/* * * $Id: k3biso9660imagewritingjob.cpp 690187 2007-07-20 09:18:03Z trueg $ * Copyright (C) 2003 Sebastian Trueg * * This file is part of the K3b project. * Copyright (C) 1998-2007 Sebastian Trueg * * 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 "k3biso9660imagewritingjob.h" #include "k3bverificationjob.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include class K3bIso9660ImageWritingJob::Private { public: K3bChecksumPipe checksumPipe; K3bFileSplitter imageFile; }; K3bIso9660ImageWritingJob::K3bIso9660ImageWritingJob( K3bJobHandler* hdl ) : K3bBurnJob( hdl ), m_writingMode(K3b::WRITING_MODE_AUTO), m_simulate(false), m_device(0), m_noFix(false), m_speed(2), m_dataMode(K3b::DATA_MODE_AUTO), m_writer(0), m_tocFile(0), m_copies(1), m_verifyJob(0) { d = new Private; } K3bIso9660ImageWritingJob::~K3bIso9660ImageWritingJob() { delete m_tocFile; delete d; } void K3bIso9660ImageWritingJob::start() { m_canceled = m_finished = false; m_currentCopy = 1; jobStarted(); if( m_simulate ) m_verifyData = false; emit newTask( i18n("Preparing data") ); if( !TQFile::exists( m_imagePath ) ) { emit infoMessage( i18n("Could not find image %1").arg(m_imagePath), K3bJob::ERROR ); jobFinished( false ); return; } unsigned long gb = K3b::imageFilesize( m_imagePath )/1024/1024; // very rough test but since most dvd images are 4,x or 8,x GB it should be enough m_dvd = ( gb > 900 ); startWriting(); } void K3bIso9660ImageWritingJob::slotWriterJobFinished( bool success ) { if( m_canceled ) { m_finished = true; emit canceled(); jobFinished(false); return; } d->checksumPipe.close(); if( success ) { if( !m_simulate && m_verifyData ) { emit burning(false); // allright // the writerJob should have emited the "simulation/writing successful" signal if( !m_verifyJob ) { m_verifyJob = new K3bVerificationJob( this ); connectSubJob( m_verifyJob, TQT_SLOT(slotVerificationFinished(bool)), true, TQT_SLOT(slotVerificationProgress(int)), TQT_SIGNAL(subPercent(int)) ); } m_verifyJob->setDevice( m_device ); m_verifyJob->clear(); m_verifyJob->addTrack( 1, d->checksumPipe.checksum(), K3b::imageFilesize( m_imagePath )/2048 ); if( m_copies == 1 ) emit newTask( i18n("Verifying written data") ); else emit newTask( i18n("Verifying written copy %1 of %2").arg(m_currentCopy).arg(m_copies) ); m_verifyJob->start(); } else if( m_currentCopy >= m_copies ) { m_finished = true; jobFinished(true); } else { m_currentCopy++; startWriting(); } } else { m_finished = true; jobFinished(false); } } void K3bIso9660ImageWritingJob::slotVerificationFinished( bool success ) { if( m_canceled ) { m_finished = true; emit canceled(); jobFinished(false); return; } if( success && m_currentCopy < m_copies ) { m_currentCopy++; connect( K3bDevice::eject( m_device ), TQT_SIGNAL(finished(bool)), this, TQT_SLOT(startWriting()) ); return; } k3bcore->config()->setGroup("General Options"); if( !k3bcore->config()->readBoolEntry( "No cd eject", false ) ) K3bDevice::eject( m_device ); m_finished = true; jobFinished( success ); } void K3bIso9660ImageWritingJob::slotVerificationProgress( int p ) { emit percent( (int)(100.0 / (double)m_copies * ( (double)(m_currentCopy-1) + 0.5 + (double)p/200.0 )) ); } void K3bIso9660ImageWritingJob::slotWriterPercent( int p ) { emit subPercent( p ); if( m_verifyData ) emit percent( (int)(100.0 / (double)m_copies * ( (double)(m_currentCopy-1) + ((double)p/200.0) )) ); else emit percent( (int)(100.0 / (double)m_copies * ( (double)(m_currentCopy-1) + ((double)p/100.0) )) ); } void K3bIso9660ImageWritingJob::slotNextTrack( int, int ) { if( m_copies == 1 ) emit newSubTask( i18n("Writing image") ); else emit newSubTask( i18n("Writing copy %1 of %2").arg(m_currentCopy).arg(m_copies) ); } void K3bIso9660ImageWritingJob::cancel() { if( !m_finished ) { m_canceled = true; if( m_writer ) m_writer->cancel(); if( m_verifyData && m_verifyJob ) m_verifyJob->cancel(); } } void K3bIso9660ImageWritingJob::startWriting() { emit newSubTask( i18n("Waiting for medium") ); // we wait for the following: // 1. if writing mode auto and writing app auto: all writable media types // 2. if writing mode auto and writing app not growisofs: all writable cd types // 3. if writing mode auto and writing app growisofs: all writable dvd types // 4. if writing mode TAO or RAW: all writable cd types // 5. if writing mode DAO and writing app auto: all writable cd types and DVD-R(W) // 6. if writing mode DAO and writing app GROWISOFS: DVD-R(W) // 7. if writing mode DAO and writing app CDRDAO or CDRECORD: all writable cd types // 8. if writing mode WRITING_MODE_INCR_SEQ: DVD-R(W) // 9. if writing mode WRITING_MODE_RES_OVWR: DVD-RW or DVD+RW int mt = 0; if( m_writingMode == K3b::WRITING_MODE_AUTO ) { if( writingApp() == K3b::DEFAULT ) { if( m_dvd ) mt = K3bDevice::MEDIA_WRITABLE_DVD; else mt = K3bDevice::MEDIA_WRITABLE_CD; } else if( writingApp() != K3b::GROWISOFS ) mt = K3bDevice::MEDIA_WRITABLE_CD; else mt = K3bDevice::MEDIA_WRITABLE_DVD; } else if( m_writingMode == K3b::TAO || m_writingMode == K3b::RAW ) mt = K3bDevice::MEDIA_WRITABLE_CD; else if( m_writingMode == K3b::DAO ) { if( writingApp() == K3b::DEFAULT ) { if( m_dvd ) mt = K3bDevice::MEDIA_WRITABLE_DVD; else mt = K3bDevice::MEDIA_WRITABLE_CD; } else if( writingApp() == K3b::GROWISOFS ) mt = K3bDevice::MEDIA_WRITABLE_DVD; else mt = K3bDevice::MEDIA_WRITABLE_CD; } else if( m_writingMode == K3b::WRITING_MODE_RES_OVWR ) mt = K3bDevice::MEDIA_DVD_PLUS_R|K3bDevice::MEDIA_DVD_PLUS_R_DL|K3bDevice::MEDIA_DVD_PLUS_RW|K3bDevice::MEDIA_DVD_RW_OVWR; else mt = K3bDevice::MEDIA_WRITABLE_DVD; // wait for the media int media = waitForMedia( m_device, K3bDevice::STATE_EMPTY, mt ); if( media < 0 ) { m_finished = true; emit canceled(); jobFinished(false); return; } // we simply always calculate the checksum, thus making the code simpler d->imageFile.close(); d->imageFile.setName( m_imagePath ); d->imageFile.open( IO_ReadOnly ); d->checksumPipe.close(); d->checksumPipe.readFromIODevice( &d->imageFile ); if( prepareWriter( media ) ) { emit burning(true); m_writer->start(); d->checksumPipe.writeToFd( m_writer->fd(), true ); d->checksumPipe.open( K3bChecksumPipe::MD5, true ); } else { m_finished = true; jobFinished(false); } } bool K3bIso9660ImageWritingJob::prepareWriter( int mediaType ) { if( mediaType == 0 ) { // media forced // just to get it going... if( writingApp() != K3b::GROWISOFS && !m_dvd ) mediaType = K3bDevice::MEDIA_CD_R; else mediaType = K3bDevice::MEDIA_DVD_R; } delete m_writer; if( mediaType == K3bDevice::MEDIA_CD_R || mediaType == K3bDevice::MEDIA_CD_RW ) { int usedWritingMode = m_writingMode; if( usedWritingMode == K3b::WRITING_MODE_AUTO ) { // cdrecord seems to have problems when writing in mode2 in dao mode // so with cdrecord we use TAO if( m_noFix || m_dataMode == K3b::MODE2 || !m_device->dao() ) usedWritingMode = K3b::TAO; else usedWritingMode = K3b::DAO; } int usedApp = writingApp(); if( usedApp == K3b::DEFAULT ) { if( usedWritingMode == K3b::DAO && ( m_dataMode == K3b::MODE2 || m_noFix ) ) usedApp = K3b::CDRDAO; else usedApp = K3b::CDRECORD; } if( usedApp == K3b::CDRECORD ) { K3bCdrecordWriter* writer = new K3bCdrecordWriter( m_device, this ); writer->setWritingMode( usedWritingMode ); writer->setSimulate( m_simulate ); writer->setBurnSpeed( m_speed ); if( m_noFix ) { writer->addArgument("-multi"); } if( (m_dataMode == K3b::DATA_MODE_AUTO && m_noFix) || m_dataMode == K3b::MODE2 ) { if( k3bcore->externalBinManager()->binObject("cdrecord") && k3bcore->externalBinManager()->binObject("cdrecord")->hasFeature( "xamix" ) ) writer->addArgument( "-xa" ); else writer->addArgument( "-xa1" ); } else writer->addArgument("-data"); // read from stdin writer->addArgument( TQString("-tsize=%1s").arg( K3b::imageFilesize( m_imagePath )/2048 ) )->addArgument( "-" ); m_writer = writer; } else { // create cdrdao job K3bCdrdaoWriter* writer = new K3bCdrdaoWriter( m_device, this ); writer->setCommand( K3bCdrdaoWriter::WRITE ); writer->setSimulate( m_simulate ); writer->setBurnSpeed( m_speed ); // multisession writer->setMulti( m_noFix ); // now write the tocfile delete m_tocFile; m_tocFile = new KTempFile( TQString(), "toc" ); m_tocFile->setAutoDelete(true); if( TQTextStream* s = m_tocFile->textStream() ) { if( (m_dataMode == K3b::DATA_MODE_AUTO && m_noFix) || m_dataMode == K3b::MODE2 ) { *s << "CD_ROM_XA" << "\n"; *s << "\n"; *s << "TRACK MODE2_FORM1" << "\n"; } else { *s << "CD_ROM" << "\n"; *s << "\n"; *s << "TRACK MODE1" << "\n"; } *s << "DATAFILE \"-\" " << TQString::number( K3b::imageFilesize( m_imagePath ) ) << "\n"; m_tocFile->close(); } else { kdDebug() << "(K3bDataJob) could not write tocfile." << endl; emit infoMessage( i18n("IO Error"), ERROR ); return false; } writer->setTocFile( m_tocFile->name() ); m_writer = writer; } } else { // DVD if( mediaType & K3bDevice::MEDIA_DVD_PLUS_ALL ) { if( m_simulate ) { if( questionYesNo( i18n("K3b does not support simulation with DVD+R(W) media. " "Do you really want to continue? The media will be written " "for real."), i18n("No Simulation with DVD+R(W)") ) ) { return false; } } m_simulate = false; } K3bGrowisofsWriter* writer = new K3bGrowisofsWriter( m_device, this ); writer->setSimulate( m_simulate ); writer->setBurnSpeed( m_speed ); writer->setWritingMode( m_writingMode == K3b::DAO ? K3b::DAO : 0 ); writer->setImageToWrite( TQString() ); // read from stdin writer->setCloseDvd( !m_noFix ); writer->setTrackSize( K3b::imageFilesize( m_imagePath )/2048 ); m_writer = writer; } connect( m_writer, TQT_SIGNAL(infoMessage(const TQString&, int)), this, TQT_SIGNAL(infoMessage(const TQString&, int)) ); connect( m_writer, TQT_SIGNAL(nextTrack(int, int)), this, TQT_SLOT(slotNextTrack(int, int)) ); connect( m_writer, TQT_SIGNAL(percent(int)), this, TQT_SLOT(slotWriterPercent(int)) ); connect( m_writer, TQT_SIGNAL(processedSize(int, int)), this, TQT_SIGNAL(processedSize(int, int)) ); connect( m_writer, TQT_SIGNAL(buffer(int)), this, TQT_SIGNAL(bufferStatus(int)) ); connect( m_writer, TQT_SIGNAL(deviceBuffer(int)), this, TQT_SIGNAL(deviceBuffer(int)) ); connect( m_writer, TQT_SIGNAL(writeSpeed(int, int)), this, TQT_SIGNAL(writeSpeed(int, int)) ); connect( m_writer, TQT_SIGNAL(finished(bool)), this, TQT_SLOT(slotWriterJobFinished(bool)) ); connect( m_writer, TQT_SIGNAL(newTask(const TQString&)), this, TQT_SIGNAL(newTask(const TQString&)) ); connect( m_writer, TQT_SIGNAL(newSubTask(const TQString&)), this, TQT_SIGNAL(newSubTask(const TQString&)) ); connect( m_writer, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)), this, TQT_SIGNAL(debuggingOutput(const TQString&, const TQString&)) ); return true; } TQString K3bIso9660ImageWritingJob::jobDescription() const { if( m_simulate ) return i18n("Simulating ISO9660 Image"); else return ( i18n("Burning ISO9660 Image") + ( m_copies > 1 ? i18n(" - %n Copy", " - %n Copies", m_copies) : TQString() ) ); } TQString K3bIso9660ImageWritingJob::jobDetails() const { return m_imagePath.section("/", -1) + TQString( " (%1)" ).arg(TDEIO::convertSize(K3b::filesize(KURL::fromPathOrURL(m_imagePath)))); } #include "k3biso9660imagewritingjob.moc"