Files
core/OfficeCryptReader/source/ECMACryptReader.cpp
ElenaSubbotina 19e3e5897f ECMACryptReader
2016-07-18 17:48:43 +03:00

263 lines
8.1 KiB
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/*
* (c) Copyright Ascensio System SIA 2010-2016
*
* This program is a free software product. You can redistribute it and/or
* modify it under the terms of the GNU Affero General Public License (AGPL)
* version 3 as published by the Free Software Foundation. In accordance with
* Section 7(a) of the GNU AGPL its Section 15 shall be amended to the effect
* that Ascensio System SIA expressly excludes the warranty of non-infringement
* of any third-party rights.
*
* This program is distributed WITHOUT ANY WARRANTY; without even the implied
* warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. For
* details, see the GNU AGPL at: http://www.gnu.org/licenses/agpl-3.0.html
*
* You can contact Ascensio System SIA at Lubanas st. 125a-25, Riga, Latvia,
* EU, LV-1021.
*
* The interactive user interfaces in modified source and object code versions
* of the Program must display Appropriate Legal Notices, as required under
* Section 5 of the GNU AGPL version 3.
*
* Pursuant to Section 7(b) of the License you must retain the original Product
* logo when distributing the program. Pursuant to Section 7(e) we decline to
* grant you any rights under trademark law for use of our trademarks.
*
* All the Product's GUI elements, including illustrations and icon sets, as
* well as technical writing content are licensed under the terms of the
* Creative Commons Attribution-ShareAlike 4.0 International. See the License
* terms at http://creativecommons.org/licenses/by-sa/4.0/legalcode
*
*/
#include "ECMACryptReader.h"
#include "../../Common/3dParty/pole/pole.h"
#include "../../Common/DocxFormat/Source/Base/Types_32.h"
#include "../../DesktopEditor/xml/include/xmlutils.h"
#include "../../OfficeCryptTransform/CryptTransform.h"
#define WritingElement_ReadAttributes_Start(Reader) \
if ( Reader.GetAttributesCount() <= 0 )\
return false;\
if ( !Reader.MoveToFirstAttribute() )\
return false;\
std::string wsName = Reader.GetNameA();\
while( !wsName.empty() )\
{
#define WritingElement_ReadAttributes_Read_if(Reader, AttrName, Value) \
if ( AttrName == wsName )\
{\
Value = Reader.GetTextA();\
}
#define WritingElement_ReadAttributes_Read_else_if(Reader, AttrName, Value) \
else if ( AttrName == wsName )\
Value = Reader.GetTextA();
#define WritingElement_ReadAttributes_ReadSingle(Reader, AttrName, Value) \
if ( AttrName == wsName )\
{\
Value = Reader.GetTextA();\
break;\
}
#define WritingElement_ReadAttributes_End(Reader) \
if ( !Reader.MoveToNextAttribute() ) \
break;\
wsName = Reader.GetNameA();\
}\
Reader.MoveToElement();
std::wstring ReadUnicodeLP(POLE::Stream *pStream)
{
if (!pStream) return L"";
_UINT32 length = 0;
pStream->read((unsigned char*)&length, 4);
unsigned char* Data = new unsigned char[length * 2];
pStream->read(Data, length * 2);
std::wstring res ((wchar_t*)Data, length);
return res;
}
void ReadMapEntry(POLE::Stream *pStream, CryptReader::_mapEntry & m)
{
if (!pStream) return;
_UINT32 length = 0;
pStream->read((unsigned char*)&length, 4);
_UINT32 refCount = 0;
pStream->read((unsigned char*)&refCount, 4);
for (int i = 0 ; i < refCount; i++)
{
CryptReader::_refComponent r;
pStream->read((unsigned char*)&r.type, 4);
r.ref = ReadUnicodeLP(pStream);
m.refComponents.push_back(r);
}
m.dataSpaceName= ReadUnicodeLP(pStream);
}
//--------------------------------------------------------------
bool CryptReader::DecryptFile(std::wstring file_name, std::wstring folder_out, std::wstring password)
{
POLE::Storage *pStorage = new POLE::Storage(file_name.c_str());
if (!pStorage)return false;
if (!pStorage->open())
{
delete pStorage;
return false;
}
POLE::Stream *pStream = new POLE::Stream(pStorage, "EncryptionInfo");
if (pStream)
{
_UINT32 nEncryptionInfoSize = 0;
int sz = pStream->read((unsigned char*)&nEncryptionInfoSize, 4); //size uncrypt ??
_UINT32 nEncryptionInfoSize1 = 0;
sz = pStream->read((unsigned char*)&nEncryptionInfoSize1, 4); //??? (64)
unsigned char* byteEncryptionInfo = new unsigned char[nEncryptionInfoSize];
if (!byteEncryptionInfo)
{
delete pStream;
delete pStorage;
return false;
}
sz = pStream->read(byteEncryptionInfo, nEncryptionInfoSize);
std::string xml_string((char*) byteEncryptionInfo, sz);
delete []byteEncryptionInfo;
delete pStream;
if (!ReadEncryptionInfo(xml_string))
{
delete pStorage;
return false;
}
}
Decryptor decryptor(1);
decryptor.SetCryptData(keyData.saltValue, keyData.encryptedVerifierHashInput, keyData.encryptedVerifierHashValue);
if (!decryptor.SetPassword(password))
{
delete pStorage;
return false;
}
//pStream = new POLE::Stream(pStorage, "DataSpaces/DataSpaceMap"); // <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD>
//if (pStream)
//{
// _UINT32 size = 0;
// _UINT32 count = 0;
//
// pStream->read((unsigned char*)&size, 4);
// pStream->read((unsigned char*)&count, 4);
// for (int i = 0 ; i < count; i++)
// {
// _mapEntry m;
// ReadMapEntry(pStream, m);
// mapEntries.push_back(m);
// }
// delete pStream;
//}
bool result = false;
pStream = new POLE::Stream(pStorage, "EncryptionPackage");
if (pStream)
{
_UINT64 length;
pStream->read((unsigned char*)&length, 8);
while (true)
{
}
delete pStream;
}
//-------------------------------------------------------------------
delete pStorage;
return result;
}
bool CryptReader::ReadEncryptionInfo(std::string & xml_string)
{
XmlUtils1::CXmlLiteReader xmlReader;
if (!xmlReader.FromStringA(xml_string))
return false;
if ( !xmlReader.ReadNextNode() )
return false;
int nCurDepth = xmlReader.GetDepth();
while( xmlReader.ReadNextSiblingNode( nCurDepth ) )
{
std::wstring sName = xmlReader.GetName();
if ( L"keyData" == sName )
{
WritingElement_ReadAttributes_Start( xmlReader)
WritingElement_ReadAttributes_Read_if ( xmlReader, "saltSize", keyData.saltSize )
WritingElement_ReadAttributes_Read_else_if ( xmlReader, "blockSize", keyData.blockSize )
WritingElement_ReadAttributes_Read_else_if ( xmlReader, "keyBits", keyData.keyBits )
WritingElement_ReadAttributes_Read_else_if ( xmlReader, "hashSize", keyData.hashSize )
WritingElement_ReadAttributes_Read_else_if ( xmlReader, "cipherAlgorithm", keyData.cipherAlgorithm )
WritingElement_ReadAttributes_Read_else_if ( xmlReader, "cipherChaining", keyData.cipherChaining )
WritingElement_ReadAttributes_Read_else_if ( xmlReader, "hashAlgorithm", keyData.hashAlgorithm )
WritingElement_ReadAttributes_Read_else_if ( xmlReader, "saltValue", keyData.saltValue )
WritingElement_ReadAttributes_End( xmlReader )
}
else if ( L"dataIntegrity" == sName )
{
}
else if (L"keyEncryptors" == sName)
{
while( xmlReader.ReadNextSiblingNode( nCurDepth + 1 ) )
{
if (L"keyEncryptor" == sName)
{
_keyEncryptor k;
WritingElement_ReadAttributes_Start( xmlReader)
WritingElement_ReadAttributes_Read_if ( xmlReader, "spinCount", k.spinCount )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "saltSize", k.saltSize )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "blockSize", k.blockSize )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "keyBits", k.keyBits )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "hashSize", k.hashSize )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "cipherAlgorithm", k.cipherAlgorithm )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "cipherChaining", k.cipherChaining )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "hashAlgorithm", k.hashAlgorithm )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "saltValue", k.saltValue )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "encryptedVerifierHashInput", k.encryptedVerifierHashInput )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "encryptedVerifierHashValue", k.encryptedVerifierHashValue )
WritingElement_ReadAttributes_Read_else_if( xmlReader, "encryptedKeyValue", k.encryptedKeyValue )
WritingElement_ReadAttributes_End( xmlReader )
keyEncryptors.push_back(k);
}
}
}
return true;
}
}