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pdfium / pdfium / refs/heads/chromium/2926 / . / core / fpdfapi / parser / cpdf_data_avail.cpp
blob: 1ac6e06a97ff2e4b55563bcda1e9a2e499304558 [file] [log] [blame]
// 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_data_avail.h"
#include <algorithm>
#include <memory>
#include <utility>
#include "core/fpdfapi/cpdf_modulemgr.h"
#include "core/fpdfapi/parser/cpdf_array.h"
#include "core/fpdfapi/parser/cpdf_dictionary.h"
#include "core/fpdfapi/parser/cpdf_document.h"
#include "core/fpdfapi/parser/cpdf_hint_tables.h"
#include "core/fpdfapi/parser/cpdf_linearized_header.h"
#include "core/fpdfapi/parser/cpdf_name.h"
#include "core/fpdfapi/parser/cpdf_number.h"
#include "core/fpdfapi/parser/cpdf_reference.h"
#include "core/fpdfapi/parser/cpdf_stream.h"
#include "core/fpdfapi/parser/fpdf_parser_utility.h"
#include "core/fxcrt/fx_ext.h"
#include "core/fxcrt/fx_safe_types.h"
#include "third_party/base/numerics/safe_conversions.h"
#include "third_party/base/stl_util.h"
CPDF_DataAvail::FileAvail::~FileAvail() {}
CPDF_DataAvail::DownloadHints::~DownloadHints() {}
// static
int CPDF_DataAvail::s_CurrentDataAvailRecursionDepth = 0;
CPDF_DataAvail::CPDF_DataAvail(FileAvail* pFileAvail,
IFX_SeekableReadStream* pFileRead,
bool bSupportHintTable)
: m_pFileAvail(pFileAvail), m_pFileRead(pFileRead) {
m_Pos = 0;
m_dwFileLen = 0;
if (m_pFileRead) {
m_dwFileLen = (uint32_t)m_pFileRead->GetSize();
}
m_dwCurrentOffset = 0;
m_dwXRefOffset = 0;
m_bufferOffset = 0;
m_bufferSize = 0;
m_PagesObjNum = 0;
m_dwCurrentXRefSteam = 0;
m_dwAcroFormObjNum = 0;
m_dwInfoObjNum = 0;
m_pDocument = 0;
m_dwEncryptObjNum = 0;
m_dwPrevXRefOffset = 0;
m_dwLastXRefOffset = 0;
m_bDocAvail = false;
m_bMainXRefLoadTried = false;
m_bDocAvail = false;
m_bPagesLoad = false;
m_bPagesTreeLoad = false;
m_bMainXRefLoadedOK = false;
m_bAnnotsLoad = false;
m_bHaveAcroForm = false;
m_bAcroFormLoad = false;
m_bPageLoadedOK = false;
m_bNeedDownLoadResource = false;
m_bLinearizedFormParamLoad = false;
m_pTrailer = nullptr;
m_pCurrentParser = nullptr;
m_pAcroForm = nullptr;
m_pPageDict = nullptr;
m_pPageResource = nullptr;
m_docStatus = PDF_DATAAVAIL_HEADER;
m_parser.m_bOwnFileRead = false;
m_bTotalLoadPageTree = false;
m_bCurPageDictLoadOK = false;
m_bLinearedDataOK = false;
m_bSupportHintTable = bSupportHintTable;
}
CPDF_DataAvail::~CPDF_DataAvail() {
m_pHintTables.reset();
for (CPDF_Object* pObject : m_arrayAcroforms)
delete pObject;
}
void CPDF_DataAvail::SetDocument(CPDF_Document* pDoc) {
m_pDocument = pDoc;
}
uint32_t CPDF_DataAvail::GetObjectSize(uint32_t objnum, FX_FILESIZE& offset) {
CPDF_Parser* pParser = m_pDocument->GetParser();
if (!pParser || !pParser->IsValidObjectNumber(objnum))
return 0;
if (pParser->GetObjectType(objnum) == 2)
objnum = pParser->GetObjectPositionOrZero(objnum);
if (pParser->GetObjectType(objnum) != 1 &&
pParser->GetObjectType(objnum) != 255) {
return 0;
}
offset = pParser->GetObjectPositionOrZero(objnum);
if (offset == 0)
return 0;
auto it = pParser->m_SortedOffset.find(offset);
if (it == pParser->m_SortedOffset.end() ||
++it == pParser->m_SortedOffset.end()) {
return 0;
}
return *it - offset;
}
bool CPDF_DataAvail::AreObjectsAvailable(std::vector<CPDF_Object*>& obj_array,
bool bParsePage,
DownloadHints* pHints,
std::vector<CPDF_Object*>& ret_array) {
if (obj_array.empty())
return true;
uint32_t count = 0;
std::vector<CPDF_Object*> new_obj_array;
for (CPDF_Object* pObj : obj_array) {
if (!pObj)
continue;
int32_t type = pObj->GetType();
switch (type) {
case CPDF_Object::ARRAY: {
CPDF_Array* pArray = pObj->AsArray();
for (size_t k = 0; k < pArray->GetCount(); ++k)
new_obj_array.push_back(pArray->GetObjectAt(k));
} break;
case CPDF_Object::STREAM:
pObj = pObj->GetDict();
case CPDF_Object::DICTIONARY: {
CPDF_Dictionary* pDict = pObj->GetDict();
if (pDict && pDict->GetStringFor("Type") == "Page" && !bParsePage)
continue;
for (const auto& it : *pDict) {
if (it.first != "Parent")
new_obj_array.push_back(it.second.get());
}
} break;
case CPDF_Object::REFERENCE: {
CPDF_Reference* pRef = pObj->AsReference();
uint32_t dwNum = pRef->GetRefObjNum();
FX_FILESIZE offset;
uint32_t size = GetObjectSize(dwNum, offset);
if (size == 0 || offset < 0 || offset >= m_dwFileLen)
break;
if (!IsDataAvail(offset, size, pHints)) {
ret_array.push_back(pObj);
count++;
} else if (!pdfium::ContainsKey(m_ObjectSet, dwNum)) {
m_ObjectSet.insert(dwNum);
CPDF_Object* pReferred =
m_pDocument->GetOrParseIndirectObject(pRef->GetRefObjNum());
if (pReferred)
new_obj_array.push_back(pReferred);
}
} break;
}
}
if (count > 0) {
for (CPDF_Object* pObj : new_obj_array) {
CPDF_Reference* pRef = pObj->AsReference();
if (pRef && pdfium::ContainsKey(m_ObjectSet, pRef->GetRefObjNum()))
continue;
ret_array.push_back(pObj);
}
return false;
}
obj_array = new_obj_array;
return AreObjectsAvailable(obj_array, false, pHints, ret_array);
}
CPDF_DataAvail::DocAvailStatus CPDF_DataAvail::IsDocAvail(
DownloadHints* pHints) {
if (!m_dwFileLen && m_pFileRead) {
m_dwFileLen = (uint32_t)m_pFileRead->GetSize();
if (!m_dwFileLen)
return DataError;
}
while (!m_bDocAvail) {
if (!CheckDocStatus(pHints))
return DataNotAvailable;
}
return DataAvailable;
}
bool CPDF_DataAvail::CheckAcroFormSubObject(DownloadHints* pHints) {
if (m_objs_array.empty()) {
m_ObjectSet.clear();
std::vector<CPDF_Object*> obj_array = m_arrayAcroforms;
if (!AreObjectsAvailable(obj_array, false, pHints, m_objs_array))
return false;
m_objs_array.clear();
return true;
}
std::vector<CPDF_Object*> new_objs_array;
if (!AreObjectsAvailable(m_objs_array, false, pHints, new_objs_array)) {
m_objs_array = new_objs_array;
return false;
}
for (CPDF_Object* pObject : m_arrayAcroforms)
delete pObject;
m_arrayAcroforms.clear();
return true;
}
bool CPDF_DataAvail::CheckAcroForm(DownloadHints* pHints) {
bool bExist = false;
m_pAcroForm = GetObject(m_dwAcroFormObjNum, pHints, &bExist).release();
if (!bExist) {
m_docStatus = PDF_DATAAVAIL_PAGETREE;
return true;
}
if (!m_pAcroForm) {
if (m_docStatus == PDF_DATAAVAIL_ERROR) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
return false;
}
m_arrayAcroforms.push_back(m_pAcroForm);
m_docStatus = PDF_DATAAVAIL_PAGETREE;
return true;
}
bool CPDF_DataAvail::CheckDocStatus(DownloadHints* pHints) {
switch (m_docStatus) {
case PDF_DATAAVAIL_HEADER:
return CheckHeader(pHints);
case PDF_DATAAVAIL_FIRSTPAGE:
return CheckFirstPage(pHints);
case PDF_DATAAVAIL_HINTTABLE:
return CheckHintTables(pHints);
case PDF_DATAAVAIL_END:
return CheckEnd(pHints);
case PDF_DATAAVAIL_CROSSREF:
return CheckCrossRef(pHints);
case PDF_DATAAVAIL_CROSSREF_ITEM:
return CheckCrossRefItem(pHints);
case PDF_DATAAVAIL_CROSSREF_STREAM:
return CheckAllCrossRefStream(pHints);
case PDF_DATAAVAIL_TRAILER:
return CheckTrailer(pHints);
case PDF_DATAAVAIL_TRAILER_APPEND:
return CheckTrailerAppend(pHints);
case PDF_DATAAVAIL_LOADALLCROSSREF:
return LoadAllXref(pHints);
case PDF_DATAAVAIL_LOADALLFILE:
return LoadAllFile(pHints);
case PDF_DATAAVAIL_ROOT:
return CheckRoot(pHints);
case PDF_DATAAVAIL_INFO:
return CheckInfo(pHints);
case PDF_DATAAVAIL_ACROFORM:
return CheckAcroForm(pHints);
case PDF_DATAAVAIL_PAGETREE:
if (m_bTotalLoadPageTree)
return CheckPages(pHints);
return LoadDocPages(pHints);
case PDF_DATAAVAIL_PAGE:
if (m_bTotalLoadPageTree)
return CheckPage(pHints);
m_docStatus = PDF_DATAAVAIL_PAGE_LATERLOAD;
return true;
case PDF_DATAAVAIL_ERROR:
return LoadAllFile(pHints);
case PDF_DATAAVAIL_PAGE_LATERLOAD:
m_docStatus = PDF_DATAAVAIL_PAGE;
default:
m_bDocAvail = true;
return true;
}
}
bool CPDF_DataAvail::CheckPageStatus(DownloadHints* pHints) {
switch (m_docStatus) {
case PDF_DATAAVAIL_PAGETREE:
return CheckPages(pHints);
case PDF_DATAAVAIL_PAGE:
return CheckPage(pHints);
case PDF_DATAAVAIL_ERROR:
return LoadAllFile(pHints);
default:
m_bPagesTreeLoad = true;
m_bPagesLoad = true;
return true;
}
}
bool CPDF_DataAvail::LoadAllFile(DownloadHints* pHints) {
if (m_pFileAvail->IsDataAvail(0, (uint32_t)m_dwFileLen)) {
m_docStatus = PDF_DATAAVAIL_DONE;
return true;
}
pHints->AddSegment(0, (uint32_t)m_dwFileLen);
return false;
}
bool CPDF_DataAvail::LoadAllXref(DownloadHints* pHints) {
m_parser.m_pSyntax->InitParser(m_pFileRead, (uint32_t)m_dwHeaderOffset);
m_parser.m_bOwnFileRead = false;
if (!m_parser.LoadAllCrossRefV4(m_dwLastXRefOffset) &&
!m_parser.LoadAllCrossRefV5(m_dwLastXRefOffset)) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return false;
}
m_dwRootObjNum = m_parser.GetRootObjNum();
m_dwInfoObjNum = m_parser.GetInfoObjNum();
m_pCurrentParser = &m_parser;
m_docStatus = PDF_DATAAVAIL_ROOT;
return true;
}
std::unique_ptr<CPDF_Object> CPDF_DataAvail::GetObject(uint32_t objnum,
DownloadHints* pHints,
bool* pExistInFile) {
uint32_t size = 0;
FX_FILESIZE offset = 0;
CPDF_Parser* pParser = nullptr;
if (pExistInFile)
*pExistInFile = true;
if (m_pDocument) {
size = GetObjectSize(objnum, offset);
pParser = m_pDocument->GetParser();
} else {
size = (uint32_t)m_parser.GetObjectSize(objnum);
offset = m_parser.GetObjectOffset(objnum);
pParser = &m_parser;
}
if (!IsDataAvail(offset, size, pHints))
return nullptr;
std::unique_ptr<CPDF_Object> pRet;
if (pParser)
pRet = pParser->ParseIndirectObject(nullptr, objnum);
if (!pRet && pExistInFile)
*pExistInFile = false;
return pRet;
}
bool CPDF_DataAvail::CheckInfo(DownloadHints* pHints) {
bool bExist = false;
std::unique_ptr<CPDF_Object> pInfo =
GetObject(m_dwInfoObjNum, pHints, &bExist);
if (bExist && !pInfo) {
if (m_docStatus == PDF_DATAAVAIL_ERROR) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
if (m_Pos == m_dwFileLen)
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
m_docStatus =
m_bHaveAcroForm ? PDF_DATAAVAIL_ACROFORM : PDF_DATAAVAIL_PAGETREE;
return true;
}
bool CPDF_DataAvail::CheckRoot(DownloadHints* pHints) {
bool bExist = false;
m_pRoot = GetObject(m_dwRootObjNum, pHints, &bExist);
if (!bExist) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
if (!m_pRoot) {
if (m_docStatus == PDF_DATAAVAIL_ERROR) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
return false;
}
CPDF_Dictionary* pDict = m_pRoot->GetDict();
if (!pDict) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
CPDF_Reference* pRef = ToReference(pDict->GetObjectFor("Pages"));
if (!pRef) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
m_PagesObjNum = pRef->GetRefObjNum();
CPDF_Reference* pAcroFormRef =
ToReference(m_pRoot->GetDict()->GetObjectFor("AcroForm"));
if (pAcroFormRef) {
m_bHaveAcroForm = true;
m_dwAcroFormObjNum = pAcroFormRef->GetRefObjNum();
}
if (m_dwInfoObjNum) {
m_docStatus = PDF_DATAAVAIL_INFO;
} else {
m_docStatus =
m_bHaveAcroForm ? PDF_DATAAVAIL_ACROFORM : PDF_DATAAVAIL_PAGETREE;
}
return true;
}
bool CPDF_DataAvail::PreparePageItem() {
CPDF_Dictionary* pRoot = m_pDocument->GetRoot();
CPDF_Reference* pRef =
ToReference(pRoot ? pRoot->GetObjectFor("Pages") : nullptr);
if (!pRef) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
m_PagesObjNum = pRef->GetRefObjNum();
m_pCurrentParser = m_pDocument->GetParser();
m_docStatus = PDF_DATAAVAIL_PAGETREE;
return true;
}
bool CPDF_DataAvail::IsFirstCheck(uint32_t dwPage) {
return m_pageMapCheckState.insert(dwPage).second;
}
void CPDF_DataAvail::ResetFirstCheck(uint32_t dwPage) {
m_pageMapCheckState.erase(dwPage);
}
bool CPDF_DataAvail::CheckPage(DownloadHints* pHints) {
uint32_t iPageObjs = m_PageObjList.GetSize();
CFX_ArrayTemplate<uint32_t> UnavailObjList;
for (uint32_t i = 0; i < iPageObjs; ++i) {
uint32_t dwPageObjNum = m_PageObjList.GetAt(i);
bool bExist = false;
std::unique_ptr<CPDF_Object> pObj =
GetObject(dwPageObjNum, pHints, &bExist);
if (!pObj) {
if (bExist)
UnavailObjList.Add(dwPageObjNum);
continue;
}
CPDF_Array* pArray = ToArray(pObj.get());
if (pArray) {
for (const auto& pArrayObj : *pArray) {
if (CPDF_Reference* pRef = ToReference(pArrayObj.get()))
UnavailObjList.Add(pRef->GetRefObjNum());
}
}
if (!pObj->IsDictionary())
continue;
CFX_ByteString type = pObj->GetDict()->GetStringFor("Type");
if (type == "Pages") {
m_PagesArray.push_back(std::move(pObj));
continue;
}
}
m_PageObjList.RemoveAll();
if (UnavailObjList.GetSize()) {
m_PageObjList.Append(UnavailObjList);
return false;
}
uint32_t iPages = m_PagesArray.size();
for (uint32_t i = 0; i < iPages; i++) {
std::unique_ptr<CPDF_Object> pPages = std::move(m_PagesArray[i]);
if (pPages && !GetPageKids(m_pCurrentParser, pPages.get())) {
m_PagesArray.clear();
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
}
m_PagesArray.clear();
if (!m_PageObjList.GetSize())
m_docStatus = PDF_DATAAVAIL_DONE;
return true;
}
bool CPDF_DataAvail::GetPageKids(CPDF_Parser* pParser, CPDF_Object* pPages) {
if (!pParser) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
CPDF_Dictionary* pDict = pPages->GetDict();
CPDF_Object* pKids = pDict ? pDict->GetObjectFor("Kids") : nullptr;
if (!pKids)
return true;
switch (pKids->GetType()) {
case CPDF_Object::REFERENCE:
m_PageObjList.Add(pKids->AsReference()->GetRefObjNum());
break;
case CPDF_Object::ARRAY: {
CPDF_Array* pKidsArray = pKids->AsArray();
for (size_t i = 0; i < pKidsArray->GetCount(); ++i) {
if (CPDF_Reference* pRef = ToReference(pKidsArray->GetObjectAt(i)))
m_PageObjList.Add(pRef->GetRefObjNum());
}
} break;
default:
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
return true;
}
bool CPDF_DataAvail::CheckPages(DownloadHints* pHints) {
bool bExist = false;
std::unique_ptr<CPDF_Object> pPages =
GetObject(m_PagesObjNum, pHints, &bExist);
if (!bExist) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
if (!pPages) {
if (m_docStatus == PDF_DATAAVAIL_ERROR) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
return false;
}
if (!GetPageKids(m_pCurrentParser, pPages.get())) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
m_docStatus = PDF_DATAAVAIL_PAGE;
return true;
}
bool CPDF_DataAvail::CheckHeader(DownloadHints* pHints) {
ASSERT(m_dwFileLen >= 0);
const uint32_t kReqSize = std::min(static_cast<uint32_t>(m_dwFileLen), 1024U);
if (m_pFileAvail->IsDataAvail(0, kReqSize)) {
uint8_t buffer[1024];
m_pFileRead->ReadBlock(buffer, 0, kReqSize);
if (IsLinearizedFile(buffer, kReqSize)) {
m_docStatus = PDF_DATAAVAIL_FIRSTPAGE;
} else {
if (m_docStatus == PDF_DATAAVAIL_ERROR)
return false;
m_docStatus = PDF_DATAAVAIL_END;
}
return true;
}
pHints->AddSegment(0, kReqSize);
return false;
}
bool CPDF_DataAvail::CheckFirstPage(DownloadHints* pHints) {
if (!m_pLinearized->GetFirstPageEndOffset() ||
!m_pLinearized->GetFileSize() || !m_pLinearized->GetLastXRefOffset()) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
uint32_t dwEnd = m_pLinearized->GetFirstPageEndOffset();
dwEnd += 512;
if ((FX_FILESIZE)dwEnd > m_dwFileLen)
dwEnd = (uint32_t)m_dwFileLen;
int32_t iStartPos = (int32_t)(m_dwFileLen > 1024 ? 1024 : m_dwFileLen);
int32_t iSize = dwEnd > 1024 ? dwEnd - 1024 : 0;
if (!m_pFileAvail->IsDataAvail(iStartPos, iSize)) {
pHints->AddSegment(iStartPos, iSize);
return false;
}
m_docStatus =
m_bSupportHintTable ? PDF_DATAAVAIL_HINTTABLE : PDF_DATAAVAIL_DONE;
return true;
}
bool CPDF_DataAvail::IsDataAvail(FX_FILESIZE offset,
uint32_t size,
DownloadHints* pHints) {
if (offset < 0 || offset > m_dwFileLen)
return true;
FX_SAFE_FILESIZE safeSize = offset;
safeSize += size;
safeSize += 512;
if (!safeSize.IsValid() || safeSize.ValueOrDie() > m_dwFileLen)
size = m_dwFileLen - offset;
else
size += 512;
if (!m_pFileAvail->IsDataAvail(offset, size)) {
if (pHints)
pHints->AddSegment(offset, size);
return false;
}
return true;
}
bool CPDF_DataAvail::CheckHintTables(DownloadHints* pHints) {
if (m_pLinearized->GetPageCount() <= 1) {
m_docStatus = PDF_DATAAVAIL_DONE;
return true;
}
if (!m_pLinearized->HasHintTable()) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
FX_FILESIZE szHintStart = m_pLinearized->GetHintStart();
FX_FILESIZE szHintLength = m_pLinearized->GetHintLength();
if (!IsDataAvail(szHintStart, szHintLength, pHints))
return false;
m_syntaxParser.InitParser(m_pFileRead, m_dwHeaderOffset);
std::unique_ptr<CPDF_HintTables> pHintTables(
new CPDF_HintTables(this, m_pLinearized.get()));
std::unique_ptr<CPDF_Object> pHintStream(
ParseIndirectObjectAt(szHintStart, 0));
CPDF_Stream* pStream = ToStream(pHintStream.get());
if (pStream && pHintTables->LoadHintStream(pStream))
m_pHintTables = std::move(pHintTables);
m_docStatus = PDF_DATAAVAIL_DONE;
return true;
}
std::unique_ptr<CPDF_Object> CPDF_DataAvail::ParseIndirectObjectAt(
FX_FILESIZE pos,
uint32_t objnum,
CPDF_IndirectObjectHolder* pObjList) {
FX_FILESIZE SavedPos = m_syntaxParser.SavePos();
m_syntaxParser.RestorePos(pos);
bool bIsNumber;
CFX_ByteString word = m_syntaxParser.GetNextWord(&bIsNumber);
if (!bIsNumber)
return nullptr;
uint32_t parser_objnum = FXSYS_atoui(word.c_str());
if (objnum && parser_objnum != objnum)
return nullptr;
word = m_syntaxParser.GetNextWord(&bIsNumber);
if (!bIsNumber)
return nullptr;
uint32_t gennum = FXSYS_atoui(word.c_str());
if (m_syntaxParser.GetKeyword() != "obj") {
m_syntaxParser.RestorePos(SavedPos);
return nullptr;
}
std::unique_ptr<CPDF_Object> pObj =
m_syntaxParser.GetObject(pObjList, parser_objnum, gennum, true);
m_syntaxParser.RestorePos(SavedPos);
return pObj;
}
CPDF_DataAvail::DocLinearizationStatus CPDF_DataAvail::IsLinearizedPDF() {
const uint32_t kReqSize = 1024;
if (!m_pFileAvail->IsDataAvail(0, kReqSize))
return LinearizationUnknown;
if (!m_pFileRead)
return NotLinearized;
FX_FILESIZE dwSize = m_pFileRead->GetSize();
if (dwSize < (FX_FILESIZE)kReqSize)
return LinearizationUnknown;
uint8_t buffer[1024];
m_pFileRead->ReadBlock(buffer, 0, kReqSize);
if (IsLinearizedFile(buffer, kReqSize))
return Linearized;
return NotLinearized;
}
bool CPDF_DataAvail::IsLinearized() {
return !!m_pLinearized;
}
bool CPDF_DataAvail::IsLinearizedFile(uint8_t* pData, uint32_t dwLen) {
if (m_pLinearized)
return true;
ScopedFileStream file(FX_CreateMemoryStream(pData, (size_t)dwLen, false));
int32_t offset = GetHeaderOffset(file.get());
if (offset == -1) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
m_dwHeaderOffset = offset;
m_syntaxParser.InitParser(file.get(), offset);
m_syntaxParser.RestorePos(m_syntaxParser.m_HeaderOffset + 9);
bool bNumber;
CFX_ByteString wordObjNum = m_syntaxParser.GetNextWord(&bNumber);
if (!bNumber)
return false;
uint32_t objnum = FXSYS_atoui(wordObjNum.c_str());
m_pLinearized = CPDF_LinearizedHeader::CreateForObject(
ParseIndirectObjectAt(m_syntaxParser.m_HeaderOffset + 9, objnum));
if (!m_pLinearized ||
m_pLinearized->GetFileSize() != m_pFileRead->GetSize()) {
m_pLinearized.reset();
return false;
}
return true;
}
bool CPDF_DataAvail::CheckEnd(DownloadHints* pHints) {
uint32_t req_pos = (uint32_t)(m_dwFileLen > 1024 ? m_dwFileLen - 1024 : 0);
uint32_t dwSize = (uint32_t)(m_dwFileLen - req_pos);
if (m_pFileAvail->IsDataAvail(req_pos, dwSize)) {
uint8_t buffer[1024];
m_pFileRead->ReadBlock(buffer, req_pos, dwSize);
ScopedFileStream file(FX_CreateMemoryStream(buffer, (size_t)dwSize, false));
m_syntaxParser.InitParser(file.get(), 0);
m_syntaxParser.RestorePos(dwSize - 1);
if (m_syntaxParser.SearchWord("startxref", true, false, dwSize)) {
m_syntaxParser.GetNextWord(nullptr);
bool bNumber;
CFX_ByteString xrefpos_str = m_syntaxParser.GetNextWord(&bNumber);
if (!bNumber) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
m_dwXRefOffset = (FX_FILESIZE)FXSYS_atoi64(xrefpos_str.c_str());
if (!m_dwXRefOffset || m_dwXRefOffset > m_dwFileLen) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
m_dwLastXRefOffset = m_dwXRefOffset;
SetStartOffset(m_dwXRefOffset);
m_docStatus = PDF_DATAAVAIL_CROSSREF;
return true;
}
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
pHints->AddSegment(req_pos, dwSize);
return false;
}
int32_t CPDF_DataAvail::CheckCrossRefStream(DownloadHints* pHints,
FX_FILESIZE& xref_offset) {
xref_offset = 0;
uint32_t req_size =
(uint32_t)(m_Pos + 512 > m_dwFileLen ? m_dwFileLen - m_Pos : 512);
if (m_pFileAvail->IsDataAvail(m_Pos, req_size)) {
int32_t iSize = (int32_t)(m_Pos + req_size - m_dwCurrentXRefSteam);
CFX_BinaryBuf buf(iSize);
uint8_t* pBuf = buf.GetBuffer();
m_pFileRead->ReadBlock(pBuf, m_dwCurrentXRefSteam, iSize);
ScopedFileStream file(FX_CreateMemoryStream(pBuf, (size_t)iSize, false));
m_parser.m_pSyntax->InitParser(file.get(), 0);
bool bNumber;
CFX_ByteString objnum = m_parser.m_pSyntax->GetNextWord(&bNumber);
if (!bNumber)
return -1;
uint32_t objNum = FXSYS_atoui(objnum.c_str());
std::unique_ptr<CPDF_Object> pObj =
m_parser.ParseIndirectObjectAt(nullptr, 0, objNum);
if (!pObj) {
m_Pos += m_parser.m_pSyntax->SavePos();
return 0;
}
CPDF_Dictionary* pDict = pObj->GetDict();
CPDF_Name* pName = ToName(pDict ? pDict->GetObjectFor("Type") : nullptr);
if (pName && pName->GetString() == "XRef") {
m_Pos += m_parser.m_pSyntax->SavePos();
xref_offset = pObj->GetDict()->GetIntegerFor("Prev");
return 1;
}
return -1;
}
pHints->AddSegment(m_Pos, req_size);
return 0;
}
void CPDF_DataAvail::SetStartOffset(FX_FILESIZE dwOffset) {
m_Pos = dwOffset;
}
bool CPDF_DataAvail::GetNextToken(CFX_ByteString& token) {
uint8_t ch;
if (!GetNextChar(ch))
return false;
while (1) {
while (PDFCharIsWhitespace(ch)) {
if (!GetNextChar(ch))
return false;
}
if (ch != '%')
break;
while (1) {
if (!GetNextChar(ch))
return false;
if (PDFCharIsLineEnding(ch))
break;
}
}
uint8_t buffer[256];
uint32_t index = 0;
if (PDFCharIsDelimiter(ch)) {
buffer[index++] = ch;
if (ch == '/') {
while (1) {
if (!GetNextChar(ch))
return false;
if (!PDFCharIsOther(ch) && !PDFCharIsNumeric(ch)) {
m_Pos--;
CFX_ByteString ret(buffer, index);
token = ret;
return true;
}
if (index < sizeof(buffer))
buffer[index++] = ch;
}
} else if (ch == '<') {
if (!GetNextChar(ch))
return false;
if (ch == '<')
buffer[index++] = ch;
else
m_Pos--;
} else if (ch == '>') {
if (!GetNextChar(ch))
return false;
if (ch == '>')
buffer[index++] = ch;
else
m_Pos--;
}
CFX_ByteString ret(buffer, index);
token = ret;
return true;
}
while (1) {
if (index < sizeof(buffer))
buffer[index++] = ch;
if (!GetNextChar(ch))
return false;
if (PDFCharIsDelimiter(ch) || PDFCharIsWhitespace(ch)) {
m_Pos--;
break;
}
}
token = CFX_ByteString(buffer, index);
return true;
}
bool CPDF_DataAvail::GetNextChar(uint8_t& ch) {
FX_FILESIZE pos = m_Pos;
if (pos >= m_dwFileLen)
return false;
if (m_bufferOffset >= pos ||
(FX_FILESIZE)(m_bufferOffset + m_bufferSize) <= pos) {
FX_FILESIZE read_pos = pos;
uint32_t read_size = 512;
if ((FX_FILESIZE)read_size > m_dwFileLen)
read_size = (uint32_t)m_dwFileLen;
if ((FX_FILESIZE)(read_pos + read_size) > m_dwFileLen)
read_pos = m_dwFileLen - read_size;
if (!m_pFileRead->ReadBlock(m_bufferData, read_pos, read_size))
return false;
m_bufferOffset = read_pos;
m_bufferSize = read_size;
}
ch = m_bufferData[pos - m_bufferOffset];
m_Pos++;
return true;
}
bool CPDF_DataAvail::CheckCrossRefItem(DownloadHints* pHints) {
int32_t iSize = 0;
CFX_ByteString token;
while (1) {
if (!GetNextToken(token)) {
iSize = (int32_t)(m_Pos + 512 > m_dwFileLen ? m_dwFileLen - m_Pos : 512);
pHints->AddSegment(m_Pos, iSize);
return false;
}
if (token == "trailer") {
m_dwTrailerOffset = m_Pos;
m_docStatus = PDF_DATAAVAIL_TRAILER;
return true;
}
}
}
bool CPDF_DataAvail::CheckAllCrossRefStream(DownloadHints* pHints) {
FX_FILESIZE xref_offset = 0;
int32_t nRet = CheckCrossRefStream(pHints, xref_offset);
if (nRet == 1) {
if (!xref_offset) {
m_docStatus = PDF_DATAAVAIL_LOADALLCROSSREF;
} else {
m_dwCurrentXRefSteam = xref_offset;
m_Pos = xref_offset;
}
return true;
}
if (nRet == -1)
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
bool CPDF_DataAvail::CheckCrossRef(DownloadHints* pHints) {
int32_t iSize = 0;
CFX_ByteString token;
if (!GetNextToken(token)) {
iSize = (int32_t)(m_Pos + 512 > m_dwFileLen ? m_dwFileLen - m_Pos : 512);
pHints->AddSegment(m_Pos, iSize);
return false;
}
if (token == "xref") {
while (1) {
if (!GetNextToken(token)) {
iSize =
(int32_t)(m_Pos + 512 > m_dwFileLen ? m_dwFileLen - m_Pos : 512);
pHints->AddSegment(m_Pos, iSize);
m_docStatus = PDF_DATAAVAIL_CROSSREF_ITEM;
return false;
}
if (token == "trailer") {
m_dwTrailerOffset = m_Pos;
m_docStatus = PDF_DATAAVAIL_TRAILER;
return true;
}
}
} else {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
return false;
}
bool CPDF_DataAvail::CheckTrailerAppend(DownloadHints* pHints) {
if (m_Pos < m_dwFileLen) {
FX_FILESIZE dwAppendPos = m_Pos + m_syntaxParser.SavePos();
int32_t iSize = (int32_t)(
dwAppendPos + 512 > m_dwFileLen ? m_dwFileLen - dwAppendPos : 512);
if (!m_pFileAvail->IsDataAvail(dwAppendPos, iSize)) {
pHints->AddSegment(dwAppendPos, iSize);
return false;
}
}
if (m_dwPrevXRefOffset) {
SetStartOffset(m_dwPrevXRefOffset);
m_docStatus = PDF_DATAAVAIL_CROSSREF;
} else {
m_docStatus = PDF_DATAAVAIL_LOADALLCROSSREF;
}
return true;
}
bool CPDF_DataAvail::CheckTrailer(DownloadHints* pHints) {
int32_t iTrailerSize =
(int32_t)(m_Pos + 512 > m_dwFileLen ? m_dwFileLen - m_Pos : 512);
if (m_pFileAvail->IsDataAvail(m_Pos, iTrailerSize)) {
int32_t iSize = (int32_t)(m_Pos + iTrailerSize - m_dwTrailerOffset);
CFX_BinaryBuf buf(iSize);
uint8_t* pBuf = buf.GetBuffer();
if (!pBuf) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
if (!m_pFileRead->ReadBlock(pBuf, m_dwTrailerOffset, iSize))
return false;
ScopedFileStream file(FX_CreateMemoryStream(pBuf, (size_t)iSize, false));
m_syntaxParser.InitParser(file.get(), 0);
std::unique_ptr<CPDF_Object> pTrailer(
m_syntaxParser.GetObject(nullptr, 0, 0, true));
if (!pTrailer) {
m_Pos += m_syntaxParser.SavePos();
pHints->AddSegment(m_Pos, iTrailerSize);
return false;
}
if (!pTrailer->IsDictionary())
return false;
CPDF_Dictionary* pTrailerDict = pTrailer->GetDict();
CPDF_Object* pEncrypt = pTrailerDict->GetObjectFor("Encrypt");
if (ToReference(pEncrypt)) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
return true;
}
uint32_t xrefpos = GetDirectInteger(pTrailerDict, "Prev");
if (xrefpos) {
m_dwPrevXRefOffset = GetDirectInteger(pTrailerDict, "XRefStm");
if (m_dwPrevXRefOffset) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
} else {
m_dwPrevXRefOffset = xrefpos;
if (m_dwPrevXRefOffset >= m_dwFileLen) {
m_docStatus = PDF_DATAAVAIL_LOADALLFILE;
} else {
SetStartOffset(m_dwPrevXRefOffset);
m_docStatus = PDF_DATAAVAIL_TRAILER_APPEND;
}
}
return true;
}
m_dwPrevXRefOffset = 0;
m_docStatus = PDF_DATAAVAIL_TRAILER_APPEND;
return true;
}
pHints->AddSegment(m_Pos, iTrailerSize);
return false;
}
bool CPDF_DataAvail::CheckPage(uint32_t dwPage, DownloadHints* pHints) {
while (true) {
switch (m_docStatus) {
case PDF_DATAAVAIL_PAGETREE:
if (!LoadDocPages(pHints))
return false;
break;
case PDF_DATAAVAIL_PAGE:
if (!LoadDocPage(dwPage, pHints))
return false;
break;
case PDF_DATAAVAIL_ERROR:
return LoadAllFile(pHints);
default:
m_bPagesTreeLoad = true;
m_bPagesLoad = true;
m_bCurPageDictLoadOK = true;
m_docStatus = PDF_DATAAVAIL_PAGE;
return true;
}
}
}
bool CPDF_DataAvail::CheckArrayPageNode(uint32_t dwPageNo,
PageNode* pPageNode,
DownloadHints* pHints) {
bool bExist = false;
std::unique_ptr<CPDF_Object> pPages = GetObject(dwPageNo, pHints, &bExist);
if (!bExist) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
if (!pPages) {
if (m_docStatus == PDF_DATAAVAIL_ERROR) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
return false;
}
CPDF_Array* pArray = pPages->AsArray();
if (!pArray) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
pPageNode->m_type = PDF_PAGENODE_PAGES;
for (size_t i = 0; i < pArray->GetCount(); ++i) {
CPDF_Reference* pKid = ToReference(pArray->GetObjectAt(i));
if (!pKid)
continue;
PageNode* pNode = new PageNode();
pPageNode->m_childNode.Add(pNode);
pNode->m_dwPageNo = pKid->GetRefObjNum();
}
return true;
}
bool CPDF_DataAvail::CheckUnkownPageNode(uint32_t dwPageNo,
PageNode* pPageNode,
DownloadHints* pHints) {
bool bExist = false;
std::unique_ptr<CPDF_Object> pPage = GetObject(dwPageNo, pHints, &bExist);
if (!bExist) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
if (!pPage) {
if (m_docStatus == PDF_DATAAVAIL_ERROR)
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
if (pPage->IsArray()) {
pPageNode->m_dwPageNo = dwPageNo;
pPageNode->m_type = PDF_PAGENODE_ARRAY;
return true;
}
if (!pPage->IsDictionary()) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
pPageNode->m_dwPageNo = dwPageNo;
CPDF_Dictionary* pDict = pPage->GetDict();
CFX_ByteString type = pDict->GetStringFor("Type");
if (type == "Pages") {
pPageNode->m_type = PDF_PAGENODE_PAGES;
CPDF_Object* pKids = pDict->GetObjectFor("Kids");
if (!pKids) {
m_docStatus = PDF_DATAAVAIL_PAGE;
return true;
}
switch (pKids->GetType()) {
case CPDF_Object::REFERENCE: {
CPDF_Reference* pKid = pKids->AsReference();
PageNode* pNode = new PageNode();
pPageNode->m_childNode.Add(pNode);
pNode->m_dwPageNo = pKid->GetRefObjNum();
} break;
case CPDF_Object::ARRAY: {
CPDF_Array* pKidsArray = pKids->AsArray();
for (size_t i = 0; i < pKidsArray->GetCount(); ++i) {
CPDF_Reference* pKid = ToReference(pKidsArray->GetObjectAt(i));
if (!pKid)
continue;
PageNode* pNode = new PageNode();
pPageNode->m_childNode.Add(pNode);
pNode->m_dwPageNo = pKid->GetRefObjNum();
}
} break;
default:
break;
}
} else if (type == "Page") {
pPageNode->m_type = PDF_PAGENODE_PAGE;
} else {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
return true;
}
bool CPDF_DataAvail::CheckPageNode(CPDF_DataAvail::PageNode& pageNodes,
int32_t iPage,
int32_t& iCount,
DownloadHints* pHints,
int level) {
if (level >= kMaxPageRecursionDepth)
return false;
int32_t iSize = pageNodes.m_childNode.GetSize();
if (iSize <= 0 || iPage >= iSize) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
for (int32_t i = 0; i < iSize; ++i) {
PageNode* pNode = pageNodes.m_childNode.GetAt(i);
if (!pNode)
continue;
switch (pNode->m_type) {
case PDF_PAGENODE_UNKNOWN:
if (!CheckUnkownPageNode(pNode->m_dwPageNo, pNode, pHints)) {
return false;
}
--i;
break;
case PDF_PAGENODE_PAGE:
iCount++;
if (iPage == iCount && m_pDocument)
m_pDocument->SetPageObjNum(iPage, pNode->m_dwPageNo);
break;
case PDF_PAGENODE_PAGES:
if (!CheckPageNode(*pNode, iPage, iCount, pHints, level + 1))
return false;
break;
case PDF_PAGENODE_ARRAY:
if (!CheckArrayPageNode(pNode->m_dwPageNo, pNode, pHints))
return false;
--i;
break;
}
if (iPage == iCount) {
m_docStatus = PDF_DATAAVAIL_DONE;
return true;
}
}
return true;
}
bool CPDF_DataAvail::LoadDocPage(uint32_t dwPage, DownloadHints* pHints) {
FX_SAFE_INT32 safePage = pdfium::base::checked_cast<int32_t>(dwPage);
int32_t iPage = safePage.ValueOrDie();
if (m_pDocument->GetPageCount() <= iPage ||
m_pDocument->IsPageLoaded(iPage)) {
m_docStatus = PDF_DATAAVAIL_DONE;
return true;
}
if (m_pageNodes.m_type == PDF_PAGENODE_PAGE) {
if (iPage == 0) {
m_docStatus = PDF_DATAAVAIL_DONE;
return true;
}
m_docStatus = PDF_DATAAVAIL_ERROR;
return true;
}
int32_t iCount = -1;
return CheckPageNode(m_pageNodes, iPage, iCount, pHints, 0);
}
bool CPDF_DataAvail::CheckPageCount(DownloadHints* pHints) {
bool bExist = false;
std::unique_ptr<CPDF_Object> pPages =
GetObject(m_PagesObjNum, pHints, &bExist);
if (!bExist) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
if (!pPages)
return false;
CPDF_Dictionary* pPagesDict = pPages->GetDict();
if (!pPagesDict) {
m_docStatus = PDF_DATAAVAIL_ERROR;
return false;
}
if (!pPagesDict->KeyExist("Kids"))
return true;
return pPagesDict->GetIntegerFor("Count") > 0;
}
bool CPDF_DataAvail::LoadDocPages(DownloadHints* pHints) {
if (!CheckUnkownPageNode(m_PagesObjNum, &m_pageNodes, pHints))
return false;
if (CheckPageCount(pHints)) {
m_docStatus = PDF_DATAAVAIL_PAGE;
return true;
}
m_bTotalLoadPageTree = true;
return false;
}
bool CPDF_DataAvail::LoadPages(DownloadHints* pHints) {
while (!m_bPagesTreeLoad) {
if (!CheckPageStatus(pHints))
return false;
}
if (m_bPagesLoad)
return true;
m_pDocument->LoadPages();
return false;
}
CPDF_DataAvail::DocAvailStatus CPDF_DataAvail::CheckLinearizedData(
DownloadHints* pHints) {
if (m_bLinearedDataOK)
return DataAvailable;
ASSERT(m_pLinearized);
if (!m_pLinearized->GetLastXRefOffset())
return DataError;
if (!m_bMainXRefLoadTried) {
FX_SAFE_UINT32 data_size = m_dwFileLen;
data_size -= m_pLinearized->GetLastXRefOffset();
if (!data_size.IsValid())
return DataError;
if (!m_pFileAvail->IsDataAvail(m_pLinearized->GetLastXRefOffset(),
data_size.ValueOrDie())) {
pHints->AddSegment(m_pLinearized->GetLastXRefOffset(),
data_size.ValueOrDie());
return DataNotAvailable;
}
CPDF_Parser::Error eRet =
m_pDocument->GetParser()->LoadLinearizedMainXRefTable();
m_bMainXRefLoadTried = true;
if (eRet != CPDF_Parser::SUCCESS)
return DataError;
if (!PreparePageItem())
return DataNotAvailable;
m_bMainXRefLoadedOK = true;
m_bLinearedDataOK = true;
}
return m_bLinearedDataOK ? DataAvailable : DataNotAvailable;
}
bool CPDF_DataAvail::CheckPageAnnots(uint32_t dwPage, DownloadHints* pHints) {
if (m_objs_array.empty()) {
m_ObjectSet.clear();
FX_SAFE_INT32 safePage = pdfium::base::checked_cast<int32_t>(dwPage);
CPDF_Dictionary* pPageDict = m_pDocument->GetPage(safePage.ValueOrDie());
if (!pPageDict)
return true;
CPDF_Object* pAnnots = pPageDict->GetObjectFor("Annots");
if (!pAnnots)
return true;
std::vector<CPDF_Object*> obj_array;
obj_array.push_back(pAnnots);
if (!AreObjectsAvailable(obj_array, false, pHints, m_objs_array))
return false;
m_objs_array.clear();
return true;
}
std::vector<CPDF_Object*> new_objs_array;
if (!AreObjectsAvailable(m_objs_array, false, pHints, new_objs_array)) {
m_objs_array = new_objs_array;
return false;
}
m_objs_array.clear();
return true;
}
CPDF_DataAvail::DocAvailStatus CPDF_DataAvail::CheckLinearizedFirstPage(
uint32_t dwPage,
DownloadHints* pHints) {
if (!m_bAnnotsLoad) {
if (!CheckPageAnnots(dwPage, pHints))
return DataNotAvailable;
m_bAnnotsLoad = true;
}
const bool is_page_valid = ValidatePage(dwPage);
(void)is_page_valid;
ASSERT(is_page_valid);
return DataAvailable;
}
bool CPDF_DataAvail::HaveResourceAncestor(CPDF_Dictionary* pDict) {
CFX_AutoRestorer<int> restorer(&s_CurrentDataAvailRecursionDepth);
if (++s_CurrentDataAvailRecursionDepth > kMaxDataAvailRecursionDepth)
return false;
CPDF_Object* pParent = pDict->GetObjectFor("Parent");
if (!pParent)
return false;
CPDF_Dictionary* pParentDict = pParent->GetDict();
if (!pParentDict)
return false;
CPDF_Object* pRet = pParentDict->GetObjectFor("Resources");
if (pRet) {
m_pPageResource = pRet;
return true;
}
return HaveResourceAncestor(pParentDict);
}
CPDF_DataAvail::DocAvailStatus CPDF_DataAvail::IsPageAvail(
uint32_t dwPage,
DownloadHints* pHints) {
if (!m_pDocument)
return DataError;
if (IsFirstCheck(dwPage)) {
m_bCurPageDictLoadOK = false;
m_bPageLoadedOK = false;
m_bAnnotsLoad = false;
m_bNeedDownLoadResource = false;
m_objs_array.clear();
m_ObjectSet.clear();
}
if (pdfium::ContainsKey(m_pagesLoadState, dwPage))
return DataAvailable;
if (m_pLinearized) {
if (dwPage == m_pLinearized->GetFirstPageNo()) {
DocAvailStatus nRet = CheckLinearizedFirstPage(dwPage, pHints);
if (nRet == DataAvailable)
m_pagesLoadState.insert(dwPage);
return nRet;
}
DocAvailStatus nResult = CheckLinearizedData(pHints);
if (nResult != DataAvailable)
return nResult;
if (m_pHintTables) {
nResult = m_pHintTables->CheckPage(dwPage, pHints);
if (nResult != DataAvailable)
return nResult;
m_pagesLoadState.insert(dwPage);
return GetPage(dwPage) ? DataAvailable : DataError;
}
if (m_bMainXRefLoadedOK) {
if (m_bTotalLoadPageTree) {
if (!LoadPages(pHints))
return DataNotAvailable;
} else {
if (!m_bCurPageDictLoadOK && !CheckPage(dwPage, pHints))
return DataNotAvailable;
}
} else {
if (!LoadAllFile(pHints))
return DataNotAvailable;
m_pDocument->GetParser()->RebuildCrossRef();
ResetFirstCheck(dwPage);
return DataAvailable;
}
} else {
if (!m_bTotalLoadPageTree && !m_bCurPageDictLoadOK &&
!CheckPage(dwPage, pHints)) {
return DataNotAvailable;
}
}
if (m_bHaveAcroForm && !m_bAcroFormLoad) {
if (!CheckAcroFormSubObject(pHints))
return DataNotAvailable;
m_bAcroFormLoad = true;
}
if (!m_bPageLoadedOK) {
if (m_objs_array.empty()) {
m_ObjectSet.clear();
FX_SAFE_INT32 safePage = pdfium::base::checked_cast<int32_t>(dwPage);
m_pPageDict = m_pDocument->GetPage(safePage.ValueOrDie());
if (!m_pPageDict) {
ResetFirstCheck(dwPage);
// This is XFA page.
return DataAvailable;
}
std::vector<CPDF_Object*> obj_array;
obj_array.push_back(m_pPageDict);
if (!AreObjectsAvailable(obj_array, true, pHints, m_objs_array))
return DataNotAvailable;
m_objs_array.clear();
} else {
std::vector<CPDF_Object*> new_objs_array;
if (!AreObjectsAvailable(m_objs_array, false, pHints, new_objs_array)) {
m_objs_array = new_objs_array;
return DataNotAvailable;
}
}
m_objs_array.clear();
m_bPageLoadedOK = true;
}
if (!m_bAnnotsLoad) {
if (!CheckPageAnnots(dwPage, pHints))
return DataNotAvailable;
m_bAnnotsLoad = true;
}
if (m_pPageDict && !m_bNeedDownLoadResource) {
m_pPageResource = m_pPageDict->GetObjectFor("Resources");
m_bNeedDownLoadResource =
m_pPageResource || HaveResourceAncestor(m_pPageDict);
}
if (m_bNeedDownLoadResource) {
if (!CheckResources(pHints))
return DataNotAvailable;
m_bNeedDownLoadResource = false;
}
m_bPageLoadedOK = false;
m_bAnnotsLoad = false;
m_bCurPageDictLoadOK = false;
ResetFirstCheck(dwPage);
m_pagesLoadState.insert(dwPage);
const bool is_page_valid = ValidatePage(dwPage);
(void)is_page_valid;
ASSERT(is_page_valid);
return DataAvailable;
}
bool CPDF_DataAvail::CheckResources(DownloadHints* pHints) {
if (m_objs_array.empty()) {
std::vector<CPDF_Object*> obj_array;
obj_array.push_back(m_pPageResource);
if (!AreObjectsAvailable(obj_array, true, pHints, m_objs_array))
return false;
m_objs_array.clear();
return true;
}
std::vector<CPDF_Object*> new_objs_array;
if (!AreObjectsAvailable(m_objs_array, false, pHints, new_objs_array)) {
m_objs_array = new_objs_array;
return false;
}
m_objs_array.clear();
return true;
}
void CPDF_DataAvail::GetLinearizedMainXRefInfo(FX_FILESIZE* pPos,
uint32_t* pSize) {
if (pPos)
*pPos = m_dwLastXRefOffset;
if (pSize)
*pSize = (uint32_t)(m_dwFileLen - m_dwLastXRefOffset);
}
int CPDF_DataAvail::GetPageCount() const {
if (m_pLinearized)
return m_pLinearized->GetPageCount();
return m_pDocument ? m_pDocument->GetPageCount() : 0;
}
CPDF_Dictionary* CPDF_DataAvail::GetPage(int index) {
if (!m_pDocument || index < 0 || index >= GetPageCount())
return nullptr;
CPDF_Dictionary* page = m_pDocument->GetPage(index);
if (page)
return page;
if (!m_pLinearized || !m_pHintTables)
return nullptr;
if (index == static_cast<int>(m_pLinearized->GetFirstPageNo()))
return nullptr;
FX_FILESIZE szPageStartPos = 0;
FX_FILESIZE szPageLength = 0;
uint32_t dwObjNum = 0;
const bool bPagePosGot = m_pHintTables->GetPagePos(index, &szPageStartPos,
&szPageLength, &dwObjNum);
if (!bPagePosGot || !dwObjNum)
return nullptr;
// We should say to the document, which object is the page.
m_pDocument->SetPageObjNum(index, dwObjNum);
// Page object already can be parsed in document.
if (!m_pDocument->GetIndirectObject(dwObjNum)) {
m_syntaxParser.InitParser(
m_pFileRead, pdfium::base::checked_cast<uint32_t>(szPageStartPos));
m_pDocument->ReplaceIndirectObjectIfHigherGeneration(
dwObjNum, ParseIndirectObjectAt(0, dwObjNum, m_pDocument));
}
const bool is_page_valid = ValidatePage(index);
(void)is_page_valid;
ASSERT(is_page_valid);
return m_pDocument->GetPage(index);
}
CPDF_DataAvail::DocFormStatus CPDF_DataAvail::IsFormAvail(
DownloadHints* pHints) {
if (!m_pDocument)
return FormAvailable;
if (m_pLinearized) {
DocAvailStatus nDocStatus = CheckLinearizedData(pHints);
if (nDocStatus == DataError)
return FormError;
if (nDocStatus == DataNotAvailable)
return FormNotAvailable;
}
if (!m_bLinearizedFormParamLoad) {
CPDF_Dictionary* pRoot = m_pDocument->GetRoot();
if (!pRoot)
return FormAvailable;
CPDF_Object* pAcroForm = pRoot->GetObjectFor("AcroForm");
if (!pAcroForm)
return FormNotExist;
m_objs_array.push_back(pAcroForm->GetDict());
m_bLinearizedFormParamLoad = true;
}
std::vector<CPDF_Object*> new_objs_array;
if (!AreObjectsAvailable(m_objs_array, false, pHints, new_objs_array)) {
m_objs_array = new_objs_array;
return FormNotAvailable;
}
m_objs_array.clear();
const bool is_form_valid = ValidateForm();
(void)is_form_valid;
ASSERT(is_form_valid);
return FormAvailable;
}
bool CPDF_DataAvail::ValidatePage(uint32_t dwPage) {
FX_SAFE_INT32 safePage = pdfium::base::checked_cast<int32_t>(dwPage);
CPDF_Dictionary* pPageDict = m_pDocument->GetPage(safePage.ValueOrDie());
if (!pPageDict)
return false;
std::vector<CPDF_Object*> obj_array;
obj_array.push_back(pPageDict);
std::vector<CPDF_Object*> dummy;
return AreObjectsAvailable(obj_array, true, nullptr, dummy);
}
bool CPDF_DataAvail::ValidateForm() {
CPDF_Dictionary* pRoot = m_pDocument->GetRoot();
if (!pRoot)
return true;
CPDF_Object* pAcroForm = pRoot->GetObjectFor("AcroForm");
if (!pAcroForm)
return false;
std::vector<CPDF_Object*> obj_array;
obj_array.push_back(pAcroForm);
std::vector<CPDF_Object*> dummy;
return AreObjectsAvailable(obj_array, true, nullptr, dummy);
}
CPDF_DataAvail::PageNode::PageNode() : m_type(PDF_PAGENODE_UNKNOWN) {}
CPDF_DataAvail::PageNode::~PageNode() {
for (int32_t i = 0; i < m_childNode.GetSize(); ++i)
delete m_childNode[i];
m_childNode.RemoveAll();
}