Files
core/MsBinaryFile/PptFile/Records/CryptSession10Container.cpp
Alexander Trofimov 76ee07f61c [copyright] Update copyright header
Co-authored-by: Alexander Trofimov <alexander.trofimov@onlyoffice.com>
Co-committed-by: Alexander Trofimov <alexander.trofimov@onlyoffice.com>
2026-05-14 08:23:56 +00:00

184 lines
6.8 KiB
C++

/*
* Copyright (C) Ascensio System SIA, 2009-2026
*
* 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, together with the
* additional terms provided in the LICENSE file.
*
* 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: https://www.gnu.org/licenses/agpl-3.0.html
*
* You can contact Ascensio System SIA by email at info@onlyoffice.com
* or by postal mail at 20A-6 Ernesta Birznieka-Upisha Street, Riga,
* LV-1050, Latvia, European Union.
*
* The interactive user interfaces in modified versions of the Program
* are required to display Appropriate Legal Notices in accordance with
* Section 5 of the GNU AGPL version 3.
*
* No trademark rights are granted under this License.
*
* All non-code elements of the Product, including illustrations,
* icon sets, and technical writing content, are licensed under the
* Creative Commons Attribution-ShareAlike 4.0 International License:
* https://creativecommons.org/licenses/by-sa/4.0/legalcode
*
* This license applies only to such non-code elements and does not
* modify or replace the licensing terms applicable to the Program's
* source code, which remains licensed under the GNU Affero General
* Public License v3.
*
* SPDX-License-Identifier: AGPL-3.0-only
*/
#include "CryptSession10Container.h"
using namespace PPT;
CRecordEncryptedSummary::CRecordEncryptedSummary(){}
CRecordEncryptedSummary::~CRecordEncryptedSummary(){}
void CRecordEncryptedSummary::ReadFromStream(SRecordHeader &oHeader, const XLS::CFStreamPtr &pStream)
{
m_oHeader = oHeader;
unsigned char flags;
*pStream >> StreamOffset >> StreamSize >> Block >> NameSize >> flags;
fStream = GETBIT(flags, 0);
if (NameSize > 0 && NameSize < 0xff)
{
StreamName = ReadStringW(pStream, NameSize);
}
}
CEncryptionHeader::CEncryptionHeader(){}
CEncryptionHeader::~CEncryptionHeader(){}
void CEncryptionHeader::ReadFromStream(SRecordHeader &oHeader, POLE::Stream *pStream)
{
m_oHeader = oHeader;
POLE::uint64 pos_start_record = pStream->tell();
unsigned short vMajor = StreamUtils::ReadWORD(pStream);
unsigned short vMinor = StreamUtils::ReadWORD(pStream);
if(0x0001 == vMajor) // RC4 encryption header structure
{
bStandard = true;
crypt_data_rc4.Salt.b1 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.Salt.b2 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.Salt.b3 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.Salt.b4 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifier.b1 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifier.b2 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifier.b3 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifier.b4 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifierHash.b1 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifierHash.b2 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifierHash.b3 = StreamUtils::ReadDWORD(pStream);
crypt_data_rc4.EncryptedVerifierHash.b4 = StreamUtils::ReadDWORD(pStream);
}
else
{
bStandard = false;
crypt_data_aes.bAgile = false;
_UINT32 flags = StreamUtils::ReadDWORD(pStream);
unsigned char *pDataRead = NULL;
bool fCryptoAPI = GETBIT(flags, 1);
bool fDocProps = GETBIT(flags, 2);
bool fExternal = GETBIT(flags, 3);
bool fAES = GETBIT(flags, 4);
//EncryptionHeader
int HeaderSize = StreamUtils::ReadDWORD(pStream);
int Flags = StreamUtils::ReadDWORD(pStream);
int SizeExtra = StreamUtils::ReadDWORD(pStream);
int AlgID = StreamUtils::ReadDWORD(pStream);
int AlgIDHash = StreamUtils::ReadDWORD(pStream);
int KeySize = StreamUtils::ReadDWORD(pStream);
int ProviderType= StreamUtils::ReadDWORD(pStream);
int Reserved1 = StreamUtils::ReadDWORD(pStream);
int Reserved2 = StreamUtils::ReadDWORD(pStream);
POLE::uint64 pos = pStream->tell();
POLE::uint64 size = pStream->size();
std::vector<char> dataCSPName;
while(pos < size - 1)
{
dataCSPName.push_back(StreamUtils::ReadBYTE(pStream));
dataCSPName.push_back(StreamUtils::ReadBYTE(pStream));
if (dataCSPName[dataCSPName.size() - 1] == 0 && dataCSPName[dataCSPName.size() - 2] == 0)
{
break;
}
pos+=2;//unicode null-terminate string
}
//EncryptionVerifier
crypt_data_aes.saltSize = StreamUtils::ReadDWORD(pStream);
crypt_data_aes.saltValue = StreamUtils::ReadStringA(pStream, crypt_data_aes.saltSize);
crypt_data_aes.encryptedVerifierInput = StreamUtils::ReadStringA(pStream, 0x10);
crypt_data_aes.hashSize = StreamUtils::ReadDWORD(pStream);
int szEncryptedVerifierHash = (ProviderType == 0x0001) ? 0x14 : 0x20;
crypt_data_aes.encryptedVerifierValue = StreamUtils::ReadStringA(pStream, szEncryptedVerifierHash);
pos = pStream->tell();
//------------------------------------------------------------------------------------------
switch(AlgIDHash)
{
case 0x8003: crypt_data_aes.hashAlgorithm = CRYPT_METHOD::MD5; break;
case 0x0000:
case 0x8004: crypt_data_aes.hashAlgorithm = CRYPT_METHOD::SHA1; break;
}
crypt_data_aes.spinCount = 0;
switch(AlgID)
{
case 0x6801:
crypt_data_aes.cipherAlgorithm = CRYPT_METHOD::RC4;
crypt_data_aes.keySize = KeySize / 8;
if (crypt_data_aes.keySize == 0)
crypt_data_aes.keySize = 5; // 40 bit
break;
case 0x660E:
crypt_data_aes.cipherAlgorithm = CRYPT_METHOD::AES_ECB;
crypt_data_aes.keySize = 128 /8;
break;
case 0x660F:
crypt_data_aes.cipherAlgorithm = CRYPT_METHOD::AES_ECB;
crypt_data_aes.keySize = 192 /8;
break;
case 0x6610:
crypt_data_aes.cipherAlgorithm = CRYPT_METHOD::AES_ECB;
crypt_data_aes.keySize = 256 /8;
break;
}
//switch(ProviderType)
//{
// case 0x0001: crypt_data_aes.cipherAlgorithm = CRYPT_METHOD::RC4; break;
// case 0x0018: crypt_data_aes.cipherAlgorithm = CRYPT_METHOD::AES_ECB; break;
//}
}
POLE::uint64 pos_end_record = pStream->tell();
//int sz_header = (pos_end_record - pos_start_record);
}