// 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/fxcrt/xml/cfx_xmlparser.h" #include #include #include #include #include "core/fxcrt/cfx_seekablestreamproxy.h" #include "core/fxcrt/fx_codepage.h" #include "core/fxcrt/fx_extension.h" #include "core/fxcrt/fx_safe_types.h" #include "core/fxcrt/xml/cfx_xmlchardata.h" #include "core/fxcrt/xml/cfx_xmlelement.h" #include "core/fxcrt/xml/cfx_xmlinstruction.h" #include "core/fxcrt/xml/cfx_xmlnode.h" #include "core/fxcrt/xml/cfx_xmltext.h" #include "third_party/base/ptr_util.h" namespace { const uint32_t kMaxCharRange = 0x10ffff; bool IsXMLWhiteSpace(wchar_t ch) { return ch == L' ' || ch == 0x0A || ch == 0x0D || ch == 0x09; } struct FX_XMLNAMECHAR { uint16_t wStart; uint16_t wEnd; bool bStartChar; }; const FX_XMLNAMECHAR g_XMLNameChars[] = { {L'-', L'.', false}, {L'0', L'9', false}, {L':', L':', false}, {L'A', L'Z', true}, {L'_', L'_', true}, {L'a', L'z', true}, {0xB7, 0xB7, false}, {0xC0, 0xD6, true}, {0xD8, 0xF6, true}, {0xF8, 0x02FF, true}, {0x0300, 0x036F, false}, {0x0370, 0x037D, true}, {0x037F, 0x1FFF, true}, {0x200C, 0x200D, true}, {0x203F, 0x2040, false}, {0x2070, 0x218F, true}, {0x2C00, 0x2FEF, true}, {0x3001, 0xD7FF, true}, {0xF900, 0xFDCF, true}, {0xFDF0, 0xFFFD, true}, }; } // namespace // static bool CFX_XMLParser::IsXMLNameChar(wchar_t ch, bool bFirstChar) { auto* it = std::lower_bound( std::begin(g_XMLNameChars), std::end(g_XMLNameChars), ch, [](const FX_XMLNAMECHAR& arg, wchar_t ch) { return arg.wEnd < ch; }); return it != std::end(g_XMLNameChars) && ch >= it->wStart && (!bFirstChar || it->bStartChar); } CFX_XMLParser::CFX_XMLParser(CFX_XMLNode* pParent, const RetainPtr& pStream) : m_pParent(pParent), m_pChild(nullptr), m_iXMLPlaneSize(1024), m_Start(0), m_End(0), m_CurNodeType(FX_XMLNODE_Unknown), m_pCurrentBlock(nullptr), m_iIndexInBlock(0), m_iTextDataLength(0), m_syntaxParserResult(FX_XmlSyntaxResult::None), m_syntaxParserState(FDE_XmlSyntaxState::Text), m_wQuotationMark(0), m_iEntityStart(-1) { ASSERT(m_pParent); ASSERT(pStream); auto proxy = pdfium::MakeRetain(pStream); uint16_t wCodePage = proxy->GetCodePage(); if (wCodePage != FX_CODEPAGE_UTF16LE && wCodePage != FX_CODEPAGE_UTF16BE && wCodePage != FX_CODEPAGE_UTF8) { proxy->SetCodePage(FX_CODEPAGE_UTF8); } m_pStream = proxy; m_NodeStack.push(m_pParent); m_iXMLPlaneSize = std::min(m_iXMLPlaneSize, pdfium::base::checked_cast(m_pStream->GetSize())); FX_SAFE_SIZE_T alloc_size_safe = m_iXMLPlaneSize; alloc_size_safe += 1; // For NUL. if (!alloc_size_safe.IsValid() || alloc_size_safe.ValueOrDie() <= 0) { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return; } m_Buffer.resize(pdfium::base::ValueOrDieForType(alloc_size_safe)); m_BlockBuffer.InitBuffer(); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); } CFX_XMLParser::~CFX_XMLParser() = default; bool CFX_XMLParser::Parse() { int32_t iCount = 0; while (true) { FX_XmlSyntaxResult result = DoSyntaxParse(); if (result == FX_XmlSyntaxResult::Error) return false; if (result == FX_XmlSyntaxResult::EndOfString) break; switch (result) { case FX_XmlSyntaxResult::InstructionClose: if (m_pChild && m_pChild->GetType() != FX_XMLNODE_Instruction) return false; m_pChild = m_pParent; break; case FX_XmlSyntaxResult::ElementClose: if (m_pChild->GetType() != FX_XMLNODE_Element) return false; m_ws1 = GetTagName(); if (m_ws1.GetLength() > 0 && m_ws1 != static_cast(m_pChild)->GetName()) { return false; } if (!m_NodeStack.empty()) m_NodeStack.pop(); if (m_NodeStack.empty()) return false; m_pParent = m_NodeStack.top(); m_pChild = m_pParent; iCount++; break; case FX_XmlSyntaxResult::TargetName: m_ws1 = m_BlockBuffer.GetTextData(0, m_iTextDataLength); if (m_ws1 == L"originalXFAVersion" || m_ws1 == L"acrobat") { auto child = pdfium::MakeUnique(m_ws1); m_pChild = child.get(); m_pParent->AppendChild(std::move(child)); } else { m_pChild = nullptr; } m_ws1.clear(); break; case FX_XmlSyntaxResult::TagName: { m_ws1 = GetTagName(); auto child = pdfium::MakeUnique(m_ws1); m_pChild = child.get(); m_pParent->AppendChild(std::move(child)); m_NodeStack.push(m_pChild); m_pParent = m_pChild; break; } case FX_XmlSyntaxResult::AttriName: m_ws1 = GetAttributeName(); break; case FX_XmlSyntaxResult::AttriValue: if (m_pChild && m_pChild->GetType() == FX_XMLNODE_Element) { static_cast(m_pChild)->SetAttribute( m_ws1, GetAttributeName()); } m_ws1.clear(); break; case FX_XmlSyntaxResult::Text: { m_ws1 = GetTextData(); auto child = pdfium::MakeUnique(m_ws1); m_pChild = child.get(); m_pParent->AppendChild(std::move(child)); m_pChild = m_pParent; break; } case FX_XmlSyntaxResult::CData: { m_ws1 = GetTextData(); auto child = pdfium::MakeUnique(m_ws1); m_pChild = child.get(); m_pParent->AppendChild(std::move(child)); m_pChild = m_pParent; break; } case FX_XmlSyntaxResult::TargetData: if (m_pChild) { if (m_pChild->GetType() != FX_XMLNODE_Instruction) return false; auto* instruction = static_cast(m_pChild); if (!m_ws1.IsEmpty()) instruction->AppendData(m_ws1); instruction->AppendData( m_BlockBuffer.GetTextData(0, m_iTextDataLength)); } m_ws1.clear(); break; case FX_XmlSyntaxResult::ElementOpen: case FX_XmlSyntaxResult::ElementBreak: case FX_XmlSyntaxResult::InstructionOpen: default: break; } } return m_NodeStack.size() != 1 ? false : GetStatus(); } FX_XmlSyntaxResult CFX_XMLParser::DoSyntaxParse() { if (m_syntaxParserResult == FX_XmlSyntaxResult::Error || m_syntaxParserResult == FX_XmlSyntaxResult::EndOfString) { return m_syntaxParserResult; } FX_XmlSyntaxResult syntaxParserResult = FX_XmlSyntaxResult::None; while (true) { if (m_Start >= m_End) { if (m_pStream->IsEOF()) { m_syntaxParserResult = FX_XmlSyntaxResult::EndOfString; return m_syntaxParserResult; } size_t buffer_chars = m_pStream->ReadBlock(m_Buffer.data(), m_iXMLPlaneSize); if (buffer_chars == 0) { m_syntaxParserResult = FX_XmlSyntaxResult::EndOfString; return m_syntaxParserResult; } m_Start = 0; m_End = buffer_chars; } while (m_Start < m_End) { wchar_t ch = m_Buffer[m_Start]; switch (m_syntaxParserState) { case FDE_XmlSyntaxState::Text: if (ch == L'<') { if (!m_BlockBuffer.IsEmpty()) { m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_iEntityStart = -1; syntaxParserResult = FX_XmlSyntaxResult::Text; } else { m_Start++; m_syntaxParserState = FDE_XmlSyntaxState::Node; } } else { ParseTextChar(ch); } break; case FDE_XmlSyntaxState::Node: if (ch == L'!') { m_Start++; m_syntaxParserState = FDE_XmlSyntaxState::SkipCommentOrDecl; } else if (ch == L'/') { m_Start++; m_syntaxParserState = FDE_XmlSyntaxState::CloseElement; } else if (ch == L'?') { m_CurNodeType = FX_XMLNODE_Instruction; m_XMLNodeTypeStack.push(m_CurNodeType); m_Start++; m_syntaxParserState = FDE_XmlSyntaxState::Target; syntaxParserResult = FX_XmlSyntaxResult::InstructionOpen; } else { m_CurNodeType = FX_XMLNODE_Element; m_XMLNodeTypeStack.push(m_CurNodeType); m_syntaxParserState = FDE_XmlSyntaxState::Tag; syntaxParserResult = FX_XmlSyntaxResult::ElementOpen; } break; case FDE_XmlSyntaxState::Target: case FDE_XmlSyntaxState::Tag: if (!IsXMLNameChar(ch, m_BlockBuffer.IsEmpty())) { if (m_BlockBuffer.IsEmpty()) { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (m_syntaxParserState != FDE_XmlSyntaxState::Target) syntaxParserResult = FX_XmlSyntaxResult::TagName; else syntaxParserResult = FX_XmlSyntaxResult::TargetName; m_syntaxParserState = FDE_XmlSyntaxState::AttriName; } else { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) return FX_XmlSyntaxResult::Error; } m_pCurrentBlock[m_iIndexInBlock++] = ch; m_BlockBuffer.IncrementDataLength(); m_Start++; } break; case FDE_XmlSyntaxState::AttriName: if (m_BlockBuffer.IsEmpty() && IsXMLWhiteSpace(ch)) { m_Start++; break; } if (!IsXMLNameChar(ch, m_BlockBuffer.IsEmpty())) { if (m_BlockBuffer.IsEmpty()) { if (m_CurNodeType == FX_XMLNODE_Element) { if (ch == L'>' || ch == L'/') { m_syntaxParserState = FDE_XmlSyntaxState::BreakElement; break; } } else if (m_CurNodeType == FX_XMLNODE_Instruction) { if (ch == L'?') { m_syntaxParserState = FDE_XmlSyntaxState::CloseInstruction; m_Start++; } else { m_syntaxParserState = FDE_XmlSyntaxState::TargetData; } break; } m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } else { if (m_CurNodeType == FX_XMLNODE_Instruction) { if (ch != '=' && !IsXMLWhiteSpace(ch)) { m_syntaxParserState = FDE_XmlSyntaxState::TargetData; break; } } m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_syntaxParserState = FDE_XmlSyntaxState::AttriEqualSign; syntaxParserResult = FX_XmlSyntaxResult::AttriName; } } else { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) return FX_XmlSyntaxResult::Error; } m_pCurrentBlock[m_iIndexInBlock++] = ch; m_BlockBuffer.IncrementDataLength(); m_Start++; } break; case FDE_XmlSyntaxState::AttriEqualSign: if (IsXMLWhiteSpace(ch)) { m_Start++; break; } if (ch != L'=') { if (m_CurNodeType == FX_XMLNODE_Instruction) { m_syntaxParserState = FDE_XmlSyntaxState::TargetData; break; } m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } else { m_syntaxParserState = FDE_XmlSyntaxState::AttriQuotation; m_Start++; } break; case FDE_XmlSyntaxState::AttriQuotation: if (IsXMLWhiteSpace(ch)) { m_Start++; break; } if (ch != L'\"' && ch != L'\'') { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } m_wQuotationMark = ch; m_syntaxParserState = FDE_XmlSyntaxState::AttriValue; m_Start++; break; case FDE_XmlSyntaxState::AttriValue: if (ch == m_wQuotationMark) { if (m_iEntityStart > -1) { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_wQuotationMark = 0; m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_Start++; m_syntaxParserState = FDE_XmlSyntaxState::AttriName; syntaxParserResult = FX_XmlSyntaxResult::AttriValue; } else { ParseTextChar(ch); } break; case FDE_XmlSyntaxState::CloseInstruction: if (ch != L'>') { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) return FX_XmlSyntaxResult::Error; } m_pCurrentBlock[m_iIndexInBlock++] = ch; m_BlockBuffer.IncrementDataLength(); m_syntaxParserState = FDE_XmlSyntaxState::TargetData; } else if (!m_BlockBuffer.IsEmpty()) { m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); syntaxParserResult = FX_XmlSyntaxResult::TargetData; } else { m_Start++; if (m_XMLNodeTypeStack.empty()) { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } m_XMLNodeTypeStack.pop(); if (!m_XMLNodeTypeStack.empty()) m_CurNodeType = m_XMLNodeTypeStack.top(); else m_CurNodeType = FX_XMLNODE_Unknown; m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_syntaxParserState = FDE_XmlSyntaxState::Text; syntaxParserResult = FX_XmlSyntaxResult::InstructionClose; } break; case FDE_XmlSyntaxState::BreakElement: if (ch == L'>') { m_syntaxParserState = FDE_XmlSyntaxState::Text; syntaxParserResult = FX_XmlSyntaxResult::ElementBreak; } else if (ch == L'/') { m_syntaxParserState = FDE_XmlSyntaxState::CloseElement; } else { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } m_Start++; break; case FDE_XmlSyntaxState::CloseElement: if (!IsXMLNameChar(ch, m_BlockBuffer.IsEmpty())) { if (ch == L'>') { if (m_XMLNodeTypeStack.empty()) { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } m_XMLNodeTypeStack.pop(); if (!m_XMLNodeTypeStack.empty()) m_CurNodeType = m_XMLNodeTypeStack.top(); else m_CurNodeType = FX_XMLNODE_Unknown; m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_syntaxParserState = FDE_XmlSyntaxState::Text; syntaxParserResult = FX_XmlSyntaxResult::ElementClose; } else if (!IsXMLWhiteSpace(ch)) { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } } else { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) return FX_XmlSyntaxResult::Error; } m_pCurrentBlock[m_iIndexInBlock++] = ch; m_BlockBuffer.IncrementDataLength(); } m_Start++; break; case FDE_XmlSyntaxState::SkipCommentOrDecl: if (FXSYS_wcsnicmp(m_Buffer.data() + m_Start, L"--", 2) == 0) { m_Start += 2; m_syntaxParserState = FDE_XmlSyntaxState::SkipComment; } else if (FXSYS_wcsnicmp(m_Buffer.data() + m_Start, L"[CDATA[", 7) == 0) { m_Start += 7; m_syntaxParserState = FDE_XmlSyntaxState::SkipCData; } else { m_syntaxParserState = FDE_XmlSyntaxState::SkipDeclNode; m_SkipChar = L'>'; m_SkipStack.push(L'>'); } break; case FDE_XmlSyntaxState::SkipCData: { if (FXSYS_wcsnicmp(m_Buffer.data() + m_Start, L"]]>", 3) == 0) { m_Start += 3; syntaxParserResult = FX_XmlSyntaxResult::CData; m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_syntaxParserState = FDE_XmlSyntaxState::Text; } else { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) return FX_XmlSyntaxResult::Error; } m_pCurrentBlock[m_iIndexInBlock++] = ch; m_BlockBuffer.IncrementDataLength(); m_Start++; } break; } case FDE_XmlSyntaxState::SkipDeclNode: if (m_SkipChar == L'\'' || m_SkipChar == L'\"') { m_Start++; if (ch != m_SkipChar) break; m_SkipStack.pop(); if (m_SkipStack.empty()) m_syntaxParserState = FDE_XmlSyntaxState::Text; else m_SkipChar = m_SkipStack.top(); } else { switch (ch) { case L'<': m_SkipChar = L'>'; m_SkipStack.push(L'>'); break; case L'[': m_SkipChar = L']'; m_SkipStack.push(L']'); break; case L'(': m_SkipChar = L')'; m_SkipStack.push(L')'); break; case L'\'': m_SkipChar = L'\''; m_SkipStack.push(L'\''); break; case L'\"': m_SkipChar = L'\"'; m_SkipStack.push(L'\"'); break; default: if (ch == m_SkipChar) { m_SkipStack.pop(); if (m_SkipStack.empty()) { if (m_BlockBuffer.GetDataLength() >= 9) (void)m_BlockBuffer.GetTextData(0, 7); m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_syntaxParserState = FDE_XmlSyntaxState::Text; } else { m_SkipChar = m_SkipStack.top(); } } break; } if (!m_SkipStack.empty()) { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) { return FX_XmlSyntaxResult::Error; } } m_pCurrentBlock[m_iIndexInBlock++] = ch; m_BlockBuffer.IncrementDataLength(); } m_Start++; } break; case FDE_XmlSyntaxState::SkipComment: if (FXSYS_wcsnicmp(m_Buffer.data() + m_Start, L"-->", 3) == 0) { m_Start += 2; m_syntaxParserState = FDE_XmlSyntaxState::Text; } m_Start++; break; case FDE_XmlSyntaxState::TargetData: if (IsXMLWhiteSpace(ch)) { if (m_BlockBuffer.IsEmpty()) { m_Start++; break; } if (m_wQuotationMark == 0) { m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_wQuotationMark = 0; m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_Start++; syntaxParserResult = FX_XmlSyntaxResult::TargetData; break; } } if (ch == '?') { m_syntaxParserState = FDE_XmlSyntaxState::CloseInstruction; m_Start++; } else if (ch == '\"') { if (m_wQuotationMark == 0) { m_wQuotationMark = ch; m_Start++; } else if (ch == m_wQuotationMark) { m_iTextDataLength = m_BlockBuffer.GetDataLength(); m_wQuotationMark = 0; m_BlockBuffer.Reset(true); std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_Start++; syntaxParserResult = FX_XmlSyntaxResult::TargetData; } else { m_syntaxParserResult = FX_XmlSyntaxResult::Error; return m_syntaxParserResult; } } else { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) return FX_XmlSyntaxResult::Error; } m_pCurrentBlock[m_iIndexInBlock++] = ch; m_BlockBuffer.IncrementDataLength(); m_Start++; } break; default: break; } if (syntaxParserResult != FX_XmlSyntaxResult::None) return syntaxParserResult; } } return FX_XmlSyntaxResult::Text; } bool CFX_XMLParser::GetStatus() const { return m_pStream && m_syntaxParserResult != FX_XmlSyntaxResult::Error; } void CFX_XMLParser::ParseTextChar(wchar_t character) { if (m_iIndexInBlock == m_BlockBuffer.GetAllocStep()) { std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); if (!m_pCurrentBlock) return; } m_pCurrentBlock[m_iIndexInBlock++] = character; m_BlockBuffer.IncrementDataLength(); if (m_iEntityStart > -1 && character == L';') { WideString csEntity = m_BlockBuffer.GetTextData( m_iEntityStart + 1, m_BlockBuffer.GetDataLength() - 1 - m_iEntityStart - 1); int32_t iLen = csEntity.GetLength(); if (iLen > 0) { if (csEntity[0] == L'#') { uint32_t ch = 0; wchar_t w; if (iLen > 1 && csEntity[1] == L'x') { for (int32_t i = 2; i < iLen; i++) { w = csEntity[i]; if (std::iswdigit(w)) ch = (ch << 4) + w - L'0'; else if (w >= L'A' && w <= L'F') ch = (ch << 4) + w - 55; else if (w >= L'a' && w <= L'f') ch = (ch << 4) + w - 87; else break; } } else { for (int32_t i = 1; i < iLen; i++) { w = csEntity[i]; if (!std::iswdigit(w)) break; ch = ch * 10 + w - L'0'; } } if (ch > kMaxCharRange) ch = ' '; character = static_cast(ch); if (character != 0) { m_BlockBuffer.SetTextChar(m_iEntityStart, character); m_iEntityStart++; } } else { if (csEntity.Compare(L"amp") == 0) { m_BlockBuffer.SetTextChar(m_iEntityStart, L'&'); m_iEntityStart++; } else if (csEntity.Compare(L"lt") == 0) { m_BlockBuffer.SetTextChar(m_iEntityStart, L'<'); m_iEntityStart++; } else if (csEntity.Compare(L"gt") == 0) { m_BlockBuffer.SetTextChar(m_iEntityStart, L'>'); m_iEntityStart++; } else if (csEntity.Compare(L"apos") == 0) { m_BlockBuffer.SetTextChar(m_iEntityStart, L'\''); m_iEntityStart++; } else if (csEntity.Compare(L"quot") == 0) { m_BlockBuffer.SetTextChar(m_iEntityStart, L'\"'); m_iEntityStart++; } } } if (m_iEntityStart >= 0 && m_BlockBuffer.GetDataLength() > static_cast(m_iEntityStart)) { m_BlockBuffer.DeleteTextChars(m_BlockBuffer.GetDataLength() - m_iEntityStart); } std::tie(m_pCurrentBlock, m_iIndexInBlock) = m_BlockBuffer.GetAvailableBlock(); m_iEntityStart = -1; } else if (m_iEntityStart < 0 && character == L'&') { m_iEntityStart = m_BlockBuffer.GetDataLength() - 1; } m_Start++; }