) ;
}
base - > labelSystemFormFactor - > setText ( formFactorString ) ;
TQString powerStatesString ;
TDESystemPowerStateList powerStates = rdevice - > powerStates ( ) ;
if ( powerStates . count ( ) > 0 ) {
powerStatesString = " <qt> " ;
TDESystemPowerStateList : : iterator it ;
for ( it = powerStates . begin ( ) ; it ! = powerStates . end ( ) ; + + it ) {
if ( ( * it ) = = TDESystemPowerState : : Active ) {
powerStatesString + = i18n ( " Active<br> " ) ;
}
else if ( ( * it ) = = TDESystemPowerState : : Standby ) {
powerStatesString + = i18n ( " Standby<br> " ) ;
}
else if ( ( * it ) = = TDESystemPowerState : : Freeze ) {
powerStatesString + = i18n ( " Freeze<br> " ) ;
}
else if ( ( * it ) = = TDESystemPowerState : : Suspend ) {
powerStatesString + = i18n ( " Suspend<br> " ) ;
}
else if ( ( * it ) = = TDESystemPowerState : : Hibernate ) {
powerStatesString + = i18n ( " Hibernate<br> " ) ;
}
else if ( ( * it ) = = TDESystemPowerState : : HybridSuspend ) {
powerStatesString + = i18n ( " Hybrid Suspend<br> " ) ;
}
else if ( ( * it ) = = TDESystemPowerState : : PowerOff ) {
powerStatesString + = i18n ( " Power Off<br> " ) ;
}
}
powerStatesString + = " </qt> " ;
}
else {
powerStatesString + = i18n ( " <unknown> " ) ;
}
base - > labelSystemPowerStates - > setText ( powerStatesString ) ;
base - > comboSystemHibernationMethod - > setEnabled ( rdevice - > canSetHibernationMethod ( ) ) ;
TDESystemHibernationMethodList hibernationMethods = rdevice - > hibernationMethods ( ) ;
if ( ( uint ) hibernationMethods . count ( ) ! = ( uint ) base - > comboSystemHibernationMethod - > count ( ) ) {
base - > comboSystemHibernationMethod - > clear ( ) ;
m_hibernationComboMap . clear ( ) ;
int i = 0 ;
TQString label ;
for ( TDESystemHibernationMethodList : : Iterator it = hibernationMethods . begin ( ) ; it ! = hibernationMethods . end ( ) ; + + it ) {
if ( ( * it ) = = TDESystemHibernationMethod : : Unsupported ) {
label = i18n ( " <none> " ) ;
}
else if ( ( * it ) = = TDESystemHibernationMethod : : Platform ) {
label = i18n ( " Platform " ) ;
}
else if ( ( * it ) = = TDESystemHibernationMethod : : Suspend ) {
label = i18n ( " Suspend " ) ;
}
else if ( ( * it ) = = TDESystemHibernationMethod : : Shutdown ) {
label = i18n ( " Shutdown " ) ;
}
else if ( ( * it ) = = TDESystemHibernationMethod : : Reboot ) {
label = i18n ( " Reboot " ) ;
}
else if ( ( * it ) = = TDESystemHibernationMethod : : TestProc ) {
label = i18n ( " Test Procedure " ) ;
}
else if ( ( * it ) = = TDESystemHibernationMethod : : Test ) {
label = i18n ( " Test " ) ;
}
base - > comboSystemHibernationMethod - > insertItem ( label , i ) ;
m_hibernationComboMap [ * it ] = i ;
i + + ;
}
}
base - > comboSystemHibernationMethod - > setCurrentItem ( m_hibernationComboMap [ rdevice - > hibernationMethod ( ) ] ) ;
base - > labelSystemUserCanStandby - > setText ( ( rdevice - > canStandby ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
base - > labelSystemUserCanFreeze - > setText ( ( rdevice - > canFreeze ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
base - > labelSystemUserCanSuspend - > setText ( ( rdevice - > canSuspend ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
base - > labelSystemUserCanHibernate - > setText ( ( rdevice - > canHibernate ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
base - > labelSystemUserCanHybridSuspend - > setText ( ( rdevice - > canHybridSuspend ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
base - > labelSystemUserCanPowerOff - > setText ( ( rdevice - > canPowerOff ( ) ) ? i18n ( " Yes " ) : i18n ( " No " ) ) ;
base - > labelSystemHibernationSpace - > setText ( ( rdevice - > diskSpaceNeededForHibernation ( ) < 0 ) ? i18n ( " <unknown> " ) : TDEHardwareDevices : : bytesToFriendlySizeString ( rdevice - > diskSpaceNeededForHibernation ( ) ) ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Event ) {
TDEEventDevice * edevice = static_cast < TDEEventDevice * > ( m_device ) ;
TQString availableSwitches ;
if ( edevice - > providedSwitches ( ) = = TDESwitchType : : Null ) {
availableSwitches = i18n ( " <none> " ) ;
}
else {
availableSwitches = " <qt> " ;
availableSwitches + = assembleSwitchList ( edevice - > providedSwitches ( ) ) ;
availableSwitches + = " </qt> " ;
}
base - > labelEventSwitchTypes - > setText ( availableSwitches ) ;
TQString activeSwitches ;
if ( edevice - > activeSwitches ( ) = = TDESwitchType : : Null ) {
activeSwitches = i18n ( " <none> " ) ;
}
else {
activeSwitches = " <qt> " ;
activeSwitches + = assembleSwitchList ( edevice - > activeSwitches ( ) ) ;
activeSwitches + = " </qt> " ;
}
base - > labelEventSwitchActive - > setText ( activeSwitches ) ;
}
if ( m_device - > type ( ) = = TDEGenericDeviceType : : CryptographicCard ) {
TDECryptographicCardDevice * cdevice = static_cast < TDECryptographicCardDevice * > ( m_device ) ;
connect ( cdevice , TQT_SIGNAL ( cardInserted ( TDECryptographicCardDevice * ) ) , this , TQT_SLOT ( cryptographicCardInserted ( ) ) ) ;
connect ( cdevice , TQT_SIGNAL ( cardRemoved ( TDECryptographicCardDevice * ) ) , this , TQT_SLOT ( cryptographicCardRemoved ( ) ) ) ;
updateCryptographicCardStatusDisplay ( ) ;
}
}
}
void DevicePropertiesDialog : : cryptographicCardInserted ( ) {
updateCryptographicCardStatusDisplay ( ) ;
}
void DevicePropertiesDialog : : cryptographicCardRemoved ( ) {
updateCryptographicCardStatusDisplay ( ) ;
}
void DevicePropertiesDialog : : updateCryptographicCardStatusDisplay ( ) {
TDECryptographicCardDevice * cdevice = static_cast < TDECryptographicCardDevice * > ( m_device ) ;
int status = cdevice - > cardPresent ( ) ;
if ( ( status < 0 ) | | ( status > 1 ) ) {
base - > labelCardStatus - > setText ( i18n ( " Unknown " ) ) ;
base - > labelCardCertificates - > setText ( " " ) ;
base - > groupCardCerts - > hide ( ) ;
}
else if ( status = = 0 ) {
base - > labelCardStatus - > setText ( i18n ( " Empty " ) ) ;
base - > labelCardCertificates - > setText ( " " ) ;
base - > groupCardCerts - > hide ( ) ;
}
else if ( status = = 1 ) {
base - > labelCardStatus - > setText ( i18n ( " Inserted " ) + TQString ( " <br> " ) + i18n ( " ATR: %1 " ) . arg ( cdevice - > cardATR ( ) ) ) ;
X509CertificatePtrList certList = cdevice - > cardX509Certificates ( ) ;
if ( certList . count ( ) > 0 ) {
// Assemble list of certificates on card
unsigned int certificate_number = 1 ;
TQString certInfo = " <qt> " ;
X509CertificatePtrList : : iterator it ;
for ( it = certList . begin ( ) ; it ! = certList . end ( ) ; + + it ) {
KSSLCertificate * tdeCert = KSSLCertificate : : fromX509 ( * it ) ;
KSSLCertificate : : KSSLValidation validationStatus = tdeCert - > validate ( ) ;
certInfo + = i18n ( " Certificate #%1 " ) . arg ( certificate_number ) + " :<br> " ;
certInfo + = i18n ( " Subject " ) + " : " + tdeCert - > getSubject ( ) + " <br> " ;
certInfo + = i18n ( " Issuer " ) + " : " + tdeCert - > getIssuer ( ) + " <br> " ;
certInfo + = i18n ( " Status " ) + " : " + KSSLCertificate : : verifyText ( validationStatus ) + " <br> " ;
certInfo + = i18n ( " Valid From " ) + " : " + tdeCert - > getNotBefore ( ) + " <br> " ;
certInfo + = i18n ( " Valid Until " ) + " : " + tdeCert - > getNotAfter ( ) + " <br> " ;
certInfo + = i18n ( " Serial Number " ) + " : " + tdeCert - > getSerialNumber ( ) + " <br> " ;
certInfo + = i18n ( " MD5 Digest " ) + " : " + tdeCert - > getMD5DigestText ( ) + " <br> " ;
certInfo + = " <p> " ;
delete tdeCert ;
certificate_number + + ;
}
certInfo + = " </qt> " ;
base - > labelCardCertificates - > setText ( certInfo ) ;
base - > groupCardCerts - > show ( ) ;
}
else {
base - > labelCardCertificates - > setText ( " " ) ;
base - > groupCardCerts - > hide ( ) ;
}
}
}
void DevicePropertiesDialog : : setCPUGovernor ( const TQString & governor ) {
TDECPUDevice * cdevice = static_cast < TDECPUDevice * > ( m_device ) ;
cdevice - > setGovernor ( governor ) ;
populateDeviceInformation ( ) ;
}
void DevicePropertiesDialog : : setBacklightBrightness ( int value ) {
TDEBacklightDevice * bdevice = static_cast < TDEBacklightDevice * > ( m_device ) ;
bdevice - > setRawBrightness ( value ) ;
}
void DevicePropertiesDialog : : setHibernationMethod ( int value ) {
TDERootSystemDevice * rdevice = static_cast < TDERootSystemDevice * > ( m_device ) ;
rdevice - > setHibernationMethod ( m_hibernationComboMap . keys ( ) [ value ] ) ;
populateDeviceInformation ( ) ;
}
void DevicePropertiesDialog : : mountDisk ( ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
// Use DCOP call instead of a tdehw call for consistent behavior across TDE
DCOPRef mediamanager ( " kded " , " mediamanager " ) ;
DCOPReply reply = mediamanager . call ( " mountByNode " , sdevice - > deviceNode ( ) ) ;
TQStringVariantMap mountResult ;
if ( reply . isValid ( ) ) {
reply . get ( mountResult ) ;
}
if ( ! mountResult . contains ( " result " ) | | mountResult [ " result " ] . toBool ( ) = = false ) {
// Mount failed!
TQString errStr = mountResult . contains ( " errStr " ) ? mountResult [ " errStr " ] . toString ( ) : i18n ( " Unable to mount the device. " ) ;
KMessageBox : : error ( this , " <qt> " + errStr + " </qt> " , i18n ( " Mount failed " ) ) ;
}
populateDeviceInformation ( ) ;
}
void DevicePropertiesDialog : : unmountDisk ( ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
// Use DCOP call instead of a tdehw call for consistent behavior across TDE
DCOPRef mediamanager ( " kded " , " mediamanager " ) ;
DCOPReply reply = mediamanager . call ( " unmountByNode " , sdevice - > deviceNode ( ) ) ;
TQStringVariantMap unmountResult ;
if ( reply . isValid ( ) ) {
reply . get ( unmountResult ) ;
}
if ( ! unmountResult . contains ( " result " ) | | unmountResult [ " result " ] . toBool ( ) = = false ) {
// Unmount failed!
TQString errStr = unmountResult . contains ( " errStr " ) ? unmountResult [ " errStr " ] . toString ( ) : i18n ( " Unable to unmount the device. " ) ;
KMessageBox : : error ( this , " <qt> " + errStr + " </qt> " , i18n ( " Unmount failed " ) ) ;
}
populateDeviceInformation ( ) ;
}
void DevicePropertiesDialog : : unlockDisk ( ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
if ( ! m_passDlg )
{
m_passDlg = new PasswordDlg ( ) ;
connect ( m_passDlg , TQT_SIGNAL ( user1Clicked ( ) ) , this , TQT_SLOT ( doUnlockDisk ( ) ) ) ;
}
m_passDlg - > setDevice ( sdevice - > deviceNode ( ) ) ;
m_passDlg - > clearPassword ( ) ;
m_passDlg - > show ( ) ;
}
void DevicePropertiesDialog : : doUnlockDisk ( ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
// Use DCOP call instead of a tdehw call for consistent behavior across TDE
DCOPRef mediamanager ( " kded " , " mediamanager " ) ;
DCOPReply reply = mediamanager . call ( " unlockByNode " , sdevice - > deviceNode ( ) , m_passDlg - > getPassword ( ) ) ;
TQStringVariantMap unlockResult ;
if ( reply . isValid ( ) ) {
reply . get ( unlockResult ) ;
}
if ( ! unlockResult . contains ( " result " ) | | ! unlockResult [ " result " ] . toBool ( ) )
{
TQString errStr = unlockResult . contains ( " errStr " ) ? unlockResult [ " errStr " ] . toString ( ) : TQString : : null ;
if ( errStr . isEmpty ( ) )
{
errStr = i18n ( " <qt>Unable to unlock the device.<p>Potential reasons include:<br>Wrong password "
" and/or user privilege level.<br>Corrupt data on storage device.</qt> " ) ;
}
KMessageBox : : error ( this , errStr , i18n ( " Unlock failed " ) ) ;
m_passDlg - > clearPassword ( ) ;
}
else {
m_passDlg - > hide ( ) ;
}
populateDeviceInformation ( ) ;
}
void DevicePropertiesDialog : : lockDisk ( ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
// Use DCOP call instead of a tdehw call for consistent behavior across TDE
DCOPRef mediamanager ( " kded " , " mediamanager " ) ;
DCOPReply reply = mediamanager . call ( " lockByNode " , sdevice - > deviceNode ( ) , true ) ;
TQStringVariantMap lockResult ;
if ( reply . isValid ( ) ) {
reply . get ( lockResult ) ;
}
if ( ! lockResult . contains ( " result " ) | | lockResult [ " result " ] . toBool ( ) = = false ) {
// Lock failed!
TQString errStr = lockResult . contains ( " errStr " ) ? lockResult [ " errStr " ] . toString ( ) : i18n ( " Unable to lock the device. " ) ;
KMessageBox : : error ( this , " <qt> " + errStr + " </qt> " , i18n ( " Lock failed " ) ) ;
}
populateDeviceInformation ( ) ;
}
void DevicePropertiesDialog : : cryptLUKSAddKey ( ) {
int retcode ;
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
TQListViewItem * lvi = base - > cryptLUKSKeySlotList - > selectedItem ( ) ;
if ( lvi ) {
TDECryptographicCardDevice * cdevice = NULL ;
unsigned int key_slot = lvi - > text ( 0 ) . toUInt ( ) ;
bool allow_card = false ;
bool use_card = false ;
bool luks_card_key_modified = false ;
KSSLCertificate * card_cert = NULL ;
X509 * card_cert_x509 ;
TQString disk_uuid = sdevice - > diskUUID ( ) ;
TDEGenericDevice * hwdevice ;
TDEHardwareDevices * hwdevices = TDEGlobal : : hardwareDevices ( ) ;
TDEGenericHardwareList cardReaderList = hwdevices - > listByDeviceClass ( TDEGenericDeviceType : : CryptographicCard ) ;
for ( hwdevice = cardReaderList . first ( ) ; hwdevice ; hwdevice = cardReaderList . next ( ) ) {
cdevice = static_cast < TDECryptographicCardDevice * > ( hwdevice ) ;
X509CertificatePtrList certList = cdevice - > cardX509Certificates ( ) ;
if ( certList . count ( ) > 0 ) {
allow_card = true ;
card_cert_x509 = certList [ 0 ] ;
card_cert = KSSLCertificate : : fromX509 ( certList [ 0 ] ) ;
}
}
TQByteArray new_password ;
CryptPasswordDialog * passDlg = new CryptPasswordDialog ( this , i18n ( " Enter the new LUKS password for key slot %1 " ) . arg ( key_slot ) , TQString : : null , allow_card , card_cert , & use_card ) ;
if ( passDlg - > exec ( ) = = TQDialog : : Accepted ) {
new_password = passDlg - > password ( ) ;
if ( allow_card & & use_card ) {
// Create new private key for disk device
if ( ! TQDir ( " /etc/trinity/luks " ) . exists ( ) ) {
TQDir directory ;
if ( ! directory . mkdir ( " /etc/trinity/luks " , true ) ) {
KMessageBox : : error ( this , i18n ( " <qt><b>Key creation failed</b><br>Please check that you have write access to /etc/trinity and try again</qt> " ) , i18n ( " Key creation failure " ) ) ;
delete card_cert ;
return ;
}
}
if ( ! TQDir ( " /etc/trinity/luks/card " ) . exists ( ) ) {
TQDir directory ;
if ( ! directory . mkdir ( " /etc/trinity/luks/card " , true ) ) {
KMessageBox : : error ( this , i18n ( " <qt><b>Key creation failed</b><br>Please check that you have write access to /etc/trinity/luks and try again</qt> " ) , i18n ( " Key creation failure " ) ) ;
delete card_cert ;
return ;
}
}
TQString cryptoFileName = TQString ( " /etc/trinity/luks/card/%1_slot%2 " ) . arg ( disk_uuid ) . arg ( key_slot ) ;
TQFile file ( cryptoFileName ) ;
if ( file . exists ( ) ) {
if ( KMessageBox : : warningYesNo ( this , i18n ( " <qt><b>You are about to overwrite an existing card key for LUKS key slot %1</b><br>This action cannot be undone<p>Are you sure you want to proceed?</qt> " ) . arg ( key_slot ) , i18n ( " Confirmation Required " ) ) ! = KMessageBox : : Yes ) {
delete card_cert ;
return ;
}
}
if ( file . open ( IO_WriteOnly ) ) {
TQByteArray randomKey ;
TQByteArray encryptedRandomKey ;
// Create a new secret key using the public key from the card certificate
if ( TDECryptographicCardDevice : : createNewSecretRSAKeyFromCertificate ( randomKey , encryptedRandomKey , card_cert_x509 ) < 0 ) {
KMessageBox : : error ( this , i18n ( " <qt><b>Key creation failed</b><br>Unable to create new secret key using the provided X509 certificate</qt> " ) , i18n ( " Key creation failure " ) ) ;
delete card_cert ;
return ;
}
// Write the encrypted key file to disk
file . writeBlock ( encryptedRandomKey , encryptedRandomKey . size ( ) ) ;
file . close ( ) ;
// Use the secret key as the LUKS passcode
new_password = randomKey ;
luks_card_key_modified = true ;
}
else {
KMessageBox : : error ( this , i18n ( " <qt><b>Key creation failed</b><br>Please check that you have write access to /etc/trinity/luks/card and try again</qt> " ) , i18n ( " Key creation failure " ) ) ;
delete card_cert ;
return ;
}
}
delete passDlg ;
if ( ! sdevice - > cryptOperationsUnlockPasswordSet ( ) ) {
TQCString password ;
passDlg = new CryptPasswordDialog ( this , i18n ( " Enter the LUKS device unlock password " ) , TQString : : null , allow_card , card_cert , & use_card ) ;
if ( passDlg - > exec ( ) = = TQDialog : : Accepted ) {
TQByteArray unlockPassword = passDlg - > password ( ) ;
if ( use_card ) {
// List all matching keys in directory and try each in turn...
TQDir luksKeyDir ( " /etc/trinity/luks/card/ " ) ;
luksKeyDir . setFilter ( TQDir : : Files ) ;
luksKeyDir . setSorting ( TQDir : : Unsorted ) ;
TQValueList < TQByteArray > luksCryptedList ;
TQValueList < TQByteArray > luksDecryptedList ;
TQValueList < int > luksSlotNumberList ;
const TQFileInfoList * luksKeyDirList = luksKeyDir . entryInfoList ( ) ;
TQFileInfoListIterator it ( * luksKeyDirList ) ;
TQFileInfo * luksKeyFileInfo ;
TQString errstr ;
while ( ( luksKeyFileInfo = it . current ( ) ) ! = 0 ) {
if ( luksKeyFileInfo - > fileName ( ) . startsWith ( disk_uuid ) & & luksKeyFileInfo - > fileName ( ) . contains ( " _slot " ) ) {
// Found candidate, try decryption
TQFile luksKeyFile ( luksKeyFileInfo - > absFilePath ( ) ) ;
if ( luksKeyFile . open ( IO_ReadOnly ) ) {
TQByteArray keycrypted = luksKeyFile . readAll ( ) ;
luksCryptedList . append ( keycrypted ) ;
// Parse the file name and find the matching key slot
int current_card_keyslot = - 1 ;
TQString fileName = luksKeyFile . name ( ) ;
int pos = fileName . find ( " _slot " ) ;
if ( pos > = 0 ) {
fileName . remove ( 0 , pos + strlen ( " _slot " ) ) ;
current_card_keyslot = fileName . toInt ( ) ;
luksSlotNumberList . append ( current_card_keyslot ) ;
}
}
}
+ + it ;
}
// Decrypt LUKS keys
TQValueList < int > retCodeList ;
retcode = cdevice - > decryptDataEncryptedWithCertPublicKey ( luksCryptedList , luksDecryptedList , retCodeList , & errstr ) ;
TQValueList < TQByteArray > : : iterator it2 ;
TQValueList < int > : : iterator it3 ;
TQValueList < int > : : iterator it4 ;
for ( it2 = luksDecryptedList . begin ( ) , it3 = retCodeList . begin ( ) , it4 = luksSlotNumberList . begin ( ) ; it2 ! = luksDecryptedList . end ( ) ; + + it2 , + + it3 , + + it4 ) {
TQByteArray luksKeyData = * it2 ;
retcode = * it3 ;
int current_card_keyslot = * it4 ;
if ( retcode = = - 3 ) {
// User cancelled
break ;
}
if ( retcode < 0 ) {
// ERROR
}
else {
// Key decryption successful, try to open LUKS device...
sdevice - > cryptSetOperationsUnlockPassword ( luksKeyData ) ;
if ( sdevice - > cryptCheckKey ( current_card_keyslot ) = = TDELUKSResult : : Success ) {
break ;
}
else {
sdevice - > cryptClearOperationsUnlockPassword ( ) ;
}
}
}
if ( ! sdevice - > cryptOperationsUnlockPasswordSet ( ) ) {
KMessageBox : : error ( this , i18n ( " <qt><b>Key write failed</b><br>Please check the LUKS password and try again</qt> " ) , i18n ( " Key write failure " ) ) ;
}
}
else {
sdevice - > cryptSetOperationsUnlockPassword ( unlockPassword ) ;
}
}
delete passDlg ;
}
if ( sdevice - > cryptOperationsUnlockPasswordSet ( ) ) {
if ( ( lvi - > text ( 1 ) = = sdevice - > cryptKeySlotFriendlyName ( TDELUKSKeySlotStatus : : Inactive ) ) | | ( KMessageBox : : warningYesNo ( this , i18n ( " <qt><b>You are about to overwrite the key in key slot %1</b><br>This action cannot be undone<p>Are you sure you want to proceed?</qt> " ) . arg ( key_slot ) , i18n ( " Confirmation Required " ) ) = = KMessageBox : : Yes ) ) {
if ( sdevice - > cryptAddKey ( key_slot , new_password ) ! = TDELUKSResult : : Success ) {
sdevice - > cryptClearOperationsUnlockPassword ( ) ;
KMessageBox : : error ( this , i18n ( " <qt><b>Key write failed</b><br>Please check the LUKS password and try again</qt> " ) , i18n ( " Key write failure " ) ) ;
}
else {
if ( luks_card_key_modified ) {
if ( KMessageBox : : warningYesNo ( this , i18n ( " <qt><b>You have created a new card-dependent key</b><br>Card-dependent keys work in conjunction with an encrypted key file stored on the host system.<br>When a card is used to boot, card-dependent keys must be updated in the initramfs image to become usable.<p>Would you like to update the initramfs image now?</qt> " ) , i18n ( " Update Required " ) ) = = KMessageBox : : Yes ) {
// Update the initramfs
if ( system ( " update-initramfs -u -k all " ) ! = 0 ) {
KMessageBox : : error ( this , i18n ( " <qt><b>Initramfs update failed</b><br>Card-dependent keys may not be available for use until the root storage device is available / unlocked</qt> " ) , i18n ( " Initramfs update failure " ) ) ;
}
}
}
}
}
}
}
else {
delete passDlg ;
}
delete card_cert ;
}
}
cryptLUKSPopulateList ( ) ;
}
void DevicePropertiesDialog : : cryptLUKSDelKey ( ) {
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
TQListViewItem * lvi = base - > cryptLUKSKeySlotList - > selectedItem ( ) ;
if ( lvi ) {
unsigned int key_slot = lvi - > text ( 0 ) . toUInt ( ) ;
if ( KMessageBox : : warningYesNo ( this , i18n ( " <qt><b>You are about to purge the key in key slot %1</b><br>This action cannot be undone<p>Are you sure you want to proceed?</qt> " ) . arg ( lvi - > text ( 0 ) ) , i18n ( " Confirmation Required " ) ) = = KMessageBox : : Yes ) {
if ( sdevice - > cryptKeySlotStatus ( ) [ key_slot ] & TDELUKSKeySlotStatus : : Last ) {
if ( KMessageBox : : warningYesNo ( this , i18n ( " <qt><b>You are about to purge the last active key from the device!</b><p>This action will render the contents of the encrypted device permanently inaccessable and cannot be undone<p>Are you sure you want to proceed?</qt> " ) , i18n ( " Confirmation Required " ) ) ! = KMessageBox : : Yes ) {
cryptLUKSPopulateList ( ) ;
return ;
}
}
if ( sdevice - > cryptDelKey ( key_slot ) ! = TDELUKSResult : : Success ) {
sdevice - > cryptClearOperationsUnlockPassword ( ) ;
KMessageBox : : error ( this , i18n ( " <qt><b>Key purge failed</b><br>The key in key slot %1 is still active</qt> " ) . arg ( lvi - > text ( 0 ) ) , i18n ( " Key purge failure " ) ) ;
}
else {
// See if there was a cryptographic card key associated with this device and slot
TQString disk_uuid = sdevice - > diskUUID ( ) ;
TQDir luksKeyDir ( " /etc/trinity/luks/card/ " ) ;
luksKeyDir . setFilter ( TQDir : : Files ) ;
luksKeyDir . setSorting ( TQDir : : Unsorted ) ;
const TQFileInfoList * luksKeyDirList = luksKeyDir . entryInfoList ( ) ;
TQFileInfoListIterator it ( * luksKeyDirList ) ;
TQFileInfo * luksKeyFileInfo ;
TQString errstr ;
while ( ( luksKeyFileInfo = it . current ( ) ) ! = 0 ) {
if ( luksKeyFileInfo - > fileName ( ) . startsWith ( disk_uuid ) & & luksKeyFileInfo - > fileName ( ) . contains ( " _slot " ) ) {
// Parse the file name and find the matching key slot
int current_card_keyslot = - 1 ;
TQString fileName = luksKeyFileInfo - > absFilePath ( ) ;
TQString fileNameSlot = fileName ;
int pos = fileNameSlot . find ( " _slot " ) ;
if ( pos > = 0 ) {
fileNameSlot . remove ( 0 , pos + strlen ( " _slot " ) ) ;
current_card_keyslot = fileNameSlot . toInt ( ) ;
if ( current_card_keyslot > = 0 ) {
if ( ( unsigned int ) current_card_keyslot = = key_slot ) {
if ( ! TQFile ( fileName ) . remove ( ) ) {
KMessageBox : : error ( this , i18n ( " <qt><b>Card key purge failed</b><br>The card key for slot %1 has been fully deactivated but is still present on your system<br>This does not present a significant security risk</qt> " ) . arg ( lvi - > text ( 0 ) ) , i18n ( " Key purge failure " ) ) ;
}
break ;
}
}
}
}
+ + it ;
}
}
}
}
}
cryptLUKSPopulateList ( ) ;
}
void DevicePropertiesDialog : : cryptLUKSPopulateList ( ) {
unsigned int i ;
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
base - > cryptLUKSKeySlotList - > clear ( ) ;
unsigned int count = sdevice - > cryptKeySlotCount ( ) ;
TDELUKSKeySlotStatusList status = sdevice - > cryptKeySlotStatus ( ) ;
for ( i = 0 ; i < count ; i + + ) {
new TQListViewItem ( base - > cryptLUKSKeySlotList , TQString ( " %1 " ) . arg ( i ) , sdevice - > cryptKeySlotFriendlyName ( status [ i ] ) ) ;
}
processLockouts ( ) ;
}
void DevicePropertiesDialog : : processLockouts ( ) {
if ( m_device - > type ( ) = = TDEGenericDeviceType : : Disk ) {
TDEStorageDevice * sdevice = static_cast < TDEStorageDevice * > ( m_device ) ;
TQListViewItem * lvi = base - > cryptLUKSKeySlotList - > selectedItem ( ) ;
if ( lvi ) {
if ( lvi - > text ( 1 ) = = sdevice - > cryptKeySlotFriendlyName ( TDELUKSKeySlotStatus : : Active ) ) {
base - > cryptLUKSAddKey - > setEnabled ( true ) ;
base - > cryptLUKSDelKey - > setEnabled ( true ) ;
}
else {
base - > cryptLUKSAddKey - > setEnabled ( true ) ;
base - > cryptLUKSDelKey - > setEnabled ( false ) ;
}
}
else {
base - > cryptLUKSAddKey - > setEnabled ( false ) ;
base - > cryptLUKSDelKey - > setEnabled ( false ) ;
}
}
}
void DevicePropertiesDialog : : virtual_hook ( int id , void * data )
{ KDialogBase : : virtual_hook ( id , data ) ; }
# include "devicepropsdlg.moc"