/* -*- 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 namespace utl { static void lcl_resolveCharEntities(OUString & aLocalString) { sal_Int32 nEscapePos=aLocalString.indexOf('&'); if (nEscapePos < 0) return; OUStringBuffer aResult; sal_Int32 nStart = 0; do { sal_Unicode ch = 0; if (aLocalString.match("&",nEscapePos)) ch = '&'; else if (aLocalString.match("'",nEscapePos)) ch = '\''; else if (aLocalString.match(""",nEscapePos)) ch = '"'; OSL_ENSURE(ch,"Configuration path contains '&' that is not part of a valid character escape"); if (ch) { aResult.append(aLocalString.subView(nStart,nEscapePos-nStart) + OUStringChar(ch)); sal_Int32 nEscapeEnd=aLocalString.indexOf(';',nEscapePos); nStart = nEscapeEnd+1; nEscapePos=aLocalString.indexOf('&',nStart); } else { nEscapePos=aLocalString.indexOf('&',nEscapePos+1); } } while ( nEscapePos > 0); aResult.append(aLocalString.subView(nStart)); aLocalString = aResult.makeStringAndClear(); } bool splitLastFromConfigurationPath(OUString const& _sInPath, OUString& _rsOutPath, OUString& _rsLocalName) { sal_Int32 nStart,nEnd; sal_Int32 nPos = _sInPath.getLength()-1; // strip trailing slash if (nPos > 0 && _sInPath[ nPos ] == '/') { OSL_FAIL("Invalid config path: trailing '/' is not allowed"); --nPos; } // check for predicate ['xxx'] or ["yyy"] if (nPos > 0 && _sInPath[ nPos ] == ']') { sal_Unicode chQuote = _sInPath[--nPos]; if (chQuote == '\'' || chQuote == '\"') { nEnd = nPos; nPos = _sInPath.lastIndexOf(chQuote,nEnd); nStart = nPos + 1; --nPos; // nPos = rInPath.lastIndexOf('[',nPos); } else // allow [xxx] { nEnd = nPos + 1; nPos = _sInPath.lastIndexOf('[',nEnd); nStart = nPos + 1; } OSL_ENSURE(nPos >= 0 && _sInPath[nPos] == '[', "Invalid config path: unmatched quotes or brackets"); if (nPos >= 0 && _sInPath[nPos] == '[') { nPos = _sInPath.lastIndexOf('/',nPos); } else // defined behavior for invalid paths { nStart = 0; nEnd = _sInPath.getLength(); nPos = -1; } } else { nEnd = nPos+1; nPos = _sInPath.lastIndexOf('/',nEnd); nStart = nPos + 1; } OSL_ASSERT( -1 <= nPos && nPos < nStart && nStart < nEnd && nEnd <= _sInPath.getLength() ); OSL_ASSERT(nPos == -1 || _sInPath[nPos] == '/'); OSL_ENSURE(nPos != 0 , "Invalid config child path: immediate child of root"); _rsLocalName = _sInPath.copy(nStart, nEnd-nStart); _rsOutPath = (nPos > 0) ? _sInPath.copy(0,nPos) : OUString(); lcl_resolveCharEntities(_rsLocalName); return nPos >= 0; } OUString extractFirstFromConfigurationPath(OUString const& _sInPath, OUString* _sOutPath) { sal_Int32 nSep = _sInPath.indexOf('/'); sal_Int32 nBracket = _sInPath.indexOf('['); sal_Int32 nStart = nBracket + 1; sal_Int32 nEnd = nSep; if (0 <= nBracket) // found a bracket-quoted relative path { if (nSep < 0 || nBracket < nSep) // and the separator comes after it { sal_Unicode chQuote = _sInPath[nStart]; if (chQuote == '\'' || chQuote == '\"') { ++nStart; nEnd = _sInPath.indexOf(chQuote, nStart+1); nBracket = nEnd+1; } else { nEnd = _sInPath.indexOf(']',nStart); nBracket = nEnd; } OSL_ENSURE(nEnd > nStart && _sInPath[nBracket] == ']', "Invalid config path: improper mismatch of quote or bracket"); OSL_ENSURE((nBracket+1 == _sInPath.getLength() && nSep == -1) || (_sInPath[nBracket+1] == '/' && nSep == nBracket+1), "Invalid config path: brackets not followed by slash"); } else // ... but our initial element name is in simple form nStart = 0; } OUString sResult = (nEnd >= 0) ? _sInPath.copy(nStart, nEnd-nStart) : _sInPath; lcl_resolveCharEntities(sResult); if (_sOutPath != nullptr) { *_sOutPath = (nSep >= 0) ? _sInPath.copy(nSep + 1) : OUString(); } return sResult; } // find the position after the prefix in the nested path static sal_Int32 lcl_findPrefixEnd(OUString const& _sNestedPath, OUString const& _sPrefixPath) { // TODO: currently handles only exact prefix matches sal_Int32 nPrefixLength = _sPrefixPath.getLength(); OSL_ENSURE(nPrefixLength == 0 || _sPrefixPath[nPrefixLength-1] != '/', "Cannot handle slash-terminated prefix paths"); bool bIsPrefix; if (_sNestedPath.getLength() > nPrefixLength) { bIsPrefix = _sNestedPath[nPrefixLength] == '/' && _sNestedPath.startsWith(_sPrefixPath); ++nPrefixLength; } else if (_sNestedPath.getLength() == nPrefixLength) { bIsPrefix = _sNestedPath == _sPrefixPath; } else { bIsPrefix = false; } return bIsPrefix ? nPrefixLength : 0; } bool isPrefixOfConfigurationPath(OUString const& _sNestedPath, OUString const& _sPrefixPath) { return _sPrefixPath.isEmpty() || lcl_findPrefixEnd(_sNestedPath,_sPrefixPath) != 0; } OUString dropPrefixFromConfigurationPath(OUString const& _sNestedPath, OUString const& _sPrefixPath) { if ( sal_Int32 nPrefixEnd = lcl_findPrefixEnd(_sNestedPath,_sPrefixPath) ) { return _sNestedPath.copy(nPrefixEnd); } else { OSL_ENSURE(_sPrefixPath.isEmpty(), "Path does not start with expected prefix"); return _sNestedPath; } } static OUString lcl_wrapName(const OUString& _sContent, const OUString& _sType) { const sal_Unicode * const pBeginContent = _sContent.getStr(); const sal_Unicode * const pEndContent = pBeginContent + _sContent.getLength(); OSL_PRECOND(!_sType.isEmpty(), "Unexpected config type name: empty"); OSL_PRECOND(pBeginContent <= pEndContent, "Invalid config name: empty"); if (pBeginContent == pEndContent) return _sType; OUStringBuffer aNormalized(_sType.getLength() + _sContent.getLength() + 4); // reserve approximate size initially // prefix: type, opening bracket and quote aNormalized.append( _sType + "['" ); // content: copy over each char and handle escaping for(const sal_Unicode* pCur = pBeginContent; pCur != pEndContent; ++pCur) { // append (escape if needed) switch(*pCur) { case u'&' : aNormalized.append( "&" ); break; case u'\'': aNormalized.append( "'" ); break; case u'\"': aNormalized.append( """ ); break; default: aNormalized.append( *pCur ); } } // suffix: closing quote and bracket aNormalized.append( "']" ); return aNormalized.makeStringAndClear(); } OUString wrapConfigurationElementName(OUString const& _sElementName) { return lcl_wrapName(_sElementName, "*" ); } OUString wrapConfigurationElementName(OUString const& _sElementName, OUString const& _sTypeName) { // todo: check that _sTypeName is valid return lcl_wrapName(_sElementName, _sTypeName); } } // namespace utl /* vim:set shiftwidth=4 softtabstop=4 expandtab: */