/* This file is part of TDE Copyright (C) 2012 Timothy Pearson 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #undef Unsorted // Required for --enable-final (tqdir.h) #include #include #include #include #include #include #include #include #include #include #include #include #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_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, TQ_SIGNAL(activated(const TQString &)), this, TQ_SLOT(setCPUGovernor(const TQString &))); } if (m_device->type() == TDEGenericDeviceType::Disk) { TDEStorageDevice* sdevice = static_cast(m_device); connect(base->buttonDiskMount, TQ_SIGNAL(clicked()), this, TQ_SLOT(mountDisk())); connect(base->buttonDiskUnmount, TQ_SIGNAL(clicked()), this, TQ_SLOT(unmountDisk())); connect(base->buttonDiskUnlock, TQ_SIGNAL(clicked()), this, TQ_SLOT(unlockDisk())); connect(base->buttonDiskLock, TQ_SIGNAL(clicked()), this, TQ_SLOT(lockDisk())); connect(base->buttonDiskEject, TQ_SIGNAL(clicked()), this, TQ_SLOT(ejectDisk())); connect(base->buttonDiskSafeRemove, TQ_SIGNAL(clicked()), this, TQ_SLOT(safeRemoveDisk())); if (sdevice->isDiskOfType(TDEDiskDeviceType::LUKS)) { connect(base->cryptLUKSAddKey, TQ_SIGNAL(clicked()), this, TQ_SLOT(cryptLUKSAddKey())); connect(base->cryptLUKSDelKey, TQ_SIGNAL(clicked()), this, TQ_SLOT(cryptLUKSDelKey())); connect(base->cryptLUKSKeySlotList, TQ_SIGNAL(selectionChanged()), this, TQ_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, TQ_SIGNAL(valueChanged(int)), this, TQ_SLOT(setBacklightBrightness(int))); } if (m_device->type() == TDEGenericDeviceType::RootSystem) { connect(base->comboSystemHibernationMethod, TQ_SIGNAL(activated(int)), this, TQ_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, TQ_SIGNAL(hardwareRemoved(TDEGenericDevice*)), this, TQ_SLOT(processHardwareRemoved(TDEGenericDevice*))); connect(hwdevices, TQ_SIGNAL(hardwareUpdated(TDEGenericDevice*)), this, TQ_SLOT(processHardwareUpdated(TDEGenericDevice*))); populateDeviceInformation(); } DevicePropertiesDialog::~DevicePropertiesDialog() { } 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("
")); } static TQString formatDisplayString(TQString input) { return TQStyleSheet::escape(input); } bool DevicePropertiesDialog::isMonitoredDevice(TDEStorageDevice *sdevice) { // Type selection logic largely duplicated from the media manager tdeioslave return ((sdevice->isDiskOfType(TDEDiskDeviceType::LUKS) || sdevice->checkDiskStatus(TDEDiskDeviceStatus::ContainsFilesystem) || sdevice->isDiskOfType(TDEDiskDeviceType::CDAudio) || sdevice->checkDiskStatus(TDEDiskDeviceStatus::Blank)) && !sdevice->checkDiskStatus(TDEDiskDeviceStatus::Hidden) && (sdevice->isDiskOfType(TDEDiskDeviceType::HDD) || sdevice->isDiskOfType(TDEDiskDeviceType::CDROM) || sdevice->isDiskOfType(TDEDiskDeviceType::CDR) || sdevice->isDiskOfType(TDEDiskDeviceType::CDRW) || sdevice->isDiskOfType(TDEDiskDeviceType::CDMO) || sdevice->isDiskOfType(TDEDiskDeviceType::CDMRRW) || sdevice->isDiskOfType(TDEDiskDeviceType::CDMRRWW) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDROM) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDRAM) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDR) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDRW) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDRDL) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDRWDL) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDPLUSR) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDPLUSRW) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDPLUSRDL) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDPLUSRWDL) || sdevice->isDiskOfType(TDEDiskDeviceType::BDROM) || sdevice->isDiskOfType(TDEDiskDeviceType::BDR) || sdevice->isDiskOfType(TDEDiskDeviceType::BDRW) || sdevice->isDiskOfType(TDEDiskDeviceType::HDDVDROM) || sdevice->isDiskOfType(TDEDiskDeviceType::HDDVDR) || sdevice->isDiskOfType(TDEDiskDeviceType::HDDVDRW) || sdevice->isDiskOfType(TDEDiskDeviceType::CDAudio) || sdevice->isDiskOfType(TDEDiskDeviceType::CDVideo) || sdevice->isDiskOfType(TDEDiskDeviceType::DVDVideo) || sdevice->isDiskOfType(TDEDiskDeviceType::BDVideo) || sdevice->isDiskOfType(TDEDiskDeviceType::Floppy) || sdevice->isDiskOfType(TDEDiskDeviceType::Zip) || sdevice->isDiskOfType(TDEDiskDeviceType::Jaz) || sdevice->isDiskOfType(TDEDiskDeviceType::Camera))); } 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(""):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(""):m_device->deviceDriver())); base->labelDeviceClass->setText(formatDisplayString((m_device->PCIClass().isNull())?i18n(""):m_device->PCIClass())); base->labelModalias->setText(formatDisplayString((m_device->moduleAlias().isNull())?i18n(""):m_device->moduleAlias())); // These might be redundant #if 0 base->labelVendorName->setText((m_device->vendorName().isNull())?i18n(""):m_device->vendorName()); base->labelVendorModel->setText((m_device->vendorModel().isNull())?i18n(""):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(""):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(m_device); TQString mountPoint = sdevice->mountPath(); if (mountPoint == "") mountPoint = i18n(""); base->labelDiskMountpoint->setText(formatDisplayString(mountPoint)); TQString fsName = sdevice->fileSystemName(); if (fsName == "") fsName = i18n(""); base->labelDiskFileSystemType->setText(formatDisplayString(fsName)); TQString volUUID = sdevice->diskUUID(); if (volUUID == "") volUUID = i18n(""); base->labelDiskUUID->setText(formatDisplayString(volUUID)); TQString mappedName = sdevice->mappedName(); if (mappedName == "") mappedName = i18n(""); base->labelMappedName->setText(formatDisplayString(mappedName)); // Show status TQString status_text = ""; if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Mountable)) { status_text += i18n("Mountable") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Removable)) { status_text += i18n("Removable") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Inserted)) { status_text += i18n("Inserted") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Blank)) { status_text += i18n("Blank") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::UsedByDevice)) { status_text += i18n("In use") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::UsesDevice)) { status_text += i18n("Uses other device") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::ContainsFilesystem)) { status_text += i18n("Contains a filesystem") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Hotpluggable)) { status_text += i18n("Hotpluggable") + "
"; } if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Hidden)) { status_text += i18n("Hidden") + "
"; } if (status_text == "") { status_text += "" + i18n("Unknown") + ""; } status_text += ""; base->labelDiskStatus->setText(status_text); // Update action button status base->buttonDiskMount->setEnabled(false); base->buttonDiskUnmount->setEnabled(false); base->buttonDiskUnlock->setEnabled(false); base->buttonDiskLock->setEnabled(false); base->buttonDiskEject->setEnabled(false); base->buttonDiskSafeRemove->setEnabled(false); base->buttonDiskMount->setHidden(true); base->buttonDiskUnmount->setHidden(true); base->buttonDiskUnlock->setHidden(true); base->buttonDiskLock->setHidden(true); base->buttonDiskEject->setHidden(true); base->buttonDiskSafeRemove->setHidden(true); bool showGroup = false; if (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Mountable)) { base->buttonDiskMount->setEnabled((sdevice->mountPath() == "")); base->buttonDiskUnmount->setEnabled((sdevice->mountPath() != "")); base->buttonDiskMount->setHidden(false); base->buttonDiskUnmount->setHidden(false); showGroup = true; } else if (sdevice->isDiskOfType(TDEDiskDeviceType::LUKS) || sdevice->isDiskOfType(TDEDiskDeviceType::OtherCrypted)) { base->buttonDiskUnlock->setEnabled(!sdevice->isDiskOfType(TDEDiskDeviceType::UnlockedCrypt)); base->buttonDiskLock->setEnabled(sdevice->isDiskOfType(TDEDiskDeviceType::UnlockedCrypt)); base->buttonDiskUnlock->setHidden(false); base->buttonDiskLock->setHidden(false); showGroup = true; } if (isMonitoredDevice(sdevice) && (sdevice->checkDiskStatus(TDEDiskDeviceStatus::Removable) || sdevice->checkDiskStatus(TDEDiskDeviceStatus::Hotpluggable))) { base->buttonDiskEject->setEnabled(true); base->buttonDiskSafeRemove->setEnabled(true); base->buttonDiskEject->setHidden(false); base->buttonDiskSafeRemove->setHidden(false); showGroup = true; } if (showGroup) { base->groupDiskActions->show(); } else { base->groupDiskActions->hide(); } } if (m_device->type() == TDEGenericDeviceType::CPU) { TDECPUDevice* cdevice = static_cast(m_device); // Show information base->labelCPUVendor->setText(cdevice->vendorEncoded()); base->labelCPUFrequency->setText((cdevice->frequency()<0)?i18n(""):TQString("%1 MHz").arg(cdevice->frequency())); base->labelMinCPUFrequency->setText((cdevice->minFrequency()<0)?i18n(""):TQString("%1 MHz").arg(cdevice->minFrequency())); base->labelMaxCPUFrequency->setText((cdevice->maxFrequency()<0)?i18n(""):TQString("%1 MHz").arg(cdevice->maxFrequency())); base->labelScalingDriver->setText((cdevice->scalingDriver().isNull())?i18n(""):cdevice->scalingDriver()); TQStringList scalingfreqs = cdevice->availableFrequencies(); if (scalingfreqs.count() > 0) { TQString scalingfreqsstring = ""; for ( TQStringList::Iterator it = scalingfreqs.begin(); it != scalingfreqs.end(); ++it ) { TQString freq = (*it); scalingfreqsstring.append(TQString("%1 MHz
").arg(freq.toDouble()/1000)); } scalingfreqsstring.append("
"); base->labelScalingFrequencies->setText(scalingfreqsstring); } else { base->labelScalingFrequencies->setText(i18n("")); } TQStringList dependentcpus = cdevice->dependentProcessors(); if (dependentcpus.count() > 0) { TQString dependentcpusstring = ""; for ( TQStringList::Iterator it = dependentcpus.begin(); it != dependentcpus.end(); ++it ) { TQString proc = (*it); dependentcpusstring.append(TQString("CPU %1
").arg(proc)); } dependentcpusstring.append("
"); base->labelDependentCPUs->setText(dependentcpusstring); } else { base->labelDependentCPUs->setText(i18n("")); } 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(m_device); TDESensorClusterMap map = sdevice->values(); TDESensorClusterMap::Iterator it; unsigned int i; if (m_sensorDataGridWidgets.count() != map.count()) { m_sensorDataGridWidgets.clear(); for (i=0;igroupSensors); 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(""); } 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(m_device); base->labelCurrentBatteryEnergy->setText((bdevice->energy()<0)?i18n(""):TQString("%1 Ah").arg(bdevice->energy())); base->labelMaximumBatteryEnergy->setText((bdevice->maximumEnergy()<0)?i18n(""):TQString("%1 Ah").arg(bdevice->maximumEnergy())); base->labelMaximumBatteryDesignEnergy->setText((bdevice->maximumDesignEnergy()<0)?i18n(""):TQString("%1 Ah").arg(bdevice->maximumDesignEnergy())); base->labelMinimumBatteryVoltage->setText((bdevice->minimumVoltage()<0)?i18n(""):TQString("%1 V").arg(bdevice->minimumVoltage())); base->labelCurrentBatteryVoltage->setText((bdevice->voltage()<0)?i18n(""):TQString("%1 V").arg(bdevice->voltage())); base->labelCurrentBatteryDischargeRate->setText((bdevice->dischargeRate()<0)?i18n(""):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(""):bdevice->technology()); base->labelBatteryInstalled->setText((bdevice->installed()==0)?i18n("No"):i18n("Yes")); base->labelBatteryCharge->setText((bdevice->chargePercent()<0)?i18n(""):TQString("%1 %").arg(bdevice->chargePercent())); base->labelBatteryTimeRemaining->setText((bdevice->timeRemaining()<0)?i18n(""):TQString("%1 seconds").arg(bdevice->timeRemaining())); } if (m_device->type() == TDEGenericDeviceType::PowerSupply) { TDEMainsPowerDevice* pdevice = static_cast(m_device); base->labelPowerSupplyOnline->setText((pdevice->online()==0)?i18n("No"):i18n("Yes")); } if (m_device->type() == TDEGenericDeviceType::Network) { TDENetworkDevice* ndevice = static_cast(m_device); base->labelNetworkMAC->setText((ndevice->macAddress().isNull())?i18n(""):ndevice->macAddress()); base->labelNetworkState->setText((ndevice->state().isNull())?i18n(""):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(""):ndevice->ipV4Address()); base->labelNetworkIPV4Netmask->setText((ndevice->ipV4Netmask().isNull())?i18n(""):ndevice->ipV4Netmask()); base->labelNetworkIPV4Broadcast->setText((ndevice->ipV4Broadcast().isNull())?i18n(""):ndevice->ipV4Broadcast()); base->labelNetworkIPV4Destination->setText((ndevice->ipV4Destination().isNull())?i18n(""):ndevice->ipV4Destination()); base->labelNetworkIPV6Address->setText((ndevice->ipV6Address().isNull())?i18n(""):ndevice->ipV6Address()); base->labelNetworkIPV6Netmask->setText((ndevice->ipV6Netmask().isNull())?i18n(""):ndevice->ipV6Netmask()); base->labelNetworkIPV6Broadcast->setText((ndevice->ipV6Broadcast().isNull())?i18n(""):ndevice->ipV6Broadcast()); base->labelNetworkIPV6Destination->setText((ndevice->ipV6Destination().isNull())?i18n(""):ndevice->ipV6Destination()); base->labelNetworkRXBytes->setText((ndevice->rxBytes()<0)?i18n(""):TDEHardwareDevices::bytesToFriendlySizeString(ndevice->rxBytes())); base->labelNetworkTXBytes->setText((ndevice->txBytes()<0)?i18n(""):TDEHardwareDevices::bytesToFriendlySizeString(ndevice->txBytes())); base->labelNetworkRXPackets->setText((ndevice->rxPackets()<0)?i18n(""):TQString("%1").arg(ndevice->rxPackets())); base->labelNetworkTXPackets->setText((ndevice->txPackets()<0)?i18n(""):TQString("%1").arg(ndevice->txPackets())); } if (m_device->type() == TDEGenericDeviceType::Backlight) { TDEBacklightDevice* bdevice = static_cast(m_device); base->labelBacklightStatus->setText((bdevice->powerLevel()==TDEDisplayPowerLevel::On)?i18n("On"):i18n("Off")); base->labelBacklightBrightness->setText((bdevice->brightnessPercent()<0)?i18n(""):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(m_device); base->labelDisplayPortType->setText((mdevice->portType().isNull())?i18n(""):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 = ""; TDEResolutionList::iterator it; for (it = resolutionList.begin(); it != resolutionList.end(); ++it) { TDEResolutionPair res = *it; resolutionsstring += TQString("%1x%2
").arg(res.first).arg(res.second); } resolutionsstring += "
"; base->labelDisplayResolutions->setText(resolutionsstring); } else { base->labelDisplayResolutions->setText(i18n("")); } // RandR warning base->labelRandrWarning->setText(i18n("NOTE: Any further integration of displays into TDE REQUIRES multi GPU support and other features slated for RandR 2.0.

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 please tell the Xorg developers at http://www.x.org/wiki/XorgMailingLists

The TDE project badly needs these features before it can proceed with graphical monitor configuration tools:
* GPU object support
* The ability to query the active driver name for any Xorg output

To recap, this is not a TDE shortcoming, but rather is the result of a lack of fundamental Linux support for graphics configuration!")); } if (m_device->type() == TDEGenericDeviceType::RootSystem) { TDERootSystemDevice* rdevice = static_cast(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 = ""; TDESystemPowerStateList::iterator it; for (it = powerStates.begin(); it != powerStates.end(); ++it) { if ((*it) == TDESystemPowerState::Active) { powerStatesString += i18n("Active
"); } else if ((*it) == TDESystemPowerState::Standby) { powerStatesString += i18n("Standby
"); } else if ((*it) == TDESystemPowerState::Freeze) { powerStatesString += i18n("Freeze
"); } else if ((*it) == TDESystemPowerState::Suspend) { powerStatesString += i18n("Suspend
"); } else if ((*it) == TDESystemPowerState::Hibernate) { powerStatesString += i18n("Hibernate
"); } else if ((*it) == TDESystemPowerState::HybridSuspend) { powerStatesString += i18n("Hybrid Suspend
"); } else if ((*it) == TDESystemPowerState::PowerOff) { powerStatesString += i18n("Power Off
"); } } powerStatesString += "
"; } else { powerStatesString += i18n(""); } 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(""); } 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(""):TDEHardwareDevices::bytesToFriendlySizeString(rdevice->diskSpaceNeededForHibernation())); } if (m_device->type() == TDEGenericDeviceType::Event) { TDEEventDevice* edevice = static_cast(m_device); TQString availableSwitches; if (edevice->providedSwitches() == TDESwitchType::Null) { availableSwitches = i18n(""); } else { availableSwitches = ""; availableSwitches += assembleSwitchList(edevice->providedSwitches()); availableSwitches += ""; } base->labelEventSwitchTypes->setText(availableSwitches); TQString activeSwitches; if (edevice->activeSwitches() == TDESwitchType::Null) { activeSwitches = i18n(""); } else { activeSwitches = ""; activeSwitches += assembleSwitchList(edevice->activeSwitches()); activeSwitches += ""; } base->labelEventSwitchActive->setText(activeSwitches); } if (m_device->type() == TDEGenericDeviceType::CryptographicCard) { TDECryptographicCardDevice* cdevice = static_cast(m_device); connect(cdevice, TQ_SIGNAL(cardInserted(TDECryptographicCardDevice*)), this, TQ_SLOT(cryptographicCardInserted())); connect(cdevice, TQ_SIGNAL(cardRemoved(TDECryptographicCardDevice*)), this, TQ_SLOT(cryptographicCardRemoved())); updateCryptographicCardStatusDisplay(); } } } void DevicePropertiesDialog::cryptographicCardInserted() { updateCryptographicCardStatusDisplay(); } void DevicePropertiesDialog::cryptographicCardRemoved() { updateCryptographicCardStatusDisplay(); } void DevicePropertiesDialog::updateCryptographicCardStatusDisplay() { TDECryptographicCardDevice* cdevice = static_cast(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("
") + 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 = ""; 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) + ":
"; certInfo += i18n("Subject") + ": " + tdeCert->getSubject() + "
"; certInfo += i18n("Issuer") + ": " + tdeCert->getIssuer() + "
"; certInfo += i18n("Status") + ": " + KSSLCertificate::verifyText(validationStatus) + "
"; certInfo += i18n("Valid From") + ": " + tdeCert->getNotBefore() + "
"; certInfo += i18n("Valid Until") + ": " + tdeCert->getNotAfter() + "
"; certInfo += i18n("Serial Number") + ": " + tdeCert->getSerialNumber() + "
"; certInfo += i18n("MD5 Digest") + ": " + tdeCert->getMD5DigestText() + "
"; certInfo += "

"; delete tdeCert; certificate_number++; } certInfo += ""; base->labelCardCertificates->setText(certInfo); base->groupCardCerts->show(); } else { base->labelCardCertificates->setText(""); base->groupCardCerts->hide(); } } } void DevicePropertiesDialog::setCPUGovernor(const TQString &governor) { TDECPUDevice* cdevice = static_cast(m_device); cdevice->setGovernor(governor); populateDeviceInformation(); } void DevicePropertiesDialog::setBacklightBrightness(int value) { TDEBacklightDevice* bdevice = static_cast(m_device); bdevice->setRawBrightness(value); } void DevicePropertiesDialog::setHibernationMethod(int value) { TDERootSystemDevice* rdevice = static_cast(m_device); rdevice->setHibernationMethod(m_hibernationComboMap.keys()[value]); populateDeviceInformation(); } void DevicePropertiesDialog::mountDisk() { TDEStorageDevice* sdevice = static_cast(m_device); TDEProcess proc; proc << "tdeio_media_mounthelper" << "-m" << sdevice->deviceNode(); if (!proc.start(TDEProcess::DontCare)) { KMessageBox::error(this, i18n("Could not start tdeio_media_mounthelper process."), i18n("Device monitor")); } } void DevicePropertiesDialog::unmountDisk() { TDEStorageDevice* sdevice = static_cast(m_device); TDEProcess proc; proc << "tdeio_media_mounthelper" << "-u" << sdevice->deviceNode(); if (!proc.start(TDEProcess::DontCare)) { KMessageBox::error(this, i18n("Could not start tdeio_media_mounthelper process."), i18n("Device monitor")); } } void DevicePropertiesDialog::unlockDisk() { TDEStorageDevice* sdevice = static_cast(m_device); TDEProcess proc; proc << "tdeio_media_mounthelper" << "-k" << sdevice->deviceNode(); if (!proc.start(TDEProcess::DontCare)) { KMessageBox::error(this, i18n("Could not start tdeio_media_mounthelper process."), i18n("Device monitor")); } } void DevicePropertiesDialog::lockDisk() { TDEStorageDevice* sdevice = static_cast(m_device); TDEProcess proc; proc << "tdeio_media_mounthelper" << "-l" << sdevice->deviceNode(); if (!proc.start(TDEProcess::DontCare)) { KMessageBox::error(this, i18n("Could not start tdeio_media_mounthelper process."), i18n("Device monitor")); } } void DevicePropertiesDialog::ejectDisk() { TDEStorageDevice* sdevice = static_cast(m_device); TDEProcess proc; proc << "tdeio_media_mounthelper" << "-e" << sdevice->deviceNode(); if (!proc.start(TDEProcess::DontCare)) { KMessageBox::error(this, i18n("Could not start tdeio_media_mounthelper process."), i18n("Device monitor")); } } void DevicePropertiesDialog::safeRemoveDisk() { TDEStorageDevice* sdevice = static_cast(m_device); TDEProcess proc; proc << "tdeio_media_mounthelper" << "-s" << sdevice->deviceNode(); if (!proc.start(TDEProcess::DontCare)) { KMessageBox::error(this, i18n("Could not start tdeio_media_mounthelper process."), i18n("Device monitor")); } } void DevicePropertiesDialog::cryptLUKSAddKey() { int retcode; if (m_device->type() == TDEGenericDeviceType::Disk) { TDEStorageDevice* sdevice = static_cast(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(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("Key creation failed
Please check that you have write access to /etc/trinity and try again
"), 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("Key creation failed
Please check that you have write access to /etc/trinity/luks and try again
"), 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("You are about to overwrite an existing card key for LUKS key slot %1
This action cannot be undone

Are you sure you want to proceed?").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("Key creation failed
Unable to create new secret key using the provided X509 certificate
"), 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("Key creation failed
Please check that you have write access to /etc/trinity/luks/card and try again
"), 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 luksCryptedList; TQValueList luksDecryptedList; TQValueList 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 retCodeList; retcode = cdevice->decryptDataEncryptedWithCertPublicKey(luksCryptedList, luksDecryptedList, retCodeList, &errstr); TQValueList::iterator it2; TQValueList::iterator it3; TQValueList::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("Key write failed
Please check the LUKS password and try again
"), 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("You are about to overwrite the key in key slot %1
This action cannot be undone

Are you sure you want to proceed?").arg(key_slot), i18n("Confirmation Required")) == KMessageBox::Yes)) { if (sdevice->cryptAddKey(key_slot, new_password) != TDELUKSResult::Success) { sdevice->cryptClearOperationsUnlockPassword(); KMessageBox::error(this, i18n("Key write failed
Please check the LUKS password and try again
"), i18n("Key write failure")); } else { if (luks_card_key_modified) { if (KMessageBox::warningYesNo(this, i18n("You have created a new card-dependent key
Card-dependent keys work in conjunction with an encrypted key file stored on the host system.
When a card is used to boot, card-dependent keys must be updated in the initramfs image to become usable.

Would you like to update the initramfs image now?"), i18n("Update Required")) == KMessageBox::Yes) { // Update the initramfs if (system("update-initramfs -u -k all") != 0) { KMessageBox::error(this, i18n("Initramfs update failed
Card-dependent keys may not be available for use until the root storage device is available / unlocked
"), i18n("Initramfs update failure")); } } } } } } } else { delete passDlg; } delete card_cert; } } cryptLUKSPopulateList(); } void DevicePropertiesDialog::cryptLUKSDelKey() { if (m_device->type() == TDEGenericDeviceType::Disk) { TDEStorageDevice* sdevice = static_cast(m_device); TQListViewItem* lvi = base->cryptLUKSKeySlotList->selectedItem(); if (lvi) { unsigned int key_slot = lvi->text(0).toUInt(); if (KMessageBox::warningYesNo(this, i18n("You are about to purge the key in key slot %1
This action cannot be undone

Are you sure you want to proceed?").arg(lvi->text(0)), i18n("Confirmation Required")) == KMessageBox::Yes) { if (sdevice->cryptKeySlotStatus()[key_slot] & TDELUKSKeySlotStatus::Last) { if (KMessageBox::warningYesNo(this, i18n("You are about to purge the last active key from the device!

This action will render the contents of the encrypted device permanently inaccessable and cannot be undone

Are you sure you want to proceed?"), i18n("Confirmation Required")) != KMessageBox::Yes) { cryptLUKSPopulateList(); return; } } if (sdevice->cryptDelKey(key_slot) != TDELUKSResult::Success) { sdevice->cryptClearOperationsUnlockPassword(); KMessageBox::error(this, i18n("Key purge failed
The key in key slot %1 is still active
").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("Card key purge failed
The card key for slot %1 has been fully deactivated but is still present on your system
This does not present a significant security risk
").arg(lvi->text(0)), i18n("Key purge failure")); } break; } } } } ++it; } } } } } cryptLUKSPopulateList(); } void DevicePropertiesDialog::cryptLUKSPopulateList() { unsigned int i; TDEStorageDevice* sdevice = static_cast(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(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"