/* -*- 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 "migration_impl.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace osl; using namespace std; using namespace com::sun::star::task; using namespace com::sun::star::lang; using namespace com::sun::star::beans; using namespace com::sun::star::util; using namespace com::sun::star::container; using com::sun::star::uno::Exception; using namespace com::sun::star; namespace desktop { static const char ITEM_DESCRIPTOR_COMMANDURL[] = "CommandURL"; static const char ITEM_DESCRIPTOR_CONTAINER[] = "ItemDescriptorContainer"; static const char ITEM_DESCRIPTOR_LABEL[] = "Label"; static OUString mapModuleShortNameToIdentifier(const OUString& sShortName) { OUString sIdentifier; if ( sShortName == "StartModule" ) sIdentifier = "com.sun.star.frame.StartModule"; else if ( sShortName == "swriter" ) sIdentifier = "com.sun.star.text.TextDocument"; else if ( sShortName == "scalc" ) sIdentifier = "com.sun.star.sheet.SpreadsheetDocument"; else if ( sShortName == "sdraw" ) sIdentifier = "com.sun.star.drawing.DrawingDocument"; else if ( sShortName == "simpress" ) sIdentifier = "com.sun.star.presentation.PresentationDocument"; else if ( sShortName == "smath" ) sIdentifier = "com.sun.star.formula.FormulaProperties"; else if ( sShortName == "schart" ) sIdentifier = "com.sun.star.chart2.ChartDocument"; else if ( sShortName == "BasicIDE" ) sIdentifier = "com.sun.star.script.BasicIDE"; else if ( sShortName == "dbapp" ) sIdentifier = "com.sun.star.sdb.OfficeDatabaseDocument"; else if ( sShortName == "sglobal" ) sIdentifier = "com.sun.star.text.GlobalDocument"; else if ( sShortName == "sweb" ) sIdentifier = "com.sun.star.text.WebDocument"; else if ( sShortName == "swxform" ) sIdentifier = "com.sun.star.xforms.XMLFormDocument"; else if ( sShortName == "sbibliography" ) sIdentifier = "com.sun.star.frame.Bibliography"; return sIdentifier; } bool MigrationImpl::alreadyMigrated() { OUString const MIGRATION_STAMP_NAME("/MIGRATED4"); OUString aStr = m_aInfo.userdata + MIGRATION_STAMP_NAME; File aFile(aStr); // create migration stamp, and/or check its existence bool bRet = aFile.open (osl_File_OpenFlag_Write | osl_File_OpenFlag_Create | osl_File_OpenFlag_NoLock) == FileBase::E_EXIST; SAL_INFO( "desktop.migration", "File '" << aStr << "' exists? " << bRet ); return bRet; } bool MigrationImpl::initializeMigration() { bool bRet = false; if (!checkMigrationCompleted()) { readAvailableMigrations(m_vMigrationsAvailable); sal_Int32 nIndex = findPreferredMigrationProcess(m_vMigrationsAvailable); // m_aInfo is now set to the preferred migration source if ( nIndex >= 0 ) { if (alreadyMigrated()) return false; m_vrMigrations = readMigrationSteps(m_vMigrationsAvailable[nIndex].name); } bRet = !m_aInfo.userdata.isEmpty(); } SAL_INFO( "desktop.migration", "Migration " << ( bRet ? "needed" : "not required" ) ); return bRet; } void Migration::migrateSettingsIfNecessary() { MigrationImpl aImpl; if (! aImpl.initializeMigration() ) return; bool bResult = false; try { bResult = aImpl.doMigration(); } catch (const Exception&) { TOOLS_WARN_EXCEPTION( "desktop", "doMigration()"); } OSL_ENSURE(bResult, "Migration has not been successful"); } MigrationImpl::MigrationImpl() { } MigrationImpl::~MigrationImpl() { } // The main entry point for migrating settings bool MigrationImpl::doMigration() { // compile file list for migration m_vrFileList = compileFileList(); bool result = false; try { NewVersionUIInfo aNewVersionUIInfo; std::vector< MigrationModuleInfo > vModulesInfo = dectectUIChangesForAllModules(); aNewVersionUIInfo.init(vModulesInfo); copyFiles(); const OUString sMenubarResourceURL("private:resource/menubar/menubar"); const OUString sToolbarResourcePre("private:resource/toolbar/"); for (MigrationModuleInfo & i : vModulesInfo) { OUString sModuleIdentifier = mapModuleShortNameToIdentifier(i.sModuleShortName); if (sModuleIdentifier.isEmpty()) continue; OUString aOldCfgDataPath = m_aInfo.userdata + "/user/config/soffice.cfg/modules/" + i.sModuleShortName; uno::Sequence< uno::Any > lArgs {uno::makeAny(aOldCfgDataPath), uno::makeAny(embed::ElementModes::READ)}; uno::Reference< uno::XComponentContext > xContext(comphelper::getProcessComponentContext()); uno::Reference< lang::XSingleServiceFactory > xStorageFactory(embed::FileSystemStorageFactory::create(xContext)); uno::Reference< embed::XStorage > xModules(xStorageFactory->createInstanceWithArguments(lArgs), uno::UNO_QUERY); uno::Reference< ui::XUIConfigurationManager2 > xOldCfgManager = ui::UIConfigurationManager::create(xContext); if ( xModules.is() ) { xOldCfgManager->setStorage( xModules ); xOldCfgManager->reload(); } uno::Reference< ui::XUIConfigurationManager > xCfgManager = aNewVersionUIInfo.getConfigManager(i.sModuleShortName); if (i.bHasMenubar) { uno::Reference< container::XIndexContainer > xOldVersionMenuSettings(xOldCfgManager->getSettings(sMenubarResourceURL, true), uno::UNO_QUERY); uno::Reference< container::XIndexContainer > xNewVersionMenuSettings = aNewVersionUIInfo.getNewMenubarSettings(i.sModuleShortName); compareOldAndNewConfig(OUString(), xOldVersionMenuSettings, xNewVersionMenuSettings, sMenubarResourceURL); mergeOldToNewVersion(xCfgManager, xNewVersionMenuSettings, sModuleIdentifier, sMenubarResourceURL); } sal_Int32 nToolbars = i.m_vToolbars.size(); if (nToolbars >0) { for (sal_Int32 j=0; j xOldVersionToolbarSettings(xOldCfgManager->getSettings(sToolbarResourceURL, true), uno::UNO_QUERY); uno::Reference< container::XIndexContainer > xNewVersionToolbarSettings = aNewVersionUIInfo.getNewToolbarSettings(i.sModuleShortName, sToolbarName); compareOldAndNewConfig(OUString(), xOldVersionToolbarSettings, xNewVersionToolbarSettings, sToolbarResourceURL); mergeOldToNewVersion(xCfgManager, xNewVersionToolbarSettings, sModuleIdentifier, sToolbarResourceURL); } } m_aOldVersionItemsHashMap.clear(); } // execute the migration items from Setup.xcu copyConfig(); // execute custom migration services from Setup.xcu // and refresh the cache runServices(); uno::Reference< XRefreshable >( configuration::theDefaultProvider::get(comphelper::getProcessComponentContext()), uno::UNO_QUERY_THROW)->refresh(); result = true; } catch (const css::uno::Exception &) { TOOLS_WARN_EXCEPTION( "desktop.migration", "ignored Exception while migrating from version \"" << m_aInfo.productname << "\" data \"" << m_aInfo.userdata << "\""); } // prevent running the migration multiple times setMigrationCompleted(); return result; } void MigrationImpl::setMigrationCompleted() { try { uno::Reference< XPropertySet > aPropertySet(getConfigAccess("org.openoffice.Setup/Office", true), uno::UNO_QUERY_THROW); aPropertySet->setPropertyValue("MigrationCompleted", uno::makeAny(true)); uno::Reference< XChangesBatch >(aPropertySet, uno::UNO_QUERY_THROW)->commitChanges(); } catch (...) { // fail silently } } bool MigrationImpl::checkMigrationCompleted() { bool bMigrationCompleted = false; try { uno::Reference< XPropertySet > aPropertySet( getConfigAccess("org.openoffice.Setup/Office"), uno::UNO_QUERY_THROW); aPropertySet->getPropertyValue("MigrationCompleted") >>= bMigrationCompleted; if( !bMigrationCompleted && getenv("SAL_DISABLE_USERMIGRATION" ) ) { // migration prevented - fake its success setMigrationCompleted(); bMigrationCompleted = true; } } catch (const Exception&) { // just return false... } SAL_INFO( "desktop.migration", "Migration " << ( bMigrationCompleted ? "already completed" : "not done" ) ); return bMigrationCompleted; } static void insertSorted(migrations_available& rAvailableMigrations, supported_migration const & aSupportedMigration) { migrations_available::iterator pIter = std::find_if(rAvailableMigrations.begin(), rAvailableMigrations.end(), [&aSupportedMigration](const supported_migration& rMigration) { return rMigration.nPriority < aSupportedMigration.nPriority; }); if (pIter != rAvailableMigrations.end()) rAvailableMigrations.insert(pIter, aSupportedMigration ); else rAvailableMigrations.push_back( aSupportedMigration ); } void MigrationImpl::readAvailableMigrations(migrations_available& rAvailableMigrations) { // get supported version names uno::Reference< XNameAccess > aMigrationAccess(getConfigAccess("org.openoffice.Setup/Migration/SupportedVersions"), uno::UNO_SET_THROW); const uno::Sequence< OUString > seqSupportedVersions = aMigrationAccess->getElementNames(); const OUString aVersionIdentifiers( "VersionIdentifiers" ); const OUString aPriorityIdentifier( "Priority" ); for (OUString const & supportedVersion :seqSupportedVersions) { sal_Int32 nPriority( 0 ); uno::Sequence< OUString > seqVersions; uno::Reference< XNameAccess > xMigrationData( aMigrationAccess->getByName(supportedVersion), uno::UNO_QUERY_THROW ); xMigrationData->getByName( aVersionIdentifiers ) >>= seqVersions; xMigrationData->getByName( aPriorityIdentifier ) >>= nPriority; supported_migration aSupportedMigration; aSupportedMigration.name = supportedVersion; aSupportedMigration.nPriority = nPriority; for (OUString const & s : std::as_const(seqVersions)) aSupportedMigration.supported_versions.push_back(s.trim()); insertSorted( rAvailableMigrations, aSupportedMigration ); SAL_INFO( "desktop.migration", " available migration '" << aSupportedMigration.name << "'" ); } } migrations_vr MigrationImpl::readMigrationSteps(const OUString& rMigrationName) { // get migration access uno::Reference< XNameAccess > aMigrationAccess(getConfigAccess("org.openoffice.Setup/Migration/SupportedVersions"), uno::UNO_SET_THROW); uno::Reference< XNameAccess > xMigrationData( aMigrationAccess->getByName(rMigrationName), uno::UNO_QUERY_THROW ); // get migration description from org.openoffice.Setup/Migration // and build vector of migration steps uno::Reference< XNameAccess > theNameAccess(xMigrationData->getByName("MigrationSteps"), uno::UNO_QUERY_THROW); uno::Reference< XNameAccess > tmpAccess; uno::Sequence< OUString > tmpSeq; migrations_vr vrMigrations(new migrations_v); const css::uno::Sequence aMigrationSteps = theNameAccess->getElementNames(); for (const OUString& rMigrationStep : aMigrationSteps) { // get current migration step theNameAccess->getByName(rMigrationStep) >>= tmpAccess; migration_step tmpStep; // read included files from current step description if (tmpAccess->getByName("IncludedFiles") >>= tmpSeq) { for (const OUString& rSeqEntry : std::as_const(tmpSeq)) tmpStep.includeFiles.push_back(rSeqEntry); } // excluded files... if (tmpAccess->getByName("ExcludedFiles") >>= tmpSeq) { for (const OUString& rSeqEntry : std::as_const(tmpSeq)) tmpStep.excludeFiles.push_back(rSeqEntry); } // included nodes... if (tmpAccess->getByName("IncludedNodes") >>= tmpSeq) { for (const OUString& rSeqEntry : std::as_const(tmpSeq)) tmpStep.includeConfig.push_back(rSeqEntry); } // excluded nodes... if (tmpAccess->getByName("ExcludedNodes") >>= tmpSeq) { for (const OUString& rSeqEntry : std::as_const(tmpSeq)) tmpStep.excludeConfig.push_back(rSeqEntry); } // excluded extensions... if (tmpAccess->getByName("ExcludedExtensions") >>= tmpSeq) { for (const OUString& rSeqEntry : std::as_const(tmpSeq)) tmpStep.excludeExtensions.push_back(rSeqEntry); } // generic service tmpAccess->getByName("MigrationService") >>= tmpStep.service; vrMigrations->push_back(tmpStep); } return vrMigrations; } static FileBase::RC _checkAndCreateDirectory(INetURLObject const & dirURL) { FileBase::RC result = Directory::create(dirURL.GetMainURL(INetURLObject::DecodeMechanism::ToIUri)); if (result == FileBase::E_NOENT) { INetURLObject baseURL(dirURL); baseURL.removeSegment(); _checkAndCreateDirectory(baseURL); return Directory::create(dirURL.GetMainURL(INetURLObject::DecodeMechanism::ToIUri)); } else return result; } #if defined UNX && ! defined MACOSX static const char XDG_CONFIG_PART[] = "/.config/"; OUString MigrationImpl::preXDGConfigDir(const OUString& rConfigDir) { OUString aPreXDGConfigPath; const char* pXDGCfgHome = getenv("XDG_CONFIG_HOME"); // cater for XDG_CONFIG_HOME change // If XDG_CONFIG_HOME is set then we; // assume the user knows what they are doing ( room for improvement here, we could // of course search the default config dir etc. also - but this is more complex, // we would need to weigh results from the current config dir against matches in // the 'old' config dir etc. ) - currently we just use the returned config dir. // If XDG_CONFIG_HOME is NOT set; // assume then we should now using the default $HOME/.config config location for // our user profiles, however *all* previous libreoffice and openoffice.org // configurations will be in the 'old' config directory and that's where we need // to search - we convert the returned config dir to the 'old' dir if ( !pXDGCfgHome && rConfigDir.endsWith( XDG_CONFIG_PART ) ) // remove trailing '.config/' but leave the terminating '/' aPreXDGConfigPath = rConfigDir.copy( 0, rConfigDir.getLength() - sizeof( XDG_CONFIG_PART ) + 2 ); else aPreXDGConfigPath = rConfigDir; // the application-specific config dir is no longer prefixed by '.' because it is hidden under ".config" // we have to add the '.' for the pre-XDG directory names aPreXDGConfigPath += "."; return aPreXDGConfigPath; } #endif void MigrationImpl::setInstallInfoIfExist( install_info& aInfo, const OUString& rConfigDir, const OUString& rVersion) { OUString url(INetURLObject(rConfigDir).GetMainURL(INetURLObject::DecodeMechanism::NONE)); osl::DirectoryItem item; osl::FileStatus stat(osl_FileStatus_Mask_Type); if (osl::DirectoryItem::get(url, item) == osl::FileBase::E_None && item.getFileStatus(stat) == osl::FileBase::E_None && stat.getFileType() == osl::FileStatus::Directory) { aInfo.userdata = url; aInfo.productname = rVersion; } } install_info MigrationImpl::findInstallation(const strings_v& rVersions) { OUString aTopConfigDir; osl::Security().getConfigDir( aTopConfigDir ); if ( !aTopConfigDir.isEmpty() && aTopConfigDir[ aTopConfigDir.getLength()-1 ] != '/' ) aTopConfigDir += "/"; #if defined UNX && ! defined MACOSX OUString aPreXDGTopConfigDir = preXDGConfigDir(aTopConfigDir); #endif install_info aInfo; for (auto const& elem : rVersions) { OUString aVersion, aProfileName; sal_Int32 nSeparatorIndex = elem.indexOf('='); if ( nSeparatorIndex != -1 ) { aVersion = elem.copy( 0, nSeparatorIndex ); aProfileName = elem.copy( nSeparatorIndex+1 ); } if ( !aVersion.isEmpty() && !aProfileName.isEmpty() && ( aInfo.userdata.isEmpty() || aProfileName.equalsIgnoreAsciiCase( utl::ConfigManager::getProductName() ) ) ) { setInstallInfoIfExist(aInfo, aTopConfigDir + aProfileName, aVersion); #if defined UNX && ! defined MACOSX //try preXDG path if the new one does not exist if ( aInfo.userdata.isEmpty()) setInstallInfoIfExist(aInfo, aPreXDGTopConfigDir + aProfileName, aVersion); #endif } } return aInfo; } sal_Int32 MigrationImpl::findPreferredMigrationProcess(const migrations_available& rAvailableMigrations) { sal_Int32 nIndex( -1 ); sal_Int32 i( 0 ); for (auto const& availableMigration : rAvailableMigrations) { install_info aInstallInfo = findInstallation(availableMigration.supported_versions); if (!aInstallInfo.productname.isEmpty() ) { m_aInfo = aInstallInfo; nIndex = i; break; } ++i; } SAL_INFO( "desktop.migration", " preferred migration is from product '" << m_aInfo.productname << "'"); SAL_INFO( "desktop.migration", " and settings directory '" << m_aInfo.userdata << "'"); return nIndex; } strings_vr MigrationImpl::applyPatterns(const strings_v& vSet, const strings_v& vPatterns) { using namespace utl; strings_vr vrResult(new strings_v); for (auto const& pattern : vPatterns) { // find matches for this pattern in input set // and copy them to the result SearchParam param(pattern, SearchParam::SearchType::Regexp); TextSearch ts(param, LANGUAGE_DONTKNOW); sal_Int32 start = 0; sal_Int32 end = 0; for (auto const& elem : vSet) { end = elem.getLength(); if (ts.SearchForward(elem, &start, &end)) vrResult->push_back(elem); } } return vrResult; } strings_vr MigrationImpl::getAllFiles(const OUString& baseURL) const { strings_vr vrResult(new strings_v); // get sub dirs Directory dir(baseURL); if (dir.open() == FileBase::E_None) { strings_v vSubDirs; strings_vr vrSubResult; // work through directory contents... DirectoryItem item; FileStatus fs(osl_FileStatus_Mask_Type | osl_FileStatus_Mask_FileURL); while (dir.getNextItem(item) == FileBase::E_None) { if (item.getFileStatus(fs) == FileBase::E_None) { if (fs.getFileType() == FileStatus::Directory) vSubDirs.push_back(fs.getFileURL()); else vrResult->push_back(fs.getFileURL()); } } // recurse subfolders for (auto const& subDir : vSubDirs) { vrSubResult = getAllFiles(subDir); vrResult->insert(vrResult->end(), vrSubResult->begin(), vrSubResult->end()); } } return vrResult; } namespace { // removes elements of vector 2 in vector 1 strings_v subtract(strings_v const & va, strings_v const & vb) { strings_v a(va); std::sort(a.begin(), a.end()); strings_v::iterator ae(std::unique(a.begin(), a.end())); strings_v b(vb); std::sort(b.begin(), b.end()); strings_v::iterator be(std::unique(b.begin(), b.end())); strings_v c; std::set_difference(a.begin(), ae, b.begin(), be, std::back_inserter(c)); return c; } } strings_vr MigrationImpl::compileFileList() { strings_vr vrResult(new strings_v); strings_vr vrInclude; strings_vr vrExclude; // get a list of all files: strings_vr vrFiles = getAllFiles(m_aInfo.userdata); // get a file list result for each migration step for (auto const& rMigration : *m_vrMigrations) { vrInclude = applyPatterns(*vrFiles, rMigration.includeFiles); vrExclude = applyPatterns(*vrFiles, rMigration.excludeFiles); strings_v sub(subtract(*vrInclude, *vrExclude)); vrResult->insert(vrResult->end(), sub.begin(), sub.end()); } return vrResult; } namespace { struct componentParts { std::set< OUString > includedPaths; std::set< OUString > excludedPaths; }; typedef std::map< OUString, componentParts > Components; bool getComponent(OUString const & path, OUString * component) { OSL_ASSERT(component != nullptr); if (path.isEmpty() || path[0] != '/') { SAL_INFO( "desktop.migration", "configuration migration in/exclude path " << path << " ignored (does not start with slash)" ); return false; } sal_Int32 i = path.indexOf('/', 1); *component = i < 0 ? path.copy(1) : path.copy(1, i - 1); return true; } } void MigrationImpl::copyConfig() { Components comps; for (auto const& rMigrationStep : *m_vrMigrations) { for (const OUString& rIncludePath : rMigrationStep.includeConfig) { OUString comp; if (getComponent(rIncludePath, &comp)) { comps[comp].includedPaths.insert(rIncludePath); } } for (const OUString& rExcludePath : rMigrationStep.excludeConfig) { OUString comp; if (getComponent(rExcludePath, &comp)) { comps[comp].excludedPaths.insert(rExcludePath); } } } // check if the shared registrymodifications.xcu file exists bool bRegistryModificationsXcuExists = false; OUString regFilePath = m_aInfo.userdata + "/user/registrymodifications.xcu"; File regFile(regFilePath); ::osl::FileBase::RC nError = regFile.open(osl_File_OpenFlag_Read); if ( nError == ::osl::FileBase::E_None ) { bRegistryModificationsXcuExists = true; regFile.close(); } for (auto const& comp : comps) { if (!comp.second.includedPaths.empty()) { if (!bRegistryModificationsXcuExists) { // shared registrymodifications.xcu does not exists // the configuration is split in many registry files // determine the file names from the first element in included paths OUStringBuffer buf(m_aInfo.userdata); buf.append("/user/registry/data"); sal_Int32 n = 0; do { OUString seg(comp.first.getToken(0, '.', n)); OUString enc( rtl::Uri::encode( seg, rtl_UriCharClassPchar, rtl_UriEncodeStrict, RTL_TEXTENCODING_UTF8)); if (enc.isEmpty() && !seg.isEmpty()) { SAL_INFO( "desktop.migration", "configuration migration component " << comp.first << " ignored (cannot be encoded as file path)" ); goto next; } buf.append('/'); buf.append(enc); } while (n >= 0); buf.append(".xcu"); regFilePath = buf.toString(); } configuration::Update::get( comphelper::getProcessComponentContext())-> insertModificationXcuFile( regFilePath, comphelper::containerToSequence(comp.second.includedPaths), comphelper::containerToSequence(comp.second.excludedPaths)); } else { SAL_INFO( "desktop.migration", "configuration migration component " << comp.first << " ignored (only excludes, no includes)" ); } next: ; } } uno::Reference< XNameAccess > MigrationImpl::getConfigAccess(const char* pPath, bool bUpdate) { uno::Reference< XNameAccess > xNameAccess; try { OUString sAccessSrvc; if (bUpdate) sAccessSrvc = "com.sun.star.configuration.ConfigurationUpdateAccess"; else sAccessSrvc = "com.sun.star.configuration.ConfigurationAccess"; OUString sConfigURL = OUString::createFromAscii(pPath); uno::Reference< XMultiServiceFactory > theConfigProvider( configuration::theDefaultProvider::get( comphelper::getProcessComponentContext())); // access the provider uno::Sequence< uno::Any > theArgs {uno::makeAny(sConfigURL)}; xNameAccess.set( theConfigProvider->createInstanceWithArguments( sAccessSrvc, theArgs ), uno::UNO_QUERY_THROW ); } catch (const css::uno::Exception&) { TOOLS_WARN_EXCEPTION("desktop.migration", "ignoring"); } return xNameAccess; } void MigrationImpl::copyFiles() { OUString localName; OUString destName; OUString userInstall; utl::Bootstrap::PathStatus aStatus; aStatus = utl::Bootstrap::locateUserInstallation(userInstall); if (aStatus == utl::Bootstrap::PATH_EXISTS) { for (auto const& rFile : *m_vrFileList) { // remove installation prefix from file localName = rFile.copy(m_aInfo.userdata.getLength()); if (localName.endsWith( "/autocorr/acor_.dat")) { // Previous versions used an empty language tag for // LANGUAGE_DONTKNOW with the "[All]" autocorrection entry. // As of LibreOffice 4.0 it is 'und' for LANGUAGE_UNDETERMINED // so the file name is "acor_und.dat". localName = localName.copy( 0, localName.getLength() - 4) + "und.dat"; } destName = userInstall + localName; INetURLObject aURL(destName); // check whether destination directory exists aURL.removeSegment(); _checkAndCreateDirectory(aURL); FileBase::RC copyResult = File::copy(rFile, destName); if (copyResult != FileBase::E_None) { SAL_WARN( "desktop", "Cannot copy " << rFile << " to " << destName); } } } else { OSL_FAIL("copyFiles: UserInstall does not exist"); } } void MigrationImpl::runServices() { // Build argument array uno::Sequence< uno::Any > seqArguments(3); seqArguments[0] <<= NamedValue("Productname", uno::makeAny(m_aInfo.productname)); seqArguments[1] <<= NamedValue("UserData", uno::makeAny(m_aInfo.userdata)); // create an instance of every migration service // and execute the migration job uno::Reference< XJob > xMigrationJob; uno::Reference< uno::XComponentContext > xContext(comphelper::getProcessComponentContext()); for (auto const& rMigration : *m_vrMigrations) { if( !rMigration.service.isEmpty()) { try { // set black list for extension migration uno::Sequence< OUString > seqExtBlackList; sal_uInt32 nSize = rMigration.excludeExtensions.size(); if ( nSize > 0 ) seqExtBlackList = comphelper::arrayToSequence< OUString >( rMigration.excludeExtensions.data(), nSize ); seqArguments[2] <<= NamedValue("ExtensionBlackList", uno::makeAny( seqExtBlackList )); xMigrationJob.set( xContext->getServiceManager()->createInstanceWithArgumentsAndContext(rMigration.service, seqArguments, xContext), uno::UNO_QUERY_THROW); xMigrationJob->execute(uno::Sequence< NamedValue >()); } catch (const Exception&) { TOOLS_WARN_EXCEPTION( "desktop", "Execution of migration service failed. Service: " << rMigration.service); } catch (...) { SAL_WARN( "desktop", "Execution of migration service failed (Exception caught).\nService: " << rMigration.service << "\nNo message available"); } } } } std::vector< MigrationModuleInfo > MigrationImpl::dectectUIChangesForAllModules() const { std::vector< MigrationModuleInfo > vModulesInfo; const OUString MENUBAR("menubar"); const OUString TOOLBAR("toolbar"); uno::Sequence< uno::Any > lArgs {uno::makeAny(m_aInfo.userdata + "/user/config/soffice.cfg/modules"), uno::makeAny(embed::ElementModes::READ)}; uno::Reference< lang::XSingleServiceFactory > xStorageFactory( embed::FileSystemStorageFactory::create(comphelper::getProcessComponentContext())); uno::Reference< embed::XStorage > xModules; xModules.set(xStorageFactory->createInstanceWithArguments(lArgs), uno::UNO_QUERY); if (!xModules.is()) return vModulesInfo; uno::Sequence< OUString > lNames = xModules->getElementNames(); sal_Int32 nLength = lNames.getLength(); for (sal_Int32 i=0; i xModule = xModules->openStorageElement(sModuleShortName, embed::ElementModes::READ); if (xModule.is()) { MigrationModuleInfo aModuleInfo; uno::Reference< embed::XStorage > xMenubar = xModule->openStorageElement(MENUBAR, embed::ElementModes::READ); if (xMenubar.is()) { if (xMenubar->getElementNames().hasElements()) { aModuleInfo.sModuleShortName = sModuleShortName; aModuleInfo.bHasMenubar = true; } } uno::Reference< embed::XStorage > xToolbar = xModule->openStorageElement(TOOLBAR, embed::ElementModes::READ); if (xToolbar.is()) { const ::uno::Sequence< OUString > lToolbars = xToolbar->getElementNames(); for (OUString const & sToolbarName : lToolbars) { if (sToolbarName.startsWith("custom_")) continue; aModuleInfo.sModuleShortName = sModuleShortName; sal_Int32 nIndex = sToolbarName.lastIndexOf('.'); if (nIndex > 0) { OUString sExtension(sToolbarName.copy(nIndex)); OUString sToolbarResourceName(sToolbarName.copy(0, nIndex)); if (!sToolbarResourceName.isEmpty() && sExtension == ".xml") aModuleInfo.m_vToolbars.push_back(sToolbarResourceName); } } } if (!aModuleInfo.sModuleShortName.isEmpty()) vModulesInfo.push_back(aModuleInfo); } } return vModulesInfo; } void MigrationImpl::compareOldAndNewConfig(const OUString& sParent, const uno::Reference< container::XIndexContainer >& xIndexOld, const uno::Reference< container::XIndexContainer >& xIndexNew, const OUString& sResourceURL) { const OUString MENU_SEPARATOR(" | "); std::vector< MigrationItem > vOldItems; std::vector< MigrationItem > vNewItems; uno::Sequence< beans::PropertyValue > aProps; sal_Int32 nOldCount = xIndexOld->getCount(); sal_Int32 nNewCount = xIndexNew->getCount(); for (int n=0; ngetByIndex(n) >>= aProps) { for(beans::PropertyValue const & prop : std::as_const(aProps)) { if ( prop.Name == ITEM_DESCRIPTOR_COMMANDURL ) prop.Value >>= aMigrationItem.m_sCommandURL; else if ( prop.Name == ITEM_DESCRIPTOR_CONTAINER ) prop.Value >>= aMigrationItem.m_xPopupMenu; } if (!aMigrationItem.m_sCommandURL.isEmpty()) vOldItems.push_back(aMigrationItem); } } for (int n=0; ngetByIndex(n) >>= aProps) { for(beans::PropertyValue const & prop : std::as_const(aProps)) { if ( prop.Name == ITEM_DESCRIPTOR_COMMANDURL ) prop.Value >>= aMigrationItem.m_sCommandURL; else if ( prop.Name == ITEM_DESCRIPTOR_CONTAINER ) prop.Value >>= aMigrationItem.m_xPopupMenu; } if (!aMigrationItem.m_sCommandURL.isEmpty()) vNewItems.push_back(aMigrationItem); } } OUString sSibling; for (auto const& oldItem : vOldItems) { std::vector< MigrationItem >::iterator pFound = std::find(vNewItems.begin(), vNewItems.end(), oldItem); if (pFound != vNewItems.end() && oldItem.m_xPopupMenu.is()) { OUString sName; if (!sParent.isEmpty()) sName = sParent + MENU_SEPARATOR + oldItem.m_sCommandURL; else sName = oldItem.m_sCommandURL; compareOldAndNewConfig(sName, oldItem.m_xPopupMenu, pFound->m_xPopupMenu, sResourceURL); } else if (pFound == vNewItems.end()) { MigrationItem aMigrationItem(sParent, sSibling, oldItem.m_sCommandURL, oldItem.m_xPopupMenu); if (m_aOldVersionItemsHashMap.find(sResourceURL)==m_aOldVersionItemsHashMap.end()) { std::vector< MigrationItem > vMigrationItems; m_aOldVersionItemsHashMap.emplace(sResourceURL, vMigrationItems); m_aOldVersionItemsHashMap[sResourceURL].push_back(aMigrationItem); } else { if (std::find(m_aOldVersionItemsHashMap[sResourceURL].begin(), m_aOldVersionItemsHashMap[sResourceURL].end(), aMigrationItem)==m_aOldVersionItemsHashMap[sResourceURL].end()) m_aOldVersionItemsHashMap[sResourceURL].push_back(aMigrationItem); } } sSibling = oldItem.m_sCommandURL; } } void MigrationImpl::mergeOldToNewVersion(const uno::Reference< ui::XUIConfigurationManager >& xCfgManager, const uno::Reference< container::XIndexContainer>& xIndexContainer, const OUString& sModuleIdentifier, const OUString& sResourceURL) { MigrationHashMap::iterator pFound = m_aOldVersionItemsHashMap.find(sResourceURL); if (pFound==m_aOldVersionItemsHashMap.end()) return; for (auto const& elem : pFound->second) { uno::Reference< container::XIndexContainer > xTemp = xIndexContainer; OUString sParentNodeName = elem.m_sParentNodeName; sal_Int32 nIndex = 0; do { OUString sToken = sParentNodeName.getToken(0, '|', nIndex).trim(); if (sToken.isEmpty()) break; sal_Int32 nCount = xTemp->getCount(); for (sal_Int32 i=0; i xChild; uno::Sequence< beans::PropertyValue > aPropSeq; xTemp->getByIndex(i) >>= aPropSeq; for (beans::PropertyValue const & prop : std::as_const(aPropSeq)) { OUString sPropName = prop.Name; if ( sPropName == ITEM_DESCRIPTOR_COMMANDURL ) prop.Value >>= sCommandURL; else if ( sPropName == ITEM_DESCRIPTOR_LABEL ) prop.Value >>= sLabel; else if ( sPropName == ITEM_DESCRIPTOR_CONTAINER ) prop.Value >>= xChild; } if (sCommandURL == sToken) { xTemp = xChild; break; } } } while (nIndex >= 0); if (nIndex == -1) { auto aProperties = vcl::CommandInfoProvider::GetCommandProperties(elem.m_sCommandURL, sModuleIdentifier); uno::Sequence< beans::PropertyValue > aPropSeq { beans::PropertyValue(ITEM_DESCRIPTOR_COMMANDURL, 0, uno::makeAny(elem.m_sCommandURL), beans::PropertyState_DIRECT_VALUE), beans::PropertyValue(ITEM_DESCRIPTOR_LABEL, 0, uno::makeAny(vcl::CommandInfoProvider::GetLabelForCommand(aProperties)), beans::PropertyState_DIRECT_VALUE), beans::PropertyValue(ITEM_DESCRIPTOR_CONTAINER, 0, uno::makeAny(elem.m_xPopupMenu), beans::PropertyState_DIRECT_VALUE) }; if (elem.m_sPrevSibling.isEmpty()) xTemp->insertByIndex(0, uno::makeAny(aPropSeq)); else { sal_Int32 nCount = xTemp->getCount(); sal_Int32 i = 0; for (; i aTempPropSeq; xTemp->getByIndex(i) >>= aTempPropSeq; for (beans::PropertyValue const & prop : std::as_const(aTempPropSeq)) { if ( prop.Name == ITEM_DESCRIPTOR_COMMANDURL ) { prop.Value >>= sCmd; break; } } if (sCmd == elem.m_sPrevSibling) break; } xTemp->insertByIndex(i+1, uno::makeAny(aPropSeq)); } } } if (xIndexContainer.is()) xCfgManager->replaceSettings(sResourceURL, xIndexContainer); uno::Reference< ui::XUIConfigurationPersistence > xUIConfigurationPersistence(xCfgManager, uno::UNO_QUERY); if (xUIConfigurationPersistence.is()) xUIConfigurationPersistence->store(); } uno::Reference< ui::XUIConfigurationManager > NewVersionUIInfo::getConfigManager(const OUString& sModuleShortName) const { uno::Reference< ui::XUIConfigurationManager > xCfgManager; for ( const css::beans::PropertyValue& rProp : m_lCfgManagerSeq) { if (rProp.Name == sModuleShortName) { rProp.Value >>= xCfgManager; break; } } return xCfgManager; } uno::Reference< container::XIndexContainer > NewVersionUIInfo::getNewMenubarSettings(const OUString& sModuleShortName) const { uno::Reference< container::XIndexContainer > xNewMenuSettings; for (auto const & prop : m_lNewVersionMenubarSettingsSeq) { if (prop.Name == sModuleShortName) { prop.Value >>= xNewMenuSettings; break; } } return xNewMenuSettings; } uno::Reference< container::XIndexContainer > NewVersionUIInfo::getNewToolbarSettings(const OUString& sModuleShortName, const OUString& sToolbarName) const { uno::Reference< container::XIndexContainer > xNewToolbarSettings; for (auto const & newProp : m_lNewVersionToolbarSettingsSeq) { if (newProp.Name == sModuleShortName) { uno::Sequence< beans::PropertyValue > lToolbarSettingsSeq; newProp.Value >>= lToolbarSettingsSeq; for (auto const & prop : std::as_const(lToolbarSettingsSeq)) { if (prop.Name == sToolbarName) { prop.Value >>= xNewToolbarSettings; break; } } break; } } return xNewToolbarSettings; } void NewVersionUIInfo::init(const std::vector< MigrationModuleInfo >& vModulesInfo) { m_lCfgManagerSeq.resize(vModulesInfo.size()); m_lNewVersionMenubarSettingsSeq.realloc(vModulesInfo.size()); m_lNewVersionToolbarSettingsSeq.realloc(vModulesInfo.size()); const OUString sMenubarResourceURL("private:resource/menubar/menubar"); const OUString sToolbarResourcePre("private:resource/toolbar/"); uno::Reference< ui::XModuleUIConfigurationManagerSupplier > xModuleCfgSupplier = ui::theModuleUIConfigurationManagerSupplier::get( ::comphelper::getProcessComponentContext() ); for (size_t i=0; i xCfgManager = xModuleCfgSupplier->getUIConfigurationManager(sModuleIdentifier); m_lCfgManagerSeq[i].Name = vModulesInfo[i].sModuleShortName; m_lCfgManagerSeq[i].Value <<= xCfgManager; if (vModulesInfo[i].bHasMenubar) { m_lNewVersionMenubarSettingsSeq[i].Name = vModulesInfo[i].sModuleShortName; m_lNewVersionMenubarSettingsSeq[i].Value <<= xCfgManager->getSettings(sMenubarResourceURL, true); } sal_Int32 nToolbars = vModulesInfo[i].m_vToolbars.size(); if (nToolbars > 0) { uno::Sequence< beans::PropertyValue > lPropSeq(nToolbars); for (sal_Int32 j=0; jgetSettings(sToolbarResourceURL, true); } m_lNewVersionToolbarSettingsSeq[i].Name = vModulesInfo[i].sModuleShortName; m_lNewVersionToolbarSettingsSeq[i].Value <<= lPropSeq; } } } } } // namespace desktop /* vim:set shiftwidth=4 softtabstop=4 expandtab: */