// Copyright 2016 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/parser/cpdf_parser.h"
#include <algorithm>
#include <utility>
#include <vector>
#include "core/fpdfapi/parser/cpdf_array.h"
#include "core/fpdfapi/parser/cpdf_crypto_handler.h"
#include "core/fpdfapi/parser/cpdf_dictionary.h"
#include "core/fpdfapi/parser/cpdf_document.h"
#include "core/fpdfapi/parser/cpdf_linearized_header.h"
#include "core/fpdfapi/parser/cpdf_number.h"
#include "core/fpdfapi/parser/cpdf_reference.h"
#include "core/fpdfapi/parser/cpdf_security_handler.h"
#include "core/fpdfapi/parser/cpdf_stream.h"
#include "core/fpdfapi/parser/cpdf_stream_acc.h"
#include "core/fpdfapi/parser/cpdf_syntax_parser.h"
#include "core/fpdfapi/parser/fpdf_parser_utility.h"
#include "core/fxcrt/autorestorer.h"
#include "core/fxcrt/cfx_memorystream.h"
#include "core/fxcrt/fx_extension.h"
#include "core/fxcrt/fx_safe_types.h"
#include "third_party/base/ptr_util.h"
#include "third_party/base/stl_util.h"
namespace {
// A limit on the size of the xref table. Theoretical limits are higher, but
// this may be large enough in practice.
const int32_t kMaxXRefSize = 1048576;
constexpr FX_FILESIZE kPDFHeaderSize = 9;
uint32_t GetVarInt(const uint8_t* p, int32_t n) {
uint32_t result = 0;
for (int32_t i = 0; i < n; ++i)
result = result * 256 + p[i];
return result;
}
int32_t GetStreamNCount(const RetainPtr<CPDF_StreamAcc>& pObjStream) {
return pObjStream->GetDict()->GetIntegerFor("N");
}
int32_t GetStreamFirst(const RetainPtr<CPDF_StreamAcc>& pObjStream) {
return pObjStream->GetDict()->GetIntegerFor("First");
}
} // namespace
class CPDF_Parser::TrailerData {
public:
TrailerData() {}
~TrailerData() {}
CPDF_Dictionary* GetMainTrailer() const { return main_trailer_.get(); }
std::unique_ptr<CPDF_Dictionary> GetCombinedTrailer() const {
std::unique_ptr<CPDF_Dictionary> result =
ToDictionary(main_trailer_->Clone());
// Info is optional.
uint32_t info_obj_num = GetInfoObjNum();
if (info_obj_num > 0)
result->SetNewFor<CPDF_Reference>("Info", nullptr, GetInfoObjNum());
// Root is required.
result->SetNewFor<CPDF_Reference>("Root", nullptr, GetRootObjNum());
return result;
}
void SetMainTrailer(std::unique_ptr<CPDF_Dictionary> trailer) {
ASSERT(trailer);
main_trailer_ = std::move(trailer);
ApplyTrailer(main_trailer_.get());
}
void AppendTrailer(std::unique_ptr<CPDF_Dictionary> trailer) {
ASSERT(trailer);
ApplyTrailer(trailer.get());
}
void Clear() {
main_trailer_.reset();
last_info_obj_num_ = 0;
last_root_obj_num_ = 0;
}
uint32_t GetInfoObjNum() const {
const CPDF_Reference* pRef = ToReference(
GetMainTrailer() ? GetMainTrailer()->GetObjectFor("Info") : nullptr);
return pRef ? pRef->GetRefObjNum() : last_info_obj_num_;
}
uint32_t GetRootObjNum() const {
const CPDF_Reference* pRef = ToReference(
GetMainTrailer() ? GetMainTrailer()->GetObjectFor("Root") : nullptr);
return pRef ? pRef->GetRefObjNum() : last_root_obj_num_;
}
private:
void ApplyTrailer(const CPDF_Dictionary* dict) {
// The most recent Info object number contained in last added trailer.
// See PDF 1.7 spec, section 3.4.5 - Incremental Updates.
const auto* pRef = ToReference(dict->GetObjectFor("Info"));
if (pRef)
last_info_obj_num_ = pRef->GetRefObjNum();
const auto* pRoot = ToReference(dict->GetObjectFor("Root"));
if (pRoot)
last_root_obj_num_ = pRoot->GetRefObjNum();
}
std::unique_ptr<CPDF_Dictionary> main_trailer_;
uint32_t last_info_obj_num_ = 0;
uint32_t last_root_obj_num_ = 0;
};
CPDF_Parser::CPDF_Parser()
: m_pSyntax(pdfium::MakeUnique<CPDF_SyntaxParser>()),
m_bHasParsed(false),
m_bXRefStream(false),
m_FileVersion(0),
m_TrailerData(pdfium::MakeUnique<TrailerData>()) {}
CPDF_Parser::~CPDF_Parser() {
ReleaseEncryptHandler();
}
uint32_t CPDF_Parser::GetLastObjNum() const {
return m_ObjectInfo.empty() ? 0 : m_ObjectInfo.rbegin()->first;
}
bool CPDF_Parser::IsValidObjectNumber(uint32_t objnum) const {
return !m_ObjectInfo.empty() && objnum <= m_ObjectInfo.rbegin()->first;
}
FX_FILESIZE CPDF_Parser::GetObjectPositionOrZero(uint32_t objnum) const {
auto it = m_ObjectInfo.find(objnum);
return it != m_ObjectInfo.end() ? it->second.pos : 0;
}
CPDF_Parser::ObjectType CPDF_Parser::GetObjectType(uint32_t objnum) const {
ASSERT(IsValidObjectNumber(objnum));
auto it = m_ObjectInfo.find(objnum);
return it != m_ObjectInfo.end() ? it->second.type : ObjectType::kFree;
}
uint16_t CPDF_Parser::GetObjectGenNum(uint32_t objnum) const {
ASSERT(IsValidObjectNumber(objnum));
auto it = m_ObjectInfo.find(objnum);
return it != m_ObjectInfo.end() ? it->second.gennum : 0;
}
bool CPDF_Parser::IsObjectFreeOrNull(uint32_t objnum) const {
switch (GetObjectType(objnum)) {
case ObjectType::kFree:
case ObjectType::kNull:
return true;
case ObjectType::kNotCompressed:
case ObjectType::kCompressed:
return false;
}
ASSERT(false); // NOTREACHED();
return false;
}
bool CPDF_Parser::IsObjectFree(uint32_t objnum) const {
return GetObjectType(objnum) == ObjectType::kFree;
}
void CPDF_Parser::SetEncryptDictionary(CPDF_Dictionary* pDict) {
m_pEncryptDict = pDict;
}
RetainPtr<IFX_SeekableReadStream> CPDF_Parser::GetFileAccess() const {
return m_pSyntax->GetFileAccess();
}
void CPDF_Parser::ShrinkObjectMap(uint32_t objnum) {
if (objnum == 0) {
m_ObjectInfo.clear();
return;
}
auto it = m_ObjectInfo.lower_bound(objnum);
while (it != m_ObjectInfo.end()) {
auto saved_it = it++;
m_ObjectInfo.erase(saved_it);
}
if (!pdfium::ContainsKey(m_ObjectInfo, objnum - 1))
m_ObjectInfo[objnum - 1].pos = 0;
}
bool CPDF_Parser::InitSyntaxParser(
const RetainPtr<IFX_SeekableReadStream>& file_access) {
const int32_t header_offset = GetHeaderOffset(file_access);
if (header_offset == kInvalidHeaderOffset)
return false;
if (file_access->GetSize() < header_offset + kPDFHeaderSize)
return false;
m_pSyntax->InitParser(file_access, header_offset);
return ParseFileVersion();
}
bool CPDF_Parser::ParseFileVersion() {
m_FileVersion = 0;
uint8_t ch;
if (!m_pSyntax->GetCharAt(5, ch))
return false;
if (std::isdigit(ch))
m_FileVersion = FXSYS_DecimalCharToInt(static_cast<wchar_t>(ch)) * 10;
if (!m_pSyntax->GetCharAt(7, ch))
return false;
if (std::isdigit(ch))
m_FileVersion += FXSYS_DecimalCharToInt(static_cast<wchar_t>(ch));
return true;
}
CPDF_Parser::Error CPDF_Parser::StartParse(
const RetainPtr<IFX_SeekableReadStream>& pFileAccess,
CPDF_Document* pDocument) {
if (!InitSyntaxParser(pFileAccess))
return FORMAT_ERROR;
return StartParseInternal(pDocument);
}
CPDF_Parser::Error CPDF_Parser::StartParseInternal(CPDF_Document* pDocument) {
ASSERT(!m_bHasParsed);
m_bHasParsed = true;
m_bXRefStream = false;
m_pDocument = pDocument;
bool bXRefRebuilt = false;
m_LastXRefOffset = ParseStartXRef();
if (m_LastXRefOffset > 0) {
if (!LoadAllCrossRefV4(m_LastXRefOffset) &&
!LoadAllCrossRefV5(m_LastXRefOffset)) {
if (!RebuildCrossRef())
return FORMAT_ERROR;
bXRefRebuilt = true;
m_LastXRefOffset = 0;
}
} else {
if (!RebuildCrossRef())
return FORMAT_ERROR;
bXRefRebuilt = true;
}
Error eRet = SetEncryptHandler();
if (eRet != SUCCESS)
return eRet;
m_pDocument->LoadDoc();
if (!m_pDocument->GetRoot() || m_pDocument->GetPageCount() == 0) {
if (bXRefRebuilt)
return FORMAT_ERROR;
ReleaseEncryptHandler();
if (!RebuildCrossRef())
return FORMAT_ERROR;
eRet = SetEncryptHandler();
if (eRet != SUCCESS)
return eRet;
m_pDocument->LoadDoc();
if (!m_pDocument->GetRoot())
return FORMAT_ERROR;
}
if (GetRootObjNum() == 0) {
ReleaseEncryptHandler();
if (!RebuildCrossRef() || GetRootObjNum() == 0)
return FORMAT_ERROR;
eRet = SetEncryptHandler();
if (eRet != SUCCESS)
return eRet;
}
if (m_pSecurityHandler && !m_pSecurityHandler->IsMetadataEncrypted()) {
CPDF_Reference* pMetadata =
ToReference(m_pDocument->GetRoot()->GetObjectFor("Metadata"));
if (pMetadata)
m_MetadataObjnum = pMetadata->GetRefObjNum();
}
return SUCCESS;
}
FX_FILESIZE CPDF_Parser::ParseStartXRef() {
static constexpr char kStartXRefKeyword[] = "startxref";
m_pSyntax->SetPos(m_pSyntax->m_FileLen - m_pSyntax->m_HeaderOffset -
strlen(kStartXRefKeyword));
if (!m_pSyntax->BackwardsSearchToWord(kStartXRefKeyword, 4096))
return 0;
// Skip "startxref" keyword.
m_pSyntax->GetKeyword();
// Read XRef offset.
bool bNumber;
const ByteString xrefpos_str = m_pSyntax->GetNextWord(&bNumber);
if (!bNumber || xrefpos_str.IsEmpty())
return 0;
const FX_SAFE_FILESIZE result = FXSYS_atoi64(xrefpos_str.c_str());
if (!result.IsValid() || result.ValueOrDie() >= GetFileAccess()->GetSize())
return 0;
return result.ValueOrDie();
}
CPDF_Parser::Error CPDF_Parser::SetEncryptHandler() {
ReleaseEncryptHandler();
if (!GetTrailer())
return FORMAT_ERROR;
CPDF_Object* pEncryptObj = GetTrailer()->GetObjectFor("Encrypt");
if (pEncryptObj) {
if (CPDF_Dictionary* pEncryptDict = pEncryptObj->AsDictionary()) {
SetEncryptDictionary(pEncryptDict);
} else if (CPDF_Reference* pRef = pEncryptObj->AsReference()) {
pEncryptObj = m_pDocument->GetOrParseIndirectObject(pRef->GetRefObjNum());
if (pEncryptObj)
SetEncryptDictionary(pEncryptObj->GetDict());
}
}
if (m_pEncryptDict) {
ByteString filter = m_pEncryptDict->GetStringFor("Filter");
if (filter != "Standard")
return HANDLER_ERROR;
std::unique_ptr<CPDF_SecurityHandler> pSecurityHandler =
pdfium::MakeUnique<CPDF_SecurityHandler>();
if (!pSecurityHandler->OnInit(m_pEncryptDict.Get(), GetIDArray(),
m_Password))
return PASSWORD_ERROR;
m_pSecurityHandler = std::move(pSecurityHandler);
}
return SUCCESS;
}
void CPDF_Parser::ReleaseEncryptHandler() {
m_pSecurityHandler.reset();
SetEncryptDictionary(nullptr);
}
FX_FILESIZE CPDF_Parser::GetObjectOffset(uint32_t objnum) const {
if (!IsValidObjectNumber(objnum))
return 0;
if (GetObjectType(objnum) == ObjectType::kNotCompressed)
return GetObjectPositionOrZero(objnum);
if (GetObjectType(objnum) == ObjectType::kCompressed) {
FX_FILESIZE pos = GetObjectPositionOrZero(objnum);
return GetObjectPositionOrZero(pos);
}
return 0;
}
// Ideally, all the cross reference entries should be verified.
// In reality, we rarely see well-formed cross references don't match
// with the objects. crbug/602650 showed a case where object numbers
// in the cross reference table are all off by one.
bool CPDF_Parser::VerifyCrossRefV4() {
for (const auto& it : m_ObjectInfo) {
if (it.second.pos == 0)
continue;
// Find the first non-zero position.
FX_FILESIZE SavedPos = m_pSyntax->GetPos();
m_pSyntax->SetPos(it.second.pos);
bool is_num = false;
ByteString num_str = m_pSyntax->GetNextWord(&is_num);
m_pSyntax->SetPos(SavedPos);
if (!is_num || num_str.IsEmpty() ||
FXSYS_atoui(num_str.c_str()) != it.first) {
// If the object number read doesn't match the one stored,
// something is wrong with the cross reference table.
return false;
}
return true;
}
return true;
}
bool CPDF_Parser::LoadAllCrossRefV4(FX_FILESIZE xrefpos) {
if (!LoadCrossRefV4(xrefpos, true))
return false;
std::unique_ptr<CPDF_Dictionary> trailer = LoadTrailerV4();
if (!trailer)
return false;
m_TrailerData->SetMainTrailer(std::move(trailer));
int32_t xrefsize = GetDirectInteger(GetTrailer(), "Size");
if (xrefsize > 0 && xrefsize <= kMaxXRefSize)
ShrinkObjectMap(xrefsize);
std::vector<FX_FILESIZE> CrossRefList;
std::vector<FX_FILESIZE> XRefStreamList;
std::set<FX_FILESIZE> seen_xrefpos;
CrossRefList.push_back(xrefpos);
XRefStreamList.push_back(GetDirectInteger(GetTrailer(), "XRefStm"));
seen_xrefpos.insert(xrefpos);
// When the trailer doesn't have Prev entry or Prev entry value is not
// numerical, GetDirectInteger() returns 0. Loading will end.
xrefpos = GetDirectInteger(GetTrailer(), "Prev");
while (xrefpos) {
// Check for circular references.
if (pdfium::ContainsKey(seen_xrefpos, xrefpos))
return false;
seen_xrefpos.insert(xrefpos);
// SLOW ...
CrossRefList.insert(CrossRefList.begin(), xrefpos);
LoadCrossRefV4(xrefpos, true);
std::unique_ptr<CPDF_Dictionary> pDict(LoadTrailerV4());
if (!pDict)
return false;
xrefpos = GetDirectInteger(pDict.get(), "Prev");
// SLOW ...
XRefStreamList.insert(XRefStreamList.begin(),
pDict->GetIntegerFor("XRefStm"));
m_TrailerData->AppendTrailer(std::move(pDict));
}
for (size_t i = 0; i < CrossRefList.size(); ++i) {
if (!LoadCrossRefV4(CrossRefList[i], false))
return false;
if (XRefStreamList[i] && !LoadCrossRefV5(&XRefStreamList[i], false))
return false;
if (i == 0 && !VerifyCrossRefV4())
return false;
}
return true;
}
bool CPDF_Parser::LoadLinearizedAllCrossRefV4(FX_FILESIZE xrefpos) {
if (!LoadCrossRefV4(xrefpos, false))
return false;
std::unique_ptr<CPDF_Dictionary> trailer = LoadTrailerV4();
if (!trailer)
return false;
m_TrailerData->SetMainTrailer(std::move(trailer));
int32_t xrefsize = GetDirectInteger(GetTrailer(), "Size");
if (xrefsize == 0)
return false;
std::vector<FX_FILESIZE> CrossRefList;
std::vector<FX_FILESIZE> XRefStreamList;
std::set<FX_FILESIZE> seen_xrefpos;
CrossRefList.push_back(xrefpos);
XRefStreamList.push_back(GetDirectInteger(GetTrailer(), "XRefStm"));
seen_xrefpos.insert(xrefpos);
xrefpos = GetDirectInteger(GetTrailer(), "Prev");
while (xrefpos) {
// Check for circular references.
if (pdfium::ContainsKey(seen_xrefpos, xrefpos))
return false;
seen_xrefpos.insert(xrefpos);
// SLOW ...
CrossRefList.insert(CrossRefList.begin(), xrefpos);
LoadCrossRefV4(xrefpos, true);
std::unique_ptr<CPDF_Dictionary> pDict(LoadTrailerV4());
if (!pDict)
return false;
xrefpos = GetDirectInteger(pDict.get(), "Prev");
// SLOW ...
XRefStreamList.insert(XRefStreamList.begin(),
pDict->GetIntegerFor("XRefStm"));
m_TrailerData->AppendTrailer(std::move(pDict));
}
for (size_t i = 1; i < CrossRefList.size(); ++i) {
if (!LoadCrossRefV4(CrossRefList[i], false))
return false;
if (XRefStreamList[i] && !LoadCrossRefV5(&XRefStreamList[i], false))
return false;
}
return true;
}
bool CPDF_Parser::ParseAndAppendCrossRefSubsectionData(
uint32_t start_objnum,
uint32_t count,
std::vector<CrossRefObjData>* out_objects) {
// Each entry shall be exactly 20 byte.
// A sample entry looks like:
// "0000000000 00007 f\r\n"
static constexpr int32_t kEntryConstSize = 20;
if (!out_objects) {
FX_SAFE_FILESIZE pos = count;
pos *= kEntryConstSize;
pos += m_pSyntax->GetPos();
if (!pos.IsValid())
return false;
m_pSyntax->SetPos(pos.ValueOrDie());
return true;
}
const size_t start_obj_index = out_objects->size();
FX_SAFE_SIZE_T new_size = start_obj_index;
new_size += count;
if (!new_size.IsValid())
return false;
if (new_size.ValueOrDie() > kMaxXRefSize)
return false;
const size_t max_entries_in_file =
m_pSyntax->GetFileAccess()->GetSize() / kEntryConstSize;
if (new_size.ValueOrDie() > max_entries_in_file)
return false;
out_objects->resize(new_size.ValueOrDie());
std::vector<char> buf(1024 * kEntryConstSize + 1);
buf.back() = '\0';
int32_t nBlocks = count / 1024 + 1;
for (int32_t block = 0; block < nBlocks; block++) {
int32_t block_size = block == nBlocks - 1 ? count % 1024 : 1024;
if (!m_pSyntax->ReadBlock(reinterpret_cast<uint8_t*>(buf.data()),
block_size * kEntryConstSize)) {
return false;
}
for (int32_t i = 0; i < block_size; i++) {
CrossRefObjData& obj_data =
(*out_objects)[start_obj_index + block * 1024 + i];
const uint32_t objnum = start_objnum + block * 1024 + i;
obj_data.obj_num = objnum;
ObjectInfo& info = obj_data.info;
char* pEntry = &buf[i * kEntryConstSize];
if (pEntry[17] == 'f') {
info.pos = 0;
info.type = ObjectType::kFree;
} else {
const FX_SAFE_FILESIZE offset = FXSYS_atoi64(pEntry);
if (!offset.IsValid())
return false;
if (offset.ValueOrDie() == 0) {
for (int32_t c = 0; c < 10; c++) {
if (!std::isdigit(pEntry[c]))
return false;
}
}
info.pos = offset.ValueOrDie();
// TODO(art-snake): The info.gennum is uint16_t, but version may be
// greated than max<uint16_t>. Needs solve this issue.
const int32_t version = FXSYS_atoi(pEntry + 11);
info.gennum = version;
info.type = ObjectType::kNotCompressed;
}
}
}
return true;
}
bool CPDF_Parser::ParseCrossRefV4(std::vector<CrossRefObjData>* out_objects) {
if (out_objects)
out_objects->clear();
if (m_pSyntax->GetKeyword() != "xref")
return false;
std::vector<CrossRefObjData> result_objects;
while (1) {
FX_FILESIZE SavedPos = m_pSyntax->GetPos();
bool bIsNumber;
ByteString word = m_pSyntax->GetNextWord(&bIsNumber);
if (word.IsEmpty()) {
return false;
}
if (!bIsNumber) {
m_pSyntax->SetPos(SavedPos);
break;
}
uint32_t start_objnum = FXSYS_atoui(word.c_str());
if (start_objnum >= kMaxObjectNumber)
return false;
uint32_t count = m_pSyntax->GetDirectNum();
m_pSyntax->ToNextWord();
SavedPos = m_pSyntax->GetPos();
if (!ParseAndAppendCrossRefSubsectionData(
start_objnum, count, out_objects ? &result_objects : nullptr)) {
return false;
}
}
if (out_objects)
*out_objects = std::move(result_objects);
return true;
}
bool CPDF_Parser::LoadCrossRefV4(FX_FILESIZE pos,
bool bSkip) {
m_pSyntax->SetPos(pos);
std::vector<CrossRefObjData> objects;
if (!ParseCrossRefV4(bSkip ? nullptr : &objects))
return false;
MergeCrossRefObjectsData(objects);
return true;
}
void CPDF_Parser::MergeCrossRefObjectsData(
const std::vector<CrossRefObjData>& objects) {
for (const auto& obj : objects) {
m_ObjectInfo[obj.obj_num] = obj.info;
}
}
bool CPDF_Parser::LoadAllCrossRefV5(FX_FILESIZE xrefpos) {
if (!LoadCrossRefV5(&xrefpos, true))
return false;
std::set<FX_FILESIZE> seen_xrefpos;
while (xrefpos) {
seen_xrefpos.insert(xrefpos);
if (!LoadCrossRefV5(&xrefpos, false))
return false;
// Check for circular references.
if (pdfium::ContainsKey(seen_xrefpos, xrefpos))
return false;
}
m_ObjectStreamMap.clear();
m_bXRefStream = true;
return true;
}
bool CPDF_Parser::RebuildCrossRef() {
m_ObjectInfo.clear();
m_TrailerData->Clear();
ParserState state = ParserState::kDefault;
int32_t inside_index = 0;
uint32_t objnum = 0;
uint32_t gennum = 0;
int32_t depth = 0;
const uint32_t kBufferSize = 4096;
std::vector<uint8_t> buffer(kBufferSize);
FX_FILESIZE pos = m_pSyntax->m_HeaderOffset;
FX_FILESIZE start_pos = 0;
FX_FILESIZE start_pos1 = 0;
FX_FILESIZE last_obj = -1;
FX_FILESIZE last_xref = -1;
FX_FILESIZE last_trailer = -1;
while (pos < m_pSyntax->m_FileLen) {
const FX_FILESIZE saved_pos = pos;
bool bOverFlow = false;
uint32_t size =
std::min((uint32_t)(m_pSyntax->m_FileLen - pos), kBufferSize);
if (!m_pSyntax->GetFileAccess()->ReadBlock(buffer.data(), pos, size))
break;
for (uint32_t i = 0; i < size; i++) {
uint8_t byte = buffer[i];
switch (state) {
case ParserState::kDefault:
if (PDFCharIsWhitespace(byte)) {
state = ParserState::kWhitespace;
} else if (std::isdigit(byte)) {
--i;
state = ParserState::kWhitespace;
} else if (byte == '%') {
inside_index = 0;
state = ParserState::kComment;
} else if (byte == '(') {
state = ParserState::kString;
depth = 1;
} else if (byte == '<') {
inside_index = 1;
state = ParserState::kHexString;
} else if (byte == '\\') {
state = ParserState::kEscapedString;
} else if (byte == 't') {
state = ParserState::kTrailer;
inside_index = 1;
}
break;
case ParserState::kWhitespace:
if (std::isdigit(byte)) {
start_pos = pos + i;
state = ParserState::kObjNum;
objnum = FXSYS_DecimalCharToInt(static_cast<wchar_t>(byte));
} else if (byte == 't') {
state = ParserState::kTrailer;
inside_index = 1;
} else if (byte == 'x') {
state = ParserState::kXref;
inside_index = 1;
} else if (!PDFCharIsWhitespace(byte)) {
--i;
state = ParserState::kDefault;
}
break;
case ParserState::kObjNum:
if (std::isdigit(byte)) {
objnum = objnum * 10 +
FXSYS_DecimalCharToInt(static_cast<wchar_t>(byte));
} else if (PDFCharIsWhitespace(byte)) {
state = ParserState::kPostObjNum;
} else {
--i;
state = ParserState::kEndObj;
inside_index = 0;
}
break;
case ParserState::kPostObjNum:
if (std::isdigit(byte)) {
start_pos1 = pos + i;
state = ParserState::kGenNum;
gennum = FXSYS_DecimalCharToInt(static_cast<wchar_t>(byte));
} else if (byte == 't') {
state = ParserState::kTrailer;
inside_index = 1;
} else if (!PDFCharIsWhitespace(byte)) {
--i;
state = ParserState::kDefault;
}
break;
case ParserState::kGenNum:
if (std::isdigit(byte)) {
gennum = gennum * 10 +
FXSYS_DecimalCharToInt(static_cast<wchar_t>(byte));
} else if (PDFCharIsWhitespace(byte)) {
state = ParserState::kPostGenNum;
} else {
--i;
state = ParserState::kDefault;
}
break;
case ParserState::kPostGenNum:
if (byte == 'o') {
state = ParserState::kBeginObj;
inside_index = 1;
} else if (std::isdigit(byte)) {
objnum = gennum;
gennum = FXSYS_DecimalCharToInt(static_cast<wchar_t>(byte));
start_pos = start_pos1;
start_pos1 = pos + i;
state = ParserState::kGenNum;
} else if (byte == 't') {
state = ParserState::kTrailer;
inside_index = 1;
} else if (!PDFCharIsWhitespace(byte)) {
--i;
state = ParserState::kDefault;
}
break;
case ParserState::kBeginObj:
switch (inside_index) {
case 1:
if (byte != 'b') {
--i;
state = ParserState::kDefault;
} else {
inside_index++;
}
break;
case 2:
if (byte != 'j') {
--i;
state = ParserState::kDefault;
} else {
inside_index++;
}
break;
case 3:
if (PDFCharIsWhitespace(byte) || PDFCharIsDelimiter(byte)) {
FX_FILESIZE obj_pos = start_pos - m_pSyntax->m_HeaderOffset;
last_obj = start_pos;
FX_FILESIZE obj_end = 0;
std::unique_ptr<CPDF_Object> pObject =
ParseIndirectObjectAtByStrict(m_pDocument.Get(), obj_pos,
objnum, &obj_end);
if (CPDF_Stream* pStream = ToStream(pObject.get())) {
if (CPDF_Dictionary* pDict = pStream->GetDict()) {
if ((pDict->KeyExist("Type")) &&
(pDict->GetStringFor("Type") == "XRef" &&
pDict->KeyExist("Size"))) {
CPDF_Object* pRoot = pDict->GetObjectFor("Root");
if (pRoot && pRoot->GetDict() &&
pRoot->GetDict()->GetObjectFor("Pages")) {
m_TrailerData->SetMainTrailer(
ToDictionary(pDict->Clone()));
}
}
}
}
FX_FILESIZE offset = 0;
m_pSyntax->SetPos(obj_pos);
offset = m_pSyntax->FindTag("obj", 0);
if (offset == -1)
offset = 0;
else
offset += 3;
FX_FILESIZE nLen = obj_end - obj_pos - offset;
if ((uint32_t)nLen > size - i) {
pos = obj_end + m_pSyntax->m_HeaderOffset;
bOverFlow = true;
} else {
i += (uint32_t)nLen;
}
if (!m_ObjectInfo.empty() && IsValidObjectNumber(objnum) &&
m_ObjectInfo[objnum].pos) {
if (pObject) {
m_ObjectInfo[objnum].pos = obj_pos;
m_ObjectInfo[objnum].gennum = gennum;
}
} else {
m_ObjectInfo[objnum].pos = obj_pos;
m_ObjectInfo[objnum].type = ObjectType::kNotCompressed;
m_ObjectInfo[objnum].gennum = gennum;
}
}
--i;
state = ParserState::kDefault;
break;
}
break;
case ParserState::kTrailer:
if (inside_index == 7) {
if (PDFCharIsWhitespace(byte) || PDFCharIsDelimiter(byte)) {
last_trailer = pos + i - 7;
m_pSyntax->SetPos(pos + i - m_pSyntax->m_HeaderOffset);
std::unique_ptr<CPDF_Object> pObj =
m_pSyntax->GetObjectBody(m_pDocument.Get());
if (pObj) {
if (pObj->IsDictionary() || pObj->AsStream()) {
CPDF_Stream* pStream = pObj->AsStream();
if (CPDF_Dictionary* pTrailer =
pStream ? pStream->GetDict() : pObj->AsDictionary()) {
if (GetTrailer()) {
CPDF_Object* pRoot = pTrailer->GetObjectFor("Root");
CPDF_Reference* pRef = ToReference(pRoot);
if (!pRoot ||
(pRef && IsValidObjectNumber(pRef->GetRefObjNum()) &&
m_ObjectInfo[pRef->GetRefObjNum()].pos != 0)) {
auto it = pTrailer->begin();
while (it != pTrailer->end()) {
const ByteString& key = it->first;
CPDF_Object* pElement = it->second.get();
++it;
uint32_t dwObjNum =
pElement ? pElement->GetObjNum() : 0;
if (dwObjNum) {
GetTrailer()->SetNewFor<CPDF_Reference>(
key, m_pDocument.Get(), dwObjNum);
} else {
GetTrailer()->SetFor(key, pElement->Clone());
}
}
}
} else {
m_TrailerData->SetMainTrailer(
ToDictionary(pObj->IsStream() ? pTrailer->Clone()
: std::move(pObj)));
FX_FILESIZE dwSavePos = m_pSyntax->GetPos();
ByteString strWord = m_pSyntax->GetKeyword();
if (!strWord.Compare("startxref")) {
bool bNumber;
ByteString bsOffset = m_pSyntax->GetNextWord(&bNumber);
if (bNumber)
m_LastXRefOffset = FXSYS_atoi(bsOffset.c_str());
}
m_pSyntax->SetPos(dwSavePos);
}
}
}
}
}
--i;
state = ParserState::kDefault;
} else if (byte == "trailer"[inside_index]) {
inside_index++;
} else {
--i;
state = ParserState::kDefault;
}
break;
case ParserState::kXref:
if (inside_index == 4) {
last_xref = pos + i - 4;
state = ParserState::kWhitespace;
} else if (byte == "xref"[inside_index]) {
inside_index++;
} else {
--i;
state = ParserState::kDefault;
}
break;
case ParserState::kComment:
if (PDFCharIsLineEnding(byte))
state = ParserState::kDefault;
break;
case ParserState::kString:
if (byte == ')') {
if (depth > 0)
depth--;
} else if (byte == '(') {
depth++;
}
if (!depth)
state = ParserState::kDefault;
break;
case ParserState::kHexString:
if (byte == '>' || (byte == '<' && inside_index == 1))
state = ParserState::kDefault;
inside_index = 0;
break;
case ParserState::kEscapedString:
if (PDFCharIsDelimiter(byte) || PDFCharIsWhitespace(byte)) {
--i;
state = ParserState::kDefault;
}
break;
case ParserState::kEndObj:
if (PDFCharIsWhitespace(byte)) {
state = ParserState::kDefault;
} else if (byte == '%' || byte == '(' || byte == '<' ||
byte == '\\') {
state = ParserState::kDefault;
--i;
} else if (inside_index == 6) {
state = ParserState::kDefault;
--i;
} else if (byte == "endobj"[inside_index]) {
inside_index++;
}
break;
}
if (bOverFlow) {
size = 0;
break;
}
}
pos += size;
// If the position has not changed at all or went backwards in a loop
// iteration, then break out to prevent infinite looping.
if (pos <= saved_pos)
break;
}
if (last_xref != -1 && last_xref > last_obj)
last_trailer = last_xref;
else if (last_trailer == -1 || last_xref < last_obj)
last_trailer = m_pSyntax->m_FileLen;
return GetTrailer() && !m_ObjectInfo.empty();
}
bool CPDF_Parser::LoadCrossRefV5(FX_FILESIZE* pos, bool bMainXRef) {
std::unique_ptr<CPDF_Object> pObject(
ParseIndirectObjectAt(m_pDocument.Get(), *pos, 0));
if (!pObject)
return false;
uint32_t objnum = pObject->GetObjNum();
if (!objnum)
return false;
CPDF_Object* pUnownedObject = pObject.get();
if (m_pDocument) {
const CPDF_Dictionary* pRootDict = m_pDocument->GetRoot();
if (pRootDict && pRootDict->GetObjNum() == objnum)
return false;
if (!m_pDocument->ReplaceIndirectObjectIfHigherGeneration(
objnum, std::move(pObject))) {
return false;
}
}
CPDF_Stream* pStream = pUnownedObject->AsStream();
if (!pStream)
return false;
CPDF_Dictionary* pDict = pStream->GetDict();
*pos = pDict->GetIntegerFor("Prev");
int32_t size = pDict->GetIntegerFor("Size");
if (size < 0)
return false;
std::unique_ptr<CPDF_Dictionary> pNewTrailer = ToDictionary(pDict->Clone());
if (bMainXRef) {
m_TrailerData->SetMainTrailer(std::move(pNewTrailer));
ShrinkObjectMap(size);
for (auto& it : m_ObjectInfo)
it.second.type = ObjectType::kFree;
} else {
m_TrailerData->AppendTrailer(std::move(pNewTrailer));
}
std::vector<std::pair<int32_t, int32_t>> arrIndex;
CPDF_Array* pArray = pDict->GetArrayFor("Index");
if (pArray) {
for (size_t i = 0; i < pArray->GetCount() / 2; i++) {
CPDF_Object* pStartNumObj = pArray->GetObjectAt(i * 2);
CPDF_Object* pCountObj = pArray->GetObjectAt(i * 2 + 1);
if (ToNumber(pStartNumObj) && ToNumber(pCountObj)) {
int nStartNum = pStartNumObj->GetInteger();
int nCount = pCountObj->GetInteger();
if (nStartNum >= 0 && nCount > 0)
arrIndex.push_back(std::make_pair(nStartNum, nCount));
}
}
}
if (arrIndex.size() == 0)
arrIndex.push_back(std::make_pair(0, size));
pArray = pDict->GetArrayFor("W");
if (!pArray)
return false;
std::vector<uint32_t> WidthArray;
FX_SAFE_UINT32 dwAccWidth = 0;
for (size_t i = 0; i < pArray->GetCount(); ++i) {
WidthArray.push_back(pArray->GetIntegerAt(i));
dwAccWidth += WidthArray[i];
}
if (!dwAccWidth.IsValid() || WidthArray.size() < 3)
return false;
uint32_t totalWidth = dwAccWidth.ValueOrDie();
auto pAcc = pdfium::MakeRetain<CPDF_StreamAcc>(pStream);
pAcc->LoadAllDataFiltered();
const uint8_t* pData = pAcc->GetData();
uint32_t dwTotalSize = pAcc->GetSize();
uint32_t segindex = 0;
for (uint32_t i = 0; i < arrIndex.size(); i++) {
int32_t startnum = arrIndex[i].first;
if (startnum < 0)
continue;
uint32_t count = pdfium::base::checked_cast<uint32_t>(arrIndex[i].second);
FX_SAFE_UINT32 dwCaculatedSize = segindex;
dwCaculatedSize += count;
dwCaculatedSize *= totalWidth;
if (!dwCaculatedSize.IsValid() ||
dwCaculatedSize.ValueOrDie() > dwTotalSize) {
continue;
}
const uint8_t* segstart = pData + segindex * totalWidth;
FX_SAFE_UINT32 dwMaxObjNum = startnum;
dwMaxObjNum += count;
uint32_t dwV5Size = m_ObjectInfo.empty() ? 0 : GetLastObjNum() + 1;
if (!dwMaxObjNum.IsValid() || dwMaxObjNum.ValueOrDie() > dwV5Size)
continue;
for (uint32_t j = 0; j < count; j++) {
ObjectType type = ObjectType::kNotCompressed;
const uint8_t* entrystart = segstart + j * totalWidth;
if (WidthArray[0]) {
const int cross_ref_stream_obj_type =
GetVarInt(entrystart, WidthArray[0]);
type = GetObjectTypeFromCrossRefStreamType(cross_ref_stream_obj_type);
}
if (GetObjectType(startnum + j) == ObjectType::kNull) {
FX_FILESIZE offset =
GetVarInt(entrystart + WidthArray[0], WidthArray[1]);
m_ObjectInfo[startnum + j].pos = offset;
continue;
}
if (GetObjectType(startnum + j) != ObjectType::kFree)
continue;
ObjectInfo& info = m_ObjectInfo[startnum + j];
info.type = type;
if (type == ObjectType::kFree) {
info.pos = 0;
} else {
const FX_FILESIZE entry_value =
GetVarInt(entrystart + WidthArray[0], WidthArray[1]);
if (type == ObjectType::kNotCompressed) {
const auto object_offset = entry_value;
info.pos = object_offset;
} else {
const auto archive_obj_num = entry_value;
info.archive_obj_num = archive_obj_num;
if (archive_obj_num < 0 || !IsValidObjectNumber(archive_obj_num))
return false;
m_ObjectInfo[archive_obj_num].type = ObjectType::kNull;
}
}
}
segindex += count;
}
return true;
}
const CPDF_Array* CPDF_Parser::GetIDArray() const {
return GetTrailer() ? GetTrailer()->GetArrayFor("ID") : nullptr;
}
CPDF_Dictionary* CPDF_Parser::GetTrailer() const {
return m_TrailerData->GetMainTrailer();
}
std::unique_ptr<CPDF_Dictionary> CPDF_Parser::GetCombinedTrailer() const {
return m_TrailerData->GetCombinedTrailer();
}
uint32_t CPDF_Parser::GetInfoObjNum() {
return m_TrailerData->GetInfoObjNum();
}
uint32_t CPDF_Parser::GetRootObjNum() {
return m_TrailerData->GetRootObjNum();
}
std::unique_ptr<CPDF_Object> CPDF_Parser::ParseIndirectObject(
CPDF_IndirectObjectHolder* pObjList,
uint32_t objnum) {
if (!IsValidObjectNumber(objnum))
return nullptr;
// Prevent circular parsing the same object.
if (pdfium::ContainsKey(m_ParsingObjNums, objnum))
return nullptr;
pdfium::ScopedSetInsertion<uint32_t> local_insert(&m_ParsingObjNums, objnum);
if (GetObjectType(objnum) == ObjectType::kNotCompressed ||
GetObjectType(objnum) == ObjectType::kNull) {
FX_FILESIZE pos = m_ObjectInfo[objnum].pos;
if (pos <= 0)
return nullptr;
return ParseIndirectObjectAt(pObjList, pos, objnum);
}
if (GetObjectType(objnum) != ObjectType::kCompressed)
return nullptr;
RetainPtr<CPDF_StreamAcc> pObjStream =
GetObjectStream(m_ObjectInfo[objnum].pos);
if (!pObjStream)
return nullptr;
auto file = pdfium::MakeRetain<CFX_MemoryStream>(
const_cast<uint8_t*>(pObjStream->GetData()),
static_cast<size_t>(pObjStream->GetSize()), false);
CPDF_SyntaxParser syntax;
syntax.InitParser(file, 0);
const int32_t offset = GetStreamFirst(pObjStream);
// Read object numbers from |pObjStream| into a cache.
if (!pdfium::ContainsKey(m_ObjCache, pObjStream)) {
for (int32_t i = GetStreamNCount(pObjStream); i > 0; --i) {
uint32_t thisnum = syntax.GetDirectNum();
uint32_t thisoff = syntax.GetDirectNum();
m_ObjCache[pObjStream][thisnum] = thisoff;
}
}
const auto it = m_ObjCache[pObjStream].find(objnum);
if (it == m_ObjCache[pObjStream].end())
return nullptr;
syntax.SetPos(offset + it->second);
return syntax.GetObjectBody(pObjList);
}
RetainPtr<CPDF_StreamAcc> CPDF_Parser::GetObjectStream(uint32_t objnum) {
auto it = m_ObjectStreamMap.find(objnum);
if (it != m_ObjectStreamMap.end())
return it->second;
if (!m_pDocument)
return nullptr;
const CPDF_Stream* pStream =
ToStream(m_pDocument->GetOrParseIndirectObject(objnum));
if (!pStream)
return nullptr;
auto pStreamAcc = pdfium::MakeRetain<CPDF_StreamAcc>(pStream);
pStreamAcc->LoadAllDataFiltered();
m_ObjectStreamMap[objnum] = pStreamAcc;
return pStreamAcc;
}
std::unique_ptr<CPDF_Object> CPDF_Parser::ParseIndirectObjectAt(
CPDF_IndirectObjectHolder* pObjList,
FX_FILESIZE pos,
uint32_t objnum) {
return ParseIndirectObjectAtInternal(
pObjList, pos, objnum, CPDF_SyntaxParser::ParseType::kLoose, nullptr);
}
std::unique_ptr<CPDF_Object> CPDF_Parser::ParseIndirectObjectAtInternal(
CPDF_IndirectObjectHolder* pObjList,
FX_FILESIZE pos,
uint32_t objnum,
CPDF_SyntaxParser::ParseType parse_type,
FX_FILESIZE* pResultPos) {
const FX_FILESIZE saved_pos = m_pSyntax->GetPos();
m_pSyntax->SetPos(pos);
auto result = m_pSyntax->GetIndirectObject(pObjList, parse_type);
if (pResultPos)
*pResultPos = m_pSyntax->GetPos();
m_pSyntax->SetPos(saved_pos);
if (result && objnum && result->GetObjNum() != objnum)
return nullptr;
const bool should_decrypt = m_pSecurityHandler &&
m_pSecurityHandler->GetCryptoHandler() &&
objnum != m_MetadataObjnum;
if (should_decrypt)
result = m_pSecurityHandler->GetCryptoHandler()->DecryptObjectTree(
std::move(result));
return result;
}
std::unique_ptr<CPDF_Object> CPDF_Parser::ParseIndirectObjectAtByStrict(
CPDF_IndirectObjectHolder* pObjList,
FX_FILESIZE pos,
uint32_t objnum,
FX_FILESIZE* pResultPos) {
return ParseIndirectObjectAtInternal(
pObjList, pos, objnum, CPDF_SyntaxParser::ParseType::kStrict, pResultPos);
}
uint32_t CPDF_Parser::GetFirstPageNo() const {
return m_pLinearized ? m_pLinearized->GetFirstPageNo() : 0;
}
std::unique_ptr<CPDF_Dictionary> CPDF_Parser::LoadTrailerV4() {
if (m_pSyntax->GetKeyword() != "trailer")
return nullptr;
return ToDictionary(m_pSyntax->GetObjectBody(m_pDocument.Get()));
}
uint32_t CPDF_Parser::GetPermissions() const {
if (!m_pSecurityHandler)
return 0xFFFFFFFF;
uint32_t dwPermission = m_pSecurityHandler->GetPermissions();
if (m_pEncryptDict && m_pEncryptDict->GetStringFor("Filter") == "Standard") {
// See PDF Reference 1.7, page 123, table 3.20.
dwPermission &= 0xFFFFFFFC;
dwPermission |= 0xFFFFF0C0;
}
return dwPermission;
}
std::unique_ptr<CPDF_LinearizedHeader> CPDF_Parser::ParseLinearizedHeader() {
return CPDF_LinearizedHeader::Parse(m_pSyntax.get());
}
CPDF_Parser::Error CPDF_Parser::StartLinearizedParse(
const RetainPtr<IFX_SeekableReadStream>& pFileAccess,
CPDF_Document* pDocument) {
ASSERT(!m_bHasParsed);
m_bXRefStream = false;
m_LastXRefOffset = 0;
if (!InitSyntaxParser(pFileAccess))
return FORMAT_ERROR;
m_pLinearized = ParseLinearizedHeader();
if (!m_pLinearized)
return StartParseInternal(std::move(pDocument));
m_bHasParsed = true;
m_pDocument = pDocument;
m_LastXRefOffset = m_pLinearized->GetLastXRefOffset();
FX_FILESIZE dwFirstXRefOffset = m_LastXRefOffset;
bool bXRefRebuilt = false;
bool bLoadV4 = LoadCrossRefV4(dwFirstXRefOffset, false);
if (!bLoadV4 && !LoadCrossRefV5(&dwFirstXRefOffset, true)) {
if (!RebuildCrossRef())
return FORMAT_ERROR;
bXRefRebuilt = true;
m_LastXRefOffset = 0;
}
if (bLoadV4) {
std::unique_ptr<CPDF_Dictionary> trailer = LoadTrailerV4();
if (!trailer)
return SUCCESS;
m_TrailerData->SetMainTrailer(std::move(trailer));
int32_t xrefsize = GetDirectInteger(GetTrailer(), "Size");
if (xrefsize > 0)
ShrinkObjectMap(xrefsize);
}
Error eRet = SetEncryptHandler();
if (eRet != SUCCESS)
return eRet;
m_pDocument->LoadLinearizedDoc(m_pLinearized.get());
if (!m_pDocument->GetRoot() || m_pDocument->GetPageCount() == 0) {
if (bXRefRebuilt)
return FORMAT_ERROR;
ReleaseEncryptHandler();
if (!RebuildCrossRef())
return FORMAT_ERROR;
eRet = SetEncryptHandler();
if (eRet != SUCCESS)
return eRet;
m_pDocument->LoadLinearizedDoc(m_pLinearized.get());
if (!m_pDocument->GetRoot())
return FORMAT_ERROR;
}
if (GetRootObjNum() == 0) {
ReleaseEncryptHandler();
if (!RebuildCrossRef() || GetRootObjNum() == 0)
return FORMAT_ERROR;
eRet = SetEncryptHandler();
if (eRet != SUCCESS)
return eRet;
}
if (m_pSecurityHandler && m_pSecurityHandler->IsMetadataEncrypted()) {
if (CPDF_Reference* pMetadata =
ToReference(m_pDocument->GetRoot()->GetObjectFor("Metadata")))
m_MetadataObjnum = pMetadata->GetRefObjNum();
}
return SUCCESS;
}
bool CPDF_Parser::LoadLinearizedAllCrossRefV5(FX_FILESIZE xrefpos) {
if (!LoadCrossRefV5(&xrefpos, false))
return false;
std::set<FX_FILESIZE> seen_xrefpos;
while (xrefpos) {
seen_xrefpos.insert(xrefpos);
if (!LoadCrossRefV5(&xrefpos, false))
return false;
// Check for circular references.
if (pdfium::ContainsKey(seen_xrefpos, xrefpos))
return false;
}
m_ObjectStreamMap.clear();
m_bXRefStream = true;
return true;
}
CPDF_Parser::Error CPDF_Parser::LoadLinearizedMainXRefTable() {
const FX_SAFE_FILESIZE main_xref_offset = GetTrailer()->GetIntegerFor("Prev");
if (!main_xref_offset.IsValid())
return FORMAT_ERROR;
if (main_xref_offset.ValueOrDie() == 0)
return SUCCESS;
const AutoRestorer<uint32_t> save_metadata_objnum(&m_MetadataObjnum);
m_MetadataObjnum = 0;
m_ObjectStreamMap.clear();
m_ObjCache.clear();
if (!LoadLinearizedAllCrossRefV4(main_xref_offset.ValueOrDie()) &&
!LoadLinearizedAllCrossRefV5(main_xref_offset.ValueOrDie())) {
m_LastXRefOffset = 0;
return FORMAT_ERROR;
}
return SUCCESS;
}
CPDF_Parser::ObjectType CPDF_Parser::GetObjectTypeFromCrossRefStreamType(
int cross_ref_stream_type) const {
switch (cross_ref_stream_type) {
case 0:
return CPDF_Parser::ObjectType::kFree;
case 1:
return CPDF_Parser::ObjectType::kNotCompressed;
case 2:
return CPDF_Parser::ObjectType::kCompressed;
default:
return CPDF_Parser::ObjectType::kNull;
}
}