// 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/fpdfapi/font/cpdf_cmapparser.h" #include #include "core/fpdfapi/cmaps/fpdf_cmaps.h" #include "core/fpdfapi/parser/cpdf_array.h" #include "core/fpdfapi/parser/cpdf_dictionary.h" #include "core/fpdfapi/parser/cpdf_simple_parser.h" #include "core/fxcrt/fx_extension.h" #include "core/fxcrt/fx_safe_types.h" #include "core/fxge/fx_freetype.h" #include "third_party/base/logging.h" namespace { ByteStringView CMap_GetString(ByteStringView word) { if (word.GetLength() <= 2) return ByteStringView(); return word.Last(word.GetLength() - 2); } } // namespace CPDF_CMapParser::CPDF_CMapParser(CPDF_CMap* pCMap) : m_pCMap(pCMap) {} CPDF_CMapParser::~CPDF_CMapParser() { m_pCMap->SetAdditionalMappings(std::move(m_AdditionalCharcodeToCIDMappings)); m_pCMap->SetMixedFourByteLeadingRanges(std::move(m_Ranges)); } void CPDF_CMapParser::ParseWord(ByteStringView word) { ASSERT(!word.IsEmpty()); if (word == "begincidchar") { m_Status = kProcessingCidChar; m_CodeSeq = 0; } else if (word == "begincidrange") { m_Status = kProcessingCidRange; m_CodeSeq = 0; } else if (word == "endcidrange" || word == "endcidchar") { m_Status = kStart; } else if (word == "/WMode") { m_Status = kProcessingWMode; } else if (word == "/Registry") { m_Status = kProcessingRegistry; } else if (word == "/Ordering") { m_Status = kProcessingOrdering; } else if (word == "/Supplement") { m_Status = kProcessingSupplement; } else if (word == "begincodespacerange") { m_Status = kProcessingCodeSpaceRange; m_CodeSeq = 0; } else if (word == "usecmap") { } else if (m_Status == kProcessingCidChar) { HandleCid(word); } else if (m_Status == kProcessingCidRange) { HandleCid(word); } else if (m_Status == kProcessingRegistry) { m_Status = kStart; } else if (m_Status == kProcessingOrdering) { m_pCMap->SetCharset(CharsetFromOrdering(CMap_GetString(word))); m_Status = kStart; } else if (m_Status == kProcessingSupplement) { m_Status = kStart; } else if (m_Status == kProcessingWMode) { m_pCMap->SetVertical(GetCode(word) != 0); m_Status = kStart; } else if (m_Status == kProcessingCodeSpaceRange) { HandleCodeSpaceRange(word); } m_LastWord = word; } void CPDF_CMapParser::HandleCid(ByteStringView word) { ASSERT(m_Status == kProcessingCidChar || m_Status == kProcessingCidRange); bool bChar = m_Status == kProcessingCidChar; m_CodePoints[m_CodeSeq] = GetCode(word); m_CodeSeq++; int nRequiredCodePoints = bChar ? 2 : 3; if (m_CodeSeq < nRequiredCodePoints) return; uint32_t StartCode = m_CodePoints[0]; uint32_t EndCode; uint16_t StartCID; if (bChar) { EndCode = StartCode; StartCID = static_cast(m_CodePoints[1]); } else { EndCode = m_CodePoints[1]; StartCID = static_cast(m_CodePoints[2]); } if (EndCode < 0x10000) { for (uint32_t code = StartCode; code <= EndCode; code++) { m_pCMap->SetDirectCharcodeToCIDTable( code, static_cast(StartCID + code - StartCode)); } } else { m_AdditionalCharcodeToCIDMappings.push_back({StartCode, EndCode, StartCID}); } m_CodeSeq = 0; } void CPDF_CMapParser::HandleCodeSpaceRange(ByteStringView word) { if (word != "endcodespacerange") { if (word.IsEmpty() || word[0] != '<') return; if (m_CodeSeq % 2) { Optional range = GetCodeRange(m_LastWord.AsStringView(), word); if (range.has_value()) m_PendingRanges.push_back(range.value()); } m_CodeSeq++; return; } size_t nSegs = m_Ranges.size() + m_PendingRanges.size(); if (nSegs == 1) { const auto& first_range = !m_Ranges.empty() ? m_Ranges[0] : m_PendingRanges[0]; m_pCMap->SetCodingScheme(first_range.m_CharSize == 2 ? CPDF_CMap::TwoBytes : CPDF_CMap::OneByte); } else if (nSegs > 1) { m_pCMap->SetCodingScheme(CPDF_CMap::MixedFourBytes); m_Ranges.reserve(nSegs); std::move(m_PendingRanges.begin(), m_PendingRanges.end(), std::back_inserter(m_Ranges)); m_PendingRanges.clear(); } m_Status = kStart; } // static uint32_t CPDF_CMapParser::GetCode(ByteStringView word) { if (word.IsEmpty()) return 0; FX_SAFE_UINT32 num = 0; if (word[0] == '<') { for (size_t i = 1; i < word.GetLength() && std::isxdigit(word[i]); ++i) { num = num * 16 + FXSYS_HexCharToInt(word[i]); if (!num.IsValid()) return 0; } return num.ValueOrDie(); } for (size_t i = 0; i < word.GetLength() && std::isdigit(word[i]); ++i) { num = num * 10 + FXSYS_DecimalCharToInt(static_cast(word[i])); if (!num.IsValid()) return 0; } return num.ValueOrDie(); } // static Optional CPDF_CMapParser::GetCodeRange( ByteStringView first, ByteStringView second) { if (first.IsEmpty() || first[0] != '<') return pdfium::nullopt; size_t i; for (i = 1; i < first.GetLength(); ++i) { if (first[i] == '>') break; } size_t char_size = (i - 1) / 2; if (char_size > 4) return pdfium::nullopt; CPDF_CMap::CodeRange range; range.m_CharSize = char_size; for (i = 0; i < range.m_CharSize; ++i) { uint8_t digit1 = first[i * 2 + 1]; uint8_t digit2 = first[i * 2 + 2]; range.m_Lower[i] = FXSYS_HexCharToInt(digit1) * 16 + FXSYS_HexCharToInt(digit2); } size_t size = second.GetLength(); for (i = 0; i < range.m_CharSize; ++i) { size_t i1 = i * 2 + 1; size_t i2 = i1 + 1; uint8_t digit1 = i1 < size ? second[i1] : '0'; uint8_t digit2 = i2 < size ? second[i2] : '0'; range.m_Upper[i] = FXSYS_HexCharToInt(digit1) * 16 + FXSYS_HexCharToInt(digit2); } return range; } // static CIDSet CPDF_CMapParser::CharsetFromOrdering(ByteStringView ordering) { static const char* const kCharsetNames[CIDSET_NUM_SETS] = { nullptr, "GB1", "CNS1", "Japan1", "Korea1", "UCS"}; static_assert(FX_ArraySize(kCharsetNames) == CIDSET_NUM_SETS, "Too many CID sets"); for (size_t charset = 1; charset < FX_ArraySize(kCharsetNames); ++charset) { if (ordering == kCharsetNames[charset]) return static_cast(charset); } return CIDSET_UNKNOWN; }