/* === This file is part of Calamares - === * * Copyright 2014-2017, Teo Mrnjavac * Copyright 2017-2019, Adriaan de Groot * Copyright 2019, Collabora Ltd * * Calamares is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * Calamares 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with Calamares. If not, see . */ #include "ChoicePage.h" #include "core/BootLoaderModel.h" #include "core/DeviceModel.h" #include "core/KPMHelpers.h" #include "core/OsproberEntry.h" #include "core/PartUtils.h" #include "core/PartitionActions.h" #include "core/PartitionCoreModule.h" #include "core/PartitionInfo.h" #include "core/PartitionIterator.h" #include "core/PartitionModel.h" #include "BootInfoWidget.h" #include "DeviceInfoWidget.h" #include "PartitionBarsView.h" #include "PartitionLabelsView.h" #include "PartitionSplitterWidget.h" #include "PrettyRadioButton.h" #include "ReplaceWidget.h" #include "ScanningDialog.h" #include "utils/CalamaresUtilsGui.h" #include "utils/Logger.h" #include "utils/Retranslator.h" #include "utils/Units.h" #include "Branding.h" #include "GlobalStorage.h" #include "JobQueue.h" #include #include #ifdef WITH_KPMCORE4API #include #endif #include #include #include #include #include #include #include #include using PartitionActions::Choices::SwapChoice; /** @brief Given a set of swap choices, return a sensible value from it. * * "Sensible" here means: if there is one value, use it; otherwise, use * NoSwap if there are no choices, or if NoSwap is one of the choices, in the set. * If that's not possible, any value from the set. */ SwapChoice pickOne( const SwapChoiceSet& s ) { if ( s.count() == 0 ) return SwapChoice::NoSwap; if ( s.count() == 1 ) return *( s.begin() ); if ( s.contains( SwapChoice::NoSwap ) ) return SwapChoice::NoSwap; // Here, count > 1 but NoSwap is not a member. return *( s.begin() ); } /** * @brief ChoicePage::ChoicePage is the default constructor. Called on startup as part of * the module loading code path. * @param parent the QWidget parent. */ ChoicePage::ChoicePage( const SwapChoiceSet& swapChoices, QWidget* parent ) : QWidget( parent ) , m_nextEnabled( false ) , m_core( nullptr ) , m_choice( NoChoice ) , m_isEfi( false ) , m_grp( nullptr ) , m_alongsideButton( nullptr ) , m_eraseButton( nullptr ) , m_replaceButton( nullptr ) , m_somethingElseButton( nullptr ) , m_eraseSwapChoiceComboBox( nullptr ) , m_deviceInfoWidget( nullptr ) , m_beforePartitionBarsView( nullptr ) , m_beforePartitionLabelsView( nullptr ) , m_bootloaderComboBox( nullptr ) , m_lastSelectedDeviceIndex( -1 ) , m_enableEncryptionWidget( true ) , m_availableSwapChoices( swapChoices ) , m_eraseSwapChoice( pickOne( swapChoices ) ) , m_allowManualPartitioning( true ) { setupUi( this ); auto gs = Calamares::JobQueue::instance()->globalStorage(); m_defaultFsType = gs->value( "defaultFileSystemType" ).toString(); m_enableEncryptionWidget = gs->value( "enableLuksAutomatedPartitioning" ).toBool(); m_allowManualPartitioning = gs->value( "allowManualPartitioning" ).toBool(); if ( FileSystem::typeForName( m_defaultFsType ) == FileSystem::Unknown ) m_defaultFsType = "ext4"; // Set up drives combo m_mainLayout->setDirection( QBoxLayout::TopToBottom ); m_drivesLayout->setDirection( QBoxLayout::LeftToRight ); BootInfoWidget* bootInfoWidget = new BootInfoWidget( this ); m_drivesLayout->insertWidget( 0, bootInfoWidget ); m_drivesLayout->insertSpacing( 1, CalamaresUtils::defaultFontHeight() / 2 ); m_drivesCombo = new QComboBox( this ); m_mainLayout->setStretchFactor( m_drivesLayout, 0 ); m_mainLayout->setStretchFactor( m_rightLayout, 1 ); m_drivesLabel->setBuddy( m_drivesCombo ); m_drivesLayout->addWidget( m_drivesCombo ); m_deviceInfoWidget = new DeviceInfoWidget; m_drivesLayout->addWidget( m_deviceInfoWidget ); m_drivesLayout->addStretch(); m_messageLabel->setWordWrap( true ); m_messageLabel->hide(); CalamaresUtils::unmarginLayout( m_itemsLayout ); // Drive selector + preview CALAMARES_RETRANSLATE( retranslateUi( this ); m_drivesLabel->setText( tr( "Select storage de&vice:" ) ); m_previewBeforeLabel->setText( tr( "Current:" ) ); m_previewAfterLabel->setText( tr( "After:" ) ); ) m_previewBeforeFrame->setSizePolicy( QSizePolicy::Preferred, QSizePolicy::Expanding ); m_previewAfterFrame->setSizePolicy( QSizePolicy::Preferred, QSizePolicy::Expanding ); m_previewAfterLabel->hide(); m_previewAfterFrame->hide(); m_encryptWidget->hide(); m_reuseHomeCheckBox->hide(); gs->insert( "reuseHome", false ); } ChoicePage::~ChoicePage() {} void ChoicePage::init( PartitionCoreModule* core ) { m_core = core; m_isEfi = PartUtils::isEfiSystem(); setupChoices(); // We need to do this because a PCM revert invalidates the deviceModel. connect( core, &PartitionCoreModule::reverted, this, [=] { m_drivesCombo->setModel( core->deviceModel() ); m_drivesCombo->setCurrentIndex( m_lastSelectedDeviceIndex ); } ); m_drivesCombo->setModel( core->deviceModel() ); connect( m_drivesCombo, static_cast< void ( QComboBox::* )( int ) >( &QComboBox::currentIndexChanged ), this, &ChoicePage::applyDeviceChoice ); connect( m_encryptWidget, &EncryptWidget::stateChanged, this, &ChoicePage::onEncryptWidgetStateChanged ); connect( m_reuseHomeCheckBox, &QCheckBox::stateChanged, this, &ChoicePage::onHomeCheckBoxStateChanged ); ChoicePage::applyDeviceChoice(); } /** @brief Creates a combobox with the given choices in it. * * Pre-selects the choice given by @p dflt. * No texts are set -- that happens later by the translator functions. */ static inline QComboBox* createCombo( const QSet< SwapChoice >& s, SwapChoice dflt ) { QComboBox* box = new QComboBox; for ( SwapChoice c : { SwapChoice::NoSwap, SwapChoice::SmallSwap, SwapChoice::FullSwap, SwapChoice::ReuseSwap, SwapChoice::SwapFile } ) if ( s.contains( c ) ) box->addItem( QString(), c ); int dfltIndex = box->findData( dflt ); if ( dfltIndex >= 0 ) box->setCurrentIndex( dfltIndex ); return box; } /** * @brief ChoicePage::setupChoices creates PrettyRadioButton objects for the action * choices. * @warning This must only run ONCE because it creates signal-slot connections for the * actions. When an action is triggered, it runs action-specific code that may * change the internal state of the PCM, and it updates the bottom preview (or * split) widget. * Synchronous loading ends here. */ void ChoicePage::setupChoices() { // sample os-prober output: // /dev/sda2:Windows 7 (loader):Windows:chain // /dev/sda6::Arch:linux // // There are three possibilities we have to consider: // - There are no operating systems present // - There is one operating system present // - There are multiple operating systems present // // There are three outcomes we have to provide: // 1) Wipe+autopartition // 2) Resize+autopartition // 3) Manual // TBD: upgrade option? QSize iconSize( CalamaresUtils::defaultIconSize().width() * 2, CalamaresUtils::defaultIconSize().height() * 2 ); m_grp = new QButtonGroup( this ); m_alongsideButton = new PrettyRadioButton; m_alongsideButton->setIconSize( iconSize ); m_alongsideButton->setIcon( CalamaresUtils::defaultPixmap( CalamaresUtils::PartitionAlongside, CalamaresUtils::Original, iconSize ) ); m_grp->addButton( m_alongsideButton->buttonWidget(), Alongside ); m_eraseButton = new PrettyRadioButton; m_eraseButton->setIconSize( iconSize ); m_eraseButton->setIcon( CalamaresUtils::defaultPixmap( CalamaresUtils::PartitionEraseAuto, CalamaresUtils::Original, iconSize ) ); m_grp->addButton( m_eraseButton->buttonWidget(), Erase ); m_replaceButton = new PrettyRadioButton; m_replaceButton->setIconSize( iconSize ); m_replaceButton->setIcon( CalamaresUtils::defaultPixmap( CalamaresUtils::PartitionReplaceOs, CalamaresUtils::Original, iconSize ) ); m_grp->addButton( m_replaceButton->buttonWidget(), Replace ); // Fill up swap options // .. TODO: only if enabled in the config if ( m_availableSwapChoices.count() > 1 ) { m_eraseSwapChoiceComboBox = createCombo( m_availableSwapChoices, m_eraseSwapChoice ); m_eraseButton->addOptionsComboBox( m_eraseSwapChoiceComboBox ); } m_itemsLayout->addWidget( m_alongsideButton ); m_itemsLayout->addWidget( m_replaceButton ); m_itemsLayout->addWidget( m_eraseButton ); m_somethingElseButton = new PrettyRadioButton; m_somethingElseButton->setIconSize( iconSize ); m_somethingElseButton->setIcon( CalamaresUtils::defaultPixmap( CalamaresUtils::PartitionManual, CalamaresUtils::Original, iconSize ) ); m_itemsLayout->addWidget( m_somethingElseButton ); m_grp->addButton( m_somethingElseButton->buttonWidget(), Manual ); m_itemsLayout->addStretch(); connect( m_grp, QOverload::of( &QButtonGroup::buttonToggled ), this, [ this ]( int id, bool checked ) { if ( checked ) // An action was picked. { m_choice = static_cast< InstallChoice >( id ); updateNextEnabled(); emit actionChosen(); } else // An action was unpicked, either on its own or because of another selection. { if ( m_grp->checkedButton() == nullptr ) // If no other action is chosen, we must { // set m_choice to NoChoice and reset previews. m_choice = NoChoice; updateNextEnabled(); emit actionChosen(); } } } ); m_rightLayout->setStretchFactor( m_itemsLayout, 1 ); m_rightLayout->setStretchFactor( m_previewBeforeFrame, 0 ); m_rightLayout->setStretchFactor( m_previewAfterFrame, 0 ); connect( this, &ChoicePage::actionChosen, this, &ChoicePage::onActionChanged ); if ( m_eraseSwapChoiceComboBox ) connect( m_eraseSwapChoiceComboBox, QOverload::of(&QComboBox::currentIndexChanged), this, &ChoicePage::onEraseSwapChoiceChanged ); CALAMARES_RETRANSLATE( m_somethingElseButton->setText( tr( "Manual partitioning
" "You can create or resize partitions yourself." ) ); updateSwapChoicesTr( m_eraseSwapChoiceComboBox ); ) } /** * @brief ChoicePage::selectedDevice queries the device picker (which may be a combo or * a list view) to get a pointer to the currently selected Device. * @return a Device pointer, valid in the current state of the PCM, or nullptr if * something goes wrong. */ Device* ChoicePage::selectedDevice() { Device* currentDevice = nullptr; currentDevice = m_core->deviceModel()->deviceForIndex( m_core->deviceModel()->index( m_drivesCombo->currentIndex() ) ); return currentDevice; } void ChoicePage::hideButtons() { m_eraseButton->hide(); m_replaceButton->hide(); m_alongsideButton->hide(); m_somethingElseButton->hide(); } /** * @brief ChoicePage::applyDeviceChoice handler for the selected event of the device * picker. Calls ChoicePage::selectedDevice() to get the current Device*, then * updates the preview widget for the on-disk state (calls ChoicePage:: * updateDeviceStatePreview()) and finally sets up the available actions and their * text by calling ChoicePage::setupActions(). */ void ChoicePage::applyDeviceChoice() { if ( !selectedDevice() ) { hideButtons(); return; } if ( m_core->isDirty() ) { ScanningDialog::run( QtConcurrent::run( [ = ] { QMutexLocker locker( &m_coreMutex ); m_core->revertAllDevices(); } ), [ this ] { continueApplyDeviceChoice(); }, this ); } else { continueApplyDeviceChoice(); } } void ChoicePage::continueApplyDeviceChoice() { Device* currd = selectedDevice(); // The device should only be nullptr immediately after a PCM reset. // applyDeviceChoice() will be called again momentarily as soon as we handle the // PartitionCoreModule::reverted signal. if ( !currd ) { hideButtons(); return; } updateDeviceStatePreview(); // Preview setup done. Now we show/hide choices as needed. setupActions(); m_lastSelectedDeviceIndex = m_drivesCombo->currentIndex(); emit actionChosen(); emit deviceChosen(); } void ChoicePage::onActionChanged() { Device* currd = selectedDevice(); if ( currd ) { applyActionChoice( currentChoice() ); } } void ChoicePage::onEraseSwapChoiceChanged() { if ( m_eraseSwapChoiceComboBox ) { m_eraseSwapChoice = static_cast( m_eraseSwapChoiceComboBox->currentData().toInt() ); onActionChanged(); } } void ChoicePage::applyActionChoice( ChoicePage::InstallChoice choice ) { m_beforePartitionBarsView->selectionModel()-> disconnect( SIGNAL( currentRowChanged( QModelIndex, QModelIndex ) ) ); m_beforePartitionBarsView->selectionModel()->clearSelection(); m_beforePartitionBarsView->selectionModel()->clearCurrentIndex(); switch ( choice ) { case Erase: { auto gs = Calamares::JobQueue::instance()->globalStorage(); PartitionActions::Choices::AutoPartitionOptions options { gs->value( "defaultFileSystemType" ).toString(), m_encryptWidget->passphrase(), gs->value( "efiSystemPartition" ).toString(), CalamaresUtils::GiBtoBytes( gs->value( "requiredStorageGiB" ).toDouble() ), m_eraseSwapChoice }; if ( m_core->isDirty() ) { ScanningDialog::run( QtConcurrent::run( [ = ] { QMutexLocker locker( &m_coreMutex ); m_core->revertDevice( selectedDevice() ); } ), [ = ] { PartitionActions::doAutopartition( m_core, selectedDevice(), options ); emit deviceChosen(); }, this ); } else { PartitionActions::doAutopartition( m_core, selectedDevice(), options ); emit deviceChosen(); } } break; case Replace: if ( m_core->isDirty() ) { ScanningDialog::run( QtConcurrent::run( [ = ] { QMutexLocker locker( &m_coreMutex ); m_core->revertDevice( selectedDevice() ); } ), []{}, this ); } updateNextEnabled(); connect( m_beforePartitionBarsView->selectionModel(), SIGNAL( currentRowChanged( QModelIndex, QModelIndex ) ), this, SLOT( onPartitionToReplaceSelected( QModelIndex, QModelIndex ) ), Qt::UniqueConnection ); break; case Alongside: if ( m_core->isDirty() ) { ScanningDialog::run( QtConcurrent::run( [ = ] { QMutexLocker locker( &m_coreMutex ); m_core->revertDevice( selectedDevice() ); } ), [this] { // We need to reupdate after reverting because the splitter widget is // not a true view. updateActionChoicePreview( currentChoice() ); updateNextEnabled(); }, this ); } updateNextEnabled(); connect( m_beforePartitionBarsView->selectionModel(), SIGNAL( currentRowChanged( QModelIndex, QModelIndex ) ), this, SLOT( doAlongsideSetupSplitter( QModelIndex, QModelIndex ) ), Qt::UniqueConnection ); break; case NoChoice: case Manual: break; } updateActionChoicePreview( choice ); } void ChoicePage::doAlongsideSetupSplitter( const QModelIndex& current, const QModelIndex& previous ) { Q_UNUSED( previous ) if ( !current.isValid() ) return; if ( !m_afterPartitionSplitterWidget ) return; const PartitionModel* modl = qobject_cast< const PartitionModel* >( current.model() ); if ( !modl ) return; Partition* part = modl->partitionForIndex( current ); if ( !part ) { cDebug() << Q_FUNC_INFO << "Partition not found for index" << current; return; } double requiredStorageGB = Calamares::JobQueue::instance() ->globalStorage() ->value( "requiredStorageGiB" ) .toDouble(); qint64 requiredStorageB = CalamaresUtils::GiBtoBytes( requiredStorageGB + 0.1 + 2.0 ); m_afterPartitionSplitterWidget->setSplitPartition( part->partitionPath(), qRound64( part->used() * 1.1 ), part->capacity() - requiredStorageB, part->capacity() / 2 ); if ( m_isEfi ) setupEfiSystemPartitionSelector(); cDebug() << "Partition selected for Alongside."; updateNextEnabled(); } void ChoicePage::onEncryptWidgetStateChanged() { EncryptWidget::State state = m_encryptWidget->state(); if ( m_choice == Erase ) { if ( state == EncryptWidget::EncryptionConfirmed || state == EncryptWidget::EncryptionDisabled ) applyActionChoice( m_choice ); } else if ( m_choice == Replace ) { if ( m_beforePartitionBarsView && m_beforePartitionBarsView->selectionModel()->currentIndex().isValid() && ( state == EncryptWidget::EncryptionConfirmed || state == EncryptWidget::EncryptionDisabled ) ) { doReplaceSelectedPartition( m_beforePartitionBarsView-> selectionModel()-> currentIndex() ); } } updateNextEnabled(); } void ChoicePage::onHomeCheckBoxStateChanged() { if ( currentChoice() == Replace && m_beforePartitionBarsView->selectionModel()->currentIndex().isValid() ) { doReplaceSelectedPartition( m_beforePartitionBarsView-> selectionModel()-> currentIndex() ); } } void ChoicePage::onLeave() { if ( m_choice == Alongside ) doAlongsideApply(); if ( m_isEfi && ( m_choice == Alongside || m_choice == Replace ) ) { QList< Partition* > efiSystemPartitions = m_core->efiSystemPartitions(); if ( efiSystemPartitions.count() == 1 ) { PartitionInfo::setMountPoint( efiSystemPartitions.first(), Calamares::JobQueue::instance()-> globalStorage()-> value( "efiSystemPartition" ).toString() ); } else if ( efiSystemPartitions.count() > 1 && m_efiComboBox ) { PartitionInfo::setMountPoint( efiSystemPartitions.at( m_efiComboBox->currentIndex() ), Calamares::JobQueue::instance()-> globalStorage()-> value( "efiSystemPartition" ).toString() ); } else { cError() << "cannot set up EFI system partition.\nESP count:" << efiSystemPartitions.count() << "\nm_efiComboBox:" << m_efiComboBox; } } else // installPath is then passed to the bootloader module for MBR setup { if ( !m_isEfi ) { if ( m_bootloaderComboBox.isNull() ) { auto d_p = selectedDevice(); if ( d_p ) m_core->setBootLoaderInstallPath( d_p->deviceNode() ); else cWarning() << "No device selected for bootloader."; } else { QVariant var = m_bootloaderComboBox->currentData( BootLoaderModel::BootLoaderPathRole ); if ( !var.isValid() ) return; m_core->setBootLoaderInstallPath( var.toString() ); } } } } void ChoicePage::doAlongsideApply() { Q_ASSERT( m_afterPartitionSplitterWidget->splitPartitionSize() >= 0 ); Q_ASSERT( m_afterPartitionSplitterWidget->newPartitionSize() >= 0 ); QMutexLocker locker( &m_coreMutex ); QString path = m_beforePartitionBarsView-> selectionModel()-> currentIndex().data( PartitionModel::PartitionPathRole ).toString(); DeviceModel* dm = m_core->deviceModel(); for ( int i = 0; i < dm->rowCount(); ++i ) { Device* dev = dm->deviceForIndex( dm->index( i ) ); Partition* candidate = KPMHelpers::findPartitionByPath( { dev }, path ); if ( candidate ) { qint64 firstSector = candidate->firstSector(); qint64 oldLastSector = candidate->lastSector(); qint64 newLastSector = firstSector + m_afterPartitionSplitterWidget->splitPartitionSize() / dev->logicalSize(); m_core->resizePartition( dev, candidate, firstSector, newLastSector ); m_core->layoutApply( dev, newLastSector + 2, oldLastSector, m_encryptWidget->passphrase(), candidate->parent(), candidate->roles() ); m_core->dumpQueue(); break; } } } void ChoicePage::onPartitionToReplaceSelected( const QModelIndex& current, const QModelIndex& previous ) { Q_UNUSED( previous ) if ( !current.isValid() ) return; // Reset state on selection regardless of whether this will be used. m_reuseHomeCheckBox->setChecked( false ); doReplaceSelectedPartition( current ); } void ChoicePage::doReplaceSelectedPartition( const QModelIndex& current ) { if ( !current.isValid() ) return; QString* homePartitionPath = new QString(); bool doReuseHomePartition = m_reuseHomeCheckBox->isChecked(); // NOTE: using by-ref captures because we need to write homePartitionPath and // doReuseHomePartition *after* the device revert, for later use. ScanningDialog::run( QtConcurrent::run( [ this, current ]( QString* homePartitionPath, bool doReuseHomePartition ) { QMutexLocker locker( &m_coreMutex ); if ( m_core->isDirty() ) { m_core->revertDevice( selectedDevice() ); } // if the partition is unallocated(free space), we don't replace it but create new one // with the same first and last sector Partition* selectedPartition = static_cast< Partition* >( current.data( PartitionModel::PartitionPtrRole ) .value< void* >() ); if ( KPMHelpers::isPartitionFreeSpace( selectedPartition ) ) { //NOTE: if the selected partition is free space, we don't deal with // a separate /home partition at all because there's no existing // rootfs to read it from. PartitionRole newRoles = PartitionRole( PartitionRole::Primary ); PartitionNode* newParent = selectedDevice()->partitionTable(); if ( selectedPartition->parent() ) { Partition* parent = dynamic_cast< Partition* >( selectedPartition->parent() ); if ( parent && parent->roles().has( PartitionRole::Extended ) ) { newRoles = PartitionRole( PartitionRole::Logical ); newParent = KPMHelpers::findPartitionByPath( { selectedDevice() }, parent->partitionPath() ); } } m_core->layoutApply( selectedDevice(), selectedPartition->firstSector(), selectedPartition->lastSector(), m_encryptWidget->passphrase(), newParent, newRoles ); } else { // We can't use the PartitionPtrRole because we need to make changes to the // main DeviceModel, not the immutable copy. QString partPath = current.data( PartitionModel::PartitionPathRole ).toString(); selectedPartition = KPMHelpers::findPartitionByPath( { selectedDevice() }, partPath ); if ( selectedPartition ) { // Find out is the selected partition has a rootfs. If yes, then make the // m_reuseHomeCheckBox visible and set its text to something meaningful. homePartitionPath->clear(); for ( const OsproberEntry& osproberEntry : m_core->osproberEntries() ) if ( osproberEntry.path == partPath ) *homePartitionPath = osproberEntry.homePath; if ( homePartitionPath->isEmpty() ) doReuseHomePartition = false; Calamares::GlobalStorage* gs = Calamares::JobQueue::instance()->globalStorage(); PartitionActions::doReplacePartition( m_core, selectedDevice(), selectedPartition, { gs->value( "defaultFileSystemType" ).toString(), m_encryptWidget->passphrase() } ); Partition* homePartition = KPMHelpers::findPartitionByPath( { selectedDevice() }, *homePartitionPath ); if ( homePartition && doReuseHomePartition ) { PartitionInfo::setMountPoint( homePartition, "/home" ); gs->insert( "reuseHome", true ); } else { gs->insert( "reuseHome", false ); } } } }, homePartitionPath, doReuseHomePartition ), [ = ] { m_reuseHomeCheckBox->setVisible( !homePartitionPath->isEmpty() ); if ( !homePartitionPath->isEmpty() ) m_reuseHomeCheckBox->setText( tr( "Reuse %1 as home partition for %2." ) .arg( *homePartitionPath ) .arg( *Calamares::Branding::ShortProductName ) ); delete homePartitionPath; if ( m_isEfi ) setupEfiSystemPartitionSelector(); updateNextEnabled(); if ( !m_bootloaderComboBox.isNull() && m_bootloaderComboBox->currentIndex() < 0 ) m_bootloaderComboBox->setCurrentIndex( m_lastSelectedDeviceIndex ); }, this ); } /** * @brief ChoicePage::updateDeviceStatePreview clears and rebuilds the contents of the * preview widget for the current on-disk state. This also triggers a rescan in the * PCM to get a Device* copy that's unaffected by subsequent PCM changes. * @param currentDevice a pointer to the selected Device. */ void ChoicePage::updateDeviceStatePreview() { //FIXME: this needs to be made async because the rescan can block the UI thread for // a while. --Teo 10/2015 Device* currentDevice = selectedDevice(); Q_ASSERT( currentDevice ); QMutexLocker locker( &m_previewsMutex ); cDebug() << "Updating partitioning state widgets."; qDeleteAll( m_previewBeforeFrame->children() ); auto layout = m_previewBeforeFrame->layout(); if ( layout ) layout->deleteLater(); // Doesn't like nullptr layout = new QVBoxLayout; m_previewBeforeFrame->setLayout( layout ); CalamaresUtils::unmarginLayout( layout ); layout->setSpacing( 6 ); PartitionBarsView::NestedPartitionsMode mode = Calamares::JobQueue::instance()->globalStorage()-> value( "drawNestedPartitions" ).toBool() ? PartitionBarsView::DrawNestedPartitions : PartitionBarsView::NoNestedPartitions; m_beforePartitionBarsView = new PartitionBarsView( m_previewBeforeFrame ); m_beforePartitionBarsView->setNestedPartitionsMode( mode ); m_beforePartitionLabelsView = new PartitionLabelsView( m_previewBeforeFrame ); m_beforePartitionLabelsView->setExtendedPartitionHidden( mode == PartitionBarsView::NoNestedPartitions ); Device* deviceBefore = m_core->immutableDeviceCopy( currentDevice ); PartitionModel* model = new PartitionModel( m_beforePartitionBarsView ); model->init( deviceBefore, m_core->osproberEntries() ); m_beforePartitionBarsView->setModel( model ); m_beforePartitionLabelsView->setModel( model ); // Make the bars and labels view use the same selectionModel. auto sm = m_beforePartitionLabelsView->selectionModel(); m_beforePartitionLabelsView->setSelectionModel( m_beforePartitionBarsView->selectionModel() ); if ( sm ) sm->deleteLater(); switch ( m_choice ) { case Replace: case Alongside: m_beforePartitionBarsView->setSelectionMode( QAbstractItemView::SingleSelection ); m_beforePartitionLabelsView->setSelectionMode( QAbstractItemView::SingleSelection ); break; default: m_beforePartitionBarsView->setSelectionMode( QAbstractItemView::NoSelection ); m_beforePartitionLabelsView->setSelectionMode( QAbstractItemView::NoSelection ); } layout->addWidget( m_beforePartitionBarsView ); layout->addWidget( m_beforePartitionLabelsView ); } /** * @brief ChoicePage::updateActionChoicePreview clears and rebuilds the contents of the * preview widget for the current PCM-proposed state. No rescans here, this should * be immediate. * @param currentDevice a pointer to the selected Device. * @param choice the chosen partitioning action. */ void ChoicePage::updateActionChoicePreview( ChoicePage::InstallChoice choice ) { Device* currentDevice = selectedDevice(); Q_ASSERT( currentDevice ); QMutexLocker locker( &m_previewsMutex ); cDebug() << "Updating partitioning preview widgets."; qDeleteAll( m_previewAfterFrame->children() ); auto oldlayout = m_previewAfterFrame->layout(); if ( oldlayout ) oldlayout->deleteLater(); QVBoxLayout* layout = new QVBoxLayout; m_previewAfterFrame->setLayout( layout ); CalamaresUtils::unmarginLayout( layout ); layout->setSpacing( 6 ); PartitionBarsView::NestedPartitionsMode mode = Calamares::JobQueue::instance()->globalStorage()-> value( "drawNestedPartitions" ).toBool() ? PartitionBarsView::DrawNestedPartitions : PartitionBarsView::NoNestedPartitions; m_reuseHomeCheckBox->hide(); Calamares::JobQueue::instance()->globalStorage()->insert( "reuseHome", false ); switch ( choice ) { case Alongside: { if ( m_enableEncryptionWidget ) m_encryptWidget->show(); m_previewBeforeLabel->setText( tr( "Current:" ) ); m_selectLabel->setText( tr( "Select a partition to shrink, " "then drag the bottom bar to resize" ) ); m_selectLabel->show(); m_afterPartitionSplitterWidget = new PartitionSplitterWidget( m_previewAfterFrame ); m_afterPartitionSplitterWidget->init( selectedDevice(), mode == PartitionBarsView::DrawNestedPartitions ); layout->addWidget( m_afterPartitionSplitterWidget ); QLabel* sizeLabel = new QLabel( m_previewAfterFrame ); layout->addWidget( sizeLabel ); sizeLabel->setWordWrap( true ); connect( m_afterPartitionSplitterWidget, &PartitionSplitterWidget::partitionResized, this, [ this, sizeLabel ]( const QString& path, qint64 size, qint64 sizeNext ) { Q_UNUSED( path ) sizeLabel->setText( tr( "%1 will be shrunk to %2MiB and a new " "%3MiB partition will be created for %4." ) .arg( m_beforePartitionBarsView->selectionModel()->currentIndex().data().toString() ) .arg( CalamaresUtils::BytesToMiB( size ) ) .arg( CalamaresUtils::BytesToMiB( sizeNext ) ) .arg( *Calamares::Branding::ShortProductName ) ); } ); m_previewAfterFrame->show(); m_previewAfterLabel->show(); SelectionFilter filter = [ this ]( const QModelIndex& index ) { return PartUtils::canBeResized( static_cast< Partition* >( index.data( PartitionModel::PartitionPtrRole ) .value< void* >() ) ); }; m_beforePartitionBarsView->setSelectionFilter( filter ); m_beforePartitionLabelsView->setSelectionFilter( filter ); break; } case Erase: case Replace: { if ( m_enableEncryptionWidget ) m_encryptWidget->show(); m_previewBeforeLabel->setText( tr( "Current:" ) ); m_afterPartitionBarsView = new PartitionBarsView( m_previewAfterFrame ); m_afterPartitionBarsView->setNestedPartitionsMode( mode ); m_afterPartitionLabelsView = new PartitionLabelsView( m_previewAfterFrame ); m_afterPartitionLabelsView->setExtendedPartitionHidden( mode == PartitionBarsView::NoNestedPartitions ); m_afterPartitionLabelsView->setCustomNewRootLabel( *Calamares::Branding::BootloaderEntryName ); PartitionModel* model = m_core->partitionModelForDevice( selectedDevice() ); // The QObject parents tree is meaningful for memory management here, // see qDeleteAll above. m_afterPartitionBarsView->setModel( model ); m_afterPartitionLabelsView->setModel( model ); m_afterPartitionBarsView->setSelectionMode( QAbstractItemView::NoSelection ); m_afterPartitionLabelsView->setSelectionMode( QAbstractItemView::NoSelection ); layout->addWidget( m_afterPartitionBarsView ); layout->addWidget( m_afterPartitionLabelsView ); if ( !m_isEfi ) { QWidget* eraseWidget = new QWidget; QHBoxLayout* eraseLayout = new QHBoxLayout; eraseWidget->setLayout( eraseLayout ); eraseLayout->setContentsMargins( 0, 0, 0, 0 ); QLabel* eraseBootloaderLabel = new QLabel( eraseWidget ); eraseLayout->addWidget( eraseBootloaderLabel ); eraseBootloaderLabel->setText( tr( "Boot loader location:" ) ); m_bootloaderComboBox = createBootloaderComboBox( eraseWidget ); connect( m_core->bootLoaderModel(), &QAbstractItemModel::modelReset, [ this ]() { if ( !m_bootloaderComboBox.isNull() ) Calamares::restoreSelectedBootLoader( *m_bootloaderComboBox, m_core->bootLoaderInstallPath() ); } ); connect( m_core, &PartitionCoreModule::deviceReverted, this, [ this ]( Device* dev ) { Q_UNUSED( dev ) if ( !m_bootloaderComboBox.isNull() ) { if ( m_bootloaderComboBox->model() != m_core->bootLoaderModel() ) m_bootloaderComboBox->setModel( m_core->bootLoaderModel() ); m_bootloaderComboBox->setCurrentIndex( m_lastSelectedDeviceIndex ); } }, Qt::QueuedConnection ); // ^ Must be Queued so it's sure to run when the widget is already visible. eraseLayout->addWidget( m_bootloaderComboBox ); eraseBootloaderLabel->setBuddy( m_bootloaderComboBox ); eraseLayout->addStretch(); layout->addWidget( eraseWidget ); } m_previewAfterFrame->show(); m_previewAfterLabel->show(); if ( m_choice == Erase ) m_selectLabel->hide(); else { SelectionFilter filter = [ this ]( const QModelIndex& index ) { return PartUtils::canBeReplaced( static_cast< Partition* >( index.data( PartitionModel::PartitionPtrRole ) .value< void* >() ) ); }; m_beforePartitionBarsView->setSelectionFilter( filter ); m_beforePartitionLabelsView->setSelectionFilter( filter ); m_selectLabel->show(); m_selectLabel->setText( tr( "Select a partition to install on" ) ); } break; } case NoChoice: case Manual: m_selectLabel->hide(); m_previewAfterFrame->hide(); m_previewBeforeLabel->setText( tr( "Current:" ) ); m_previewAfterLabel->hide(); m_encryptWidget->hide(); break; } if ( m_isEfi && ( m_choice == Alongside || m_choice == Replace ) ) { QHBoxLayout* efiLayout = new QHBoxLayout; layout->addLayout( efiLayout ); m_efiLabel = new QLabel( m_previewAfterFrame ); efiLayout->addWidget( m_efiLabel ); m_efiComboBox = new QComboBox( m_previewAfterFrame ); efiLayout->addWidget( m_efiComboBox ); m_efiLabel->setBuddy( m_efiComboBox ); m_efiComboBox->hide(); efiLayout->addStretch(); } // Also handle selection behavior on beforeFrame. QAbstractItemView::SelectionMode previewSelectionMode; switch ( m_choice ) { case Replace: case Alongside: previewSelectionMode = QAbstractItemView::SingleSelection; break; default: previewSelectionMode = QAbstractItemView::NoSelection; } m_beforePartitionBarsView->setSelectionMode( previewSelectionMode ); m_beforePartitionLabelsView->setSelectionMode( previewSelectionMode ); } void ChoicePage::setupEfiSystemPartitionSelector() { Q_ASSERT( m_isEfi ); // Only the already existing ones: QList< Partition* > efiSystemPartitions = m_core->efiSystemPartitions(); if ( efiSystemPartitions.count() == 0 ) //should never happen { m_efiLabel->setText( tr( "An EFI system partition cannot be found anywhere " "on this system. Please go back and use manual " "partitioning to set up %1." ) .arg( *Calamares::Branding::ShortProductName ) ); updateNextEnabled(); } else if ( efiSystemPartitions.count() == 1 ) //probably most usual situation { m_efiLabel->setText( tr( "The EFI system partition at %1 will be used for " "starting %2." ) .arg( efiSystemPartitions.first()->partitionPath() ) .arg( *Calamares::Branding::ShortProductName ) ); } else { m_efiComboBox->show(); m_efiLabel->setText( tr( "EFI system partition:" ) ); for ( int i = 0; i < efiSystemPartitions.count(); ++i ) { Partition* efiPartition = efiSystemPartitions.at( i ); m_efiComboBox->addItem( efiPartition->partitionPath(), i ); // We pick an ESP on the currently selected device, if possible if ( efiPartition->devicePath() == selectedDevice()->deviceNode() && efiPartition->number() == 1 ) m_efiComboBox->setCurrentIndex( i ); } } } QComboBox* ChoicePage::createBootloaderComboBox( QWidget* parent ) { QComboBox* bcb = new QComboBox( parent ); bcb->setModel( m_core->bootLoaderModel() ); // When the chosen bootloader device changes, we update the choice in the PCM connect( bcb, QOverload::of( &QComboBox::currentIndexChanged ), this, [this]( int newIndex ) { QComboBox* bcb = qobject_cast< QComboBox* >( sender() ); if ( bcb ) { QVariant var = bcb->itemData( newIndex, BootLoaderModel::BootLoaderPathRole ); if ( !var.isValid() ) return; m_core->setBootLoaderInstallPath( var.toString() ); } } ); return bcb; } static inline void force_uncheck(QButtonGroup* grp, PrettyRadioButton* button) { button->hide(); grp->setExclusive( false ); button->buttonWidget()->setChecked( false ); grp->setExclusive( true ); } static inline QDebug& operator <<( QDebug& s, PartitionIterator& it ) { s << ( ( *it ) ? ( *it )->deviceNode() : QString( "" ) ); return s; } /** * @brief ChoicePage::setupActions happens every time a new Device* is selected in the * device picker. Sets up the text and visibility of the partitioning actions based * on the currently selected Device*, bootloader and os-prober output. * @param currentDevice */ void ChoicePage::setupActions() { Device* currentDevice = selectedDevice(); OsproberEntryList osproberEntriesForCurrentDevice = getOsproberEntriesForDevice( currentDevice ); cDebug() << "Setting up actions for" << currentDevice->deviceNode() << "with" << osproberEntriesForCurrentDevice.count() << "entries."; if ( currentDevice->partitionTable() ) m_deviceInfoWidget->setPartitionTableType( currentDevice->partitionTable()->type() ); else m_deviceInfoWidget->setPartitionTableType( PartitionTable::unknownTableType ); if ( m_allowManualPartitioning ) m_somethingElseButton->show(); else force_uncheck( m_grp, m_somethingElseButton ); bool atLeastOneCanBeResized = false; bool atLeastOneCanBeReplaced = false; bool atLeastOneIsMounted = false; // Suppress 'erase' if so bool isInactiveRAID = false; #ifdef WITH_KPMCORE4API if ( currentDevice->type() == Device::Type::SoftwareRAID_Device && static_cast< SoftwareRAID* >(currentDevice)->status() == SoftwareRAID::Status::Inactive ) { cDebug() << Logger::SubEntry << "part of an inactive RAID device"; isInactiveRAID = true; } #endif for ( auto it = PartitionIterator::begin( currentDevice ); it != PartitionIterator::end( currentDevice ); ++it ) { if ( PartUtils::canBeResized( *it ) ) { cDebug() << Logger::SubEntry << "contains resizable" << it; atLeastOneCanBeResized = true; } if ( PartUtils::canBeReplaced( *it ) ) { cDebug() << Logger::SubEntry << "contains replaceable" << it; atLeastOneCanBeReplaced = true; } if ( (*it)->isMounted() ) { atLeastOneIsMounted = true; } } if ( osproberEntriesForCurrentDevice.count() == 0 ) { CALAMARES_RETRANSLATE( cDebug() << "Setting texts for 0 osprober entries"; m_messageLabel->setText( tr( "This storage device does not seem to have an operating system on it. " "What would you like to do?
" "You will be able to review and confirm your choices " "before any change is made to the storage device." ) ); m_eraseButton->setText( tr( "Erase disk
" "This will delete all data " "currently present on the selected storage device." ) ); m_alongsideButton->setText( tr( "Install alongside
" "The installer will shrink a partition to make room for %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); m_replaceButton->setText( tr( "Replace a partition
" "Replaces a partition with %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); ) m_replaceButton->hide(); m_alongsideButton->hide(); m_grp->setExclusive( false ); m_replaceButton->buttonWidget()->setChecked( false ); m_alongsideButton->buttonWidget()->setChecked( false ); m_grp->setExclusive( true ); } else if ( osproberEntriesForCurrentDevice.count() == 1 ) { QString osName = osproberEntriesForCurrentDevice.first().prettyName; if ( !osName.isEmpty() ) { CALAMARES_RETRANSLATE( cDebug() << "Setting texts for 1 non-empty osprober entry"; m_messageLabel->setText( tr( "This storage device has %1 on it. " "What would you like to do?
" "You will be able to review and confirm your choices " "before any change is made to the storage device." ) .arg( osName ) ); m_alongsideButton->setText( tr( "Install alongside
" "The installer will shrink a partition to make room for %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); m_eraseButton->setText( tr( "Erase disk
" "This will delete all data " "currently present on the selected storage device." ) ); m_replaceButton->setText( tr( "Replace a partition
" "Replaces a partition with %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); ) } else { CALAMARES_RETRANSLATE( cDebug() << "Setting texts for 1 empty osprober entry"; m_messageLabel->setText( tr( "This storage device already has an operating system on it. " "What would you like to do?
" "You will be able to review and confirm your choices " "before any change is made to the storage device." ) ); m_alongsideButton->setText( tr( "Install alongside
" "The installer will shrink a partition to make room for %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); m_eraseButton->setText( tr( "Erase disk
" "This will delete all data " "currently present on the selected storage device." ) ); m_replaceButton->setText( tr( "Replace a partition
" "Replaces a partition with %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); ) } } else { // osproberEntriesForCurrentDevice has at least 2 items. CALAMARES_RETRANSLATE( cDebug() << "Setting texts for >= 2 osprober entries"; m_messageLabel->setText( tr( "This storage device has multiple operating systems on it. " "What would you like to do?
" "You will be able to review and confirm your choices " "before any change is made to the storage device." ) ); m_alongsideButton->setText( tr( "Install alongside
" "The installer will shrink a partition to make room for %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); m_eraseButton->setText( tr( "Erase disk
" "This will delete all data " "currently present on the selected storage device." ) ); m_replaceButton->setText( tr( "Replace a partition
" "Replaces a partition with %1." ) .arg( *Calamares::Branding::ShortVersionedName ) ); ) } #ifdef DEBUG_PARTITION_UNSAFE #ifdef DEBUG_PARTITION_LAME // If things can't be broken, allow all the buttons atLeastOneCanBeReplaced = true; atLeastOneCanBeResized = true; atLeastOneIsMounted = false; isInactiveRAID = false; #endif #endif if ( atLeastOneCanBeReplaced ) m_replaceButton->show(); else { cDebug() << "Replace button suppressed because none can be replaced."; force_uncheck( m_grp, m_replaceButton ); } if ( atLeastOneCanBeResized ) m_alongsideButton->show(); else { cDebug() << "Alongside button suppressed because none can be resized."; force_uncheck( m_grp, m_alongsideButton ); } if ( !atLeastOneIsMounted && !isInactiveRAID ) m_eraseButton->show(); // None mounted else { cDebug() << "Erase button suppressed" << "mount?" << atLeastOneIsMounted << "raid?" << isInactiveRAID; force_uncheck( m_grp, m_eraseButton ); } bool isEfi = PartUtils::isEfiSystem(); bool efiSystemPartitionFound = !m_core->efiSystemPartitions().isEmpty(); if ( isEfi && !efiSystemPartitionFound ) { cWarning() << "System is EFI but there's no EFI system partition, " "DISABLING alongside and replace features."; m_alongsideButton->hide(); m_replaceButton->hide(); } } OsproberEntryList ChoicePage::getOsproberEntriesForDevice( Device* device ) const { OsproberEntryList eList; for ( const OsproberEntry& entry : m_core->osproberEntries() ) { if ( entry.path.startsWith( device->deviceNode() ) ) eList.append( entry ); } return eList; } bool ChoicePage::isNextEnabled() const { return m_nextEnabled; } ChoicePage::InstallChoice ChoicePage::currentChoice() const { return m_choice; } void ChoicePage::updateNextEnabled() { bool enabled = false; auto sm_p = m_beforePartitionBarsView ? m_beforePartitionBarsView->selectionModel() : nullptr; switch ( m_choice ) { case NoChoice: enabled = false; break; case Replace: case Alongside: enabled = sm_p && sm_p->currentIndex().isValid(); break; case Erase: case Manual: enabled = true; } if ( m_isEfi && ( m_choice == Alongside || m_choice == Replace ) ) { if ( m_core->efiSystemPartitions().count() == 0 ) enabled = false; } if ( m_choice != Manual && m_encryptWidget->isVisible() && m_encryptWidget->state() == EncryptWidget::EncryptionUnconfirmed ) enabled = false; if ( enabled == m_nextEnabled ) return; m_nextEnabled = enabled; emit nextStatusChanged( enabled ); } void ChoicePage::updateSwapChoicesTr(QComboBox* box) { if ( !box ) return; static_assert(SwapChoice::NoSwap == 0, "Enum values out-of-sync"); for ( int index = 0; index < box->count(); ++index ) { bool ok = false; int value = 0; switch ( value = box->itemData( index ).toInt( &ok ) ) { // case 0: case SwapChoice::NoSwap: // toInt() returns 0 on failure, so check for ok if ( ok ) // It was explicitly set to 0 box->setItemText( index, tr( "No Swap" ) ); else cWarning() << "Box item" << index << box->itemText( index ) << "has non-integer role."; break; case SwapChoice::ReuseSwap: box->setItemText( index, tr( "Reuse Swap" ) ); break; case SwapChoice::SmallSwap: box->setItemText( index, tr( "Swap (no Hibernate)" ) ); break; case SwapChoice::FullSwap: box->setItemText( index, tr( "Swap (with Hibernate)" ) ); break; case SwapChoice::SwapFile: box->setItemText( index, tr( "Swap to file" ) ); break; default: cWarning() << "Box item" << index << box->itemText( index ) << "has role" << value; } } } int ChoicePage::lastSelectedDeviceIndex() { return m_lastSelectedDeviceIndex; } void ChoicePage::setLastSelectedDeviceIndex( int index ) { m_lastSelectedDeviceIndex = index; m_drivesCombo->setCurrentIndex( m_lastSelectedDeviceIndex ); }