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|
/* -*- 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 <ZipPackageStream.hxx>
#include <com/sun/star/beans/PropertyValue.hpp>
#include <com/sun/star/container/XNameContainer.hpp>
#include <com/sun/star/packages/NoRawFormatException.hpp>
#include <com/sun/star/packages/zip/ZipConstants.hpp>
#include <com/sun/star/embed/StorageFormats.hpp>
#include <com/sun/star/packages/zip/ZipIOException.hpp>
#include <com/sun/star/packages/NoEncryptionException.hpp>
#include <com/sun/star/packages/zip/ZipException.hpp>
#include <com/sun/star/packages/WrongPasswordException.hpp>
#include <com/sun/star/io/TempFile.hpp>
#include <com/sun/star/io/XInputStream.hpp>
#include <com/sun/star/io/XOutputStream.hpp>
#include <com/sun/star/io/XStream.hpp>
#include <com/sun/star/io/XSeekable.hpp>
#include <com/sun/star/xml/crypto/DigestID.hpp>
#include <com/sun/star/xml/crypto/CipherID.hpp>
#include <com/sun/star/xml/crypto/KDFID.hpp>
#include <CRC32.hxx>
#include <ZipOutputEntry.hxx>
#include <ZipOutputStream.hxx>
#include <ZipPackage.hxx>
#include <ZipFile.hxx>
#include <EncryptedDataHeader.hxx>
#include <osl/diagnose.h>
#include "wrapstreamforshare.hxx"
#include <comphelper/seekableinput.hxx>
#include <comphelper/servicehelper.hxx>
#include <comphelper/storagehelper.hxx>
#include <cppuhelper/supportsservice.hxx>
#include <unotools/tempfile.hxx>
#include <rtl/random.h>
#include <sal/log.hxx>
#include <o3tl/unreachable.hxx>
#include <comphelper/diagnose_ex.hxx>
#include <PackageConstants.hxx>
#include <algorithm>
#include <cstddef>
using namespace com::sun::star::packages::zip::ZipConstants;
using namespace com::sun::star::packages::zip;
using namespace com::sun::star::uno;
using namespace com::sun::star::lang;
using namespace com::sun::star;
using namespace cppu;
#if OSL_DEBUG_LEVEL > 0
#define THROW_WHERE SAL_WHERE
#else
#define THROW_WHERE ""
#endif
ZipPackageStream::ZipPackageStream ( ZipPackage & rNewPackage,
const uno::Reference< XComponentContext >& xContext,
sal_Int32 nFormat,
bool bAllowRemoveOnInsert )
: m_rZipPackage( rNewPackage )
, m_bToBeCompressed ( true )
, m_bToBeEncrypted ( false )
, m_bHaveOwnKey ( false )
, m_bIsEncrypted ( false )
, m_nImportedStartKeyAlgorithm( 0 )
, m_nImportedEncryptionAlgorithm( 0 )
, m_nImportedDerivedKeySize( 0 )
, m_nStreamMode( PACKAGE_STREAM_NOTSET )
, m_nMagicalHackPos( 0 )
, m_nMagicalHackSize( 0 )
, m_nOwnStreamOrigSize( 0 )
, m_bHasSeekable( false )
, m_bCompressedIsSetFromOutside( false )
, m_bFromManifest( false )
, m_bUseWinEncoding( false )
, m_bRawStream( false )
{
m_xContext = xContext;
m_nFormat = nFormat;
mbAllowRemoveOnInsert = bAllowRemoveOnInsert;
SetFolder ( false );
aEntry.nVersion = -1;
aEntry.nFlag = 0;
aEntry.nMethod = -1;
aEntry.nTime = -1;
aEntry.nCrc = -1;
aEntry.nCompressedSize = -1;
aEntry.nSize = -1;
aEntry.nOffset = -1;
aEntry.nPathLen = -1;
aEntry.nExtraLen = -1;
}
ZipPackageStream::~ZipPackageStream()
{
}
void ZipPackageStream::setZipEntryOnLoading( const ZipEntry &rInEntry )
{
aEntry.nVersion = rInEntry.nVersion;
aEntry.nFlag = rInEntry.nFlag;
aEntry.nMethod = rInEntry.nMethod;
aEntry.nTime = rInEntry.nTime;
aEntry.nCrc = rInEntry.nCrc;
aEntry.nCompressedSize = rInEntry.nCompressedSize;
aEntry.nSize = rInEntry.nSize;
aEntry.nOffset = rInEntry.nOffset;
aEntry.sPath = rInEntry.sPath;
aEntry.nPathLen = rInEntry.nPathLen;
aEntry.nExtraLen = rInEntry.nExtraLen;
if ( aEntry.nMethod == STORED )
m_bToBeCompressed = false;
}
uno::Reference< io::XInputStream > const & ZipPackageStream::GetOwnSeekStream()
{
if ( !m_bHasSeekable && m_xStream.is() )
{
// The package component requires that every stream either be FROM a package or it must support XSeekable!
// The only exception is a nonseekable stream that is provided only for storing, if such a stream
// is accessed before commit it MUST be wrapped.
// Wrap the stream in case it is not seekable
m_xStream = ::comphelper::OSeekableInputWrapper::CheckSeekableCanWrap( m_xStream, m_xContext );
uno::Reference< io::XSeekable > xSeek( m_xStream, UNO_QUERY_THROW );
m_bHasSeekable = true;
}
return m_xStream;
}
uno::Reference< io::XInputStream > ZipPackageStream::GetRawEncrStreamNoHeaderCopy()
{
if ( m_nStreamMode != PACKAGE_STREAM_RAW || !GetOwnSeekStream().is() )
throw io::IOException(THROW_WHERE );
if ( m_xBaseEncryptionData.is() )
throw ZipIOException(THROW_WHERE "Encrypted stream without encryption data!" );
uno::Reference< io::XSeekable > xSeek( GetOwnSeekStream(), UNO_QUERY );
if ( !xSeek.is() )
throw ZipIOException(THROW_WHERE "The stream must be seekable!" );
// skip header
xSeek->seek( n_ConstHeaderSize + m_xBaseEncryptionData->m_aInitVector.getLength() +
m_xBaseEncryptionData->m_aSalt.getLength() + m_xBaseEncryptionData->m_aDigest.getLength() );
// create temporary stream
rtl::Reference < utl::TempFileFastService > xTempFile = new utl::TempFileFastService;
uno::Reference < io::XInputStream > xTempIn = xTempFile->getInputStream();
// copy the raw stream to the temporary file starting from the current position
::comphelper::OStorageHelper::CopyInputToOutput( GetOwnSeekStream(), xTempFile );
xTempFile->closeOutput();
xTempFile->seek( 0 );
return xTempIn;
}
sal_Int32 ZipPackageStream::GetEncryptionAlgorithm() const
{
return m_nImportedEncryptionAlgorithm ? m_nImportedEncryptionAlgorithm : m_rZipPackage.GetEncAlgID();
}
sal_Int32 ZipPackageStream::GetIVSize() const
{
switch (GetEncryptionAlgorithm())
{
case css::xml::crypto::CipherID::BLOWFISH_CFB_8:
return 8;
case css::xml::crypto::CipherID::AES_CBC_W3C_PADDING:
return 16;
case css::xml::crypto::CipherID::AES_GCM_W3C:
return 12;
default:
O3TL_UNREACHABLE;
}
}
::rtl::Reference<EncryptionData> ZipPackageStream::GetEncryptionData(Bugs const bugs)
{
::rtl::Reference< EncryptionData > xResult;
if ( m_xBaseEncryptionData.is() )
xResult = new EncryptionData(
*m_xBaseEncryptionData,
GetEncryptionKey(bugs),
GetEncryptionAlgorithm(),
m_oImportedChecksumAlgorithm ? m_oImportedChecksumAlgorithm : m_rZipPackage.GetChecksumAlgID(),
m_nImportedDerivedKeySize ? m_nImportedDerivedKeySize : m_rZipPackage.GetDefaultDerivedKeySize(),
GetStartKeyGenID(),
bugs != Bugs::None);
return xResult;
}
uno::Sequence<sal_Int8> ZipPackageStream::GetEncryptionKey(Bugs const bugs)
{
uno::Sequence< sal_Int8 > aResult;
sal_Int32 nKeyGenID = GetStartKeyGenID();
bool const bUseWinEncoding = (bugs == Bugs::WinEncodingWrongSHA1 || m_bUseWinEncoding);
if ( m_bHaveOwnKey && m_aStorageEncryptionKeys.hasElements() )
{
OUString aNameToFind;
if ( nKeyGenID == xml::crypto::DigestID::SHA256 )
aNameToFind = PACKAGE_ENCRYPTIONDATA_SHA256UTF8;
else if ( nKeyGenID == xml::crypto::DigestID::SHA1 )
{
aNameToFind = bUseWinEncoding
? PACKAGE_ENCRYPTIONDATA_SHA1MS1252
: (bugs == Bugs::WrongSHA1)
? PACKAGE_ENCRYPTIONDATA_SHA1UTF8
: 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;
// empty keys are not allowed here
// so it is not important whether there is no key, or the key is empty, it is an error
if ( !aResult.hasElements() )
throw uno::RuntimeException(THROW_WHERE "No expected key is provided!" );
}
else
aResult = m_aEncryptionKey;
if ( !aResult.hasElements() || !m_bHaveOwnKey )
aResult = m_rZipPackage.GetEncryptionKey();
return aResult;
}
sal_Int32 ZipPackageStream::GetStartKeyGenID() const
{
// generally should all the streams use the same Start Key
// but if raw copy without password takes place, we should preserve the imported algorithm
return m_nImportedStartKeyAlgorithm ? m_nImportedStartKeyAlgorithm : m_rZipPackage.GetStartKeyGenID();
}
uno::Reference< io::XInputStream > ZipPackageStream::TryToGetRawFromDataStream( bool bAddHeaderForEncr )
{
if ( m_nStreamMode != PACKAGE_STREAM_DATA || !GetOwnSeekStream().is() || ( bAddHeaderForEncr && !m_bToBeEncrypted ) )
throw packages::NoEncryptionException(THROW_WHERE );
Sequence< sal_Int8 > aKey;
if ( m_bToBeEncrypted )
{
aKey = GetEncryptionKey();
if ( !aKey.hasElements() )
throw packages::NoEncryptionException(THROW_WHERE );
}
try
{
// create temporary file
uno::Reference < io::XStream > xTempStream(new utl::TempFileFastService);
// create a package based on it
rtl::Reference<ZipPackage> pPackage = new ZipPackage( m_xContext );
Sequence< Any > aArgs{ Any(xTempStream) };
pPackage->initialize( aArgs );
// create a new package stream
uno::Reference< XDataSinkEncrSupport > xNewPackStream( pPackage->createInstance(), UNO_QUERY_THROW );
xNewPackStream->setDataStream(
new WrapStreamForShare(GetOwnSeekStream(), m_rZipPackage.GetSharedMutexRef()));
uno::Reference< XPropertySet > xNewPSProps( xNewPackStream, UNO_QUERY_THROW );
// copy all the properties of this stream to the new stream
xNewPSProps->setPropertyValue("MediaType", Any( msMediaType ) );
xNewPSProps->setPropertyValue("Compressed", Any( m_bToBeCompressed ) );
if ( m_bToBeEncrypted )
{
xNewPSProps->setPropertyValue(ENCRYPTION_KEY_PROPERTY, Any( aKey ) );
xNewPSProps->setPropertyValue("Encrypted", Any( true ) );
}
// insert a new stream in the package
uno::Reference< XInterface > xTmp;
Any aRoot = pPackage->getByHierarchicalName("/");
aRoot >>= xTmp;
uno::Reference< container::XNameContainer > xRootNameContainer( xTmp, UNO_QUERY_THROW );
uno::Reference< XInterface > xNPSDummy( xNewPackStream, UNO_QUERY );
xRootNameContainer->insertByName("dummy", Any( xNPSDummy ) );
// commit the temporary package
pPackage->commitChanges();
// get raw stream from the temporary package
uno::Reference< io::XInputStream > xInRaw;
if ( bAddHeaderForEncr )
xInRaw = xNewPackStream->getRawStream();
else
xInRaw = xNewPackStream->getPlainRawStream();
// create another temporary file
rtl::Reference < utl::TempFileFastService > xTempOut = new utl::TempFileFastService;
uno::Reference < io::XInputStream > xTempIn( xTempOut );
// copy the raw stream to the temporary file
::comphelper::OStorageHelper::CopyInputToOutput( xInRaw, xTempOut );
xTempOut->closeOutput();
xTempOut->seek( 0 );
// close raw stream, package stream and folder
xInRaw.clear();
xNewPSProps.clear();
xNPSDummy.clear();
xNewPackStream.clear();
xTmp.clear();
xRootNameContainer.clear();
// return the stream representing the first temporary file
return xTempIn;
}
catch ( RuntimeException& )
{
throw;
}
catch ( Exception& )
{
}
throw io::IOException(THROW_WHERE );
}
// presumably the purpose of this is to transfer encrypted streams between
// storages, needed for password-protected macros in documents, which is
// tragically a feature that exists
bool ZipPackageStream::ParsePackageRawStream()
{
OSL_ENSURE( GetOwnSeekStream().is(), "A stream must be provided!" );
if ( !GetOwnSeekStream().is() )
return false;
bool bOk = false;
::rtl::Reference< BaseEncryptionData > xTempEncrData;
Sequence < sal_Int8 > aHeader ( 4 );
try
{
if ( GetOwnSeekStream()->readBytes ( aHeader, 4 ) == 4 )
{
const sal_Int8 *pHeader = aHeader.getConstArray();
sal_uInt32 nHeader = ( pHeader [0] & 0xFF ) |
( pHeader [1] & 0xFF ) << 8 |
( pHeader [2] & 0xFF ) << 16 |
( pHeader [3] & 0xFF ) << 24;
if ( nHeader == n_ConstHeader )
{
// this is one of our god-awful, but extremely devious hacks, everyone cheer
xTempEncrData = new BaseEncryptionData;
OUString aMediaType;
sal_Int32 nEncAlgorithm = 0;
sal_Int32 nChecksumAlgorithm = 0;
sal_Int32 nDerivedKeySize = 0;
sal_Int32 nStartKeyGenID = 0;
sal_Int32 nMagHackSize = 0;
if ( ZipFile::StaticFillData( xTempEncrData, nEncAlgorithm, nChecksumAlgorithm, nDerivedKeySize, nStartKeyGenID, nMagHackSize, aMediaType, GetOwnSeekStream() ) )
{
// We'll want to skip the data we've just read, so calculate how much we just read
// and remember it
m_nMagicalHackPos = n_ConstHeaderSize + xTempEncrData->m_aSalt.getLength()
+ xTempEncrData->m_aInitVector.getLength()
+ xTempEncrData->m_aDigest.getLength()
+ aMediaType.getLength() * sizeof( sal_Unicode );
m_nImportedEncryptionAlgorithm = nEncAlgorithm;
if (nChecksumAlgorithm == 0)
{
m_oImportedChecksumAlgorithm.reset();
}
else
{
m_oImportedChecksumAlgorithm.emplace(nChecksumAlgorithm);
}
m_nImportedDerivedKeySize = nDerivedKeySize;
m_nImportedStartKeyAlgorithm = nStartKeyGenID;
m_nMagicalHackSize = nMagHackSize;
msMediaType = aMediaType;
bOk = true;
}
}
}
}
catch( Exception& )
{
}
if ( !bOk )
{
// the provided stream is not a raw stream
return false;
}
m_xBaseEncryptionData = xTempEncrData;
SetIsEncrypted ( true );
// it's already compressed and encrypted
m_bToBeEncrypted = m_bToBeCompressed = false;
return true;
}
static void ImplSetStoredData( ZipEntry & rEntry, uno::Reference< io::XInputStream> const & rStream )
{
// It's very annoying that we have to do this, but lots of zip packages
// don't allow data descriptors for STORED streams, meaning we have to
// know the size and CRC32 of uncompressed streams before we actually
// write them !
CRC32 aCRC32;
rEntry.nMethod = STORED;
rEntry.nCompressedSize = rEntry.nSize = aCRC32.updateStream ( rStream );
rEntry.nCrc = aCRC32.getValue();
}
bool ZipPackageStream::saveChild(
const OUString &rPath,
std::vector < uno::Sequence < beans::PropertyValue > > &rManList,
ZipOutputStream & rZipOut,
const uno::Sequence < sal_Int8 >& rEncryptionKey,
::std::optional<sal_Int32> const oPBKDF2IterationCount,
::std::optional<::std::tuple<sal_Int32, sal_Int32, sal_Int32>> const oArgon2Args,
const rtlRandomPool &rRandomPool)
{
bool bSuccess = true;
static constexpr OUString sDigestProperty (u"Digest"_ustr);
static constexpr OUString sEncryptionAlgProperty (u"EncryptionAlgorithm"_ustr);
static constexpr OUString sStartKeyAlgProperty (u"StartKeyAlgorithm"_ustr);
static constexpr OUString sDigestAlgProperty (u"DigestAlgorithm"_ustr);
static constexpr OUString sDerivedKeySizeProperty (u"DerivedKeySize"_ustr);
uno::Sequence < beans::PropertyValue > aPropSet (PKG_SIZE_NOENCR_MNFST);
// In case the entry we are reading is also the entry we are writing, we will
// store the ZipEntry data in pTempEntry
// if pTempEntry is necessary, it will be released and passed to the ZipOutputStream
// and be deleted in the ZipOutputStream destructor
std::unique_ptr < ZipEntry > pAutoTempEntry ( new ZipEntry(aEntry) );
ZipEntry* pTempEntry = pAutoTempEntry.get();
pTempEntry->sPath = rPath;
pTempEntry->nPathLen = static_cast<sal_Int16>( OUStringToOString( pTempEntry->sPath, RTL_TEXTENCODING_UTF8 ).getLength() );
const bool bToBeEncrypted = m_bToBeEncrypted && (rEncryptionKey.hasElements() || m_bHaveOwnKey);
const bool bToBeCompressed = bToBeEncrypted || m_bToBeCompressed;
auto pPropSet = aPropSet.getArray();
pPropSet[PKG_MNFST_MEDIATYPE].Name = "MediaType";
pPropSet[PKG_MNFST_MEDIATYPE].Value <<= GetMediaType( );
pPropSet[PKG_MNFST_VERSION].Name = "Version";
pPropSet[PKG_MNFST_VERSION].Value <<= OUString(); // no version is stored for streams currently
pPropSet[PKG_MNFST_FULLPATH].Name = "FullPath";
pPropSet[PKG_MNFST_FULLPATH].Value <<= pTempEntry->sPath;
OSL_ENSURE( m_nStreamMode != PACKAGE_STREAM_NOTSET, "Unacceptable ZipPackageStream mode!" );
m_bRawStream = false;
if ( m_nStreamMode == PACKAGE_STREAM_DETECT )
m_bRawStream = ParsePackageRawStream();
else if ( m_nStreamMode == PACKAGE_STREAM_RAW )
m_bRawStream = true;
bool bBackgroundThreadDeflate = false;
bool bTransportOwnEncrStreamAsRaw = false;
// During the storing the original size of the stream can be changed
// TODO/LATER: get rid of this hack
m_nOwnStreamOrigSize = m_bRawStream ? m_nMagicalHackSize : aEntry.nSize;
bool bUseNonSeekableAccess = false;
uno::Reference < io::XInputStream > xStream;
if ( !IsPackageMember() && !m_bRawStream && !bToBeEncrypted && bToBeCompressed )
{
// the stream is not a package member, not a raw stream,
// it should not be encrypted and it should be compressed,
// in this case nonseekable access can be used
xStream = m_xStream;
uno::Reference < io::XSeekable > xSeek ( xStream, uno::UNO_QUERY );
bUseNonSeekableAccess = ( xStream.is() && !xSeek.is() );
}
if ( !bUseNonSeekableAccess )
{
xStream = getRawData();
if ( !xStream.is() )
{
OSL_FAIL( "ZipPackageStream didn't have a stream associated with it, skipping!" );
bSuccess = false;
return bSuccess;
}
uno::Reference < io::XSeekable > xSeek ( xStream, uno::UNO_QUERY );
try
{
if ( xSeek.is() )
{
// If the stream is a raw one, then we should be positioned
// at the beginning of the actual data
if ( !bToBeCompressed || m_bRawStream )
{
// The raw stream can neither be encrypted nor connected
OSL_ENSURE( !m_bRawStream || !(bToBeCompressed || bToBeEncrypted), "The stream is already encrypted!" );
xSeek->seek ( m_bRawStream ? m_nMagicalHackPos : 0 );
ImplSetStoredData ( *pTempEntry, xStream );
// TODO/LATER: Get rid of hacks related to switching of Flag Method and Size properties!
}
else if ( bToBeEncrypted )
{
// this is the correct original size
pTempEntry->nSize = xSeek->getLength();
m_nOwnStreamOrigSize = pTempEntry->nSize;
}
xSeek->seek ( 0 );
}
else
{
// Okay, we don't have an xSeekable stream. This is possibly bad.
// check if it's one of our own streams, if it is then we know that
// each time we ask for it we'll get a new stream that will be
// at position zero...otherwise, assert and skip this stream...
if ( IsPackageMember() )
{
// if the password has been changed then the stream should not be package member any more
if ( m_bIsEncrypted && m_bToBeEncrypted )
{
// Should be handled close to the raw stream handling
bTransportOwnEncrStreamAsRaw = true;
pTempEntry->nMethod = STORED;
// TODO/LATER: get rid of this situation
// this size should be different from the one that will be stored in manifest.xml
// it is used in storing algorithms and after storing the correct size will be set
pTempEntry->nSize = pTempEntry->nCompressedSize;
}
}
else
{
bSuccess = false;
return bSuccess;
}
}
}
catch ( uno::Exception& )
{
bSuccess = false;
return bSuccess;
}
if ( bToBeEncrypted || m_bRawStream || bTransportOwnEncrStreamAsRaw )
{
if ( bToBeEncrypted && !bTransportOwnEncrStreamAsRaw )
{
uno::Sequence<sal_Int8> aSalt(16);
// note: for GCM it's particularly important that IV is unique
uno::Sequence<sal_Int8> aVector(GetIVSize());
if (rtl_random_getBytes(rRandomPool, aSalt.getArray(), 16) != rtl_Random_E_None)
{
throw uno::RuntimeException("rtl_random_getBytes failed");
}
if (rtl_random_getBytes(rRandomPool, aVector.getArray(), aVector.getLength()) != rtl_Random_E_None)
{
throw uno::RuntimeException("rtl_random_getBytes failed");
}
if ( !m_bHaveOwnKey )
{
m_aEncryptionKey = rEncryptionKey;
m_aStorageEncryptionKeys.realloc( 0 );
}
setInitialisationVector ( aVector );
setSalt ( aSalt );
setIterationCount(oPBKDF2IterationCount);
setArgon2Args(oArgon2Args);
}
// last property is digest, which is inserted later if we didn't have
// a magic header
aPropSet.realloc(PKG_SIZE_ENCR_MNFST);
pPropSet = aPropSet.getArray();
pPropSet[PKG_MNFST_INIVECTOR].Name = "InitialisationVector";
pPropSet[PKG_MNFST_INIVECTOR].Value <<= m_xBaseEncryptionData->m_aInitVector;
pPropSet[PKG_MNFST_SALT].Name = "Salt";
pPropSet[PKG_MNFST_SALT].Value <<= m_xBaseEncryptionData->m_aSalt;
if (m_xBaseEncryptionData->m_oArgon2Args)
{
pPropSet[PKG_MNFST_KDF].Name = "KeyDerivationFunction";
pPropSet[PKG_MNFST_KDF].Value <<= xml::crypto::KDFID::Argon2id;
pPropSet[PKG_MNFST_ARGON2ARGS].Name = "Argon2Args";
uno::Sequence<sal_Int32> const args{
::std::get<0>(*m_xBaseEncryptionData->m_oArgon2Args),
::std::get<1>(*m_xBaseEncryptionData->m_oArgon2Args),
::std::get<2>(*m_xBaseEncryptionData->m_oArgon2Args) };
pPropSet[PKG_MNFST_ARGON2ARGS].Value <<= args;
}
else if (m_xBaseEncryptionData->m_oPBKDFIterationCount)
{
pPropSet[PKG_MNFST_KDF].Name = "KeyDerivationFunction";
pPropSet[PKG_MNFST_KDF].Value <<= xml::crypto::KDFID::PBKDF2;
pPropSet[PKG_MNFST_ITERATION].Name = "IterationCount";
pPropSet[PKG_MNFST_ITERATION].Value <<= *m_xBaseEncryptionData->m_oPBKDFIterationCount;
}
else
{
pPropSet[PKG_MNFST_KDF].Name = "KeyDerivationFunction";
pPropSet[PKG_MNFST_KDF].Value <<= xml::crypto::KDFID::PGP_RSA_OAEP_MGF1P;
}
// Need to store the uncompressed size in the manifest
OSL_ENSURE( m_nOwnStreamOrigSize >= 0, "The stream size was not correctly initialized!" );
pPropSet[PKG_MNFST_UCOMPSIZE].Name = "Size";
pPropSet[PKG_MNFST_UCOMPSIZE].Value <<= m_nOwnStreamOrigSize;
if ( m_bRawStream || bTransportOwnEncrStreamAsRaw )
{
::rtl::Reference< EncryptionData > xEncData = GetEncryptionData();
if ( !xEncData.is() )
throw uno::RuntimeException();
pPropSet[PKG_MNFST_ENCALG].Name = sEncryptionAlgProperty;
pPropSet[PKG_MNFST_ENCALG].Value <<= xEncData->m_nEncAlg;
pPropSet[PKG_MNFST_STARTALG].Name = sStartKeyAlgProperty;
pPropSet[PKG_MNFST_STARTALG].Value <<= xEncData->m_nStartKeyGenID;
if (xEncData->m_oCheckAlg)
{
assert(xEncData->m_nEncAlg != xml::crypto::CipherID::AES_GCM_W3C);
pPropSet[PKG_MNFST_DIGEST].Name = sDigestProperty;
pPropSet[PKG_MNFST_DIGEST].Value <<= m_xBaseEncryptionData->m_aDigest;
pPropSet[PKG_MNFST_DIGESTALG].Name = sDigestAlgProperty;
pPropSet[PKG_MNFST_DIGESTALG].Value <<= *xEncData->m_oCheckAlg;
}
pPropSet[PKG_MNFST_DERKEYSIZE].Name = sDerivedKeySizeProperty;
pPropSet[PKG_MNFST_DERKEYSIZE].Value <<= xEncData->m_nDerivedKeySize;
}
}
}
// If the entry is already stored in the zip file in the format we
// want for this write...copy it raw
if ( !bUseNonSeekableAccess
&& ( m_bRawStream || bTransportOwnEncrStreamAsRaw
|| ( IsPackageMember() && !bToBeEncrypted
&& ( ( aEntry.nMethod == DEFLATED && bToBeCompressed )
|| ( aEntry.nMethod == STORED && !bToBeCompressed ) ) ) ) )
{
// If it's a PackageMember, then it's an unbuffered stream and we need
// to get a new version of it as we can't seek backwards.
if ( IsPackageMember() )
{
xStream = getRawData();
if ( !xStream.is() )
{
// Make sure that we actually _got_ a new one !
bSuccess = false;
return bSuccess;
}
}
try
{
if ( m_bRawStream )
xStream->skipBytes( m_nMagicalHackPos );
ZipOutputStream::setEntry(pTempEntry);
rZipOut.writeLOC(pTempEntry);
// coverity[leaked_storage] - the entry is provided to the ZipOutputStream that will delete it
pAutoTempEntry.release();
uno::Sequence < sal_Int8 > aSeq ( n_ConstBufferSize );
sal_Int32 nLength;
do
{
nLength = xStream->readBytes( aSeq, n_ConstBufferSize );
if (nLength != n_ConstBufferSize)
aSeq.realloc(nLength);
rZipOut.rawWrite(aSeq);
}
while ( nLength == n_ConstBufferSize );
rZipOut.rawCloseEntry();
}
catch ( ZipException& )
{
bSuccess = false;
}
catch ( io::IOException& )
{
bSuccess = false;
}
}
else
{
// This stream is definitely not a raw stream
// If nonseekable access is used the stream should be at the beginning and
// is useless after the storing. Thus if the storing fails the package should
// be thrown away ( as actually it is done currently )!
// To allow to reuse the package after the error, the optimization must be removed!
// If it's a PackageMember, then our previous reference held a 'raw' stream
// so we need to re-get it, unencrypted, uncompressed and positioned at the
// beginning of the stream
if ( IsPackageMember() )
{
xStream = getInputStream();
if ( !xStream.is() )
{
// Make sure that we actually _got_ a new one !
bSuccess = false;
return bSuccess;
}
}
if ( bToBeCompressed )
{
pTempEntry->nMethod = DEFLATED;
pTempEntry->nCrc = -1;
pTempEntry->nCompressedSize = pTempEntry->nSize = -1;
}
uno::Reference< io::XSeekable > xSeek(xStream, uno::UNO_QUERY);
// It's not worth to deflate jpegs to save ~1% in a slow process
// Unfortunately, does not work for streams protected by password
if (xSeek.is() && msMediaType.endsWith("/jpeg") && !m_bToBeEncrypted && !m_bToBeCompressed)
{
ImplSetStoredData(*pTempEntry, xStream);
xSeek->seek(0);
}
try
{
ZipOutputStream::setEntry(pTempEntry);
// the entry is provided to the ZipOutputStream that will delete it
pAutoTempEntry.release();
if (pTempEntry->nMethod == STORED)
{
sal_Int32 nLength;
uno::Sequence< sal_Int8 > aSeq(n_ConstBufferSize);
rZipOut.writeLOC(pTempEntry, bToBeEncrypted);
do
{
nLength = xStream->readBytes(aSeq, n_ConstBufferSize);
if (nLength != n_ConstBufferSize)
aSeq.realloc(nLength);
rZipOut.rawWrite(aSeq);
}
while ( nLength == n_ConstBufferSize );
rZipOut.rawCloseEntry(bToBeEncrypted);
}
else
{
// tdf#89236 Encrypting in a background thread does not work
bBackgroundThreadDeflate = !bToBeEncrypted;
// Do not deflate small streams using threads. XSeekable's getLength()
// gives the full size, XInputStream's available() may not be
// the full size, but it appears that at this point it usually is.
sal_Int64 estimatedSize = xSeek.is() ? xSeek->getLength() : xStream->available();
if (estimatedSize > 1000000)
{
// Use ThreadDeflater which will split the stream into blocks and compress
// them in threads, but not in background (i.e. writeStream() will block).
// This is suitable for large data.
bBackgroundThreadDeflate = false;
rZipOut.writeLOC(pTempEntry, bToBeEncrypted);
ZipOutputEntryParallel aZipEntry(rZipOut.getStream(), m_xContext, *pTempEntry, this, bToBeEncrypted);
aZipEntry.writeStream(xStream);
rZipOut.rawCloseEntry(bToBeEncrypted);
}
else if (bBackgroundThreadDeflate && estimatedSize > 100000)
{
// tdf#93553 limit to a useful amount of pending tasks. Having way too many
// tasks pending may use a lot of memory. Take number of available
// cores and allow 4-times the amount for having the queue well filled. The
// 2nd parameter is the time to wait between cleanups in 10th of a second.
// Both values may be added to the configuration settings if needed.
static std::size_t nAllowedTasks(comphelper::ThreadPool::getPreferredConcurrency() * 4); //TODO: overflow
rZipOut.reduceScheduledThreadTasksToGivenNumberOrLess(nAllowedTasks);
// Start a new thread task deflating this zip entry
ZipOutputEntryInThread *pZipEntry = new ZipOutputEntryInThread(
m_xContext, *pTempEntry, this, bToBeEncrypted);
rZipOut.addDeflatingThreadTask( pZipEntry,
pZipEntry->createTask( rZipOut.getThreadTaskTag(), xStream) );
}
else
{
bBackgroundThreadDeflate = false;
rZipOut.writeLOC(pTempEntry, bToBeEncrypted);
ZipOutputEntry aZipEntry(rZipOut.getStream(), m_xContext, *pTempEntry, this, bToBeEncrypted);
aZipEntry.writeStream(xStream);
rZipOut.rawCloseEntry(bToBeEncrypted);
}
}
}
catch ( ZipException& )
{
bSuccess = false;
}
catch ( io::IOException& )
{
bSuccess = false;
}
if ( bToBeEncrypted )
{
::rtl::Reference< EncryptionData > xEncData = GetEncryptionData();
if ( !xEncData.is() )
throw uno::RuntimeException();
// very confusing: half the encryption properties are
// unconditionally added above and the other half conditionally;
// assert that we have the expected group and not duplicates
assert(std::any_of(aPropSet.begin(), aPropSet.end(), [](auto const& it){ return it.Name == "Salt"; }));
assert(!std::any_of(aPropSet.begin(), aPropSet.end(), [](auto const& it){ return it.Name == sEncryptionAlgProperty; }));
pPropSet[PKG_MNFST_ENCALG].Name = sEncryptionAlgProperty;
pPropSet[PKG_MNFST_ENCALG].Value <<= xEncData->m_nEncAlg;
pPropSet[PKG_MNFST_STARTALG].Name = sStartKeyAlgProperty;
pPropSet[PKG_MNFST_STARTALG].Value <<= xEncData->m_nStartKeyGenID;
if (xEncData->m_oCheckAlg)
{
assert(xEncData->m_nEncAlg != xml::crypto::CipherID::AES_GCM_W3C);
pPropSet[PKG_MNFST_DIGEST].Name = sDigestProperty;
pPropSet[PKG_MNFST_DIGEST].Value <<= m_xBaseEncryptionData->m_aDigest;
pPropSet[PKG_MNFST_DIGESTALG].Name = sDigestAlgProperty;
pPropSet[PKG_MNFST_DIGESTALG].Value <<= *xEncData->m_oCheckAlg;
}
pPropSet[PKG_MNFST_DERKEYSIZE].Name = sDerivedKeySizeProperty;
pPropSet[PKG_MNFST_DERKEYSIZE].Value <<= xEncData->m_nDerivedKeySize;
SetIsEncrypted ( true );
}
}
if (bSuccess && !bBackgroundThreadDeflate)
successfullyWritten(pTempEntry);
if ( aPropSet.hasElements()
&& ( m_nFormat == embed::StorageFormats::PACKAGE || m_nFormat == embed::StorageFormats::OFOPXML ) )
rManList.push_back( aPropSet );
return bSuccess;
}
void ZipPackageStream::successfullyWritten( ZipEntry const *pEntry )
{
if ( !IsPackageMember() )
{
if ( m_xStream.is() )
{
m_xStream->closeInput();
m_xStream.clear();
m_bHasSeekable = false;
}
SetPackageMember ( true );
}
if ( m_bRawStream )
{
// the raw stream was integrated and now behaves
// as usual encrypted stream
SetToBeEncrypted( true );
}
// Then copy it back afterwards...
aEntry = *pEntry;
// TODO/LATER: get rid of this hack ( the encrypted stream size property is changed during saving )
if ( m_bIsEncrypted )
setSize( m_nOwnStreamOrigSize );
aEntry.nOffset *= -1;
}
void ZipPackageStream::SetPackageMember( bool bNewValue )
{
if ( bNewValue )
{
m_nStreamMode = PACKAGE_STREAM_PACKAGEMEMBER;
m_nMagicalHackPos = 0;
m_nMagicalHackSize = 0;
}
else if ( m_nStreamMode == PACKAGE_STREAM_PACKAGEMEMBER )
m_nStreamMode = PACKAGE_STREAM_NOTSET; // must be reset
}
// XActiveDataSink
void SAL_CALL ZipPackageStream::setInputStream( const uno::Reference< io::XInputStream >& aStream )
{
// if seekable access is required the wrapping will be done on demand
m_xStream = aStream;
m_nImportedEncryptionAlgorithm = 0;
m_bHasSeekable = false;
SetPackageMember ( false );
aEntry.nTime = -1;
m_nStreamMode = PACKAGE_STREAM_DETECT;
}
uno::Reference< io::XInputStream > ZipPackageStream::getRawData()
{
try
{
if ( IsPackageMember() )
{
return m_rZipPackage.getZipFile().getRawData( aEntry, GetEncryptionData(), m_bIsEncrypted, m_rZipPackage.GetSharedMutexRef(), false/*bUseBufferedStream*/ );
}
else if ( GetOwnSeekStream().is() )
{
return new WrapStreamForShare( GetOwnSeekStream(), m_rZipPackage.GetSharedMutexRef() );
}
else
return uno::Reference < io::XInputStream > ();
}
catch ( ZipException & )//rException )
{
TOOLS_WARN_EXCEPTION( "package", "" );
return uno::Reference < io::XInputStream > ();
}
catch ( Exception & )
{
TOOLS_WARN_EXCEPTION( "package", "Exception is thrown during stream wrapping!" );
return uno::Reference < io::XInputStream > ();
}
}
uno::Reference< io::XInputStream > SAL_CALL ZipPackageStream::getInputStream()
{
try
{
if ( IsPackageMember() )
{
return m_rZipPackage.getZipFile().getInputStream( aEntry, GetEncryptionData(), m_bIsEncrypted, m_rZipPackage.GetSharedMutexRef() );
}
else if ( GetOwnSeekStream().is() )
{
return new WrapStreamForShare( GetOwnSeekStream(), m_rZipPackage.GetSharedMutexRef() );
}
else
return uno::Reference < io::XInputStream > ();
}
catch ( ZipException & )//rException )
{
TOOLS_WARN_EXCEPTION( "package", "" );
return uno::Reference < io::XInputStream > ();
}
catch ( const Exception & )
{
TOOLS_WARN_EXCEPTION( "package", "Exception is thrown during stream wrapping!");
return uno::Reference < io::XInputStream > ();
}
}
// XDataSinkEncrSupport
uno::Reference< io::XInputStream > SAL_CALL ZipPackageStream::getDataStream()
{
// There is no stream attached to this object
if ( m_nStreamMode == PACKAGE_STREAM_NOTSET )
return uno::Reference< io::XInputStream >();
// this method can not be used together with old approach
if ( m_nStreamMode == PACKAGE_STREAM_DETECT )
throw packages::zip::ZipIOException(THROW_WHERE );
if ( IsPackageMember() )
{
uno::Reference< io::XInputStream > xResult;
try
{
xResult = m_rZipPackage.getZipFile().getDataStream( aEntry, GetEncryptionData(Bugs::None), m_bIsEncrypted, m_rZipPackage.GetSharedMutexRef() );
}
catch( const packages::WrongPasswordException& )
{
// note: due to SHA1 check this fallback is only done for
// * ODF 1.2 files written by OOo < 3.4beta / LO < 3.5
// * ODF 1.1/OOoXML files written by any version
if ( m_rZipPackage.GetStartKeyGenID() == xml::crypto::DigestID::SHA1 )
{
SAL_WARN("package", "ZipPackageStream::getDataStream(): SHA1 mismatch, trying fallbacks...");
try
{ // tdf#114939 try with legacy StarOffice SHA1 bug
xResult = m_rZipPackage.getZipFile().getDataStream( aEntry, GetEncryptionData(Bugs::WrongSHA1), m_bIsEncrypted, m_rZipPackage.GetSharedMutexRef() );
return xResult;
}
catch (const packages::WrongPasswordException&)
{
/* ignore and try next... */
}
try
{
// rhbz#1013844 / fdo#47482 workaround for the encrypted
// OpenOffice.org 1.0 documents generated by Libreoffice <=
// 3.6 with the new encryption format and using SHA256, but
// missing a specified startkey of SHA256
// force SHA256 and see if that works
m_nImportedStartKeyAlgorithm = xml::crypto::DigestID::SHA256;
xResult = m_rZipPackage.getZipFile().getDataStream( aEntry, GetEncryptionData(), m_bIsEncrypted, m_rZipPackage.GetSharedMutexRef() );
return xResult;
}
catch (const packages::WrongPasswordException&)
{
// if that didn't work, restore to SHA1 and trundle through the *other* earlier
// bug fix
m_nImportedStartKeyAlgorithm = xml::crypto::DigestID::SHA1;
}
// workaround for the encrypted documents generated with the old OOo1.x bug.
if ( !m_bUseWinEncoding )
{
xResult = m_rZipPackage.getZipFile().getDataStream( aEntry, GetEncryptionData(Bugs::WinEncodingWrongSHA1), m_bIsEncrypted, m_rZipPackage.GetSharedMutexRef() );
m_bUseWinEncoding = true;
}
else
throw;
}
else
throw;
}
return xResult;
}
else if ( m_nStreamMode == PACKAGE_STREAM_RAW )
return ZipFile::StaticGetDataFromRawStream( m_rZipPackage.GetSharedMutexRef(), m_xContext, GetOwnSeekStream(), GetEncryptionData() );
else if ( GetOwnSeekStream().is() )
{
return new WrapStreamForShare( GetOwnSeekStream(), m_rZipPackage.GetSharedMutexRef() );
}
else
return uno::Reference< io::XInputStream >();
}
uno::Reference< io::XInputStream > SAL_CALL ZipPackageStream::getRawStream()
{
// There is no stream attached to this object
if ( m_nStreamMode == PACKAGE_STREAM_NOTSET )
return uno::Reference< io::XInputStream >();
// this method can not be used together with old approach
if ( m_nStreamMode == PACKAGE_STREAM_DETECT )
throw packages::zip::ZipIOException(THROW_WHERE );
if ( IsPackageMember() )
{
if ( !m_bIsEncrypted || !GetEncryptionData().is() )
throw packages::NoEncryptionException(THROW_WHERE );
return m_rZipPackage.getZipFile().getWrappedRawStream( aEntry, GetEncryptionData(), msMediaType, m_rZipPackage.GetSharedMutexRef() );
}
else if ( GetOwnSeekStream().is() )
{
if ( m_nStreamMode == PACKAGE_STREAM_RAW )
{
return new WrapStreamForShare( GetOwnSeekStream(), m_rZipPackage.GetSharedMutexRef() );
}
else if ( m_nStreamMode == PACKAGE_STREAM_DATA && m_bToBeEncrypted )
return TryToGetRawFromDataStream( true );
}
throw packages::NoEncryptionException(THROW_WHERE );
}
void SAL_CALL ZipPackageStream::setDataStream( const uno::Reference< io::XInputStream >& aStream )
{
setInputStream( aStream );
m_nStreamMode = PACKAGE_STREAM_DATA;
}
void SAL_CALL ZipPackageStream::setRawStream( const uno::Reference< io::XInputStream >& aStream )
{
// wrap the stream in case it is not seekable
uno::Reference< io::XInputStream > xNewStream = ::comphelper::OSeekableInputWrapper::CheckSeekableCanWrap( aStream, m_xContext );
uno::Reference< io::XSeekable > xSeek( xNewStream, UNO_QUERY_THROW );
xSeek->seek( 0 );
uno::Reference< io::XInputStream > xOldStream = m_xStream;
m_xStream = xNewStream;
if ( !ParsePackageRawStream() )
{
m_xStream = xOldStream;
throw packages::NoRawFormatException(THROW_WHERE );
}
// the raw stream MUST have seekable access
m_bHasSeekable = true;
SetPackageMember ( false );
aEntry.nTime = -1;
m_nStreamMode = PACKAGE_STREAM_RAW;
}
uno::Reference< io::XInputStream > SAL_CALL ZipPackageStream::getPlainRawStream()
{
// There is no stream attached to this object
if ( m_nStreamMode == PACKAGE_STREAM_NOTSET )
return uno::Reference< io::XInputStream >();
// this method can not be used together with old approach
if ( m_nStreamMode == PACKAGE_STREAM_DETECT )
throw packages::zip::ZipIOException(THROW_WHERE );
if ( IsPackageMember() )
{
return m_rZipPackage.getZipFile().getRawData( aEntry, GetEncryptionData(), m_bIsEncrypted, m_rZipPackage.GetSharedMutexRef() );
}
else if ( GetOwnSeekStream().is() )
{
if ( m_nStreamMode == PACKAGE_STREAM_RAW )
{
// the header should not be returned here
return GetRawEncrStreamNoHeaderCopy();
}
else if ( m_nStreamMode == PACKAGE_STREAM_DATA )
return TryToGetRawFromDataStream( false );
}
return uno::Reference< io::XInputStream >();
}
// XPropertySet
void SAL_CALL ZipPackageStream::setPropertyValue( const OUString& aPropertyName, const Any& aValue )
{
if ( aPropertyName == "MediaType" )
{
if ( m_rZipPackage.getFormat() != embed::StorageFormats::PACKAGE && m_rZipPackage.getFormat() != embed::StorageFormats::OFOPXML )
throw beans::PropertyVetoException(THROW_WHERE );
if ( !(aValue >>= msMediaType) )
throw IllegalArgumentException(THROW_WHERE "MediaType must be a string!",
uno::Reference< XInterface >(),
2 );
if ( !msMediaType.isEmpty() )
{
if ( msMediaType.indexOf ( "text" ) != -1
|| msMediaType == "application/vnd.sun.star.oleobject" )
m_bToBeCompressed = true;
else if ( !m_bCompressedIsSetFromOutside )
m_bToBeCompressed = false;
}
}
else if ( aPropertyName == "Size" )
{
if ( !( aValue >>= aEntry.nSize ) )
throw IllegalArgumentException(THROW_WHERE "Wrong type for Size property!",
uno::Reference< XInterface >(),
2 );
}
else if ( aPropertyName == "Encrypted" )
{
if ( m_rZipPackage.getFormat() != embed::StorageFormats::PACKAGE )
throw beans::PropertyVetoException(THROW_WHERE );
bool bEnc = false;
if ( !(aValue >>= bEnc) )
throw IllegalArgumentException(THROW_WHERE "Wrong type for Encrypted property!",
uno::Reference< XInterface >(),
2 );
// In case of new raw stream, the stream must not be encrypted on storing
if ( bEnc && m_nStreamMode == PACKAGE_STREAM_RAW )
throw IllegalArgumentException(THROW_WHERE "Raw stream can not be encrypted on storing",
uno::Reference< XInterface >(),
2 );
m_bToBeEncrypted = bEnc;
if ( m_bToBeEncrypted && !m_xBaseEncryptionData.is() )
m_xBaseEncryptionData = new BaseEncryptionData;
}
else if ( aPropertyName == ENCRYPTION_KEY_PROPERTY )
{
if ( m_rZipPackage.getFormat() != embed::StorageFormats::PACKAGE )
throw beans::PropertyVetoException(THROW_WHERE );
uno::Sequence< sal_Int8 > aNewKey;
if ( !( aValue >>= aNewKey ) )
{
OUString sTempString;
if ( !(aValue >>= sTempString) )
throw IllegalArgumentException(THROW_WHERE "Wrong type for EncryptionKey property!",
uno::Reference< XInterface >(),
2 );
sal_Int32 nPathLength = sTempString.getLength();
Sequence < sal_Int8 > aSequence ( nPathLength );
sal_Int8 *pArray = aSequence.getArray();
const sal_Unicode *pChar = sTempString.getStr();
for ( sal_Int32 i = 0; i < nPathLength; i++ )
pArray[i] = static_cast < sal_Int8 > ( pChar[i] );
aNewKey = aSequence;
}
if ( aNewKey.hasElements() )
{
if ( !m_xBaseEncryptionData.is() )
m_xBaseEncryptionData = new BaseEncryptionData;
m_aEncryptionKey = aNewKey;
// In case of new raw stream, the stream must not be encrypted on storing
m_bHaveOwnKey = true;
if ( m_nStreamMode != PACKAGE_STREAM_RAW )
m_bToBeEncrypted = true;
}
else
{
m_bHaveOwnKey = false;
m_aEncryptionKey.realloc( 0 );
}
m_aStorageEncryptionKeys.realloc( 0 );
}
else if ( aPropertyName == STORAGE_ENCRYPTION_KEYS_PROPERTY )
{
if ( m_rZipPackage.getFormat() != embed::StorageFormats::PACKAGE )
throw beans::PropertyVetoException(THROW_WHERE );
uno::Sequence< beans::NamedValue > aKeys;
if ( !( aValue >>= aKeys ) )
{
throw IllegalArgumentException(THROW_WHERE "Wrong type for StorageEncryptionKeys property!",
uno::Reference< XInterface >(),
2 );
}
if ( aKeys.hasElements() )
{
if ( !m_xBaseEncryptionData.is() )
m_xBaseEncryptionData = new BaseEncryptionData;
m_aStorageEncryptionKeys = aKeys;
// In case of new raw stream, the stream must not be encrypted on storing
m_bHaveOwnKey = true;
if ( m_nStreamMode != PACKAGE_STREAM_RAW )
m_bToBeEncrypted = true;
}
else
{
m_bHaveOwnKey = false;
m_aStorageEncryptionKeys.realloc( 0 );
}
m_aEncryptionKey.realloc( 0 );
}
else if ( aPropertyName == "Compressed" )
{
bool bCompr = false;
if ( !(aValue >>= bCompr) )
throw IllegalArgumentException(THROW_WHERE "Wrong type for Compressed property!",
uno::Reference< XInterface >(),
2 );
// In case of new raw stream, the stream must not be encrypted on storing
if ( bCompr && m_nStreamMode == PACKAGE_STREAM_RAW )
throw IllegalArgumentException(THROW_WHERE "Raw stream can not be encrypted on storing",
uno::Reference< XInterface >(),
2 );
m_bToBeCompressed = bCompr;
m_bCompressedIsSetFromOutside = true;
}
else
throw beans::UnknownPropertyException(aPropertyName);
}
Any SAL_CALL ZipPackageStream::getPropertyValue( const OUString& PropertyName )
{
if ( PropertyName == "MediaType" )
{
return Any(msMediaType);
}
else if ( PropertyName == "Size" )
{
return Any(aEntry.nSize);
}
else if ( PropertyName == "Encrypted" )
{
return Any((m_nStreamMode == PACKAGE_STREAM_RAW) || m_bToBeEncrypted);
}
else if ( PropertyName == "WasEncrypted" )
{
return Any(m_bIsEncrypted);
}
else if ( PropertyName == "Compressed" )
{
return Any(m_bToBeCompressed);
}
else if ( PropertyName == ENCRYPTION_KEY_PROPERTY )
{
return Any(m_aEncryptionKey);
}
else if ( PropertyName == STORAGE_ENCRYPTION_KEYS_PROPERTY )
{
return Any(m_aStorageEncryptionKeys);
}
else
throw beans::UnknownPropertyException(PropertyName);
}
void ZipPackageStream::setSize ( const sal_Int64 nNewSize )
{
if ( aEntry.nCompressedSize != nNewSize )
aEntry.nMethod = DEFLATED;
aEntry.nSize = nNewSize;
}
OUString ZipPackageStream::getImplementationName()
{
return "ZipPackageStream";
}
Sequence< OUString > ZipPackageStream::getSupportedServiceNames()
{
return { "com.sun.star.packages.PackageStream" };
}
sal_Bool SAL_CALL ZipPackageStream::supportsService( OUString const & rServiceName )
{
return cppu::supportsService(this, rServiceName);
}
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