/* -*- 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 const int MAX_STRING_LEN = 1024; const int MAX_TOKEN_LEN = 128; #define RTF_ISDIGIT( c ) rtl::isAsciiDigit(c) #define RTF_ISALPHA( c ) rtl::isAsciiAlpha(c) SvRTFParser::SvRTFParser( SvStream& rIn, sal_uInt8 nStackSize ) : SvParser( rIn, nStackSize ) , nOpenBrakets(0) , eCodeSet(RTL_TEXTENCODING_MS_1252) , nUCharOverread(1) { // default is ANSI-CodeSet SetSrcEncoding( RTL_TEXTENCODING_MS_1252 ); bRTF_InTextRead = false; } SvRTFParser::~SvRTFParser() { } int SvRTFParser::GetNextToken_() { int nRet = 0; do { bool bNextCh = true; switch( nNextCh ) { case '\\': { // control characters nNextCh = GetNextChar(); switch( nNextCh ) { case '{': case '}': case '\\': case '+': // I found it in a RTF-file case '~': // nonbreaking space case '-': // optional hyphen case '_': // nonbreaking hyphen case '\'': // HexValue nNextCh = '\\'; rInput.SeekRel( -1 ); ScanText(); nRet = RTF_TEXTTOKEN; bNextCh = 0 == nNextCh; break; case '*': // ignoreflag nRet = RTF_IGNOREFLAG; break; case ':': // subentry in an index entry nRet = RTF_SUBENTRYINDEX; break; case '|': // formula-character nRet = RTF_FORMULA; break; case 0x0a: case 0x0d: nRet = RTF_PAR; break; default: if( RTF_ISALPHA( nNextCh ) ) { aToken = "\\"; { OUStringBuffer aStrBuffer( MAX_TOKEN_LEN ); do { aStrBuffer.appendUtf32(nNextCh); nNextCh = GetNextChar(); } while( RTF_ISALPHA( nNextCh ) ); aToken += aStrBuffer; } // minus before numeric parameters bool bNegValue = false; if( '-' == nNextCh ) { bNegValue = true; nNextCh = GetNextChar(); } // possible numeric parameter if( RTF_ISDIGIT( nNextCh ) ) { OUStringBuffer aNumber; do { aNumber.append(static_cast(nNextCh)); nNextCh = GetNextChar(); } while( RTF_ISDIGIT( nNextCh ) ); nTokenValue = aNumber.toString().toInt32(); if( bNegValue ) nTokenValue = -nTokenValue; bTokenHasValue=true; } else if( bNegValue ) // restore minus { nNextCh = '-'; rInput.SeekRel( -1 ); } if( ' ' == nNextCh ) // blank is part of token! nNextCh = GetNextChar(); // search for the token in the table: if( 0 == (nRet = GetRTFToken( aToken )) ) // Unknown Control nRet = RTF_UNKNOWNCONTROL; // bug 76812 - unicode token handled as normal text bNextCh = false; switch( nRet ) { case RTF_UC: if( 0 <= nTokenValue ) { nUCharOverread = static_cast(nTokenValue); if (!aParserStates.empty()) { //cmc: other ifdef breaks #i3584 aParserStates.top().nUCharOverread = nUCharOverread; } } aToken.clear(); // #i47831# erase token to prevent the token from being treated as text // read next token nRet = 0; break; case RTF_UPR: if (!_inSkipGroup) { // UPR - overread the group with the ansi // information int nNextToken; do { nNextToken = GetNextToken_(); } while (nNextToken != '{' && nNextToken != sal_Unicode(EOF)); SkipGroup(); GetNextToken_(); // overread the last bracket nRet = 0; } break; case RTF_U: if( !bRTF_InTextRead ) { nRet = RTF_TEXTTOKEN; aToken = OUString( static_cast(nTokenValue) ); // overread the next n "RTF" characters. This // can be also \{, \}, \'88 for( sal_uInt8 m = 0; m < nUCharOverread; ++m ) { sal_uInt32 cAnsi = nNextCh; while( 0xD == cAnsi ) cAnsi = GetNextChar(); while( 0xA == cAnsi ) cAnsi = GetNextChar(); if( '\\' == cAnsi && '\'' == GetNextChar() ) // skip HexValue GetHexValue(); nNextCh = GetNextChar(); } ScanText(); bNextCh = 0 == nNextCh; } break; } } else if( SvParserState::Pending != eState ) { // Bug 34631 - "\ " read on - Blank as character // eState = SvParserState::Error; bNextCh = false; } break; } } break; case sal_Unicode(EOF): eState = SvParserState::Accepted; nRet = nNextCh; break; case '{': { if( 0 <= nOpenBrakets ) { RtfParserState_Impl aState( nUCharOverread, GetSrcEncoding() ); aParserStates.push( aState ); } ++nOpenBrakets; DBG_ASSERT( static_cast(nOpenBrakets) == aParserStates.size(), "ParserStateStack unequal to bracket count" ); nRet = nNextCh; } break; case '}': --nOpenBrakets; if( 0 <= nOpenBrakets ) { aParserStates.pop(); if( !aParserStates.empty() ) { const RtfParserState_Impl& rRPS = aParserStates.top(); nUCharOverread = rRPS.nUCharOverread; SetSrcEncoding( rRPS.eCodeSet ); } else { nUCharOverread = 1; SetSrcEncoding( GetCodeSet() ); } } DBG_ASSERT( static_cast(nOpenBrakets) == aParserStates.size(), "ParserStateStack unequal to bracket count" ); nRet = nNextCh; break; case 0x0d: case 0x0a: break; default: // now normal text follows ScanText(); nRet = RTF_TEXTTOKEN; bNextCh = 0 == nNextCh; break; } if( bNextCh ) nNextCh = GetNextChar(); } while( !nRet && SvParserState::Working == eState ); return nRet; } sal_Unicode SvRTFParser::GetHexValue() { // collect Hex values int n; sal_Unicode nHexVal = 0; for( n = 0; n < 2; ++n ) { nHexVal *= 16; nNextCh = GetNextChar(); if( nNextCh >= '0' && nNextCh <= '9' ) nHexVal += (nNextCh - 48); else if( nNextCh >= 'a' && nNextCh <= 'f' ) nHexVal += (nNextCh - 87); else if( nNextCh >= 'A' && nNextCh <= 'F' ) nHexVal += (nNextCh - 55); } return nHexVal; } void SvRTFParser::ScanText() { const sal_Unicode cBreak = 0; OUStringBuffer aStrBuffer; bool bContinue = true; while( bContinue && IsParserWorking() && aStrBuffer.getLength() < MAX_STRING_LEN) { bool bNextCh = true; switch( nNextCh ) { case '\\': { nNextCh = GetNextChar(); switch (nNextCh) { case '\'': { OStringBuffer aByteString; while (true) { char c = static_cast(GetHexValue()); /* * Note: \'00 is a valid internal character in a * string in RTF. OStringBuffer supports * appending nulls fine */ aByteString.append(c); bool bBreak = false; bool bEOF = false; char nSlash = '\\'; while (!bBreak) { auto next = GetNextChar(); if (sal_Unicode(EOF) == next) { bEOF = true; break; } if (next>0xFF) // fix for #i43933# and #i35653# { if (!aByteString.isEmpty()) aStrBuffer.append( OStringToOUString(aByteString.makeStringAndClear(), GetSrcEncoding()) ); aStrBuffer.append(static_cast(next)); continue; } nSlash = static_cast(next); while (nSlash == 0xD || nSlash == 0xA) nSlash = static_cast(GetNextChar()); switch (nSlash) { case '{': case '}': case '\\': bBreak = true; break; default: aByteString.append(nSlash); break; } } if (bEOF) { bContinue = false; // abort, string together break; } nNextCh = GetNextChar(); if (nSlash != '\\' || nNextCh != '\'') { rInput.SeekRel(-1); nNextCh = static_cast(nSlash); break; } } bNextCh = false; if (!aByteString.isEmpty()) aStrBuffer.append( OStringToOUString(aByteString.makeStringAndClear(), GetSrcEncoding()) ); } break; case '\\': case '}': case '{': case '+': // I found in a RTF file aStrBuffer.append(sal_Unicode(nNextCh)); break; case '~': // nonbreaking space aStrBuffer.append(u'\x00A0'); break; case '-': // optional hyphen aStrBuffer.append(u'\x00AD'); break; case '_': // nonbreaking hyphen aStrBuffer.append(u'\x2011'); break; case 'u': // read UNI-Code characters { nNextCh = GetNextChar(); rInput.SeekRel( -2 ); if( '-' == nNextCh || RTF_ISDIGIT( nNextCh ) ) { bRTF_InTextRead = true; OUString sSave( aToken ); nNextCh = '\\'; int nToken = GetNextToken_(); DBG_ASSERT( RTF_U == nToken, "still not a UNI-Code character" ); // don't convert symbol chars aStrBuffer.append(static_cast< sal_Unicode >(nTokenValue)); // overread the next n "RTF" characters. This // can be also \{, \}, \'88 for( sal_uInt8 m = 0; m < nUCharOverread; ++m ) { sal_Unicode cAnsi = nNextCh; while( 0xD == cAnsi ) cAnsi = GetNextChar(); while( 0xA == cAnsi ) cAnsi = GetNextChar(); if( '\\' == cAnsi && '\'' == GetNextChar() ) // skip HexValue GetHexValue(); nNextCh = GetNextChar(); } bNextCh = false; aToken = sSave; bRTF_InTextRead = false; } else if ( 'c' == nNextCh ) { // Prevent text breaking into multiple tokens. rInput.SeekRel( 2 ); nNextCh = GetNextChar(); if (RTF_ISDIGIT( nNextCh )) { sal_uInt8 nNewOverread = 0 ; do { nNewOverread *= 10; nNewOverread += nNextCh - '0'; nNextCh = GetNextChar(); } while ( RTF_ISDIGIT( nNextCh ) ); nUCharOverread = nNewOverread; if (!aParserStates.empty()) aParserStates.top().nUCharOverread = nNewOverread; } bNextCh = 0x20 == nNextCh; } else { nNextCh = '\\'; bContinue = false; // abort, string together } } break; default: rInput.SeekRel( -1 ); nNextCh = '\\'; bContinue = false; // abort, string together break; } } break; case sal_Unicode(EOF): eState = SvParserState::Error; [[fallthrough]]; case '{': case '}': bContinue = false; break; case 0x0a: case 0x0d: break; default: if( nNextCh == cBreak || aStrBuffer.getLength() >= MAX_STRING_LEN) bContinue = false; else { do { // all other characters end up in the text aStrBuffer.appendUtf32(nNextCh); if (sal_Unicode(EOF) == (nNextCh = GetNextChar())) { if (!aStrBuffer.isEmpty()) aToken += aStrBuffer; return; } } while ( (RTF_ISALPHA(nNextCh) || RTF_ISDIGIT(nNextCh)) && (aStrBuffer.getLength() < MAX_STRING_LEN) ); bNextCh = false; } } if( bContinue && bNextCh ) nNextCh = GetNextChar(); } if (!aStrBuffer.isEmpty()) aToken += aStrBuffer; } short SvRTFParser::_inSkipGroup=0; void SvRTFParser::SkipGroup() { short nBrackets=1; if (_inSkipGroup>0) return; _inSkipGroup++; //#i16185# faking \bin keyword do { switch (nNextCh) { case '{': ++nBrackets; break; case '}': if (!--nBrackets) { _inSkipGroup--; return; } break; } int nToken = GetNextToken_(); if (nToken == RTF_BIN) { rInput.SeekRel(-1); SAL_WARN_IF(nTokenValue < 0, "svtools", "negative value argument for rtf \\bin keyword"); if (nTokenValue > 0) rInput.SeekRel(nTokenValue); nNextCh = GetNextChar(); } while (nNextCh==0xa || nNextCh==0xd) { nNextCh = GetNextChar(); } } while (sal_Unicode(EOF) != nNextCh && IsParserWorking()); if( SvParserState::Pending != eState && '}' != nNextCh ) eState = SvParserState::Error; _inSkipGroup--; } void SvRTFParser::ReadUnknownData() { SkipGroup(); } void SvRTFParser::ReadBitmapData() { SkipGroup(); } SvParserState SvRTFParser::CallParser() { char cFirstCh; nNextChPos = rInput.Tell(); rInput.ReadChar( cFirstCh ); nNextCh = static_cast(cFirstCh); eState = SvParserState::Working; nOpenBrakets = 0; eCodeSet = RTL_TEXTENCODING_MS_1252; SetSrcEncoding( eCodeSet ); // the first two tokens should be '{' and \\rtf !! if( '{' == GetNextToken() && RTF_RTF == GetNextToken() ) { AddFirstRef(); Continue( 0 ); if( SvParserState::Pending != eState ) ReleaseRef(); // now parser is not needed anymore } else eState = SvParserState::Error; return eState; } void SvRTFParser::Continue( int nToken ) { // DBG_ASSERT( SVPAR_CS_DONTKNOW == GetCharSet(), // "Characterset was changed." ); if( !nToken ) nToken = GetNextToken(); bool bLooping = false; while (IsParserWorking() && !bLooping) { auto nCurrentTokenIndex = m_nTokenIndex; auto nCurrentToken = nToken; SaveState( nToken ); switch( nToken ) { case '}': if( nOpenBrakets ) goto NEXTTOKEN; eState = SvParserState::Accepted; break; case '{': // an unknown group ? { if( RTF_IGNOREFLAG != GetNextToken() ) nToken = SkipToken(); else if( RTF_UNKNOWNCONTROL != GetNextToken() ) nToken = SkipToken( -2 ); else { // filter immediately ReadUnknownData(); nToken = GetNextToken(); if( '}' != nToken ) eState = SvParserState::Error; break; // move to next token!! } } goto NEXTTOKEN; case RTF_UNKNOWNCONTROL: break; // skip unknown token case RTF_NEXTTYPE: case RTF_ANSITYPE: eCodeSet = RTL_TEXTENCODING_MS_1252; SetSrcEncoding( eCodeSet ); break; case RTF_MACTYPE: eCodeSet = RTL_TEXTENCODING_APPLE_ROMAN; SetSrcEncoding( eCodeSet ); break; case RTF_PCTYPE: eCodeSet = RTL_TEXTENCODING_IBM_437; SetSrcEncoding( eCodeSet ); break; case RTF_PCATYPE: eCodeSet = RTL_TEXTENCODING_IBM_850; SetSrcEncoding( eCodeSet ); break; case RTF_ANSICPG: eCodeSet = rtl_getTextEncodingFromWindowsCodePage(nTokenValue); SetSrcEncoding(eCodeSet); break; default: NEXTTOKEN: NextToken( nToken ); break; } if( IsParserWorking() ) SaveState( 0 ); // processed till here, // continue with new token! nToken = GetNextToken(); bLooping = nCurrentTokenIndex == m_nTokenIndex && nToken == nCurrentToken; } if( SvParserState::Accepted == eState && 0 < nOpenBrakets ) eState = SvParserState::Error; } void SvRTFParser::SetEncoding( rtl_TextEncoding eEnc ) { if (eEnc == RTL_TEXTENCODING_DONTKNOW) eEnc = GetCodeSet(); if (!aParserStates.empty()) aParserStates.top().eCodeSet = eEnc; SetSrcEncoding(eEnc); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */