/* -*- 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 #include #include #include using namespace ::std; using namespace ::cppu; using namespace ::osl; using namespace ::com::sun::star::io; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; #include "services.hxx" #include "streamhelper.hxx" namespace io_stm { /*********************** * * OMarkableOutputStream. * * This object allows to set marks in an outputstream. It is allowed to jump back to the marks and * rewrite the some bytes. * * The object must buffer the data since the last mark set. Flush will not * have any effect. As soon as the last mark has been removed, the object may write the data * through to the chained object. * **********************/ class OMarkableOutputStream : public WeakImplHelper< XOutputStream , XActiveDataSource , XMarkableStream , XConnectable, XServiceInfo > { public: OMarkableOutputStream( ); public: // XOutputStream virtual void SAL_CALL writeBytes(const Sequence< sal_Int8 >& aData) override; virtual void SAL_CALL flush() override; virtual void SAL_CALL closeOutput() override; public: // XMarkable virtual sal_Int32 SAL_CALL createMark() override; virtual void SAL_CALL deleteMark(sal_Int32 Mark) override; virtual void SAL_CALL jumpToMark(sal_Int32 nMark) override; virtual void SAL_CALL jumpToFurthest() override; virtual sal_Int32 SAL_CALL offsetToMark(sal_Int32 nMark) override; public: // XActiveDataSource virtual void SAL_CALL setOutputStream(const Reference < XOutputStream > & aStream) override; virtual Reference < XOutputStream > SAL_CALL getOutputStream() override; public: // XConnectable virtual void SAL_CALL setPredecessor(const Reference < XConnectable > & aPredecessor) override; virtual Reference < XConnectable > SAL_CALL getPredecessor() override; virtual void SAL_CALL setSuccessor(const Reference < XConnectable >& aSuccessor) override; virtual Reference< XConnectable > SAL_CALL getSuccessor() override; public: // XServiceInfo OUString SAL_CALL getImplementationName() override; Sequence< OUString > SAL_CALL getSupportedServiceNames() override; sal_Bool SAL_CALL supportsService(const OUString& ServiceName) override; private: // helper methods /// @throws NotConnectedException /// @throws BufferSizeExceededException void checkMarksAndFlush(); Reference< XConnectable > m_succ; Reference< XConnectable > m_pred; Reference< XOutputStream > m_output; bool m_bValidStream; std::unique_ptr m_pBuffer; map > m_mapMarks; sal_Int32 m_nCurrentPos; sal_Int32 m_nCurrentMark; Mutex m_mutex; }; OMarkableOutputStream::OMarkableOutputStream( ) : m_bValidStream(false) , m_pBuffer( new MemRingBuffer ) , m_nCurrentPos(0) , m_nCurrentMark(0) { } // XOutputStream void OMarkableOutputStream::writeBytes(const Sequence< sal_Int8 >& aData) { if( m_bValidStream ) { if( m_mapMarks.empty() && ( m_pBuffer->getSize() == 0 ) ) { // no mark and buffer active, simple write through m_output->writeBytes( aData ); } else { MutexGuard guard( m_mutex ); // new data must be buffered m_pBuffer->writeAt( m_nCurrentPos , aData ); m_nCurrentPos += aData.getLength(); checkMarksAndFlush(); } } else { throw NotConnectedException(); } } void OMarkableOutputStream::flush() { Reference< XOutputStream > output; { MutexGuard guard( m_mutex ); output = m_output; } // Markable cannot flush buffered data, because the data may get rewritten, // however one can forward the flush to the chained stream to give it // a chance to write data buffered in the chained stream. if( output.is() ) { output->flush(); } } void OMarkableOutputStream::closeOutput() { if( m_bValidStream ) { MutexGuard guard( m_mutex ); // all marks must be cleared and all if( ! m_mapMarks.empty() ) { m_mapMarks.clear(); } m_nCurrentPos = m_pBuffer->getSize(); checkMarksAndFlush(); m_output->closeOutput(); setOutputStream( Reference< XOutputStream > () ); setPredecessor( Reference < XConnectable >() ); setSuccessor( Reference< XConnectable > () ); } else { throw NotConnectedException(); } } sal_Int32 OMarkableOutputStream::createMark() { MutexGuard guard( m_mutex ); sal_Int32 nMark = m_nCurrentMark; m_mapMarks[nMark] = m_nCurrentPos; m_nCurrentMark ++; return nMark; } void OMarkableOutputStream::deleteMark(sal_Int32 Mark) { MutexGuard guard( m_mutex ); map >::iterator ii = m_mapMarks.find( Mark ); if( ii == m_mapMarks.end() ) { throw IllegalArgumentException( "MarkableOutputStream::deleteMark unknown mark (" + OUString::number(Mark) + ")", *this, 0); } else { m_mapMarks.erase( ii ); checkMarksAndFlush(); } } void OMarkableOutputStream::jumpToMark(sal_Int32 nMark) { MutexGuard guard( m_mutex ); map >::iterator ii = m_mapMarks.find( nMark ); if( ii == m_mapMarks.end() ) { throw IllegalArgumentException( "MarkableOutputStream::jumpToMark unknown mark (" + OUString::number(nMark) + ")", *this, 0); } else { m_nCurrentPos = (*ii).second; } } void OMarkableOutputStream::jumpToFurthest() { MutexGuard guard( m_mutex ); m_nCurrentPos = m_pBuffer->getSize(); checkMarksAndFlush(); } sal_Int32 OMarkableOutputStream::offsetToMark(sal_Int32 nMark) { MutexGuard guard( m_mutex ); map >::const_iterator ii = m_mapMarks.find( nMark ); if( ii == m_mapMarks.end() ) { throw IllegalArgumentException( "MarkableOutputStream::offsetToMark unknown mark (" + OUString::number(nMark) + ")", *this, 0); } return m_nCurrentPos - (*ii).second; } // XActiveDataSource2 void OMarkableOutputStream::setOutputStream(const Reference < XOutputStream >& aStream) { if( m_output != aStream ) { m_output = aStream; Reference < XConnectable > succ( m_output , UNO_QUERY ); setSuccessor( succ ); } m_bValidStream = m_output.is(); } Reference< XOutputStream > OMarkableOutputStream::getOutputStream() { return m_output; } void OMarkableOutputStream::setSuccessor( const Reference< XConnectable > &r ) { /// if the references match, nothing needs to be done if( m_succ != r ) { /// store the reference for later use m_succ = r; if( m_succ.is() ) { m_succ->setPredecessor( Reference < XConnectable > ( (static_cast< XConnectable * >(this)) ) ); } } } Reference OMarkableOutputStream::getSuccessor() { return m_succ; } // XDataSource void OMarkableOutputStream::setPredecessor( const Reference< XConnectable > &r ) { if( r != m_pred ) { m_pred = r; if( m_pred.is() ) { m_pred->setSuccessor( Reference < XConnectable > ( (static_cast< XConnectable * >(this )) ) ); } } } Reference < XConnectable > OMarkableOutputStream::getPredecessor() { return m_pred; } // private methods void OMarkableOutputStream::checkMarksAndFlush() { map >::iterator ii; // find the smallest mark sal_Int32 nNextFound = m_nCurrentPos; for( ii = m_mapMarks.begin() ; ii != m_mapMarks.end() ; ++ii ) { if( (*ii).second <= nNextFound ) { nNextFound = (*ii).second; } } if( nNextFound ) { // some data must be released ! m_nCurrentPos -= nNextFound; for( ii = m_mapMarks.begin() ; ii != m_mapMarks.end() ; ++ii ) { (*ii).second -= nNextFound; } Sequence seq(nNextFound); m_pBuffer->readAt( 0 , seq , nNextFound ); m_pBuffer->forgetFromStart( nNextFound ); // now write data through to streams m_output->writeBytes( seq ); } else { // nothing to do. There is a mark or the current cursor position, that prevents // releasing data ! } } // XServiceInfo OUString OMarkableOutputStream::getImplementationName() { return OMarkableOutputStream_getImplementationName(); } // XServiceInfo sal_Bool OMarkableOutputStream::supportsService(const OUString& ServiceName) { return cppu::supportsService(this, ServiceName); } // XServiceInfo Sequence< OUString > OMarkableOutputStream::getSupportedServiceNames() { return OMarkableOutputStream_getSupportedServiceNames(); } /*------------------------ * * external binding * *------------------------*/ Reference< XInterface > SAL_CALL OMarkableOutputStream_CreateInstance( SAL_UNUSED_PARAMETER const Reference < XComponentContext > & ) { OMarkableOutputStream *p = new OMarkableOutputStream( ); return Reference < XInterface > ( static_cast(p) ); } OUString OMarkableOutputStream_getImplementationName() { return OUString("com.sun.star.comp.io.stm.MarkableOutputStream"); } Sequence OMarkableOutputStream_getSupportedServiceNames() { Sequence aRet { "com.sun.star.io.MarkableOutputStream" }; return aRet; } // XMarkableInputStream class OMarkableInputStream : public WeakImplHelper < XInputStream, XActiveDataSink, XMarkableStream, XConnectable, XServiceInfo > { public: OMarkableInputStream( ); public: // XInputStream virtual sal_Int32 SAL_CALL readBytes(Sequence< sal_Int8 >& aData, sal_Int32 nBytesToRead) override ; virtual sal_Int32 SAL_CALL readSomeBytes(Sequence< sal_Int8 >& aData, sal_Int32 nMaxBytesToRead) override; virtual void SAL_CALL skipBytes(sal_Int32 nBytesToSkip) override; virtual sal_Int32 SAL_CALL available() override; virtual void SAL_CALL closeInput() override; public: // XMarkable virtual sal_Int32 SAL_CALL createMark() override; virtual void SAL_CALL deleteMark(sal_Int32 Mark) override; virtual void SAL_CALL jumpToMark(sal_Int32 nMark) override; virtual void SAL_CALL jumpToFurthest() override; virtual sal_Int32 SAL_CALL offsetToMark(sal_Int32 nMark) override; public: // XActiveDataSink virtual void SAL_CALL setInputStream(const Reference < XInputStream > & aStream) override; virtual Reference < XInputStream > SAL_CALL getInputStream() override; public: // XConnectable virtual void SAL_CALL setPredecessor(const Reference < XConnectable > & aPredecessor) override; virtual Reference < XConnectable > SAL_CALL getPredecessor() override; virtual void SAL_CALL setSuccessor(const Reference < XConnectable > & aSuccessor) override; virtual Reference < XConnectable > SAL_CALL getSuccessor() override; public: // XServiceInfo OUString SAL_CALL getImplementationName() override; Sequence< OUString > SAL_CALL getSupportedServiceNames() override; sal_Bool SAL_CALL supportsService(const OUString& ServiceName) override; private: void checkMarksAndFlush(); Reference < XConnectable > m_succ; Reference < XConnectable > m_pred; Reference< XInputStream > m_input; bool m_bValidStream; std::unique_ptr m_pBuffer; map > m_mapMarks; sal_Int32 m_nCurrentPos; sal_Int32 m_nCurrentMark; Mutex m_mutex; }; OMarkableInputStream::OMarkableInputStream() : m_bValidStream(false) , m_nCurrentPos(0) , m_nCurrentMark(0) { m_pBuffer.reset( new MemRingBuffer ); } // XInputStream sal_Int32 OMarkableInputStream::readBytes(Sequence< sal_Int8 >& aData, sal_Int32 nBytesToRead) { sal_Int32 nBytesRead; if( m_bValidStream ) { MutexGuard guard( m_mutex ); if( m_mapMarks.empty() && ! m_pBuffer->getSize() ) { // normal read ! nBytesRead = m_input->readBytes( aData, nBytesToRead ); } else { // read from buffer sal_Int32 nRead; // read enough bytes into buffer if( m_pBuffer->getSize() - m_nCurrentPos < nBytesToRead ) { sal_Int32 nToRead = nBytesToRead - ( m_pBuffer->getSize() - m_nCurrentPos ); nRead = m_input->readBytes( aData , nToRead ); OSL_ASSERT( aData.getLength() == nRead ); m_pBuffer->writeAt( m_pBuffer->getSize() , aData ); if( nRead < nToRead ) { nBytesToRead = nBytesToRead - (nToRead-nRead); } } OSL_ASSERT( m_pBuffer->getSize() - m_nCurrentPos >= nBytesToRead ); m_pBuffer->readAt( m_nCurrentPos , aData , nBytesToRead ); m_nCurrentPos += nBytesToRead; nBytesRead = nBytesToRead; } } else { throw NotConnectedException( "MarkableInputStream::readBytes NotConnectedException", *this ); } return nBytesRead; } sal_Int32 OMarkableInputStream::readSomeBytes(Sequence< sal_Int8 >& aData, sal_Int32 nMaxBytesToRead) { sal_Int32 nBytesRead; if( m_bValidStream ) { MutexGuard guard( m_mutex ); if( m_mapMarks.empty() && ! m_pBuffer->getSize() ) { // normal read ! nBytesRead = m_input->readSomeBytes( aData, nMaxBytesToRead ); } else { // read from buffer sal_Int32 nRead = 0; sal_Int32 nInBuffer = m_pBuffer->getSize() - m_nCurrentPos; sal_Int32 nAdditionalBytesToRead = Min(nMaxBytesToRead-nInBuffer,m_input->available()); nAdditionalBytesToRead = Max(0 , nAdditionalBytesToRead ); // read enough bytes into buffer if( 0 == nInBuffer ) { nRead = m_input->readSomeBytes( aData , nMaxBytesToRead ); } else if( nAdditionalBytesToRead ) { nRead = m_input->readBytes( aData , nAdditionalBytesToRead ); } if( nRead ) { aData.realloc( nRead ); m_pBuffer->writeAt( m_pBuffer->getSize() , aData ); } nBytesRead = Min( nMaxBytesToRead , nInBuffer + nRead ); // now take everything from buffer ! m_pBuffer->readAt( m_nCurrentPos , aData , nBytesRead ); m_nCurrentPos += nBytesRead; } } else { throw NotConnectedException( "MarkableInputStream::readSomeBytes NotConnectedException", *this ); } return nBytesRead; } void OMarkableInputStream::skipBytes(sal_Int32 nBytesToSkip) { if ( nBytesToSkip < 0 ) throw BufferSizeExceededException( "precondition not met: XInputStream::skipBytes: non-negative integer required!", *this ); // this method is blocking Sequence seqDummy( nBytesToSkip ); readBytes( seqDummy , nBytesToSkip ); } sal_Int32 OMarkableInputStream::available() { sal_Int32 nAvail; if( m_bValidStream ) { MutexGuard guard( m_mutex ); nAvail = m_input->available() + ( m_pBuffer->getSize() - m_nCurrentPos ); } else { throw NotConnectedException( "MarkableInputStream::available NotConnectedException", *this ); } return nAvail; } void OMarkableInputStream::closeInput() { if( m_bValidStream ) { MutexGuard guard( m_mutex ); m_input->closeInput(); setInputStream( Reference< XInputStream > () ); setPredecessor( Reference< XConnectable > () ); setSuccessor( Reference< XConnectable >() ); m_pBuffer.reset(); m_nCurrentPos = 0; m_nCurrentMark = 0; } else { throw NotConnectedException( "MarkableInputStream::closeInput NotConnectedException", *this ); } } // XMarkable sal_Int32 OMarkableInputStream::createMark() { MutexGuard guard( m_mutex ); sal_Int32 nMark = m_nCurrentMark; m_mapMarks[nMark] = m_nCurrentPos; m_nCurrentMark ++; return nMark; } void OMarkableInputStream::deleteMark(sal_Int32 Mark) { MutexGuard guard( m_mutex ); map >::iterator ii = m_mapMarks.find( Mark ); if( ii == m_mapMarks.end() ) { throw IllegalArgumentException( "MarkableInputStream::deleteMark unknown mark (" + OUString::number(Mark) + ")", *this , 0 ); } else { m_mapMarks.erase( ii ); checkMarksAndFlush(); } } void OMarkableInputStream::jumpToMark(sal_Int32 nMark) { MutexGuard guard( m_mutex ); map >::iterator ii = m_mapMarks.find( nMark ); if( ii == m_mapMarks.end() ) { throw IllegalArgumentException( "MarkableInputStream::jumpToMark unknown mark (" + OUString::number(nMark) + ")", *this , 0 ); } else { m_nCurrentPos = (*ii).second; } } void OMarkableInputStream::jumpToFurthest() { MutexGuard guard( m_mutex ); m_nCurrentPos = m_pBuffer->getSize(); checkMarksAndFlush(); } sal_Int32 OMarkableInputStream::offsetToMark(sal_Int32 nMark) { MutexGuard guard( m_mutex ); map >::const_iterator ii = m_mapMarks.find( nMark ); if( ii == m_mapMarks.end() ) { throw IllegalArgumentException( "MarkableInputStream::offsetToMark unknown mark (" + OUString::number(nMark) + ")", *this, 0 ); } return m_nCurrentPos - (*ii).second; } // XActiveDataSource void OMarkableInputStream::setInputStream(const Reference< XInputStream > & aStream) { if( m_input != aStream ) { m_input = aStream; Reference < XConnectable > pred( m_input , UNO_QUERY ); setPredecessor( pred ); } m_bValidStream = m_input.is(); } Reference< XInputStream > OMarkableInputStream::getInputStream() { return m_input; } // XDataSink void OMarkableInputStream::setSuccessor( const Reference< XConnectable > &r ) { /// if the references match, nothing needs to be done if( m_succ != r ) { /// store the reference for later use m_succ = r; if( m_succ.is() ) { /// set this instance as the sink ! m_succ->setPredecessor( Reference< XConnectable > ( (static_cast< XConnectable * >(this)) ) ); } } } Reference < XConnectable > OMarkableInputStream::getSuccessor() { return m_succ; } // XDataSource void OMarkableInputStream::setPredecessor( const Reference < XConnectable > &r ) { if( r != m_pred ) { m_pred = r; if( m_pred.is() ) { m_pred->setSuccessor( Reference< XConnectable > ( (static_cast< XConnectable * >(this)) ) ); } } } Reference< XConnectable > OMarkableInputStream::getPredecessor() { return m_pred; } void OMarkableInputStream::checkMarksAndFlush() { map >::iterator ii; // find the smallest mark sal_Int32 nNextFound = m_nCurrentPos; for( ii = m_mapMarks.begin() ; ii != m_mapMarks.end() ; ++ii ) { if( (*ii).second <= nNextFound ) { nNextFound = (*ii).second; } } if( nNextFound ) { // some data must be released ! m_nCurrentPos -= nNextFound; for( ii = m_mapMarks.begin() ; ii != m_mapMarks.end() ; ++ii ) { (*ii).second -= nNextFound; } m_pBuffer->forgetFromStart( nNextFound ); } else { // nothing to do. There is a mark or the current cursor position, that prevents // releasing data ! } } // XServiceInfo OUString OMarkableInputStream::getImplementationName() { return OMarkableInputStream_getImplementationName(); } // XServiceInfo sal_Bool OMarkableInputStream::supportsService(const OUString& ServiceName) { return cppu::supportsService(this, ServiceName); } // XServiceInfo Sequence< OUString > OMarkableInputStream::getSupportedServiceNames() { return OMarkableInputStream_getSupportedServiceNames(); } /*------------------------ * * external binding * *------------------------*/ Reference < XInterface > SAL_CALL OMarkableInputStream_CreateInstance( SAL_UNUSED_PARAMETER const Reference < XComponentContext > & ) { OMarkableInputStream *p = new OMarkableInputStream( ); return Reference< XInterface > ( static_cast(p) ); } OUString OMarkableInputStream_getImplementationName() { return OUString("com.sun.star.comp.io.stm.MarkableInputStream"); } Sequence OMarkableInputStream_getSupportedServiceNames() { Sequence aRet { "com.sun.star.io.MarkableInputStream" }; return aRet; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */