/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star; const sal_Int32 MAX_LEN( 1024 ); const sal_Int32 MAX_ENTITY_LEN( 8 ); // Tables to convert option values into strings // static HTMLOptionEnum const aInputTypeOptEnums[] = { { OOO_STRING_SVTOOLS_HTML_IT_text, HTMLInputType::Text }, { OOO_STRING_SVTOOLS_HTML_IT_password, HTMLInputType::Password }, { OOO_STRING_SVTOOLS_HTML_IT_checkbox, HTMLInputType::Checkbox }, { OOO_STRING_SVTOOLS_HTML_IT_radio, HTMLInputType::Radio }, { OOO_STRING_SVTOOLS_HTML_IT_range, HTMLInputType::Range }, { OOO_STRING_SVTOOLS_HTML_IT_scribble, HTMLInputType::Scribble }, { OOO_STRING_SVTOOLS_HTML_IT_file, HTMLInputType::File }, { OOO_STRING_SVTOOLS_HTML_IT_hidden, HTMLInputType::Hidden }, { OOO_STRING_SVTOOLS_HTML_IT_submit, HTMLInputType::Submit }, { OOO_STRING_SVTOOLS_HTML_IT_image, HTMLInputType::Image }, { OOO_STRING_SVTOOLS_HTML_IT_reset, HTMLInputType::Reset }, { OOO_STRING_SVTOOLS_HTML_IT_button, HTMLInputType::Button }, { nullptr, HTMLInputType(0) } }; // static HTMLOptionEnum const aTableFrameOptEnums[] = { { OOO_STRING_SVTOOLS_HTML_TF_void, HTMLTableFrame::Void }, { OOO_STRING_SVTOOLS_HTML_TF_above, HTMLTableFrame::Above }, { OOO_STRING_SVTOOLS_HTML_TF_below, HTMLTableFrame::Below }, { OOO_STRING_SVTOOLS_HTML_TF_hsides, HTMLTableFrame::HSides }, { OOO_STRING_SVTOOLS_HTML_TF_lhs, HTMLTableFrame::LHS }, { OOO_STRING_SVTOOLS_HTML_TF_rhs, HTMLTableFrame::RHS }, { OOO_STRING_SVTOOLS_HTML_TF_vsides, HTMLTableFrame::VSides }, { OOO_STRING_SVTOOLS_HTML_TF_box, HTMLTableFrame::Box }, { OOO_STRING_SVTOOLS_HTML_TF_border, HTMLTableFrame::Box }, { nullptr, HTMLTableFrame(0) } }; //
static HTMLOptionEnum const aTableRulesOptEnums[] = { { OOO_STRING_SVTOOLS_HTML_TR_none, HTMLTableRules::NONE }, { OOO_STRING_SVTOOLS_HTML_TR_groups, HTMLTableRules::Groups }, { OOO_STRING_SVTOOLS_HTML_TR_rows, HTMLTableRules::Rows }, { OOO_STRING_SVTOOLS_HTML_TR_cols, HTMLTableRules::Cols }, { OOO_STRING_SVTOOLS_HTML_TR_all, HTMLTableRules::All }, { nullptr, HTMLTableRules(0) } }; HTMLOption::HTMLOption( HtmlOptionId nTok, const OUString& rToken, const OUString& rValue ) : aValue(rValue) , aToken(rToken) , nToken( nTok ) { DBG_ASSERT( nToken>=HtmlOptionId::BOOL_START && nToken=HtmlOptionId::NUMBER_START && nToken=HtmlOptionId::CONTEXT_START && nToken= 0 ? static_cast(nTmp) : 0; } sal_Int32 HTMLOption::GetSNumber() const { DBG_ASSERT( (nToken>=HtmlOptionId::NUMBER_START && nToken=HtmlOptionId::CONTEXT_START && nToken &rNumbers ) const { rNumbers.clear(); // This is a very simplified scanner: it only searches all // numerals in the string. bool bInNum = false; sal_uLong nNum = 0; for( sal_Int32 i=0; i='0' && c<='9' ) { nNum *= 10; nNum += (c - '0'); bInNum = true; } else if( bInNum ) { rNumbers.push_back( nNum ); bInNum = false; nNum = 0; } } if( bInNum ) { rNumbers.push_back( nNum ); } } void HTMLOption::GetColor( Color& rColor ) const { DBG_ASSERT( (nToken>=HtmlOptionId::COLOR_START && nToken= '0' && c <= '9' ) nColor += (c - '0'); else if( c >= 'a' && c <= 'f' ) nColor += (c + 0xa - 'a'); } } rColor.SetRed( static_cast((nColor & 0x00ff0000) >> 16) ); rColor.SetGreen( static_cast((nColor & 0x0000ff00) >> 8)); rColor.SetBlue( static_cast(nColor & 0x000000ff) ); } HTMLInputType HTMLOption::GetInputType() const { DBG_ASSERT( nToken==HtmlOptionId::TYPE, "GetInputType: Option not TYPE" ); return GetEnum( aInputTypeOptEnums, HTMLInputType::Text ); } HTMLTableFrame HTMLOption::GetTableFrame() const { DBG_ASSERT( nToken==HtmlOptionId::FRAME, "GetTableFrame: Option not FRAME" ); return GetEnum( aTableFrameOptEnums ); } HTMLTableRules HTMLOption::GetTableRules() const { DBG_ASSERT( nToken==HtmlOptionId::RULES, "GetTableRules: Option not RULES" ); return GetEnum( aTableRulesOptEnums ); } HTMLParser::HTMLParser( SvStream& rIn, bool bReadNewDoc ) : SvParser( rIn ), bNewDoc(bReadNewDoc), bIsInHeader(true), bReadListing(false), bReadXMP(false), bReadPRE(false), bReadTextArea(false), bReadScript(false), bReadStyle(false), bEndTokenFound(false), bPre_IgnoreNewPara(false), bReadNextChar(false), bReadComment(false), nPre_LinePos(0), mnPendingOffToken(HtmlTokenId::NONE) { //#i76649, default to UTF-8 for HTML unless we know differently SetSrcEncoding(RTL_TEXTENCODING_UTF8); } HTMLParser::~HTMLParser() { } void HTMLParser::SetNamespace(const OUString& rNamespace) { // Convert namespace alias to a prefix. maNamespace = rNamespace + ":"; } namespace { class RefGuard { private: HTMLParser& m_rParser; public: RefGuard(HTMLParser& rParser) : m_rParser(rParser) { m_rParser.AddFirstRef(); } ~RefGuard() { if (m_rParser.GetStatus() != SvParserState::Pending) m_rParser.ReleaseRef(); // Parser not needed anymore } }; } SvParserState HTMLParser::CallParser() { eState = SvParserState::Working; nNextCh = GetNextChar(); SaveState( HtmlTokenId::NONE ); nPre_LinePos = 0; bPre_IgnoreNewPara = false; RefGuard aRefGuard(*this); Continue( HtmlTokenId::NONE ); return eState; } void HTMLParser::Continue( HtmlTokenId nToken ) { if( nToken == HtmlTokenId::NONE ) nToken = GetNextToken(); while( IsParserWorking() ) { SaveState( nToken ); nToken = FilterToken( nToken ); if( nToken != HtmlTokenId::NONE ) NextToken( nToken ); if( IsParserWorking() ) SaveState( HtmlTokenId::NONE ); // continue with new token nToken = GetNextToken(); } } HtmlTokenId HTMLParser::FilterToken( HtmlTokenId nToken ) { switch( nToken ) { case HtmlTokenId(EOF): nToken = HtmlTokenId::NONE; break; // don't pass case HtmlTokenId::HEAD_OFF: bIsInHeader = false; break; case HtmlTokenId::HEAD_ON: bIsInHeader = true; break; case HtmlTokenId::BODY_ON: bIsInHeader = false; break; case HtmlTokenId::FRAMESET_ON: bIsInHeader = false; break; case HtmlTokenId::BODY_OFF: bReadPRE = bReadListing = bReadXMP = false; break; case HtmlTokenId::HTML_OFF: nToken = HtmlTokenId::NONE; bReadPRE = bReadListing = bReadXMP = false; break; // HtmlTokenId::ON hasn't been passed either ! case HtmlTokenId::PREFORMTXT_ON: StartPRE(); break; case HtmlTokenId::PREFORMTXT_OFF: FinishPRE(); break; case HtmlTokenId::LISTING_ON: StartListing(); break; case HtmlTokenId::LISTING_OFF: FinishListing(); break; case HtmlTokenId::XMP_ON: StartXMP(); break; case HtmlTokenId::XMP_OFF: FinishXMP(); break; default: if( bReadPRE ) nToken = FilterPRE( nToken ); else if( bReadListing ) nToken = FilterListing( nToken ); else if( bReadXMP ) nToken = FilterXMP( nToken ); break; } return nToken; } namespace { constexpr bool HTML_ISPRINTABLE(sal_Unicode c) { return c >= 32 && c != 127; } } HtmlTokenId HTMLParser::ScanText( const sal_Unicode cBreak ) { OUStringBuffer sTmpBuffer( MAX_LEN ); bool bContinue = true; bool bEqSignFound = false; sal_uInt32 cQuote = 0U; while( bContinue && IsParserWorking() ) { bool bNextCh = true; switch( nNextCh ) { case '&': bEqSignFound = false; if( bReadXMP ) sTmpBuffer.append( '&' ); else { sal_uInt64 nStreamPos = rInput.Tell(); sal_uLong nLinePos = GetLinePos(); sal_uInt32 cChar = 0U; if( '#' == (nNextCh = GetNextChar()) ) { nNextCh = GetNextChar(); const bool bIsHex( 'x' == nNextCh ); const bool bIsDecOrHex( bIsHex || rtl::isAsciiDigit(nNextCh) ); if ( bIsDecOrHex ) { if ( bIsHex ) { nNextCh = GetNextChar(); while ( rtl::isAsciiHexDigit(nNextCh) ) { cChar = cChar * 16U + ( nNextCh <= '9' ? sal_uInt32( nNextCh - '0' ) : ( nNextCh <= 'F' ? sal_uInt32( nNextCh - 'A' + 10 ) : sal_uInt32( nNextCh - 'a' + 10 ) ) ); nNextCh = GetNextChar(); } } else { do { cChar = cChar * 10U + sal_uInt32( nNextCh - '0'); nNextCh = GetNextChar(); } while( rtl::isAsciiDigit(nNextCh) ); } if( RTL_TEXTENCODING_DONTKNOW != eSrcEnc && RTL_TEXTENCODING_UCS2 != eSrcEnc && RTL_TEXTENCODING_UTF8 != eSrcEnc && cChar < 256 ) { const sal_uInt32 convertFlags = RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_DEFAULT | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_DEFAULT | RTL_TEXTTOUNICODE_FLAGS_INVALID_DEFAULT; char cEncodedChar = static_cast(cChar); cChar = OUString(&cEncodedChar, 1, eSrcEnc, convertFlags).toChar(); if( 0U == cChar ) { // If the character could not be // converted, because a conversion is not // available, do no conversion at all. cChar = cEncodedChar; } } } else nNextCh = 0U; if (!rtl::isUnicodeCodePoint(cChar) || (linguistic::IsControlChar(cChar) && cChar != '\r' && cChar != '\n' && cChar != '\t')) { cChar = '?'; } } else if( rtl::isAsciiAlpha( nNextCh ) ) { OUStringBuffer sEntityBuffer( MAX_ENTITY_LEN ); sal_Int32 nPos = 0; do { sEntityBuffer.appendUtf32( nNextCh ); nPos++; nNextCh = GetNextChar(); } while( nPos < MAX_ENTITY_LEN && rtl::isAsciiAlphanumeric( nNextCh ) && !rInput.eof() ); if( IsParserWorking() && !rInput.eof() ) { OUString sEntity(sEntityBuffer.getStr(), nPos); cChar = GetHTMLCharName( sEntity ); // not found ( == 0 ): plain text // or a character which is inserted as attribute if( 0U == cChar && ';' != nNextCh ) { DBG_ASSERT( rInput.Tell() - nStreamPos == static_cast(nPos+1)*GetCharSize(), "UTF-8 is failing here" ); for( sal_Int32 i = nPos-1; i>1; i-- ) { nNextCh = sEntityBuffer[i]; sEntityBuffer.setLength( i ); sEntity = OUString(sEntityBuffer.getStr(), i); cChar = GetHTMLCharName( sEntity ); if( cChar ) { rInput.SeekRel( -static_cast (nPos-i)*GetCharSize() ); nlLinePos -= sal_uInt32(nPos-i); nPos = i; ClearTxtConvContext(); break; } } } if( !cChar ) // unknown character? { // back in stream, insert '&' // and restart with next character sTmpBuffer.append( '&' ); DBG_ASSERT( rInput.Tell()-nStreamPos == static_cast(nPos+1)*GetCharSize(), "Wrong stream position" ); DBG_ASSERT( nlLinePos-nLinePos == static_cast(nPos+1), "Wrong line position" ); rInput.Seek( nStreamPos ); nlLinePos = nLinePos; ClearTxtConvContext(); break; } assert(cChar != 0); // 1 == Non Breaking Space // 2 == SoftHyphen if (cChar == 1 || cChar == 2) { if( '>' == cBreak ) { // When reading the content of a tag we have // to change it to ' ' or '-' if( 1U == cChar ) cChar = ' '; else //2U cChar = '-'; } else { // If not scanning a tag return token aToken += sTmpBuffer; sTmpBuffer.setLength(0); if( !aToken.isEmpty() ) { // restart with character nNextCh = '&'; DBG_ASSERT( rInput.Tell()-nStreamPos == static_cast(nPos+1)*GetCharSize(), "Wrong stream position" ); DBG_ASSERT( nlLinePos-nLinePos == static_cast(nPos+1), "Wrong line position" ); rInput.Seek( nStreamPos ); nlLinePos = nLinePos; ClearTxtConvContext(); return HtmlTokenId::TEXTTOKEN; } // Hack: _GetNextChar shall not read the // next character if( ';' != nNextCh ) aToken += " "; if( 1U == cChar ) return HtmlTokenId::NONBREAKSPACE; else //2U return HtmlTokenId::SOFTHYPH; } } } else nNextCh = 0U; } // &{...};-JavaScript-Macros are not supported any longer. else if( IsParserWorking() ) { sTmpBuffer.append( '&' ); bNextCh = false; break; } bNextCh = (';' == nNextCh); if( cBreak=='>' && (cChar=='\\' || cChar=='\'' || cChar=='\"' || cChar==' ') ) { // ' and " have to be escaped within tags to separate // them from ' and " enclosing options. // \ has to be escaped as well. // Space is protected because it's not a delimiter between // options. sTmpBuffer.append( '\\' ); } if( IsParserWorking() ) { if( cChar ) sTmpBuffer.appendUtf32( cChar ); } else if( SvParserState::Pending==eState && '>'!=cBreak ) { // Restart with '&', the remainder is returned as // text token. if( !aToken.isEmpty() || !sTmpBuffer.isEmpty() ) { // _GetNextChar() returns the previous text and // during the next execution a new character is read. // Thus we have to position in front of the '&'. nNextCh = 0U; rInput.Seek( nStreamPos - GetCharSize() ); nlLinePos = nLinePos-1; ClearTxtConvContext(); bReadNextChar = true; } bNextCh = false; } } break; case '=': if( '>'==cBreak && !cQuote ) bEqSignFound = true; sTmpBuffer.appendUtf32( nNextCh ); break; case '\\': if( '>'==cBreak ) { // mark within tags sTmpBuffer.append( '\\' ); } sTmpBuffer.append( '\\' ); break; case '\"': case '\'': if( '>'==cBreak ) { if( bEqSignFound ) cQuote = nNextCh; else if( cQuote && (cQuote==nNextCh ) ) cQuote = 0U; } sTmpBuffer.appendUtf32( nNextCh ); bEqSignFound = false; break; case sal_Unicode(EOF): if( rInput.eof() ) { bContinue = false; } else { sTmpBuffer.appendUtf32( nNextCh ); } break; case '<': bEqSignFound = false; if( '>'==cBreak ) sTmpBuffer.appendUtf32( nNextCh ); else bContinue = false; // break, string is together break; case '\f': if( '>' == cBreak ) { // If scanning options treat it like a space, ... sTmpBuffer.append( ' ' ); } else { // otherwise it's a separate token. bContinue = false; } break; case '\r': case '\n': if( '>'==cBreak ) { // cr/lf in tag is handled in GetNextToken_() sTmpBuffer.appendUtf32( nNextCh ); break; } else if( bReadListing || bReadXMP || bReadPRE || bReadTextArea ) { bContinue = false; break; } // Reduce sequence of CR/LF/BLANK/TAB to a single blank [[fallthrough]]; case '\t': if( '\t'==nNextCh && bReadPRE && '>'!=cBreak ) { // Pass Tabs up in
                bContinue = false;
                break;
            }
            [[fallthrough]];
        case '\x0b':
            if( '\x0b'==nNextCh && (bReadPRE || bReadXMP ||bReadListing) &&
                '>'!=cBreak )
            {
                break;
            }
            nNextCh = ' ';
            [[fallthrough]];
        case ' ':
            sTmpBuffer.appendUtf32( nNextCh );
            if( '>'!=cBreak && (!bReadListing && !bReadXMP &&
                                !bReadPRE && !bReadTextArea) )
            {
                // Reduce sequences of Blanks/Tabs/CR/LF to a single blank
                do {
                    nNextCh = GetNextChar();
                    if( sal_Unicode(EOF) == nNextCh && rInput.eof() )
                    {
                        if( !aToken.isEmpty() || sTmpBuffer.getLength() > 1 )
                        {
                            // Have seen s.th. aside from blanks?
                            aToken += sTmpBuffer;
                            sTmpBuffer.setLength(0);
                            return HtmlTokenId::TEXTTOKEN;
                        }
                        else
                            // Only read blanks: no text must be returned
                            // and GetNextToken_ has to read until EOF
                            return HtmlTokenId::NONE;
                    }
                } while ( ' ' == nNextCh || '\t' == nNextCh ||
                          '\r' == nNextCh || '\n' == nNextCh ||
                          '\x0b' == nNextCh );
                bNextCh = false;
            }
            break;

        default:
            bEqSignFound = false;
            if (nNextCh == cBreak && !cQuote)
                bContinue = false;
            else
            {
                do {
                    if (!linguistic::IsControlChar(nNextCh))
                    {
                    // All remaining characters make their way into the text.
                        sTmpBuffer.appendUtf32( nNextCh );
                    }

                    nNextCh = GetNextChar();
                    if( ( sal_Unicode(EOF) == nNextCh && rInput.eof() ) ||
                        !IsParserWorking() )
                    {
                        if( !sTmpBuffer.isEmpty() )
                            aToken += sTmpBuffer;
                        return HtmlTokenId::TEXTTOKEN;
                    }
                } while( rtl::isAsciiAlpha( nNextCh ) || rtl::isAsciiDigit( nNextCh ) );
                bNextCh = false;
            }
        }

        if( bContinue && bNextCh )
            nNextCh = GetNextChar();
    }

    if( !sTmpBuffer.isEmpty() )
        aToken += sTmpBuffer;

    return HtmlTokenId::TEXTTOKEN;
}

HtmlTokenId HTMLParser::GetNextRawToken()
{
    OUStringBuffer sTmpBuffer( MAX_LEN );

    if( bEndTokenFound )
    {
        // During the last execution we already found the end token,
        // thus we don't have to search it again.
        bReadScript = false;
        bReadStyle = false;
        aEndToken.clear();
        bEndTokenFound = false;

        return HtmlTokenId::NONE;
    }

    // Default return value: HtmlTokenId::RAWDATA
    bool bContinue = true;
    HtmlTokenId nToken = HtmlTokenId::RAWDATA;
    SaveState( HtmlTokenId::NONE );
    while( bContinue && IsParserWorking() )
    {
        bool bNextCh = true;
        switch( nNextCh )
        {
        case '<':
            {
                // Maybe we've reached the end.

                // Save what we have read previously...
                aToken += sTmpBuffer;
                sTmpBuffer.setLength(0);

                // and remember position in stream.
                sal_uInt64 nStreamPos = rInput.Tell();
                sal_uLong nLineNr = GetLineNr();
                sal_uLong nLinePos = GetLinePos();

                // Start of an end token?
                bool bOffState = false;
                if( '/' == (nNextCh = GetNextChar()) )
                {
                    bOffState = true;
                    nNextCh = GetNextChar();
                }
                else if( '!' == nNextCh )
                {
                    sTmpBuffer.appendUtf32( nNextCh );
                    nNextCh = GetNextChar();
                }

                // Read following letters
                while( (rtl::isAsciiAlpha(nNextCh) || '-'==nNextCh) &&
                       IsParserWorking() && sTmpBuffer.getLength() < MAX_LEN )
                {
                    sTmpBuffer.appendUtf32( nNextCh );
                    nNextCh = GetNextChar();
                }

                OUString aTok( sTmpBuffer.toString() );
                aTok = aTok.toAsciiLowerCase();
                bool bDone = false;
                if( bReadScript || !aEndToken.isEmpty() )
                {
                    if( !bReadComment )
                    {
                        if( aTok.startsWith( OOO_STRING_SVTOOLS_HTML_comment ) )
                        {
                            bReadComment = true;
                        }
                        else
                        {
                            // A script has to end with "". But
                            // ">" is optional for security reasons
                            bDone = bOffState &&
                            ( bReadScript
                                ? aTok == OOO_STRING_SVTOOLS_HTML_script
                                : aTok == aEndToken );
                        }
                    }
                    if( bReadComment && '>'==nNextCh && aTok.endsWith( "--" ) )
                    {
                        // End of comment of style 
                        bReadComment = false;
                    }
                }
                else
                {
                    // Style sheets can be closed by ,  or 
                    if( bOffState )
                        bDone = aTok == OOO_STRING_SVTOOLS_HTML_style ||
                                aTok == OOO_STRING_SVTOOLS_HTML_head;
                    else
                        bDone = aTok == OOO_STRING_SVTOOLS_HTML_body;
                }

                if( bDone )
                {
                    // Done! Return the previously read string (if requested)
                    // and continue.

                    bContinue = false;

                    // nToken==0 means, GetNextToken_ continues to read
                    if( aToken.isEmpty() && (bReadStyle || bReadScript) )
                    {
                        // Immediately close environment (or context?)
                        // and parse the end token
                        bReadScript = false;
                        bReadStyle = false;
                        aEndToken.clear();
                        nToken = HtmlTokenId::NONE;
                    }
                    else
                    {
                        // Keep bReadScript/bReadStyle alive
                        // and parse end token during next execution
                        bEndTokenFound = true;
                    }

                    // Move backwards in stream to '<'
                    rInput.Seek( nStreamPos );
                    SetLineNr( nLineNr );
                    SetLinePos( nLinePos );
                    ClearTxtConvContext();
                    nNextCh = '<';

                    // Don't append string to token.
                    sTmpBuffer.setLength( 0 );
                }
                else
                {
                    // remember "' == nNextCh && IsParserWorking() && bTwoMinus )
                    bReadComment = false;

                bNextCh = false;
            }
            break;

        case '\r':
            // \r\n? closes the current text token (even if it's empty)
            nNextCh = GetNextChar();
            if( nNextCh=='\n' )
                nNextCh = GetNextChar();
            bContinue = false;
            break;
        case '\n':
            // \n closes the current text token (even if it's empty)
            nNextCh = GetNextChar();
            bContinue = false;
            break;
        case sal_Unicode(EOF):
            // eof closes the current text token and behaves like having read
            // an end token
            if( rInput.eof() )
            {
                bContinue = false;
                if( !aToken.isEmpty() || !sTmpBuffer.isEmpty() )
                {
                    bEndTokenFound = true;
                }
                else
                {
                    bReadScript = false;
                    bReadStyle = false;
                    aEndToken.clear();
                    nToken = HtmlTokenId::NONE;
                }
                break;
            }
            [[fallthrough]];
        default:
            if (!linguistic::IsControlChar(nNextCh) || nNextCh == '\t')
            {
                // all remaining characters are appended to the buffer
                sTmpBuffer.appendUtf32( nNextCh );
            }
            break;
        }

        if( !bContinue && !sTmpBuffer.isEmpty() )
        {
            aToken += sTmpBuffer;
            sTmpBuffer.setLength(0);
        }

        if( bContinue && bNextCh )
            nNextCh = GetNextChar();
    }

    if( IsParserWorking() )
        SaveState( HtmlTokenId::NONE );
    else
        nToken = HtmlTokenId::NONE;

    return nToken;
}

// Scan next token
HtmlTokenId HTMLParser::GetNextToken_()
{
    HtmlTokenId nRet = HtmlTokenId::NONE;
    sSaveToken.clear();

    if (mnPendingOffToken != HtmlTokenId::NONE)
    {
        // HtmlTokenId::_OFF generated for HtmlTokenId::_ON
        nRet = mnPendingOffToken;
        mnPendingOffToken = HtmlTokenId::NONE;
        aToken.clear();
        return nRet;
    }

    // Delete options
    maOptions.clear();

    if( !IsParserWorking() )        // Don't continue if already an error occurred
        return HtmlTokenId::NONE;

    bool bReadNextCharSave = bReadNextChar;
    if( bReadNextChar )
    {
        DBG_ASSERT( !bEndTokenFound,
                    "Read a character despite  was read?" );
        nNextCh = GetNextChar();
        if( !IsParserWorking() )        // Don't continue if already an error occurred
            return HtmlTokenId::NONE;
        bReadNextChar = false;
    }

    if( bReadScript || bReadStyle || !aEndToken.isEmpty() )
    {
        nRet = GetNextRawToken();
        if( nRet != HtmlTokenId::NONE || !IsParserWorking() )
            return nRet;
    }

    do {
        bool bNextCh = true;
        switch( nNextCh )
        {
        case '<':
            {
                sal_uInt64 nStreamPos = rInput.Tell();
                sal_uLong nLineNr = GetLineNr();
                sal_uLong nLinePos = GetLinePos();

                bool bOffState = false;
                if( '/' == (nNextCh = GetNextChar()) )
                {
                    bOffState = true;
                    nNextCh = GetNextChar();
                }
                // Assume '' != nNextCh && '/' != nNextCh && !rtl::isAsciiWhiteSpace( nNextCh ) &&
                             IsParserWorking() && !rInput.eof() );

                    if( !sTmpBuffer.isEmpty() )
                    {
                        aToken += sTmpBuffer;
                        sTmpBuffer.setLength(0);
                    }

                    // Skip blanks
                    while( rtl::isAsciiWhiteSpace( nNextCh ) && IsParserWorking() )
                        nNextCh = GetNextChar();

                    if( !IsParserWorking() )
                    {
                        if( SvParserState::Pending == eState )
                            bReadNextChar = bReadNextCharSave;
                        break;
                    }

                    // Search token in table:
                    sSaveToken = aToken;
                    aToken = aToken.toAsciiLowerCase();

                    if (!maNamespace.isEmpty() && aToken.startsWith(maNamespace))
                        aToken = aToken.copy(maNamespace.getLength());

                    if( HtmlTokenId::NONE == (nRet = GetHTMLToken( aToken )) )
                        // Unknown control
                        nRet = HtmlTokenId::UNKNOWNCONTROL_ON;

                    // If it's a token which can be switched off...
                    if( bOffState )
                    {
                         if( nRet >= HtmlTokenId::ONOFF_START )
                         {
                            // and there is an off token, return off token instead
                            nRet = static_cast(static_cast(nRet) + 1);
                         }
                         else if( HtmlTokenId::LINEBREAK!=nRet || !maNamespace.isEmpty())
                         {
                            // and there is no off token, return unknown token.
                            // (except for 
, that is treated like
) // No exception for XHTML, though. nRet = HtmlTokenId::UNKNOWNCONTROL_OFF; } } if( nRet == HtmlTokenId::COMMENT ) { // fix: due to being case sensitive use sSaveToken as start of comment // and append a blank. aToken = sSaveToken; if( '>'!=nNextCh ) aToken += " "; sal_uInt64 nCStreamPos = 0; sal_uLong nCLineNr = 0; sal_uLong nCLinePos = 0; sal_Int32 nCStrLen = 0; bool bDone = false; // Read until closing -->. If not found restart at first > sTmpBuffer = aToken; while( !bDone && !rInput.eof() && IsParserWorking() ) { if( '>'==nNextCh ) { if( !nCStreamPos ) { nCStreamPos = rInput.Tell(); nCStrLen = sTmpBuffer.getLength(); nCLineNr = GetLineNr(); nCLinePos = GetLinePos(); } bDone = sTmpBuffer.getLength() >= 2 && sTmpBuffer[sTmpBuffer.getLength() - 2] == '-' && sTmpBuffer[sTmpBuffer.getLength() - 1] == '-'; if( !bDone ) sTmpBuffer.appendUtf32(nNextCh); } else sTmpBuffer.appendUtf32(nNextCh); if( !bDone ) nNextCh = GetNextChar(); } aToken = sTmpBuffer.makeStringAndClear(); if( !bDone && IsParserWorking() && nCStreamPos ) { rInput.Seek( nCStreamPos ); SetLineNr( nCLineNr ); SetLinePos( nCLinePos ); ClearTxtConvContext(); aToken = aToken.copy(0, nCStrLen); nNextCh = '>'; } } else { // TokenString not needed anymore aToken.clear(); } // Read until closing '>' if( '>' != nNextCh && IsParserWorking() ) { ScanText( '>' ); // fdo#34666 fdo#36080 fdo#36390: closing "/>"?: // generate pending HtmlTokenId::_OFF for HtmlTokenId::_ON // Do not convert this to a single HtmlTokenId::_OFF // which lead to fdo#56772. if ((nRet >= HtmlTokenId::ONOFF_START) && aToken.endsWith("/")) { mnPendingOffToken = static_cast(static_cast(nRet) + 1); // HtmlTokenId::_ON -> HtmlTokenId::_OFF aToken = aToken.replaceAt( aToken.getLength()-1, 1, ""); // remove trailing '/' } if( sal_Unicode(EOF) == nNextCh && rInput.eof() ) { // Move back in front of < and restart there. // Return < as text. rInput.Seek( nStreamPos ); SetLineNr( nLineNr ); SetLinePos( nLinePos ); ClearTxtConvContext(); aToken = "<"; nRet = HtmlTokenId::TEXTTOKEN; nNextCh = GetNextChar(); bNextCh = false; break; } } if( SvParserState::Pending == eState ) bReadNextChar = bReadNextCharSave; } else { if( bOffState ) { // simply throw away everything ScanText( '>' ); if( sal_Unicode(EOF) == nNextCh && rInput.eof() ) { // Move back in front of < and restart there. // Return < as text. rInput.Seek( nStreamPos ); SetLineNr( nLineNr ); SetLinePos( nLinePos ); ClearTxtConvContext(); aToken = "<"; nRet = HtmlTokenId::TEXTTOKEN; nNextCh = GetNextChar(); bNextCh = false; break; } if( SvParserState::Pending == eState ) bReadNextChar = bReadNextCharSave; aToken.clear(); } else if( '%' == nNextCh ) { nRet = HtmlTokenId::UNKNOWNCONTROL_ON; sal_uInt64 nCStreamPos = rInput.Tell(); sal_uLong nCLineNr = GetLineNr(), nCLinePos = GetLinePos(); bool bDone = false; // Read until closing %>. If not found restart at first >. sal_Unicode nLastTokenChar = !aToken.isEmpty() ? aToken[aToken.getLength() - 1] : 0; OUStringBuffer aTmpBuffer(aToken); while( !bDone && !rInput.eof() && IsParserWorking() ) { bDone = '>'==nNextCh && nLastTokenChar == '%'; if( !bDone ) { aTmpBuffer.appendUtf32(nNextCh); nLastTokenChar = aTmpBuffer[aTmpBuffer.getLength() - 1]; nNextCh = GetNextChar(); } } if( !bDone && IsParserWorking() ) { rInput.Seek( nCStreamPos ); SetLineNr( nCLineNr ); SetLinePos( nCLinePos ); ClearTxtConvContext(); aToken = "<%"; nRet = HtmlTokenId::TEXTTOKEN; break; } aToken = aTmpBuffer.makeStringAndClear(); if( IsParserWorking() ) { sSaveToken = aToken; aToken.clear(); } } else { aToken = "<"; nRet = HtmlTokenId::TEXTTOKEN; bNextCh = false; break; } } if( IsParserWorking() ) { bNextCh = '>' == nNextCh; switch( nRet ) { case HtmlTokenId::TEXTAREA_ON: bReadTextArea = true; break; case HtmlTokenId::TEXTAREA_OFF: bReadTextArea = false; break; case HtmlTokenId::SCRIPT_ON: if( !bReadTextArea ) bReadScript = true; break; case HtmlTokenId::SCRIPT_OFF: if( !bReadTextArea ) { bReadScript = false; // JavaScript might modify the stream, // thus the last character has to be read again. bReadNextChar = true; bNextCh = false; } break; case HtmlTokenId::STYLE_ON: bReadStyle = true; break; case HtmlTokenId::STYLE_OFF: bReadStyle = false; break; default: break; } } } break; case sal_Unicode(EOF): if( rInput.eof() ) { eState = SvParserState::Accepted; nRet = HtmlTokenId(nNextCh); } else { // Read normal text. goto scan_text; } break; case '\f': // form feeds are passed upwards separately nRet = HtmlTokenId::LINEFEEDCHAR; // !!! should be FORMFEEDCHAR break; case '\n': case '\r': if( bReadListing || bReadXMP || bReadPRE || bReadTextArea ) { sal_Unicode c = GetNextChar(); if( ( '\n' != nNextCh || '\r' != c ) && ( '\r' != nNextCh || '\n' != c ) ) { bNextCh = false; nNextCh = c; } nRet = HtmlTokenId::NEWPARA; break; } [[fallthrough]]; case '\t': if( bReadPRE ) { nRet = HtmlTokenId::TABCHAR; break; } [[fallthrough]]; case ' ': [[fallthrough]]; default: scan_text: // "normal" text to come nRet = ScanText(); bNextCh = 0 == aToken.getLength(); // the text should be processed if( !bNextCh && eState == SvParserState::Pending ) { eState = SvParserState::Working; bReadNextChar = true; } break; } if( bNextCh && SvParserState::Working == eState ) { nNextCh = GetNextChar(); if( SvParserState::Pending == eState && nRet != HtmlTokenId::NONE && HtmlTokenId::TEXTTOKEN != nRet ) { bReadNextChar = true; eState = SvParserState::Working; } } } while( nRet == HtmlTokenId::NONE && SvParserState::Working == eState ); if( SvParserState::Pending == eState ) nRet = HtmlTokenId::INVALID; // s.th. invalid return nRet; } void HTMLParser::UnescapeToken() { sal_Int32 nPos=0; bool bEscape = false; while( nPos < aToken.getLength() ) { bool bOldEscape = bEscape; bEscape = false; if( '\\'==aToken[nPos] && !bOldEscape ) { aToken = aToken.replaceAt( nPos, 1, "" ); bEscape = true; } else { nPos++; } } } const HTMLOptions& HTMLParser::GetOptions( HtmlOptionId const *pNoConvertToken ) { // If the options for the current token have already been returned, // return them once again. if (!maOptions.empty()) return maOptions; sal_Int32 nPos = 0; while( nPos < aToken.getLength() ) { // A letter? Option beginning here. if( rtl::isAsciiAlpha( aToken[nPos] ) ) { HtmlOptionId nToken; OUString aValue; sal_Int32 nStt = nPos; sal_Unicode cChar = 0; // Actually only certain characters allowed. // Netscape only looks for "=" and white space (c.f. // Mozilla: PA_FetchRequestedNameValues in libparse/pa_mdl.c) while( nPos < aToken.getLength() ) { cChar = aToken[nPos]; if ( '=' == cChar ||!HTML_ISPRINTABLE(cChar) || rtl::isAsciiWhiteSpace(cChar) ) break; nPos++; } OUString sName( aToken.copy( nStt, nPos-nStt ) ); // PlugIns require original token name. Convert to lower case only for searching. nToken = GetHTMLOption( sName.toAsciiLowerCase() ); // Name is ready SAL_WARN_IF( nToken==HtmlOptionId::UNKNOWN, "svtools", "GetOption: unknown HTML option '" << sName << "'" ); bool bStripCRLF = (nToken < HtmlOptionId::SCRIPT_START || nToken >= HtmlOptionId::SCRIPT_END) && (!pNoConvertToken || nToken != *pNoConvertToken); while( nPos < aToken.getLength() ) { cChar = aToken[nPos]; if ( HTML_ISPRINTABLE(cChar) && !rtl::isAsciiWhiteSpace(cChar) ) break; nPos++; } // Option with value? if( nPos!=aToken.getLength() && '='==cChar ) { nPos++; while( nPos < aToken.getLength() ) { cChar = aToken[nPos]; if ( HTML_ISPRINTABLE(cChar) && ' ' != cChar && '\t' != cChar && '\r' != cChar && '\n' != cChar ) break; nPos++; } if( nPos != aToken.getLength() ) { sal_Int32 nLen = 0; nStt = nPos; if( ('"'==cChar) || '\''==cChar ) { sal_Unicode cEnd = cChar; nPos++; nStt++; bool bDone = false; bool bEscape = false; while( nPos < aToken.getLength() && !bDone ) { bool bOldEscape = bEscape; bEscape = false; cChar = aToken[nPos]; switch( cChar ) { case '\r': case '\n': if( bStripCRLF ) aToken = aToken.replaceAt( nPos, 1, "" ); else { nPos++; nLen++; } break; case '\\': if( bOldEscape ) { nPos++; nLen++; } else { aToken = aToken.replaceAt( nPos, 1, "" ); bEscape = true; } break; case '"': case '\'': bDone = !bOldEscape && cChar==cEnd; if( !bDone ) { nPos++; nLen++; } break; default: nPos++; nLen++; break; } } if( nPos!=aToken.getLength() ) nPos++; } else { // More liberal than the standard: allow all printable characters bool bEscape = false; bool bDone = false; while( nPos < aToken.getLength() && !bDone ) { bool bOldEscape = bEscape; bEscape = false; sal_Unicode c = aToken[nPos]; switch( c ) { case ' ': bDone = !bOldEscape; if( !bDone ) { nPos++; nLen++; } break; case '\t': case '\r': case '\n': bDone = true; break; case '\\': if( bOldEscape ) { nPos++; nLen++; } else { aToken = aToken.replaceAt( nPos, 1, "" ); bEscape = true; } break; default: if( HTML_ISPRINTABLE( c ) ) { nPos++; nLen++; } else bDone = true; break; } } } if( nLen ) aValue = aToken.copy( nStt, nLen ); } } // Token is known and can be saved maOptions.emplace_back(nToken, sName, aValue); } else // Ignore white space and unexpected characters nPos++; } return maOptions; } HtmlTokenId HTMLParser::FilterPRE( HtmlTokenId nToken ) { switch( nToken ) { // in Netscape they only have impact in not empty paragraphs case HtmlTokenId::PARABREAK_ON: nToken = HtmlTokenId::LINEBREAK; [[fallthrough]]; case HtmlTokenId::LINEBREAK: case HtmlTokenId::NEWPARA: nPre_LinePos = 0; if( bPre_IgnoreNewPara ) nToken = HtmlTokenId::NONE; break; case HtmlTokenId::TABCHAR: { sal_Int32 nSpaces = 8 - (nPre_LinePos % 8); DBG_ASSERT( aToken.isEmpty(), "Why is the token not empty?" ); if (aToken.getLength() < nSpaces) { using comphelper::string::padToLength; OUStringBuffer aBuf(aToken); aToken = padToLength(aBuf, nSpaces, ' ').makeStringAndClear(); } nPre_LinePos += nSpaces; nToken = HtmlTokenId::TEXTTOKEN; } break; // Keep those case HtmlTokenId::TEXTTOKEN: nPre_LinePos += aToken.getLength(); break; case HtmlTokenId::SELECT_ON: case HtmlTokenId::SELECT_OFF: case HtmlTokenId::BODY_ON: case HtmlTokenId::FORM_ON: case HtmlTokenId::FORM_OFF: case HtmlTokenId::INPUT: case HtmlTokenId::OPTION: case HtmlTokenId::TEXTAREA_ON: case HtmlTokenId::TEXTAREA_OFF: case HtmlTokenId::IMAGE: case HtmlTokenId::APPLET_ON: case HtmlTokenId::APPLET_OFF: case HtmlTokenId::PARAM: case HtmlTokenId::EMBED: case HtmlTokenId::HEAD1_ON: case HtmlTokenId::HEAD1_OFF: case HtmlTokenId::HEAD2_ON: case HtmlTokenId::HEAD2_OFF: case HtmlTokenId::HEAD3_ON: case HtmlTokenId::HEAD3_OFF: case HtmlTokenId::HEAD4_ON: case HtmlTokenId::HEAD4_OFF: case HtmlTokenId::HEAD5_ON: case HtmlTokenId::HEAD5_OFF: case HtmlTokenId::HEAD6_ON: case HtmlTokenId::HEAD6_OFF: case HtmlTokenId::BLOCKQUOTE_ON: case HtmlTokenId::BLOCKQUOTE_OFF: case HtmlTokenId::ADDRESS_ON: case HtmlTokenId::ADDRESS_OFF: case HtmlTokenId::HORZRULE: case HtmlTokenId::CENTER_ON: case HtmlTokenId::CENTER_OFF: case HtmlTokenId::DIVISION_ON: case HtmlTokenId::DIVISION_OFF: case HtmlTokenId::SCRIPT_ON: case HtmlTokenId::SCRIPT_OFF: case HtmlTokenId::RAWDATA: case HtmlTokenId::TABLE_ON: case HtmlTokenId::TABLE_OFF: case HtmlTokenId::CAPTION_ON: case HtmlTokenId::CAPTION_OFF: case HtmlTokenId::COLGROUP_ON: case HtmlTokenId::COLGROUP_OFF: case HtmlTokenId::COL_ON: case HtmlTokenId::COL_OFF: case HtmlTokenId::THEAD_ON: case HtmlTokenId::THEAD_OFF: case HtmlTokenId::TFOOT_ON: case HtmlTokenId::TFOOT_OFF: case HtmlTokenId::TBODY_ON: case HtmlTokenId::TBODY_OFF: case HtmlTokenId::TABLEROW_ON: case HtmlTokenId::TABLEROW_OFF: case HtmlTokenId::TABLEDATA_ON: case HtmlTokenId::TABLEDATA_OFF: case HtmlTokenId::TABLEHEADER_ON: case HtmlTokenId::TABLEHEADER_OFF: case HtmlTokenId::ANCHOR_ON: case HtmlTokenId::ANCHOR_OFF: case HtmlTokenId::BOLD_ON: case HtmlTokenId::BOLD_OFF: case HtmlTokenId::ITALIC_ON: case HtmlTokenId::ITALIC_OFF: case HtmlTokenId::STRIKE_ON: case HtmlTokenId::STRIKE_OFF: case HtmlTokenId::STRIKETHROUGH_ON: case HtmlTokenId::STRIKETHROUGH_OFF: case HtmlTokenId::UNDERLINE_ON: case HtmlTokenId::UNDERLINE_OFF: case HtmlTokenId::BASEFONT_ON: case HtmlTokenId::BASEFONT_OFF: case HtmlTokenId::FONT_ON: case HtmlTokenId::FONT_OFF: case HtmlTokenId::BLINK_ON: case HtmlTokenId::BLINK_OFF: case HtmlTokenId::SPAN_ON: case HtmlTokenId::SPAN_OFF: case HtmlTokenId::SUBSCRIPT_ON: case HtmlTokenId::SUBSCRIPT_OFF: case HtmlTokenId::SUPERSCRIPT_ON: case HtmlTokenId::SUPERSCRIPT_OFF: case HtmlTokenId::BIGPRINT_ON: case HtmlTokenId::BIGPRINT_OFF: case HtmlTokenId::SMALLPRINT_OFF: case HtmlTokenId::SMALLPRINT_ON: case HtmlTokenId::EMPHASIS_ON: case HtmlTokenId::EMPHASIS_OFF: case HtmlTokenId::CITIATION_ON: case HtmlTokenId::CITIATION_OFF: case HtmlTokenId::STRONG_ON: case HtmlTokenId::STRONG_OFF: case HtmlTokenId::CODE_ON: case HtmlTokenId::CODE_OFF: case HtmlTokenId::SAMPLE_ON: case HtmlTokenId::SAMPLE_OFF: case HtmlTokenId::KEYBOARD_ON: case HtmlTokenId::KEYBOARD_OFF: case HtmlTokenId::VARIABLE_ON: case HtmlTokenId::VARIABLE_OFF: case HtmlTokenId::DEFINSTANCE_ON: case HtmlTokenId::DEFINSTANCE_OFF: case HtmlTokenId::SHORTQUOTE_ON: case HtmlTokenId::SHORTQUOTE_OFF: case HtmlTokenId::LANGUAGE_ON: case HtmlTokenId::LANGUAGE_OFF: case HtmlTokenId::AUTHOR_ON: case HtmlTokenId::AUTHOR_OFF: case HtmlTokenId::PERSON_ON: case HtmlTokenId::PERSON_OFF: case HtmlTokenId::ACRONYM_ON: case HtmlTokenId::ACRONYM_OFF: case HtmlTokenId::ABBREVIATION_ON: case HtmlTokenId::ABBREVIATION_OFF: case HtmlTokenId::INSERTEDTEXT_ON: case HtmlTokenId::INSERTEDTEXT_OFF: case HtmlTokenId::DELETEDTEXT_ON: case HtmlTokenId::DELETEDTEXT_OFF: case HtmlTokenId::TELETYPE_ON: case HtmlTokenId::TELETYPE_OFF: break; // The remainder is treated as an unknown token. default: if( nToken != HtmlTokenId::NONE ) { nToken = ( ((nToken >= HtmlTokenId::ONOFF_START) && isOffToken(nToken)) ? HtmlTokenId::UNKNOWNCONTROL_OFF : HtmlTokenId::UNKNOWNCONTROL_ON ); } break; } bPre_IgnoreNewPara = false; return nToken; } HtmlTokenId HTMLParser::FilterXMP( HtmlTokenId nToken ) { switch( nToken ) { case HtmlTokenId::NEWPARA: if( bPre_IgnoreNewPara ) nToken = HtmlTokenId::NONE; [[fallthrough]]; case HtmlTokenId::TEXTTOKEN: case HtmlTokenId::NONBREAKSPACE: case HtmlTokenId::SOFTHYPH: break; // kept default: if( nToken != HtmlTokenId::NONE ) { if( (nToken >= HtmlTokenId::ONOFF_START) && isOffToken(nToken) ) { sSaveToken = ""; nToken = HtmlTokenId::TEXTTOKEN; } break; } bPre_IgnoreNewPara = false; return nToken; } HtmlTokenId HTMLParser::FilterListing( HtmlTokenId nToken ) { switch( nToken ) { case HtmlTokenId::NEWPARA: if( bPre_IgnoreNewPara ) nToken = HtmlTokenId::NONE; [[fallthrough]]; case HtmlTokenId::TEXTTOKEN: case HtmlTokenId::NONBREAKSPACE: case HtmlTokenId::SOFTHYPH: break; // kept default: if( nToken != HtmlTokenId::NONE ) { nToken = ( ((nToken >= HtmlTokenId::ONOFF_START) && isOffToken(nToken)) ? HtmlTokenId::UNKNOWNCONTROL_OFF : HtmlTokenId::UNKNOWNCONTROL_ON ); } break; } bPre_IgnoreNewPara = false; return nToken; } bool HTMLParser::InternalImgToPrivateURL( OUString& rURL ) { bool bFound = false; if( rURL.startsWith( OOO_STRING_SVTOOLS_HTML_internal_icon ) ) { OUString aName( rURL.copy(14) ); switch( aName[0] ) { case 'b': bFound = aName == OOO_STRING_SVTOOLS_HTML_INT_ICON_baddata; break; case 'd': bFound = aName == OOO_STRING_SVTOOLS_HTML_INT_ICON_delayed; break; case 'e': bFound = aName == OOO_STRING_SVTOOLS_HTML_INT_ICON_embed; break; case 'i': bFound = aName == OOO_STRING_SVTOOLS_HTML_INT_ICON_insecure; break; case 'n': bFound = aName == OOO_STRING_SVTOOLS_HTML_INT_ICON_notfound; break; } } if( bFound ) { OUString sTmp ( rURL ); rURL = OOO_STRING_SVTOOLS_HTML_private_image; rURL += sTmp; } return bFound; } namespace { enum class HtmlMeta { NONE = 0, Author, Description, Keywords, Refresh, Classification, Created, ChangedBy, Changed, Generator, SDFootnote, SDEndnote, ContentType }; } // static HTMLOptionEnum const aHTMLMetaNameTable[] = { { OOO_STRING_SVTOOLS_HTML_META_author, HtmlMeta::Author }, { OOO_STRING_SVTOOLS_HTML_META_changed, HtmlMeta::Changed }, { OOO_STRING_SVTOOLS_HTML_META_changedby, HtmlMeta::ChangedBy }, { OOO_STRING_SVTOOLS_HTML_META_classification,HtmlMeta::Classification}, { OOO_STRING_SVTOOLS_HTML_META_content_type, HtmlMeta::ContentType }, { OOO_STRING_SVTOOLS_HTML_META_created, HtmlMeta::Created }, { OOO_STRING_SVTOOLS_HTML_META_description, HtmlMeta::Description }, { OOO_STRING_SVTOOLS_HTML_META_keywords, HtmlMeta::Keywords }, { OOO_STRING_SVTOOLS_HTML_META_generator, HtmlMeta::Generator }, { OOO_STRING_SVTOOLS_HTML_META_refresh, HtmlMeta::Refresh }, { OOO_STRING_SVTOOLS_HTML_META_sdendnote, HtmlMeta::SDEndnote }, { OOO_STRING_SVTOOLS_HTML_META_sdfootnote, HtmlMeta::SDFootnote }, { nullptr, HtmlMeta(0) } }; void HTMLParser::AddMetaUserDefined( OUString const & ) { } bool HTMLParser::ParseMetaOptionsImpl( const uno::Reference & i_xDocProps, SvKeyValueIterator *i_pHTTPHeader, const HTMLOptions& aOptions, rtl_TextEncoding& o_rEnc ) { OUString aName, aContent; HtmlMeta nAction = HtmlMeta::NONE; bool bHTTPEquiv = false, bChanged = false; for ( size_t i = aOptions.size(); i; ) { const HTMLOption& aOption = aOptions[--i]; switch ( aOption.GetToken() ) { case HtmlOptionId::NAME: aName = aOption.GetString(); if ( HtmlMeta::NONE==nAction ) { aOption.GetEnum( nAction, aHTMLMetaNameTable ); } break; case HtmlOptionId::HTTPEQUIV: aName = aOption.GetString(); aOption.GetEnum( nAction, aHTMLMetaNameTable ); bHTTPEquiv = true; break; case HtmlOptionId::CONTENT: aContent = aOption.GetString(); break; case HtmlOptionId::CHARSET: { OString sValue(OUStringToOString(aOption.GetString(), RTL_TEXTENCODING_ASCII_US)); o_rEnc = GetExtendedCompatibilityTextEncoding(rtl_getTextEncodingFromMimeCharset(sValue.getStr())); break; } default: break; } } if ( bHTTPEquiv || HtmlMeta::Description != nAction ) { // if it is not a Description, remove CRs and LFs from CONTENT aContent = aContent.replaceAll("\r", "").replaceAll("\n", ""); } else { // convert line endings for Description aContent = convertLineEnd(aContent, GetSystemLineEnd()); } if ( bHTTPEquiv && i_pHTTPHeader ) { // Netscape seems to just ignore a closing ", so we do too if ( aContent.endsWith("\"") ) { aContent = aContent.copy( 0, aContent.getLength() - 1 ); } SvKeyValue aKeyValue( aName, aContent ); i_pHTTPHeader->Append( aKeyValue ); } switch ( nAction ) { case HtmlMeta::Author: if (i_xDocProps.is()) { i_xDocProps->setAuthor( aContent ); bChanged = true; } break; case HtmlMeta::Description: if (i_xDocProps.is()) { i_xDocProps->setDescription( aContent ); bChanged = true; } break; case HtmlMeta::Keywords: if (i_xDocProps.is()) { i_xDocProps->setKeywords( ::comphelper::string::convertCommaSeparated(aContent)); bChanged = true; } break; case HtmlMeta::Classification: if (i_xDocProps.is()) { i_xDocProps->setSubject( aContent ); bChanged = true; } break; case HtmlMeta::ChangedBy: if (i_xDocProps.is()) { i_xDocProps->setModifiedBy( aContent ); bChanged = true; } break; case HtmlMeta::Created: case HtmlMeta::Changed: if (i_xDocProps.is() && !aContent.isEmpty()) { ::util::DateTime uDT; bool valid = false; if (comphelper::string::getTokenCount(aContent, ';') == 2) { sal_Int32 nIdx{ 0 }; Date aDate(aContent.getToken(0, ';', nIdx).toInt32()); auto nTime = aContent.getToken(0, ';', nIdx).toInt64(); if (nTime < 0) nTime = o3tl::saturating_toggle_sign(nTime); tools::Time aTime(nTime); DateTime aDateTime(aDate, aTime); uDT = aDateTime.GetUNODateTime(); valid = true; } else if (utl::ISO8601parseDateTime(aContent, uDT)) valid = true; if (valid) { bChanged = true; if (HtmlMeta::Created == nAction) i_xDocProps->setCreationDate(uDT); else i_xDocProps->setModificationDate(uDT); } } break; case HtmlMeta::Refresh: DBG_ASSERT( !bHTTPEquiv || i_pHTTPHeader, "Lost Reload-URL because of omitted MUST change." ); break; case HtmlMeta::ContentType: if ( !aContent.isEmpty() ) { o_rEnc = GetEncodingByMIME( aContent ); } break; case HtmlMeta::NONE: if ( !bHTTPEquiv ) { if (i_xDocProps.is()) { uno::Reference xUDProps = i_xDocProps->getUserDefinedProperties(); try { xUDProps->addProperty(aName, beans::PropertyAttribute::REMOVABLE, uno::makeAny(aContent)); AddMetaUserDefined(aName); bChanged = true; } catch (uno::Exception &) { // ignore } } } break; default: break; } return bChanged; } bool HTMLParser::ParseMetaOptions( const uno::Reference & i_xDocProps, SvKeyValueIterator *i_pHeader ) { HtmlOptionId nContentOption = HtmlOptionId::CONTENT; rtl_TextEncoding eEnc = RTL_TEXTENCODING_DONTKNOW; bool bRet = ParseMetaOptionsImpl( i_xDocProps, i_pHeader, GetOptions(&nContentOption), eEnc ); // If the encoding is set by a META tag, it may only overwrite the // current encoding if both, the current and the new encoding, are 1-sal_uInt8 // encodings. Everything else cannot lead to reasonable results. if (RTL_TEXTENCODING_DONTKNOW != eEnc && rtl_isOctetTextEncoding( eEnc ) && rtl_isOctetTextEncoding( GetSrcEncoding() ) ) { eEnc = GetExtendedCompatibilityTextEncoding( eEnc ); SetSrcEncoding( eEnc ); } return bRet; } rtl_TextEncoding HTMLParser::GetEncodingByMIME( const OUString& rMime ) { OUString sType; OUString sSubType; INetContentTypeParameterList aParameters; if (INetContentTypes::parse(rMime, sType, sSubType, &aParameters)) { auto const iter = aParameters.find("charset"); if (iter != aParameters.end()) { const INetContentTypeParameter * pCharset = &iter->second; OString sValue(OUStringToOString(pCharset->m_sValue, RTL_TEXTENCODING_ASCII_US)); return GetExtendedCompatibilityTextEncoding( rtl_getTextEncodingFromMimeCharset( sValue.getStr() ) ); } } return RTL_TEXTENCODING_DONTKNOW; } rtl_TextEncoding HTMLParser::GetEncodingByHttpHeader( SvKeyValueIterator *pHTTPHeader ) { rtl_TextEncoding eRet = RTL_TEXTENCODING_DONTKNOW; if( pHTTPHeader ) { SvKeyValue aKV; for( bool bCont = pHTTPHeader->GetFirst( aKV ); bCont; bCont = pHTTPHeader->GetNext( aKV ) ) { if( aKV.GetKey().equalsIgnoreAsciiCase( OOO_STRING_SVTOOLS_HTML_META_content_type ) ) { if( !aKV.GetValue().isEmpty() ) { eRet = HTMLParser::GetEncodingByMIME( aKV.GetValue() ); } } } } return eRet; } bool HTMLParser::SetEncodingByHTTPHeader( SvKeyValueIterator *pHTTPHeader ) { bool bRet = false; rtl_TextEncoding eEnc = HTMLParser::GetEncodingByHttpHeader( pHTTPHeader ); if(RTL_TEXTENCODING_DONTKNOW != eEnc) { SetSrcEncoding( eEnc ); bRet = true; } return bRet; } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */