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// 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/page/cpdf_streamparser.h"
#include <limits.h>
#include <memory>
#include <utility>
#include "core/fpdfapi/cpdf_modulemgr.h"
#include "core/fpdfapi/page/cpdf_docpagedata.h"
#include "core/fpdfapi/parser/cpdf_array.h"
#include "core/fpdfapi/parser/cpdf_boolean.h"
#include "core/fpdfapi/parser/cpdf_dictionary.h"
#include "core/fpdfapi/parser/cpdf_document.h"
#include "core/fpdfapi/parser/cpdf_name.h"
#include "core/fpdfapi/parser/cpdf_null.h"
#include "core/fpdfapi/parser/cpdf_number.h"
#include "core/fpdfapi/parser/cpdf_stream.h"
#include "core/fpdfapi/parser/cpdf_string.h"
#include "core/fpdfapi/parser/fpdf_parser_decode.h"
#include "core/fpdfapi/parser/fpdf_parser_utility.h"
#include "core/fxcodec/fx_codec.h"
#include "core/fxcrt/fx_ext.h"
namespace {
const uint32_t kMaxNestedParsingLevel = 512;
const uint32_t kMaxWordBuffer = 256;
const FX_STRSIZE kMaxStringLength = 32767;
uint32_t DecodeAllScanlines(std::unique_ptr<CCodec_ScanlineDecoder> pDecoder,
uint8_t*& dest_buf,
uint32_t& dest_size) {
if (!pDecoder)
return FX_INVALID_OFFSET;
int ncomps = pDecoder->CountComps();
int bpc = pDecoder->GetBPC();
int width = pDecoder->GetWidth();
int height = pDecoder->GetHeight();
int pitch = (width * ncomps * bpc + 7) / 8;
if (height == 0 || pitch > (1 << 30) / height)
return FX_INVALID_OFFSET;
dest_buf = FX_Alloc2D(uint8_t, pitch, height);
dest_size = pitch * height; // Safe since checked alloc returned.
for (int row = 0; row < height; row++) {
const uint8_t* pLine = pDecoder->GetScanline(row);
if (!pLine)
break;
FXSYS_memcpy(dest_buf + row * pitch, pLine, pitch);
}
return pDecoder->GetSrcOffset();
}
uint32_t PDF_DecodeInlineStream(const uint8_t* src_buf,
uint32_t limit,
int width,
int height,
CFX_ByteString& decoder,
CPDF_Dictionary* pParam,
uint8_t*& dest_buf,
uint32_t& dest_size) {
if (decoder == "CCITTFaxDecode" || decoder == "CCF") {
std::unique_ptr<CCodec_ScanlineDecoder> pDecoder =
FPDFAPI_CreateFaxDecoder(src_buf, limit, width, height, pParam);
return DecodeAllScanlines(std::move(pDecoder), dest_buf, dest_size);
}
if (decoder == "ASCII85Decode" || decoder == "A85")
return A85Decode(src_buf, limit, dest_buf, dest_size);
if (decoder == "ASCIIHexDecode" || decoder == "AHx")
return HexDecode(src_buf, limit, dest_buf, dest_size);
if (decoder == "FlateDecode" || decoder == "Fl") {
return FPDFAPI_FlateOrLZWDecode(false, src_buf, limit, pParam, dest_size,
dest_buf, dest_size);
}
if (decoder == "LZWDecode" || decoder == "LZW") {
return FPDFAPI_FlateOrLZWDecode(true, src_buf, limit, pParam, 0, dest_buf,
dest_size);
}
if (decoder == "DCTDecode" || decoder == "DCT") {
std::unique_ptr<CCodec_ScanlineDecoder> pDecoder =
CPDF_ModuleMgr::Get()->GetJpegModule()->CreateDecoder(
src_buf, limit, width, height, 0,
!pParam || pParam->GetIntegerFor("ColorTransform", 1));
return DecodeAllScanlines(std::move(pDecoder), dest_buf, dest_size);
}
if (decoder == "RunLengthDecode" || decoder == "RL")
return RunLengthDecode(src_buf, limit, dest_buf, dest_size);
dest_size = 0;
dest_buf = 0;
return (uint32_t)-1;
}
} // namespace
CPDF_StreamParser::CPDF_StreamParser(const uint8_t* pData, uint32_t dwSize)
: m_pBuf(pData),
m_Size(dwSize),
m_Pos(0),
m_pPool(nullptr) {}
CPDF_StreamParser::CPDF_StreamParser(
const uint8_t* pData,
uint32_t dwSize,
const CFX_WeakPtr<CFX_ByteStringPool>& pPool)
: m_pBuf(pData),
m_Size(dwSize),
m_Pos(0),
m_pPool(pPool) {}
CPDF_StreamParser::~CPDF_StreamParser() {}
std::unique_ptr<CPDF_Stream> CPDF_StreamParser::ReadInlineStream(
CPDF_Document* pDoc,
std::unique_ptr<CPDF_Dictionary> pDict,
CPDF_Object* pCSObj) {
if (m_Pos == m_Size)
return nullptr;
if (PDFCharIsWhitespace(m_pBuf[m_Pos]))
m_Pos++;
CFX_ByteString Decoder;
CPDF_Dictionary* pParam = nullptr;
CPDF_Object* pFilter = pDict->GetDirectObjectFor("Filter");
if (pFilter) {
if (CPDF_Array* pArray = pFilter->AsArray()) {
Decoder = pArray->GetStringAt(0);
CPDF_Array* pParams = pDict->GetArrayFor("DecodeParms");
if (pParams)
pParam = pParams->GetDictAt(0);
} else {
Decoder = pFilter->GetString();
pParam = pDict->GetDictFor("DecodeParms");
}
}
uint32_t width = pDict->GetIntegerFor("Width");
uint32_t height = pDict->GetIntegerFor("Height");
uint32_t OrigSize = 0;
if (pCSObj) {
uint32_t bpc = pDict->GetIntegerFor("BitsPerComponent");
uint32_t nComponents = 1;
CPDF_ColorSpace* pCS = pDoc->LoadColorSpace(pCSObj);
if (pCS) {
nComponents = pCS->CountComponents();
pDoc->GetPageData()->ReleaseColorSpace(pCSObj);
} else {
nComponents = 3;
}
uint32_t pitch = width;
if (bpc && pitch > INT_MAX / bpc)
return nullptr;
pitch *= bpc;
if (nComponents && pitch > INT_MAX / nComponents)
return nullptr;
pitch *= nComponents;
if (pitch > INT_MAX - 7)
return nullptr;
pitch += 7;
pitch /= 8;
OrigSize = pitch;
} else {
if (width > INT_MAX - 7)
return nullptr;
OrigSize = ((width + 7) / 8);
}
if (height && OrigSize > INT_MAX / height)
return nullptr;
OrigSize *= height;
std::unique_ptr<uint8_t, FxFreeDeleter> pData;
uint32_t dwStreamSize;
if (Decoder.IsEmpty()) {
if (OrigSize > m_Size - m_Pos)
OrigSize = m_Size - m_Pos;
pData.reset(FX_Alloc(uint8_t, OrigSize));
FXSYS_memcpy(pData.get(), m_pBuf + m_Pos, OrigSize);
dwStreamSize = OrigSize;
m_Pos += OrigSize;
} else {
uint8_t* pIgnore = nullptr;
uint32_t dwDestSize = OrigSize;
dwStreamSize =
PDF_DecodeInlineStream(m_pBuf + m_Pos, m_Size - m_Pos, width, height,
Decoder, pParam, pIgnore, dwDestSize);
FX_Free(pIgnore);
if (static_cast<int>(dwStreamSize) < 0)
return nullptr;
uint32_t dwSavePos = m_Pos;
m_Pos += dwStreamSize;
while (1) {
uint32_t dwPrevPos = m_Pos;
CPDF_StreamParser::SyntaxType type = ParseNextElement();
if (type == CPDF_StreamParser::EndOfData)
break;
if (type != CPDF_StreamParser::Keyword) {
dwStreamSize += m_Pos - dwPrevPos;
continue;
}
if (GetWord() == "EI") {
m_Pos = dwPrevPos;
break;
}
dwStreamSize += m_Pos - dwPrevPos;
}
m_Pos = dwSavePos;
pData.reset(FX_Alloc(uint8_t, dwStreamSize));
FXSYS_memcpy(pData.get(), m_pBuf + m_Pos, dwStreamSize);
m_Pos += dwStreamSize;
}
pDict->SetNewFor<CPDF_Number>("Length", (int)dwStreamSize);
return pdfium::MakeUnique<CPDF_Stream>(std::move(pData), dwStreamSize,
std::move(pDict));
}
CPDF_StreamParser::SyntaxType CPDF_StreamParser::ParseNextElement() {
m_pLastObj.reset();
m_WordSize = 0;
if (!PositionIsInBounds())
return EndOfData;
int ch = m_pBuf[m_Pos++];
while (1) {
while (PDFCharIsWhitespace(ch)) {
if (!PositionIsInBounds())
return EndOfData;
ch = m_pBuf[m_Pos++];
}
if (ch != '%')
break;
while (1) {
if (!PositionIsInBounds())
return EndOfData;
ch = m_pBuf[m_Pos++];
if (PDFCharIsLineEnding(ch))
break;
}
}
if (PDFCharIsDelimiter(ch) && ch != '/') {
m_Pos--;
m_pLastObj = ReadNextObject(false, false, 0);
return Others;
}
bool bIsNumber = true;
while (1) {
if (m_WordSize < kMaxWordBuffer)
m_WordBuffer[m_WordSize++] = ch;
if (!PDFCharIsNumeric(ch))
bIsNumber = false;
if (!PositionIsInBounds())
break;
ch = m_pBuf[m_Pos++];
if (PDFCharIsDelimiter(ch) || PDFCharIsWhitespace(ch)) {
m_Pos--;
break;
}
}
m_WordBuffer[m_WordSize] = 0;
if (bIsNumber)
return Number;
if (m_WordBuffer[0] == '/')
return Name;
if (m_WordSize == 4) {
if (memcmp(m_WordBuffer, "true", 4) == 0) {
m_pLastObj = pdfium::MakeUnique<CPDF_Boolean>(true);
return Others;
}
if (memcmp(m_WordBuffer, "null", 4) == 0) {
m_pLastObj = pdfium::MakeUnique<CPDF_Null>();
return Others;
}
} else if (m_WordSize == 5) {
if (memcmp(m_WordBuffer, "false", 5) == 0) {
m_pLastObj = pdfium::MakeUnique<CPDF_Boolean>(false);
return Others;
}
}
return Keyword;
}
std::unique_ptr<CPDF_Object> CPDF_StreamParser::ReadNextObject(
bool bAllowNestedArray,
bool bInArray,
uint32_t dwRecursionLevel) {
bool bIsNumber;
// Must get the next word before returning to avoid infinite loops.
GetNextWord(bIsNumber);
if (!m_WordSize || dwRecursionLevel > kMaxNestedParsingLevel)
return nullptr;
if (bIsNumber) {
m_WordBuffer[m_WordSize] = 0;
return pdfium::MakeUnique<CPDF_Number>(
CFX_ByteStringC(m_WordBuffer, m_WordSize));
}
int first_char = m_WordBuffer[0];
if (first_char == '/') {
CFX_ByteString name =
PDF_NameDecode(CFX_ByteStringC(m_WordBuffer + 1, m_WordSize - 1));
return pdfium::MakeUnique<CPDF_Name>(m_pPool, name);
}
if (first_char == '(') {
CFX_ByteString str = ReadString();
return pdfium::MakeUnique<CPDF_String>(m_pPool, str, false);
}
if (first_char == '<') {
if (m_WordSize == 1)
return pdfium::MakeUnique<CPDF_String>(m_pPool, ReadHexString(), true);
auto pDict = pdfium::MakeUnique<CPDF_Dictionary>(m_pPool);
while (1) {
GetNextWord(bIsNumber);
if (m_WordSize == 2 && m_WordBuffer[0] == '>')
break;
if (!m_WordSize || m_WordBuffer[0] != '/')
return nullptr;
CFX_ByteString key =
PDF_NameDecode(CFX_ByteStringC(m_WordBuffer + 1, m_WordSize - 1));
std::unique_ptr<CPDF_Object> pObj =
ReadNextObject(true, bInArray, dwRecursionLevel + 1);
if (!pObj)
return nullptr;
if (!key.IsEmpty())
pDict->SetFor(key, std::move(pObj));
}
return std::move(pDict);
}
if (first_char == '[') {
if ((!bAllowNestedArray && bInArray))
return nullptr;
auto pArray = pdfium::MakeUnique<CPDF_Array>();
while (1) {
std::unique_ptr<CPDF_Object> pObj =
ReadNextObject(bAllowNestedArray, true, dwRecursionLevel + 1);
if (pObj) {
pArray->Add(std::move(pObj));
continue;
}
if (!m_WordSize || m_WordBuffer[0] == ']')
break;
}
return std::move(pArray);
}
if (m_WordSize == 5 && !memcmp(m_WordBuffer, "false", 5))
return pdfium::MakeUnique<CPDF_Boolean>(false);
if (m_WordSize == 4) {
if (memcmp(m_WordBuffer, "true", 4) == 0)
return pdfium::MakeUnique<CPDF_Boolean>(true);
if (memcmp(m_WordBuffer, "null", 4) == 0)
return pdfium::MakeUnique<CPDF_Null>();
}
return nullptr;
}
// TODO(npm): the following methods are almost identical in cpdf_syntaxparser
void CPDF_StreamParser::GetNextWord(bool& bIsNumber) {
m_WordSize = 0;
bIsNumber = true;
if (!PositionIsInBounds())
return;
int ch = m_pBuf[m_Pos++];
while (1) {
while (PDFCharIsWhitespace(ch)) {
if (!PositionIsInBounds()) {
return;
}
ch = m_pBuf[m_Pos++];
}
if (ch != '%')
break;
while (1) {
if (!PositionIsInBounds())
return;
ch = m_pBuf[m_Pos++];
if (PDFCharIsLineEnding(ch))
break;
}
}
if (PDFCharIsDelimiter(ch)) {
bIsNumber = false;
m_WordBuffer[m_WordSize++] = ch;
if (ch == '/') {
while (1) {
if (!PositionIsInBounds())
return;
ch = m_pBuf[m_Pos++];
if (!PDFCharIsOther(ch) && !PDFCharIsNumeric(ch)) {
m_Pos--;
return;
}
if (m_WordSize < kMaxWordBuffer)
m_WordBuffer[m_WordSize++] = ch;
}
} else if (ch == '<') {
if (!PositionIsInBounds())
return;
ch = m_pBuf[m_Pos++];
if (ch == '<')
m_WordBuffer[m_WordSize++] = ch;
else
m_Pos--;
} else if (ch == '>') {
if (!PositionIsInBounds())
return;
ch = m_pBuf[m_Pos++];
if (ch == '>')
m_WordBuffer[m_WordSize++] = ch;
else
m_Pos--;
}
return;
}
while (1) {
if (m_WordSize < kMaxWordBuffer)
m_WordBuffer[m_WordSize++] = ch;
if (!PDFCharIsNumeric(ch))
bIsNumber = false;
if (!PositionIsInBounds())
return;
ch = m_pBuf[m_Pos++];
if (PDFCharIsDelimiter(ch) || PDFCharIsWhitespace(ch)) {
m_Pos--;
break;
}
}
}
CFX_ByteString CPDF_StreamParser::ReadString() {
if (!PositionIsInBounds())
return CFX_ByteString();
uint8_t ch = m_pBuf[m_Pos++];
CFX_ByteTextBuf buf;
int parlevel = 0;
int status = 0;
int iEscCode = 0;
while (1) {
switch (status) {
case 0:
if (ch == ')') {
if (parlevel == 0) {
if (buf.GetLength() > kMaxStringLength) {
return CFX_ByteString(buf.GetBuffer(), kMaxStringLength);
}
return buf.MakeString();
}
parlevel--;
buf.AppendChar(')');
} else if (ch == '(') {
parlevel++;
buf.AppendChar('(');
} else if (ch == '\\') {
status = 1;
} else {
buf.AppendChar((char)ch);
}
break;
case 1:
if (ch >= '0' && ch <= '7') {
iEscCode = FXSYS_toDecimalDigit(static_cast<wchar_t>(ch));
status = 2;
break;
}
if (ch == 'n') {
buf.AppendChar('\n');
} else if (ch == 'r') {
buf.AppendChar('\r');
} else if (ch == 't') {
buf.AppendChar('\t');
} else if (ch == 'b') {
buf.AppendChar('\b');
} else if (ch == 'f') {
buf.AppendChar('\f');
} else if (ch == '\r') {
status = 4;
break;
} else if (ch == '\n') {
} else {
buf.AppendChar(ch);
}
status = 0;
break;
case 2:
if (ch >= '0' && ch <= '7') {
iEscCode =
iEscCode * 8 + FXSYS_toDecimalDigit(static_cast<wchar_t>(ch));
status = 3;
} else {
buf.AppendChar(iEscCode);
status = 0;
continue;
}
break;
case 3:
if (ch >= '0' && ch <= '7') {
iEscCode =
iEscCode * 8 + FXSYS_toDecimalDigit(static_cast<wchar_t>(ch));
buf.AppendChar(iEscCode);
status = 0;
} else {
buf.AppendChar(iEscCode);
status = 0;
continue;
}
break;
case 4:
status = 0;
if (ch != '\n') {
continue;
}
break;
}
if (!PositionIsInBounds())
break;
ch = m_pBuf[m_Pos++];
}
if (PositionIsInBounds())
++m_Pos;
if (buf.GetLength() > kMaxStringLength) {
return CFX_ByteString(buf.GetBuffer(), kMaxStringLength);
}
return buf.MakeString();
}
CFX_ByteString CPDF_StreamParser::ReadHexString() {
if (!PositionIsInBounds())
return CFX_ByteString();
CFX_ByteTextBuf buf;
bool bFirst = true;
int code = 0;
while (PositionIsInBounds()) {
int ch = m_pBuf[m_Pos++];
if (ch == '>')
break;
if (!std::isxdigit(ch))
continue;
int val = FXSYS_toHexDigit(ch);
if (bFirst) {
code = val * 16;
} else {
code += val;
buf.AppendByte((uint8_t)code);
}
bFirst = !bFirst;
}
if (!bFirst)
buf.AppendChar((char)code);
if (buf.GetLength() > kMaxStringLength)
return CFX_ByteString(buf.GetBuffer(), kMaxStringLength);
return buf.MakeString();
}
bool CPDF_StreamParser::PositionIsInBounds() const {
return m_Pos < m_Size;
}
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