kpmcore/src/ops/copyoperation.cpp

/*
    SPDX-FileCopyrightText: 2008-2010 Volker Lanz <vl@fidra.de>
    SPDX-FileCopyrightText: 2012-2019 Andrius Štikonas <andrius@stikonas.eu>
    SPDX-FileCopyrightText: 2016 Chantara Tith <tith.chantara@gmail.com>

    SPDX-License-Identifier: GPL-3.0-or-later
*/

#include "ops/copyoperation.h"

#include "core/partition.h"
#include "core/device.h"

#include "jobs/createpartitionjob.h"
#include "jobs/deletepartitionjob.h"
#include "jobs/checkfilesystemjob.h"
#include "jobs/copyfilesystemjob.h"
#include "jobs/resizefilesystemjob.h"

#include "fs/filesystemfactory.h"

#include "util/capacity.h"
#include "util/report.h"

#include <QDebug>
#include <QString>

#include <KLocalizedString>

/** Creates a new CopyOperation.
    @param targetdevice the Device to copy the Partition to
    @param copiedpartition pointer to the new Partition object on the target Device. May not be nullptr.
    @param sourcedevice the Device where to copy from
    @param sourcepartition pointer to the Partition to copy from. May not be nullptr.
*/
CopyOperation::CopyOperation(Device& targetdevice, Partition* copiedpartition, Device& sourcedevice, Partition* sourcepartition) :
    Operation(),
    m_TargetDevice(targetdevice),
    m_CopiedPartition(copiedpartition),
    m_SourceDevice(sourcedevice),
    m_SourcePartition(sourcepartition),
    m_OverwrittenPartition(nullptr),
    m_MustDeleteOverwritten(false),
    m_CheckSourceJob(nullptr),
    m_CreatePartitionJob(nullptr),
    m_CopyFSJob(nullptr),
    m_CheckTargetJob(nullptr),
    m_MaximizeJob(nullptr),
    m_Description(updateDescription())
{
    Q_ASSERT(targetDevice().partitionTable());

    Partition* dest = targetDevice().partitionTable()->findPartitionBySector(copiedPartition().firstSector(), PartitionRole(PartitionRole::Primary | PartitionRole::Logical | PartitionRole::Unallocated));

    if (dest == nullptr)
        qWarning() << "destination partition not found at sector " << copiedPartition().firstSector();

    Q_ASSERT(dest);

    if (dest && !dest->roles().has(PartitionRole::Unallocated)) {
        copiedPartition().setLastSector(dest->lastSector());
        setOverwrittenPartition(dest);
    }

    addJob(m_CheckSourceJob = new CheckFileSystemJob(sourcePartition()));

    if (overwrittenPartition() == nullptr)
        addJob(m_CreatePartitionJob = new CreatePartitionJob(targetDevice(), copiedPartition()));

    addJob(m_CopyFSJob = new CopyFileSystemJob(targetDevice(), copiedPartition(), sourceDevice(), sourcePartition()));
    addJob(m_CheckTargetJob = new CheckFileSystemJob(copiedPartition()));
    addJob(m_MaximizeJob = new ResizeFileSystemJob(targetDevice(), copiedPartition()));
}

CopyOperation::~CopyOperation()
{
    if (status() == StatusPending)
        delete m_CopiedPartition;

    if (status() == StatusFinishedSuccess || status() == StatusFinishedWarning || status() == StatusError)
        cleanupOverwrittenPartition();
}

bool CopyOperation::targets(const Device& d) const
{
    return d == targetDevice();
}

bool CopyOperation::targets(const Partition& p) const
{
    return p == copiedPartition();
}

void CopyOperation::preview()
{
    if (overwrittenPartition())
        removePreviewPartition(targetDevice(), *overwrittenPartition());

    insertPreviewPartition(targetDevice(), copiedPartition());
}

void CopyOperation::undo()
{
    removePreviewPartition(targetDevice(), copiedPartition());

    if (overwrittenPartition())
        insertPreviewPartition(targetDevice(), *overwrittenPartition());
}

bool CopyOperation::execute(Report& parent)
{
    bool rval = false;
    bool warning = false;

    Report* report = parent.newChild(description());

    // check the source first
    if ((rval = checkSourceJob()->run(*report))) {
        // At this point, if the target partition is to be created and not overwritten, it
        // will still have the wrong device path (the one of the source device). We need
        // to adjust that before we're creating it.
        copiedPartition().setDevicePath(targetDevice().deviceNode());

        // either we have no partition to create (because we're overwriting) or creating
        // must be successful
        if (!createPartitionJob() || (rval = createPartitionJob()->run(*report))) {
            // set the state of the target partition from StateCopy to StateNone or checking
            // it will fail (because its deviceNode() will still be "Copy of sdXn"). This is
            // only required for overwritten partitions, but doesn't hurt in any case.
            copiedPartition().setState(Partition::State::None);

            // if we have overwritten a partition, reset device path and number
            if (overwrittenPartition()) {
                copiedPartition().setDevicePath(overwrittenPartition()->devicePath());
                copiedPartition().setPartitionPath(overwrittenPartition()->partitionPath());
            }

            // now run the copy job itself
            if ((rval = copyFSJob()->run(*report))) {
                // and if the copy job succeeded, check the target
                if ((rval = checkTargetJob()->run(*report))) {
                    // ok, everything went well
                    rval = true;

                    // if maximizing doesn't work, just warn the user, don't fail
                    if (!maximizeJob()->run(*report)) {
                        report->line() << xi18nc("@info:status", "<warning>Maximizing file system on target partition <filename>%1</filename> to the size of the partition failed.</warning>", copiedPartition().deviceNode());
                        warning = true;
                    }
                } else
                    report->line() << xi18nc("@info:status", "Checking target partition <filename>%1</filename> after copy failed.", copiedPartition().deviceNode());
            } else {
                if (createPartitionJob()) {
                    DeletePartitionJob deleteJob(targetDevice(), copiedPartition());
                    deleteJob.run(*report);
                }

                report->line() << xi18nc("@info:status", "Copying source to target partition failed.");
            }
        } else
            report->line() << xi18nc("@info:status", "Creating target partition for copying failed.");
    } else
        report->line() << xi18nc("@info:status", "Checking source partition <filename>%1</filename> failed.", sourcePartition().deviceNode());

    if (rval)
        setStatus(warning ? StatusFinishedWarning : StatusFinishedSuccess);
    else
        setStatus(StatusError);

    report->setStatus(xi18nc("@info:status (success, error, warning...) of operation", "%1: %2", description(), statusText()));

    return rval;
}

QString CopyOperation::updateDescription() const
{
    if (overwrittenPartition()) {
        if (copiedPartition().length() == overwrittenPartition()->length())
            return xi18nc("@info:status", "Copy partition <filename>%1</filename> (%2, %3) to <filename>%4</filename> (%5, %6)",
                          sourcePartition().deviceNode(),
                          Capacity::formatByteSize(sourcePartition().capacity()),
                          sourcePartition().fileSystem().name(),
                          overwrittenPartition()->deviceNode(),
                          Capacity::formatByteSize(overwrittenPartition()->capacity()),
                          overwrittenPartition()->fileSystem().name()
                         );

        return xi18nc("@info:status", "Copy partition <filename>%1</filename> (%2, %3) to <filename>%4</filename> (%5, %6) and grow it to %7",
                      sourcePartition().deviceNode(),
                      Capacity::formatByteSize(sourcePartition().capacity()),
                      sourcePartition().fileSystem().name(),
                      overwrittenPartition()->deviceNode(),
                      Capacity::formatByteSize(overwrittenPartition()->capacity()),
                      overwrittenPartition()->fileSystem().name(),
                      Capacity::formatByteSize(copiedPartition().capacity())
                     );
    }

    if (copiedPartition().length() == sourcePartition().length())
        return xi18nc("@info:status", "Copy partition <filename>%1</filename> (%2, %3) to unallocated space (starting at %4) on <filename>%5</filename>",
                      sourcePartition().deviceNode(),
                      Capacity::formatByteSize(sourcePartition().capacity()),
                      sourcePartition().fileSystem().name(),
                      Capacity::formatByteSize(copiedPartition().firstSector() * targetDevice().logicalSize()),
                      targetDevice().deviceNode()
                     );

    return xi18nc("@info:status", "Copy partition <filename>%1</filename> (%2, %3) to unallocated space (starting at %4) on <filename>%5</filename> and grow it to %6",
                  sourcePartition().deviceNode(),
                  Capacity::formatByteSize(sourcePartition().capacity()),
                  sourcePartition().fileSystem().name(),
                  Capacity::formatByteSize(copiedPartition().firstSector() * targetDevice().logicalSize()),
                  targetDevice().deviceNode(),
                  Capacity::formatByteSize(copiedPartition().capacity())
                 );
}

void CopyOperation::setOverwrittenPartition(Partition* p)
{
    // this code is also in RestoreOperation.

    cleanupOverwrittenPartition();
    m_OverwrittenPartition = p;

    // If the overwritten partition has no other operation that owns it (e.g., an OperationNew or
    // an OperationRestore), we're the new owner. So remember that, because after the operations all
    // have executed and we're asked to clean up after ourselves, the state of the overwritten partition
    // might have changed: If it was a new one and the NewOperation has successfully run, the state will
    // then be StateNone.
    m_MustDeleteOverwritten = (p && p->state() == Partition::State::None);
}

void CopyOperation::cleanupOverwrittenPartition()
{
    if (mustDeleteOverwritten()) {
        delete overwrittenPartition();
        m_OverwrittenPartition = nullptr;
    }
}

/** Creates a new copied Partition.
    @param target the target Partition to copy to (may be unallocated)
    @param source the source Partition to copy
    @return pointer to the newly created Partition object
*/
Partition* CopyOperation::createCopy(const Partition& target, const Partition& source)
{
    Partition* p = target.roles().has(PartitionRole::Unallocated) ? new Partition(source) : new Partition(target);

    p->setDevicePath(source.devicePath());
    p->setPartitionPath(source.partitionPath());
    p->setState(Partition::State::Copy);

    p->deleteFileSystem();
    p->setFileSystem(FileSystemFactory::create(source.fileSystem()));

    p->fileSystem().setFirstSector(p->firstSector());
    p->fileSystem().setLastSector(p->lastSector());

    p->setFlags(PartitionTable::Flag::None);

    return p;
}

/** Can a Partition be copied?
    @param p the Partition in question, may be nullptr.
    @return true if @p p can be copied.
 */
bool CopyOperation::canCopy(const Partition* p)
{
    if (p == nullptr)
        return false;

    if (p->state() == Partition::State::New && p->roles().has(PartitionRole::Luks))
        return false;

    if (p->isMounted())
        return false;

    // FIXME: Does not work well enough yet
    if (p->roles().has(PartitionRole::Lvm_Lv))
        return false;

    // Normally, copying partitions that have not been written to disk yet should
    // be forbidden here. The operation stack, however, will take care of these
    // problematic cases when pushing the CopyOperation onto the stack.

    return p->fileSystem().supportCopy() != FileSystem::cmdSupportNone;
}

/** Can a Partition be pasted on another one?
    @param p the Partition to be pasted to, may be nullptr
    @param source the Partition to be pasted, may be nullptr
    @return true if @p source can be pasted on @p p
 */
bool CopyOperation::canPaste(const Partition* p, const Partition* source)
{
    if (p == nullptr || source == nullptr)
        return false;

    if (p->isMounted())
        return false;

    if (p->roles().has(PartitionRole::Extended))
        return false;

    if (p->roles().has(PartitionRole::Lvm_Lv))
        return false;

    if (p == source)
        return false;

    if (source->length() > p->length())
        return false;

    if (!p->roles().has(PartitionRole::Unallocated) && p->capacity() > source->fileSystem().maxCapacity())
        return false;

    return true;
}