/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace com::sun::star::uno; using namespace com::sun::star::lang; using namespace com::sun::star::ucb; using namespace com::sun::star::io; using namespace com::sun::star::bridge; #include namespace { class SbiInputDialog : public weld::GenericDialogController { std::unique_ptr m_xInput; std::unique_ptr m_xOk; std::unique_ptr m_xCancel; std::unique_ptr m_xPromptText; OUString m_aText; DECL_LINK(Ok, weld::Button&, void); DECL_LINK(Cancel, weld::Button&, void); public: SbiInputDialog(weld::Window*, const OUString&); const OUString& GetInput() const { return m_aText; } }; } SbiInputDialog::SbiInputDialog(weld::Window* pParent, const OUString& rPrompt) : GenericDialogController(pParent, "svt/ui/inputbox.ui", "InputBox") , m_xInput(m_xBuilder->weld_entry("entry")) , m_xOk(m_xBuilder->weld_button("ok")) , m_xCancel(m_xBuilder->weld_button("cancel")) , m_xPromptText(m_xBuilder->weld_label("prompt")) { m_xDialog->set_title(rPrompt); m_xPromptText->set_label(rPrompt); m_xOk->connect_clicked( LINK( this, SbiInputDialog, Ok ) ); m_xCancel->connect_clicked( LINK( this, SbiInputDialog, Cancel ) ); } IMPL_LINK_NOARG( SbiInputDialog, Ok, weld::Button&, void ) { m_aText = m_xInput->get_text(); m_xDialog->response(RET_OK); } IMPL_LINK_NOARG( SbiInputDialog, Cancel, weld::Button&, void ) { m_xDialog->response(RET_CANCEL); } SbiStream::SbiStream() : nExpandOnWriteTo(0) , nLine(0) , nLen(0) , nMode(SbiStreamFlags::NONE) , nError(0) { } SbiStream::~SbiStream() { } // map an SvStream-error to StarBASIC-code void SbiStream::MapError() { if( !pStrm ) return; ErrCode nEC = pStrm->GetError(); if (nEC == ERRCODE_NONE) nError = ERRCODE_NONE; else if (nEC == SVSTREAM_FILE_NOT_FOUND) nError = ERRCODE_BASIC_FILE_NOT_FOUND; else if (nEC ==SVSTREAM_PATH_NOT_FOUND) nError = ERRCODE_BASIC_PATH_NOT_FOUND; else if (nEC ==SVSTREAM_TOO_MANY_OPEN_FILES) nError = ERRCODE_BASIC_TOO_MANY_FILES; else if (nEC ==SVSTREAM_ACCESS_DENIED) nError = ERRCODE_BASIC_ACCESS_DENIED; else if (nEC ==SVSTREAM_INVALID_PARAMETER) nError = ERRCODE_BASIC_BAD_ARGUMENT; else if (nEC ==SVSTREAM_OUTOFMEMORY) nError = ERRCODE_BASIC_NO_MEMORY; else nError = ERRCODE_BASIC_IO_ERROR; } // Returns sal_True if UNO is available, otherwise the old file // system implementation has to be used // #89378 New semantic: Don't just ask for UNO but for UCB bool hasUno() { static bool bNeedInit = true; static bool bRetVal = true; if( bNeedInit ) { bNeedInit = false; Reference< XComponentContext > xContext = comphelper::getProcessComponentContext(); if( !xContext.is() ) { // No service manager at all bRetVal = false; } else { Reference< XUniversalContentBroker > xManager = UniversalContentBroker::create(xContext); if ( !( xManager->queryContentProvider( "file:///" ).is() ) ) { // No UCB bRetVal = false; } } } return bRetVal; } namespace { class OslStream : public SvStream { osl::File maFile; public: OslStream( const OUString& rName, StreamMode nStrmMode ); virtual ~OslStream() override; virtual std::size_t GetData(void* pData, std::size_t nSize) override; virtual std::size_t PutData(const void* pData, std::size_t nSize) override; virtual sal_uInt64 SeekPos( sal_uInt64 nPos ) override; virtual void FlushData() override; virtual void SetSize( sal_uInt64 nSize) override; }; } OslStream::OslStream( const OUString& rName, StreamMode nStrmMode ) : maFile( rName ) { sal_uInt32 nFlags; if( (nStrmMode & (StreamMode::READ | StreamMode::WRITE)) == (StreamMode::READ | StreamMode::WRITE) ) { nFlags = osl_File_OpenFlag_Read | osl_File_OpenFlag_Write; } else if( nStrmMode & StreamMode::WRITE ) { nFlags = osl_File_OpenFlag_Write; } else //if( nStrmMode & StreamMode::READ ) { nFlags = osl_File_OpenFlag_Read; } osl::FileBase::RC nRet = maFile.open( nFlags ); if( nRet == osl::FileBase::E_NOENT && nFlags != osl_File_OpenFlag_Read ) { nFlags |= osl_File_OpenFlag_Create; nRet = maFile.open( nFlags ); } if( nRet != osl::FileBase::E_None ) { SetError( ERRCODE_IO_GENERAL ); } } OslStream::~OslStream() { maFile.close(); } std::size_t OslStream::GetData(void* pData, std::size_t nSize) { sal_uInt64 nBytesRead = nSize; maFile.read( pData, nBytesRead, nBytesRead ); return nBytesRead; } std::size_t OslStream::PutData(const void* pData, std::size_t nSize) { sal_uInt64 nBytesWritten; maFile.write( pData, nSize, nBytesWritten ); return nBytesWritten; } sal_uInt64 OslStream::SeekPos( sal_uInt64 nPos ) { ::osl::FileBase::RC rc = ::osl::FileBase::E_None; // check if a truncated STREAM_SEEK_TO_END was passed assert(nPos != SAL_MAX_UINT32); if( nPos == STREAM_SEEK_TO_END ) { rc = maFile.setPos( osl_Pos_End, 0 ); } else { rc = maFile.setPos( osl_Pos_Absolut, nPos ); } OSL_VERIFY(rc == ::osl::FileBase::E_None); sal_uInt64 nRealPos(0); rc = maFile.getPos( nRealPos ); OSL_VERIFY(rc == ::osl::FileBase::E_None); return nRealPos; } void OslStream::FlushData() { } void OslStream::SetSize( sal_uInt64 nSize ) { maFile.setSize( nSize ); } namespace { class UCBStream : public SvStream { Reference< XInputStream > xIS; Reference< XStream > xS; Reference< XSeekable > xSeek; public: explicit UCBStream( Reference< XInputStream > const & xIS ); explicit UCBStream( Reference< XStream > const & xS ); virtual ~UCBStream() override; virtual std::size_t GetData( void* pData, std::size_t nSize ) override; virtual std::size_t PutData( const void* pData, std::size_t nSize ) override; virtual sal_uInt64 SeekPos( sal_uInt64 nPos ) override; virtual void FlushData() override; virtual void SetSize( sal_uInt64 nSize ) override; }; } UCBStream::UCBStream( Reference< XInputStream > const & rStm ) : xIS( rStm ) , xSeek( rStm, UNO_QUERY ) { } UCBStream::UCBStream( Reference< XStream > const & rStm ) : xS( rStm ) , xSeek( rStm, UNO_QUERY ) { } UCBStream::~UCBStream() { try { if( xIS.is() ) { xIS->closeInput(); } else if( xS.is() ) { Reference< XInputStream > xIS_ = xS->getInputStream(); if( xIS_.is() ) { xIS_->closeInput(); } } } catch(const Exception & ) { SetError( ERRCODE_IO_GENERAL ); } } std::size_t UCBStream::GetData(void* pData, std::size_t nSize) { try { Reference< XInputStream > xISFromS; if( xIS.is() ) { Sequence aData; nSize = xIS->readBytes( aData, nSize ); memcpy( pData, aData.getConstArray(), nSize ); return nSize; } else if( xS.is() && (xISFromS = xS->getInputStream()).is() ) { Sequence aData; nSize = xISFromS->readBytes( aData, nSize ); memcpy(pData, aData.getConstArray(), nSize ); return nSize; } else { SetError( ERRCODE_IO_GENERAL ); } } catch(const Exception & ) { SetError( ERRCODE_IO_GENERAL ); } return 0; } std::size_t UCBStream::PutData(const void* pData, std::size_t nSize) { try { Reference< XOutputStream > xOSFromS; if( xS.is() && (xOSFromS = xS->getOutputStream()).is() ) { Sequence aData( static_cast(pData), nSize ); xOSFromS->writeBytes( aData ); return nSize; } else { SetError( ERRCODE_IO_GENERAL ); } } catch(const Exception & ) { SetError( ERRCODE_IO_GENERAL ); } return 0; } sal_uInt64 UCBStream::SeekPos( sal_uInt64 nPos ) { try { if( xSeek.is() ) { sal_uInt64 nLen = static_cast( xSeek->getLength() ); if( nPos > nLen ) { nPos = nLen; } xSeek->seek( nPos ); return nPos; } else { SetError( ERRCODE_IO_GENERAL ); } } catch(const Exception & ) { SetError( ERRCODE_IO_GENERAL ); } return 0; } void UCBStream::FlushData() { try { Reference< XOutputStream > xOSFromS; if( xS.is() && (xOSFromS = xS->getOutputStream()).is() ) { xOSFromS->flush(); } else { SetError( ERRCODE_IO_GENERAL ); } } catch(const Exception & ) { SetError( ERRCODE_IO_GENERAL ); } } void UCBStream::SetSize( sal_uInt64 ) { SAL_WARN("basic", "UCBStream::SetSize not allowed to call from basic" ); SetError( ERRCODE_IO_GENERAL ); } ErrCode const & SbiStream::Open ( const OString& rName, StreamMode nStrmMode, SbiStreamFlags nFlags, short nL ) { nMode = nFlags; nLen = nL; nLine = 0; nExpandOnWriteTo = 0; if( ( nStrmMode & ( StreamMode::READ|StreamMode::WRITE ) ) == StreamMode::READ ) { nStrmMode |= StreamMode::NOCREATE; } OUString aStr(OStringToOUString(rName, osl_getThreadTextEncoding())); OUString aNameStr = getFullPath( aStr ); if( hasUno() ) { Reference< XSimpleFileAccess3 > xSFI( SimpleFileAccess::create( comphelper::getProcessComponentContext() ) ); try { // #??? For write access delete file if it already exists (not for appending) if( (nStrmMode & StreamMode::WRITE) && !IsAppend() && !IsBinary() && !IsRandom() && xSFI->exists( aNameStr ) && !xSFI->isFolder( aNameStr ) ) { xSFI->kill( aNameStr ); } if( (nStrmMode & (StreamMode::READ | StreamMode::WRITE)) == (StreamMode::READ | StreamMode::WRITE) ) { Reference< XStream > xIS = xSFI->openFileReadWrite( aNameStr ); pStrm.reset( new UCBStream( xIS ) ); } else if( nStrmMode & StreamMode::WRITE ) { Reference< XStream > xIS = xSFI->openFileReadWrite( aNameStr ); pStrm.reset( new UCBStream( xIS ) ); } else //if( nStrmMode & StreamMode::READ ) { Reference< XInputStream > xIS = xSFI->openFileRead( aNameStr ); pStrm.reset( new UCBStream( xIS ) ); } } catch(const Exception & ) { nError = ERRCODE_IO_GENERAL; } } if( !pStrm ) { pStrm.reset( new OslStream( aNameStr, nStrmMode ) ); } if( IsAppend() ) { pStrm->Seek( STREAM_SEEK_TO_END ); } MapError(); if( nError ) { pStrm.reset(); } return nError; } ErrCode const & SbiStream::Close() { if( pStrm ) { MapError(); pStrm.reset(); } return nError; } ErrCode SbiStream::Read(OString& rBuf, sal_uInt16 n, bool bForceReadingPerByte) { nExpandOnWriteTo = 0; if( !bForceReadingPerByte && IsText() ) { pStrm->ReadLine(rBuf); nLine++; } else { if( !n ) { n = nLen; } if( !n ) { return nError = ERRCODE_BASIC_BAD_RECORD_LENGTH; } OStringBuffer aBuffer(read_uInt8s_ToOString(*pStrm, n)); //Pad it out with ' ' to the requested length on short read sal_Int32 nRequested = sal::static_int_cast(n); comphelper::string::padToLength(aBuffer, nRequested, ' '); rBuf = aBuffer.makeStringAndClear(); } MapError(); if( !nError && pStrm->eof() ) { nError = ERRCODE_BASIC_READ_PAST_EOF; } return nError; } ErrCode const & SbiStream::Read( char& ch ) { nExpandOnWriteTo = 0; if (aLine.isEmpty()) { Read( aLine ); aLine += OString('\n'); } ch = aLine[0]; aLine = aLine.copy(1); return nError; } void SbiStream::ExpandFile() { if ( !nExpandOnWriteTo ) return; sal_uInt64 nCur = pStrm->Seek(STREAM_SEEK_TO_END); if( nCur < nExpandOnWriteTo ) { sal_uInt64 nDiff = nExpandOnWriteTo - nCur; while( nDiff-- ) { pStrm->WriteChar( 0 ); } } else { pStrm->Seek( nExpandOnWriteTo ); } nExpandOnWriteTo = 0; } namespace { void WriteLines(SvStream &rStream, const OString& rStr) { OString aStr(convertLineEnd(rStr, rStream.GetLineDelimiter()) ); write_uInt8s_FromOString(rStream, aStr); endl( rStream ); } } ErrCode SbiStream::Write( const OString& rBuf ) { ExpandFile(); if( IsAppend() ) { pStrm->Seek( STREAM_SEEK_TO_END ); } if( IsText() ) { aLine += rBuf; // Get it out, if the end is an LF, but strip CRLF before, // because the SvStream adds a CRLF! sal_Int32 nLineLen = aLine.getLength(); if (nLineLen && aLine[--nLineLen] == 0x0A) { aLine = aLine.copy(0, nLineLen); if (nLineLen && aLine[--nLineLen] == 0x0D) { aLine = aLine.copy(0, nLineLen); } WriteLines(*pStrm, aLine); aLine.clear(); } } else { if( !nLen ) { return nError = ERRCODE_BASIC_BAD_RECORD_LENGTH; } pStrm->WriteBytes(rBuf.getStr(), nLen); MapError(); } return nError; } SbiIoSystem::SbiIoSystem() { for(SbiStream* & i : pChan) { i = nullptr; } nChan = 0; nError = ERRCODE_NONE; } SbiIoSystem::~SbiIoSystem() COVERITY_NOEXCEPT_FALSE { Shutdown(); } ErrCode SbiIoSystem::GetError() { ErrCode n = nError; nError = ERRCODE_NONE; return n; } void SbiIoSystem::Open(short nCh, const OString& rName, StreamMode nMode, SbiStreamFlags nFlags, short nLen) { nError = ERRCODE_NONE; if( nCh >= CHANNELS || !nCh ) { nError = ERRCODE_BASIC_BAD_CHANNEL; } else if( pChan[ nCh ] ) { nError = ERRCODE_BASIC_FILE_ALREADY_OPEN; } else { pChan[ nCh ] = new SbiStream; nError = pChan[ nCh ]->Open( rName, nMode, nFlags, nLen ); if( nError ) { delete pChan[ nCh ]; pChan[ nCh ] = nullptr; } } nChan = 0; } void SbiIoSystem::Close() { if( !nChan ) { nError = ERRCODE_BASIC_BAD_CHANNEL; } else if( !pChan[ nChan ] ) { nError = ERRCODE_BASIC_BAD_CHANNEL; } else { nError = pChan[ nChan ]->Close(); delete pChan[ nChan ]; pChan[ nChan ] = nullptr; } nChan = 0; } void SbiIoSystem::Shutdown() { for( short i = 1; i < CHANNELS; i++ ) { if( pChan[ i ] ) { ErrCode n = pChan[ i ]->Close(); delete pChan[ i ]; pChan[ i ] = nullptr; if( n && !nError ) { nError = n; } } } nChan = 0; // anything left to PRINT? if( !aOut.isEmpty() ) { vcl::Window* pParent = Application::GetDefDialogParent(); std::unique_ptr xBox(Application::CreateMessageDialog(pParent ? pParent->GetFrameWeld() : nullptr, VclMessageType::Warning, VclButtonsType::Ok, aOut)); xBox->run(); } aOut.clear(); } void SbiIoSystem::Read(OString& rBuf) { if( !nChan ) { ReadCon( rBuf ); } else if( !pChan[ nChan ] ) { nError = ERRCODE_BASIC_BAD_CHANNEL; } else { nError = pChan[ nChan ]->Read( rBuf ); } } char SbiIoSystem::Read() { char ch = ' '; if( !nChan ) { if( aIn.isEmpty() ) { ReadCon( aIn ); aIn += OString('\n'); } ch = aIn[0]; aIn = aIn.copy(1); } else if( !pChan[ nChan ] ) { nError = ERRCODE_BASIC_BAD_CHANNEL; } else { nError = pChan[ nChan ]->Read( ch ); } return ch; } void SbiIoSystem::Write(const OUString& rBuf) { if( !nChan ) { WriteCon( rBuf ); } else if( !pChan[ nChan ] ) { nError = ERRCODE_BASIC_BAD_CHANNEL; } else { nError = pChan[ nChan ]->Write( OUStringToOString(rBuf, osl_getThreadTextEncoding()) ); } } // nChannel == 0..CHANNELS-1 SbiStream* SbiIoSystem::GetStream( short nChannel ) const { SbiStream* pRet = nullptr; if( nChannel >= 0 && nChannel < CHANNELS ) { pRet = pChan[ nChannel ]; } return pRet; } void SbiIoSystem::CloseAll() { for( short i = 1; i < CHANNELS; i++ ) { if( pChan[ i ] ) { ErrCode n = pChan[ i ]->Close(); delete pChan[ i ]; pChan[ i ] = nullptr; if( n && !nError ) { nError = n; } } } } void SbiIoSystem::ReadCon(OString& rIn) { OUString aPromptStr(OStringToOUString(aPrompt, osl_getThreadTextEncoding())); SbiInputDialog aDlg(nullptr, aPromptStr); if (aDlg.run() == RET_OK) { rIn = OUStringToOString(aDlg.GetInput(), osl_getThreadTextEncoding()); } else { nError = ERRCODE_BASIC_USER_ABORT; } aPrompt.clear(); } // output of a MessageBox, if there's a CR in the console-buffer void SbiIoSystem::WriteCon(const OUString& rText) { aOut += rText; sal_Int32 n1 = aOut.indexOf('\n'); sal_Int32 n2 = aOut.indexOf('\r'); if( n1 == -1 && n2 == -1 ) return; if( n1 == -1 ) { n1 = n2; } else if( n2 == -1 ) { n2 = n1; } if( n1 > n2 ) { n1 = n2; } OUString s(aOut.copy(0, n1)); aOut = aOut.copy(n1); while ( !aOut.isEmpty() && (aOut[0] == '\n' || aOut[0] == '\r') ) { aOut = aOut.copy(1); } { SolarMutexGuard aSolarGuard; vcl::Window* pParent = Application::GetDefDialogParent(); std::unique_ptr xBox(Application::CreateMessageDialog(pParent ? pParent->GetFrameWeld() : nullptr, VclMessageType::Warning, VclButtonsType::OkCancel, s)); xBox->set_default_response(RET_OK); if (!xBox->run()) { nError = ERRCODE_BASIC_USER_ABORT; } } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */