/* * * $Id: k3bisoimager.cpp 655085 2007-04-17 17:48:36Z trueg $ * Copyright (C) 2003-2007 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 #include #include "k3bisoimager.h" #include "k3bdiritem.h" #include "k3bbootitem.h" #include "k3bdatadoc.h" #include "k3bdatapreparationjob.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include int K3bIsoImager::s_imagerSessionCounter = 0; class K3bIsoImager::Private { public: Private() : pipe(0) { } ~Private() { delete pipe; } TQString imagePath; K3bFileSplitter imageFile; const K3bExternalBin* mkisofsBin; enum LinkHandling { KEEP_ALL, FOLLOW, DISCARD_ALL, DISCARD_BROKEN }; int usedLinkHandling; bool knownError; K3bActivePipe* pipe; K3bDataPreparationJob* dataPreparationJob; }; K3bIsoImager::K3bIsoImager( K3bDataDoc* doc, K3bJobHandler* hdl, TQObject* tqparent, const char* name ) : K3bJob( hdl, tqparent, name ), m_pathSpecFile(0), m_rrHideFile(0), m_jolietHideFile(0), m_sortWeightFile(0), m_process( 0 ), m_processExited(false), m_doc( doc ), m_noDeepDirectoryRelocation( false ), m_importSession( false ), m_device(0), m_mkisofsPrintSizeResult( 0 ), m_fdToWriteTo(-1) { d = new Private(); d->dataPreparationJob = new K3bDataPreparationJob( doc, this, this ); connectSubJob( d->dataPreparationJob, TQT_SLOT(slotDataPreparationDone(bool)), DEFAULT_SIGNAL_CONNECTION ); } K3bIsoImager::~K3bIsoImager() { cleanup(); delete d; } bool K3bIsoImager::active() const { return K3bJob::active(); } void K3bIsoImager::writeToFd( int fd ) { m_fdToWriteTo = fd; } void K3bIsoImager::writeToImageFile( const TQString& path ) { d->imagePath = path; m_fdToWriteTo = -1; } void K3bIsoImager::slotReceivedStderr( const TQString& line ) { parseMkisofsOutput( line ); emit debuggingOutput( "mkisofs", line ); } void K3bIsoImager::handleMkisofsProgress( int p ) { emit percent( p ); } void K3bIsoImager::handleMkisofsInfoMessage( const TQString& line, int type ) { emit infoMessage( line, type ); if( type == ERROR ) d->knownError = true; } void K3bIsoImager::slotProcessExited( KProcess* p ) { kdDebug() << k_funcinfo << endl; m_processExited = true; d->pipe->close(); emit debuggingOutput( "K3bIsoImager", TQString("Pipe throughput: %1 bytes read, %2 bytes written.") .tqarg(d->pipe->bytesRead()).tqarg(d->pipe->bytesWritten()) ); if( d->imageFile.isOpen() ) { d->imageFile.close(); if( m_canceled || p->exitStatus() != 0 ) { d->imageFile.remove(); emit infoMessage( i18n("Removed incomplete image file %1.").tqarg(d->imageFile.name()), WARNING ); } } if( m_canceled ) { emit canceled(); jobFinished(false); } else { if( p->normalExit() ) { if( p->exitStatus() == 0 ) { jobFinished( !mkisofsReadError() ); } else { switch( p->exitStatus() ) { case 104: // connection reset by peer // This only happens if cdrecord does not finish successfully // so we may leave the error handling to it meaning we handle this // as a known error break; case 2: // mkisofs seems to have a bug that prevents to use filenames // that contain one or more backslashes // mkisofs 1.14 has the bug, 1.15a40 not // TODO: find out the version that fixed the bug if( m_containsFilesWithMultibleBackslashes && !k3bcore->externalBinManager()->binObject( "mkisofs" )->hasFeature( "backslashed_filenames" ) ) { emit infoMessage( i18n("Due to a bug in mkisofs <= 1.15a40, K3b is unable to handle " "filenames that contain more than one backslash:"), ERROR ); break; } // otherwise just fall through default: if( !d->knownError && !mkisofsReadError() ) { emit infoMessage( i18n("%1 returned an unknown error (code %2).").tqarg("mkisofs").tqarg(p->exitStatus()), K3bJob::ERROR ); emit infoMessage( i18n("Please send me an email with the last output."), K3bJob::ERROR ); } } jobFinished( false ); } } else { emit infoMessage( i18n("%1 did not exit cleanly.").tqarg("mkisofs"), ERROR ); jobFinished( false ); } } cleanup(); } void K3bIsoImager::cleanup() { // remove all temp files delete m_pathSpecFile; delete m_rrHideFile; delete m_jolietHideFile; delete m_sortWeightFile; // remove boot-images-temp files for( TQStringList::iterator it = m_tempFiles.begin(); it != m_tempFiles.end(); ++it ) TQFile::remove( *it ); m_tempFiles.clear(); m_pathSpecFile = m_jolietHideFile = m_rrHideFile = m_sortWeightFile = 0; delete m_process; m_process = 0; clearDummyDirs(); } void K3bIsoImager::init() { jobStarted(); cleanup(); d->dataPreparationJob->start(); } void K3bIsoImager::slotDataPreparationDone( bool success ) { if( success ) { // // We always calculate the image size. It does not take long and at least the mixed job needs it // anyway // startSizeCalculation(); } else { if( d->dataPreparationJob->hasBeenCanceled() ) { m_canceled = true; emit canceled(); } jobFinished( false ); } } void K3bIsoImager::calculateSize() { jobStarted(); startSizeCalculation(); } void K3bIsoImager::startSizeCalculation() { d->mkisofsBin = initMkisofs(); if( !d->mkisofsBin ) { jobFinished( false ); return; } initVariables(); delete m_process; m_process = new K3bProcess(); m_process->setRunPrivileged(true); m_process->setSplitStdout(true); emit debuggingOutput( "Used versions", "mkisofs: " + d->mkisofsBin->version ); *m_process << d->mkisofsBin; if( !prepareMkisofsFiles() || !addMkisofsParameters(true) ) { cleanup(); jobFinished( false ); return; } // add empty dummy dir since one path-spec is needed // ??? Seems it is not needed after all. At least mkisofs 1.14 and above don't need it. ??? // *m_process << dummyDir(); kdDebug() << "***** mkisofs calculate size parameters:\n"; const TQValueList& args = m_process->args(); TQString s; for( TQValueList::const_iterator it = args.begin(); it != args.end(); ++it ) { s += *it + " "; } kdDebug() << s << endl << flush; emit debuggingOutput("mkisofs calculate size command:", s); // since output changed during mkisofs version changes we grab both // stdout and stderr // mkisofs version >= 1.15 (don't know about 1.14!) // the extends on stdout (as lonely number) // and error and warning messages on stderr // mkisofs >= 1.13 // everything is written to stderr // last line is: "Total extents scheduled to be written = XXXXX" // TODO: use K3bProcess::OutputCollector instead iof our own two slots. connect( m_process, TQT_SIGNAL(receivedStderr(KProcess*, char*, int)), this, TQT_SLOT(slotCollectMkisofsPrintSizeStderr(KProcess*, char*, int)) ); connect( m_process, TQT_SIGNAL(stdoutLine(const TQString&)), this, TQT_SLOT(slotCollectMkisofsPrintSizeStdout(const TQString&)) ); connect( m_process, TQT_SIGNAL(processExited(KProcess*)), this, TQT_SLOT(slotMkisofsPrintSizeFinished()) ); // we also want error messages connect( m_process, TQT_SIGNAL(stderrLine( const TQString& )), this, TQT_SLOT(slotReceivedStderr( const TQString& )) ); m_collectedMkisofsPrintSizeStdout = TQString(); m_collectedMkisofsPrintSizeStderr = TQString(); m_mkisofsPrintSizeResult = 0; if( !m_process->start( KProcess::NotifyOnExit, KProcess::AllOutput ) ) { emit infoMessage( i18n("Could not start %1.").tqarg("mkisofs"), K3bJob::ERROR ); cleanup(); jobFinished( false ); return; } } void K3bIsoImager::slotCollectMkisofsPrintSizeStderr(KProcess*, char* data , int len) { emit debuggingOutput( "mkisofs", TQString::fromLocal8Bit( data, len ) ); m_collectedMkisofsPrintSizeStderr.append( TQString::fromLocal8Bit( data, len ) ); } void K3bIsoImager::slotCollectMkisofsPrintSizeStdout( const TQString& line ) { // newer versions of mkisofs outut additional lines of junk before the size :( // so we only use the last line emit debuggingOutput( "mkisofs", line ); m_collectedMkisofsPrintSizeStdout = line; } void K3bIsoImager::slotMkisofsPrintSizeFinished() { if( m_canceled ) { emit canceled(); jobFinished( false ); return; } bool success = true; // if m_collectedMkisofsPrintSizeStdout is not empty we have a recent version of // mkisofs and parsing is very easy (s.o.) if( !m_collectedMkisofsPrintSizeStdout.isEmpty() ) { kdDebug() << "(K3bIsoImager) iso size: " << m_collectedMkisofsPrintSizeStdout << endl; m_mkisofsPrintSizeResult = m_collectedMkisofsPrintSizeStdout.toInt( &success ); } else { // parse the stderr output // I hope parsing the last line is enough! int pos = m_collectedMkisofsPrintSizeStderr.tqfindRev( "extents scheduled to be written" ); if( pos == -1 ) success = false; else m_mkisofsPrintSizeResult = m_collectedMkisofsPrintSizeStderr.mid( pos+33 ).toInt( &success ); } emit debuggingOutput( "K3bIsoImager", TQString("mkisofs print size result: %1 (%2 bytes)") .tqarg(m_mkisofsPrintSizeResult) .tqarg(TQ_UINT64(m_mkisofsPrintSizeResult)*2048ULL) ); cleanup(); if( success ) { jobFinished( true ); } else { m_mkisofsPrintSizeResult = 0; kdDebug() << "(K3bIsoImager) Parsing mkisofs -print-size failed: " << m_collectedMkisofsPrintSizeStdout << endl; emit infoMessage( i18n("Could not determine size of resulting image file."), ERROR ); jobFinished( false ); } } void K3bIsoImager::initVariables() { m_containsFilesWithMultibleBackslashes = false; m_processExited = false; m_canceled = false; d->knownError = false; // determine symlink handling // follow links superseeds discard all links which superseeds discard broken links // without rockridge we follow the links or discard all if( m_doc->isoOptions().followSymbolicLinks() ) d->usedLinkHandling = Private::FOLLOW; else if( m_doc->isoOptions().discardSymlinks() ) d->usedLinkHandling = Private::DISCARD_ALL; else if( m_doc->isoOptions().createRockRidge() ) { if( m_doc->isoOptions().discardBrokenSymlinks() ) d->usedLinkHandling = Private::DISCARD_BROKEN; else d->usedLinkHandling = Private::KEEP_ALL; } else { d->usedLinkHandling = Private::FOLLOW; } m_sessionNumber = s_imagerSessionCounter++; } void K3bIsoImager::start() { jobStarted(); cleanup(); d->mkisofsBin = initMkisofs(); if( !d->mkisofsBin ) { jobFinished( false ); return; } initVariables(); m_process = new K3bProcess(); m_process->setRunPrivileged(true); *m_process << d->mkisofsBin; // prepare the filenames as written to the image m_doc->prepareFilenames(); if( !prepareMkisofsFiles() || !addMkisofsParameters() ) { cleanup(); jobFinished( false ); return; } connect( m_process, TQT_SIGNAL(processExited(KProcess*)), this, TQT_SLOT(slotProcessExited(KProcess*)) ); connect( m_process, TQT_SIGNAL(stderrLine( const TQString& )), this, TQT_SLOT(slotReceivedStderr( const TQString& )) ); // // Check the image file if( m_fdToWriteTo == -1 ) { d->imageFile.setName( d->imagePath ); if( !d->imageFile.open( IO_WriteOnly ) ) { emit infoMessage( i18n("Could not open %1 for writing").tqarg(d->imagePath), ERROR ); cleanup(); jobFinished(false); return; } } // // Open the active pipe which does the streaming delete d->pipe; if( m_doc->verifyData() ) d->pipe = new K3bChecksumPipe(); else d->pipe = new K3bActivePipe(); if( m_fdToWriteTo == -1 ) d->pipe->writeToIODevice( &d->imageFile ); else d->pipe->writeToFd( m_fdToWriteTo ); d->pipe->open(); m_process->writeToFd( d->pipe->in() ); kdDebug() << "***** mkisofs parameters:\n"; const TQValueList& args = m_process->args(); TQString s; for( TQValueList::const_iterator it = args.begin(); it != args.end(); ++it ) { s += *it + " "; } kdDebug() << s << endl << flush; emit debuggingOutput("mkisofs command:", s); if( !m_process->start( KProcess::NotifyOnExit, KProcess::AllOutput) ) { // something went wrong when starting the program // it "should" be the executable kdDebug() << "(K3bIsoImager) could not start mkisofs" << endl; emit infoMessage( i18n("Could not start %1.").tqarg("mkisofs"), K3bJob::ERROR ); jobFinished( false ); cleanup(); } } void K3bIsoImager::cancel() { m_canceled = true; if( m_process && !m_processExited ) { m_process->kill(); } else if( active() ) { emit canceled(); jobFinished(false); } } void K3bIsoImager::setMultiSessionInfo( const TQString& info, K3bDevice::Device* dev ) { m_multiSessionInfo = info; m_device = dev; } // iso9660 + RR use some latin1 variant. So we need to cut the desc fields // counting 8bit chars. The GUI should take care of restricting the length // and the charset static void truncateTheHardWay( TQString& s, int max ) { TQCString cs = s.utf8(); cs.truncate(max); s = TQString::fromUtf8( cs ); } bool K3bIsoImager::addMkisofsParameters( bool printSize ) { // add multisession info if( !m_multiSessionInfo.isEmpty() ) { *m_process << "-cdrecord-params" << m_multiSessionInfo; if( m_device ) *m_process << "-prev-session" << m_device->blockDeviceName(); } // add the arguments *m_process << "-gui"; *m_process << "-graft-points"; if( printSize ) *m_process << "-print-size" << "-quiet"; if( !m_doc->isoOptions().volumeID().isEmpty() ) { TQString s = m_doc->isoOptions().volumeID(); truncateTheHardWay(s, 32); // ensure max length *m_process << "-volid" << s; } else { emit infoMessage( i18n("No volume id specified. Using default."), WARNING ); *m_process << "-volid" << "CDROM"; } TQString s = m_doc->isoOptions().volumeSetId(); truncateTheHardWay(s, 128); // ensure max length *m_process << "-volset" << s; s = m_doc->isoOptions().applicationID(); truncateTheHardWay(s, 128); // ensure max length *m_process << "-appid" << s; s = m_doc->isoOptions().publisher(); truncateTheHardWay(s, 128); // ensure max length *m_process << "-publisher" << s; s = m_doc->isoOptions().preparer(); truncateTheHardWay(s, 128); // ensure max length *m_process << "-preparer" << s; s = m_doc->isoOptions().systemId(); truncateTheHardWay(s, 32); // ensure max length *m_process << "-sysid" << s; s = m_doc->isoOptions().abstractFile(); truncateTheHardWay(s, 37); // ensure max length if ( !s.isEmpty() ) *m_process << "-abstract" << s; s = m_doc->isoOptions().copyrightFile(); truncateTheHardWay(s, 37); // ensure max length if ( !s.isEmpty() ) *m_process << "-copyright" << s; s = m_doc->isoOptions().bibliographFile(); truncateTheHardWay(s, 37); // ensure max length if ( !s.isEmpty() ) *m_process << "-biblio" << s; int volsetSize = m_doc->isoOptions().volumeSetSize(); int volsetSeqNo = m_doc->isoOptions().volumeSetNumber(); if( volsetSeqNo > volsetSize ) { kdDebug() << "(K3bIsoImager) invalid volume set sequence number: " << volsetSeqNo << " with volume set size: " << volsetSize << endl; volsetSeqNo = volsetSize; } *m_process << "-volset-size" << TQString::number(volsetSize); *m_process << "-volset-seqno" << TQString::number(volsetSeqNo); if( m_sortWeightFile ) { *m_process << "-sort" << m_sortWeightFile->name(); } if( m_doc->isoOptions().createRockRidge() ) { if( m_doc->isoOptions().preserveFilePermissions() ) *m_process << "-rock"; else *m_process << "-rational-rock"; if( m_rrHideFile ) *m_process << "-hide-list" << m_rrHideFile->name(); } if( m_doc->isoOptions().createJoliet() ) { *m_process << "-joliet"; if( m_doc->isoOptions().jolietLong() ) *m_process << "-joliet-long"; if( m_jolietHideFile ) *m_process << "-hide-joliet-list" << m_jolietHideFile->name(); } if( m_doc->isoOptions().doNotCacheInodes() ) *m_process << "-no-cache-inodes"; // // Check if we have files > 2 GB and enable udf in that case. // bool filesGreaterThan2Gb = false; K3bDataItem* item = m_doc->root(); while( (item = item->nextSibling()) ) { if( item->isFile() && item->size() > 2LL*1024LL*1024LL*1024LL ) { filesGreaterThan2Gb = true; break; } } if( filesGreaterThan2Gb ) { emit infoMessage( i18n("Found files bigger than 2 GB. These files will only be fully accessible if mounted with UDF."), WARNING ); // in genisoimage 1.1.3 "they" silently introduced this aweful parameter if ( d->mkisofsBin->hasFeature( "genisoimage" ) && d->mkisofsBin->version >= K3bVersion( 1, 1, 3 ) ) { *m_process << "-allow-limited-size"; } } bool udf = m_doc->isoOptions().createUdf(); if( !udf && filesGreaterThan2Gb ) { emit infoMessage( i18n("Enabling UDF extension."), INFO ); udf = true; } if( udf ) *m_process << "-udf"; if( m_doc->isoOptions().ISOuntranslatedFilenames() ) { *m_process << "-untranslated-filenames"; } else { if( m_doc->isoOptions().ISOallowPeriodAtBegin() ) *m_process << "-allow-leading-dots"; if( m_doc->isoOptions().ISOallow31charFilenames() ) *m_process << "-full-iso9660-filenames"; if( m_doc->isoOptions().ISOomitVersionNumbers() && !m_doc->isoOptions().ISOmaxFilenameLength() ) *m_process << "-omit-version-number"; if( m_doc->isoOptions().ISOrelaxedFilenames() ) *m_process << "-relaxed-filenames"; if( m_doc->isoOptions().ISOallowLowercase() ) *m_process << "-allow-lowercase"; if( m_doc->isoOptions().ISOnoIsoTranslate() ) *m_process << "-no-iso-translate"; if( m_doc->isoOptions().ISOallowMultiDot() ) *m_process << "-allow-multidot"; if( m_doc->isoOptions().ISOomitTrailingPeriod() ) *m_process << "-omit-period"; } if( m_doc->isoOptions().ISOmaxFilenameLength() ) *m_process << "-max-iso9660-filenames"; if( m_noDeepDirectoryRelocation ) *m_process << "-disable-deep-relocation"; // We do our own following // if( m_doc->isoOptions().followSymbolicLinks() || !m_doc->isoOptions().createRockRidge() ) // *m_process << "-follow-links"; if( m_doc->isoOptions().createTRANS_TBL() ) *m_process << "-translation-table"; if( m_doc->isoOptions().hideTRANS_TBL() ) *m_process << "-hide-joliet-trans-tbl"; *m_process << "-iso-level" << TQString::number(m_doc->isoOptions().ISOLevel()); if( m_doc->isoOptions().forceInputCharset() ) *m_process << "-input-charset" << m_doc->isoOptions().inputCharset(); *m_process << "-path-list" << TQFile::encodeName(m_pathSpecFile->name()).data(); // boot stuff if( !m_doc->bootImages().isEmpty() ) { bool first = true; for( TQPtrListIterator it( m_doc->bootImages() ); *it; ++it ) { if( !first ) *m_process << "-eltorito-alt-boot"; K3bBootItem* bootItem = *it; *m_process << "-eltorito-boot"; *m_process << bootItem->writtenPath(); if( bootItem->imageType() == K3bBootItem::HARDDISK ) { *m_process << "-hard-disk-boot"; } else if( bootItem->imageType() == K3bBootItem::NONE ) { *m_process << "-no-emul-boot"; if( bootItem->loadSegment() > 0 ) *m_process << "-boot-load-seg" << TQString::number(bootItem->loadSegment()); if( bootItem->loadSize() > 0 ) *m_process << "-boot-load-size" << TQString::number(bootItem->loadSize()); } if( bootItem->imageType() != K3bBootItem::NONE && bootItem->noBoot() ) *m_process << "-no-boot"; if( bootItem->bootInfoTable() ) *m_process << "-boot-info-table"; first = false; } *m_process << "-eltorito-catalog" << m_doc->bootCataloge()->writtenPath(); } // additional parameters from config const TQStringList& params = k3bcore->externalBinManager()->binObject( "mkisofs" )->userParameters(); for( TQStringList::const_iterator it = params.begin(); it != params.end(); ++it ) *m_process << *it; return true; } int K3bIsoImager::writePathSpec() { delete m_pathSpecFile; m_pathSpecFile = new KTempFile(); m_pathSpecFile->setAutoDelete(true); if( TQTextStream* t = m_pathSpecFile->textStream() ) { // recursive path spec writing int num = writePathSpecForDir( m_doc->root(), *t ); m_pathSpecFile->close(); return num; } else return -1; } int K3bIsoImager::writePathSpecForDir( K3bDirItem* dirItem, TQTextStream& stream ) { if( !m_noDeepDirectoryRelocation && dirItem->depth() > 7 ) { kdDebug() << "(K3bIsoImager) found directory depth > 7. Enabling no deep directory relocation." << endl; m_noDeepDirectoryRelocation = true; } // now create the graft points int num = 0; for( TQPtrListIterator it( dirItem->tqchildren() ); it.current(); ++it ) { K3bDataItem* item = it.current(); bool writeItem = item->writeToCd(); if( item->isSymLink() ) { if( d->usedLinkHandling == Private::DISCARD_ALL || ( d->usedLinkHandling == Private::DISCARD_BROKEN && !item->isValid() ) ) writeItem = false; else if( d->usedLinkHandling == Private::FOLLOW ) { TQFileInfo f( K3b::resolveLink( item->localPath() ) ); if( !f.exists() ) { emit infoMessage( i18n("Could not follow link %1 to non-existing file %2. Skipping...") .tqarg(item->k3bName()) .tqarg(f.filePath()), WARNING ); writeItem = false; } else if( f.isDir() ) { emit infoMessage( i18n("Ignoring link %1 to folder %2. K3b is unable to follow links to folders.") .tqarg(item->k3bName()) .tqarg(f.filePath()), WARNING ); writeItem = false; } } } else if( item->isFile() ) { TQFileInfo f( item->localPath() ); if( !f.exists() ) { emit infoMessage( i18n("Could not find file %1. Skipping...").tqarg(item->localPath()), WARNING ); writeItem = false; } else if( !f.isReadable() ) { emit infoMessage( i18n("Could not read file %1. Skipping...").tqarg(item->localPath()), WARNING ); writeItem = false; } } if( writeItem ) { num++; // some versions of mkisofs seem to have a bug that prevents to use filenames // that contain one or more backslashes if( item->writtenPath().tqcontains("\\") ) m_containsFilesWithMultibleBackslashes = true; if( item->isDir() ) { stream << escapeGraftPoint( item->writtenPath() ) << "=" << escapeGraftPoint( dummyDir( static_cast(item) ) ) << "\n"; int x = writePathSpecForDir( dynamic_cast(item), stream ); if( x >= 0 ) num += x; else return -1; } else { writePathSpecForFile( static_cast(item), stream ); } } } return num; } void K3bIsoImager::writePathSpecForFile( K3bFileItem* item, TQTextStream& stream ) { stream << escapeGraftPoint( item->writtenPath() ) << "="; if( m_doc->bootImages().tqcontainsRef( dynamic_cast(item) ) ) { // boot-image-backup-hack // create temp file KTempFile temp; TQString tempPath = temp.name(); temp.unlink(); if( !KIO::NetAccess::copy( KURL(item->localPath()), KURL::fromPathOrURL(tempPath) ) ) { emit infoMessage( i18n("Failed to backup boot image file %1").tqarg(item->localPath()), ERROR ); return; } static_cast(item)->setTempPath( tempPath ); m_tempFiles.append(tempPath); stream << escapeGraftPoint( tempPath ) << "\n"; } else if( item->isSymLink() && d->usedLinkHandling == Private::FOLLOW ) stream << escapeGraftPoint( K3b::resolveLink( item->localPath() ) ) << "\n"; else stream << escapeGraftPoint( item->localPath() ) << "\n"; } bool K3bIsoImager::writeRRHideFile() { delete m_rrHideFile; m_rrHideFile = new KTempFile(); m_rrHideFile->setAutoDelete(true); if( TQTextStream* t = m_rrHideFile->textStream() ) { K3bDataItem* item = m_doc->root(); while( item ) { if( item->hideOnRockRidge() ) { if( !item->isDir() ) // hiding directories does not work (all dirs point to the dummy-dir) *t << escapeGraftPoint( item->localPath() ) << endl; } item = item->nextSibling(); } m_rrHideFile->close(); return true; } else return false; } bool K3bIsoImager::writeJolietHideFile() { delete m_jolietHideFile; m_jolietHideFile = new KTempFile(); m_jolietHideFile->setAutoDelete(true); if( TQTextStream* t = m_jolietHideFile->textStream() ) { K3bDataItem* item = m_doc->root(); while( item ) { if( item->hideOnRockRidge() ) { if( !item->isDir() ) // hiding directories does not work (all dirs point to the dummy-dir but we could introduce a second hidden dummy dir) *t << escapeGraftPoint( item->localPath() ) << endl; } item = item->nextSibling(); } m_jolietHideFile->close(); return true; } else return false; } bool K3bIsoImager::writeSortWeightFile() { delete m_sortWeightFile; m_sortWeightFile = new KTempFile(); m_sortWeightFile->setAutoDelete(true); if( TQTextStream* t = m_sortWeightFile->textStream() ) { // // We need to write the local path in combination with the sort weight // mkisofs will take care of multiple entries for one local file and always // use the highest weight // K3bDataItem* item = m_doc->root(); while( (item = item->nextSibling()) ) { // we skip the root here if( item->sortWeight() != 0 ) { if( m_doc->bootImages().tqcontainsRef( dynamic_cast(item) ) ) { // boot-image-backup-hack *t << escapeGraftPoint( static_cast(item)->tempPath() ) << " " << item->sortWeight() << endl; } else if( item->isDir() ) { // // Since we use dummy dirs for all directories in the filesystem and mkisofs uses the local path // for sorting we need to create a different dummy dir for every sort weight value. // *t << escapeGraftPoint( dummyDir( static_cast(item) ) ) << " " << item->sortWeight() << endl; } else *t << escapeGraftPoint( item->localPath() ) << " " << item->sortWeight() << endl; } } m_sortWeightFile->close(); return true; } else return false; } TQString K3bIsoImager::escapeGraftPoint( const TQString& str ) { TQString enc = str; // // mkisofs manpage (-graft-points) is incorrect (as of mkisofs 2.01.01) // // Actually an equal sign needs to be escaped with one backslash only // Single backslashes inside a filename can be used without change // while single backslashes at the end of a filename need to be escaped // with two backslashes. // // There is one more problem though: the name in the iso tree can never // in any number of backslashes. mkisofs simply cannot handle it. So we // need to remove these slashes somewhere or ignore those files (we do // that in K3bDataDoc::addUrls) // // // we do not use TQString::replace to have full control // this might be slow since TQString::insert is slow but we don't care // since this is only called to prepare the iso creation which is not // time critical. :) // unsigned int pos = 0; while( pos < enc.length() ) { // escape every equal sign with one backslash if( enc[pos] == '=' ) { enc.insert( pos, "\\" ); pos += 2; } else if( enc[pos] == '\\' ) { // escape every occurrence of two backslashes with two backslashes if( pos+1 < enc.length() && enc[pos+1] == '\\' ) { enc.insert( pos, "\\\\" ); pos += 4; } // escape the last single backslash in the filename (see above) else if( pos == enc.length()-1 ) { enc.insert( pos, "\\" ); pos += 2; } else ++pos; } else ++pos; } // enc.tqreplace( "\\\\", "\\\\\\\\" ); // enc.tqreplace( "=", "\\=" ); return enc; } bool K3bIsoImager::prepareMkisofsFiles() { // write path spec file // ---------------------------------------------------- int num = writePathSpec(); if( num < 0 ) { emit infoMessage( i18n("Could not write temporary file"), K3bJob::ERROR ); return false; } else if( num == 0 ) { emit infoMessage( i18n("No files to be written."), K3bJob::ERROR ); return false; } if( m_doc->isoOptions().createRockRidge() ) { if( !writeRRHideFile() ) { emit infoMessage( i18n("Could not write temporary file"), K3bJob::ERROR ); return false; } } if( m_doc->isoOptions().createJoliet() ) { if( !writeJolietHideFile() ) { emit infoMessage( i18n("Could not write temporary file"), K3bJob::ERROR ); return false ; } } if( !writeSortWeightFile() ) { emit infoMessage( i18n("Could not write temporary file"), K3bJob::ERROR ); return false; } return true; } TQString K3bIsoImager::dummyDir( K3bDirItem* dir ) { // // since we use virtual folders in order to have folders with different weight factors and different // permissions we create different dummy dirs to be passed to mkisofs // TQDir _appDir( locateLocal( "appdata", "temp/" ) ); // // create a unique isoimager session id // This might become important in case we will allow multiple instances of the isoimager // to run at the same time. // TQString jobId = tqApp->sessionId() + "_" + TQString::number( m_sessionNumber ); if( !_appDir.cd( jobId ) ) { _appDir.mkdir( jobId ); _appDir.cd( jobId ); } TQString name( "dummydir_" ); name += TQString::number( dir->sortWeight() ); bool perm = false; k3b_struct_stat statBuf; if( !dir->localPath().isEmpty() ) { // permissions if( k3b_stat( TQFile::encodeName(dir->localPath()), &statBuf ) == 0 ) { name += "_"; name += TQString::number( statBuf.st_uid ); name += "_"; name += TQString::number( statBuf.st_gid ); name += "_"; name += TQString::number( statBuf.st_mode ); name += "_"; name += TQString::number( statBuf.st_mtime ); perm = true; } } if( !_appDir.cd( name ) ) { kdDebug() << "(K3bIsoImager) creating dummy dir: " << _appDir.absPath() << "/" << name << endl; _appDir.mkdir( name ); _appDir.cd( name ); if( perm ) { ::chmod( TQFile::encodeName( _appDir.absPath() ), statBuf.st_mode ); ::chown( TQFile::encodeName( _appDir.absPath() ), statBuf.st_uid, statBuf.st_gid ); struct utimbuf tb; tb.actime = tb.modtime = statBuf.st_mtime; ::utime( TQFile::encodeName( _appDir.absPath() ), &tb ); } } return _appDir.absPath() + "/"; } void K3bIsoImager::clearDummyDirs() { TQString jobId = tqApp->sessionId() + "_" + TQString::number( m_sessionNumber ); TQDir appDir( locateLocal( "appdata", "temp/" ) ); if( appDir.cd( jobId ) ) { TQStringList dummyDirEntries = appDir.entryList( "dummydir*", TQDir::Dirs ); for( TQStringList::iterator it = dummyDirEntries.begin(); it != dummyDirEntries.end(); ++it ) appDir.rmdir( *it ); appDir.cdUp(); appDir.rmdir( jobId ); } } TQCString K3bIsoImager::checksum() const { if( K3bChecksumPipe* p = dynamic_cast( d->pipe ) ) return p->checksum(); else return TQCString(); } bool K3bIsoImager::hasBeenCanceled() const { return m_canceled; } #include "k3bisoimager.moc"