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k3b/libk3b/jobs/k3bverificationjob.cpp

385 lines
11 KiB

/*
*
* $Id: k3bisoimageverificationjob.cpp 597651 2006-10-21 08:04:01Z trueg $
* Copyright (C) 2003-2007 Sebastian Trueg <trueg@k3b.org>
*
* This file is part of the K3b project.
* Copyright (C) 1998-2007 Sebastian Trueg <trueg@k3b.org>
*
* This program 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 2 of the License, or
* (at your option) any later version.
* See the file "COPYING" for the exact licensing terms.
*/
#include "k3bverificationjob.h"
#include <k3bdevice.h>
#include <k3bdevicehandler.h>
#include <k3bmd5job.h>
#include <k3bglobals.h>
#include <k3bdatatrackreader.h>
#include <k3bpipe.h>
#include <k3biso9660.h>
#include <kdebug.h>
#include <klocale.h>
#include <tdeio/global.h>
#include <tdeio/job.h>
#include <tdeio/netaccess.h>
#include <tqcstring.h>
#include <tqapplication.h>
#include <tqvaluelist.h>
#include <tqpair.h>
class K3bVerificationJobTrackEntry
{
public:
K3bVerificationJobTrackEntry()
: trackNumber(0) {
}
K3bVerificationJobTrackEntry( int tn, const TQCString& cs, const K3b::Msf& msf )
: trackNumber(tn),
checksum(cs),
length(msf) {
}
int trackNumber;
TQCString checksum;
K3b::Msf length;
};
class K3bVerificationJob::Private
{
public:
Private()
: md5Job(0),
device(0),
dataTrackReader(0) {
}
bool canceled;
K3bMd5Job* md5Job;
K3bDevice::Device* device;
K3b::Msf grownSessionSize;
TQValueList<K3bVerificationJobTrackEntry> tracks;
int currentTrackIndex;
K3bDevice::DiskInfo diskInfo;
K3bDevice::Toc toc;
K3bDataTrackReader* dataTrackReader;
K3b::Msf currentTrackSize;
K3b::Msf totalSectors;
K3b::Msf alreadyReadSectors;
K3bPipe pipe;
bool readSuccessful;
bool mediumHasBeenReloaded;
};
K3bVerificationJob::K3bVerificationJob( K3bJobHandler* hdl, TQObject* parent, const char* name )
: K3bJob( hdl, parent, name )
{
d = new Private();
d->md5Job = new K3bMd5Job( this );
connect( d->md5Job, TQT_SIGNAL(infoMessage(const TQString&, int)), this, TQT_SIGNAL(infoMessage(const TQString&, int)) );
connect( d->md5Job, TQT_SIGNAL(finished(bool)), this, TQT_SLOT(slotMd5JobFinished(bool)) );
connect( d->md5Job, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)),
this, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)) );
}
K3bVerificationJob::~K3bVerificationJob()
{
delete d;
}
void K3bVerificationJob::cancel()
{
d->canceled = true;
if( d->md5Job && d->md5Job->active() )
d->md5Job->cancel();
if( d->dataTrackReader && d->dataTrackReader->active() )
d->dataTrackReader->cancel();
}
void K3bVerificationJob::addTrack( int trackNum, const TQCString& checksum, const K3b::Msf& length )
{
d->tracks.append( K3bVerificationJobTrackEntry( trackNum, checksum, length ) );
}
void K3bVerificationJob::clear()
{
d->tracks.clear();
d->grownSessionSize = 0;
}
void K3bVerificationJob::setDevice( K3bDevice::Device* dev )
{
d->device = dev;
}
void K3bVerificationJob::setGrownSessionSize( const K3b::Msf& s )
{
d->grownSessionSize = s;
}
void K3bVerificationJob::start()
{
jobStarted();
d->canceled = false;
d->currentTrackIndex = 0;
d->alreadyReadSectors = 0;
emit newTask( i18n("Checking medium") );
d->mediumHasBeenReloaded = false;
connect( K3bDevice::sendCommand( K3bDevice::DeviceHandler::DISKINFO, d->device ),
TQT_SIGNAL(finished(K3bDevice::DeviceHandler*)),
this,
TQT_SLOT(slotDiskInfoReady(K3bDevice::DeviceHandler*)) );
}
void K3bVerificationJob::slotMediaReloaded( bool /*success*/ )
{
// we always need to wait for the medium. Otherwise the diskinfo below
// may run before the drive is ready!
waitForMedia( d->device,
K3bDevice::STATE_COMPLETE|K3bDevice::STATE_INCOMPLETE,
K3bDevice::MEDIA_WRITABLE );
d->mediumHasBeenReloaded = true;
emit newTask( i18n("Checking medium") );
connect( K3bDevice::sendCommand( K3bDevice::DeviceHandler::DISKINFO, d->device ),
TQT_SIGNAL(finished(K3bDevice::DeviceHandler*)),
this,
TQT_SLOT(slotDiskInfoReady(K3bDevice::DeviceHandler*)) );
}
void K3bVerificationJob::slotDiskInfoReady( K3bDevice::DeviceHandler* dh )
{
if( d->canceled ) {
emit canceled();
jobFinished(false);
}
d->diskInfo = dh->diskInfo();
d->toc = dh->toc();
d->totalSectors = 0;
// just to be sure check if we actually have all the tracks
int i = 0;
for( TQValueList<K3bVerificationJobTrackEntry>::iterator it = d->tracks.begin();
it != d->tracks.end(); ++i, ++it ) {
// 0 means "last track"
if( (*it).trackNumber == 0 )
(*it).trackNumber = d->toc.count();
if( (int)d->toc.count() < (*it).trackNumber ) {
if ( d->mediumHasBeenReloaded ) {
emit infoMessage( i18n("Internal Error: Verification job improperly initialized (%1)")
.arg( "Specified track number not found on medium" ), ERROR );
jobFinished( false );
return;
}
else {
// many drives need to reload the medium to return to a proper state
emit newTask( i18n("Reloading the medium") );
connect( K3bDevice::reload( d->device ),
TQT_SIGNAL(finished(bool)),
this,
TQT_SLOT(slotMediaReloaded(bool)) );
return;
}
}
d->totalSectors += trackLength( i );
}
readTrack( 0 );
}
void K3bVerificationJob::readTrack( int trackIndex )
{
d->currentTrackIndex = trackIndex;
d->readSuccessful = true;
d->currentTrackSize = trackLength( trackIndex );
if( d->currentTrackSize == 0 ) {
jobFinished(false);
return;
}
emit newTask( i18n("Verifying track %1").arg( d->tracks[trackIndex].trackNumber ) );
d->pipe.open();
if( d->toc[d->tracks[trackIndex].trackNumber-1].type() == K3bDevice::Track::DATA ) {
if( !d->dataTrackReader ) {
d->dataTrackReader = new K3bDataTrackReader( this );
connect( d->dataTrackReader, TQT_SIGNAL(percent(int)), this, TQT_SLOT(slotReaderProgress(int)) );
// connect( d->dataTrackReader, TQT_SIGNAL(processedSize(int, int)), this, TQT_SLOT(slotReaderProcessedSize(int, int)) );
connect( d->dataTrackReader, TQT_SIGNAL(finished(bool)), this, TQT_SLOT(slotReaderFinished(bool)) );
connect( d->dataTrackReader, TQT_SIGNAL(infoMessage(const TQString&, int)), this, TQT_SIGNAL(infoMessage(const TQString&, int)) );
connect( d->dataTrackReader, TQT_SIGNAL(newTask(const TQString&)), this, TQT_SIGNAL(newSubTask(const TQString&)) );
connect( d->dataTrackReader, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)),
this, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)) );
}
d->dataTrackReader->setDevice( d->device );
d->dataTrackReader->setIgnoreErrors( false );
d->dataTrackReader->setSectorSize( K3bDataTrackReader::MODE1 );
// in case a session was grown the track size does not say anything about the verification data size
if( d->diskInfo.mediaType() & (K3bDevice::MEDIA_DVD_PLUS_RW|K3bDevice::MEDIA_DVD_RW_OVWR) &&
d->grownSessionSize > 0 ) {
K3bIso9660 isoF( d->device );
if( isoF.open() ) {
int firstSector = isoF.primaryDescriptor().volumeSpaceSize - d->grownSessionSize.lba();
d->dataTrackReader->setSectorRange( firstSector,
isoF.primaryDescriptor().volumeSpaceSize -1 );
}
else {
emit infoMessage( i18n("Unable to determine the ISO9660 filesystem size."), ERROR );
jobFinished( false );
return;
}
}
else
d->dataTrackReader->setSectorRange( d->toc[d->tracks[trackIndex].trackNumber-1].firstSector(),
d->toc[d->tracks[trackIndex].trackNumber-1].firstSector() + d->currentTrackSize -1 );
d->md5Job->setMaxReadSize( d->currentTrackSize.mode1Bytes() );
d->dataTrackReader->writeToFd( d->pipe.in() );
d->dataTrackReader->start();
}
else {
// FIXME: handle audio tracks
}
d->md5Job->setFd( d->pipe.out() );
d->md5Job->start();
}
void K3bVerificationJob::slotReaderProgress( int p )
{
emit subPercent( p );
emit percent( 100 * ( d->alreadyReadSectors.lba() + ( p*d->currentTrackSize.lba()/100 ) ) / d->totalSectors.lba() );
}
void K3bVerificationJob::slotMd5JobFinished( bool success )
{
d->pipe.close();
if( success && !d->canceled && d->readSuccessful ) {
// compare the two sums
if( d->tracks[d->currentTrackIndex].checksum != d->md5Job->hexDigest() ) {
emit infoMessage( i18n("Written data in track %1 differs from original.").arg(d->tracks[d->currentTrackIndex].trackNumber), ERROR );
jobFinished(false);
}
else {
emit infoMessage( i18n("Written data verified."), SUCCESS );
++d->currentTrackIndex;
if( d->currentTrackIndex < (int)d->tracks.count() )
readTrack( d->currentTrackIndex );
else
jobFinished(true);
}
}
else {
// The md5job emitted an error message. So there is no need to do this again
jobFinished(false);
}
}
void K3bVerificationJob::slotReaderFinished( bool success )
{
d->readSuccessful = success;
if( !d->readSuccessful )
d->md5Job->cancel();
else {
d->alreadyReadSectors += trackLength( d->currentTrackIndex );
// close the pipe and let the md5 job finish gracefully
d->pipe.closeIn();
// d->md5Job->stop();
}
}
K3b::Msf K3bVerificationJob::trackLength( int trackIndex )
{
K3b::Msf& trackSize = d->tracks[trackIndex].length;
const int& trackNum = d->tracks[trackIndex].trackNumber;
if( trackSize == 0 ) {
trackSize = d->toc[trackNum-1].length();
if( d->diskInfo.mediaType() & (K3bDevice::MEDIA_DVD_PLUS_RW|K3bDevice::MEDIA_DVD_RW_OVWR) ) {
K3bIso9660 isoF( d->device, d->toc[trackNum-1].firstSector().lba() );
if( isoF.open() ) {
trackSize = isoF.primaryDescriptor().volumeSpaceSize;
}
else {
emit infoMessage( i18n("Unable to determine the ISO9660 filesystem size."), ERROR );
return 0;
}
}
//
// A data track recorded in TAO mode has two run-out blocks which cannot be read and contain
// zero data anyway. The problem is that I do not know of a valid method to determine if a track
// was written in TAO (the control nibble does definitely not work, I never saw one which did not
// equal 4).
// So the solution for now is to simply try to read the last sector of a data track. If this is not
// possible we assume it was written in TAO mode and reduce the length by 2 sectors
//
if( d->toc[trackNum-1].type() == K3bDevice::Track::DATA &&
d->diskInfo.mediaType() & K3bDevice::MEDIA_CD_ALL ) {
// we try twice just to be sure
unsigned char buffer[2048];
if( !d->device->read10( buffer, 2048, d->toc[trackNum-1].lastSector().lba(), 1 ) &&
!d->device->read10( buffer, 2048, d->toc[trackNum-1].lastSector().lba(), 1 ) ) {
trackSize -= 2;
kdDebug() << "(K3bCdCopyJob) track " << trackNum << " probably TAO recorded." << endl;
}
}
}
return trackSize;
}
#include "k3bverificationjob.moc"