/* This file is (c) 2008-2012 Konstantin Isakov * Part of GoldenDict. Licensed under GPLv3 or later, see the LICENSE file */ #include "programs.hh" #include "audiolink.hh" #include "htmlescape.hh" #include "utf8.hh" #include "wstring_qt.hh" #include "parsecmdline.hh" #include "iconv.hh" #include "utils.hh" #include "globalbroadcaster.hh" #include #include namespace Programs { using namespace Dictionary; namespace { class ProgramsDictionary: public Dictionary::Class { Config::Program prg; public: ProgramsDictionary( Config::Program const & prg_ ): Dictionary::Class( prg_.id.toStdString(), vector< string >() ), prg( prg_ ) { } string getName() noexcept override { return prg.name.toUtf8().data(); } map< Property, string > getProperties() noexcept override { return map< Property, string >(); } unsigned long getArticleCount() noexcept override { return 0; } unsigned long getWordCount() noexcept override { return 0; } sptr< WordSearchRequest > prefixMatch( wstring const & word, unsigned long maxResults ) override ; sptr< DataRequest > getArticle( wstring const &, vector< wstring > const & alts, wstring const &, bool ) override ; protected: void loadIcon() noexcept override; }; sptr< WordSearchRequest > ProgramsDictionary::prefixMatch( wstring const & word, unsigned long /*maxResults*/ ) { if ( prg.type == Config::Program::PrefixMatch ) return std::make_shared( QString::fromStdU32String( word ), prg ); else { sptr< WordSearchRequestInstant > sr = std::make_shared(); sr->setUncertain( true ); return sr; } } sptr< Dictionary::DataRequest > ProgramsDictionary::getArticle( wstring const & word, vector< wstring > const &, wstring const &, bool ) { switch( prg.type ) { case Config::Program::Audio: { // Audio results are instantaneous string result; string wordUtf8( Utf8::encode( word ) ); result += ""; QUrl url; url.setScheme( "gdprg" ); url.setHost( QString::fromUtf8( getId().c_str() ) ); url.setPath( Utils::Url::ensureLeadingSlash( QString::fromUtf8( wordUtf8.c_str() ) ) ); string ref = string( "\"" ) + url.toEncoded().data() + "\""; result += addAudioLink( ref, getId() ); result += ")"; result += ""; result += "
Play" + Html::escape( wordUtf8 ) + "
"; sptr< DataRequestInstant > ret = std::make_shared( true ); ret->getData().resize( result.size() ); memcpy( &(ret->getData().front()), result.data(), result.size() ); return ret; } case Config::Program::Html: case Config::Program::PlainText: return std::make_shared( QString::fromStdU32String( word ), prg ); default: return std::make_shared( false ); } } void ProgramsDictionary::loadIcon() noexcept { if ( dictionaryIconLoaded ) return; if( !prg.iconFilename.isEmpty() ) { QFileInfo fInfo( QDir( Config::getConfigDir() ), prg.iconFilename ); if( fInfo.isFile() ) loadIconFromFile( fInfo.absoluteFilePath(), true ); } if( dictionaryIcon.isNull() ) dictionaryIcon = dictionaryNativeIcon = QIcon(":/icons/programs.svg"); dictionaryIconLoaded = true; } } RunInstance::RunInstance(): process( this ) { connect( this, &RunInstance::processFinished, this, &RunInstance::handleProcessFinished, Qt::QueuedConnection ); connect( &process, &QProcess::finished, this, &RunInstance::processFinished ); connect( &process, &QProcess::errorOccurred, this, &RunInstance::processFinished ); } bool RunInstance::start( Config::Program const & prg, QString const & word, QString & error ) { QStringList args = parseCommandLine( prg.commandLine ); if ( !args.empty() ) { QString programName = args.first(); args.pop_front(); bool writeToStdInput = true; auto const & search_string = GlobalBroadcaster::instance()->translateLineText; for( auto & arg : args ) { if( arg.indexOf( "%GDWORD%" ) >= 0 ) { writeToStdInput = false; arg.replace( "%GDWORD%", word ); } if( arg.indexOf( "%GDSEARCH%" ) >= 0 ) { writeToStdInput = false; arg.replace( "%GDSEARCH%", search_string ); } } process.start( programName, args ); if( writeToStdInput ) { process.write( word.toLocal8Bit() ); process.closeWriteChannel(); } return true; } else { error = tr( "No program name was given." ); return false; } } void RunInstance::handleProcessFinished() { // It seems that sometimes the process isn't finished yet despite being // signalled as such. So we wait for it here, which should hopefully be // nearly instant. process.waitForFinished(); QByteArray output = process.readAllStandardOutput(); QString error; if ( process.exitStatus() != QProcess::NormalExit ) error = tr( "The program has crashed." ); else if ( int code = process.exitCode() ) error = tr( "The program has returned exit code %1." ).arg( code ); if ( !error.isEmpty() ) { QByteArray err = process.readAllStandardError(); if ( !err.isEmpty() ) error += "\n\n" + QString::fromLocal8Bit( err ); } emit finished( output, error ); } ProgramDataRequest::ProgramDataRequest( QString const & word, Config::Program const & prg_ ): prg( prg_ ) { connect( &instance, &RunInstance::finished, this, &ProgramDataRequest::instanceFinished ); QString error; if ( !instance.start( prg, word, error ) ) { setErrorString( error ); finish(); } } void ProgramDataRequest::instanceFinished( QByteArray output, QString error ) { QString prog_output; if ( !isFinished() ) { if ( !output.isEmpty() ) { string result = "
"; try { // Check BOM if present unsigned char * uchars = reinterpret_cast< unsigned char * >( output.data() ); if( output.length() >= 2 && uchars[ 0 ] == 0xFF && uchars[ 1 ] == 0xFE ) { int size = output.length() - 2; if( size & 1 ) size -= 1; string res= Iconv::toUtf8( "UTF-16LE", output.data() + 2, size ); prog_output = QString::fromUtf8( res.c_str(), res.size() ); } else if( output.length() >= 2 && uchars[ 0 ] == 0xFE && uchars[ 1 ] == 0xFF ) { int size = output.length() - 2; if( size & 1 ) size -= 1; string res = Iconv::toUtf8( "UTF-16BE", output.data() + 2, size ); prog_output = QString::fromUtf8( res.c_str(), res.size() ); } else if( output.length() >= 3 && uchars[ 0 ] == 0xEF && uchars[ 1 ] == 0xBB && uchars[ 2 ] == 0xBF ) { prog_output = QString::fromUtf8( output.data() + 3, output.length() - 3 ); } else { // No BOM, assume local 8-bit encoding prog_output = QString::fromLocal8Bit( output ); } } catch( std::exception & e ) { error = e.what(); } result += Html::preformat( prog_output.toUtf8().data() ); break; default: result += "html'>"; try { // Check BOM if present unsigned char * uchars = reinterpret_cast< unsigned char * >( output.data() ); if( output.length() >= 2 && uchars[ 0 ] == 0xFF && uchars[ 1 ] == 0xFE ) { int size = output.length() - 2; if( size & 1 ) size -= 1; result += Iconv::toUtf8( "UTF-16LE", output.data() + 2, size ); } else if( output.length() >= 2 && uchars[ 0 ] == 0xFE && uchars[ 1 ] == 0xFF ) { int size = output.length() - 2; if( size & 1 ) size -= 1; result += Iconv::toUtf8( "UTF-16BE", output.data() + 2, size ); } else if( output.length() >= 3 && uchars[ 0 ] == 0xEF && uchars[ 1 ] == 0xBB && uchars[ 2 ] == 0xBF ) { result += output.data() + 3; } else { // We assume html data is in utf8 encoding already. result += output.data(); } } catch( std::exception & e ) { error = e.what(); } } result += "
"; Mutex::Lock _( dataMutex ); data.resize( result.size() ); memcpy( data.data(), result.data(), data.size() ); hasAnyData = true; } if ( !error.isEmpty() ) setErrorString( error ); finish(); } } void ProgramDataRequest::cancel() { finish(); } ProgramWordSearchRequest::ProgramWordSearchRequest( QString const & word, Config::Program const & prg_ ): prg( prg_ ) { connect( &instance, &RunInstance::finished, this, &ProgramWordSearchRequest::instanceFinished ); QString error; if ( !instance.start( prg, word, error ) ) { setErrorString( error ); finish(); } } void ProgramWordSearchRequest::instanceFinished( QByteArray output, QString error ) { if ( !isFinished() ) { // Handle any Windows artifacts output.replace( "\r\n", "\n" ); QStringList result = QString::fromUtf8( output ).split( "\n", Qt::SkipEmptyParts ); for( int x = 0; x < result.size(); ++x ) matches.push_back( Dictionary::WordMatch( gd::toWString( result[ x ] ) ) ); if ( !error.isEmpty() ) setErrorString( error ); finish(); } } void ProgramWordSearchRequest::cancel() { finish(); } vector< sptr< Dictionary::Class > > makeDictionaries( Config::Programs const & programs ) { vector< sptr< Dictionary::Class > > result; for( Config::Programs::const_iterator i = programs.begin(); i != programs.end(); ++i ) if ( i->enabled ) result.push_back( std::make_shared( *i ) ); return result; } }