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Diffstat (limited to 'package/source/zippackage/ZipPackage.cxx')
| -rw-r--r-- | package/source/zippackage/ZipPackage.cxx | 1837 |
1 files changed, 1837 insertions, 0 deletions
diff --git a/package/source/zippackage/ZipPackage.cxx b/package/source/zippackage/ZipPackage.cxx new file mode 100644 index 000000000..9270bb705 --- /dev/null +++ b/package/source/zippackage/ZipPackage.cxx @@ -0,0 +1,1837 @@ +/* -*- 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 <ZipPackage.hxx> +#include "ZipPackageSink.hxx" +#include <ZipEnumeration.hxx> +#include <ZipPackageStream.hxx> +#include <ZipPackageFolder.hxx> +#include <ZipOutputEntry.hxx> +#include <ZipOutputStream.hxx> +#include <ZipPackageBuffer.hxx> +#include <ZipFile.hxx> +#include <PackageConstants.hxx> +#include <com/sun/star/beans/PropertyValue.hpp> +#include <com/sun/star/packages/zip/ZipConstants.hpp> +#include <com/sun/star/packages/zip/ZipException.hpp> +#include <com/sun/star/packages/zip/ZipIOException.hpp> +#include <com/sun/star/packages/manifest/ManifestReader.hpp> +#include <com/sun/star/packages/manifest/ManifestWriter.hpp> +#include <com/sun/star/io/TempFile.hpp> +#include <com/sun/star/io/XStream.hpp> +#include <com/sun/star/io/XInputStream.hpp> +#include <com/sun/star/io/XOutputStream.hpp> +#include <com/sun/star/io/XTruncate.hpp> +#include <com/sun/star/io/XSeekable.hpp> +#include <com/sun/star/lang/WrappedTargetRuntimeException.hpp> +#include <com/sun/star/container/XNameContainer.hpp> +#include <comphelper/fileurl.hxx> +#include <ucbhelper/content.hxx> +#include <cppuhelper/exc_hlp.hxx> +#include <com/sun/star/ucb/ContentCreationException.hpp> +#include <com/sun/star/ucb/TransferInfo.hpp> +#include <com/sun/star/ucb/NameClash.hpp> +#include <com/sun/star/ucb/OpenCommandArgument2.hpp> +#include <com/sun/star/ucb/OpenMode.hpp> +#include <com/sun/star/ucb/SimpleFileAccess.hpp> +#include <com/sun/star/io/XActiveDataStreamer.hpp> +#include <com/sun/star/embed/UseBackupException.hpp> +#include <com/sun/star/embed/StorageFormats.hpp> +#include <com/sun/star/beans/NamedValue.hpp> +#include <com/sun/star/xml/crypto/DigestID.hpp> +#include <cppuhelper/implbase.hxx> +#include <rtl/uri.hxx> +#include <rtl/random.h> +#include <o3tl/string_view.hxx> +#include <osl/diagnose.h> +#include <sal/log.hxx> +#include <com/sun/star/io/XAsyncOutputMonitor.hpp> + +#include <string_view> + +#include <comphelper/seekableinput.hxx> +#include <comphelper/storagehelper.hxx> +#include <comphelper/ofopxmlhelper.hxx> +#include <comphelper/documentconstants.hxx> +#include <comphelper/sequenceashashmap.hxx> +#include <cppuhelper/supportsservice.hxx> +#include <comphelper/sequence.hxx> +#include <comphelper/servicehelper.hxx> + +using namespace osl; +using namespace cppu; +using namespace ucbhelper; +using namespace com::sun::star; +using namespace com::sun::star::io; +using namespace com::sun::star::uno; +using namespace com::sun::star::ucb; +using namespace com::sun::star::util; +using namespace com::sun::star::lang; +using namespace com::sun::star::task; +using namespace com::sun::star::beans; +using namespace com::sun::star::packages; +using namespace com::sun::star::container; +using namespace com::sun::star::packages::zip; +using namespace com::sun::star::packages::manifest; +using namespace com::sun::star::packages::zip::ZipConstants; + +#if OSL_DEBUG_LEVEL > 0 +#define THROW_WHERE SAL_WHERE +#else +#define THROW_WHERE "" +#endif + +namespace { + +class ActiveDataStreamer : public ::cppu::WeakImplHelper< XActiveDataStreamer > +{ + uno::Reference< XStream > mStream; +public: + + virtual uno::Reference< XStream > SAL_CALL getStream() override + { return mStream; } + + virtual void SAL_CALL setStream( const uno::Reference< XStream >& stream ) override + { mStream = stream; } +}; + +class DummyInputStream : public ::cppu::WeakImplHelper< XInputStream > +{ + virtual sal_Int32 SAL_CALL readBytes( uno::Sequence< sal_Int8 >&, sal_Int32 ) override + { return 0; } + + virtual sal_Int32 SAL_CALL readSomeBytes( uno::Sequence< sal_Int8 >&, sal_Int32 ) override + { return 0; } + + virtual void SAL_CALL skipBytes( sal_Int32 ) override + {} + + virtual sal_Int32 SAL_CALL available() override + { return 0; } + + virtual void SAL_CALL closeInput() override + {} +}; + +} + +ZipPackage::ZipPackage ( const uno::Reference < XComponentContext > &xContext ) +: m_aMutexHolder( new comphelper::RefCountedMutex ) +, m_nStartKeyGenerationID( xml::crypto::DigestID::SHA1 ) +, m_nChecksumDigestID( xml::crypto::DigestID::SHA1_1K ) +, m_nCommonEncryptionID( xml::crypto::CipherID::BLOWFISH_CFB_8 ) +, m_bHasEncryptedEntries ( false ) +, m_bHasNonEncryptedEntries ( false ) +, m_bInconsistent ( false ) +, m_bForceRecovery ( false ) +, m_bMediaTypeFallbackUsed ( false ) +, m_nFormat( embed::StorageFormats::PACKAGE ) // package is the default format +, m_bAllowRemoveOnInsert( true ) +, m_eMode ( e_IMode_None ) +, m_xContext( xContext ) +{ + m_xRootFolder = new ZipPackageFolder( m_xContext, m_nFormat, m_bAllowRemoveOnInsert ); +} + +ZipPackage::~ZipPackage() +{ +} + +bool ZipPackage::isLocalFile() const +{ + return comphelper::isFileUrl(m_aURL); +} + +void ZipPackage::parseManifest() +{ + if ( m_nFormat != embed::StorageFormats::PACKAGE ) + return; + + bool bManifestParsed = false; + static const OUStringLiteral sMeta (u"META-INF"); + if ( m_xRootFolder->hasByName( sMeta ) ) + { + try { + static const OUStringLiteral sManifest (u"manifest.xml"); + uno::Reference< XUnoTunnel > xTunnel; + Any aAny = m_xRootFolder->getByName( sMeta ); + aAny >>= xTunnel; + uno::Reference< XNameContainer > xMetaInfFolder( xTunnel, UNO_QUERY ); + if ( xMetaInfFolder.is() && xMetaInfFolder->hasByName( sManifest ) ) + { + aAny = xMetaInfFolder->getByName( sManifest ); + aAny >>= xTunnel; + uno::Reference < XActiveDataSink > xSink ( xTunnel, UNO_QUERY ); + if ( xSink.is() ) + { + uno::Reference < XManifestReader > xReader = ManifestReader::create( m_xContext ); + + static const OUStringLiteral sPropFullPath (u"FullPath"); + static const OUStringLiteral sPropVersion (u"Version"); + static const OUStringLiteral sPropMediaType (u"MediaType"); + static const OUStringLiteral sPropInitialisationVector (u"InitialisationVector"); + static const OUStringLiteral sPropSalt (u"Salt"); + static const OUStringLiteral sPropIterationCount (u"IterationCount"); + static const OUStringLiteral sPropSize (u"Size"); + static const OUStringLiteral sPropDigest (u"Digest"); + static const OUStringLiteral sPropDerivedKeySize (u"DerivedKeySize"); + static const OUStringLiteral sPropDigestAlgorithm (u"DigestAlgorithm"); + static const OUStringLiteral sPropEncryptionAlgorithm (u"EncryptionAlgorithm"); + static const OUStringLiteral sPropStartKeyAlgorithm (u"StartKeyAlgorithm"); + static const OUStringLiteral sKeyInfo (u"KeyInfo"); + + const uno::Sequence < uno::Sequence < PropertyValue > > aManifestSequence = xReader->readManifestSequence ( xSink->getInputStream() ); + const Any *pKeyInfo = nullptr; + + for ( const uno::Sequence<PropertyValue>& rSequence : aManifestSequence ) + { + OUString sPath, sMediaType, sVersion; + const Any *pSalt = nullptr, *pVector = nullptr, *pCount = nullptr, *pSize = nullptr, *pDigest = nullptr, *pDigestAlg = nullptr, *pEncryptionAlg = nullptr, *pStartKeyAlg = nullptr, *pDerivedKeySize = nullptr; + for ( const PropertyValue& rValue : rSequence ) + { + if ( rValue.Name == sPropFullPath ) + rValue.Value >>= sPath; + else if ( rValue.Name == sPropVersion ) + rValue.Value >>= sVersion; + else if ( rValue.Name == sPropMediaType ) + rValue.Value >>= sMediaType; + else if ( rValue.Name == sPropSalt ) + pSalt = &( rValue.Value ); + else if ( rValue.Name == sPropInitialisationVector ) + pVector = &( rValue.Value ); + else if ( rValue.Name == sPropIterationCount ) + pCount = &( rValue.Value ); + else if ( rValue.Name == sPropSize ) + pSize = &( rValue.Value ); + else if ( rValue.Name == sPropDigest ) + pDigest = &( rValue.Value ); + else if ( rValue.Name == sPropDigestAlgorithm ) + pDigestAlg = &( rValue.Value ); + else if ( rValue.Name == sPropEncryptionAlgorithm ) + pEncryptionAlg = &( rValue.Value ); + else if ( rValue.Name == sPropStartKeyAlgorithm ) + pStartKeyAlg = &( rValue.Value ); + else if ( rValue.Name == sPropDerivedKeySize ) + pDerivedKeySize = &( rValue.Value ); + else if ( rValue.Name == sKeyInfo ) + pKeyInfo = &( rValue.Value ); + } + + if ( !sPath.isEmpty() && hasByHierarchicalName ( sPath ) ) + { + aAny = getByHierarchicalName( sPath ); + uno::Reference < XUnoTunnel > xUnoTunnel; + aAny >>= xUnoTunnel; + if (auto pFolder = comphelper::getFromUnoTunnel<ZipPackageFolder>(xUnoTunnel)) + { + pFolder->SetMediaType ( sMediaType ); + pFolder->SetVersion ( sVersion ); + } + else if (auto pStream = comphelper::getFromUnoTunnel<ZipPackageStream>(xUnoTunnel)) + { + pStream->SetMediaType ( sMediaType ); + pStream->SetFromManifest( true ); + + if ( pKeyInfo && pVector && pSize && pDigest && pDigestAlg && pEncryptionAlg ) + { + uno::Sequence < sal_Int8 > aSequence; + sal_Int64 nSize = 0; + sal_Int32 nDigestAlg = 0, nEncryptionAlg = 0; + + pStream->SetToBeEncrypted ( true ); + + *pVector >>= aSequence; + pStream->setInitialisationVector ( aSequence ); + + *pSize >>= nSize; + pStream->setSize ( nSize ); + + *pDigest >>= aSequence; + pStream->setDigest ( aSequence ); + + *pDigestAlg >>= nDigestAlg; + pStream->SetImportedChecksumAlgorithm( nDigestAlg ); + + *pEncryptionAlg >>= nEncryptionAlg; + pStream->SetImportedEncryptionAlgorithm( nEncryptionAlg ); + + *pKeyInfo >>= m_aGpgProps; + + pStream->SetToBeCompressed ( true ); + pStream->SetToBeEncrypted ( true ); + pStream->SetIsEncrypted ( true ); + pStream->setIterationCount(0); + + // clamp to default SHA256 start key magic value, + // c.f. ZipPackageStream::GetEncryptionKey() + // trying to get key value from properties + const sal_Int32 nStartKeyAlg = xml::crypto::DigestID::SHA256; + pStream->SetImportedStartKeyAlgorithm( nStartKeyAlg ); + + if ( !m_bHasEncryptedEntries && pStream->getName() == "content.xml" ) + { + m_bHasEncryptedEntries = true; + m_nChecksumDigestID = nDigestAlg; + m_nCommonEncryptionID = nEncryptionAlg; + m_nStartKeyGenerationID = nStartKeyAlg; + } + } + else if ( pSalt && pVector && pCount && pSize && pDigest && pDigestAlg && pEncryptionAlg ) + { + uno::Sequence < sal_Int8 > aSequence; + sal_Int64 nSize = 0; + sal_Int32 nCount = 0, nDigestAlg = 0, nEncryptionAlg = 0; + sal_Int32 nDerivedKeySize = 16, nStartKeyAlg = xml::crypto::DigestID::SHA1; + + pStream->SetToBeEncrypted ( true ); + + *pSalt >>= aSequence; + pStream->setSalt ( aSequence ); + + *pVector >>= aSequence; + pStream->setInitialisationVector ( aSequence ); + + *pCount >>= nCount; + pStream->setIterationCount ( nCount ); + + *pSize >>= nSize; + pStream->setSize ( nSize ); + + *pDigest >>= aSequence; + pStream->setDigest ( aSequence ); + + *pDigestAlg >>= nDigestAlg; + pStream->SetImportedChecksumAlgorithm( nDigestAlg ); + + *pEncryptionAlg >>= nEncryptionAlg; + pStream->SetImportedEncryptionAlgorithm( nEncryptionAlg ); + + if ( pDerivedKeySize ) + *pDerivedKeySize >>= nDerivedKeySize; + pStream->SetImportedDerivedKeySize( nDerivedKeySize ); + + if ( pStartKeyAlg ) + *pStartKeyAlg >>= nStartKeyAlg; + pStream->SetImportedStartKeyAlgorithm( nStartKeyAlg ); + + pStream->SetToBeCompressed ( true ); + pStream->SetToBeEncrypted ( true ); + pStream->SetIsEncrypted ( true ); + if ( !m_bHasEncryptedEntries && pStream->getName() == "content.xml" ) + { + m_bHasEncryptedEntries = true; + m_nStartKeyGenerationID = nStartKeyAlg; + m_nChecksumDigestID = nDigestAlg; + m_nCommonEncryptionID = nEncryptionAlg; + } + } + else + m_bHasNonEncryptedEntries = true; + } + else + throw ZipIOException(THROW_WHERE "Wrong content"); + } + } + + bManifestParsed = true; + } + + // now hide the manifest.xml file from user + xMetaInfFolder->removeByName( sManifest ); + } + } + catch( Exception& ) + { + if ( !m_bForceRecovery ) + throw; + } + } + + if ( !bManifestParsed && !m_bForceRecovery ) + throw ZipIOException( + THROW_WHERE "Could not parse manifest.xml" ); + + static const OUStringLiteral sMimetype (u"mimetype"); + if ( m_xRootFolder->hasByName( sMimetype ) ) + { + // get mediatype from the "mimetype" stream + OUString aPackageMediatype; + uno::Reference< lang::XUnoTunnel > xMimeTypeTunnel; + m_xRootFolder->getByName( sMimetype ) >>= xMimeTypeTunnel; + uno::Reference < io::XActiveDataSink > xMimeSink( xMimeTypeTunnel, UNO_QUERY ); + if ( xMimeSink.is() ) + { + uno::Reference< io::XInputStream > xMimeInStream = xMimeSink->getInputStream(); + if ( xMimeInStream.is() ) + { + // Mediatypes longer than 1024 symbols should not appear here + uno::Sequence< sal_Int8 > aData( 1024 ); + sal_Int32 nRead = xMimeInStream->readBytes( aData, 1024 ); + if ( nRead > aData.getLength() ) + nRead = aData.getLength(); + + if ( nRead ) + aPackageMediatype = OUString( reinterpret_cast<char const *>(aData.getConstArray()), nRead, RTL_TEXTENCODING_ASCII_US ); + } + } + + if ( !bManifestParsed ) + { + // the manifest.xml could not be successfully parsed, this is an inconsistent package + if ( aPackageMediatype.startsWith("application/vnd.") ) + { + // accept only types that look similar to own mediatypes + m_xRootFolder->SetMediaType( aPackageMediatype ); + m_bMediaTypeFallbackUsed = true; + } + } + else if ( !m_bForceRecovery ) + { + // the mimetype stream should contain the information from manifest.xml + if ( m_xRootFolder->GetMediaType() != aPackageMediatype ) + throw ZipIOException( + THROW_WHERE + "mimetype conflicts with manifest.xml, \"" + + m_xRootFolder->GetMediaType() + "\" vs. \"" + + aPackageMediatype + "\"" ); + } + + m_xRootFolder->removeByName( sMimetype ); + } + + m_bInconsistent = m_xRootFolder->LookForUnexpectedODF12Streams( std::u16string_view() ); + + bool bODF12AndNewer = ( m_xRootFolder->GetVersion().compareTo( ODFVER_012_TEXT ) >= 0 ); + if ( !m_bForceRecovery && bODF12AndNewer ) + { + if ( m_bInconsistent ) + { + // this is an ODF1.2 document that contains streams not referred in the manifest.xml; + // in case of ODF1.2 documents without version in manifest.xml the property IsInconsistent + // should be checked later + throw ZipIOException( + THROW_WHERE "there are streams not referred in manifest.xml" ); + } + // all the streams should be encrypted with the same StartKey in ODF1.2 + // TODO/LATER: in future the exception should be thrown + // throw ZipIOException( THROW_WHERE "More than one Start Key Generation algorithm is specified!" ); + } + + // in case it is a correct ODF1.2 document, the version must be set + // and the META-INF folder is reserved for package format + if ( bODF12AndNewer ) + m_xRootFolder->removeByName( sMeta ); +} + +void ZipPackage::parseContentType() +{ + if ( m_nFormat != embed::StorageFormats::OFOPXML ) + return; + + try { + static const OUStringLiteral aContentTypes(u"[Content_Types].xml"); + // the content type must exist in OFOPXML format! + if ( !m_xRootFolder->hasByName( aContentTypes ) ) + throw io::IOException(THROW_WHERE "Wrong format!" ); + + uno::Reference< lang::XUnoTunnel > xTunnel; + uno::Any aAny = m_xRootFolder->getByName( aContentTypes ); + aAny >>= xTunnel; + uno::Reference < io::XActiveDataSink > xSink( xTunnel, UNO_QUERY ); + if ( xSink.is() ) + { + uno::Reference< io::XInputStream > xInStream = xSink->getInputStream(); + if ( xInStream.is() ) + { + // here aContentTypeInfo[0] - Defaults, and aContentTypeInfo[1] - Overrides + const uno::Sequence< uno::Sequence< beans::StringPair > > aContentTypeInfo = + ::comphelper::OFOPXMLHelper::ReadContentTypeSequence( xInStream, m_xContext ); + + if ( aContentTypeInfo.getLength() != 2 ) + throw io::IOException(THROW_WHERE ); + + // set the implicit types first + for ( const auto& rPair : aContentTypeInfo[0] ) + m_xRootFolder->setChildStreamsTypeByExtension( rPair ); + + // now set the explicit types + for ( const auto& rPair : aContentTypeInfo[1] ) + { + OUString aPath; + if ( rPair.First.toChar() == '/' ) + aPath = rPair.First.copy( 1 ); + else + aPath = rPair.First; + + if ( !aPath.isEmpty() && hasByHierarchicalName( aPath ) ) + { + uno::Any aIterAny = getByHierarchicalName( aPath ); + uno::Reference < lang::XUnoTunnel > xIterTunnel; + aIterAny >>= xIterTunnel; + if (auto pStream = comphelper::getFromUnoTunnel<ZipPackageStream>(xIterTunnel)) + { + // this is a package stream, in OFOPXML format only streams can have mediatype + pStream->SetMediaType( rPair.Second ); + } + } + } + } + } + + m_xRootFolder->removeByName( aContentTypes ); + } + catch( uno::Exception& ) + { + if ( !m_bForceRecovery ) + throw; + } +} + +void ZipPackage::getZipFileContents() +{ + ZipEnumeration aEnum = m_pZipFile->entries(); + OUString sTemp, sDirName; + sal_Int32 nOldIndex, nStreamIndex; + FolderHash::iterator aIter; + + while (aEnum.hasMoreElements()) + { + nOldIndex = 0; + ZipPackageFolder* pCurrent = m_xRootFolder.get(); + const ZipEntry & rEntry = *aEnum.nextElement(); + OUString rName = rEntry.sPath; + + if ( m_bForceRecovery ) + { + // the PKZIP Application note version 6.2 does not allows to use '\' as separator + // unfortunately it is used by some implementations, so we have to support it in recovery mode + rName = rName.replace( '\\', '/' ); + } + + nStreamIndex = rName.lastIndexOf ( '/' ); + if ( nStreamIndex != -1 ) + { + sDirName = rName.copy ( 0, nStreamIndex ); + aIter = m_aRecent.find ( sDirName ); + if ( aIter != m_aRecent.end() ) + pCurrent = ( *aIter ).second; + } + + if ( pCurrent == m_xRootFolder.get() ) + { + sal_Int32 nIndex; + while ( ( nIndex = rName.indexOf( '/', nOldIndex ) ) != -1 ) + { + sTemp = rName.copy ( nOldIndex, nIndex - nOldIndex ); + if ( nIndex == nOldIndex ) + break; + if ( !pCurrent->hasByName( sTemp ) ) + { + rtl::Reference<ZipPackageFolder> pPkgFolder = new ZipPackageFolder(m_xContext, m_nFormat, m_bAllowRemoveOnInsert); + pPkgFolder->setName( sTemp ); + pPkgFolder->doSetParent( pCurrent ); + pCurrent = pPkgFolder.get(); + } + else + { + ZipContentInfo& rInfo = pCurrent->doGetByName(sTemp); + if (!rInfo.bFolder) + throw css::packages::zip::ZipIOException("Bad Zip File, stream as folder"); + pCurrent = rInfo.pFolder; + } + nOldIndex = nIndex+1; + } + if ( nStreamIndex != -1 && !sDirName.isEmpty() ) + m_aRecent [ sDirName ] = pCurrent; + } + if ( rName.getLength() -1 != nStreamIndex ) + { + nStreamIndex++; + sTemp = rName.copy( nStreamIndex ); + + if (!pCurrent->hasByName(sTemp)) + { + rtl::Reference<ZipPackageStream> pPkgStream = new ZipPackageStream(*this, m_xContext, m_nFormat, m_bAllowRemoveOnInsert); + pPkgStream->SetPackageMember(true); + pPkgStream->setZipEntryOnLoading(rEntry); + pPkgStream->setName(sTemp); + pPkgStream->doSetParent(pCurrent); + } + } + } + + if ( m_nFormat == embed::StorageFormats::PACKAGE ) + parseManifest(); + else if ( m_nFormat == embed::StorageFormats::OFOPXML ) + parseContentType(); +} + +void SAL_CALL ZipPackage::initialize( const uno::Sequence< Any >& aArguments ) +{ + beans::NamedValue aNamedValue; + + if ( !aArguments.hasElements() ) + return; + + bool bHaveZipFile = true; + + for( const auto& rArgument : aArguments ) + { + OUString aParamUrl; + if ( rArgument >>= aParamUrl ) + { + m_eMode = e_IMode_URL; + try + { + sal_Int32 nParam = aParamUrl.indexOf( '?' ); + if ( nParam >= 0 ) + { + m_aURL = aParamUrl.copy( 0, nParam ); + std::u16string_view aParam = aParamUrl.subView( nParam + 1 ); + + sal_Int32 nIndex = 0; + do + { + std::u16string_view aCommand = o3tl::getToken(aParam, 0, '&', nIndex ); + if ( aCommand == u"repairpackage" ) + { + m_bForceRecovery = true; + break; + } + else if ( aCommand == u"purezip" ) + { + m_nFormat = embed::StorageFormats::ZIP; + m_xRootFolder->setPackageFormat_Impl( m_nFormat ); + break; + } + else if ( aCommand == u"ofopxml" ) + { + m_nFormat = embed::StorageFormats::OFOPXML; + m_xRootFolder->setPackageFormat_Impl( m_nFormat ); + break; + } + } + while ( nIndex >= 0 ); + } + else + m_aURL = aParamUrl; + + Content aContent( + m_aURL, uno::Reference< XCommandEnvironment >(), + m_xContext ); + Any aAny = aContent.getPropertyValue("Size"); + sal_uInt64 aSize = 0; + // kind of optimization: treat empty files as nonexistent files + // and write to such files directly. Note that "Size" property is optional. + bool bHasSizeProperty = aAny >>= aSize; + if( !bHasSizeProperty || aSize ) + { + uno::Reference < XActiveDataSink > xSink = new ZipPackageSink; + if ( aContent.openStream ( xSink ) ) + m_xContentStream = xSink->getInputStream(); + } + else + bHaveZipFile = false; + } + catch ( css::uno::Exception& ) + { + // Exception derived from uno::Exception thrown. This probably + // means the file doesn't exist...we'll create it at + // commitChanges time + bHaveZipFile = false; + } + } + else if ( rArgument >>= m_xStream ) + { + // a writable stream can implement both XStream & XInputStream + m_eMode = e_IMode_XStream; + m_xContentStream = m_xStream->getInputStream(); + } + else if ( rArgument >>= m_xContentStream ) + { + m_eMode = e_IMode_XInputStream; + } + else if ( rArgument >>= aNamedValue ) + { + if ( aNamedValue.Name == "RepairPackage" ) + aNamedValue.Value >>= m_bForceRecovery; + else if ( aNamedValue.Name == "PackageFormat" ) + { + // setting this argument to true means Package format + // setting it to false means plain Zip format + + bool bPackFormat = true; + aNamedValue.Value >>= bPackFormat; + if ( !bPackFormat ) + m_nFormat = embed::StorageFormats::ZIP; + + m_xRootFolder->setPackageFormat_Impl( m_nFormat ); + } + else if ( aNamedValue.Name == "StorageFormat" ) + { + OUString aFormatName; + sal_Int32 nFormatID = 0; + if ( aNamedValue.Value >>= aFormatName ) + { + if ( aFormatName == PACKAGE_STORAGE_FORMAT_STRING ) + m_nFormat = embed::StorageFormats::PACKAGE; + else if ( aFormatName == ZIP_STORAGE_FORMAT_STRING ) + m_nFormat = embed::StorageFormats::ZIP; + else if ( aFormatName == OFOPXML_STORAGE_FORMAT_STRING ) + m_nFormat = embed::StorageFormats::OFOPXML; + else + throw lang::IllegalArgumentException(THROW_WHERE, uno::Reference< uno::XInterface >(), 1 ); + } + else if ( aNamedValue.Value >>= nFormatID ) + { + if (nFormatID != embed::StorageFormats::PACKAGE + && nFormatID != embed::StorageFormats::ZIP + && nFormatID != embed::StorageFormats::OFOPXML) + throw lang::IllegalArgumentException(THROW_WHERE, uno::Reference< uno::XInterface >(), 1 ); + + m_nFormat = nFormatID; + } + else + throw lang::IllegalArgumentException(THROW_WHERE, uno::Reference< uno::XInterface >(), 1 ); + + m_xRootFolder->setPackageFormat_Impl( m_nFormat ); + } + else if ( aNamedValue.Name == "AllowRemoveOnInsert" ) + { + aNamedValue.Value >>= m_bAllowRemoveOnInsert; + m_xRootFolder->setRemoveOnInsertMode_Impl( m_bAllowRemoveOnInsert ); + } + else if (aNamedValue.Name == "NoFileSync") + aNamedValue.Value >>= m_bDisableFileSync; + + // for now the progress handler is not used, probably it will never be + // if ( aNamedValue.Name == "ProgressHandler" ) + } + else + { + // The URL is not acceptable + throw css::uno::Exception (THROW_WHERE "Bad arguments.", + static_cast < ::cppu::OWeakObject * > ( this ) ); + } + } + + try + { + if ( m_xContentStream.is() ) + { + // the stream must be seekable, if it is not it will be wrapped + m_xContentStream = ::comphelper::OSeekableInputWrapper::CheckSeekableCanWrap( m_xContentStream, m_xContext ); + m_xContentSeek.set( m_xContentStream, UNO_QUERY_THROW ); + if ( !m_xContentSeek->getLength() ) + bHaveZipFile = false; + } + else + bHaveZipFile = false; + } + catch ( css::uno::Exception& ) + { + // Exception derived from uno::Exception thrown. This probably + // means the file doesn't exist...we'll create it at + // commitChanges time + bHaveZipFile = false; + } + if ( !bHaveZipFile ) + return; + + bool bBadZipFile = false; + OUString message; + try + { + m_pZipFile.emplace(m_aMutexHolder, m_xContentStream, m_xContext, true, m_bForceRecovery); + getZipFileContents(); + } + catch ( IOException & e ) + { + bBadZipFile = true; + message = "IOException: " + e.Message; + } + catch ( ZipException & e ) + { + bBadZipFile = true; + message = "ZipException: " + e.Message; + } + catch ( Exception & ) + { + m_pZipFile.reset(); + throw; + } + + if ( bBadZipFile ) + { + // clean up the memory, and tell the UCB about the error + m_pZipFile.reset(); + + throw css::packages::zip::ZipIOException ( + THROW_WHERE "Bad Zip File, " + message, + static_cast < ::cppu::OWeakObject * > ( this ) ); + } +} + +Any SAL_CALL ZipPackage::getByHierarchicalName( const OUString& aName ) +{ + OUString sTemp, sDirName; + sal_Int32 nOldIndex, nStreamIndex; + FolderHash::iterator aIter; + + sal_Int32 nIndex = aName.getLength(); + + if (aName == "/") + // root directory. + return Any ( uno::Reference < XUnoTunnel > ( m_xRootFolder ) ); + + nStreamIndex = aName.lastIndexOf ( '/' ); + bool bFolder = nStreamIndex == nIndex-1; // last character is '/'. + + if ( nStreamIndex != -1 ) + { + // The name contains '/'. + sDirName = aName.copy ( 0, nStreamIndex ); + aIter = m_aRecent.find ( sDirName ); + if ( aIter != m_aRecent.end() ) + { + // There is a cached entry for this name. + + ZipPackageFolder* pFolder = aIter->second; + + if ( bFolder ) + { + // Determine the directory name. + sal_Int32 nDirIndex = aName.lastIndexOf ( '/', nStreamIndex ); + sTemp = aName.copy ( nDirIndex == -1 ? 0 : nDirIndex+1, nStreamIndex-nDirIndex-1 ); + + if (pFolder && sTemp == pFolder->getName()) + return Any(uno::Reference<XUnoTunnel>(pFolder)); + } + else + { + // Determine the file name. + sTemp = aName.copy ( nStreamIndex + 1 ); + + if (pFolder && pFolder->hasByName(sTemp)) + return pFolder->getByName(sTemp); + } + + m_aRecent.erase( aIter ); + } + } + else if ( m_xRootFolder->hasByName ( aName ) ) + // top-level element. + return m_xRootFolder->getByName ( aName ); + + // Not in the cache. Search normally. + + nOldIndex = 0; + ZipPackageFolder * pCurrent = m_xRootFolder.get(); + ZipPackageFolder * pPrevious = nullptr; + + // Find the right directory for the given path. + + while ( ( nIndex = aName.indexOf( '/', nOldIndex )) != -1 ) + { + sTemp = aName.copy ( nOldIndex, nIndex - nOldIndex ); + if ( nIndex == nOldIndex ) + break; + if ( !pCurrent->hasByName( sTemp ) ) + throw NoSuchElementException(THROW_WHERE ); + + pPrevious = pCurrent; + ZipContentInfo& rInfo = pCurrent->doGetByName(sTemp); + if (!rInfo.bFolder) + throw css::packages::zip::ZipIOException("Bad Zip File, stream as folder"); + pCurrent = rInfo.pFolder; + nOldIndex = nIndex+1; + } + + if ( bFolder ) + { + if ( nStreamIndex != -1 ) + m_aRecent[sDirName] = pPrevious; // cache it. + return Any ( uno::Reference < XUnoTunnel > ( pCurrent ) ); + } + + sTemp = aName.copy( nOldIndex ); + + if ( pCurrent->hasByName ( sTemp ) ) + { + if ( nStreamIndex != -1 ) + m_aRecent[sDirName] = pCurrent; // cache it. + return pCurrent->getByName( sTemp ); + } + + throw NoSuchElementException(THROW_WHERE); +} + +sal_Bool SAL_CALL ZipPackage::hasByHierarchicalName( const OUString& aName ) +{ + OUString sTemp; + sal_Int32 nOldIndex; + FolderHash::iterator aIter; + + sal_Int32 nIndex = aName.getLength(); + + if (aName == "/") + // root directory + return true; + + try + { + OUString sDirName; + sal_Int32 nStreamIndex; + nStreamIndex = aName.lastIndexOf ( '/' ); + bool bFolder = nStreamIndex == nIndex-1; + if ( nStreamIndex != -1 ) + { + sDirName = aName.copy ( 0, nStreamIndex ); + aIter = m_aRecent.find ( sDirName ); + if ( aIter != m_aRecent.end() ) + { + if ( bFolder ) + { + sal_Int32 nDirIndex = aName.lastIndexOf ( '/', nStreamIndex ); + sTemp = aName.copy ( nDirIndex == -1 ? 0 : nDirIndex+1, nStreamIndex-nDirIndex-1 ); + if ( sTemp == ( *aIter ).second->getName() ) + return true; + else + m_aRecent.erase ( aIter ); + } + else + { + sTemp = aName.copy ( nStreamIndex + 1 ); + if ( ( *aIter ).second->hasByName( sTemp ) ) + return true; + else + m_aRecent.erase( aIter ); + } + } + } + else + { + if ( m_xRootFolder->hasByName ( aName ) ) + return true; + } + ZipPackageFolder * pCurrent = m_xRootFolder.get(); + ZipPackageFolder * pPrevious = nullptr; + nOldIndex = 0; + while ( ( nIndex = aName.indexOf( '/', nOldIndex )) != -1 ) + { + sTemp = aName.copy ( nOldIndex, nIndex - nOldIndex ); + if ( nIndex == nOldIndex ) + break; + if ( pCurrent->hasByName( sTemp ) ) + { + pPrevious = pCurrent; + ZipContentInfo& rInfo = pCurrent->doGetByName(sTemp); + if (!rInfo.bFolder) + throw css::packages::zip::ZipIOException("Bad Zip File, stream as folder"); + pCurrent = rInfo.pFolder; + } + else + return false; + nOldIndex = nIndex+1; + } + if ( bFolder ) + { + m_aRecent[sDirName] = pPrevious; + return true; + } + else + { + sTemp = aName.copy( nOldIndex ); + + if ( pCurrent->hasByName( sTemp ) ) + { + m_aRecent[sDirName] = pCurrent; + return true; + } + } + } + catch (const uno::RuntimeException &) + { + throw; + } + catch (const uno::Exception&) + { + uno::Any e(::cppu::getCaughtException()); + throw lang::WrappedTargetRuntimeException("ZipPackage::hasByHierarchicalName", nullptr, e); + } + return false; +} + +uno::Reference< XInterface > SAL_CALL ZipPackage::createInstance() +{ + uno::Reference < XInterface > xRef = *( new ZipPackageStream( *this, m_xContext, m_nFormat, m_bAllowRemoveOnInsert ) ); + return xRef; +} + +uno::Reference< XInterface > SAL_CALL ZipPackage::createInstanceWithArguments( const uno::Sequence< Any >& aArguments ) +{ + bool bArg = false; + uno::Reference < XInterface > xRef; + if ( aArguments.hasElements() ) + aArguments[0] >>= bArg; + if ( bArg ) + xRef = *new ZipPackageFolder( m_xContext, m_nFormat, m_bAllowRemoveOnInsert ); + else + xRef = *new ZipPackageStream( *this, m_xContext, m_nFormat, m_bAllowRemoveOnInsert ); + + return xRef; +} + +void ZipPackage::WriteMimetypeMagicFile( ZipOutputStream& aZipOut ) +{ + static const OUStringLiteral sMime (u"mimetype"); + if ( m_xRootFolder->hasByName( sMime ) ) + m_xRootFolder->removeByName( sMime ); + + ZipEntry * pEntry = new ZipEntry; + sal_Int32 nBufferLength = m_xRootFolder->GetMediaType().getLength(); + OString sMediaType = OUStringToOString( m_xRootFolder->GetMediaType(), RTL_TEXTENCODING_ASCII_US ); + const uno::Sequence< sal_Int8 > aType( reinterpret_cast<sal_Int8 const *>(sMediaType.getStr()), + nBufferLength ); + + pEntry->sPath = sMime; + pEntry->nMethod = STORED; + pEntry->nSize = pEntry->nCompressedSize = nBufferLength; + pEntry->nTime = ZipOutputStream::getCurrentDosTime(); + + CRC32 aCRC32; + aCRC32.update( aType ); + pEntry->nCrc = aCRC32.getValue(); + + try + { + ZipOutputStream::setEntry(pEntry); + aZipOut.writeLOC(pEntry); + aZipOut.rawWrite(aType); + aZipOut.rawCloseEntry(); + } + catch ( const css::io::IOException & ) + { + css::uno::Any anyEx = cppu::getCaughtException(); + throw WrappedTargetException( + THROW_WHERE "Error adding mimetype to the ZipOutputStream!", + static_cast < OWeakObject * > ( this ), + anyEx ); + } +} + +void ZipPackage::WriteManifest( ZipOutputStream& aZipOut, const std::vector< uno::Sequence < PropertyValue > >& aManList ) +{ + // Write the manifest + uno::Reference < XManifestWriter > xWriter = ManifestWriter::create( m_xContext ); + ZipEntry * pEntry = new ZipEntry; + rtl::Reference<ZipPackageBuffer> pBuffer = new ZipPackageBuffer; + + pEntry->sPath = "META-INF/manifest.xml"; + pEntry->nMethod = DEFLATED; + pEntry->nCrc = -1; + pEntry->nSize = pEntry->nCompressedSize = -1; + pEntry->nTime = ZipOutputStream::getCurrentDosTime(); + + xWriter->writeManifestSequence ( pBuffer, comphelper::containerToSequence(aManList) ); + + sal_Int32 nBufferLength = static_cast < sal_Int32 > ( pBuffer->getPosition() ); + pBuffer->realloc( nBufferLength ); + + // the manifest.xml is never encrypted - so pass an empty reference + ZipOutputStream::setEntry(pEntry); + aZipOut.writeLOC(pEntry); + ZipOutputEntry aZipEntry(aZipOut.getStream(), m_xContext, *pEntry, nullptr, /*bEncrypt*/false); + aZipEntry.write(pBuffer->getSequence()); + aZipEntry.closeEntry(); + aZipOut.rawCloseEntry(); +} + +void ZipPackage::WriteContentTypes( ZipOutputStream& aZipOut, const std::vector< uno::Sequence < PropertyValue > >& aManList ) +{ + ZipEntry* pEntry = new ZipEntry; + rtl::Reference<ZipPackageBuffer> pBuffer = new ZipPackageBuffer; + + pEntry->sPath = "[Content_Types].xml"; + pEntry->nMethod = DEFLATED; + pEntry->nCrc = -1; + pEntry->nSize = pEntry->nCompressedSize = -1; + pEntry->nTime = ZipOutputStream::getCurrentDosTime(); + + // Add default entries, the count must be updated manually when appending. + // Add at least the standard default entries. + uno::Sequence< beans::StringPair > aDefaultsSequence + { + { "xml", "application/xml" }, + { "rels", "application/vnd.openxmlformats-package.relationships+xml" }, + { "png", "image/png" }, + { "jpeg", "image/jpeg" } + }; + + uno::Sequence< beans::StringPair > aOverridesSequence(aManList.size()); + auto aOverridesSequenceRange = asNonConstRange(aOverridesSequence); + sal_Int32 nOverSeqLength = 0; + for (const auto& rMan : aManList) + { + OUString aType; + OSL_ENSURE( rMan[PKG_MNFST_MEDIATYPE].Name == "MediaType" && rMan[PKG_MNFST_FULLPATH].Name == "FullPath", + "The mediatype sequence format is wrong!" ); + rMan[PKG_MNFST_MEDIATYPE].Value >>= aType; + if ( !aType.isEmpty() ) + { + OUString aPath; + // only nonempty type makes sense here + rMan[PKG_MNFST_FULLPATH].Value >>= aPath; + //FIXME: For now we have no way of differentiating defaults from others. + aOverridesSequenceRange[nOverSeqLength].First = "/" + aPath; + aOverridesSequenceRange[nOverSeqLength].Second = aType; + ++nOverSeqLength; + } + } + aOverridesSequence.realloc(nOverSeqLength); + + ::comphelper::OFOPXMLHelper::WriteContentSequence( + pBuffer, aDefaultsSequence, aOverridesSequence, m_xContext ); + + sal_Int32 nBufferLength = static_cast < sal_Int32 > ( pBuffer->getPosition() ); + pBuffer->realloc( nBufferLength ); + + // there is no encryption in this format currently + ZipOutputStream::setEntry(pEntry); + aZipOut.writeLOC(pEntry); + ZipOutputEntry aZipEntry(aZipOut.getStream(), m_xContext, *pEntry, nullptr, /*bEncrypt*/false); + aZipEntry.write(pBuffer->getSequence()); + aZipEntry.closeEntry(); + aZipOut.rawCloseEntry(); +} + +void ZipPackage::ConnectTo( const uno::Reference< io::XInputStream >& xInStream ) +{ + m_xContentSeek.set( xInStream, uno::UNO_QUERY_THROW ); + m_xContentStream = xInStream; + + // seek back to the beginning of the temp file so we can read segments from it + m_xContentSeek->seek( 0 ); + if ( m_pZipFile ) + m_pZipFile->setInputStream( m_xContentStream ); + else + m_pZipFile.emplace(m_aMutexHolder, m_xContentStream, m_xContext, false); +} + +namespace +{ + class RandomPool + { + private: + rtlRandomPool m_aRandomPool; + public: + RandomPool() : m_aRandomPool(rtl_random_createPool ()) + { + } + rtlRandomPool get() + { + return m_aRandomPool; + } + ~RandomPool() + { + // Clean up random pool memory + rtl_random_destroyPool(m_aRandomPool); + } + }; +} + +uno::Reference< io::XInputStream > ZipPackage::writeTempFile() +{ + // In case the target local file does not exist or empty + // write directly to it otherwise create a temporary file to write to. + // If a temporary file is created it is returned back by the method. + // If the data written directly, xComponentStream will be switched here + + bool bUseTemp = true; + uno::Reference < io::XInputStream > xResult; + uno::Reference < io::XInputStream > xTempIn; + + uno::Reference < io::XOutputStream > xTempOut; + uno::Reference< io::XActiveDataStreamer > xSink; + + if ( m_eMode == e_IMode_URL && !m_pZipFile && isLocalFile() ) + { + xSink = openOriginalForOutput(); + if( xSink.is() ) + { + uno::Reference< io::XStream > xStr = xSink->getStream(); + if( xStr.is() ) + { + xTempOut = xStr->getOutputStream(); + if( xTempOut.is() ) + bUseTemp = false; + } + } + } + else if ( m_eMode == e_IMode_XStream && !m_pZipFile ) + { + // write directly to an empty stream + xTempOut = m_xStream->getOutputStream(); + if( xTempOut.is() ) + bUseTemp = false; + } + + if( bUseTemp ) + { + // create temporary file + uno::Reference < io::XTempFile > xTempFile( io::TempFile::create(m_xContext) ); + xTempOut.set( xTempFile->getOutputStream(), UNO_SET_THROW ); + xTempIn.set( xTempFile->getInputStream(), UNO_SET_THROW ); + } + + // Hand it to the ZipOutputStream: + ZipOutputStream aZipOut( xTempOut ); + try + { + if ( m_nFormat == embed::StorageFormats::PACKAGE ) + { + // Remove the old manifest.xml file as the + // manifest will be re-generated and the + // META-INF directory implicitly created if does not exist + static constexpr OUStringLiteral sMeta (u"META-INF"); + + if ( m_xRootFolder->hasByName( sMeta ) ) + { + static const OUStringLiteral sManifest (u"manifest.xml"); + + uno::Reference< XUnoTunnel > xTunnel; + Any aAny = m_xRootFolder->getByName( sMeta ); + aAny >>= xTunnel; + uno::Reference< XNameContainer > xMetaInfFolder( xTunnel, UNO_QUERY ); + if ( xMetaInfFolder.is() && xMetaInfFolder->hasByName( sManifest ) ) + xMetaInfFolder->removeByName( sManifest ); + } + + // Write a magic file with mimetype + WriteMimetypeMagicFile( aZipOut ); + } + else if ( m_nFormat == embed::StorageFormats::OFOPXML ) + { + // Remove the old [Content_Types].xml file as the + // file will be re-generated + + static constexpr OUStringLiteral aContentTypes(u"[Content_Types].xml"); + + if ( m_xRootFolder->hasByName( aContentTypes ) ) + m_xRootFolder->removeByName( aContentTypes ); + } + + // Create a vector to store data for the manifest.xml file + std::vector < uno::Sequence < PropertyValue > > aManList; + + static constexpr OUStringLiteral sMediaType(u"MediaType"); + static constexpr OUStringLiteral sVersion(u"Version"); + static constexpr OUStringLiteral sFullPath(u"FullPath"); + const bool bIsGpgEncrypt = m_aGpgProps.hasElements(); + + if ( m_nFormat == embed::StorageFormats::PACKAGE ) + { + uno::Sequence < PropertyValue > aPropSeq( + bIsGpgEncrypt ? PKG_SIZE_NOENCR_MNFST+1 : PKG_SIZE_NOENCR_MNFST ); + auto pPropSeq = aPropSeq.getArray(); + pPropSeq [PKG_MNFST_MEDIATYPE].Name = sMediaType; + pPropSeq [PKG_MNFST_MEDIATYPE].Value <<= m_xRootFolder->GetMediaType(); + pPropSeq [PKG_MNFST_VERSION].Name = sVersion; + pPropSeq [PKG_MNFST_VERSION].Value <<= m_xRootFolder->GetVersion(); + pPropSeq [PKG_MNFST_FULLPATH].Name = sFullPath; + pPropSeq [PKG_MNFST_FULLPATH].Value <<= OUString("/"); + + if( bIsGpgEncrypt ) + { + pPropSeq[PKG_SIZE_NOENCR_MNFST].Name = "KeyInfo"; + pPropSeq[PKG_SIZE_NOENCR_MNFST].Value <<= m_aGpgProps; + } + aManList.push_back( aPropSeq ); + } + + { + // This will be used to generate random salt and initialisation vectors + // for encrypted streams + RandomPool aRandomPool; + + sal_Int32 const nPBKDF2IterationCount = 100000; + + // call saveContents ( it will recursively save sub-directories + m_xRootFolder->saveContents("", aManList, aZipOut, GetEncryptionKey(), bIsGpgEncrypt ? 0 : nPBKDF2IterationCount, aRandomPool.get()); + } + + if( m_nFormat == embed::StorageFormats::PACKAGE ) + { + WriteManifest( aZipOut, aManList ); + } + else if( m_nFormat == embed::StorageFormats::OFOPXML ) + { + WriteContentTypes( aZipOut, aManList ); + } + + aZipOut.finish(); + + if( bUseTemp ) + xResult = xTempIn; + + // Update our References to point to the new temp file + if( !bUseTemp ) + { + // the case when the original contents were written directly + xTempOut->flush(); + + // in case the stream is based on a file it will implement the following interface + // the call should be used to be sure that the contents are written to the file system + uno::Reference< io::XAsyncOutputMonitor > asyncOutputMonitor( xTempOut, uno::UNO_QUERY ); + if (asyncOutputMonitor.is() && !m_bDisableFileSync) + asyncOutputMonitor->waitForCompletion(); + + // no need to postpone switching to the new stream since the target was written directly + uno::Reference< io::XInputStream > xNewStream; + if ( m_eMode == e_IMode_URL ) + xNewStream = xSink->getStream()->getInputStream(); + else if ( m_eMode == e_IMode_XStream && m_xStream.is() ) + xNewStream = m_xStream->getInputStream(); + + if ( xNewStream.is() ) + ConnectTo( xNewStream ); + } + } + catch ( uno::Exception& ) + { + if( bUseTemp ) + { + // no information loss appears, thus no special handling is required + uno::Any aCaught( ::cppu::getCaughtException() ); + + // it is allowed to throw WrappedTargetException + WrappedTargetException aException; + if ( aCaught >>= aException ) + throw aException; + + throw WrappedTargetException( + THROW_WHERE "Problem writing the original content!", + static_cast < OWeakObject * > ( this ), + aCaught ); + } + else + { + // the document is written directly, although it was empty it is important to notify that the writing has failed + // TODO/LATER: let the package be able to recover in this situation + OUString aErrTxt(THROW_WHERE "This package is unusable!"); + embed::UseBackupException aException( aErrTxt, uno::Reference< uno::XInterface >(), OUString() ); + throw WrappedTargetException( aErrTxt, + static_cast < OWeakObject * > ( this ), + Any ( aException ) ); + } + } + + return xResult; +} + +uno::Reference< XActiveDataStreamer > ZipPackage::openOriginalForOutput() +{ + // open and truncate the original file + Content aOriginalContent( + m_aURL, uno::Reference< XCommandEnvironment >(), + m_xContext ); + uno::Reference< XActiveDataStreamer > xSink = new ActiveDataStreamer; + + if ( m_eMode == e_IMode_URL ) + { + try + { + bool bTruncSuccess = false; + + try + { + Exception aDetect; + Any aAny = aOriginalContent.setPropertyValue("Size", Any( sal_Int64(0) ) ); + if( !( aAny >>= aDetect ) ) + bTruncSuccess = true; + } + catch( Exception& ) + { + } + + if( !bTruncSuccess ) + { + // the file is not accessible + // just try to write an empty stream to it + + uno::Reference< XInputStream > xTempIn = new DummyInputStream; //uno::Reference< XInputStream >( xTempOut, UNO_QUERY ); + aOriginalContent.writeStream( xTempIn , true ); + } + + OpenCommandArgument2 aArg; + aArg.Mode = OpenMode::DOCUMENT; + aArg.Priority = 0; // unused + aArg.Sink = xSink; + aArg.Properties = uno::Sequence< Property >( 0 ); // unused + + aOriginalContent.executeCommand("open", Any( aArg ) ); + } + catch( Exception& ) + { + // seems to be nonlocal file + // temporary file mechanics should be used + } + } + + return xSink; +} + +void SAL_CALL ZipPackage::commitChanges() +{ + // lock the component for the time of committing + ::osl::MutexGuard aGuard( m_aMutexHolder->GetMutex() ); + + if ( m_eMode == e_IMode_XInputStream ) + { + IOException aException; + throw WrappedTargetException(THROW_WHERE "This package is read only!", + static_cast < OWeakObject * > ( this ), Any ( aException ) ); + } + // first the writeTempFile is called, if it returns a stream the stream should be written to the target + // if no stream was returned, the file was written directly, nothing should be done + uno::Reference< io::XInputStream > xTempInStream; + try + { + xTempInStream = writeTempFile(); + } + catch (const ucb::ContentCreationException&) + { + css::uno::Any anyEx = cppu::getCaughtException(); + throw WrappedTargetException(THROW_WHERE "Temporary file should be creatable!", + static_cast < OWeakObject * > ( this ), anyEx ); + } + if ( xTempInStream.is() ) + { + uno::Reference< io::XSeekable > xTempSeek( xTempInStream, uno::UNO_QUERY_THROW ); + + try + { + xTempSeek->seek( 0 ); + } + catch( const uno::Exception& ) + { + css::uno::Any anyEx = cppu::getCaughtException(); + throw WrappedTargetException(THROW_WHERE "Temporary file should be seekable!", + static_cast < OWeakObject * > ( this ), anyEx ); + } + + try + { + // connect to the temporary stream + ConnectTo( xTempInStream ); + } + catch( const io::IOException& ) + { + css::uno::Any anyEx = cppu::getCaughtException(); + throw WrappedTargetException(THROW_WHERE "Temporary file should be connectable!", + static_cast < OWeakObject * > ( this ), anyEx ); + } + + if ( m_eMode == e_IMode_XStream ) + { + // First truncate our output stream + uno::Reference < XOutputStream > xOutputStream; + + // preparation for copy step + try + { + xOutputStream = m_xStream->getOutputStream(); + + // Make sure we avoid a situation where the current position is + // not zero, but the underlying file is truncated in the + // meantime. + uno::Reference<io::XSeekable> xSeekable(xOutputStream, uno::UNO_QUERY); + if (xSeekable.is()) + xSeekable->seek(0); + + uno::Reference < XTruncate > xTruncate ( xOutputStream, UNO_QUERY_THROW ); + + // after successful truncation the original file contents are already lost + xTruncate->truncate(); + } + catch( const uno::Exception& ) + { + css::uno::Any anyEx = cppu::getCaughtException(); + throw WrappedTargetException(THROW_WHERE "This package is read only!", + static_cast < OWeakObject * > ( this ), anyEx ); + } + + try + { + // then copy the contents of the tempfile to our output stream + ::comphelper::OStorageHelper::CopyInputToOutput( xTempInStream, xOutputStream ); + xOutputStream->flush(); + uno::Reference< io::XAsyncOutputMonitor > asyncOutputMonitor( + xOutputStream, uno::UNO_QUERY ); + if ( asyncOutputMonitor.is() ) { + asyncOutputMonitor->waitForCompletion(); + } + } + catch( uno::Exception& ) + { + // if anything goes wrong in this block the target file becomes corrupted + // so an exception should be thrown as a notification about it + // and the package must disconnect from the stream + DisconnectFromTargetAndThrowException_Impl( xTempInStream ); + } + } + else if ( m_eMode == e_IMode_URL ) + { + uno::Reference< XOutputStream > aOrigFileStream; + bool bCanBeCorrupted = false; + + if( isLocalFile() ) + { + // write directly in case of local file + uno::Reference< css::ucb::XSimpleFileAccess3 > xSimpleAccess( + SimpleFileAccess::create( m_xContext ) ); + OSL_ENSURE( xSimpleAccess.is(), "Can't instantiate SimpleFileAccess service!" ); + uno::Reference< io::XTruncate > xOrigTruncate; + if ( xSimpleAccess.is() ) + { + try + { + aOrigFileStream = xSimpleAccess->openFileWrite( m_aURL ); + xOrigTruncate.set( aOrigFileStream, uno::UNO_QUERY_THROW ); + // after successful truncation the file is already corrupted + xOrigTruncate->truncate(); + } + catch( uno::Exception& ) + {} + } + + if( xOrigTruncate.is() ) + { + try + { + ::comphelper::OStorageHelper::CopyInputToOutput( xTempInStream, aOrigFileStream ); + aOrigFileStream->closeOutput(); + } + catch( uno::Exception& ) + { + try { + aOrigFileStream->closeOutput(); + } catch ( uno::Exception& ) {} + + aOrigFileStream.clear(); + // the original file can already be corrupted + bCanBeCorrupted = true; + } + } + } + + if( !aOrigFileStream.is() ) + { + try + { + uno::Reference < XPropertySet > xPropSet ( xTempInStream, UNO_QUERY_THROW ); + + OUString sTargetFolder = m_aURL.copy ( 0, m_aURL.lastIndexOf ( u'/' ) ); + Content aContent( + sTargetFolder, uno::Reference< XCommandEnvironment >(), + m_xContext ); + + OUString sTempURL; + Any aAny = xPropSet->getPropertyValue ("Uri"); + aAny >>= sTempURL; + + TransferInfo aInfo; + aInfo.NameClash = NameClash::OVERWRITE; + aInfo.MoveData = false; + aInfo.SourceURL = sTempURL; + aInfo.NewTitle = rtl::Uri::decode ( m_aURL.copy ( 1 + m_aURL.lastIndexOf ( u'/' ) ), + rtl_UriDecodeWithCharset, + RTL_TEXTENCODING_UTF8 ); + // if the file is still not corrupted, it can become after the next step + aContent.executeCommand ("transfer", Any(aInfo) ); + } + catch ( const css::uno::Exception& ) + { + if ( bCanBeCorrupted ) + DisconnectFromTargetAndThrowException_Impl( xTempInStream ); + + css::uno::Any anyEx = cppu::getCaughtException(); + throw WrappedTargetException( + THROW_WHERE "This package may be read only!", + static_cast < OWeakObject * > ( this ), + anyEx ); + } + } + } + } + + // after successful storing it can be set to false + m_bMediaTypeFallbackUsed = false; +} + +void ZipPackage::DisconnectFromTargetAndThrowException_Impl( const uno::Reference< io::XInputStream >& xTempStream ) +{ + m_xStream.set( xTempStream, uno::UNO_QUERY ); + if ( m_xStream.is() ) + m_eMode = e_IMode_XStream; + else + m_eMode = e_IMode_XInputStream; + + OUString aTempURL; + try { + uno::Reference< beans::XPropertySet > xTempFile( xTempStream, uno::UNO_QUERY_THROW ); + uno::Any aUrl = xTempFile->getPropertyValue("Uri"); + aUrl >>= aTempURL; + xTempFile->setPropertyValue("RemoveFile", + uno::Any( false ) ); + } + catch ( uno::Exception& ) + { + OSL_FAIL( "These calls are pretty simple, they should not fail!" ); + } + + OUString aErrTxt(THROW_WHERE "This package is read only!"); + embed::UseBackupException aException( aErrTxt, uno::Reference< uno::XInterface >(), aTempURL ); + throw WrappedTargetException( aErrTxt, + static_cast < OWeakObject * > ( this ), + Any ( aException ) ); +} + +uno::Sequence< sal_Int8 > ZipPackage::GetEncryptionKey() +{ + uno::Sequence< sal_Int8 > aResult; + + if ( m_aStorageEncryptionKeys.hasElements() ) + { + OUString aNameToFind; + if ( m_nStartKeyGenerationID == xml::crypto::DigestID::SHA256 ) + aNameToFind = PACKAGE_ENCRYPTIONDATA_SHA256UTF8; + else if ( m_nStartKeyGenerationID == xml::crypto::DigestID::SHA1 ) + aNameToFind = PACKAGE_ENCRYPTIONDATA_SHA1CORRECT; + else + throw uno::RuntimeException(THROW_WHERE "No expected key is provided!" ); + + for ( const auto& rKey : std::as_const(m_aStorageEncryptionKeys) ) + if ( rKey.Name == aNameToFind ) + rKey.Value >>= aResult; + } + else + aResult = m_aEncryptionKey; + + return aResult; +} + +sal_Bool SAL_CALL ZipPackage::hasPendingChanges() +{ + return false; +} +Sequence< ElementChange > SAL_CALL ZipPackage::getPendingChanges() +{ + return uno::Sequence < ElementChange > (); +} + + +OUString ZipPackage::getImplementationName() +{ + return "com.sun.star.packages.comp.ZipPackage"; +} + +Sequence< OUString > ZipPackage::getSupportedServiceNames() +{ + return { "com.sun.star.packages.Package" }; +} + +sal_Bool SAL_CALL ZipPackage::supportsService( OUString const & rServiceName ) +{ + return cppu::supportsService(this, rServiceName); +} + +const Sequence< sal_Int8 > & ZipPackage::getUnoTunnelId() +{ + static const comphelper::UnoIdInit implId; + return implId.getSeq(); +} + +sal_Int64 SAL_CALL ZipPackage::getSomething( const uno::Sequence< sal_Int8 >& aIdentifier ) +{ + return comphelper::getSomethingImpl(aIdentifier, this); +} + +uno::Reference< XPropertySetInfo > SAL_CALL ZipPackage::getPropertySetInfo() +{ + return uno::Reference < XPropertySetInfo > (); +} + +void SAL_CALL ZipPackage::setPropertyValue( const OUString& aPropertyName, const Any& aValue ) +{ + if ( m_nFormat != embed::StorageFormats::PACKAGE ) + throw UnknownPropertyException(aPropertyName); + + if (aPropertyName == HAS_ENCRYPTED_ENTRIES_PROPERTY + ||aPropertyName == HAS_NONENCRYPTED_ENTRIES_PROPERTY + ||aPropertyName == IS_INCONSISTENT_PROPERTY + ||aPropertyName == MEDIATYPE_FALLBACK_USED_PROPERTY) + throw PropertyVetoException(THROW_WHERE ); + else if ( aPropertyName == ENCRYPTION_KEY_PROPERTY ) + { + if ( !( aValue >>= m_aEncryptionKey ) ) + throw IllegalArgumentException(THROW_WHERE, uno::Reference< uno::XInterface >(), 2 ); + + m_aStorageEncryptionKeys.realloc( 0 ); + } + else if ( aPropertyName == STORAGE_ENCRYPTION_KEYS_PROPERTY ) + { + // this property is only necessary to support raw passwords in storage API; + // because of this support the storage has to operate with more than one key dependent on storage generation algorithm; + // when this support is removed, the storage will get only one key from outside + if ( !( aValue >>= m_aStorageEncryptionKeys ) ) + throw IllegalArgumentException(THROW_WHERE, uno::Reference< uno::XInterface >(), 2 ); + + m_aEncryptionKey.realloc( 0 ); + } + else if ( aPropertyName == ENCRYPTION_ALGORITHMS_PROPERTY ) + { + uno::Sequence< beans::NamedValue > aAlgorithms; + if ( m_pZipFile || !( aValue >>= aAlgorithms ) || !aAlgorithms.hasElements() ) + { + // the algorithms can not be changed if the file has a persistence based on the algorithms ( m_pZipFile ) + throw IllegalArgumentException(THROW_WHERE "unexpected algorithms list is provided.", uno::Reference< uno::XInterface >(), 2 ); + } + + for ( const auto& rAlgorithm : std::as_const(aAlgorithms) ) + { + if ( rAlgorithm.Name == "StartKeyGenerationAlgorithm" ) + { + sal_Int32 nID = 0; + if ( !( rAlgorithm.Value >>= nID ) + || ( nID != xml::crypto::DigestID::SHA256 && nID != xml::crypto::DigestID::SHA1 ) ) + throw IllegalArgumentException(THROW_WHERE "Unexpected start key generation algorithm is provided!", uno::Reference< uno::XInterface >(), 2 ); + + m_nStartKeyGenerationID = nID; + } + else if ( rAlgorithm.Name == "EncryptionAlgorithm" ) + { + sal_Int32 nID = 0; + if ( !( rAlgorithm.Value >>= nID ) + || ( nID != xml::crypto::CipherID::AES_CBC_W3C_PADDING && nID != xml::crypto::CipherID::BLOWFISH_CFB_8 ) ) + throw IllegalArgumentException(THROW_WHERE "Unexpected start key generation algorithm is provided!", uno::Reference< uno::XInterface >(), 2 ); + + m_nCommonEncryptionID = nID; + } + else if ( rAlgorithm.Name == "ChecksumAlgorithm" ) + { + sal_Int32 nID = 0; + if ( !( rAlgorithm.Value >>= nID ) + || ( nID != xml::crypto::DigestID::SHA1_1K && nID != xml::crypto::DigestID::SHA256_1K ) ) + throw IllegalArgumentException(THROW_WHERE "Unexpected start key generation algorithm is provided!", uno::Reference< uno::XInterface >(), 2 ); + + m_nChecksumDigestID = nID; + } + else + { + OSL_ENSURE( false, "Unexpected encryption algorithm is provided!" ); + throw IllegalArgumentException(THROW_WHERE "unexpected algorithms list is provided.", uno::Reference< uno::XInterface >(), 2 ); + } + } + } + else if ( aPropertyName == ENCRYPTION_GPG_PROPERTIES ) + { + uno::Sequence< uno::Sequence< beans::NamedValue > > aGpgProps; + if ( !( aValue >>= aGpgProps ) || !aGpgProps.hasElements() ) + { + throw IllegalArgumentException(THROW_WHERE "unexpected Gpg properties are provided.", uno::Reference< uno::XInterface >(), 2 ); + } + + m_aGpgProps = aGpgProps; + + // override algorithm defaults (which are some legacy ODF + // defaults) with reasonable values + m_nStartKeyGenerationID = 0; // this is unused for PGP + m_nCommonEncryptionID = xml::crypto::CipherID::AES_CBC_W3C_PADDING; + m_nChecksumDigestID = xml::crypto::DigestID::SHA512_1K; + } + else + throw UnknownPropertyException(aPropertyName); +} + +Any SAL_CALL ZipPackage::getPropertyValue( const OUString& PropertyName ) +{ + // TODO/LATER: Activate the check when zip-ucp is ready + // if ( m_nFormat != embed::StorageFormats::PACKAGE ) + // throw UnknownPropertyException(THROW_WHERE ); + + if ( PropertyName == ENCRYPTION_KEY_PROPERTY ) + { + return Any(m_aEncryptionKey); + } + else if ( PropertyName == ENCRYPTION_ALGORITHMS_PROPERTY ) + { + ::comphelper::SequenceAsHashMap aAlgorithms; + aAlgorithms["StartKeyGenerationAlgorithm"] <<= m_nStartKeyGenerationID; + aAlgorithms["EncryptionAlgorithm"] <<= m_nCommonEncryptionID; + aAlgorithms["ChecksumAlgorithm"] <<= m_nChecksumDigestID; + return Any(aAlgorithms.getAsConstNamedValueList()); + } + if ( PropertyName == STORAGE_ENCRYPTION_KEYS_PROPERTY ) + { + return Any(m_aStorageEncryptionKeys); + } + else if ( PropertyName == HAS_ENCRYPTED_ENTRIES_PROPERTY ) + { + return Any(m_bHasEncryptedEntries); + } + else if ( PropertyName == ENCRYPTION_GPG_PROPERTIES ) + { + return Any(m_aGpgProps); + } + else if ( PropertyName == HAS_NONENCRYPTED_ENTRIES_PROPERTY ) + { + return Any(m_bHasNonEncryptedEntries); + } + else if ( PropertyName == IS_INCONSISTENT_PROPERTY ) + { + return Any(m_bInconsistent); + } + else if ( PropertyName == MEDIATYPE_FALLBACK_USED_PROPERTY ) + { + return Any(m_bMediaTypeFallbackUsed); + } + throw UnknownPropertyException(PropertyName); +} +void SAL_CALL ZipPackage::addPropertyChangeListener( const OUString& /*aPropertyName*/, const uno::Reference< XPropertyChangeListener >& /*xListener*/ ) +{ +} +void SAL_CALL ZipPackage::removePropertyChangeListener( const OUString& /*aPropertyName*/, const uno::Reference< XPropertyChangeListener >& /*aListener*/ ) +{ +} +void SAL_CALL ZipPackage::addVetoableChangeListener( const OUString& /*PropertyName*/, const uno::Reference< XVetoableChangeListener >& /*aListener*/ ) +{ +} +void SAL_CALL ZipPackage::removeVetoableChangeListener( const OUString& /*PropertyName*/, const uno::Reference< XVetoableChangeListener >& /*aListener*/ ) +{ +} + +extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface* +package_ZipPackage_get_implementation( + css::uno::XComponentContext* context , css::uno::Sequence<css::uno::Any> const&) +{ + return cppu::acquire(new ZipPackage(context)); +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |