k3b/libk3b/projects/datacd/k3bdatajob.cpp

/*
 *
 * $Id: k3bdatajob.cpp 690187 2007-07-20 09:18:03Z trueg $
 * Copyright (C) 2003 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 "k3bdatajob.h"
#include "k3bdatadoc.h"
#include "k3bisoimager.h"
#include "k3bmsinfofetcher.h"

#include <k3bcore.h>
#include <k3bglobals.h>
#include <k3bversion.h>
#include <k3bdevice.h>
#include <k3bdevicehandler.h>
#include <k3btoc.h>
#include <k3btrack.h>
#include <k3bdevicehandler.h>
#include <k3bexternalbinmanager.h>
#include <k3bcdrecordwriter.h>
#include <k3bcdrdaowriter.h>
#include <k3bglobalsettings.h>
#include <k3bactivepipe.h>
#include <k3bfilesplitter.h>
#include <k3bverificationjob.h>

#include <kprocess.h>
#include <tdeapplication.h>
#include <tdelocale.h>
#include <kstandarddirs.h>
#include <tdetempfile.h>
#include <tdeio/global.h>
#include <tdeio/job.h>

#include <tqstring.h>
#include <tqstringlist.h>
#include <tqdatetime.h>
#include <tqfile.h>
#include <tqdatastream.h>
#include <kdebug.h>



class K3bDataJob::Private
{
public:
  Private()
    : usedWritingApp(K3b::CDRECORD),
      verificationJob(0) {
  }

  K3bDataDoc* doc;

  bool initializingImager;
  bool imageFinished;
  bool canceled;

  KTempFile* tocFile;

  int usedDataMode;
  int usedWritingApp;
  int usedWritingMode;
  K3bDataDoc::MultiSessionMode usedMultiSessionMode;

  int copies;
  int copiesDone;

  K3bVerificationJob* verificationJob;

  K3bFileSplitter imageFile;
  K3bActivePipe pipe;
};


K3bDataJob::K3bDataJob( K3bDataDoc* doc, K3bJobHandler* hdl, TQObject* parent )
  : K3bBurnJob( hdl, parent )
{
  d = new Private;

  d->doc = doc;
  m_writerJob = 0;
  d->tocFile = 0;

  m_isoImager = 0;

  m_msInfoFetcher = new K3bMsInfoFetcher( this, this );
  connect( m_msInfoFetcher, TQT_SIGNAL(finished(bool)), this, TQT_SLOT(slotMsInfoFetched(bool)) );
  connect( m_msInfoFetcher, TQT_SIGNAL(infoMessage(const TQString&, int)), this, TQT_SIGNAL(infoMessage(const TQString&, int)) );
  connect( m_msInfoFetcher, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)),
	   this, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)) );

  d->imageFinished = true;
}

K3bDataJob::~K3bDataJob()
{
  delete d->tocFile;
  delete d;
}


K3bDoc* K3bDataJob::doc() const
{
  return d->doc;
}


K3bDevice::Device* K3bDataJob::writer() const
{
  if( doc()->onlyCreateImages() )
    return 0; // no writer needed -> no blocking on K3bBurnJob
  else
    return doc()->burner();
}


void K3bDataJob::start()
{
  jobStarted();

  d->canceled = false;
  d->imageFinished = false;
  d->copies = d->doc->copies();
  d->copiesDone = 0;
  d->usedMultiSessionMode = d->doc->multiSessionMode();

  prepareImager();

  if( d->doc->dummy() ) {
    d->doc->setVerifyData( false );
    d->copies = 1;
  }

  emit newTask( i18n("Preparing data") );

  // there is no harm in setting these even if we write on-the-fly
  d->imageFile.setName( d->doc->tempDir() );
  d->pipe.readFromIODevice( &d->imageFile );

  if( d->usedMultiSessionMode == K3bDataDoc::AUTO && !d->doc->onlyCreateImages() )
    determineMultiSessionMode();
  else
    prepareWriting();
}


void K3bDataJob::prepareWriting()
{
  if( !d->doc->onlyCreateImages() &&
      ( d->usedMultiSessionMode == K3bDataDoc::CONTINUE ||
	d->usedMultiSessionMode == K3bDataDoc::FINISH ) ) {
    // no sense continuing the same session twice
    // FIXME: why not?
    d->copies = 1;

    m_msInfoFetcher->setDevice( d->doc->burner() );

    if( !waitForMedium() ) {
      cancel();
      return;
    }

    if( K3b::isMounted( d->doc->burner() ) ) {
      emit infoMessage( i18n("Unmounting disk"), INFO );
      K3b::unmount( d->doc->burner() );
    }

    m_msInfoFetcher->start();
  }
  else {
    m_isoImager->setMultiSessionInfo( TQString() );
    prepareData();

    d->initializingImager = true;
    m_isoImager->init();
  }
}


void K3bDataJob::slotMsInfoFetched(bool success)
{
  if( success ) {
    // we call this here since in ms mode we might want to check
    // the last track's datamode
    prepareData();

    if( d->usedWritingApp == K3b::CDRDAO )  // cdrdao seems to write a 150 blocks pregap that is not used by cdrecord
      m_isoImager->setMultiSessionInfo( TQString("%1,%2").arg(m_msInfoFetcher->lastSessionStart()).arg(m_msInfoFetcher->nextSessionStart()+150), d->doc->burner() );
    else
      m_isoImager->setMultiSessionInfo( m_msInfoFetcher->msInfo(), d->doc->burner() );

    d->initializingImager = true;
    m_isoImager->init();
  }
  else {
    // the MsInfoFetcher already emitted failure info
    cancelAll();
    jobFinished( false );
  }
}


void K3bDataJob::writeImage()
{
  d->initializingImager = false;

  emit burning(false);

  // get image file path
  if( d->doc->tempDir().isEmpty() )
    d->doc->setTempDir( K3b::findUniqueFilePrefix( d->doc->isoOptions().volumeID() ) + ".iso" );

  // TODO: check if the image file is part of the project and if so warn the user
  //       and append some number to make the path unique.

  emit newTask( i18n("Creating image file") );
  emit newSubTask( i18n("Track 1 of 1") );
  emit infoMessage( i18n("Creating image file in %1").arg(d->doc->tempDir()), INFO );

  m_isoImager->writeToImageFile( d->doc->tempDir() );
  m_isoImager->start();
}


bool K3bDataJob::startOnTheFlyWriting()
{
  if( prepareWriterJob() ) {
    if( startWriterJob() ) {
      // try a direct connection between the processes
      if( m_writerJob->fd() != -1 )
	m_isoImager->writeToFd( m_writerJob->fd() );
      d->initializingImager = false;
      m_isoImager->start();
      return true;
    }
  }
  return false;
}


void K3bDataJob::cancel()
{
  emit infoMessage( i18n("Writing canceled."), K3bJob::ERROR );
  emit canceled();

  if( m_writerJob && m_writerJob->active() ) {
    //
    // lets wait for the writer job to finish
    // and let it finish the job for good.
    //
    cancelAll();
  }
  else {
    //
    // Just cancel all and return
    // This is bad design as we should wait for all subjobs to finish
    //
    cancelAll();
    jobFinished( false );
  }
}


void K3bDataJob::slotIsoImagerPercent( int p )
{
  if( d->doc->onlyCreateImages() ) {
    emit subPercent( p );
    emit percent( p );
  }
  else if( !d->doc->onTheFly() ) {
    double totalTasks = d->copies;
    double tasksDone = d->copiesDone; // =0 when creating an image
    if( d->doc->verifyData() ) {
      totalTasks*=2;
      tasksDone*=2;
    }
    if( !d->doc->onTheFly() ) {
      totalTasks+=1.0;
    }

    emit subPercent( p );
    emit percent( (int)((100.0*tasksDone + (double)p) / totalTasks) );
  }
}


void K3bDataJob::slotIsoImagerFinished( bool success )
{
  if( d->initializingImager ) {
    if( success ) {
      if( d->doc->onTheFly() && !d->doc->onlyCreateImages() ) {
	if( !startOnTheFlyWriting() ) {
	  cancelAll();
	  jobFinished( false );
	}
      }
      else {
	writeImage();
      }
    }
    else {
      if( m_isoImager->hasBeenCanceled() )
	emit canceled();
      jobFinished( false );
    }
  }
  else {
    // tell the writer that there won't be more data
    if( d->doc->onTheFly() && m_writerJob )
      m_writerJob->closeFd();

    if( !d->doc->onTheFly() ||
	d->doc->onlyCreateImages() ) {

      if( success ) {
	emit infoMessage( i18n("Image successfully created in %1").arg(d->doc->tempDir()), K3bJob::SUCCESS );
	d->imageFinished = true;

	if( d->doc->onlyCreateImages() ) {
	  jobFinished( true );
	}
	else {
	  if( prepareWriterJob() ) {
	    startWriterJob();
	    d->pipe.writeToFd( m_writerJob->fd(), true );
	    d->pipe.open(true);
	  }
	}
      }
      else {
	if( m_isoImager->hasBeenCanceled() )
	  emit canceled();
	else
	  emit infoMessage( i18n("Error while creating ISO image"), ERROR );

	cancelAll();
	jobFinished( false );
      }
    }
    else if( !success ) { // on-the-fly
      //
      // In case the imager failed let's make sure the writer does not emit an unusable
      // error message.
      //
      if( m_writerJob && m_writerJob->active() )
	m_writerJob->setSourceUnreadable( true );

      // there is one special case which we need to handle here: the iso imager might be canceled
      // FIXME: the iso imager should not be able to cancel itself
      if( m_isoImager->hasBeenCanceled() && !this->hasBeenCanceled() )
	cancel();
    }
  }
}


bool K3bDataJob::startWriterJob()
{
  if( d->doc->dummy() )
    emit newTask( i18n("Simulating") );
  else if( d->copies > 1 )
    emit newTask( i18n("Writing Copy %1").arg(d->copiesDone+1) );
  else
    emit newTask( i18n("Writing") );

  // if we append a new session we asked for an appendable cd already
  if( d->usedMultiSessionMode == K3bDataDoc::NONE ||
      d->usedMultiSessionMode == K3bDataDoc::START ) {

    if( !waitForMedium() ) {
      return false;
    }
  }

  emit burning(true);
  m_writerJob->start();
  return true;
}


void K3bDataJob::slotWriterJobPercent( int p )
{
  double totalTasks = d->copies;
  double tasksDone = d->copiesDone;
  if( d->doc->verifyData() ) {
    totalTasks*=2;
    tasksDone*=2;
  }
  if( !d->doc->onTheFly() ) {
    totalTasks+=1.0;
    tasksDone+=1.0;
  }

  emit percent( (int)((100.0*tasksDone + (double)p) / totalTasks) );
}


void K3bDataJob::slotWriterNextTrack( int t, int tt )
{
  emit newSubTask( i18n("Writing Track %1 of %2").arg(t).arg(tt) );
}


void K3bDataJob::slotWriterJobFinished( bool success )
{
  d->pipe.close();

  //
  // This is a little workaround for the bad cancellation handling in this job
  // see cancel()
  //
  if( d->canceled ) {
    if( active() )
      jobFinished( false );
  }

  if( success ) {
    // allright
    // the writerJob should have emited the "simulation/writing successful" signal

    if( d->doc->verifyData() ) {
      if( !d->verificationJob ) {
	d->verificationJob = new K3bVerificationJob( this, this );
	connect( d->verificationJob, TQT_SIGNAL(infoMessage(const TQString&, int)),
		 this, TQT_SIGNAL(infoMessage(const TQString&, int)) );
 	connect( d->verificationJob, TQT_SIGNAL(newTask(const TQString&)),
 		 this, TQT_SIGNAL(newSubTask(const TQString&)) );
	connect( d->verificationJob, TQT_SIGNAL(newSubTask(const TQString&)),
		 this, TQT_SIGNAL(newSubTask(const TQString&)) );
	connect( d->verificationJob, TQT_SIGNAL(percent(int)),
		 this, TQT_SLOT(slotVerificationProgress(int)) );
	connect( d->verificationJob, TQT_SIGNAL(percent(int)),
		 this, TQT_SIGNAL(subPercent(int)) );
	connect( d->verificationJob, TQT_SIGNAL(finished(bool)),
		 this, TQT_SLOT(slotVerificationFinished(bool)) );
	connect( d->verificationJob, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)),
		 this, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)) );

      }
      d->verificationJob->clear();
      d->verificationJob->setDevice( d->doc->burner() );
      d->verificationJob->setGrownSessionSize( m_isoImager->size() );
      d->verificationJob->addTrack( 0, m_isoImager->checksum(), m_isoImager->size() );

      emit burning(false);

      emit newTask( i18n("Verifying written data") );

      d->verificationJob->start();
    }
    else {
      d->copiesDone++;

      if( d->copiesDone < d->copies ) {
	K3bDevice::eject( d->doc->burner() );

	bool failed = false;
	if( d->doc->onTheFly() )
	  failed = !startOnTheFlyWriting();
	else
	  failed = !startWriterJob();

	if( failed ) {
	  cancel();
	}
	else if( !d->doc->onTheFly() ) {
	  d->pipe.writeToFd( m_writerJob->fd(), true );
	  d->pipe.open(true);
	}
      }
      else {
	cleanup();
	jobFinished(true);
      }
    }
  }
  else {
    cancelAll();
    jobFinished( false );
  }
}


void K3bDataJob::slotVerificationProgress( int p )
{
  double totalTasks = d->copies*2;
  double tasksDone = d->copiesDone*2 + 1; // the writing of the current copy has already been finished

  if( !d->doc->onTheFly() ) {
    totalTasks+=1.0;
    tasksDone+=1.0;
  }

  emit percent( (int)((100.0*tasksDone + (double)p) / totalTasks) );
}


void K3bDataJob::slotVerificationFinished( bool success )
{
  d->copiesDone++;

  // reconnect our imager which we deconnected for the verification
  connectImager();

  if( k3bcore->globalSettings()->ejectMedia() || d->copiesDone < d->copies )
    K3bDevice::eject( d->doc->burner() );

  if( !d->canceled && d->copiesDone < d->copies ) {
    bool failed = false;
    if( d->doc->onTheFly() )
      failed = !startOnTheFlyWriting();
    else
      failed = !startWriterJob();

    if( failed )
      cancel();
    else if( !d->doc->onTheFly() ) {
      d->pipe.writeToFd( m_writerJob->fd(), true );
      d->pipe.open(true);
    }
  }
  else {
    cleanup();
    jobFinished( success );
  }
}


void K3bDataJob::setWriterJob( K3bAbstractWriter* writer )
{
  // FIXME: progressedsize for multiple copies
  m_writerJob = writer;
  connect( m_writerJob, TQT_SIGNAL(infoMessage(const TQString&, int)), this, TQT_SIGNAL(infoMessage(const TQString&, int)) );
  connect( m_writerJob, TQT_SIGNAL(percent(int)), this, TQT_SLOT(slotWriterJobPercent(int)) );
  connect( m_writerJob, TQT_SIGNAL(processedSize(int, int)), this, TQT_SIGNAL(processedSize(int, int)) );
  connect( m_writerJob, TQT_SIGNAL(subPercent(int)), this, TQT_SIGNAL(subPercent(int)) );
  connect( m_writerJob, TQT_SIGNAL(processedSubSize(int, int)), this, TQT_SIGNAL(processedSubSize(int, int)) );
  connect( m_writerJob, TQT_SIGNAL(nextTrack(int, int)), this, TQT_SLOT(slotWriterNextTrack(int, int)) );
  connect( m_writerJob, TQT_SIGNAL(buffer(int)), this, TQT_SIGNAL(bufferStatus(int)) );
  connect( m_writerJob, TQT_SIGNAL(deviceBuffer(int)), this, TQT_SIGNAL(deviceBuffer(int)) );
  connect( m_writerJob, TQT_SIGNAL(writeSpeed(int, int)), this, TQT_SIGNAL(writeSpeed(int, int)) );
  connect( m_writerJob, TQT_SIGNAL(finished(bool)), this, TQT_SLOT(slotWriterJobFinished(bool)) );
  connect( m_writerJob, TQT_SIGNAL(newSubTask(const TQString&)), this, TQT_SIGNAL(newSubTask(const TQString&)) );
  connect( m_writerJob, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)),
	   this, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)) );
}


void K3bDataJob::setImager( K3bIsoImager* imager )
{
  if( m_isoImager != imager ) {
    delete m_isoImager;

    m_isoImager = imager;

    connectImager();
  }
}


void K3bDataJob::connectImager()
{
  m_isoImager->disconnect( this );
  connect( m_isoImager, TQT_SIGNAL(infoMessage(const TQString&, int)), this, TQT_SIGNAL(infoMessage(const TQString&, int)) );
  connect( m_isoImager, TQT_SIGNAL(percent(int)), this, TQT_SLOT(slotIsoImagerPercent(int)) );
  connect( m_isoImager, TQT_SIGNAL(finished(bool)), this, TQT_SLOT(slotIsoImagerFinished(bool)) );
  connect( m_isoImager, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)),
	   this, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)) );
}


void K3bDataJob::prepareImager()
{
  if( !m_isoImager )
    setImager( new K3bIsoImager( d->doc, this, this ) );
}


bool K3bDataJob::prepareWriterJob()
{
  if( m_writerJob )
    return true;

  // It seems as if cdrecord is not able to append sessions in dao mode whereas cdrdao is
  if( d->usedWritingApp == K3b::CDRECORD )  {
    K3bCdrecordWriter* writer = new K3bCdrecordWriter( d->doc->burner(), this, this );

    // cdrecord manpage says that "not all" writers are able to write
    // multisession disks in dao mode. That means there are writers that can.

    // Does it really make sence to write DAta ms cds in DAO mode since writing the
    // first session of a cd-extra in DAO mode is no problem with my writer while
    // writing the second data session is only possible in TAO mode.
    if( d->usedWritingMode == K3b::DAO &&
	d->usedMultiSessionMode != K3bDataDoc::NONE )
      emit infoMessage( i18n("Most writers do not support writing "
			     "multisession CDs in DAO mode."), INFO );

    writer->setWritingMode( d->usedWritingMode );
    writer->setSimulate( d->doc->dummy() );
    writer->setBurnSpeed( d->doc->speed() );

    // multisession
    if( d->usedMultiSessionMode == K3bDataDoc::START ||
	d->usedMultiSessionMode == K3bDataDoc::CONTINUE ) {
      writer->addArgument("-multi");
    }

    if( d->doc->onTheFly() &&
	( d->usedMultiSessionMode == K3bDataDoc::CONTINUE ||
	  d->usedMultiSessionMode == K3bDataDoc::FINISH ) )
      writer->addArgument("-waiti");

    if( d->usedDataMode == K3b::MODE1 )
      writer->addArgument( "-data" );
    else {
      if( k3bcore->externalBinManager()->binObject("cdrecord") &&
	  k3bcore->externalBinManager()->binObject("cdrecord")->hasFeature( "xamix" ) )
	writer->addArgument( "-xa" );
      else
	writer->addArgument( "-xa1" );
    }

    writer->addArgument( TQString("-tsize=%1s").arg(m_isoImager->size()) )->addArgument("-");

    setWriterJob( writer );
  }
  else {
    // create cdrdao job
    K3bCdrdaoWriter* writer = new K3bCdrdaoWriter( d->doc->burner(), this, this );
    writer->setCommand( K3bCdrdaoWriter::WRITE );
    writer->setSimulate( d->doc->dummy() );
    writer->setBurnSpeed( d->doc->speed() );
    // multisession
    writer->setMulti( d->usedMultiSessionMode == K3bDataDoc::START ||
		      d->usedMultiSessionMode == K3bDataDoc::CONTINUE );

    // now write the tocfile
    if( d->tocFile ) delete d->tocFile;
    d->tocFile = new KTempFile( TQString(), "toc" );
    d->tocFile->setAutoDelete(true);

    if( TQTextStream* s = d->tocFile->textStream() ) {
      if( d->usedDataMode == K3b::MODE1 ) {
	*s << "CD_ROM" << "\n";
	*s << "\n";
	*s << "TRACK MODE1" << "\n";
      }
      else {
	*s << "CD_ROM_XA" << "\n";
	*s << "\n";
	*s << "TRACK MODE2_FORM1" << "\n";
      }

      *s << "DATAFILE \"-\" " << m_isoImager->size()*2048 << "\n";

      d->tocFile->close();
    }
    else {
      kdDebug() << "(K3bDataJob) could not write tocfile." << endl;
      emit infoMessage( i18n("IO Error"), ERROR );
      cancelAll();
      return false;
    }

    writer->setTocFile( d->tocFile->name() );

    setWriterJob( writer );
  }

  return true;
}


void K3bDataJob::prepareData()
{
  // we don't need this when only creating image and it is possible
  // that the burn device is null
  if( d->doc->onlyCreateImages() )
    return;

  // first of all we determine the data mode
  if( d->doc->dataMode() == K3b::DATA_MODE_AUTO ) {
    if( !d->doc->onlyCreateImages() &&
	( d->usedMultiSessionMode == K3bDataDoc::CONTINUE ||
	  d->usedMultiSessionMode == K3bDataDoc::FINISH ) ) {

      // try to get the last track's datamode
      // we already asked for an appendable cdr when fetching
      // the ms info
      kdDebug() << "(K3bDataJob) determining last track's datamode..." << endl;

      // FIXME: use a devicethread
      K3bDevice::Toc toc = d->doc->burner()->readToc();
      if( toc.isEmpty() ) {
	kdDebug() << "(K3bDataJob) could not retrieve toc." << endl;
	emit infoMessage( i18n("Unable to determine the last track's datamode. Using default."), ERROR );
	d->usedDataMode = K3b::MODE2;
      }
      else {
	if( toc[toc.count()-1].mode() == K3bDevice::Track::MODE1 )
	  d->usedDataMode = K3b::MODE1;
	else
	  d->usedDataMode = K3b::MODE2;

	kdDebug() << "(K3bDataJob) using datamode: "
		  << (d->usedDataMode == K3b::MODE1 ? "mode1" : "mode2")
		  << endl;
      }
    }
    else if( d->usedMultiSessionMode == K3bDataDoc::NONE )
      d->usedDataMode = K3b::MODE1;
    else
      d->usedDataMode = K3b::MODE2;
  }
  else
    d->usedDataMode = d->doc->dataMode();


  // determine the writing mode
  if( d->doc->writingMode() == K3b::WRITING_MODE_AUTO ) {
    // TODO: put this into the cdreocrdwriter and decide based on the size of the
    // track
    if( writer()->dao() && d->usedDataMode == K3b::MODE1 &&
	d->usedMultiSessionMode == K3bDataDoc::NONE )
      d->usedWritingMode = K3b::DAO;
    else
      d->usedWritingMode = K3b::TAO;
  }
  else
    d->usedWritingMode = d->doc->writingMode();


  // cdrecord seems to have problems writing xa 1 disks in dao mode? At least on my system!
  if( writingApp() == K3b::DEFAULT ) {
    if( d->usedWritingMode == K3b::DAO ) {
      if( d->usedMultiSessionMode != K3bDataDoc::NONE )
	d->usedWritingApp = K3b::CDRDAO;
      else if( d->usedDataMode == K3b::MODE2 )
	d->usedWritingApp = K3b::CDRDAO;
      else
	d->usedWritingApp = K3b::CDRECORD;
    }
    else
      d->usedWritingApp = K3b::CDRECORD;
  }
  else
    d->usedWritingApp = writingApp();
}


void K3bDataJob::determineMultiSessionMode()
{
  //
  // THIS IS ONLY CALLED IF d->doc->multiSessionMode() == K3bDataDoc::AUTO!
  //

  if( d->doc->writingMode() == K3b::WRITING_MODE_AUTO ||
      d->doc->writingMode() == K3b::TAO ) {
    emit newSubTask( i18n("Searching for old session") );

    //
    // Wait for the medium.
    // In case an old session was imported we always want to continue or finish a multisession CD/DVD.
    // Otherwise we wait for everything we could handle and decide what to do in
    // determineMultiSessionMode( K3bDevice::DeviceHandler* ) below.
    //

    int wantedMediaState = K3bDevice::STATE_INCOMPLETE|K3bDevice::STATE_EMPTY;
    if( d->doc->sessionImported() )
      wantedMediaState = K3bDevice::STATE_INCOMPLETE;

    int m = waitForMedia( d->doc->burner(),
			  wantedMediaState,
			  K3bDevice::MEDIA_WRITABLE_CD );

    if( m < 0 )
      cancel();
    else {
      // now we need to determine the media's size
      connect( K3bDevice::sendCommand( K3bDevice::DeviceHandler::NG_DISKINFO, d->doc->burner() ),
	       TQT_SIGNAL(finished(K3bDevice::DeviceHandler*)),
	       this,
	       TQT_SLOT(slotDetermineMultiSessionMode(K3bDevice::DeviceHandler*)) );
    }
  }
  else {
    // we need TAO for multisession
    d->usedMultiSessionMode = K3bDataDoc::NONE;

    // carry on with the writing
    prepareWriting();
  }
}


void K3bDataJob::slotDetermineMultiSessionMode( K3bDevice::DeviceHandler* dh )
{
  //
  // This is a little workaround for the bad cancellation handling in this job
  // see cancel()
  //
  if( d->canceled ) {
    if( active() ) {
      cleanup();
      jobFinished( false );
    }
  }
  else {
    d->usedMultiSessionMode = getMultiSessionMode( dh->diskInfo() );

    // carry on with the writing
    prepareWriting();
  }
}


K3bDataDoc::MultiSessionMode K3bDataJob::getMultiSessionMode( const K3bDevice::DiskInfo& info )
{
  if( info.appendable() ) {
    //
    // 3 cases:
    //  1. the project does not fit -> no multisession (resulting in asking for another media above)
    //  2. the project does fit and fills up the CD -> finish multisession
    //  3. the project does fit and does not fill up the CD -> continue multisession
    //
    // In case a session has been imported we do not consider NONE at all.
    //
    if( d->doc->size() > info.remainingSize().mode1Bytes() && !d->doc->sessionImported() )
      d->usedMultiSessionMode = K3bDataDoc::NONE;
    else if( d->doc->size() >= info.remainingSize().mode1Bytes()*9/10 )
      d->usedMultiSessionMode = K3bDataDoc::FINISH;
    else
      d->usedMultiSessionMode = K3bDataDoc::CONTINUE;
  }

  else if( info.empty() ) {
    //
    // We only close the CD if the project fills up the CD almost completely (90%)
    //
    if( d->doc->size() >= info.capacity().mode1Bytes()*9/10 ||
	d->doc->writingMode() == K3b::DAO )
      d->usedMultiSessionMode = K3bDataDoc::NONE;
    else
      d->usedMultiSessionMode = K3bDataDoc::START;
  }

  else { // complete (WE SHOULD ACTUALLY NEVER GET HERE SINCE WE WAIT FOR AN EMPTY/APPENDABLE CD ABOVE!)
    //
    // Now we decide only based on the project size.
    // let's just use a 680 MB CD as our reference
    //
    if( d->doc->size()/1024/1024 >= 680*9/10 ||
	d->doc->writingMode() == K3b::DAO )
      d->usedMultiSessionMode = K3bDataDoc::NONE;
    else
      d->usedMultiSessionMode = K3bDataDoc::START;
  }

  return d->usedMultiSessionMode;
}


void K3bDataJob::cancelAll()
{
  d->canceled = true;

  m_isoImager->cancel();
  m_msInfoFetcher->cancel();
  if( m_writerJob )
    m_writerJob->cancel();
  if( d->verificationJob )
    d->verificationJob->cancel();

  d->pipe.close();

  cleanup();
}


bool K3bDataJob::waitForMedium()
{
  emit newSubTask( i18n("Waiting for a medium") );
  if( waitForMedia( d->doc->burner(),
		    d->usedMultiSessionMode == K3bDataDoc::CONTINUE ||
		    d->usedMultiSessionMode == K3bDataDoc::FINISH ?
		    K3bDevice::STATE_INCOMPLETE :
		    K3bDevice::STATE_EMPTY,
		    K3bDevice::MEDIA_WRITABLE_CD ) < 0 ) {
    return false;
  }
  else
    return !d->canceled;
}


TQString K3bDataJob::jobDescription() const
{
  if( d->doc->onlyCreateImages() ) {
    return i18n("Creating Data Image File");
  }
  else if( d->doc->multiSessionMode() == K3bDataDoc::NONE ||
	   d->doc->multiSessionMode() == K3bDataDoc::AUTO ) {
    return i18n("Writing Data CD")
      + ( d->doc->isoOptions().volumeID().isEmpty()
	  ? TQString()
	  : TQString( " (%1)" ).arg(d->doc->isoOptions().volumeID()) );
  }
  else {
    return i18n("Writing Multisession CD")
      + ( d->doc->isoOptions().volumeID().isEmpty()
	  ? TQString()
	  : TQString( " (%1)" ).arg(d->doc->isoOptions().volumeID()) );
  }
}


TQString K3bDataJob::jobDetails() const
{
  if( d->doc->copies() > 1 &&
      !d->doc->dummy() &&
      !(d->doc->multiSessionMode() == K3bDataDoc::CONTINUE ||
	d->doc->multiSessionMode() == K3bDataDoc::FINISH) )
    return i18n("ISO9660 Filesystem (Size: %1) - %n copy",
		"ISO9660 Filesystem (Size: %1) - %n copies",
		d->doc->copies() )
      .arg(TDEIO::convertSize( d->doc->size() ));
  else
    return i18n("ISO9660 Filesystem (Size: %1)")
      .arg(TDEIO::convertSize( d->doc->size() ));
}


K3bDataDoc::MultiSessionMode K3bDataJob::usedMultiSessionMode() const
{
  return d->usedMultiSessionMode;
}


void K3bDataJob::cleanup()
{
  if( !d->doc->onTheFly() && d->doc->removeImages() ) {
    if( TQFile::exists( d->doc->tempDir() ) ) {
      d->imageFile.remove();
      emit infoMessage( i18n("Removed image file %1").arg(d->doc->tempDir()), K3bJob::SUCCESS );
    }
  }

  if( d->tocFile ) {
    delete d->tocFile;
    d->tocFile = 0;
  }
}


bool K3bDataJob::hasBeenCanceled() const
{
  return d->canceled;
}

#include "k3bdatajob.moc"