/* -*- 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 #include #include #include #ifdef ANDROID #include #endif #ifdef IOS #include #import #include #endif using osl::DirectoryItem; using osl::FileStatus; struct Bootstrap_Impl; namespace { static char const VND_SUN_STAR_PATHNAME[] = "vnd.sun.star.pathname:"; bool isPathnameUrl(OUString const & url) { return url.matchIgnoreAsciiCase(VND_SUN_STAR_PATHNAME); } bool resolvePathnameUrl(OUString * url) { OSL_ASSERT(url); if (!isPathnameUrl(*url) || (osl::FileBase::getFileURLFromSystemPath( url->copy(RTL_CONSTASCII_LENGTH(VND_SUN_STAR_PATHNAME)), *url) == osl::FileBase::E_None)) { return true; } *url = OUString(); return false; } enum LookupMode { LOOKUP_MODE_NORMAL, LOOKUP_MODE_URE_BOOTSTRAP, LOOKUP_MODE_URE_BOOTSTRAP_EXPANSION }; struct ExpandRequestLink { ExpandRequestLink const * next; Bootstrap_Impl const * file; OUString const key; }; OUString expandMacros( Bootstrap_Impl const * file, OUString const & text, LookupMode mode, ExpandRequestLink const * requestStack); OUString recursivelyExpandMacros( Bootstrap_Impl const * file, OUString const & text, LookupMode mode, Bootstrap_Impl const * requestFile, OUString const & requestKey, ExpandRequestLink const * requestStack) { for (; requestStack; requestStack = requestStack->next) { if (requestStack->file == requestFile && requestStack->key == requestKey) { return OUString("***RECURSION DETECTED***"); } } ExpandRequestLink link = { requestStack, requestFile, requestKey }; return expandMacros(file, text, mode, &link); } } // end namespace struct rtl_bootstrap_NameValue { OUString sName; OUString sValue; rtl_bootstrap_NameValue() {} rtl_bootstrap_NameValue(OUString const & name, OUString const & value ) : sName( name ), sValue( value ) {} }; typedef std::vector NameValueVector; static bool find( NameValueVector const & vector, OUString const & key, OUString * value) { OSL_ASSERT(value); for (NameValueVector::const_iterator i(vector.begin()); i != vector.end(); ++i) { if (i->sName == key) { *value = i->sValue; return true; } } return false; } namespace { struct rtl_bootstrap_set_vector : public rtl::Static< NameValueVector, rtl_bootstrap_set_vector > {}; } static bool getFromCommandLineArgs( OUString const & key, OUString * value ) { OSL_ASSERT(value); static NameValueVector *pNameValueVector = nullptr; if (!pNameValueVector) { static NameValueVector nameValueVector; sal_Int32 nArgCount = osl_getCommandArgCount(); for(sal_Int32 i = 0; i < nArgCount; ++ i) { rtl_uString *pArg = nullptr; osl_getCommandArg( i, &pArg ); if( (pArg->buffer[0] == '-' || pArg->buffer[0] == '/' ) && pArg->buffer[1] == 'e' && pArg->buffer[2] == 'n' && pArg->buffer[3] == 'v' && pArg->buffer[4] == ':' ) { sal_Int32 nIndex = rtl_ustr_indexOfChar( pArg->buffer, '=' ); if( nIndex >= 0 ) { rtl_bootstrap_NameValue nameValue; nameValue.sName = OUString( &(pArg->buffer[5]), nIndex - 5 ); nameValue.sValue = OUString( &(pArg->buffer[nIndex+1]) ); if( i == nArgCount-1 && nameValue.sValue.getLength() && nameValue.sValue[nameValue.sValue.getLength()-1] == 13 ) { // avoid the 13 linefeed for the last argument, // when the executable is started from a script, // that was edited on windows nameValue.sValue = nameValue.sValue.copy(0,nameValue.sValue.getLength()-1); } nameValueVector.push_back( nameValue ); } } rtl_uString_release( pArg ); } pNameValueVector = &nameValueVector; } bool found = false; for(NameValueVector::iterator ii = pNameValueVector->begin(); ii != pNameValueVector->end(); ++ii) { if ((*ii).sName == key) { *value = (*ii).sValue; found = true; break; } } return found; } static void getExecutableDirectory_Impl(rtl_uString ** ppDirURL) { OUString fileName; osl_getExecutableFile(&(fileName.pData)); sal_Int32 nDirEnd = fileName.lastIndexOf('/'); OSL_ENSURE(nDirEnd >= 0, "Cannot locate executable directory"); rtl_uString_newFromStr_WithLength(ppDirURL,fileName.getStr(),nDirEnd); } static OUString & getIniFileName_Impl() { static OUString aStaticName = []() { OUString fileName; #if defined IOS // On iOS hardcode the inifile as "rc" in the .app // directory. Apps are self-contained anyway, there is no // possibility to have several "applications" in the same // installation location with different inifiles. const char *inifile = [[@"vnd.sun.star.pathname:" stringByAppendingString: [[[NSBundle mainBundle] bundlePath] stringByAppendingPathComponent: @"rc"]] UTF8String]; fileName = OUString(inifile, strlen(inifile), RTL_TEXTENCODING_UTF8); resolvePathnameUrl(&fileName); #elif defined ANDROID // Apps are self-contained on Android, too, can as well hardcode // it as "rc" in the "/assets" directory, i.e. inside the app's // .apk (zip) archive as the /assets/rc file. fileName = OUString("vnd.sun.star.pathname:/assets/rc"); resolvePathnameUrl(&fileName); #else if (getFromCommandLineArgs("INIFILENAME", &fileName)) { resolvePathnameUrl(&fileName); } else { osl_getExecutableFile(&(fileName.pData)); // get rid of a potential executable extension OUString progExt = ".bin"; if (fileName.getLength() > progExt.getLength() && fileName.copy(fileName.getLength() - progExt.getLength()).equalsIgnoreAsciiCase(progExt)) { fileName = fileName.copy(0, fileName.getLength() - progExt.getLength()); } progExt = ".exe"; if (fileName.getLength() > progExt.getLength() && fileName.copy(fileName.getLength() - progExt.getLength()).equalsIgnoreAsciiCase(progExt)) { fileName = fileName.copy(0, fileName.getLength() - progExt.getLength()); } // append config file suffix fileName += SAL_CONFIGFILE(""); #ifdef MACOSX // We keep only executables in the MacOS folder, and all // rc files in LIBO_ETC_FOLDER (typically "Resources"). sal_Int32 off = fileName.lastIndexOf( "/MacOS/" ); if (off != -1) fileName = fileName.replaceAt(off + 1, strlen("MacOS"), LIBO_ETC_FOLDER); #endif } #endif return fileName; }(); return aStaticName; } // ensure the given file url has no final slash static void EnsureNoFinalSlash (OUString & url) { sal_Int32 i = url.getLength(); if (i > 0 && url[i - 1] == '/') url = url.copy(0, i - 1); } struct Bootstrap_Impl { sal_Int32 _nRefCount; Bootstrap_Impl * _base_ini; NameValueVector _nameValueVector; OUString const _iniName; explicit Bootstrap_Impl (OUString const & rIniName); ~Bootstrap_Impl(); static void * operator new (std::size_t n) { return malloc (sal_uInt32(n)); } static void operator delete (void * p , std::size_t) { free (p); } bool getValue( OUString const & key, rtl_uString ** value, rtl_uString * defaultValue, LookupMode mode, bool override, ExpandRequestLink const * requestStack) const; bool getDirectValue( OUString const & key, rtl_uString ** value, LookupMode mode, ExpandRequestLink const * requestStack) const; bool getAmbienceValue( OUString const & key, rtl_uString ** value, LookupMode mode, ExpandRequestLink const * requestStack) const; void expandValue( rtl_uString ** value, OUString const & text, LookupMode mode, Bootstrap_Impl const * requestFile, OUString const & requestKey, ExpandRequestLink const * requestStack) const; }; Bootstrap_Impl::Bootstrap_Impl( OUString const & rIniName ) : _nRefCount( 0 ), _base_ini( nullptr ), _iniName (rIniName) { OUString base_ini(getIniFileName_Impl()); // normalize path FileStatus status( osl_FileStatus_Mask_FileURL ); DirectoryItem dirItem; if (DirectoryItem::get(base_ini, dirItem) == DirectoryItem::E_None && dirItem.getFileStatus(status) == DirectoryItem::E_None) { base_ini = status.getFileURL(); if (rIniName != base_ini) { _base_ini = static_cast< Bootstrap_Impl * >( rtl_bootstrap_args_open(base_ini.pData)); } } SAL_INFO("sal.bootstrap", "Bootstrap_Impl(): sFile=" << _iniName); oslFileHandle handle; if (!_iniName.isEmpty() && osl_openFile(_iniName.pData, &handle, osl_File_OpenFlag_Read) == osl_File_E_None) { rtl::ByteSequence seq; while (osl_readLine(handle , reinterpret_cast(&seq)) == osl_File_E_None) { OString line(reinterpret_cast(seq.getConstArray()), seq.getLength()); sal_Int32 nIndex = line.indexOf('='); if (nIndex >= 1) { struct rtl_bootstrap_NameValue nameValue; nameValue.sName = OStringToOUString(line.copy(0,nIndex).trim(), RTL_TEXTENCODING_ASCII_US); nameValue.sValue = OStringToOUString(line.copy(nIndex+1).trim(), RTL_TEXTENCODING_UTF8); SAL_INFO("sal.bootstrap", "pushing: name=" << nameValue.sName << " value=" << nameValue.sValue); _nameValueVector.push_back(nameValue); } } osl_closeFile(handle); } else { SAL_INFO( "sal.bootstrap", "couldn't open file: " << _iniName ); } } Bootstrap_Impl::~Bootstrap_Impl() { if (_base_ini) rtl_bootstrap_args_close( _base_ini ); } namespace { Bootstrap_Impl * get_static_bootstrap_handle() { static Bootstrap_Impl* s_handle = []() { OUString iniName(getIniFileName_Impl()); Bootstrap_Impl* that = static_cast(rtl_bootstrap_args_open(iniName.pData)); if (!that) { that = new Bootstrap_Impl(iniName); ++that->_nRefCount; } return that; }(); return s_handle; } struct FundamentalIniData { rtlBootstrapHandle ini; FundamentalIniData() { OUString uri; ini = (get_static_bootstrap_handle()->getValue( "URE_BOOTSTRAP", &uri.pData, nullptr, LOOKUP_MODE_NORMAL, false, nullptr) && resolvePathnameUrl(&uri)) ? rtl_bootstrap_args_open(uri.pData) : nullptr; } ~FundamentalIniData() { rtl_bootstrap_args_close(ini); } FundamentalIniData(const FundamentalIniData&) = delete; FundamentalIniData& operator=(const FundamentalIniData&) = delete; }; struct FundamentalIni: public rtl::Static< FundamentalIniData, FundamentalIni > {}; } bool Bootstrap_Impl::getValue( OUString const & key, rtl_uString ** value, rtl_uString * defaultValue, LookupMode mode, bool override, ExpandRequestLink const * requestStack) const { if (mode == LOOKUP_MODE_NORMAL && key == "URE_BOOTSTRAP") mode = LOOKUP_MODE_URE_BOOTSTRAP; if (override && getDirectValue(key, value, mode, requestStack)) return true; if (key == "_OS") { rtl_uString_assign( value, OUString(RTL_OS).pData); return true; } if (key == "_ARCH") { rtl_uString_assign( value, OUString(RTL_ARCH).pData); return true; } if (key == "_CPPU_ENV") { rtl_uString_assign( value, (OUString( SAL_STRINGIFY(CPPU_ENV)). pData)); return true; } #ifdef ANDROID if (key == "APP_DATA_DIR") { const char *app_data_dir = lo_get_app_data_dir(); rtl_uString_assign( value, OUString(app_data_dir, strlen(app_data_dir), RTL_TEXTENCODING_UTF8).pData); return true; } #endif #ifdef IOS if (key == "APP_DATA_DIR") { const char *app_data_dir = [[[[NSBundle mainBundle] bundlePath] stringByAddingPercentEncodingWithAllowedCharacters: [NSCharacterSet URLPathAllowedCharacterSet]] UTF8String]; rtl_uString_assign( value, OUString(app_data_dir, strlen(app_data_dir), RTL_TEXTENCODING_UTF8).pData); return true; } #endif if (key == "ORIGIN") { rtl_uString_assign( value, _iniName.copy( 0, std::max(0, _iniName.lastIndexOf('/'))).pData); return true; } if (getAmbienceValue(key, value, mode, requestStack)) return true; if (key == "SYSUSERCONFIG") { OUString v; bool b = osl::Security().getConfigDir(v); EnsureNoFinalSlash(v); rtl_uString_assign(value, v.pData); return b; } if (key == "SYSUSERHOME") { OUString v; bool b = osl::Security().getHomeDir(v); EnsureNoFinalSlash(v); rtl_uString_assign(value, v.pData); return b; } if (key == "SYSBINDIR") { getExecutableDirectory_Impl(value); return true; } if (_base_ini != nullptr && _base_ini->getDirectValue(key, value, mode, requestStack)) return true; if (!override && getDirectValue(key, value, mode, requestStack)) return true; if (mode == LOOKUP_MODE_NORMAL) { FundamentalIniData const & d = FundamentalIni::get(); Bootstrap_Impl const * b = static_cast(d.ini); if (b != nullptr && b != this && b->getDirectValue(key, value, mode, requestStack)) return true; } if (defaultValue != nullptr) { rtl_uString_assign(value, defaultValue); return true; } rtl_uString_new(value); return false; } bool Bootstrap_Impl::getDirectValue( OUString const & key, rtl_uString ** value, LookupMode mode, ExpandRequestLink const * requestStack) const { OUString v; if (find(_nameValueVector, key, &v)) { expandValue(value, v, mode, this, key, requestStack); return true; } return false; } bool Bootstrap_Impl::getAmbienceValue( OUString const & key, rtl_uString ** value, LookupMode mode, ExpandRequestLink const * requestStack) const { OUString v; bool f; { osl::MutexGuard g(osl::Mutex::getGlobalMutex()); f = find(rtl_bootstrap_set_vector::get(), key, &v); } if (f || getFromCommandLineArgs(key, &v) || osl_getEnvironment(key.pData, &v.pData) == osl_Process_E_None) { expandValue(value, v, mode, nullptr, key, requestStack); return true; } return false; } void Bootstrap_Impl::expandValue( rtl_uString ** value, OUString const & text, LookupMode mode, Bootstrap_Impl const * requestFile, OUString const & requestKey, ExpandRequestLink const * requestStack) const { rtl_uString_assign( value, (mode == LOOKUP_MODE_URE_BOOTSTRAP && isPathnameUrl(text) ? text : recursivelyExpandMacros( this, text, (mode == LOOKUP_MODE_URE_BOOTSTRAP ? LOOKUP_MODE_URE_BOOTSTRAP_EXPANSION : mode), requestFile, requestKey, requestStack)).pData); } namespace { struct bootstrap_map { typedef std::unordered_map< OUString, Bootstrap_Impl * > t; bootstrap_map(const bootstrap_map&) = delete; bootstrap_map& operator=(const bootstrap_map&) = delete; // get and release must only be called properly synchronized via some mutex // (e.g., osl::Mutex::getGlobalMutex()): static t * get() { if (!m_map) m_map = new t; return m_map; } static void release() { if (m_map != nullptr && m_map->empty()) { delete m_map; m_map = nullptr; } } private: static t * m_map; }; bootstrap_map::t * bootstrap_map::m_map = nullptr; } rtlBootstrapHandle SAL_CALL rtl_bootstrap_args_open(rtl_uString * pIniName) { OUString iniName( pIniName ); // normalize path FileStatus status(osl_FileStatus_Mask_FileURL); DirectoryItem dirItem; if (DirectoryItem::get(iniName, dirItem) != DirectoryItem::E_None || dirItem.getFileStatus(status) != DirectoryItem::E_None) { return nullptr; } iniName = status.getFileURL(); Bootstrap_Impl * that; osl::ResettableMutexGuard guard(osl::Mutex::getGlobalMutex()); bootstrap_map::t* p_bootstrap_map = bootstrap_map::get(); bootstrap_map::t::const_iterator iFind(p_bootstrap_map->find(iniName)); if (iFind == p_bootstrap_map->end()) { bootstrap_map::release(); guard.clear(); that = new Bootstrap_Impl(iniName); guard.reset(); p_bootstrap_map = bootstrap_map::get(); iFind = p_bootstrap_map->find(iniName); if (iFind == p_bootstrap_map->end()) { ++that->_nRefCount; ::std::pair< bootstrap_map::t::iterator, bool > insertion( p_bootstrap_map->emplace(iniName, that)); OSL_ASSERT(insertion.second); } else { Bootstrap_Impl * obsolete = that; that = iFind->second; ++that->_nRefCount; guard.clear(); delete obsolete; } } else { that = iFind->second; ++that->_nRefCount; } return static_cast< rtlBootstrapHandle >( that ); } void SAL_CALL rtl_bootstrap_args_close(rtlBootstrapHandle handle) SAL_THROW_EXTERN_C() { if (!handle) return; Bootstrap_Impl * that = static_cast< Bootstrap_Impl * >( handle ); osl::MutexGuard guard(osl::Mutex::getGlobalMutex()); bootstrap_map::t* p_bootstrap_map = bootstrap_map::get(); OSL_ASSERT(p_bootstrap_map->find(that->_iniName)->second == that); --that->_nRefCount; if (that->_nRefCount == 0) { std::size_t const nLeaking = 8; // only hold up to 8 files statically if (p_bootstrap_map->size() > nLeaking) { ::std::size_t erased = p_bootstrap_map->erase( that->_iniName ); if (erased != 1) { OSL_ASSERT( false ); } delete that; } bootstrap_map::release(); } } sal_Bool SAL_CALL rtl_bootstrap_get_from_handle( rtlBootstrapHandle handle, rtl_uString * pName, rtl_uString ** ppValue, rtl_uString * pDefault ) { osl::MutexGuard guard(osl::Mutex::getGlobalMutex()); bool found = false; if(ppValue && pName) { if (!handle) handle = get_static_bootstrap_handle(); found = static_cast< Bootstrap_Impl * >(handle)->getValue( pName, ppValue, pDefault, LOOKUP_MODE_NORMAL, false, nullptr ); } return found; } void SAL_CALL rtl_bootstrap_get_iniName_from_handle ( rtlBootstrapHandle handle, rtl_uString ** ppIniName ) { if(ppIniName) { if(handle) { Bootstrap_Impl * pImpl = static_cast(handle); rtl_uString_assign(ppIniName, pImpl->_iniName.pData); } else { const OUString & iniName = getIniFileName_Impl(); rtl_uString_assign(ppIniName, iniName.pData); } } } void SAL_CALL rtl_bootstrap_setIniFileName ( rtl_uString * pName ) { osl::MutexGuard guard(osl::Mutex::getGlobalMutex()); OUString & file = getIniFileName_Impl(); file = pName; } sal_Bool SAL_CALL rtl_bootstrap_get ( rtl_uString * pName, rtl_uString ** ppValue, rtl_uString * pDefault ) { return rtl_bootstrap_get_from_handle(nullptr, pName, ppValue, pDefault); } void SAL_CALL rtl_bootstrap_set ( rtl_uString * pName, rtl_uString * pValue ) { const OUString name(pName); const OUString value(pValue); osl::MutexGuard guard(osl::Mutex::getGlobalMutex()); NameValueVector& r_rtl_bootstrap_set_vector= rtl_bootstrap_set_vector::get(); for (auto & item : r_rtl_bootstrap_set_vector) { if (item.sName == name) { item.sValue = value; return; } } SAL_INFO("sal.bootstrap", "explicitly getting: name=" << name << " value=" <(handle), OUString::unacquired(macro), LOOKUP_MODE_NORMAL, nullptr)); rtl_uString_assign(macro, expanded.pData); } void SAL_CALL rtl_bootstrap_expandMacros(rtl_uString ** macro) { rtl_bootstrap_expandMacros_from_handle(nullptr, macro); } void rtl_bootstrap_encode(rtl_uString const * value, rtl_uString ** encoded) { OSL_ASSERT(value); OUStringBuffer b; for (sal_Int32 i = 0; i < value->length; ++i) { sal_Unicode c = value->buffer[i]; if (c == '$' || c == '\\') b.append('\\'); b.append(c); } rtl_uString_assign(encoded, b.makeStringAndClear().pData); } namespace { int hex(sal_Unicode c) { return c >= '0' && c <= '9' ? c - '0' : c >= 'A' && c <= 'F' ? c - 'A' + 10 : c >= 'a' && c <= 'f' ? c - 'a' + 10 : -1; } sal_Unicode read(OUString const & text, sal_Int32 * pos, bool * escaped) { OSL_ASSERT(pos && *pos >= 0 && *pos < text.getLength() && escaped); sal_Unicode c = text[(*pos)++]; if (c == '\\') { int n1, n2, n3, n4; if (*pos < text.getLength() - 4 && text[*pos] == 'u' && ((n1 = hex(text[*pos + 1])) >= 0) && ((n2 = hex(text[*pos + 2])) >= 0) && ((n3 = hex(text[*pos + 3])) >= 0) && ((n4 = hex(text[*pos + 4])) >= 0)) { *pos += 5; *escaped = true; return static_cast< sal_Unicode >( (n1 << 12) | (n2 << 8) | (n3 << 4) | n4); } if (*pos < text.getLength()) { *escaped = true; return text[(*pos)++]; } } *escaped = false; return c; } OUString lookup( Bootstrap_Impl const * file, LookupMode mode, bool override, OUString const & key, ExpandRequestLink const * requestStack) { OUString v; (file == nullptr ? get_static_bootstrap_handle() : file)->getValue( key, &v.pData, nullptr, mode, override, requestStack); return v; } OUString expandMacros( Bootstrap_Impl const * file, OUString const & text, LookupMode mode, ExpandRequestLink const * requestStack) { SAL_INFO("sal.bootstrap", "expandMacros called with: " << text); OUStringBuffer buf; for (sal_Int32 i = 0; i < text.getLength();) { bool escaped; sal_Unicode c = read(text, &i, &escaped); if (escaped || c != '$') { buf.append(c); } else { if (i < text.getLength() && text[i] == '{') { ++i; sal_Int32 p = i; sal_Int32 nesting = 0; OUString seg[3]; int n = 0; while (i < text.getLength()) { sal_Int32 j = i; c = read(text, &i, &escaped); if (!escaped) { switch (c) { case '{': ++nesting; break; case '}': if (nesting == 0) { seg[n++] = text.copy(p, j - p); goto done; } else { --nesting; } break; case ':': if (nesting == 0 && n < 2) { seg[n++] = text.copy(p, j - p); p = i; } break; } } } done: for (int j = 0; j < n; ++j) { seg[j] = expandMacros(file, seg[j], mode, requestStack); } if (n == 1) { buf.append(lookup(file, mode, false, seg[0], requestStack)); } else if (n == 3 && seg[0] == ".override") { rtl::Bootstrap b(seg[1]); Bootstrap_Impl * f = static_cast< Bootstrap_Impl * >(b.getHandle()); buf.append(lookup(f, mode, f != nullptr, seg[2], requestStack)); } else { if (n == 3 && seg[1].isEmpty()) { // For backward compatibility, treat ${file::key} the // same as just ${file:key}: seg[1] = seg[2]; n = 2; } if (n == 2) { buf.append( lookup( static_cast< Bootstrap_Impl * >( rtl::Bootstrap(seg[0]).getHandle()), mode, false, seg[1], requestStack)); } else { // Going through osl::Profile, this code erroneously // does not recursively expand macros in the resulting // replacement text (and if it did, it would fail to // detect cycles that pass through here): buf.append( OStringToOUString( osl::Profile(seg[0]).readString( OUStringToOString( seg[1], RTL_TEXTENCODING_UTF8), OUStringToOString( seg[2], RTL_TEXTENCODING_UTF8), OString()), RTL_TEXTENCODING_UTF8)); } } } else { OUStringBuffer kbuf; for (; i < text.getLength();) { sal_Int32 j = i; c = read(text, &j, &escaped); if (!escaped && (c == ' ' || c == '$' || c == '-' || c == '/' || c == ';' || c == '\\')) { break; } kbuf.append(c); i = j; } buf.append( lookup( file, mode, false, kbuf.makeStringAndClear(), requestStack)); } } } OUString result(buf.makeStringAndClear()); SAL_INFO("sal.bootstrap", "expandMacros result: " << result); return result; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */