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// Copyright 2015 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/jbig2/JBig2_SddProc.h"
#include <string.h>
#include <algorithm>
#include <memory>
#include <utility>
#include <vector>
#include "core/fxcodec/jbig2/JBig2_ArithIntDecoder.h"
#include "core/fxcodec/jbig2/JBig2_GrdProc.h"
#include "core/fxcodec/jbig2/JBig2_GrrdProc.h"
#include "core/fxcodec/jbig2/JBig2_HuffmanDecoder.h"
#include "core/fxcodec/jbig2/JBig2_HuffmanTable.h"
#include "core/fxcodec/jbig2/JBig2_SymbolDict.h"
#include "core/fxcodec/jbig2/JBig2_TrdProc.h"
#include "core/fxcrt/fx_safe_types.h"
CJBig2_SDDProc::CJBig2_SDDProc() = default;
CJBig2_SDDProc::~CJBig2_SDDProc() = default;
std::unique_ptr<CJBig2_SymbolDict> CJBig2_SDDProc::DecodeArith(
CJBig2_ArithDecoder* pArithDecoder,
std::vector<JBig2ArithCtx>* gbContext,
std::vector<JBig2ArithCtx>* grContext) {
auto IADH = std::make_unique<CJBig2_ArithIntDecoder>();
auto IADW = std::make_unique<CJBig2_ArithIntDecoder>();
auto IAAI = std::make_unique<CJBig2_ArithIntDecoder>();
auto IARDX = std::make_unique<CJBig2_ArithIntDecoder>();
auto IARDY = std::make_unique<CJBig2_ArithIntDecoder>();
auto IAEX = std::make_unique<CJBig2_ArithIntDecoder>();
auto IADT = std::make_unique<CJBig2_ArithIntDecoder>();
auto IAFS = std::make_unique<CJBig2_ArithIntDecoder>();
auto IADS = std::make_unique<CJBig2_ArithIntDecoder>();
auto IAIT = std::make_unique<CJBig2_ArithIntDecoder>();
auto IARI = std::make_unique<CJBig2_ArithIntDecoder>();
auto IARDW = std::make_unique<CJBig2_ArithIntDecoder>();
auto IARDH = std::make_unique<CJBig2_ArithIntDecoder>();
uint32_t SBSYMCODELENA = 0;
while ((uint32_t)(1 << SBSYMCODELENA) < (SDNUMINSYMS + SDNUMNEWSYMS)) {
SBSYMCODELENA++;
}
auto IAID = std::make_unique<CJBig2_ArithIaidDecoder>((uint8_t)SBSYMCODELENA);
std::vector<std::unique_ptr<CJBig2_Image>> SDNEWSYMS(SDNUMNEWSYMS);
uint32_t HCHEIGHT = 0;
uint32_t NSYMSDECODED = 0;
while (NSYMSDECODED < SDNUMNEWSYMS) {
std::unique_ptr<CJBig2_Image> BS;
int32_t HCDH;
IADH->Decode(pArithDecoder, &HCDH);
HCHEIGHT = HCHEIGHT + HCDH;
if ((int)HCHEIGHT < 0 || (int)HCHEIGHT > kJBig2MaxImageSize)
return nullptr;
uint32_t SYMWIDTH = 0;
for (;;) {
int32_t DW;
if (!IADW->Decode(pArithDecoder, &DW))
break;
if (NSYMSDECODED >= SDNUMNEWSYMS)
return nullptr;
SYMWIDTH = SYMWIDTH + DW;
if ((int)SYMWIDTH < 0 || (int)SYMWIDTH > kJBig2MaxImageSize)
return nullptr;
if (HCHEIGHT == 0 || SYMWIDTH == 0) {
++NSYMSDECODED;
continue;
}
if (SDREFAGG == 0) {
auto pGRD = std::make_unique<CJBig2_GRDProc>();
pGRD->MMR = false;
pGRD->GBW = SYMWIDTH;
pGRD->GBH = HCHEIGHT;
pGRD->GBTEMPLATE = SDTEMPLATE;
pGRD->TPGDON = false;
pGRD->USESKIP = false;
pGRD->GBAT[0] = SDAT[0];
pGRD->GBAT[1] = SDAT[1];
pGRD->GBAT[2] = SDAT[2];
pGRD->GBAT[3] = SDAT[3];
pGRD->GBAT[4] = SDAT[4];
pGRD->GBAT[5] = SDAT[5];
pGRD->GBAT[6] = SDAT[6];
pGRD->GBAT[7] = SDAT[7];
BS = pGRD->DecodeArith(pArithDecoder, gbContext->data());
if (!BS)
return nullptr;
} else {
uint32_t REFAGGNINST;
IAAI->Decode(pArithDecoder, (int*)&REFAGGNINST);
if (REFAGGNINST > 1) {
// Huffman tables must not outlive |pDecoder|.
auto SBHUFFFS = std::make_unique<CJBig2_HuffmanTable>(6);
auto SBHUFFDS = std::make_unique<CJBig2_HuffmanTable>(8);
auto SBHUFFDT = std::make_unique<CJBig2_HuffmanTable>(11);
auto SBHUFFRDW = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRDH = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRDX = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRDY = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRSIZE = std::make_unique<CJBig2_HuffmanTable>(1);
auto pDecoder = std::make_unique<CJBig2_TRDProc>();
pDecoder->SBHUFF = SDHUFF;
pDecoder->SBREFINE = true;
pDecoder->SBW = SYMWIDTH;
pDecoder->SBH = HCHEIGHT;
pDecoder->SBNUMINSTANCES = REFAGGNINST;
pDecoder->SBSTRIPS = 1;
pDecoder->SBNUMSYMS = SDNUMINSYMS + NSYMSDECODED;
uint32_t nTmp = 0;
while ((uint32_t)(1 << nTmp) < pDecoder->SBNUMSYMS) {
nTmp++;
}
uint8_t SBSYMCODELEN = (uint8_t)nTmp;
pDecoder->SBSYMCODELEN = SBSYMCODELEN;
std::vector<CJBig2_Image*> SBSYMS; // Pointers are not owned
SBSYMS.resize(pDecoder->SBNUMSYMS);
std::copy(SDINSYMS, SDINSYMS + SDNUMINSYMS, SBSYMS.begin());
for (size_t i = 0; i < NSYMSDECODED; ++i)
SBSYMS[i + SDNUMINSYMS] = SDNEWSYMS[i].get();
pDecoder->SBSYMS = SBSYMS.data();
pDecoder->SBDEFPIXEL = false;
pDecoder->SBCOMBOP = JBIG2_COMPOSE_OR;
pDecoder->TRANSPOSED = false;
pDecoder->REFCORNER = JBIG2_CORNER_TOPLEFT;
pDecoder->SBDSOFFSET = 0;
pDecoder->SBHUFFFS = SBHUFFFS.get();
pDecoder->SBHUFFDS = SBHUFFDS.get();
pDecoder->SBHUFFDT = SBHUFFDT.get();
pDecoder->SBHUFFRDW = SBHUFFRDW.get();
pDecoder->SBHUFFRDH = SBHUFFRDH.get();
pDecoder->SBHUFFRDX = SBHUFFRDX.get();
pDecoder->SBHUFFRDY = SBHUFFRDY.get();
pDecoder->SBHUFFRSIZE = SBHUFFRSIZE.get();
pDecoder->SBRTEMPLATE = SDRTEMPLATE;
pDecoder->SBRAT[0] = SDRAT[0];
pDecoder->SBRAT[1] = SDRAT[1];
pDecoder->SBRAT[2] = SDRAT[2];
pDecoder->SBRAT[3] = SDRAT[3];
JBig2IntDecoderState ids;
ids.IADT = IADT.get();
ids.IAFS = IAFS.get();
ids.IADS = IADS.get();
ids.IAIT = IAIT.get();
ids.IARI = IARI.get();
ids.IARDW = IARDW.get();
ids.IARDH = IARDH.get();
ids.IARDX = IARDX.get();
ids.IARDY = IARDY.get();
ids.IAID = IAID.get();
BS = pDecoder->DecodeArith(pArithDecoder, grContext->data(), &ids);
if (!BS)
return nullptr;
} else if (REFAGGNINST == 1) {
uint32_t SBNUMSYMS = SDNUMINSYMS + NSYMSDECODED;
uint32_t IDI;
IAID->Decode(pArithDecoder, &IDI);
if (IDI >= SBNUMSYMS)
return nullptr;
CJBig2_Image* sbsyms_idi = GetImage(IDI, SDNEWSYMS);
if (!sbsyms_idi)
return nullptr;
int32_t RDXI;
int32_t RDYI;
IARDX->Decode(pArithDecoder, &RDXI);
IARDY->Decode(pArithDecoder, &RDYI);
auto pGRRD = std::make_unique<CJBig2_GRRDProc>();
pGRRD->GRW = SYMWIDTH;
pGRRD->GRH = HCHEIGHT;
pGRRD->GRTEMPLATE = SDRTEMPLATE;
pGRRD->GRREFERENCE = sbsyms_idi;
pGRRD->GRREFERENCEDX = RDXI;
pGRRD->GRREFERENCEDY = RDYI;
pGRRD->TPGRON = false;
pGRRD->GRAT[0] = SDRAT[0];
pGRRD->GRAT[1] = SDRAT[1];
pGRRD->GRAT[2] = SDRAT[2];
pGRRD->GRAT[3] = SDRAT[3];
BS = pGRRD->Decode(pArithDecoder, grContext->data());
if (!BS)
return nullptr;
}
}
SDNEWSYMS[NSYMSDECODED] = std::move(BS);
++NSYMSDECODED;
}
}
std::vector<bool> EXFLAGS;
EXFLAGS.resize(SDNUMINSYMS + SDNUMNEWSYMS);
bool CUREXFLAG = false;
uint32_t EXINDEX = 0;
uint32_t num_ex_syms = 0;
while (EXINDEX < SDNUMINSYMS + SDNUMNEWSYMS) {
uint32_t EXRUNLENGTH;
IAEX->Decode(pArithDecoder, (int*)&EXRUNLENGTH);
FX_SAFE_UINT32 new_ex_size = EXINDEX;
new_ex_size += EXRUNLENGTH;
if (!new_ex_size.IsValid() ||
new_ex_size.ValueOrDie() > SDNUMINSYMS + SDNUMNEWSYMS) {
return nullptr;
}
if (CUREXFLAG)
num_ex_syms += EXRUNLENGTH;
std::fill_n(EXFLAGS.begin() + EXINDEX, EXRUNLENGTH, CUREXFLAG);
EXINDEX = new_ex_size.ValueOrDie();
CUREXFLAG = !CUREXFLAG;
}
if (num_ex_syms > SDNUMEXSYMS)
return nullptr;
std::unique_ptr<CJBig2_SymbolDict> pDict =
std::make_unique<CJBig2_SymbolDict>();
for (uint32_t i = 0, j = 0; i < SDNUMINSYMS + SDNUMNEWSYMS; ++i) {
if (!EXFLAGS[i] || j >= SDNUMEXSYMS)
continue;
if (i < SDNUMINSYMS) {
pDict->AddImage(SDINSYMS[i] ? std::make_unique<CJBig2_Image>(*SDINSYMS[i])
: nullptr);
} else {
pDict->AddImage(std::move(SDNEWSYMS[i - SDNUMINSYMS]));
}
++j;
}
return pDict;
}
std::unique_ptr<CJBig2_SymbolDict> CJBig2_SDDProc::DecodeHuffman(
CJBig2_BitStream* pStream,
std::vector<JBig2ArithCtx>* gbContext,
std::vector<JBig2ArithCtx>* grContext) {
auto pHuffmanDecoder = std::make_unique<CJBig2_HuffmanDecoder>(pStream);
std::vector<std::unique_ptr<CJBig2_Image>> SDNEWSYMS(SDNUMNEWSYMS);
std::vector<uint32_t> SDNEWSYMWIDTHS;
if (SDREFAGG == 0)
SDNEWSYMWIDTHS.resize(SDNUMNEWSYMS);
uint32_t HCHEIGHT = 0;
uint32_t NSYMSDECODED = 0;
std::unique_ptr<CJBig2_Image> BS;
while (NSYMSDECODED < SDNUMNEWSYMS) {
int32_t HCDH;
if (pHuffmanDecoder->DecodeAValue(SDHUFFDH.Get(), &HCDH) != 0)
return nullptr;
HCHEIGHT = HCHEIGHT + HCDH;
if ((int)HCHEIGHT < 0 || (int)HCHEIGHT > kJBig2MaxImageSize)
return nullptr;
uint32_t SYMWIDTH = 0;
uint32_t TOTWIDTH = 0;
uint32_t HCFIRSTSYM = NSYMSDECODED;
for (;;) {
int32_t DW;
int32_t nVal = pHuffmanDecoder->DecodeAValue(SDHUFFDW.Get(), &DW);
if (nVal == kJBig2OOB)
break;
if (nVal != 0)
return nullptr;
if (NSYMSDECODED >= SDNUMNEWSYMS)
return nullptr;
SYMWIDTH = SYMWIDTH + DW;
if ((int)SYMWIDTH < 0 || (int)SYMWIDTH > kJBig2MaxImageSize)
return nullptr;
TOTWIDTH += SYMWIDTH;
if (HCHEIGHT == 0 || SYMWIDTH == 0) {
++NSYMSDECODED;
continue;
}
if (SDREFAGG == 1) {
uint32_t REFAGGNINST;
if (pHuffmanDecoder->DecodeAValue(SDHUFFAGGINST.Get(),
(int*)&REFAGGNINST) != 0) {
return nullptr;
}
BS = nullptr;
if (REFAGGNINST > 1) {
// Huffman tables must outlive |pDecoder|.
auto SBHUFFFS = std::make_unique<CJBig2_HuffmanTable>(6);
auto SBHUFFDS = std::make_unique<CJBig2_HuffmanTable>(8);
auto SBHUFFDT = std::make_unique<CJBig2_HuffmanTable>(11);
auto SBHUFFRDW = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRDH = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRDX = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRDY = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRSIZE = std::make_unique<CJBig2_HuffmanTable>(1);
auto pDecoder = std::make_unique<CJBig2_TRDProc>();
pDecoder->SBHUFF = SDHUFF;
pDecoder->SBREFINE = true;
pDecoder->SBW = SYMWIDTH;
pDecoder->SBH = HCHEIGHT;
pDecoder->SBNUMINSTANCES = REFAGGNINST;
pDecoder->SBSTRIPS = 1;
pDecoder->SBNUMSYMS = SDNUMINSYMS + NSYMSDECODED;
std::vector<JBig2HuffmanCode> SBSYMCODES(pDecoder->SBNUMSYMS);
uint32_t nTmp = 1;
while (static_cast<uint32_t>(1 << nTmp) < pDecoder->SBNUMSYMS)
++nTmp;
for (uint32_t i = 0; i < pDecoder->SBNUMSYMS; ++i) {
SBSYMCODES[i].codelen = nTmp;
SBSYMCODES[i].code = i;
}
pDecoder->SBSYMCODES = std::move(SBSYMCODES);
std::vector<CJBig2_Image*> SBSYMS; // Pointers are not owned
SBSYMS.resize(pDecoder->SBNUMSYMS);
std::copy(SDINSYMS, SDINSYMS + SDNUMINSYMS, SBSYMS.begin());
for (size_t i = 0; i < NSYMSDECODED; ++i)
SBSYMS[i + SDNUMINSYMS] = SDNEWSYMS[i].get();
pDecoder->SBSYMS = SBSYMS.data();
pDecoder->SBDEFPIXEL = false;
pDecoder->SBCOMBOP = JBIG2_COMPOSE_OR;
pDecoder->TRANSPOSED = false;
pDecoder->REFCORNER = JBIG2_CORNER_TOPLEFT;
pDecoder->SBDSOFFSET = 0;
pDecoder->SBHUFFFS = SBHUFFFS.get();
pDecoder->SBHUFFDS = SBHUFFDS.get();
pDecoder->SBHUFFDT = SBHUFFDT.get();
pDecoder->SBHUFFRDW = SBHUFFRDW.get();
pDecoder->SBHUFFRDH = SBHUFFRDH.get();
pDecoder->SBHUFFRDX = SBHUFFRDX.get();
pDecoder->SBHUFFRDY = SBHUFFRDY.get();
pDecoder->SBHUFFRSIZE = SBHUFFRSIZE.get();
pDecoder->SBRTEMPLATE = SDRTEMPLATE;
pDecoder->SBRAT[0] = SDRAT[0];
pDecoder->SBRAT[1] = SDRAT[1];
pDecoder->SBRAT[2] = SDRAT[2];
pDecoder->SBRAT[3] = SDRAT[3];
BS = pDecoder->DecodeHuffman(pStream, grContext->data());
if (!BS)
return nullptr;
} else if (REFAGGNINST == 1) {
uint32_t SBNUMSYMS = SDNUMINSYMS + SDNUMNEWSYMS;
uint32_t nTmp = 1;
while ((uint32_t)(1 << nTmp) < SBNUMSYMS) {
nTmp++;
}
uint8_t SBSYMCODELEN = (uint8_t)nTmp;
uint32_t uVal = 0;
uint32_t IDI;
for (;;) {
if (pStream->read1Bit(&nTmp) != 0)
return nullptr;
uVal = (uVal << 1) | nTmp;
if (uVal >= SBNUMSYMS)
return nullptr;
IDI = SBSYMCODELEN == 0 ? uVal : SBNUMSYMS;
if (IDI < SBNUMSYMS)
break;
}
CJBig2_Image* sbsyms_idi = GetImage(IDI, SDNEWSYMS);
if (!sbsyms_idi)
return nullptr;
auto SBHUFFRDX = std::make_unique<CJBig2_HuffmanTable>(15);
auto SBHUFFRSIZE = std::make_unique<CJBig2_HuffmanTable>(1);
int32_t RDXI;
int32_t RDYI;
if ((pHuffmanDecoder->DecodeAValue(SBHUFFRDX.get(), &RDXI) != 0) ||
(pHuffmanDecoder->DecodeAValue(SBHUFFRDX.get(), &RDYI) != 0) ||
(pHuffmanDecoder->DecodeAValue(SBHUFFRSIZE.get(), &nVal) != 0)) {
return nullptr;
}
pStream->alignByte();
nTmp = pStream->getOffset();
auto pGRRD = std::make_unique<CJBig2_GRRDProc>();
pGRRD->GRW = SYMWIDTH;
pGRRD->GRH = HCHEIGHT;
pGRRD->GRTEMPLATE = SDRTEMPLATE;
pGRRD->GRREFERENCE = sbsyms_idi;
pGRRD->GRREFERENCEDX = RDXI;
pGRRD->GRREFERENCEDY = RDYI;
pGRRD->TPGRON = false;
pGRRD->GRAT[0] = SDRAT[0];
pGRRD->GRAT[1] = SDRAT[1];
pGRRD->GRAT[2] = SDRAT[2];
pGRRD->GRAT[3] = SDRAT[3];
auto pArithDecoder = std::make_unique<CJBig2_ArithDecoder>(pStream);
BS = pGRRD->Decode(pArithDecoder.get(), grContext->data());
if (!BS)
return nullptr;
pStream->alignByte();
pStream->offset(2);
if ((uint32_t)nVal != (pStream->getOffset() - nTmp))
return nullptr;
}
SDNEWSYMS[NSYMSDECODED] = std::move(BS);
}
if (SDREFAGG == 0)
SDNEWSYMWIDTHS[NSYMSDECODED] = SYMWIDTH;
++NSYMSDECODED;
}
if (SDREFAGG == 0) {
uint32_t BMSIZE;
if (pHuffmanDecoder->DecodeAValue(SDHUFFBMSIZE.Get(),
(int32_t*)&BMSIZE) != 0) {
return nullptr;
}
pStream->alignByte();
std::unique_ptr<CJBig2_Image> BHC;
if (BMSIZE == 0) {
if (static_cast<int>(TOTWIDTH) > kJBig2MaxImageSize)
return nullptr;
// OK to not use FX_SAFE_UINT32 to calculate `stride` because
// `kJBig2MaxImageSize` is limiting the size.
const uint32_t stride = (TOTWIDTH + 7) / 8;
FX_SAFE_UINT32 safe_image_size = stride;
safe_image_size *= HCHEIGHT;
if (!safe_image_size.IsValid() ||
pStream->getByteLeft() < safe_image_size.ValueOrDie()) {
return nullptr;
}
BHC = std::make_unique<CJBig2_Image>(TOTWIDTH, HCHEIGHT);
for (uint32_t i = 0; i < HCHEIGHT; ++i) {
memcpy(BHC->data() + i * BHC->stride(), pStream->getPointer(),
stride);
pStream->offset(stride);
}
} else {
auto pGRD = std::make_unique<CJBig2_GRDProc>();
pGRD->MMR = true;
pGRD->GBW = TOTWIDTH;
pGRD->GBH = HCHEIGHT;
pGRD->StartDecodeMMR(&BHC, pStream);
pStream->alignByte();
}
if (!BHC)
continue;
uint32_t nTmp = 0;
for (uint32_t i = HCFIRSTSYM; i < NSYMSDECODED; ++i) {
SDNEWSYMS[i] = BHC->SubImage(nTmp, 0, SDNEWSYMWIDTHS[i], HCHEIGHT);
nTmp += SDNEWSYMWIDTHS[i];
}
}
}
std::unique_ptr<CJBig2_HuffmanTable> pTable =
std::make_unique<CJBig2_HuffmanTable>(1);
std::vector<bool> EXFLAGS;
EXFLAGS.resize(SDNUMINSYMS + SDNUMNEWSYMS);
bool CUREXFLAG = false;
uint32_t EXINDEX = 0;
uint32_t num_ex_syms = 0;
while (EXINDEX < SDNUMINSYMS + SDNUMNEWSYMS) {
uint32_t EXRUNLENGTH;
if (pHuffmanDecoder->DecodeAValue(pTable.get(), (int*)&EXRUNLENGTH) != 0)
return nullptr;
FX_SAFE_UINT32 new_ex_size = EXINDEX;
new_ex_size += EXRUNLENGTH;
if (!new_ex_size.IsValid() ||
new_ex_size.ValueOrDie() > SDNUMINSYMS + SDNUMNEWSYMS) {
return nullptr;
}
if (CUREXFLAG)
num_ex_syms += EXRUNLENGTH;
std::fill_n(EXFLAGS.begin() + EXINDEX, EXRUNLENGTH, CUREXFLAG);
EXINDEX = new_ex_size.ValueOrDie();
CUREXFLAG = !CUREXFLAG;
}
if (num_ex_syms > SDNUMEXSYMS)
return nullptr;
auto pDict = std::make_unique<CJBig2_SymbolDict>();
for (uint32_t i = 0, j = 0; i < SDNUMINSYMS + SDNUMNEWSYMS; ++i) {
if (!EXFLAGS[i] || j >= SDNUMEXSYMS)
continue;
if (i < SDNUMINSYMS) {
pDict->AddImage(SDINSYMS[i] ? std::make_unique<CJBig2_Image>(*SDINSYMS[i])
: nullptr);
} else {
pDict->AddImage(std::move(SDNEWSYMS[i - SDNUMINSYMS]));
}
++j;
}
return pDict;
}
CJBig2_Image* CJBig2_SDDProc::GetImage(
uint32_t i,
pdfium::span<const std::unique_ptr<CJBig2_Image>> new_syms) const {
return i < SDNUMINSYMS ? SDINSYMS[i] : new_syms[i - SDNUMINSYMS].get();
}