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// 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/fxcodec/fx_codec.h"
#include <cmath>
#include <memory>
#include <utility>
#include "core/fxcodec/codec/codec_int.h"
#include "core/fxcrt/include/fx_ext.h"
#include "core/fxcrt/include/fx_safe_types.h"
#include "third_party/base/logging.h"
CCodec_ModuleMgr::CCodec_ModuleMgr()
: m_pBasicModule(new CCodec_BasicModule),
m_pFaxModule(new CCodec_FaxModule),
m_pJpegModule(new CCodec_JpegModule),
m_pJpxModule(new CCodec_JpxModule),
m_pJbig2Module(new CCodec_Jbig2Module),
m_pIccModule(new CCodec_IccModule),
#ifdef PDF_ENABLE_XFA
m_pPngModule(new CCodec_PngModule),
m_pGifModule(new CCodec_GifModule),
m_pBmpModule(new CCodec_BmpModule),
m_pTiffModule(new CCodec_TiffModule),
#endif // PDF_ENABLE_XFA
m_pFlateModule(new CCodec_FlateModule) {
}
CCodec_ModuleMgr::~CCodec_ModuleMgr() {}
CCodec_ScanlineDecoder::CCodec_ScanlineDecoder()
: CCodec_ScanlineDecoder(0, 0, 0, 0, 0, 0, 0) {}
CCodec_ScanlineDecoder::CCodec_ScanlineDecoder(int nOrigWidth,
int nOrigHeight,
int nOutputWidth,
int nOutputHeight,
int nComps,
int nBpc,
uint32_t nPitch)
: m_OrigWidth(nOrigWidth),
m_OrigHeight(nOrigHeight),
m_OutputWidth(nOutputWidth),
m_OutputHeight(nOutputHeight),
m_nComps(nComps),
m_bpc(nBpc),
m_Pitch(nPitch),
m_NextLine(-1),
m_pLastScanline(nullptr) {}
CCodec_ScanlineDecoder::~CCodec_ScanlineDecoder() {}
const uint8_t* CCodec_ScanlineDecoder::GetScanline(int line) {
if (m_NextLine == line + 1)
return m_pLastScanline;
if (m_NextLine < 0 || m_NextLine > line) {
if (!v_Rewind())
return nullptr;
m_NextLine = 0;
}
while (m_NextLine < line) {
ReadNextLine();
m_NextLine++;
}
m_pLastScanline = ReadNextLine();
m_NextLine++;
return m_pLastScanline;
}
FX_BOOL CCodec_ScanlineDecoder::SkipToScanline(int line, IFX_Pause* pPause) {
if (m_NextLine == line || m_NextLine == line + 1)
return FALSE;
if (m_NextLine < 0 || m_NextLine > line) {
v_Rewind();
m_NextLine = 0;
}
m_pLastScanline = nullptr;
while (m_NextLine < line) {
m_pLastScanline = ReadNextLine();
m_NextLine++;
if (pPause && pPause->NeedToPauseNow()) {
return TRUE;
}
}
return FALSE;
}
uint8_t* CCodec_ScanlineDecoder::ReadNextLine() {
return v_GetNextLine();
}
#ifdef PDF_ENABLE_XFA
CFX_DIBAttribute::CFX_DIBAttribute()
: m_nXDPI(-1),
m_nYDPI(-1),
m_fAspectRatio(-1.0f),
m_wDPIUnit(0),
m_nGifLeft(0),
m_nGifTop(0),
m_pGifLocalPalette(nullptr),
m_nGifLocalPalNum(0),
m_nBmpCompressType(0) {
FXSYS_memset(m_strTime, 0, sizeof(m_strTime));
}
CFX_DIBAttribute::~CFX_DIBAttribute() {
for (const auto& pair : m_Exif)
FX_Free(pair.second);
}
#endif // PDF_ENABLE_XFA
class CCodec_RLScanlineDecoder : public CCodec_ScanlineDecoder {
public:
CCodec_RLScanlineDecoder();
~CCodec_RLScanlineDecoder() override;
FX_BOOL Create(const uint8_t* src_buf,
uint32_t src_size,
int width,
int height,
int nComps,
int bpc);
// CCodec_ScanlineDecoder
FX_BOOL v_Rewind() override;
uint8_t* v_GetNextLine() override;
uint32_t GetSrcOffset() override { return m_SrcOffset; }
protected:
FX_BOOL CheckDestSize();
void GetNextOperator();
void UpdateOperator(uint8_t used_bytes);
uint8_t* m_pScanline;
const uint8_t* m_pSrcBuf;
uint32_t m_SrcSize;
uint32_t m_dwLineBytes;
uint32_t m_SrcOffset;
FX_BOOL m_bEOD;
uint8_t m_Operator;
};
CCodec_RLScanlineDecoder::CCodec_RLScanlineDecoder()
: m_pScanline(nullptr),
m_pSrcBuf(nullptr),
m_SrcSize(0),
m_dwLineBytes(0),
m_SrcOffset(0),
m_bEOD(FALSE),
m_Operator(0) {}
CCodec_RLScanlineDecoder::~CCodec_RLScanlineDecoder() {
FX_Free(m_pScanline);
}
FX_BOOL CCodec_RLScanlineDecoder::CheckDestSize() {
uint32_t i = 0;
uint32_t old_size = 0;
uint32_t dest_size = 0;
while (i < m_SrcSize) {
if (m_pSrcBuf[i] < 128) {
old_size = dest_size;
dest_size += m_pSrcBuf[i] + 1;
if (dest_size < old_size) {
return FALSE;
}
i += m_pSrcBuf[i] + 2;
} else if (m_pSrcBuf[i] > 128) {
old_size = dest_size;
dest_size += 257 - m_pSrcBuf[i];
if (dest_size < old_size) {
return FALSE;
}
i += 2;
} else {
break;
}
}
if (((uint32_t)m_OrigWidth * m_nComps * m_bpc * m_OrigHeight + 7) / 8 >
dest_size) {
return FALSE;
}
return TRUE;
}
FX_BOOL CCodec_RLScanlineDecoder::Create(const uint8_t* src_buf,
uint32_t src_size,
int width,
int height,
int nComps,
int bpc) {
m_pSrcBuf = src_buf;
m_SrcSize = src_size;
m_OutputWidth = m_OrigWidth = width;
m_OutputHeight = m_OrigHeight = height;
m_nComps = nComps;
m_bpc = bpc;
// Aligning the pitch to 4 bytes requires an integer overflow check.
FX_SAFE_UINT32 pitch = width;
pitch *= nComps;
pitch *= bpc;
pitch += 31;
pitch /= 32;
pitch *= 4;
if (!pitch.IsValid()) {
return FALSE;
}
m_Pitch = pitch.ValueOrDie();
// Overflow should already have been checked before this is called.
m_dwLineBytes = (static_cast<uint32_t>(width) * nComps * bpc + 7) / 8;
m_pScanline = FX_Alloc(uint8_t, m_Pitch);
return CheckDestSize();
}
FX_BOOL CCodec_RLScanlineDecoder::v_Rewind() {
FXSYS_memset(m_pScanline, 0, m_Pitch);
m_SrcOffset = 0;
m_bEOD = FALSE;
m_Operator = 0;
return TRUE;
}
uint8_t* CCodec_RLScanlineDecoder::v_GetNextLine() {
if (m_SrcOffset == 0) {
GetNextOperator();
} else {
if (m_bEOD) {
return nullptr;
}
}
FXSYS_memset(m_pScanline, 0, m_Pitch);
uint32_t col_pos = 0;
FX_BOOL eol = FALSE;
while (m_SrcOffset < m_SrcSize && !eol) {
if (m_Operator < 128) {
uint32_t copy_len = m_Operator + 1;
if (col_pos + copy_len >= m_dwLineBytes) {
copy_len = m_dwLineBytes - col_pos;
eol = TRUE;
}
if (copy_len >= m_SrcSize - m_SrcOffset) {
copy_len = m_SrcSize - m_SrcOffset;
m_bEOD = TRUE;
}
FXSYS_memcpy(m_pScanline + col_pos, m_pSrcBuf + m_SrcOffset, copy_len);
col_pos += copy_len;
UpdateOperator((uint8_t)copy_len);
} else if (m_Operator > 128) {
int fill = 0;
if (m_SrcOffset - 1 < m_SrcSize - 1) {
fill = m_pSrcBuf[m_SrcOffset];
}
uint32_t duplicate_len = 257 - m_Operator;
if (col_pos + duplicate_len >= m_dwLineBytes) {
duplicate_len = m_dwLineBytes - col_pos;
eol = TRUE;
}
FXSYS_memset(m_pScanline + col_pos, fill, duplicate_len);
col_pos += duplicate_len;
UpdateOperator((uint8_t)duplicate_len);
} else {
m_bEOD = TRUE;
break;
}
}
return m_pScanline;
}
void CCodec_RLScanlineDecoder::GetNextOperator() {
if (m_SrcOffset >= m_SrcSize) {
m_Operator = 128;
return;
}
m_Operator = m_pSrcBuf[m_SrcOffset];
m_SrcOffset++;
}
void CCodec_RLScanlineDecoder::UpdateOperator(uint8_t used_bytes) {
if (used_bytes == 0) {
return;
}
if (m_Operator < 128) {
ASSERT((uint32_t)m_Operator + 1 >= used_bytes);
if (used_bytes == m_Operator + 1) {
m_SrcOffset += used_bytes;
GetNextOperator();
return;
}
m_Operator -= used_bytes;
m_SrcOffset += used_bytes;
if (m_SrcOffset >= m_SrcSize) {
m_Operator = 128;
}
return;
}
uint8_t count = 257 - m_Operator;
ASSERT((uint32_t)count >= used_bytes);
if (used_bytes == count) {
m_SrcOffset++;
GetNextOperator();
return;
}
count -= used_bytes;
m_Operator = 257 - count;
}
CCodec_ScanlineDecoder* CCodec_BasicModule::CreateRunLengthDecoder(
const uint8_t* src_buf,
uint32_t src_size,
int width,
int height,
int nComps,
int bpc) {
std::unique_ptr<CCodec_RLScanlineDecoder> pRLScanlineDecoder(
new CCodec_RLScanlineDecoder);
if (!pRLScanlineDecoder->Create(src_buf, src_size, width, height, nComps,
bpc)) {
return nullptr;
}
return pRLScanlineDecoder.release();
}
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