// Copyright 2014 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "core/fpdfapi/edit/cpdf_creator.h" #include #include "core/fpdfapi/edit/cpdf_encryptor.h" #include "core/fpdfapi/edit/cpdf_flateencoder.h" #include "core/fpdfapi/parser/cpdf_array.h" #include "core/fpdfapi/parser/cpdf_crypto_handler.h" #include "core/fpdfapi/parser/cpdf_document.h" #include "core/fpdfapi/parser/cpdf_number.h" #include "core/fpdfapi/parser/cpdf_parser.h" #include "core/fpdfapi/parser/cpdf_security_handler.h" #include "core/fpdfapi/parser/cpdf_string.h" #include "core/fpdfapi/parser/fpdf_parser_decode.h" #include "core/fxcrt/fx_extension.h" #include "core/fxcrt/fx_random.h" namespace { const size_t kArchiveBufferSize = 32768; class CFX_FileBufferArchive : public IFX_ArchiveStream { public: explicit CFX_FileBufferArchive(const RetainPtr& archive); ~CFX_FileBufferArchive() override; bool WriteBlock(const void* pBuf, size_t size) override; bool WriteByte(uint8_t byte) override; bool WriteDWord(uint32_t i) override; bool WriteString(const ByteStringView& str) override; FX_FILESIZE CurrentOffset() const override { return offset_; } private: bool Flush(); FX_FILESIZE offset_; size_t current_length_; std::vector buffer_; RetainPtr backing_file_; }; CFX_FileBufferArchive::CFX_FileBufferArchive( const RetainPtr& file) : offset_(0), current_length_(0), buffer_(kArchiveBufferSize), backing_file_(file) { ASSERT(file); } CFX_FileBufferArchive::~CFX_FileBufferArchive() { Flush(); } bool CFX_FileBufferArchive::Flush() { size_t nRemaining = current_length_; current_length_ = 0; if (!backing_file_) return false; if (!nRemaining) return true; return backing_file_->WriteBlock(buffer_.data(), nRemaining); } bool CFX_FileBufferArchive::WriteBlock(const void* pBuf, size_t size) { ASSERT(pBuf && size > 0); const uint8_t* buffer = reinterpret_cast(pBuf); size_t temp_size = size; while (temp_size) { size_t buf_size = std::min(kArchiveBufferSize - current_length_, temp_size); memcpy(buffer_.data() + current_length_, buffer, buf_size); current_length_ += buf_size; if (current_length_ == kArchiveBufferSize && !Flush()) return false; temp_size -= buf_size; buffer += buf_size; } pdfium::base::CheckedNumeric safe_offset = offset_; safe_offset += size; if (!safe_offset.IsValid()) return false; offset_ = safe_offset.ValueOrDie(); return true; } bool CFX_FileBufferArchive::WriteByte(uint8_t byte) { return WriteBlock(&byte, 1); } bool CFX_FileBufferArchive::WriteDWord(uint32_t i) { char buf[32]; FXSYS_itoa(i, buf, 10); return WriteBlock(buf, static_cast(FXSYS_strlen(buf))); } bool CFX_FileBufferArchive::WriteString(const ByteStringView& str) { return WriteBlock(str.raw_str(), str.GetLength()); } std::vector GenerateFileID(uint32_t dwSeed1, uint32_t dwSeed2) { std::vector buffer(sizeof(uint32_t) * 4); uint32_t* pBuffer = reinterpret_cast(buffer.data()); void* pContext = FX_Random_MT_Start(dwSeed1); for (int i = 0; i < 2; ++i) *pBuffer++ = FX_Random_MT_Generate(pContext); FX_Random_MT_Close(pContext); pContext = FX_Random_MT_Start(dwSeed2); for (int i = 0; i < 2; ++i) *pBuffer++ = FX_Random_MT_Generate(pContext); FX_Random_MT_Close(pContext); return buffer; } int32_t OutputIndex(IFX_ArchiveStream* archive, FX_FILESIZE offset) { if (!archive->WriteByte(static_cast(offset >> 24)) || !archive->WriteByte(static_cast(offset >> 16)) || !archive->WriteByte(static_cast(offset >> 8)) || !archive->WriteByte(static_cast(offset)) || !archive->WriteByte(0)) { return -1; } return 0; } } // namespace CPDF_Creator::CPDF_Creator(CPDF_Document* pDoc, const RetainPtr& archive) : m_pDocument(pDoc), m_pParser(pDoc->GetParser()), m_bSecurityChanged(false), m_pEncryptDict(m_pParser ? m_pParser->GetEncryptDict() : nullptr), m_dwEncryptObjNum(0), m_pCryptoHandler(m_pParser ? m_pParser->GetCryptoHandler() : nullptr), m_pMetadata(nullptr), m_dwLastObjNum(m_pDocument->GetLastObjNum()), m_Archive(pdfium::MakeUnique(archive)), m_SavedOffset(0), m_iStage(-1), m_dwFlags(0), m_CurObjNum(0), m_XrefStart(0), m_pIDArray(nullptr), m_FileVersion(0) {} CPDF_Creator::~CPDF_Creator() {} bool CPDF_Creator::WriteStream(const CPDF_Object* pStream, uint32_t objnum, CPDF_CryptoHandler* pCrypto) { CPDF_FlateEncoder encoder(const_cast(pStream->AsStream()), pStream != m_pMetadata); CPDF_Encryptor encryptor(pCrypto, objnum, encoder.GetData(), encoder.GetSize()); if (static_cast(encoder.GetDict()->GetIntegerFor("Length")) != encryptor.GetSize()) { encoder.CloneDict(); encoder.GetDict()->SetNewFor( "Length", static_cast(encryptor.GetSize())); } if (!WriteDirectObj(objnum, encoder.GetDict(), true) || !m_Archive->WriteString("stream\r\n")) { return false; } // Allow for empty streams. if (encryptor.GetSize() > 0 && !m_Archive->WriteBlock(encryptor.GetData(), encryptor.GetSize())) { return false; } if (!m_Archive->WriteString("\r\nendstream")) return false; return true; } bool CPDF_Creator::WriteIndirectObj(uint32_t objnum, const CPDF_Object* pObj) { if (!m_Archive->WriteDWord(objnum) || !m_Archive->WriteString(" 0 obj\r\n")) return false; if (pObj->IsStream()) { CPDF_CryptoHandler* pHandler = pObj != m_pMetadata ? m_pCryptoHandler.Get() : nullptr; if (!WriteStream(pObj, objnum, pHandler)) return false; } else if (!WriteDirectObj(objnum, pObj, true)) { return false; } return m_Archive->WriteString("\r\nendobj\r\n"); } bool CPDF_Creator::WriteDirectObj(uint32_t objnum, const CPDF_Object* pObj, bool bEncrypt) { switch (pObj->GetType()) { case CPDF_Object::BOOLEAN: case CPDF_Object::NAME: case CPDF_Object::NULLOBJ: case CPDF_Object::NUMBER: case CPDF_Object::REFERENCE: if (!pObj->WriteTo(m_Archive.get())) return false; break; case CPDF_Object::STRING: { ByteString str = pObj->GetString(); bool bHex = pObj->AsString()->IsHex(); if (!m_pCryptoHandler || !bEncrypt) { if (!pObj->WriteTo(m_Archive.get())) return false; break; } CPDF_Encryptor encryptor(m_pCryptoHandler.Get(), objnum, (uint8_t*)str.c_str(), str.GetLength()); ByteString content = PDF_EncodeString( ByteString(encryptor.GetData(), encryptor.GetSize()), bHex); if (!m_Archive->WriteString(content.AsStringView())) return false; break; } case CPDF_Object::STREAM: { CPDF_FlateEncoder encoder(const_cast(pObj->AsStream()), true); CPDF_Encryptor encryptor(m_pCryptoHandler.Get(), objnum, encoder.GetData(), encoder.GetSize()); if (static_cast(encoder.GetDict()->GetIntegerFor("Length")) != encryptor.GetSize()) { encoder.CloneDict(); encoder.GetDict()->SetNewFor( "Length", static_cast(encryptor.GetSize())); } if (!WriteDirectObj(objnum, encoder.GetDict(), true) || !m_Archive->WriteString("stream\r\n") || !m_Archive->WriteBlock(encryptor.GetData(), encryptor.GetSize()) || !m_Archive->WriteString("\r\nendstream")) { return false; } break; } case CPDF_Object::ARRAY: { if (!m_Archive->WriteString("[")) return false; const CPDF_Array* p = pObj->AsArray(); for (size_t i = 0; i < p->GetCount(); i++) { CPDF_Object* pElement = p->GetObjectAt(i); if (!pElement->IsInline()) { if (!m_Archive->WriteString(" ") || !m_Archive->WriteDWord(pElement->GetObjNum()) || !m_Archive->WriteString(" 0 R")) { return false; } } else if (!WriteDirectObj(objnum, pElement, true)) { return false; } } if (!m_Archive->WriteString("]")) return false; break; } case CPDF_Object::DICTIONARY: { if (!m_pCryptoHandler || pObj == m_pEncryptDict) { if (!pObj->WriteTo(m_Archive.get())) return false; break; } if (!m_Archive->WriteString("<<")) return false; const CPDF_Dictionary* p = pObj->AsDictionary(); bool bSignDict = p->IsSignatureDict(); for (const auto& it : *p) { bool bSignValue = false; const ByteString& key = it.first; CPDF_Object* pValue = it.second.get(); if (!m_Archive->WriteString("/") || !m_Archive->WriteString(PDF_NameEncode(key).AsStringView())) { return false; } if (bSignDict && key == "Contents") bSignValue = true; if (!pValue->IsInline()) { if (!m_Archive->WriteString(" ") || !m_Archive->WriteDWord(pValue->GetObjNum()) || !m_Archive->WriteString(" 0 R ")) { return false; } } else if (!WriteDirectObj(objnum, pValue, !bSignValue)) { return false; } } if (!m_Archive->WriteString(">>")) return false; break; } } return true; } bool CPDF_Creator::WriteOldIndirectObject(uint32_t objnum) { if (m_pParser->IsObjectFreeOrNull(objnum)) return true; m_ObjectOffsets[objnum] = m_Archive->CurrentOffset(); bool bExistInMap = !!m_pDocument->GetIndirectObject(objnum); CPDF_Object* pObj = m_pDocument->GetOrParseIndirectObject(objnum); if (!pObj) { m_ObjectOffsets.erase(objnum); return true; } if (!WriteIndirectObj(pObj->GetObjNum(), pObj)) return false; if (!bExistInMap) m_pDocument->DeleteIndirectObject(objnum); return true; } bool CPDF_Creator::WriteOldObjs() { uint32_t nLastObjNum = m_pParser->GetLastObjNum(); if (!m_pParser->IsValidObjectNumber(nLastObjNum)) return true; for (uint32_t objnum = m_CurObjNum; objnum <= nLastObjNum; ++objnum) { if (!WriteOldIndirectObject(objnum)) return false; } return true; } bool CPDF_Creator::WriteNewObjs() { for (size_t i = m_CurObjNum; i < m_NewObjNumArray.size(); ++i) { uint32_t objnum = m_NewObjNumArray[i]; CPDF_Object* pObj = m_pDocument->GetIndirectObject(objnum); if (!pObj) continue; m_ObjectOffsets[objnum] = m_Archive->CurrentOffset(); if (!WriteIndirectObj(pObj->GetObjNum(), pObj)) return false; } return true; } void CPDF_Creator::InitOldObjNumOffsets() { if (!m_pParser) return; uint32_t dwStart = 0; uint32_t dwEnd = m_pParser->GetLastObjNum(); while (dwStart <= dwEnd) { while (dwStart <= dwEnd && m_pParser->IsObjectFreeOrNull(dwStart)) dwStart++; if (dwStart > dwEnd) break; uint32_t j = dwStart; while (j <= dwEnd && !m_pParser->IsObjectFreeOrNull(j)) j++; dwStart = j; } } void CPDF_Creator::InitNewObjNumOffsets() { for (const auto& pair : *m_pDocument) { const uint32_t objnum = pair.first; if (IsIncremental() || pair.second->GetObjNum() == CPDF_Object::kInvalidObjNum) { continue; } if (m_pParser && m_pParser->IsValidObjectNumber(objnum) && m_pParser->GetObjectType(objnum) != CPDF_Parser::ObjectType::kFree) { continue; } m_NewObjNumArray.insert(std::lower_bound(m_NewObjNumArray.begin(), m_NewObjNumArray.end(), objnum), objnum); } } int32_t CPDF_Creator::WriteDoc_Stage1() { ASSERT(m_iStage > -1 || m_iStage < 20); if (m_iStage == 0) { if (!m_pParser) m_dwFlags &= ~FPDFCREATE_INCREMENTAL; if (m_bSecurityChanged && IsOriginal()) m_dwFlags &= ~FPDFCREATE_INCREMENTAL; const CPDF_Dictionary* pDict = m_pDocument->GetRoot(); m_pMetadata = pDict ? pDict->GetDirectObjectFor("Metadata") : nullptr; m_iStage = 10; } if (m_iStage == 10) { if (!IsIncremental()) { if (!m_Archive->WriteString("%PDF-1.")) return -1; int32_t version = 7; if (m_FileVersion) version = m_FileVersion; else if (m_pParser) version = m_pParser->GetFileVersion(); if (!m_Archive->WriteDWord(version % 10) || !m_Archive->WriteString("\r\n%\xA1\xB3\xC5\xD7\r\n")) { return -1; } InitOldObjNumOffsets(); m_iStage = 20; } else { m_SavedOffset = m_pParser->GetFileAccess()->GetSize(); m_iStage = 15; } } if (m_iStage == 15) { if (IsOriginal() && m_SavedOffset > 0) { RetainPtr pSrcFile = m_pParser->GetFileAccess(); std::vector buffer(4096); FX_FILESIZE src_size = m_SavedOffset; while (src_size) { uint32_t block_size = src_size > 4096 ? 4096 : src_size; if (!pSrcFile->ReadBlock(buffer.data(), m_Archive->CurrentOffset() - src_size, block_size)) { return -1; } if (!m_Archive->WriteBlock(buffer.data(), block_size)) return -1; src_size -= block_size; } } if (IsOriginal() && m_pParser->GetLastXRefOffset() == 0) { InitOldObjNumOffsets(); for (uint32_t num = 0; num <= m_pParser->GetLastObjNum(); ++num) { if (m_pParser->IsObjectFreeOrNull(num)) continue; m_ObjectOffsets[num] = m_pParser->GetObjectPositionOrZero(num); } } m_iStage = 20; } InitNewObjNumOffsets(); return m_iStage; } int32_t CPDF_Creator::WriteDoc_Stage2() { ASSERT(m_iStage >= 20 || m_iStage < 30); if (m_iStage == 20) { if (!IsIncremental() && m_pParser) { m_CurObjNum = 0; m_iStage = 21; } else { m_iStage = 25; } } if (m_iStage == 21) { if (!WriteOldObjs()) return -1; m_iStage = 25; } if (m_iStage == 25) { m_CurObjNum = 0; m_iStage = 26; } if (m_iStage == 26) { if (!WriteNewObjs()) return -1; m_iStage = 27; } if (m_iStage == 27) { if (m_pEncryptDict && m_pEncryptDict->IsInline()) { m_dwLastObjNum += 1; FX_FILESIZE saveOffset = m_Archive->CurrentOffset(); if (!WriteIndirectObj(m_dwLastObjNum, m_pEncryptDict.Get())) return -1; m_ObjectOffsets[m_dwLastObjNum] = saveOffset; m_dwEncryptObjNum = m_dwLastObjNum; if (IsIncremental()) m_NewObjNumArray.push_back(m_dwLastObjNum); } m_iStage = 80; } return m_iStage; } int32_t CPDF_Creator::WriteDoc_Stage3() { ASSERT(m_iStage >= 80 || m_iStage < 90); uint32_t dwLastObjNum = m_dwLastObjNum; if (m_iStage == 80) { m_XrefStart = m_Archive->CurrentOffset(); if (!IsIncremental() || !m_pParser->IsXRefStream()) { if (!IsIncremental() || m_pParser->GetLastXRefOffset() == 0) { ByteString str; str = pdfium::ContainsKey(m_ObjectOffsets, 1) ? "xref\r\n" : "xref\r\n0 1\r\n0000000000 65535 f\r\n"; if (!m_Archive->WriteString(str.AsStringView())) return -1; m_CurObjNum = 1; m_iStage = 81; } else { if (!m_Archive->WriteString("xref\r\n")) return -1; m_CurObjNum = 0; m_iStage = 82; } } else { m_iStage = 90; } } if (m_iStage == 81) { ByteString str; uint32_t i = m_CurObjNum; uint32_t j; while (i <= dwLastObjNum) { while (i <= dwLastObjNum && !pdfium::ContainsKey(m_ObjectOffsets, i)) i++; if (i > dwLastObjNum) break; j = i; while (j <= dwLastObjNum && pdfium::ContainsKey(m_ObjectOffsets, j)) j++; if (i == 1) str.Format("0 %d\r\n0000000000 65535 f\r\n", j); else str.Format("%d %d\r\n", i, j - i); if (!m_Archive->WriteBlock(str.c_str(), str.GetLength())) return -1; while (i < j) { str.Format("%010d 00000 n\r\n", m_ObjectOffsets[i++]); if (!m_Archive->WriteBlock(str.c_str(), str.GetLength())) return -1; } if (i > dwLastObjNum) break; } m_iStage = 90; } if (m_iStage == 82) { ByteString str; uint32_t iCount = pdfium::CollectionSize(m_NewObjNumArray); uint32_t i = m_CurObjNum; while (i < iCount) { size_t j = i; uint32_t objnum = m_NewObjNumArray[i]; while (j < iCount) { if (++j == iCount) break; uint32_t dwCurrent = m_NewObjNumArray[j]; if (dwCurrent - objnum > 1) break; objnum = dwCurrent; } objnum = m_NewObjNumArray[i]; if (objnum == 1) str.Format("0 %d\r\n0000000000 65535 f\r\n", j - i + 1); else str.Format("%d %d\r\n", objnum, j - i); if (!m_Archive->WriteBlock(str.c_str(), str.GetLength())) return -1; while (i < j) { objnum = m_NewObjNumArray[i++]; str.Format("%010d 00000 n\r\n", m_ObjectOffsets[objnum]); if (!m_Archive->WriteBlock(str.c_str(), str.GetLength())) return -1; } } m_iStage = 90; } return m_iStage; } int32_t CPDF_Creator::WriteDoc_Stage4() { ASSERT(m_iStage >= 90); bool bXRefStream = IsIncremental() && m_pParser->IsXRefStream(); if (!bXRefStream) { if (!m_Archive->WriteString("trailer\r\n<<")) return -1; } else { if (!m_Archive->WriteDWord(m_pDocument->GetLastObjNum() + 1) || !m_Archive->WriteString(" 0 obj <<")) { return -1; } } if (m_pParser) { CPDF_Dictionary* p = m_pParser->GetTrailer(); for (const auto& it : *p) { const ByteString& key = it.first; CPDF_Object* pValue = it.second.get(); if (key == "Encrypt" || key == "Size" || key == "Filter" || key == "Index" || key == "Length" || key == "Prev" || key == "W" || key == "XRefStm" || key == "ID") { continue; } if (!m_Archive->WriteString(("/")) || !m_Archive->WriteString(PDF_NameEncode(key).AsStringView())) { return -1; } if (!pValue->IsInline()) { if (!m_Archive->WriteString(" ") || !m_Archive->WriteDWord(pValue->GetObjNum()) || !m_Archive->WriteString(" 0 R ")) { return -1; } } else if (!pValue->WriteTo(m_Archive.get())) { return -1; } } } else { if (!m_Archive->WriteString("\r\n/Root ") || !m_Archive->WriteDWord(m_pDocument->GetRoot()->GetObjNum()) || !m_Archive->WriteString(" 0 R\r\n")) { return -1; } if (m_pDocument->GetInfo()) { if (!m_Archive->WriteString("/Info ") || !m_Archive->WriteDWord(m_pDocument->GetInfo()->GetObjNum()) || !m_Archive->WriteString(" 0 R\r\n")) { return -1; } } } if (m_pEncryptDict) { if (!m_Archive->WriteString("/Encrypt")) return -1; uint32_t dwObjNum = m_pEncryptDict->GetObjNum(); if (dwObjNum == 0) dwObjNum = m_pDocument->GetLastObjNum() + 1; if (!m_Archive->WriteString(" ") || !m_Archive->WriteDWord(dwObjNum) || !m_Archive->WriteString(" 0 R ")) { return -1; } } if (!m_Archive->WriteString("/Size ") || !m_Archive->WriteDWord(m_dwLastObjNum + (bXRefStream ? 2 : 1))) { return -1; } if (IsIncremental()) { FX_FILESIZE prev = m_pParser->GetLastXRefOffset(); if (prev) { if (!m_Archive->WriteString("/Prev ")) return -1; char offset_buf[20]; memset(offset_buf, 0, sizeof(offset_buf)); FXSYS_i64toa(prev, offset_buf, 10); if (!m_Archive->WriteBlock(offset_buf, FXSYS_strlen(offset_buf))) return -1; } } if (m_pIDArray) { if (!m_Archive->WriteString(("/ID")) || !m_pIDArray->WriteTo(m_Archive.get())) { return -1; } } if (!bXRefStream) { if (!m_Archive->WriteString(">>")) return -1; } else { if (!m_Archive->WriteString("/W[0 4 1]/Index[")) return -1; if (IsIncremental() && m_pParser && m_pParser->GetLastXRefOffset() == 0) { uint32_t i = 0; for (i = 0; i < m_dwLastObjNum; i++) { if (!pdfium::ContainsKey(m_ObjectOffsets, i)) continue; if (!m_Archive->WriteDWord(i) || !m_Archive->WriteString(" 1 ")) return -1; } if (!m_Archive->WriteString("]/Length ") || !m_Archive->WriteDWord(m_dwLastObjNum * 5) || !m_Archive->WriteString(">>stream\r\n")) { return -1; } for (i = 0; i < m_dwLastObjNum; i++) { auto it = m_ObjectOffsets.find(i); if (it == m_ObjectOffsets.end()) continue; OutputIndex(m_Archive.get(), it->second); } } else { size_t count = m_NewObjNumArray.size(); size_t i = 0; for (i = 0; i < count; i++) { if (!m_Archive->WriteDWord(m_NewObjNumArray[i]) || !m_Archive->WriteString(" 1 ")) { return -1; } } if (!m_Archive->WriteString("]/Length ") || !m_Archive->WriteDWord(count * 5) || !m_Archive->WriteString(">>stream\r\n")) { return -1; } for (i = 0; i < count; ++i) OutputIndex(m_Archive.get(), m_ObjectOffsets[m_NewObjNumArray[i]]); } if (!m_Archive->WriteString("\r\nendstream")) return -1; } if (!m_Archive->WriteString("\r\nstartxref\r\n")) return -1; char offset_buf[20]; memset(offset_buf, 0, sizeof(offset_buf)); FXSYS_i64toa(m_XrefStart, offset_buf, 10); if (!m_Archive->WriteBlock(offset_buf, FXSYS_strlen(offset_buf)) || !m_Archive->WriteString("\r\n%%EOF\r\n")) { return -1; } m_iStage = 100; return m_iStage; } bool CPDF_Creator::Create(uint32_t flags) { m_dwFlags = flags; m_iStage = 0; m_dwLastObjNum = m_pDocument->GetLastObjNum(); m_ObjectOffsets.clear(); m_NewObjNumArray.clear(); InitID(); return Continue() > -1; } void CPDF_Creator::InitID() { CPDF_Array* pOldIDArray = m_pParser ? m_pParser->GetIDArray() : nullptr; bool idArrayPreExisting = !!m_pIDArray; if (!idArrayPreExisting) { m_pIDArray = pdfium::MakeUnique(); CPDF_Object* pID1 = pOldIDArray ? pOldIDArray->GetObjectAt(0) : nullptr; if (pID1) { m_pIDArray->Add(pID1->Clone()); } else { std::vector buffer = GenerateFileID((uint32_t)(uintptr_t)this, m_dwLastObjNum); ByteString bsBuffer(buffer.data(), buffer.size()); m_pIDArray->AddNew(bsBuffer, true); } } if (pOldIDArray) { CPDF_Object* pID2 = pOldIDArray->GetObjectAt(1); if (IsIncremental() && m_pEncryptDict && pID2) { m_pIDArray->Add(pID2->Clone()); return; } std::vector buffer = GenerateFileID((uint32_t)(uintptr_t)this, m_dwLastObjNum); ByteString bsBuffer(buffer.data(), buffer.size()); m_pIDArray->AddNew(bsBuffer, true); return; } m_pIDArray->Add(m_pIDArray->GetObjectAt(0)->Clone()); if (m_pEncryptDict && !pOldIDArray && m_pParser && !idArrayPreExisting) { if (m_pEncryptDict->GetStringFor("Filter") == "Standard") { ByteString user_pass = m_pParser->GetPassword(); uint32_t flag = PDF_ENCRYPT_CONTENT; CPDF_SecurityHandler handler; handler.OnCreate(m_pEncryptDict.Get(), m_pIDArray.get(), user_pass.raw_str(), user_pass.GetLength(), flag); m_pCryptoHandler = pdfium::MakeRetain(); m_pCryptoHandler->Init(m_pEncryptDict.Get(), &handler); m_bSecurityChanged = true; } } } int32_t CPDF_Creator::Continue() { if (m_iStage < 0) return m_iStage; int32_t iRet = 0; while (m_iStage < 100) { if (m_iStage < 20) iRet = WriteDoc_Stage1(); else if (m_iStage < 30) iRet = WriteDoc_Stage2(); else if (m_iStage < 90) iRet = WriteDoc_Stage3(); else iRet = WriteDoc_Stage4(); if (iRet < m_iStage) break; } if (iRet < 1 || m_iStage == 100) { m_iStage = -1; return iRet > 99 ? 0 : (iRet < 1 ? -1 : iRet); } return m_iStage; } bool CPDF_Creator::SetFileVersion(int32_t fileVersion) { if (fileVersion < 10 || fileVersion > 17) return false; m_FileVersion = fileVersion; return true; } void CPDF_Creator::RemoveSecurity() { m_pCryptoHandler.Reset(); m_bSecurityChanged = true; m_pEncryptDict = nullptr; }