/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include "selfterminatefilestream.hxx" #include "owriteablestream.hxx" #include "oseekinstream.hxx" #include "xstorage.hxx" // since the copying uses 32000 blocks usually, it makes sense to have a smaller size #define MAX_STORCACHE_SIZE 30000 using namespace ::com::sun::star; struct WSInternalData_Impl { rtl::Reference m_xSharedMutex; ::std::unique_ptr< ::cppu::OTypeCollection> m_pTypeCollection; ::cppu::OMultiTypeInterfaceContainerHelper m_aListenersContainer; // list of listeners sal_Int32 const m_nStorageType; // the mutex reference MUST NOT be empty WSInternalData_Impl( const rtl::Reference& rMutexRef, sal_Int32 nStorageType ) : m_xSharedMutex( rMutexRef ) , m_pTypeCollection() , m_aListenersContainer( rMutexRef->GetMutex() ) , m_nStorageType( nStorageType ) {} }; namespace package { bool PackageEncryptionDatasEqual( const ::comphelper::SequenceAsHashMap& aHash1, const ::comphelper::SequenceAsHashMap& aHash2 ) { bool bResult = !aHash1.empty() && aHash1.size() == aHash2.size(); for ( ::comphelper::SequenceAsHashMap::const_iterator aIter = aHash1.begin(); bResult && aIter != aHash1.end(); ++aIter ) { uno::Sequence< sal_Int8 > aKey1; bResult = ( ( aIter->second >>= aKey1 ) && aKey1.getLength() ); if ( bResult ) { uno::Sequence< sal_Int8 > aKey2 = aHash2.getUnpackedValueOrDefault( aIter->first, uno::Sequence< sal_Int8 >() ); bResult = ( aKey1.getLength() == aKey2.getLength() ); for ( sal_Int32 nInd = 0; bResult && nInd < aKey1.getLength(); nInd++ ) bResult = ( aKey1[nInd] == aKey2[nInd] ); } } return bResult; } } // namespace package namespace { void SetEncryptionKeyProperty_Impl( const uno::Reference< beans::XPropertySet >& xPropertySet, const uno::Sequence< beans::NamedValue >& aKey ) { SAL_WARN_IF( !xPropertySet.is(), "package.xstor", "No property set is provided!" ); if ( !xPropertySet.is() ) throw uno::RuntimeException(); try { xPropertySet->setPropertyValue( STORAGE_ENCRYPTION_KEYS_PROPERTY, uno::makeAny( aKey ) ); } catch ( const uno::Exception& rException ) { SAL_INFO("package.xstor", rException); SAL_INFO("package.xstor", "Can't set encryption"); SAL_WARN( "package.xstor", "Can't write encryption related properties!" ); throw io::IOException(); // TODO } } uno::Any GetEncryptionKeyProperty_Impl( const uno::Reference< beans::XPropertySet >& xPropertySet ) { SAL_WARN_IF( !xPropertySet.is(), "package.xstor", "No property set is provided!" ); if ( !xPropertySet.is() ) throw uno::RuntimeException(); try { return xPropertySet->getPropertyValue(STORAGE_ENCRYPTION_KEYS_PROPERTY); } catch ( const uno::Exception& rException ) { SAL_INFO("package.xstor", rException); SAL_INFO("package.xstor", "Can't get encryption property"); SAL_WARN( "package.xstor", "Can't get encryption related properties!" ); throw io::IOException(); // TODO } } bool SequencesEqual( const uno::Sequence< sal_Int8 >& aSequence1, const uno::Sequence< sal_Int8 >& aSequence2 ) { if ( aSequence1.getLength() != aSequence2.getLength() ) return false; for ( sal_Int32 nInd = 0; nInd < aSequence1.getLength(); nInd++ ) if ( aSequence1[nInd] != aSequence2[nInd] ) return false; return true; } bool SequencesEqual( const uno::Sequence< beans::NamedValue >& aSequence1, const uno::Sequence< beans::NamedValue >& aSequence2 ) { if ( aSequence1.getLength() != aSequence2.getLength() ) return false; for ( sal_Int32 nInd = 0; nInd < aSequence1.getLength(); nInd++ ) { bool bHasMember = false; uno::Sequence< sal_Int8 > aMember1; sal_Int32 nMember1 = 0; if ( aSequence1[nInd].Value >>= aMember1 ) { for ( sal_Int32 nInd2 = 0; nInd2 < aSequence2.getLength(); nInd2++ ) { if ( aSequence1[nInd].Name == aSequence2[nInd2].Name ) { bHasMember = true; uno::Sequence< sal_Int8 > aMember2; if ( !( aSequence2[nInd2].Value >>= aMember2 ) || !SequencesEqual( aMember1, aMember2 ) ) return false; } } } else if ( aSequence1[nInd].Value >>= nMember1 ) { for ( sal_Int32 nInd2 = 0; nInd2 < aSequence2.getLength(); nInd2++ ) { if ( aSequence1[nInd].Name == aSequence2[nInd2].Name ) { bHasMember = true; sal_Int32 nMember2 = 0; if ( !( aSequence2[nInd2].Value >>= nMember2 ) || nMember1 != nMember2 ) return false; } } } else return false; if ( !bHasMember ) return false; } return true; } bool KillFile( const OUString& aURL, const uno::Reference< uno::XComponentContext >& xContext ) { if ( !xContext.is() ) return false; bool bRet = false; try { uno::Reference < ucb::XSimpleFileAccess3 > xAccess( ucb::SimpleFileAccess::create( xContext ) ); xAccess->kill( aURL ); bRet = true; } catch( const uno::Exception& rException ) { SAL_INFO("package.xstor", rException); SAL_INFO("package.xstor", "Quiet exception"); } return bRet; } OUString GetNewTempFileURL( const uno::Reference< uno::XComponentContext >& rContext ) { OUString aTempURL; uno::Reference < beans::XPropertySet > xTempFile( io::TempFile::create(rContext), uno::UNO_QUERY_THROW ); try { xTempFile->setPropertyValue( "RemoveFile", uno::makeAny( false ) ); uno::Any aUrl = xTempFile->getPropertyValue( "Uri" ); aUrl >>= aTempURL; } catch ( const uno::Exception& rException ) { SAL_INFO("package.xstor", rException); SAL_INFO("package.xstor", "Quiet exception"); } if ( aTempURL.isEmpty() ) throw uno::RuntimeException(); // TODO: can not create tempfile return aTempURL; } uno::Reference< io::XStream > CreateMemoryStream( const uno::Reference< uno::XComponentContext >& rContext ) { return uno::Reference< io::XStream >( rContext->getServiceManager()->createInstanceWithContext("com.sun.star.comp.MemoryStream", rContext), uno::UNO_QUERY_THROW); } } // anonymous namespace OWriteStream_Impl::OWriteStream_Impl( OStorage_Impl* pParent, const uno::Reference< packages::XDataSinkEncrSupport >& xPackageStream, const uno::Reference< lang::XSingleServiceFactory >& xPackage, const uno::Reference< uno::XComponentContext >& rContext, bool bForceEncrypted, sal_Int32 nStorageType, bool bDefaultCompress, const uno::Reference< io::XInputStream >& xRelInfoStream ) : m_xMutex( new comphelper::RefCountedMutex ) , m_pAntiImpl( nullptr ) , m_bHasDataToFlush( false ) , m_bFlushed( false ) , m_xPackageStream( xPackageStream ) , m_xContext( rContext ) , m_pParent( pParent ) , m_bForceEncrypted( bForceEncrypted ) , m_bUseCommonEncryption( !bForceEncrypted && nStorageType == embed::StorageFormats::PACKAGE ) , m_bHasCachedEncryptionData( false ) , m_bCompressedSetExplicit( !bDefaultCompress ) , m_xPackage( xPackage ) , m_bHasInsertedStreamOptimization( false ) , m_nStorageType( nStorageType ) , m_xOrigRelInfoStream( xRelInfoStream ) , m_bOrigRelInfoBroken( false ) , m_nRelInfoStatus( RELINFO_NO_INIT ) , m_nRelId( 1 ) { SAL_WARN_IF( !xPackageStream.is(), "package.xstor", "No package stream is provided!" ); SAL_WARN_IF( !xPackage.is(), "package.xstor", "No package component is provided!" ); SAL_WARN_IF( !m_xContext.is(), "package.xstor", "No package stream is provided!" ); OSL_ENSURE( pParent, "No parent storage is provided!" ); OSL_ENSURE( m_nStorageType == embed::StorageFormats::OFOPXML || !m_xOrigRelInfoStream.is(), "The Relations info makes sense only for OFOPXML format!" ); } OWriteStream_Impl::~OWriteStream_Impl() { DisposeWrappers(); if ( !m_aTempURL.isEmpty() ) { KillFile( m_aTempURL, comphelper::getProcessComponentContext() ); m_aTempURL.clear(); } CleanCacheStream(); } void OWriteStream_Impl::CleanCacheStream() { if ( m_xCacheStream.is() ) { try { uno::Reference< io::XInputStream > xInputCache = m_xCacheStream->getInputStream(); if ( xInputCache.is() ) xInputCache->closeInput(); } catch( const uno::Exception& ) {} try { uno::Reference< io::XOutputStream > xOutputCache = m_xCacheStream->getOutputStream(); if ( xOutputCache.is() ) xOutputCache->closeOutput(); } catch( const uno::Exception& ) {} m_xCacheStream.clear(); m_xCacheSeek.clear(); } } void OWriteStream_Impl::InsertIntoPackageFolder( const OUString& aName, const uno::Reference< container::XNameContainer >& xParentPackageFolder ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ); SAL_WARN_IF( !m_bFlushed, "package.xstor", "This method must not be called for nonflushed streams!" ); if ( m_bFlushed ) { SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "An inserted stream is incomplete!" ); uno::Reference< lang::XUnoTunnel > xTunnel( m_xPackageStream, uno::UNO_QUERY_THROW ); xParentPackageFolder->insertByName( aName, uno::makeAny( xTunnel ) ); m_bFlushed = false; m_bHasInsertedStreamOptimization = false; } } bool OWriteStream_Impl::IsEncrypted() { if ( m_nStorageType != embed::StorageFormats::PACKAGE ) return false; if ( m_bForceEncrypted || m_bHasCachedEncryptionData ) return true; if ( !m_aTempURL.isEmpty() || m_xCacheStream.is() ) return false; GetStreamProperties(); // the following value can not be cached since it can change after root commit bool bWasEncr = false; uno::Reference< beans::XPropertySet > xPropSet( m_xPackageStream, uno::UNO_QUERY ); if ( xPropSet.is() ) { uno::Any aValue = xPropSet->getPropertyValue("WasEncrypted"); if ( !( aValue >>= bWasEncr ) ) { SAL_WARN( "package.xstor", "The property WasEncrypted has wrong type!" ); } } bool bToBeEncr = false; for ( sal_Int32 nInd = 0; nInd < m_aProps.getLength(); nInd++ ) { if ( m_aProps[nInd].Name == "Encrypted" ) { if ( !( m_aProps[nInd].Value >>= bToBeEncr ) ) { SAL_WARN( "package.xstor", "The property has wrong type!" ); } } } // since a new key set to the package stream it should not be removed except the case when // the stream becomes nonencrypted uno::Sequence< beans::NamedValue > aKey; if ( bToBeEncr ) GetEncryptionKeyProperty_Impl( xPropSet ) >>= aKey; // If the properties must be investigated the stream is either // was never changed or was changed, the parent was committed // and the stream was closed. // That means that if it is intended to use common storage key // it is already has no encryption but is marked to be stored // encrypted and the key is empty. if ( !bWasEncr && bToBeEncr && !aKey.getLength() ) { // the stream is intended to use common storage password m_bUseCommonEncryption = true; return false; } else return bToBeEncr; } void OWriteStream_Impl::SetDecrypted() { SAL_WARN_IF( m_nStorageType != embed::StorageFormats::PACKAGE, "package.xstor", "The encryption is supported only for package storages!" ); if ( m_nStorageType != embed::StorageFormats::PACKAGE ) throw uno::RuntimeException(); GetStreamProperties(); // let the stream be modified FillTempGetFileName(); m_bHasDataToFlush = true; // remove encryption m_bForceEncrypted = false; m_bHasCachedEncryptionData = false; m_aEncryptionData.clear(); for ( sal_Int32 nInd = 0; nInd < m_aProps.getLength(); nInd++ ) { if ( m_aProps[nInd].Name == "Encrypted" ) m_aProps[nInd].Value <<= false; } } void OWriteStream_Impl::SetEncrypted( const ::comphelper::SequenceAsHashMap& aEncryptionData ) { SAL_WARN_IF( m_nStorageType != embed::StorageFormats::PACKAGE, "package.xstor", "The encryption is supported only for package storages!" ); if ( m_nStorageType != embed::StorageFormats::PACKAGE ) throw uno::RuntimeException(); if ( aEncryptionData.empty() ) throw uno::RuntimeException(); GetStreamProperties(); // let the stream be modified FillTempGetFileName(); m_bHasDataToFlush = true; // introduce encryption info for ( sal_Int32 nInd = 0; nInd < m_aProps.getLength(); nInd++ ) { if ( m_aProps[nInd].Name == "Encrypted" ) m_aProps[nInd].Value <<= true; } m_bUseCommonEncryption = false; // very important to set it to false m_bHasCachedEncryptionData = true; m_aEncryptionData = aEncryptionData; } void OWriteStream_Impl::DisposeWrappers() { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ); if ( m_pAntiImpl ) { try { m_pAntiImpl->dispose(); } catch ( const uno::RuntimeException& rRuntimeException ) { SAL_INFO("package.xstor", "Quiet exception: " << rRuntimeException); } m_pAntiImpl = nullptr; } m_pParent = nullptr; if ( !m_aInputStreamsVector.empty() ) { for ( auto& pStream : m_aInputStreamsVector ) { if ( pStream ) { pStream->InternalDispose(); pStream = nullptr; } } m_aInputStreamsVector.clear(); } } OUString const & OWriteStream_Impl::GetFilledTempFileIfNo( const uno::Reference< io::XInputStream >& xStream ) { if ( !m_aTempURL.getLength() ) { OUString aTempURL = GetNewTempFileURL( m_xContext ); try { if ( !aTempURL.isEmpty() && xStream.is() ) { uno::Reference < ucb::XSimpleFileAccess3 > xTempAccess( ucb::SimpleFileAccess::create( ::comphelper::getProcessComponentContext() ) ); uno::Reference< io::XOutputStream > xTempOutStream = xTempAccess->openFileWrite( aTempURL ); if ( !xTempOutStream.is() ) throw io::IOException(); // TODO: // the current position of the original stream should be still OK, copy further ::comphelper::OStorageHelper::CopyInputToOutput( xStream, xTempOutStream ); xTempOutStream->closeOutput(); xTempOutStream.clear(); } } catch( const packages::WrongPasswordException& rWrongPasswordException ) { SAL_INFO("package.xstor", "Rethrow: " << rWrongPasswordException); KillFile( aTempURL, comphelper::getProcessComponentContext() ); throw; } catch( const uno::Exception& rException ) { SAL_INFO("package.xstor", "Rethrow: " << rException); KillFile( aTempURL, comphelper::getProcessComponentContext() ); throw; } if ( !aTempURL.isEmpty() ) CleanCacheStream(); m_aTempURL = aTempURL; } return m_aTempURL; } OUString const & OWriteStream_Impl::FillTempGetFileName() { // should try to create cache first, if the amount of contents is too big, the temp file should be taken if ( !m_xCacheStream.is() && m_aTempURL.isEmpty() ) { uno::Reference< io::XInputStream > xOrigStream = m_xPackageStream->getDataStream(); if ( !xOrigStream.is() ) { // in case of new inserted package stream it is possible that input stream still was not set uno::Reference< io::XStream > xCacheStream = CreateMemoryStream( m_xContext ); SAL_WARN_IF( !xCacheStream.is(), "package.xstor", "If the stream can not be created an exception must be thrown!" ); m_xCacheSeek.set( xCacheStream, uno::UNO_QUERY_THROW ); m_xCacheStream = xCacheStream; } else { sal_Int32 nRead = 0; uno::Sequence< sal_Int8 > aData( MAX_STORCACHE_SIZE + 1 ); nRead = xOrigStream->readBytes( aData, MAX_STORCACHE_SIZE + 1 ); if ( aData.getLength() > nRead ) aData.realloc( nRead ); if ( nRead <= MAX_STORCACHE_SIZE ) { uno::Reference< io::XStream > xCacheStream = CreateMemoryStream( m_xContext ); SAL_WARN_IF( !xCacheStream.is(), "package.xstor", "If the stream can not be created an exception must be thrown!" ); if ( nRead ) { uno::Reference< io::XOutputStream > xOutStream( xCacheStream->getOutputStream(), uno::UNO_SET_THROW ); xOutStream->writeBytes( aData ); } m_xCacheSeek.set( xCacheStream, uno::UNO_QUERY_THROW ); m_xCacheStream = xCacheStream; m_xCacheSeek->seek( 0 ); } else if ( m_aTempURL.isEmpty() ) { m_aTempURL = GetNewTempFileURL( m_xContext ); try { if ( !m_aTempURL.isEmpty() ) { uno::Reference < ucb::XSimpleFileAccess3 > xTempAccess( ucb::SimpleFileAccess::create( ::comphelper::getProcessComponentContext() ) ); uno::Reference< io::XOutputStream > xTempOutStream = xTempAccess->openFileWrite( m_aTempURL ); if ( !xTempOutStream.is() ) throw io::IOException(); // TODO: // copy stream contents to the file xTempOutStream->writeBytes( aData ); // the current position of the original stream should be still OK, copy further ::comphelper::OStorageHelper::CopyInputToOutput( xOrigStream, xTempOutStream ); xTempOutStream->closeOutput(); xTempOutStream.clear(); } } catch( const packages::WrongPasswordException& ) { KillFile( m_aTempURL, comphelper::getProcessComponentContext() ); m_aTempURL.clear(); throw; } catch( const uno::Exception& ) { KillFile( m_aTempURL, comphelper::getProcessComponentContext() ); m_aTempURL.clear(); } } } } return m_aTempURL; } uno::Reference< io::XStream > OWriteStream_Impl::GetTempFileAsStream() { uno::Reference< io::XStream > xTempStream; if ( !m_xCacheStream.is() ) { if ( m_aTempURL.isEmpty() ) m_aTempURL = FillTempGetFileName(); if ( !m_aTempURL.isEmpty() ) { // the temporary file is not used if the cache is used uno::Reference < ucb::XSimpleFileAccess3 > xTempAccess( ucb::SimpleFileAccess::create( ::comphelper::getProcessComponentContext() ) ); try { xTempStream = xTempAccess->openFileReadWrite( m_aTempURL ); } catch( const uno::Exception& rException ) { SAL_INFO("package.xstor", "Quiet exception: " << rException); } } } if ( m_xCacheStream.is() ) xTempStream = m_xCacheStream; // the method must always return a stream // in case the stream can not be open // an exception should be thrown if ( !xTempStream.is() ) throw io::IOException(); //TODO: return xTempStream; } uno::Reference< io::XInputStream > OWriteStream_Impl::GetTempFileAsInputStream() { uno::Reference< io::XInputStream > xInputStream; if ( !m_xCacheStream.is() ) { if ( m_aTempURL.isEmpty() ) m_aTempURL = FillTempGetFileName(); if ( !m_aTempURL.isEmpty() ) { // the temporary file is not used if the cache is used uno::Reference < ucb::XSimpleFileAccess3 > xTempAccess( ucb::SimpleFileAccess::create( ::comphelper::getProcessComponentContext() ) ); try { xInputStream = xTempAccess->openFileRead( m_aTempURL ); } catch( const uno::Exception& rException ) { SAL_INFO("package.xstor", "Quiet exception: " << rException); } } } if ( m_xCacheStream.is() ) xInputStream = m_xCacheStream->getInputStream(); // the method must always return a stream // in case the stream can not be open // an exception should be thrown if ( !xInputStream.is() ) throw io::IOException(); // TODO: return xInputStream; } void OWriteStream_Impl::InsertStreamDirectly( const uno::Reference< io::XInputStream >& xInStream, const uno::Sequence< beans::PropertyValue >& aProps ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; // this call can be made only during parent storage commit // the parent storage is responsible for the correct handling // of deleted and renamed contents SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "No package stream is set!" ); if ( m_bHasDataToFlush ) throw io::IOException(); OSL_ENSURE( m_aTempURL.isEmpty() && !m_xCacheStream.is(), "The temporary must not exist!" ); // use new file as current persistent representation // the new file will be removed after it's stream is closed m_xPackageStream->setDataStream( xInStream ); // copy properties to the package stream uno::Reference< beans::XPropertySet > xPropertySet( m_xPackageStream, uno::UNO_QUERY_THROW ); // The storage-package communication has a problem // the storage caches properties, thus if the package changes one of them itself // the storage does not know about it // Depending from MediaType value the package can change the compressed property itself // Thus if Compressed property is provided it must be set as the latest one bool bCompressedIsSet = false; bool bCompressed = false; OUString aComprPropName( "Compressed" ); OUString aMedTypePropName( "MediaType" ); for ( sal_Int32 nInd = 0; nInd < aProps.getLength(); nInd++ ) { if ( aProps[nInd].Name == aComprPropName ) { bCompressedIsSet = true; aProps[nInd].Value >>= bCompressed; } else if ( ( m_nStorageType == embed::StorageFormats::OFOPXML || m_nStorageType == embed::StorageFormats::PACKAGE ) && aProps[nInd].Name == aMedTypePropName ) { xPropertySet->setPropertyValue( aProps[nInd].Name, aProps[nInd].Value ); } else if ( m_nStorageType == embed::StorageFormats::PACKAGE && aProps[nInd].Name == "UseCommonStoragePasswordEncryption" ) aProps[nInd].Value >>= m_bUseCommonEncryption; else throw lang::IllegalArgumentException(); // if there are cached properties update them if ( aProps[nInd].Name == aMedTypePropName || aProps[nInd].Name == aComprPropName ) for ( sal_Int32 nMemInd = 0; nMemInd < m_aProps.getLength(); nMemInd++ ) { if ( aProps[nInd].Name == m_aProps[nMemInd].Name ) m_aProps[nMemInd].Value = aProps[nInd].Value; } } if ( bCompressedIsSet ) { xPropertySet->setPropertyValue( aComprPropName, uno::makeAny( bCompressed ) ); m_bCompressedSetExplicit = true; } if ( m_bUseCommonEncryption ) { if ( m_nStorageType != embed::StorageFormats::PACKAGE ) throw uno::RuntimeException(); // set to be encrypted but do not use encryption key xPropertySet->setPropertyValue( STORAGE_ENCRYPTION_KEYS_PROPERTY, uno::makeAny( uno::Sequence< beans::NamedValue >() ) ); xPropertySet->setPropertyValue( "Encrypted", uno::makeAny( true ) ); } // the stream should be free soon, after package is stored m_bHasDataToFlush = false; m_bFlushed = true; // will allow to use transaction on stream level if will need it m_bHasInsertedStreamOptimization = true; } void OWriteStream_Impl::Commit() { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "No package stream is set!" ); if ( !m_bHasDataToFlush ) return; uno::Reference< packages::XDataSinkEncrSupport > xNewPackageStream; uno::Sequence< uno::Any > aSeq( 1 ); aSeq[0] <<= false; if ( m_xCacheStream.is() ) { if ( m_pAntiImpl ) m_pAntiImpl->DeInit(); uno::Reference< io::XInputStream > xInStream( m_xCacheStream->getInputStream(), uno::UNO_SET_THROW ); xNewPackageStream.set( m_xPackage->createInstanceWithArguments( aSeq ), uno::UNO_QUERY_THROW ); xNewPackageStream->setDataStream( xInStream ); m_xCacheStream.clear(); m_xCacheSeek.clear(); } else if ( !m_aTempURL.isEmpty() ) { if ( m_pAntiImpl ) m_pAntiImpl->DeInit(); uno::Reference< io::XInputStream > xInStream; try { xInStream = new OSelfTerminateFileStream(m_xContext, m_aTempURL); } catch( const uno::Exception& ) { } if ( !xInStream.is() ) throw io::IOException(); xNewPackageStream.set( m_xPackage->createInstanceWithArguments( aSeq ), uno::UNO_QUERY_THROW ); // TODO/NEW: Let the temporary file be removed after commit xNewPackageStream->setDataStream( xInStream ); m_aTempURL.clear(); } else // if ( m_bHasInsertedStreamOptimization ) { // if the optimization is used the stream can be accessed directly xNewPackageStream = m_xPackageStream; } // copy properties to the package stream uno::Reference< beans::XPropertySet > xPropertySet( xNewPackageStream, uno::UNO_QUERY_THROW ); for ( sal_Int32 nInd = 0; nInd < m_aProps.getLength(); nInd++ ) { if ( m_aProps[nInd].Name == "Size" ) { if ( m_pAntiImpl && !m_bHasInsertedStreamOptimization && m_pAntiImpl->m_xSeekable.is() ) { m_aProps[nInd].Value <<= m_pAntiImpl->m_xSeekable->getLength(); xPropertySet->setPropertyValue( m_aProps[nInd].Name, m_aProps[nInd].Value ); } } else xPropertySet->setPropertyValue( m_aProps[nInd].Name, m_aProps[nInd].Value ); } if ( m_bUseCommonEncryption ) { if ( m_nStorageType != embed::StorageFormats::PACKAGE ) throw uno::RuntimeException(); // set to be encrypted but do not use encryption key xPropertySet->setPropertyValue( STORAGE_ENCRYPTION_KEYS_PROPERTY, uno::makeAny( uno::Sequence< beans::NamedValue >() ) ); xPropertySet->setPropertyValue( "Encrypted", uno::makeAny( true ) ); } else if ( m_bHasCachedEncryptionData ) { if ( m_nStorageType != embed::StorageFormats::PACKAGE ) throw uno::RuntimeException(); xPropertySet->setPropertyValue( STORAGE_ENCRYPTION_KEYS_PROPERTY, uno::makeAny( m_aEncryptionData.getAsConstNamedValueList() ) ); } // the stream should be free soon, after package is stored m_xPackageStream = xNewPackageStream; m_bHasDataToFlush = false; m_bFlushed = true; // will allow to use transaction on stream level if will need it } void OWriteStream_Impl::Revert() { // can be called only from parent storage // means complete reload of the stream ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; if ( !m_bHasDataToFlush ) return; // nothing to do OSL_ENSURE( !m_aTempURL.isEmpty() || m_xCacheStream.is(), "The temporary must exist!" ); if ( m_xCacheStream.is() ) { m_xCacheStream.clear(); m_xCacheSeek.clear(); } if ( !m_aTempURL.isEmpty() ) { KillFile( m_aTempURL, comphelper::getProcessComponentContext() ); m_aTempURL.clear(); } m_aProps.realloc( 0 ); m_bHasDataToFlush = false; m_bUseCommonEncryption = true; m_bHasCachedEncryptionData = false; m_aEncryptionData.clear(); if ( m_nStorageType == embed::StorageFormats::OFOPXML ) { // currently the relations storage is changed only on commit m_xNewRelInfoStream.clear(); m_aNewRelInfo = uno::Sequence< uno::Sequence< beans::StringPair > >(); if ( m_xOrigRelInfoStream.is() ) { // the original stream is still here, that means that it was not parsed m_aOrigRelInfo = uno::Sequence< uno::Sequence< beans::StringPair > >(); m_nRelInfoStatus = RELINFO_NO_INIT; } else { // the original stream was already parsed if ( !m_bOrigRelInfoBroken ) m_nRelInfoStatus = RELINFO_READ; else m_nRelInfoStatus = RELINFO_BROKEN; } } } uno::Sequence< beans::PropertyValue > const & OWriteStream_Impl::GetStreamProperties() { if ( !m_aProps.getLength() ) m_aProps = ReadPackageStreamProperties(); return m_aProps; } uno::Sequence< beans::PropertyValue > OWriteStream_Impl::InsertOwnProps( const uno::Sequence< beans::PropertyValue >& aProps, bool bUseCommonEncryption ) { uno::Sequence< beans::PropertyValue > aResult( aProps ); sal_Int32 nLen = aResult.getLength(); if ( m_nStorageType == embed::StorageFormats::PACKAGE ) { for ( sal_Int32 nInd = 0; nInd < nLen; nInd++ ) if ( aResult[nInd].Name == "UseCommonStoragePasswordEncryption" ) { aResult[nInd].Value <<= bUseCommonEncryption; return aResult; } aResult.realloc( ++nLen ); aResult[nLen - 1].Name = "UseCommonStoragePasswordEncryption"; aResult[nLen - 1].Value <<= bUseCommonEncryption; } else if ( m_nStorageType == embed::StorageFormats::OFOPXML ) { ReadRelInfoIfNecessary(); uno::Any aValue; if ( m_nRelInfoStatus == RELINFO_READ ) aValue <<= m_aOrigRelInfo; else if ( m_nRelInfoStatus == RELINFO_CHANGED_STREAM_READ || m_nRelInfoStatus == RELINFO_CHANGED ) aValue <<= m_aNewRelInfo; else // m_nRelInfoStatus == RELINFO_CHANGED_BROKEN || m_nRelInfoStatus == RELINFO_BROKEN throw io::IOException( "Wrong relinfo stream!" ); for ( sal_Int32 nInd = 0; nInd < nLen; nInd++ ) if ( aResult[nInd].Name == "RelationsInfo" ) { aResult[nInd].Value = aValue; return aResult; } aResult.realloc( ++nLen ); aResult[nLen - 1].Name = "RelationsInfo"; aResult[nLen - 1].Value = aValue; } return aResult; } bool OWriteStream_Impl::IsTransacted() { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; return ( m_pAntiImpl && m_pAntiImpl->m_bTransacted ); } void OWriteStream_Impl::ReadRelInfoIfNecessary() { if ( m_nStorageType != embed::StorageFormats::OFOPXML ) return; if ( m_nRelInfoStatus == RELINFO_NO_INIT ) { try { // Init from original stream if ( m_xOrigRelInfoStream.is() ) m_aOrigRelInfo = ::comphelper::OFOPXMLHelper::ReadRelationsInfoSequence( m_xOrigRelInfoStream, "_rels/*.rels", m_xContext ); // in case of success the stream must be thrown away, that means that the OrigRelInfo is initialized // the reason for this is that the original stream might not be seekable ( at the same time the new // provided stream must be seekable ), so it must be read only once m_xOrigRelInfoStream.clear(); m_nRelInfoStatus = RELINFO_READ; } catch( const uno::Exception& rException ) { SAL_INFO("package.xstor", "Quiet exception: " << rException); m_nRelInfoStatus = RELINFO_BROKEN; m_bOrigRelInfoBroken = true; } } else if ( m_nRelInfoStatus == RELINFO_CHANGED_STREAM ) { // Init from the new stream try { if ( m_xNewRelInfoStream.is() ) m_aNewRelInfo = ::comphelper::OFOPXMLHelper::ReadRelationsInfoSequence( m_xNewRelInfoStream, "_rels/*.rels", m_xContext ); m_nRelInfoStatus = RELINFO_CHANGED_STREAM_READ; } catch( const uno::Exception& ) { m_nRelInfoStatus = RELINFO_CHANGED_BROKEN; } } } uno::Sequence< beans::PropertyValue > OWriteStream_Impl::ReadPackageStreamProperties() { sal_Int32 nPropNum = 0; if ( m_nStorageType == embed::StorageFormats::ZIP ) nPropNum = 2; else if ( m_nStorageType == embed::StorageFormats::OFOPXML ) nPropNum = 3; else if ( m_nStorageType == embed::StorageFormats::PACKAGE ) nPropNum = 4; uno::Sequence< beans::PropertyValue > aResult( nPropNum ); // The "Compressed" property must be set after "MediaType" property, // since the setting of the last one can change the value of the first one if ( m_nStorageType == embed::StorageFormats::OFOPXML || m_nStorageType == embed::StorageFormats::PACKAGE ) { aResult[0].Name = "MediaType"; aResult[1].Name = "Compressed"; aResult[2].Name = "Size"; if ( m_nStorageType == embed::StorageFormats::PACKAGE ) aResult[3].Name = "Encrypted"; } else { aResult[0].Name = "Compressed"; aResult[1].Name = "Size"; } // TODO: may be also raw stream should be marked uno::Reference< beans::XPropertySet > xPropSet( m_xPackageStream, uno::UNO_QUERY_THROW ); for ( sal_Int32 nInd = 0; nInd < aResult.getLength(); nInd++ ) { try { aResult[nInd].Value = xPropSet->getPropertyValue( aResult[nInd].Name ); } catch( const uno::Exception& rException ) { SAL_INFO("package.xstor", "Quiet exception: " << rException); SAL_WARN( "package.xstor", "A property can't be retrieved!" ); } } return aResult; } void OWriteStream_Impl::CopyInternallyTo_Impl( const uno::Reference< io::XStream >& xDestStream, const ::comphelper::SequenceAsHashMap& aEncryptionData ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; SAL_WARN_IF( m_bUseCommonEncryption, "package.xstor", "The stream can not be encrypted!" ); if ( m_nStorageType != embed::StorageFormats::PACKAGE ) throw packages::NoEncryptionException(); if ( m_pAntiImpl ) { m_pAntiImpl->CopyToStreamInternally_Impl( xDestStream ); } else { uno::Reference< io::XStream > xOwnStream = GetStream( embed::ElementModes::READ, aEncryptionData, false ); if ( !xOwnStream.is() ) throw io::IOException(); // TODO OStorage_Impl::completeStorageStreamCopy_Impl( xOwnStream, xDestStream, m_nStorageType, GetAllRelationshipsIfAny() ); } uno::Reference< embed::XEncryptionProtectedSource2 > xEncr( xDestStream, uno::UNO_QUERY ); if ( xEncr.is() ) xEncr->setEncryptionData( aEncryptionData.getAsConstNamedValueList() ); } uno::Sequence< uno::Sequence< beans::StringPair > > OWriteStream_Impl::GetAllRelationshipsIfAny() { if ( m_nStorageType != embed::StorageFormats::OFOPXML ) return uno::Sequence< uno::Sequence< beans::StringPair > >(); ReadRelInfoIfNecessary(); if ( m_nRelInfoStatus == RELINFO_READ ) return m_aOrigRelInfo; else if ( m_nRelInfoStatus == RELINFO_CHANGED_STREAM_READ || m_nRelInfoStatus == RELINFO_CHANGED ) return m_aNewRelInfo; else // m_nRelInfoStatus == RELINFO_CHANGED_BROKEN || m_nRelInfoStatus == RELINFO_BROKEN throw io::IOException( "Wrong relinfo stream!" ); } void OWriteStream_Impl::CopyInternallyTo_Impl( const uno::Reference< io::XStream >& xDestStream ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; if ( m_pAntiImpl ) { m_pAntiImpl->CopyToStreamInternally_Impl( xDestStream ); } else { uno::Reference< io::XStream > xOwnStream = GetStream( embed::ElementModes::READ, false ); if ( !xOwnStream.is() ) throw io::IOException(); // TODO OStorage_Impl::completeStorageStreamCopy_Impl( xOwnStream, xDestStream, m_nStorageType, GetAllRelationshipsIfAny() ); } } uno::Reference< io::XStream > OWriteStream_Impl::GetStream( sal_Int32 nStreamMode, const ::comphelper::SequenceAsHashMap& aEncryptionData, bool bHierarchyAccess ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "No package stream is set!" ); if ( m_pAntiImpl ) throw io::IOException(); // TODO: if ( !IsEncrypted() ) throw packages::NoEncryptionException(); uno::Reference< io::XStream > xResultStream; uno::Reference< beans::XPropertySet > xPropertySet( m_xPackageStream, uno::UNO_QUERY_THROW ); if ( m_bHasCachedEncryptionData ) { if ( !::package::PackageEncryptionDatasEqual( m_aEncryptionData, aEncryptionData ) ) throw packages::WrongPasswordException(); // the correct key must be set already xResultStream = GetStream_Impl( nStreamMode, bHierarchyAccess ); } else { SetEncryptionKeyProperty_Impl( xPropertySet, aEncryptionData.getAsConstNamedValueList() ); try { xResultStream = GetStream_Impl( nStreamMode, bHierarchyAccess ); m_bUseCommonEncryption = false; // very important to set it to false m_bHasCachedEncryptionData = true; m_aEncryptionData = aEncryptionData; } catch( const packages::WrongPasswordException& rWrongPasswordException ) { SetEncryptionKeyProperty_Impl( xPropertySet, uno::Sequence< beans::NamedValue >() ); SAL_INFO("package.xstor", "Rethrow: " << rWrongPasswordException); throw; } catch ( const uno::Exception& rException ) { SAL_INFO("package.xstor", "Quiet exception: " << rException); SAL_WARN( "package.xstor", "Can't write encryption related properties!" ); SetEncryptionKeyProperty_Impl( xPropertySet, uno::Sequence< beans::NamedValue >() ); throw io::IOException(); // TODO: } } SAL_WARN_IF( !xResultStream.is(), "package.xstor", "In case stream can not be retrieved an exception must be thrown!" ); return xResultStream; } uno::Reference< io::XStream > OWriteStream_Impl::GetStream( sal_Int32 nStreamMode, bool bHierarchyAccess ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "No package stream is set!" ); if ( m_pAntiImpl ) throw io::IOException(); // TODO: uno::Reference< io::XStream > xResultStream; if ( IsEncrypted() ) { ::comphelper::SequenceAsHashMap aGlobalEncryptionData; try { aGlobalEncryptionData = GetCommonRootEncryptionData(); } catch( const packages::NoEncryptionException& rNoEncryptionException ) { SAL_INFO("package.xstor", "Rethrow: " << rNoEncryptionException); throw packages::WrongPasswordException(); } xResultStream = GetStream( nStreamMode, aGlobalEncryptionData, bHierarchyAccess ); } else xResultStream = GetStream_Impl( nStreamMode, bHierarchyAccess ); return xResultStream; } uno::Reference< io::XStream > OWriteStream_Impl::GetStream_Impl( sal_Int32 nStreamMode, bool bHierarchyAccess ) { // private method, no mutex is used GetStreamProperties(); // TODO/LATER: this info might be read later, on demand in future ReadRelInfoIfNecessary(); if ( ( nStreamMode & embed::ElementModes::READWRITE ) == embed::ElementModes::READ ) { uno::Reference< io::XInputStream > xInStream; if ( m_xCacheStream.is() || !m_aTempURL.isEmpty() ) xInStream = GetTempFileAsInputStream(); //TODO: else xInStream = m_xPackageStream->getDataStream(); // The stream does not exist in the storage if ( !xInStream.is() ) throw io::IOException(); OInputCompStream* pStream = new OInputCompStream( *this, xInStream, InsertOwnProps( m_aProps, m_bUseCommonEncryption ), m_nStorageType ); uno::Reference< io::XStream > xCompStream( static_cast< ::cppu::OWeakObject* >( pStream ), uno::UNO_QUERY ); SAL_WARN_IF( !xCompStream.is(), "package.xstor", "OInputCompStream MUST provide XStream interfaces!" ); m_aInputStreamsVector.push_back( pStream ); return xCompStream; } else if ( ( nStreamMode & embed::ElementModes::READWRITE ) == embed::ElementModes::SEEKABLEREAD ) { if ( !m_xCacheStream.is() && m_aTempURL.isEmpty() && !( m_xPackageStream->getDataStream().is() ) ) { // The stream does not exist in the storage throw io::IOException(); } uno::Reference< io::XInputStream > xInStream; xInStream = GetTempFileAsInputStream(); //TODO: if ( !xInStream.is() ) throw io::IOException(); OInputSeekStream* pStream = new OInputSeekStream( *this, xInStream, InsertOwnProps( m_aProps, m_bUseCommonEncryption ), m_nStorageType ); uno::Reference< io::XStream > xSeekStream( static_cast< ::cppu::OWeakObject* >( pStream ), uno::UNO_QUERY ); SAL_WARN_IF( !xSeekStream.is(), "package.xstor", "OInputSeekStream MUST provide XStream interfaces!" ); m_aInputStreamsVector.push_back( pStream ); return xSeekStream; } else if ( ( nStreamMode & embed::ElementModes::WRITE ) == embed::ElementModes::WRITE ) { if ( !m_aInputStreamsVector.empty() ) throw io::IOException(); // TODO: uno::Reference< io::XStream > xStream; if ( ( nStreamMode & embed::ElementModes::TRUNCATE ) == embed::ElementModes::TRUNCATE ) { if ( !m_aTempURL.isEmpty() ) { KillFile( m_aTempURL, comphelper::getProcessComponentContext() ); m_aTempURL.clear(); } if ( m_xCacheStream.is() ) CleanCacheStream(); m_bHasDataToFlush = true; // this call is triggered by the parent and it will recognize the change of the state if ( m_pParent ) m_pParent->m_bIsModified = true; xStream = CreateMemoryStream( m_xContext ); m_xCacheSeek.set( xStream, uno::UNO_QUERY_THROW ); m_xCacheStream = xStream; } else if ( !m_bHasInsertedStreamOptimization ) { if ( m_aTempURL.isEmpty() && !m_xCacheStream.is() && !( m_xPackageStream->getDataStream().is() ) ) { // The stream does not exist in the storage m_bHasDataToFlush = true; // this call is triggered by the parent and it will recognize the change of the state if ( m_pParent ) m_pParent->m_bIsModified = true; xStream = GetTempFileAsStream(); } // if the stream exists the temporary file is created on demand // xStream = GetTempFileAsStream(); } if ( !xStream.is() ) m_pAntiImpl = new OWriteStream( this, bHierarchyAccess ); else m_pAntiImpl = new OWriteStream( this, xStream, bHierarchyAccess ); uno::Reference< io::XStream > xWriteStream = uno::Reference< io::XStream >( static_cast< ::cppu::OWeakObject* >( m_pAntiImpl ), uno::UNO_QUERY ); SAL_WARN_IF( !xWriteStream.is(), "package.xstor", "OWriteStream MUST implement XStream && XComponent interfaces!" ); return xWriteStream; } throw lang::IllegalArgumentException(); // TODO } uno::Reference< io::XInputStream > OWriteStream_Impl::GetPlainRawInStream() { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "No package stream is set!" ); // this method is used only internally, this stream object should not go outside of this implementation // if ( m_pAntiImpl ) // throw io::IOException(); // TODO: return m_xPackageStream->getPlainRawStream(); } uno::Reference< io::XInputStream > OWriteStream_Impl::GetRawInStream() { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "No package stream is set!" ); if ( m_pAntiImpl ) throw io::IOException(); // TODO: SAL_WARN_IF( !IsEncrypted(), "package.xstor", "Impossible to get raw representation for nonencrypted stream!" ); if ( !IsEncrypted() ) throw packages::NoEncryptionException(); return m_xPackageStream->getRawStream(); } ::comphelper::SequenceAsHashMap OWriteStream_Impl::GetCommonRootEncryptionData() { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ) ; if ( m_nStorageType != embed::StorageFormats::PACKAGE || !m_pParent ) throw packages::NoEncryptionException(); return m_pParent->GetCommonRootEncryptionData(); } void OWriteStream_Impl::InputStreamDisposed( OInputCompStream* pStream ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ); m_aInputStreamsVector.erase(std::remove(m_aInputStreamsVector.begin(), m_aInputStreamsVector.end(), pStream )); } void OWriteStream_Impl::CreateReadonlyCopyBasedOnData( const uno::Reference< io::XInputStream >& xDataToCopy, const uno::Sequence< beans::PropertyValue >& aProps, uno::Reference< io::XStream >& xTargetStream ) { uno::Reference < io::XStream > xTempFile; if ( !xTargetStream.is() ) xTempFile.set( io::TempFile::create(m_xContext), uno::UNO_QUERY ); else xTempFile = xTargetStream; uno::Reference < io::XSeekable > xTempSeek( xTempFile, uno::UNO_QUERY_THROW ); uno::Reference < io::XOutputStream > xTempOut = xTempFile->getOutputStream(); if ( !xTempOut.is() ) throw uno::RuntimeException(); if ( xDataToCopy.is() ) ::comphelper::OStorageHelper::CopyInputToOutput( xDataToCopy, xTempOut ); xTempOut->closeOutput(); xTempSeek->seek( 0 ); uno::Reference< io::XInputStream > xInStream = xTempFile->getInputStream(); if ( !xInStream.is() ) throw io::IOException(); // TODO: remember last state of m_bUseCommonEncryption if ( !xTargetStream.is() ) xTargetStream.set( static_cast< ::cppu::OWeakObject* >( new OInputSeekStream( xInStream, InsertOwnProps( aProps, m_bUseCommonEncryption ), m_nStorageType ) ), uno::UNO_QUERY_THROW ); } void OWriteStream_Impl::GetCopyOfLastCommit( uno::Reference< io::XStream >& xTargetStream ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ); SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "The source stream for copying is incomplete!" ); if ( !m_xPackageStream.is() ) throw uno::RuntimeException(); uno::Reference< io::XInputStream > xDataToCopy; if ( IsEncrypted() ) { // an encrypted stream must contain input stream ::comphelper::SequenceAsHashMap aGlobalEncryptionData; try { aGlobalEncryptionData = GetCommonRootEncryptionData(); } catch( const packages::NoEncryptionException& rNoEncryptionException ) { SAL_INFO("package.xstor", "No Element: " << rNoEncryptionException); throw packages::WrongPasswordException(); } GetCopyOfLastCommit( xTargetStream, aGlobalEncryptionData ); } else { xDataToCopy = m_xPackageStream->getDataStream(); // in case of new inserted package stream it is possible that input stream still was not set GetStreamProperties(); CreateReadonlyCopyBasedOnData( xDataToCopy, m_aProps, xTargetStream ); } } void OWriteStream_Impl::GetCopyOfLastCommit( uno::Reference< io::XStream >& xTargetStream, const ::comphelper::SequenceAsHashMap& aEncryptionData ) { ::osl::MutexGuard aGuard( m_xMutex->GetMutex() ); SAL_WARN_IF( !m_xPackageStream.is(), "package.xstor", "The source stream for copying is incomplete!" ); if ( !m_xPackageStream.is() ) throw uno::RuntimeException(); if ( !IsEncrypted() ) throw packages::NoEncryptionException(); uno::Reference< io::XInputStream > xDataToCopy; if ( m_bHasCachedEncryptionData ) { // TODO: introduce last committed cashed password information and use it here // that means "use common pass" also should be remembered on flash uno::Sequence< beans::NamedValue > aKey = aEncryptionData.getAsConstNamedValueList(); uno::Reference< beans::XPropertySet > xProps( m_xPackageStream, uno::UNO_QUERY_THROW ); bool bEncr = false; xProps->getPropertyValue( "Encrypted" ) >>= bEncr; if ( !bEncr ) throw packages::NoEncryptionException(); uno::Sequence< beans::NamedValue > aPackKey; xProps->getPropertyValue( STORAGE_ENCRYPTION_KEYS_PROPERTY ) >>= aPackKey; if ( !SequencesEqual( aKey, aPackKey ) ) throw packages::WrongPasswordException(); // the correct key must be set already xDataToCopy = m_xPackageStream->getDataStream(); } else { uno::Reference< beans::XPropertySet > xPropertySet( m_xPackageStream, uno::UNO_QUERY ); SetEncryptionKeyProperty_Impl( xPropertySet, aEncryptionData.getAsConstNamedValueList() ); try { xDataToCopy = m_xPackageStream->getDataStream(); if ( !xDataToCopy.is() ) { SAL_WARN( "package.xstor", "Encrypted ZipStream must already have input stream inside!" ); SetEncryptionKeyProperty_Impl( xPropertySet, uno::Sequence< beans::NamedValue >() ); } } catch( const uno::Exception& rException ) { SAL_WARN( "package.xstor", "Can't open encrypted stream!" ); SetEncryptionKeyProperty_Impl( xPropertySet, uno::Sequence< beans::NamedValue >() ); SAL_INFO("package.xstor", "Rethrow: " << rException); throw; } SetEncryptionKeyProperty_Impl( xPropertySet, uno::Sequence< beans::NamedValue >() ); } // in case of new inserted package stream it is possible that input stream still was not set GetStreamProperties(); CreateReadonlyCopyBasedOnData( xDataToCopy, m_aProps, xTargetStream ); } void OWriteStream_Impl::CommitStreamRelInfo( const uno::Reference< embed::XStorage >& xRelStorage, const OUString& aOrigStreamName, const OUString& aNewStreamName ) { // at this point of time the old stream must be already cleaned OSL_ENSURE( m_nStorageType == embed::StorageFormats::OFOPXML, "The method should be used only with OFOPXML format!" ); if ( m_nStorageType == embed::StorageFormats::OFOPXML ) { OSL_ENSURE( !aOrigStreamName.isEmpty() && !aNewStreamName.isEmpty() && xRelStorage.is(), "Wrong relation persistence information is provided!" ); if ( !xRelStorage.is() || aOrigStreamName.isEmpty() || aNewStreamName.isEmpty() ) throw uno::RuntimeException(); if ( m_nRelInfoStatus == RELINFO_BROKEN || m_nRelInfoStatus == RELINFO_CHANGED_BROKEN ) throw io::IOException(); // TODO: OUString aOrigRelStreamName = aOrigStreamName; aOrigRelStreamName += ".rels"; OUString aNewRelStreamName = aNewStreamName; aNewRelStreamName += ".rels"; bool bRenamed = aOrigRelStreamName != aNewRelStreamName; if ( m_nRelInfoStatus == RELINFO_CHANGED || m_nRelInfoStatus == RELINFO_CHANGED_STREAM_READ || m_nRelInfoStatus == RELINFO_CHANGED_STREAM ) { if ( bRenamed && xRelStorage->hasByName( aOrigRelStreamName ) ) xRelStorage->removeElement( aOrigRelStreamName ); if ( m_nRelInfoStatus == RELINFO_CHANGED ) { if ( m_aNewRelInfo.getLength() ) { uno::Reference< io::XStream > xRelsStream = xRelStorage->openStreamElement( aNewRelStreamName, embed::ElementModes::TRUNCATE | embed::ElementModes::READWRITE ); uno::Reference< io::XOutputStream > xOutStream = xRelsStream->getOutputStream(); if ( !xOutStream.is() ) throw uno::RuntimeException(); ::comphelper::OFOPXMLHelper::WriteRelationsInfoSequence( xOutStream, m_aNewRelInfo, m_xContext ); // set the mediatype uno::Reference< beans::XPropertySet > xPropSet( xRelsStream, uno::UNO_QUERY_THROW ); xPropSet->setPropertyValue( "MediaType", uno::makeAny( OUString("application/vnd.openxmlformats-package.relationships+xml" ) ) ); m_nRelInfoStatus = RELINFO_READ; } } else if ( m_nRelInfoStatus == RELINFO_CHANGED_STREAM_READ || m_nRelInfoStatus == RELINFO_CHANGED_STREAM ) { uno::Reference< io::XStream > xRelsStream = xRelStorage->openStreamElement( aNewRelStreamName, embed::ElementModes::TRUNCATE | embed::ElementModes::READWRITE ); uno::Reference< io::XOutputStream > xOutputStream = xRelsStream->getOutputStream(); if ( !xOutputStream.is() ) throw uno::RuntimeException(); uno::Reference< io::XSeekable > xSeek( m_xNewRelInfoStream, uno::UNO_QUERY_THROW ); xSeek->seek( 0 ); ::comphelper::OStorageHelper::CopyInputToOutput( m_xNewRelInfoStream, xOutputStream ); xSeek->seek( 0 ); // set the mediatype uno::Reference< beans::XPropertySet > xPropSet( xRelsStream, uno::UNO_QUERY_THROW ); xPropSet->setPropertyValue("MediaType", uno::makeAny( OUString("application/vnd.openxmlformats-package.relationships+xml" ) ) ); if ( m_nRelInfoStatus == RELINFO_CHANGED_STREAM ) m_nRelInfoStatus = RELINFO_NO_INIT; else { // the information is already parsed and the stream is stored, no need in temporary stream any more m_xNewRelInfoStream.clear(); m_nRelInfoStatus = RELINFO_READ; } } // the original stream makes no sense after this step m_xOrigRelInfoStream = m_xNewRelInfoStream; m_aOrigRelInfo = m_aNewRelInfo; m_bOrigRelInfoBroken = false; m_aNewRelInfo = uno::Sequence< uno::Sequence< beans::StringPair > >(); m_xNewRelInfoStream.clear(); } else { // the stream is not changed but it might be renamed if ( bRenamed && xRelStorage->hasByName( aOrigRelStreamName ) ) xRelStorage->renameElement( aOrigRelStreamName, aNewRelStreamName ); } } } // OWriteStream implementation OWriteStream::OWriteStream( OWriteStream_Impl* pImpl, bool bTransacted ) : m_pImpl( pImpl ) , m_bInStreamDisconnected( false ) , m_bInitOnDemand( true ) , m_nInitPosition( 0 ) , m_bTransacted( bTransacted ) { OSL_ENSURE( pImpl, "No base implementation!" ); OSL_ENSURE( m_pImpl->m_xMutex.is(), "No mutex!" ); if ( !m_pImpl || !m_pImpl->m_xMutex.is() ) throw uno::RuntimeException(); // just a disaster m_pData.reset(new WSInternalData_Impl(pImpl->m_xMutex, m_pImpl->m_nStorageType)); } OWriteStream::OWriteStream( OWriteStream_Impl* pImpl, uno::Reference< io::XStream > const & xStream, bool bTransacted ) : m_pImpl( pImpl ) , m_bInStreamDisconnected( false ) , m_bInitOnDemand( false ) , m_nInitPosition( 0 ) , m_bTransacted( bTransacted ) { OSL_ENSURE( pImpl && xStream.is(), "No base implementation!" ); OSL_ENSURE( m_pImpl->m_xMutex.is(), "No mutex!" ); if ( !m_pImpl || !m_pImpl->m_xMutex.is() ) throw uno::RuntimeException(); // just a disaster m_pData.reset(new WSInternalData_Impl(pImpl->m_xMutex, m_pImpl->m_nStorageType)); if ( xStream.is() ) { m_xInStream = xStream->getInputStream(); m_xOutStream = xStream->getOutputStream(); m_xSeekable.set( xStream, uno::UNO_QUERY ); OSL_ENSURE( m_xInStream.is() && m_xOutStream.is() && m_xSeekable.is(), "Stream implementation is incomplete!" ); } } OWriteStream::~OWriteStream() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( m_pImpl ) { osl_atomic_increment(&m_refCount); try { dispose(); } catch( const uno::RuntimeException& rRuntimeException ) { SAL_INFO("package.xstor", "Quiet exception: " << rRuntimeException); } } } void OWriteStream::DeInit() { if ( !m_pImpl ) return; // do nothing if ( m_xSeekable.is() ) m_nInitPosition = m_xSeekable->getPosition(); m_xInStream.clear(); m_xOutStream.clear(); m_xSeekable.clear(); m_bInitOnDemand = true; } void OWriteStream::CheckInitOnDemand() { if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_bInitOnDemand ) { SAL_INFO( "package.xstor", "package (mv76033) OWriteStream::CheckInitOnDemand, initializing" ); uno::Reference< io::XStream > xStream = m_pImpl->GetTempFileAsStream(); if ( xStream.is() ) { m_xInStream.set( xStream->getInputStream(), uno::UNO_SET_THROW ); m_xOutStream.set( xStream->getOutputStream(), uno::UNO_SET_THROW ); m_xSeekable.set( xStream, uno::UNO_QUERY_THROW ); m_xSeekable->seek( m_nInitPosition ); m_nInitPosition = 0; m_bInitOnDemand = false; } } } void OWriteStream::CopyToStreamInternally_Impl( const uno::Reference< io::XStream >& xDest ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_xInStream.is() ) throw uno::RuntimeException(); if ( !m_xSeekable.is() ) throw uno::RuntimeException(); uno::Reference< beans::XPropertySet > xDestProps( xDest, uno::UNO_QUERY_THROW ); uno::Reference< io::XOutputStream > xDestOutStream = xDest->getOutputStream(); if ( !xDestOutStream.is() ) throw io::IOException(); // TODO sal_Int64 nCurPos = m_xSeekable->getPosition(); m_xSeekable->seek( 0 ); uno::Exception eThrown; bool bThrown = false; try { ::comphelper::OStorageHelper::CopyInputToOutput( m_xInStream, xDestOutStream ); } catch ( const uno::Exception& e ) { eThrown = e; bThrown = true; } // position-related section below is critical // if it fails the stream will become invalid try { m_xSeekable->seek( nCurPos ); } catch ( const uno::Exception& rException ) { SAL_INFO("package.xstor", "Quiet exception: " << rException); // TODO: set the stream in invalid state or dispose SAL_WARN( "package.xstor", "The stream become invalid during copiing!" ); throw uno::RuntimeException(); } if ( bThrown ) throw eThrown; // now the properties can be copied // the order of the properties setting is not important for StorageStream API OUString aPropName ("Compressed"); xDestProps->setPropertyValue( aPropName, getPropertyValue( aPropName ) ); if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE || m_pData->m_nStorageType == embed::StorageFormats::OFOPXML ) { aPropName = "MediaType"; xDestProps->setPropertyValue( aPropName, getPropertyValue( aPropName ) ); if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE ) { aPropName = "UseCommonStoragePasswordEncryption"; xDestProps->setPropertyValue( aPropName, getPropertyValue( aPropName ) ); } } } void OWriteStream::ModifyParentUnlockMutex_Impl(osl::ClearableMutexGuard& aGuard) { if ( m_pImpl->m_pParent ) { if ( m_pImpl->m_pParent->HasModifiedListener() ) { uno::Reference< util::XModifiable > xParentModif( static_cast(m_pImpl->m_pParent->m_pAntiImpl) ); aGuard.clear(); xParentModif->setModified( true ); } else m_pImpl->m_pParent->m_bIsModified = true; } } uno::Any SAL_CALL OWriteStream::queryInterface( const uno::Type& rType ) { uno::Any aReturn; // common interfaces aReturn = ::cppu::queryInterface ( rType , static_cast ( this ) , static_cast ( this ) , static_cast ( this ) , static_cast ( this ) , static_cast ( this ) , static_cast ( this ) , static_cast ( this ) , static_cast ( this ) , static_cast ( this ) ); if ( aReturn.hasValue() ) return aReturn ; if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE ) { aReturn = ::cppu::queryInterface ( rType , static_cast ( this ) , static_cast ( this ) ); } else if ( m_pData->m_nStorageType == embed::StorageFormats::OFOPXML ) { aReturn = ::cppu::queryInterface ( rType , static_cast ( this ) ); } if ( aReturn.hasValue() ) return aReturn ; if ( m_bTransacted ) { aReturn = ::cppu::queryInterface ( rType , static_cast ( this ) , static_cast ( this ) ); if ( aReturn.hasValue() ) return aReturn ; } return OWeakObject::queryInterface( rType ); } void SAL_CALL OWriteStream::acquire() throw() { OWeakObject::acquire(); } void SAL_CALL OWriteStream::release() throw() { OWeakObject::release(); } uno::Sequence< uno::Type > SAL_CALL OWriteStream::getTypes() { if (! m_pData->m_pTypeCollection) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if (! m_pData->m_pTypeCollection) { if ( m_bTransacted ) { if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE ) { ::cppu::OTypeCollection aTmpCollection ( cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get()); m_pData->m_pTypeCollection.reset(new ::cppu::OTypeCollection ( cppu::UnoType::get() , aTmpCollection.getTypes())); } else if ( m_pData->m_nStorageType == embed::StorageFormats::OFOPXML ) { m_pData->m_pTypeCollection.reset(new ::cppu::OTypeCollection ( cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get())); } else // if ( m_pData->m_nStorageType == embed::StorageFormats::ZIP ) { m_pData->m_pTypeCollection.reset(new ::cppu::OTypeCollection ( cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get())); } } else { if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE ) { m_pData->m_pTypeCollection.reset(new ::cppu::OTypeCollection ( cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get())); } else if ( m_pData->m_nStorageType == embed::StorageFormats::OFOPXML ) { m_pData->m_pTypeCollection.reset(new ::cppu::OTypeCollection ( cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get())); } else // if ( m_pData->m_nStorageType == embed::StorageFormats::ZIP ) { m_pData->m_pTypeCollection.reset(new ::cppu::OTypeCollection ( cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get() , cppu::UnoType::get())); } } } } return m_pData->m_pTypeCollection->getTypes() ; } namespace { struct lcl_ImplId : public rtl::Static< ::cppu::OImplementationId, lcl_ImplId > {}; } uno::Sequence< sal_Int8 > SAL_CALL OWriteStream::getImplementationId() { return css::uno::Sequence(); } sal_Int32 SAL_CALL OWriteStream::readBytes( uno::Sequence< sal_Int8 >& aData, sal_Int32 nBytesToRead ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xInStream.is() ) throw io::NotConnectedException(); return m_xInStream->readBytes( aData, nBytesToRead ); } sal_Int32 SAL_CALL OWriteStream::readSomeBytes( uno::Sequence< sal_Int8 >& aData, sal_Int32 nMaxBytesToRead ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xInStream.is() ) throw io::NotConnectedException(); return m_xInStream->readSomeBytes( aData, nMaxBytesToRead ); } void SAL_CALL OWriteStream::skipBytes( sal_Int32 nBytesToSkip ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xInStream.is() ) throw io::NotConnectedException(); m_xInStream->skipBytes( nBytesToSkip ); } sal_Int32 SAL_CALL OWriteStream::available( ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xInStream.is() ) throw io::NotConnectedException(); return m_xInStream->available(); } void SAL_CALL OWriteStream::closeInput( ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bInitOnDemand && ( m_bInStreamDisconnected || !m_xInStream.is() ) ) throw io::NotConnectedException(); // the input part of the stream stays open for internal purposes ( to allow reading during copiing ) // since it can not be reopened until output part is closed, it will be closed with output part. m_bInStreamDisconnected = true; // m_xInStream->closeInput(); // m_xInStream.clear(); if ( !m_xOutStream.is() ) dispose(); } uno::Reference< io::XInputStream > SAL_CALL OWriteStream::getInputStream() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bInitOnDemand && ( m_bInStreamDisconnected || !m_xInStream.is() ) ) return uno::Reference< io::XInputStream >(); return uno::Reference< io::XInputStream >( static_cast< io::XInputStream* >( this ), uno::UNO_QUERY ); } uno::Reference< io::XOutputStream > SAL_CALL OWriteStream::getOutputStream() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); try { CheckInitOnDemand(); } catch( const io::IOException& r ) { throw lang::WrappedTargetRuntimeException("OWriteStream::getOutputStream: Could not create backing temp file", static_cast < OWeakObject * > ( this ), makeAny ( r ) ); } if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xOutStream.is() ) return uno::Reference< io::XOutputStream >(); return uno::Reference< io::XOutputStream >( static_cast< io::XOutputStream* >( this ), uno::UNO_QUERY ); } void SAL_CALL OWriteStream::writeBytes( const uno::Sequence< sal_Int8 >& aData ) { osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); // the write method makes initialization itself, since it depends from the aData length // NO CheckInitOnDemand()! if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bInitOnDemand ) { if ( !m_xOutStream.is() || !m_xSeekable.is()) throw io::NotConnectedException(); if ( m_pImpl->m_xCacheStream.is() ) { // check whether the cache should be turned off sal_Int64 nPos = m_xSeekable->getPosition(); if ( nPos + aData.getLength() > MAX_STORCACHE_SIZE ) { // disconnect the cache and copy the data to the temporary file m_xSeekable->seek( 0 ); // it is enough to copy the cached stream, the cache should already contain everything if ( !m_pImpl->GetFilledTempFileIfNo( m_xInStream ).isEmpty() ) { DeInit(); // the last position is known and it is differs from the current stream position m_nInitPosition = nPos; } } } } if ( m_bInitOnDemand ) { SAL_INFO( "package.xstor", "package (mv76033) OWriteStream::CheckInitOnDemand, initializing" ); uno::Reference< io::XStream > xStream = m_pImpl->GetTempFileAsStream(); if ( xStream.is() ) { m_xInStream.set( xStream->getInputStream(), uno::UNO_SET_THROW ); m_xOutStream.set( xStream->getOutputStream(), uno::UNO_SET_THROW ); m_xSeekable.set( xStream, uno::UNO_QUERY_THROW ); m_xSeekable->seek( m_nInitPosition ); m_nInitPosition = 0; m_bInitOnDemand = false; } } if ( !m_xOutStream.is() ) throw io::NotConnectedException(); m_xOutStream->writeBytes( aData ); m_pImpl->m_bHasDataToFlush = true; ModifyParentUnlockMutex_Impl( aGuard ); } void SAL_CALL OWriteStream::flush() { // In case stream is flushed its current version becomes visible // to the parent storage. Usually parent storage flushes the stream // during own commit but a user can explicitly flush the stream // so the changes will be available through cloning functionality. ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bInitOnDemand ) { if ( !m_xOutStream.is() ) throw io::NotConnectedException(); m_xOutStream->flush(); m_pImpl->Commit(); } } void OWriteStream::CloseOutput_Impl() { // all the checks must be done in calling method m_xOutStream->closeOutput(); m_xOutStream.clear(); if ( !m_bInitOnDemand ) { // after the stream is disposed it can be committed // so transport correct size property if ( !m_xSeekable.is() ) throw uno::RuntimeException(); for ( sal_Int32 nInd = 0; nInd < m_pImpl->m_aProps.getLength(); nInd++ ) { if ( m_pImpl->m_aProps[nInd].Name == "Size" ) m_pImpl->m_aProps[nInd].Value <<= m_xSeekable->getLength(); } } } void SAL_CALL OWriteStream::closeOutput() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xOutStream.is() ) throw io::NotConnectedException(); CloseOutput_Impl(); if ( m_bInStreamDisconnected || !m_xInStream.is() ) dispose(); } void SAL_CALL OWriteStream::seek( sal_Int64 location ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xSeekable.is() ) throw uno::RuntimeException(); m_xSeekable->seek( location ); } sal_Int64 SAL_CALL OWriteStream::getPosition() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xSeekable.is() ) throw uno::RuntimeException(); return m_xSeekable->getPosition(); } sal_Int64 SAL_CALL OWriteStream::getLength() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xSeekable.is() ) throw uno::RuntimeException(); return m_xSeekable->getLength(); } void SAL_CALL OWriteStream::truncate() { osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_xOutStream.is() ) throw uno::RuntimeException(); uno::Reference< io::XTruncate > xTruncate( m_xOutStream, uno::UNO_QUERY_THROW ); xTruncate->truncate(); m_pImpl->m_bHasDataToFlush = true; ModifyParentUnlockMutex_Impl( aGuard ); } void SAL_CALL OWriteStream::dispose() { // should be an internal method since it can be called only from parent storage { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_xOutStream.is() ) CloseOutput_Impl(); if ( m_xInStream.is() ) { m_xInStream->closeInput(); m_xInStream.clear(); } m_xSeekable.clear(); m_pImpl->m_pAntiImpl = nullptr; if ( !m_bInitOnDemand ) { try { if ( !m_bTransacted ) { m_pImpl->Commit(); } else { // throw away all the changes m_pImpl->Revert(); } } catch( const uno::Exception& ) { uno::Any aCaught( ::cppu::getCaughtException() ); SAL_INFO("package.xstor", "Rethrow: " << exceptionToString(aCaught)); throw lang::WrappedTargetRuntimeException("Can not commit/revert the storage!", static_cast< OWeakObject* >( this ), aCaught ); } } m_pImpl = nullptr; } // the listener might try to get rid of parent storage, and the storage would delete this object; // for now the listener is just notified at the end of the method to workaround the problem // in future a more elegant way should be found lang::EventObject aSource( static_cast< ::cppu::OWeakObject* >(this) ); m_pData->m_aListenersContainer.disposeAndClear( aSource ); } void SAL_CALL OWriteStream::addEventListener( const uno::Reference< lang::XEventListener >& xListener ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } m_pData->m_aListenersContainer.addInterface( cppu::UnoType::get(), xListener ); } void SAL_CALL OWriteStream::removeEventListener( const uno::Reference< lang::XEventListener >& xListener ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } m_pData->m_aListenersContainer.removeInterface( cppu::UnoType::get(), xListener ); } void SAL_CALL OWriteStream::setEncryptionPassword( const OUString& aPass ) { osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } OSL_ENSURE( m_pImpl->m_xPackageStream.is(), "No package stream is set!" ); m_pImpl->SetEncrypted( ::comphelper::OStorageHelper::CreatePackageEncryptionData( aPass ) ); ModifyParentUnlockMutex_Impl( aGuard ); } void SAL_CALL OWriteStream::removeEncryption() { osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } OSL_ENSURE( m_pImpl->m_xPackageStream.is(), "No package stream is set!" ); m_pImpl->SetDecrypted(); ModifyParentUnlockMutex_Impl( aGuard ); } void SAL_CALL OWriteStream::setEncryptionData( const uno::Sequence< beans::NamedValue >& aEncryptionData ) { osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); CheckInitOnDemand(); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } OSL_ENSURE( m_pImpl->m_xPackageStream.is(), "No package stream is set!" ); m_pImpl->SetEncrypted( aEncryptionData ); ModifyParentUnlockMutex_Impl( aGuard ); } sal_Bool SAL_CALL OWriteStream::hasEncryptionData() { osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); if (!m_pImpl) return false; bool bRet = false; try { bRet = m_pImpl->IsEncrypted(); if (!bRet && m_pImpl->m_bUseCommonEncryption && m_pImpl->m_pParent) bRet = m_pImpl->m_pParent->m_bHasCommonEncryptionData; } catch( const uno::RuntimeException& rRuntimeException ) { SAL_INFO("package.xstor", "Rethrow: " << rRuntimeException); throw; } catch( const uno::Exception& ) { uno::Any aCaught( ::cppu::getCaughtException() ); SAL_INFO("package.xstor", "Rethrow: " << exceptionToString(aCaught)); throw lang::WrappedTargetRuntimeException( "Problems on hasEncryptionData!", static_cast< ::cppu::OWeakObject* >( this ), aCaught ); } return bRet; } sal_Bool SAL_CALL OWriteStream::hasByID( const OUString& sID ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); try { getRelationshipByID( sID ); return true; } catch( const container::NoSuchElementException& rNoSuchElementException ) { SAL_INFO("package.xstor", "No Element: " << rNoSuchElementException); } return false; } OUString SAL_CALL OWriteStream::getTargetByID( const OUString& sID ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); uno::Sequence< beans::StringPair > aSeq = getRelationshipByID( sID ); for ( sal_Int32 nInd = 0; nInd < aSeq.getLength(); nInd++ ) if ( aSeq[nInd].First == "Target" ) return aSeq[nInd].Second; return OUString(); } OUString SAL_CALL OWriteStream::getTypeByID( const OUString& sID ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); uno::Sequence< beans::StringPair > aSeq = getRelationshipByID( sID ); for ( sal_Int32 nInd = 0; nInd < aSeq.getLength(); nInd++ ) if ( aSeq[nInd].First == "Type" ) return aSeq[nInd].Second; return OUString(); } uno::Sequence< beans::StringPair > SAL_CALL OWriteStream::getRelationshipByID( const OUString& sID ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); // TODO/LATER: in future the unification of the ID could be checked uno::Sequence< uno::Sequence< beans::StringPair > > aSeq = getAllRelationships(); for ( sal_Int32 nInd1 = 0; nInd1 < aSeq.getLength(); nInd1++ ) for ( sal_Int32 nInd2 = 0; nInd2 < aSeq[nInd1].getLength(); nInd2++ ) if ( aSeq[nInd1][nInd2].First == "Id" ) { if ( aSeq[nInd1][nInd2].Second == sID ) return aSeq[nInd1]; break; } throw container::NoSuchElementException(); } uno::Sequence< uno::Sequence< beans::StringPair > > SAL_CALL OWriteStream::getRelationshipsByType( const OUString& sType ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); uno::Sequence< uno::Sequence< beans::StringPair > > aResult; sal_Int32 nEntriesNum = 0; // TODO/LATER: in future the unification of the ID could be checked uno::Sequence< uno::Sequence< beans::StringPair > > aSeq = getAllRelationships(); for ( sal_Int32 nInd1 = 0; nInd1 < aSeq.getLength(); nInd1++ ) for ( sal_Int32 nInd2 = 0; nInd2 < aSeq[nInd1].getLength(); nInd2++ ) if ( aSeq[nInd1][nInd2].First == "Type" ) { if ( aSeq[nInd1][nInd2].Second == sType ) { aResult.realloc( nEntriesNum ); aResult[nEntriesNum-1] = aSeq[nInd1]; } break; } return aResult; } uno::Sequence< uno::Sequence< beans::StringPair > > SAL_CALL OWriteStream::getAllRelationships() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); return m_pImpl->GetAllRelationshipsIfAny(); } void SAL_CALL OWriteStream::insertRelationshipByID( const OUString& sID, const uno::Sequence< beans::StringPair >& aEntry, sal_Bool bReplace ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); OUString aIDTag( "Id" ); sal_Int32 nIDInd = -1; // TODO/LATER: in future the unification of the ID could be checked uno::Sequence< uno::Sequence< beans::StringPair > > aSeq = getAllRelationships(); for ( sal_Int32 nInd1 = 0; nInd1 < aSeq.getLength(); nInd1++ ) for ( sal_Int32 nInd2 = 0; nInd2 < aSeq[nInd1].getLength(); nInd2++ ) if ( aSeq[nInd1][nInd2].First == aIDTag ) { if ( aSeq[nInd1][nInd2].Second == sID ) nIDInd = nInd1; break; } if ( nIDInd != -1 && !bReplace ) throw container::ElementExistException(); // TODO if ( nIDInd == -1 ) { nIDInd = aSeq.getLength(); aSeq.realloc( nIDInd + 1 ); } aSeq[nIDInd].realloc( aEntry.getLength() + 1 ); aSeq[nIDInd][0].First = aIDTag; aSeq[nIDInd][0].Second = sID; sal_Int32 nIndTarget = 1; for ( sal_Int32 nIndOrig = 0; nIndOrig < aEntry.getLength(); nIndOrig++ ) { if ( aEntry[nIndOrig].First != aIDTag ) aSeq[nIDInd][nIndTarget++] = aEntry[nIndOrig]; } aSeq[nIDInd].realloc( nIndTarget ); m_pImpl->m_aNewRelInfo = aSeq; m_pImpl->m_xNewRelInfoStream.clear(); m_pImpl->m_nRelInfoStatus = RELINFO_CHANGED; } void SAL_CALL OWriteStream::removeRelationshipByID( const OUString& sID ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); uno::Sequence< uno::Sequence< beans::StringPair > > aSeq = getAllRelationships(); for ( sal_Int32 nInd1 = 0; nInd1 < aSeq.getLength(); nInd1++ ) for ( sal_Int32 nInd2 = 0; nInd2 < aSeq[nInd1].getLength(); nInd2++ ) if ( aSeq[nInd1][nInd2].First == "Id" ) { if ( aSeq[nInd1][nInd2].Second == sID ) { sal_Int32 nLength = aSeq.getLength(); aSeq[nInd1] = aSeq[nLength-1]; aSeq.realloc( nLength - 1 ); m_pImpl->m_aNewRelInfo = aSeq; m_pImpl->m_xNewRelInfoStream.clear(); m_pImpl->m_nRelInfoStatus = RELINFO_CHANGED; // TODO/LATER: in future the unification of the ID could be checked return; } break; } throw container::NoSuchElementException(); } void SAL_CALL OWriteStream::insertRelationships( const uno::Sequence< uno::Sequence< beans::StringPair > >& aEntries, sal_Bool bReplace ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); OUString aIDTag( "Id" ); uno::Sequence< uno::Sequence< beans::StringPair > > aSeq = getAllRelationships(); uno::Sequence< uno::Sequence< beans::StringPair > > aResultSeq( aSeq.getLength() + aEntries.getLength() ); sal_Int32 nResultInd = 0; for ( sal_Int32 nIndTarget1 = 0; nIndTarget1 < aSeq.getLength(); nIndTarget1++ ) for ( sal_Int32 nIndTarget2 = 0; nIndTarget2 < aSeq[nIndTarget1].getLength(); nIndTarget2++ ) if ( aSeq[nIndTarget1][nIndTarget2].First == aIDTag ) { sal_Int32 nIndSourceSame = -1; for ( sal_Int32 nIndSource1 = 0; nIndSource1 < aEntries.getLength(); nIndSource1++ ) for ( sal_Int32 nIndSource2 = 0; nIndSource2 < aEntries[nIndSource1].getLength(); nIndSource2++ ) { if ( aEntries[nIndSource1][nIndSource2].First == aIDTag ) { if ( aEntries[nIndSource1][nIndSource2].Second == aSeq[nIndTarget1][nIndTarget2].Second ) { if ( !bReplace ) throw container::ElementExistException(); nIndSourceSame = nIndSource1; } break; } } if ( nIndSourceSame == -1 ) { // no such element in the provided sequence aResultSeq[nResultInd++] = aSeq[nIndTarget1]; } break; } for ( sal_Int32 nIndSource1 = 0; nIndSource1 < aEntries.getLength(); nIndSource1++ ) { aResultSeq[nResultInd].realloc( aEntries[nIndSource1].getLength() ); bool bHasID = false; sal_Int32 nResInd2 = 1; for ( sal_Int32 nIndSource2 = 0; nIndSource2 < aEntries[nIndSource1].getLength(); nIndSource2++ ) if ( aEntries[nIndSource1][nIndSource2].First == aIDTag ) { aResultSeq[nResultInd][0] = aEntries[nIndSource1][nIndSource2]; bHasID = true; } else if ( nResInd2 < aResultSeq[nResultInd].getLength() ) aResultSeq[nResultInd][nResInd2++] = aEntries[nIndSource1][nIndSource2]; else throw io::IOException(); // TODO: illegal relation ( no ID ) if ( !bHasID ) throw io::IOException(); // TODO: illegal relations nResultInd++; } aResultSeq.realloc( nResultInd ); m_pImpl->m_aNewRelInfo = aResultSeq; m_pImpl->m_xNewRelInfoStream.clear(); m_pImpl->m_nRelInfoStatus = RELINFO_CHANGED; } void SAL_CALL OWriteStream::clearRelationships() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( m_pData->m_nStorageType != embed::StorageFormats::OFOPXML ) throw uno::RuntimeException(); m_pImpl->m_aNewRelInfo.realloc( 0 ); m_pImpl->m_xNewRelInfoStream.clear(); m_pImpl->m_nRelInfoStatus = RELINFO_CHANGED; } uno::Reference< beans::XPropertySetInfo > SAL_CALL OWriteStream::getPropertySetInfo() { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); //TODO: return uno::Reference< beans::XPropertySetInfo >(); } void SAL_CALL OWriteStream::setPropertyValue( const OUString& aPropertyName, const uno::Any& aValue ) { osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } m_pImpl->GetStreamProperties(); OUString aCompressedString( "Compressed" ); OUString aMediaTypeString( "MediaType" ); if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE && aPropertyName == aMediaTypeString ) { // if the "Compressed" property is not set explicitly, the MediaType can change the default value bool bCompressedValueFromType = true; OUString aType; aValue >>= aType; if ( !m_pImpl->m_bCompressedSetExplicit ) { if ( aType == "image/jpeg" || aType == "image/png" || aType == "image/gif" ) bCompressedValueFromType = false; } for ( sal_Int32 nInd = 0; nInd < m_pImpl->m_aProps.getLength(); nInd++ ) { if ( aPropertyName == m_pImpl->m_aProps[nInd].Name ) m_pImpl->m_aProps[nInd].Value = aValue; else if ( !m_pImpl->m_bCompressedSetExplicit && aCompressedString == m_pImpl->m_aProps[nInd].Name ) m_pImpl->m_aProps[nInd].Value <<= bCompressedValueFromType; } } else if ( aPropertyName == aCompressedString ) { // if the "Compressed" property is not set explicitly, the MediaType can change the default value m_pImpl->m_bCompressedSetExplicit = true; for ( sal_Int32 nInd = 0; nInd < m_pImpl->m_aProps.getLength(); nInd++ ) { if ( aPropertyName == m_pImpl->m_aProps[nInd].Name ) m_pImpl->m_aProps[nInd].Value = aValue; } } else if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE && aPropertyName == "UseCommonStoragePasswordEncryption" ) { bool bUseCommonEncryption = false; if ( !(aValue >>= bUseCommonEncryption) ) throw lang::IllegalArgumentException(); //TODO if ( m_bInitOnDemand && m_pImpl->m_bHasInsertedStreamOptimization ) { // the data stream is provided to the packagestream directly m_pImpl->m_bUseCommonEncryption = bUseCommonEncryption; } else if ( bUseCommonEncryption ) { if ( !m_pImpl->m_bUseCommonEncryption ) { m_pImpl->SetDecrypted(); m_pImpl->m_bUseCommonEncryption = true; } } else m_pImpl->m_bUseCommonEncryption = false; } else if ( m_pData->m_nStorageType == embed::StorageFormats::OFOPXML && aPropertyName == aMediaTypeString ) { for ( sal_Int32 nInd = 0; nInd < m_pImpl->m_aProps.getLength(); nInd++ ) { if ( aPropertyName == m_pImpl->m_aProps[nInd].Name ) m_pImpl->m_aProps[nInd].Value = aValue; } } else if ( m_pData->m_nStorageType == embed::StorageFormats::OFOPXML && aPropertyName == "RelationsInfoStream" ) { uno::Reference< io::XInputStream > xInRelStream; if ( !( aValue >>= xInRelStream ) || !xInRelStream.is() ) throw lang::IllegalArgumentException(); // TODO uno::Reference< io::XSeekable > xSeek( xInRelStream, uno::UNO_QUERY ); if ( !xSeek.is() ) { // currently this is an internal property that is used for optimization // and the stream must support XSeekable interface // TODO/LATER: in future it can be changed if property is used from outside throw lang::IllegalArgumentException(); // TODO } m_pImpl->m_xNewRelInfoStream = xInRelStream; m_pImpl->m_aNewRelInfo = uno::Sequence< uno::Sequence< beans::StringPair > >(); m_pImpl->m_nRelInfoStatus = RELINFO_CHANGED_STREAM; } else if ( m_pData->m_nStorageType == embed::StorageFormats::OFOPXML && aPropertyName == "RelationsInfo" ) { if ( !(aValue >>= m_pImpl->m_aNewRelInfo) ) throw lang::IllegalArgumentException(); // TODO } else if ( aPropertyName == "Size" ) throw beans::PropertyVetoException(); // TODO else if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE && ( aPropertyName == "IsEncrypted" || aPropertyName == "Encrypted" ) ) throw beans::PropertyVetoException(); // TODO else if ( aPropertyName == "RelId" ) { aValue >>= m_pImpl->m_nRelId; } else throw beans::UnknownPropertyException(); // TODO m_pImpl->m_bHasDataToFlush = true; ModifyParentUnlockMutex_Impl( aGuard ); } uno::Any SAL_CALL OWriteStream::getPropertyValue( const OUString& aProp ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( aProp == "RelId" ) { return uno::makeAny( m_pImpl->GetNewRelId() ); } OUString aPropertyName; if ( aProp == "IsEncrypted" ) aPropertyName = "Encrypted"; else aPropertyName = aProp; if ( ( ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE || m_pData->m_nStorageType == embed::StorageFormats::OFOPXML ) && aPropertyName == "MediaType" ) || ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE && aPropertyName == "Encrypted" ) || aPropertyName == "Compressed" ) { m_pImpl->GetStreamProperties(); for ( sal_Int32 nInd = 0; nInd < m_pImpl->m_aProps.getLength(); nInd++ ) { if ( aPropertyName == m_pImpl->m_aProps[nInd].Name ) return m_pImpl->m_aProps[nInd].Value; } } else if ( m_pData->m_nStorageType == embed::StorageFormats::PACKAGE && aPropertyName == "UseCommonStoragePasswordEncryption" ) return uno::makeAny( m_pImpl->m_bUseCommonEncryption ); else if ( aPropertyName == "Size" ) { bool bThrow = false; try { CheckInitOnDemand(); } catch (const io::IOException&) { bThrow = true; } if (bThrow || !m_xSeekable.is()) throw uno::RuntimeException(); return uno::makeAny( m_xSeekable->getLength() ); } throw beans::UnknownPropertyException(); // TODO } void SAL_CALL OWriteStream::addPropertyChangeListener( const OUString& /*aPropertyName*/, const uno::Reference< beans::XPropertyChangeListener >& /*xListener*/ ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } //TODO: } void SAL_CALL OWriteStream::removePropertyChangeListener( const OUString& /*aPropertyName*/, const uno::Reference< beans::XPropertyChangeListener >& /*aListener*/ ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } //TODO: } void SAL_CALL OWriteStream::addVetoableChangeListener( const OUString& /*PropertyName*/, const uno::Reference< beans::XVetoableChangeListener >& /*aListener*/ ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } //TODO: } void SAL_CALL OWriteStream::removeVetoableChangeListener( const OUString& /*PropertyName*/, const uno::Reference< beans::XVetoableChangeListener >& /*aListener*/ ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } //TODO: } // XTransactedObject void OWriteStream::BroadcastTransaction( sal_Int8 nMessage ) /* 1 - preCommit 2 - committed 3 - preRevert 4 - reverted */ { // no need to lock mutex here for the checking of m_pImpl, and m_pData is alive until the object is destructed if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } lang::EventObject aSource( static_cast< ::cppu::OWeakObject* >(this) ); ::cppu::OInterfaceContainerHelper* pContainer = m_pData->m_aListenersContainer.getContainer( cppu::UnoType::get()); if ( pContainer ) { ::cppu::OInterfaceIteratorHelper pIterator( *pContainer ); while ( pIterator.hasMoreElements( ) ) { OSL_ENSURE( nMessage >= 1 && nMessage <= 4, "Wrong internal notification code is used!" ); switch( nMessage ) { case STOR_MESS_PRECOMMIT: static_cast( pIterator.next( ) )->preCommit( aSource ); break; case STOR_MESS_COMMITTED: static_cast( pIterator.next( ) )->commited( aSource ); break; case STOR_MESS_PREREVERT: static_cast( pIterator.next( ) )->preRevert( aSource ); break; case STOR_MESS_REVERTED: static_cast< embed::XTransactionListener*>( pIterator.next( ) )->reverted( aSource ); break; } } } } void SAL_CALL OWriteStream::commit() { SAL_INFO( "package.xstor", "package (mv76033) OWriteStream::commit" ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bTransacted ) throw uno::RuntimeException(); try { BroadcastTransaction( STOR_MESS_PRECOMMIT ); osl::ClearableMutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } m_pImpl->Commit(); // when the storage is committed the parent is modified ModifyParentUnlockMutex_Impl( aGuard ); } catch( const io::IOException& rIOException ) { SAL_INFO("package.xstor", "Rethrow: " << rIOException); throw; } catch( const embed::StorageWrappedTargetException& rStorageWrappedTargetException ) { SAL_INFO("package.xstor", "Rethrow: " << rStorageWrappedTargetException); throw; } catch( const uno::RuntimeException& rRuntimeException ) { SAL_INFO("package.xstor", "Rethrow: " << rRuntimeException); throw; } catch( const uno::Exception& ) { uno::Any aCaught( ::cppu::getCaughtException() ); SAL_INFO("package.xstor", "Rethrow: " << exceptionToString(aCaught)); throw embed::StorageWrappedTargetException( "Problems on commit!", static_cast< ::cppu::OWeakObject* >( this ), aCaught ); } BroadcastTransaction( STOR_MESS_COMMITTED ); } void SAL_CALL OWriteStream::revert() { SAL_INFO( "package.xstor", "package (mv76033) OWriteStream::revert" ); // the method removes all the changes done after last commit if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bTransacted ) throw uno::RuntimeException(); BroadcastTransaction( STOR_MESS_PREREVERT ); { osl::MutexGuard aGuard(m_pData->m_xSharedMutex->GetMutex()); if (!m_pImpl) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } try { m_pImpl->Revert(); } catch (const io::IOException& rIOException) { SAL_INFO("package.xstor", "Rethrow: " << rIOException); throw; } catch (const embed::StorageWrappedTargetException& rStorageWrappedTargetException) { SAL_INFO("package.xstor", "Rethrow: " << rStorageWrappedTargetException); throw; } catch (const uno::RuntimeException& rRuntimeException) { SAL_INFO("package.xstor", "Rethrow: " << rRuntimeException); throw; } catch (const uno::Exception&) { uno::Any aCaught(::cppu::getCaughtException()); SAL_INFO("package.xstor", "Rethrow: " << exceptionToString(aCaught)); throw embed::StorageWrappedTargetException("Problems on revert!", static_cast<::cppu::OWeakObject*>(this), aCaught); } } BroadcastTransaction( STOR_MESS_REVERTED ); } // XTransactionBroadcaster void SAL_CALL OWriteStream::addTransactionListener( const uno::Reference< embed::XTransactionListener >& aListener ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bTransacted ) throw uno::RuntimeException(); m_pData->m_aListenersContainer.addInterface( cppu::UnoType::get(), aListener ); } void SAL_CALL OWriteStream::removeTransactionListener( const uno::Reference< embed::XTransactionListener >& aListener ) { ::osl::MutexGuard aGuard( m_pData->m_xSharedMutex->GetMutex() ); if ( !m_pImpl ) { SAL_INFO("package.xstor", "Disposed!"); throw lang::DisposedException(); } if ( !m_bTransacted ) throw uno::RuntimeException(); m_pData->m_aListenersContainer.removeInterface( cppu::UnoType::get(), aListener ); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */