/* -*- 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 #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace css; using namespace com::sun::star::uno; using namespace com::sun::star::io; using namespace com::sun::star::embed; using namespace com::sun::star::lang; using namespace com::sun::star::container; using namespace com::sun::star::beans; using namespace framework; constexpr OUStringLiteral RESOURCETYPE_MENUBAR = u"menubar"; constexpr OUStringLiteral RESOURCETYPE_TOOLBAR = u"toolbar"; constexpr OUStringLiteral RESOURCETYPE_STATUSBAR = u"statusbar"; constexpr OUStringLiteral RESOURCETYPE_POPUPMENU = u"popupmenu"; namespace { class ModuleUIConfigurationManager : public cppu::WeakImplHelper< css::lang::XServiceInfo, css::lang::XComponent, css::ui::XModuleUIConfigurationManager2 > { public: ModuleUIConfigurationManager( const css::uno::Reference< css::uno::XComponentContext >& xServiceManager, const css::uno::Sequence< css::uno::Any >& aArguments); virtual OUString SAL_CALL getImplementationName() override { return "com.sun.star.comp.framework.ModuleUIConfigurationManager"; } virtual sal_Bool SAL_CALL supportsService(OUString const & ServiceName) override { return cppu::supportsService(this, ServiceName); } virtual css::uno::Sequence SAL_CALL getSupportedServiceNames() override { return {"com.sun.star.ui.ModuleUIConfigurationManager"}; } // XComponent virtual void SAL_CALL dispose() override; virtual void SAL_CALL addEventListener( const css::uno::Reference< css::lang::XEventListener >& xListener ) override; virtual void SAL_CALL removeEventListener( const css::uno::Reference< css::lang::XEventListener >& aListener ) override; // XUIConfiguration virtual void SAL_CALL addConfigurationListener( const css::uno::Reference< css::ui::XUIConfigurationListener >& Listener ) override; virtual void SAL_CALL removeConfigurationListener( const css::uno::Reference< css::ui::XUIConfigurationListener >& Listener ) override; // XUIConfigurationManager virtual void SAL_CALL reset() override; virtual css::uno::Sequence< css::uno::Sequence< css::beans::PropertyValue > > SAL_CALL getUIElementsInfo( sal_Int16 ElementType ) override; virtual css::uno::Reference< css::container::XIndexContainer > SAL_CALL createSettings( ) override; virtual sal_Bool SAL_CALL hasSettings( const OUString& ResourceURL ) override; virtual css::uno::Reference< css::container::XIndexAccess > SAL_CALL getSettings( const OUString& ResourceURL, sal_Bool bWriteable ) override; virtual void SAL_CALL replaceSettings( const OUString& ResourceURL, const css::uno::Reference< css::container::XIndexAccess >& aNewData ) override; virtual void SAL_CALL removeSettings( const OUString& ResourceURL ) override; virtual void SAL_CALL insertSettings( const OUString& NewResourceURL, const css::uno::Reference< css::container::XIndexAccess >& aNewData ) override; virtual css::uno::Reference< css::uno::XInterface > SAL_CALL getImageManager() override; virtual css::uno::Reference< css::ui::XAcceleratorConfiguration > SAL_CALL getShortCutManager() override; virtual css::uno::Reference< css::uno::XInterface > SAL_CALL getEventsManager() override; // XModuleUIConfigurationManager virtual sal_Bool SAL_CALL isDefaultSettings( const OUString& ResourceURL ) override; virtual css::uno::Reference< css::container::XIndexAccess > SAL_CALL getDefaultSettings( const OUString& ResourceURL ) override; // XUIConfigurationPersistence virtual void SAL_CALL reload() override; virtual void SAL_CALL store() override; virtual void SAL_CALL storeToStorage( const css::uno::Reference< css::embed::XStorage >& Storage ) override; virtual sal_Bool SAL_CALL isModified() override; virtual sal_Bool SAL_CALL isReadOnly() override; private: // private data types enum Layer { LAYER_DEFAULT, LAYER_USERDEFINED, LAYER_COUNT }; enum NotifyOp { NotifyOp_Remove, NotifyOp_Insert, NotifyOp_Replace }; struct UIElementInfo { UIElementInfo( OUString _aResourceURL, OUString _aUIName ) : aResourceURL(std::move( _aResourceURL)), aUIName(std::move( _aUIName )) {} OUString aResourceURL; OUString aUIName; }; struct UIElementData { UIElementData() : bModified( false ), bDefault( true ), bDefaultNode( true ) {}; OUString aResourceURL; OUString aName; bool bModified; // has been changed since last storing bool bDefault; // default settings bool bDefaultNode; // this is a default layer element data css::uno::Reference< css::container::XIndexAccess > xSettings; }; typedef std::unordered_map< OUString, UIElementData > UIElementDataHashMap; struct UIElementType { UIElementType() : bModified( false ), bLoaded( false ), nElementType( css::ui::UIElementType::UNKNOWN ) {} bool bModified; bool bLoaded; sal_Int16 nElementType; UIElementDataHashMap aElementsHashMap; css::uno::Reference< css::embed::XStorage > xStorage; }; typedef std::vector< UIElementType > UIElementTypesVector; typedef std::vector< css::ui::ConfigurationEvent > ConfigEventNotifyContainer; typedef std::unordered_map< OUString, UIElementInfo > UIElementInfoHashMap; void impl_Initialize(); void implts_notifyContainerListener( const css::ui::ConfigurationEvent& aEvent, NotifyOp eOp ); void impl_fillSequenceWithElementTypeInfo( UIElementInfoHashMap& aUIElementInfoCollection, sal_Int16 nElementType ); void impl_preloadUIElementTypeList( Layer eLayer, sal_Int16 nElementType ); UIElementData* impl_findUIElementData( const OUString& aResourceURL, sal_Int16 nElementType, bool bLoad = true ); void impl_requestUIElementData( sal_Int16 nElementType, Layer eLayer, UIElementData& aUIElementData ); void impl_storeElementTypeData( const css::uno::Reference< css::embed::XStorage >& xStorage, UIElementType& rElementType, bool bResetModifyState = true ); void impl_resetElementTypeData( UIElementType& rUserElementType, UIElementType const & rDefaultElementType, ConfigEventNotifyContainer& rRemoveNotifyContainer, ConfigEventNotifyContainer& rReplaceNotifyContainer ); void impl_reloadElementTypeData( UIElementType& rUserElementType, UIElementType const & rDefaultElementType, ConfigEventNotifyContainer& rRemoveNotifyContainer, ConfigEventNotifyContainer& rReplaceNotifyContainer ); UIElementTypesVector m_aUIElements[LAYER_COUNT]; std::unique_ptr m_pStorageHandler[css::ui::UIElementType::COUNT]; css::uno::Reference< css::embed::XStorage > m_xDefaultConfigStorage; css::uno::Reference< css::embed::XStorage > m_xUserConfigStorage; bool m_bReadOnly; bool m_bModified; bool m_bDisposed; OUString m_aXMLPostfix; OUString m_aPropUIName; OUString m_aModuleIdentifier; css::uno::Reference< css::embed::XTransactedObject > m_xUserRootCommit; css::uno::Reference< css::uno::XComponentContext > m_xContext; std::mutex m_mutex; comphelper::OInterfaceContainerHelper4 m_aEventListeners; comphelper::OInterfaceContainerHelper4 m_aConfigListeners; rtl::Reference< ImageManager > m_xModuleImageManager; css::uno::Reference< css::ui::XAcceleratorConfiguration > m_xModuleAcceleratorManager; }; // important: The order and position of the elements must match the constant // definition of "css::ui::UIElementType" std::u16string_view UIELEMENTTYPENAMES[] = { u"", // Dummy value for unknown! u"" UIELEMENTTYPE_MENUBAR_NAME, u"" UIELEMENTTYPE_POPUPMENU_NAME, u"" UIELEMENTTYPE_TOOLBAR_NAME, u"" UIELEMENTTYPE_STATUSBAR_NAME, u"" UIELEMENTTYPE_FLOATINGWINDOW_NAME, u"" UIELEMENTTYPE_PROGRESSBAR_NAME, u"" UIELEMENTTYPE_TOOLPANEL_NAME }; const char RESOURCEURL_PREFIX[] = "private:resource/"; const sal_Int32 RESOURCEURL_PREFIX_SIZE = strlen(RESOURCEURL_PREFIX); sal_Int16 RetrieveTypeFromResourceURL( const OUString& aResourceURL ) { if (( aResourceURL.startsWith( RESOURCEURL_PREFIX ) ) && ( aResourceURL.getLength() > RESOURCEURL_PREFIX_SIZE )) { std::u16string_view aTmpStr = aResourceURL.subView( RESOURCEURL_PREFIX_SIZE ); size_t nIndex = aTmpStr.find( '/' ); if (( nIndex > 0 ) && ( aTmpStr.size() > nIndex )) { std::u16string_view aTypeStr( aTmpStr.substr( 0, nIndex )); for ( int i = 0; i < ui::UIElementType::COUNT; i++ ) { if ( aTypeStr == UIELEMENTTYPENAMES[i] ) return sal_Int16( i ); } } } return ui::UIElementType::UNKNOWN; } OUString RetrieveNameFromResourceURL( const OUString& aResourceURL ) { if (( aResourceURL.startsWith( RESOURCEURL_PREFIX ) ) && ( aResourceURL.getLength() > RESOURCEURL_PREFIX_SIZE )) { sal_Int32 nIndex = aResourceURL.lastIndexOf( '/' ); if (( nIndex > 0 ) && (( nIndex+1 ) < aResourceURL.getLength())) return aResourceURL.copy( nIndex+1 ); } return OUString(); } void ModuleUIConfigurationManager::impl_fillSequenceWithElementTypeInfo( UIElementInfoHashMap& aUIElementInfoCollection, sal_Int16 nElementType ) { // preload list of element types on demand impl_preloadUIElementTypeList( LAYER_USERDEFINED, nElementType ); impl_preloadUIElementTypeList( LAYER_DEFAULT, nElementType ); UIElementDataHashMap& rUserElements = m_aUIElements[LAYER_USERDEFINED][nElementType].aElementsHashMap; OUString aCustomUrlPrefix( "custom_" ); for (auto const& userElement : rUserElements) { sal_Int32 nIndex = userElement.second.aResourceURL.indexOf( aCustomUrlPrefix, RESOURCEURL_PREFIX_SIZE ); if ( nIndex > RESOURCEURL_PREFIX_SIZE ) { // Performance: Retrieve user interface name only for custom user interface elements. // It's only used by them! UIElementData* pDataSettings = impl_findUIElementData( userElement.second.aResourceURL, nElementType ); if ( pDataSettings ) { // Retrieve user interface name from XPropertySet interface OUString aUIName; Reference< XPropertySet > xPropSet( pDataSettings->xSettings, UNO_QUERY ); if ( xPropSet.is() ) { Any a = xPropSet->getPropertyValue( m_aPropUIName ); a >>= aUIName; } UIElementInfo aInfo( userElement.second.aResourceURL, aUIName ); aUIElementInfoCollection.emplace( userElement.second.aResourceURL, aInfo ); } } else { // The user interface name for standard user interface elements is stored in the WindowState.xcu file UIElementInfo aInfo( userElement.second.aResourceURL, OUString() ); aUIElementInfoCollection.emplace( userElement.second.aResourceURL, aInfo ); } } UIElementDataHashMap& rDefaultElements = m_aUIElements[LAYER_DEFAULT][nElementType].aElementsHashMap; for (auto const& defaultElement : rDefaultElements) { UIElementInfoHashMap::const_iterator pIterInfo = aUIElementInfoCollection.find( defaultElement.second.aResourceURL ); if ( pIterInfo == aUIElementInfoCollection.end() ) { sal_Int32 nIndex = defaultElement.second.aResourceURL.indexOf( aCustomUrlPrefix, RESOURCEURL_PREFIX_SIZE ); if ( nIndex > RESOURCEURL_PREFIX_SIZE ) { // Performance: Retrieve user interface name only for custom user interface elements. // It's only used by them! UIElementData* pDataSettings = impl_findUIElementData( defaultElement.second.aResourceURL, nElementType ); if ( pDataSettings ) { // Retrieve user interface name from XPropertySet interface OUString aUIName; Reference< XPropertySet > xPropSet( pDataSettings->xSettings, UNO_QUERY ); if ( xPropSet.is() ) { Any a = xPropSet->getPropertyValue( m_aPropUIName ); a >>= aUIName; } UIElementInfo aInfo( defaultElement.second.aResourceURL, aUIName ); aUIElementInfoCollection.emplace( defaultElement.second.aResourceURL, aInfo ); } } else { // The user interface name for standard user interface elements is stored in the WindowState.xcu file UIElementInfo aInfo( defaultElement.second.aResourceURL, OUString() ); aUIElementInfoCollection.emplace( defaultElement.second.aResourceURL, aInfo ); } } } } void ModuleUIConfigurationManager::impl_preloadUIElementTypeList( Layer eLayer, sal_Int16 nElementType ) { UIElementType& rElementTypeData = m_aUIElements[eLayer][nElementType]; if ( rElementTypeData.bLoaded ) return; Reference< XStorage > xElementTypeStorage = rElementTypeData.xStorage; if ( !xElementTypeStorage.is() ) return; OUString aResURLPrefix = OUString::Concat(RESOURCEURL_PREFIX) + UIELEMENTTYPENAMES[ nElementType ] + "/"; UIElementDataHashMap& rHashMap = rElementTypeData.aElementsHashMap; const Sequence< OUString > aUIElementNames = xElementTypeStorage->getElementNames(); for ( OUString const & rElementName : aUIElementNames ) { UIElementData aUIElementData; // Resource name must be without ".xml" sal_Int32 nIndex = rElementName.lastIndexOf( '.' ); if (( nIndex > 0 ) && ( nIndex < rElementName.getLength() )) { std::u16string_view aExtension( rElementName.subView( nIndex+1 )); std::u16string_view aUIElementName( rElementName.subView( 0, nIndex )); if (!aUIElementName.empty() && ( o3tl::equalsIgnoreAsciiCase(aExtension, u"xml"))) { aUIElementData.aResourceURL = aResURLPrefix + aUIElementName; aUIElementData.aName = rElementName; if ( eLayer == LAYER_USERDEFINED ) { aUIElementData.bModified = false; aUIElementData.bDefault = false; aUIElementData.bDefaultNode = false; } // Create std::unordered_map entries for all user interface elements inside the storage. We don't load the // settings to speed up the process. rHashMap.emplace( aUIElementData.aResourceURL, aUIElementData ); } } rElementTypeData.bLoaded = true; } } void ModuleUIConfigurationManager::impl_requestUIElementData( sal_Int16 nElementType, Layer eLayer, UIElementData& aUIElementData ) { UIElementType& rElementTypeData = m_aUIElements[eLayer][nElementType]; Reference< XStorage > xElementTypeStorage = rElementTypeData.xStorage; if ( xElementTypeStorage.is() && !aUIElementData.aName.isEmpty() ) { try { Reference< XStream > xStream = xElementTypeStorage->openStreamElement( aUIElementData.aName, ElementModes::READ ); Reference< XInputStream > xInputStream = xStream->getInputStream(); if ( xInputStream.is() ) { switch ( nElementType ) { case css::ui::UIElementType::UNKNOWN: break; case css::ui::UIElementType::MENUBAR: case css::ui::UIElementType::POPUPMENU: { try { MenuConfiguration aMenuCfg( m_xContext ); Reference< XIndexAccess > xContainer( aMenuCfg.CreateMenuBarConfigurationFromXML( xInputStream )); auto pRootItemContainer = comphelper::getFromUnoTunnel( xContainer ); if ( pRootItemContainer ) aUIElementData.xSettings = new ConstItemContainer( pRootItemContainer, true ); else aUIElementData.xSettings = new ConstItemContainer( xContainer, true ); return; } catch ( const css::lang::WrappedTargetException& ) { } } break; case css::ui::UIElementType::TOOLBAR: { try { Reference< XIndexContainer > xIndexContainer( new RootItemContainer() ); ToolBoxConfiguration::LoadToolBox( m_xContext, xInputStream, xIndexContainer ); auto pRootItemContainer = comphelper::getFromUnoTunnel( xIndexContainer ); aUIElementData.xSettings = new ConstItemContainer( pRootItemContainer, true ); return; } catch ( const css::lang::WrappedTargetException& ) { } break; } case css::ui::UIElementType::STATUSBAR: { try { Reference< XIndexContainer > xIndexContainer( new RootItemContainer() ); StatusBarConfiguration::LoadStatusBar( m_xContext, xInputStream, xIndexContainer ); auto pRootItemContainer = comphelper::getFromUnoTunnel( xIndexContainer ); aUIElementData.xSettings = new ConstItemContainer( pRootItemContainer, true ); return; } catch ( const css::lang::WrappedTargetException& ) { } break; } case css::ui::UIElementType::FLOATINGWINDOW: { break; } } } } catch ( const css::embed::InvalidStorageException& ) { } catch ( const css::lang::IllegalArgumentException& ) { } catch ( const css::io::IOException& ) { } catch ( const css::embed::StorageWrappedTargetException& ) { } } // At least we provide an empty settings container! aUIElementData.xSettings = new ConstItemContainer(); } ModuleUIConfigurationManager::UIElementData* ModuleUIConfigurationManager::impl_findUIElementData( const OUString& aResourceURL, sal_Int16 nElementType, bool bLoad ) { // preload list of element types on demand impl_preloadUIElementTypeList( LAYER_USERDEFINED, nElementType ); impl_preloadUIElementTypeList( LAYER_DEFAULT, nElementType ); // first try to look into our user-defined vector/unordered_map combination UIElementDataHashMap& rUserHashMap = m_aUIElements[LAYER_USERDEFINED][nElementType].aElementsHashMap; UIElementDataHashMap::iterator pIter = rUserHashMap.find( aResourceURL ); if ( pIter != rUserHashMap.end() ) { // Default data settings data must be retrieved from the default layer! if ( !pIter->second.bDefault ) { if ( !pIter->second.xSettings.is() && bLoad ) impl_requestUIElementData( nElementType, LAYER_USERDEFINED, pIter->second ); return &(pIter->second); } } // Not successful, we have to look into our default vector/unordered_map combination UIElementDataHashMap& rDefaultHashMap = m_aUIElements[LAYER_DEFAULT][nElementType].aElementsHashMap; pIter = rDefaultHashMap.find( aResourceURL ); if ( pIter != rDefaultHashMap.end() ) { if ( !pIter->second.xSettings.is() && bLoad ) impl_requestUIElementData( nElementType, LAYER_DEFAULT, pIter->second ); return &(pIter->second); } // Nothing has been found! return nullptr; } void ModuleUIConfigurationManager::impl_storeElementTypeData( const Reference< XStorage >& xStorage, UIElementType& rElementType, bool bResetModifyState ) { UIElementDataHashMap& rHashMap = rElementType.aElementsHashMap; for (auto & elem : rHashMap) { UIElementData& rElement = elem.second; if ( rElement.bModified ) { if ( rElement.bDefault ) { xStorage->removeElement( rElement.aName ); rElement.bModified = false; // mark as not modified } else { Reference< XStream > xStream = xStorage->openStreamElement( rElement.aName, ElementModes::WRITE|ElementModes::TRUNCATE ); Reference< XOutputStream > xOutputStream( xStream->getOutputStream() ); if ( xOutputStream.is() ) { switch( rElementType.nElementType ) { case css::ui::UIElementType::MENUBAR: case css::ui::UIElementType::POPUPMENU: { try { MenuConfiguration aMenuCfg( m_xContext ); aMenuCfg.StoreMenuBarConfigurationToXML( rElement.xSettings, xOutputStream, rElementType.nElementType == css::ui::UIElementType::MENUBAR ); } catch ( const css::lang::WrappedTargetException& ) { } } break; case css::ui::UIElementType::TOOLBAR: { try { ToolBoxConfiguration::StoreToolBox( m_xContext, xOutputStream, rElement.xSettings ); } catch ( const css::lang::WrappedTargetException& ) { } } break; case css::ui::UIElementType::STATUSBAR: { try { StatusBarConfiguration::StoreStatusBar( m_xContext, xOutputStream, rElement.xSettings ); } catch ( const css::lang::WrappedTargetException& ) { } } break; default: break; } } // mark as not modified if we store to our own storage if ( bResetModifyState ) rElement.bModified = false; } } } // commit element type storage Reference< XTransactedObject > xTransactedObject( xStorage, UNO_QUERY ); if ( xTransactedObject.is() ) xTransactedObject->commit(); // mark UIElementType as not modified if we store to our own storage if ( bResetModifyState ) rElementType.bModified = false; } // This is only allowed to be called on the LAYER_USER_DEFINED! void ModuleUIConfigurationManager::impl_resetElementTypeData( UIElementType& rUserElementType, UIElementType const & rDefaultElementType, ConfigEventNotifyContainer& rRemoveNotifyContainer, ConfigEventNotifyContainer& rReplaceNotifyContainer ) { UIElementDataHashMap& rHashMap = rUserElementType.aElementsHashMap; Reference< XUIConfigurationManager > xThis(this); Reference< XInterface > xIfac( xThis, UNO_QUERY ); sal_Int16 nType = rUserElementType.nElementType; // Make copies of the event structures to be thread-safe. We have to unlock our mutex before calling // our listeners! for (auto & elem : rHashMap) { UIElementData& rElement = elem.second; if ( !rElement.bDefault ) { if ( rDefaultElementType.xStorage->hasByName( rElement.aName )) { // Replace settings with data from default layer Reference< XIndexAccess > xOldSettings( rElement.xSettings ); impl_requestUIElementData( nType, LAYER_DEFAULT, rElement ); ui::ConfigurationEvent aReplaceEvent; aReplaceEvent.ResourceURL = rElement.aResourceURL; aReplaceEvent.Accessor <<= xThis; aReplaceEvent.Source = xIfac; aReplaceEvent.ReplacedElement <<= xOldSettings; aReplaceEvent.Element <<= rElement.xSettings; rReplaceNotifyContainer.push_back( aReplaceEvent ); // Mark element as default and not modified. That means "not active" // in the user layer anymore. rElement.bModified = false; rElement.bDefault = true; } else { // Remove user-defined settings from user layer ui::ConfigurationEvent aEvent; aEvent.ResourceURL = rElement.aResourceURL; aEvent.Accessor <<= xThis; aEvent.Source = xIfac; aEvent.Element <<= rElement.xSettings; rRemoveNotifyContainer.push_back( aEvent ); // Mark element as default and not modified. That means "not active" // in the user layer anymore. rElement.bModified = false; rElement.bDefault = true; } } } // Remove all settings from our user interface elements rHashMap.clear(); } void ModuleUIConfigurationManager::impl_reloadElementTypeData( UIElementType& rUserElementType, UIElementType const & rDefaultElementType, ConfigEventNotifyContainer& rRemoveNotifyContainer, ConfigEventNotifyContainer& rReplaceNotifyContainer ) { UIElementDataHashMap& rHashMap = rUserElementType.aElementsHashMap; Reference< XUIConfigurationManager > xThis(this); Reference< XInterface > xIfac( xThis, UNO_QUERY ); sal_Int16 nType = rUserElementType.nElementType; for (auto & elem : rHashMap) { UIElementData& rElement = elem.second; if ( rElement.bModified ) { if ( rUserElementType.xStorage->hasByName( rElement.aName )) { // Replace settings with data from user layer Reference< XIndexAccess > xOldSettings( rElement.xSettings ); impl_requestUIElementData( nType, LAYER_USERDEFINED, rElement ); ui::ConfigurationEvent aReplaceEvent; aReplaceEvent.ResourceURL = rElement.aResourceURL; aReplaceEvent.Accessor <<= xThis; aReplaceEvent.Source = xIfac; aReplaceEvent.ReplacedElement <<= xOldSettings; aReplaceEvent.Element <<= rElement.xSettings; rReplaceNotifyContainer.push_back( aReplaceEvent ); rElement.bModified = false; } else if ( rDefaultElementType.xStorage->hasByName( rElement.aName )) { // Replace settings with data from default layer Reference< XIndexAccess > xOldSettings( rElement.xSettings ); impl_requestUIElementData( nType, LAYER_DEFAULT, rElement ); ui::ConfigurationEvent aReplaceEvent; aReplaceEvent.ResourceURL = rElement.aResourceURL; aReplaceEvent.Accessor <<= xThis; aReplaceEvent.Source = xIfac; aReplaceEvent.ReplacedElement <<= xOldSettings; aReplaceEvent.Element <<= rElement.xSettings; rReplaceNotifyContainer.push_back( aReplaceEvent ); // Mark element as default and not modified. That means "not active" // in the user layer anymore. rElement.bModified = false; rElement.bDefault = true; } else { // Element settings are not in any storage => remove ui::ConfigurationEvent aRemoveEvent; aRemoveEvent.ResourceURL = rElement.aResourceURL; aRemoveEvent.Accessor <<= xThis; aRemoveEvent.Source = xIfac; aRemoveEvent.Element <<= rElement.xSettings; rRemoveNotifyContainer.push_back( aRemoveEvent ); // Mark element as default and not modified. That means "not active" // in the user layer anymore. rElement.bModified = false; rElement.bDefault = true; } } } rUserElementType.bModified = false; } void ModuleUIConfigurationManager::impl_Initialize() { // Initialize the top-level structures with the storage data if ( m_xUserConfigStorage.is() ) { // Try to access our module sub folder for ( sal_Int16 i = 1; i < css::ui::UIElementType::COUNT; i++ ) { Reference< XStorage > xElementTypeStorage; try { if ( m_pStorageHandler[i] ) xElementTypeStorage = m_pStorageHandler[i]->getWorkingStorageUser(); } catch ( const css::container::NoSuchElementException& ) { } catch ( const css::embed::InvalidStorageException& ) { } catch ( const css::lang::IllegalArgumentException& ) { } catch ( const css::io::IOException& ) { } catch ( const css::embed::StorageWrappedTargetException& ) { } m_aUIElements[LAYER_USERDEFINED][i].nElementType = i; m_aUIElements[LAYER_USERDEFINED][i].bModified = false; m_aUIElements[LAYER_USERDEFINED][i].xStorage = xElementTypeStorage; } } if ( !m_xDefaultConfigStorage.is() ) return; Reference< XNameAccess > xNameAccess( m_xDefaultConfigStorage, UNO_QUERY_THROW ); // Try to access our module sub folder for ( sal_Int16 i = 1; i < css::ui::UIElementType::COUNT; i++ ) { Reference< XStorage > xElementTypeStorage; try { const OUString sName( UIELEMENTTYPENAMES[i] ); if( xNameAccess->hasByName( sName ) ) xNameAccess->getByName( sName ) >>= xElementTypeStorage; } catch ( const css::container::NoSuchElementException& ) { } m_aUIElements[LAYER_DEFAULT][i].nElementType = i; m_aUIElements[LAYER_DEFAULT][i].bModified = false; m_aUIElements[LAYER_DEFAULT][i].xStorage = xElementTypeStorage; } } ModuleUIConfigurationManager::ModuleUIConfigurationManager( const Reference< XComponentContext >& xContext, const css::uno::Sequence< css::uno::Any >& aArguments) : m_bReadOnly( true ) , m_bModified( false ) , m_bDisposed( false ) , m_aXMLPostfix( ".xml" ) , m_aPropUIName( "UIName" ) , m_xContext( xContext ) { // Make sure we have a default initialized entry for every layer and user interface element type! // The following code depends on this! m_aUIElements[LAYER_DEFAULT].resize( css::ui::UIElementType::COUNT ); m_aUIElements[LAYER_USERDEFINED].resize( css::ui::UIElementType::COUNT ); SolarMutexGuard g; OUString aModuleShortName; if( aArguments.getLength() == 2 && (aArguments[0] >>= aModuleShortName) && (aArguments[1] >>= m_aModuleIdentifier)) { } else { ::comphelper::SequenceAsHashMap lArgs(aArguments); aModuleShortName = lArgs.getUnpackedValueOrDefault("ModuleShortName", OUString()); m_aModuleIdentifier = lArgs.getUnpackedValueOrDefault("ModuleIdentifier", OUString()); } for ( int i = 1; i < css::ui::UIElementType::COUNT; i++ ) { OUString aResourceType; if ( i == css::ui::UIElementType::MENUBAR ) aResourceType = RESOURCETYPE_MENUBAR; else if ( i == css::ui::UIElementType::TOOLBAR ) aResourceType = RESOURCETYPE_TOOLBAR; else if ( i == css::ui::UIElementType::STATUSBAR ) aResourceType = RESOURCETYPE_STATUSBAR; else if ( i == css::ui::UIElementType::POPUPMENU ) aResourceType = RESOURCETYPE_POPUPMENU; if ( !aResourceType.isEmpty() ) { m_pStorageHandler[i].reset( new PresetHandler( m_xContext ) ); m_pStorageHandler[i]->connectToResource( PresetHandler::E_MODULES, aResourceType, // this path won't be used later... see next lines! aModuleShortName, css::uno::Reference< css::embed::XStorage >()); // no document root used here! } } // initialize root storages for all resource types m_xUserRootCommit.set( m_pStorageHandler[css::ui::UIElementType::MENUBAR]->getOrCreateRootStorageUser(), css::uno::UNO_QUERY); // can be empty m_xDefaultConfigStorage = m_pStorageHandler[css::ui::UIElementType::MENUBAR]->getParentStorageShare(); m_xUserConfigStorage = m_pStorageHandler[css::ui::UIElementType::MENUBAR]->getParentStorageUser(); if ( m_xUserConfigStorage.is() ) { Reference< XPropertySet > xPropSet( m_xUserConfigStorage, UNO_QUERY ); if ( xPropSet.is() ) { tools::Long nOpenMode = 0; Any a = xPropSet->getPropertyValue("OpenMode"); if ( a >>= nOpenMode ) m_bReadOnly = !( nOpenMode & ElementModes::WRITE ); } } impl_Initialize(); } // XComponent void SAL_CALL ModuleUIConfigurationManager::dispose() { Reference< XComponent > xThis(this); css::lang::EventObject aEvent( xThis ); { std::unique_lock aGuard(m_mutex); m_aEventListeners.disposeAndClear( aGuard, aEvent ); } { std::unique_lock aGuard(m_mutex); m_aConfigListeners.disposeAndClear( aGuard, aEvent ); } /* SAFE AREA ----------------------------------------------------------------------------------------------- */ SolarMutexClearableGuard aGuard; Reference< XComponent > xModuleImageManager( m_xModuleImageManager ); m_xModuleImageManager.clear(); m_xModuleAcceleratorManager.clear(); m_aUIElements[LAYER_USERDEFINED].clear(); m_aUIElements[LAYER_DEFAULT].clear(); m_xDefaultConfigStorage.clear(); m_xUserConfigStorage.clear(); m_xUserRootCommit.clear(); m_bModified = false; m_bDisposed = true; aGuard.clear(); /* SAFE AREA ----------------------------------------------------------------------------------------------- */ try { if ( xModuleImageManager.is() ) xModuleImageManager->dispose(); } catch ( const Exception& ) { } } void SAL_CALL ModuleUIConfigurationManager::addEventListener( const Reference< XEventListener >& xListener ) { { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); } std::unique_lock aGuard(m_mutex); m_aEventListeners.addInterface( aGuard, xListener ); } void SAL_CALL ModuleUIConfigurationManager::removeEventListener( const Reference< XEventListener >& xListener ) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ std::unique_lock aGuard(m_mutex); m_aEventListeners.removeInterface( aGuard, xListener ); } // XUIConfiguration void SAL_CALL ModuleUIConfigurationManager::addConfigurationListener( const Reference< css::ui::XUIConfigurationListener >& xListener ) { { SolarMutexGuard g; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); } std::unique_lock aGuard(m_mutex); m_aConfigListeners.addInterface( aGuard, xListener ); } void SAL_CALL ModuleUIConfigurationManager::removeConfigurationListener( const Reference< css::ui::XUIConfigurationListener >& xListener ) { /* SAFE AREA ----------------------------------------------------------------------------------------------- */ std::unique_lock aGuard(m_mutex); m_aConfigListeners.removeInterface( aGuard, xListener ); } // XUIConfigurationManager void SAL_CALL ModuleUIConfigurationManager::reset() { SolarMutexClearableGuard aGuard; /* SAFE AREA ----------------------------------------------------------------------------------------------- */ if ( m_bDisposed ) throw DisposedException(); if ( isReadOnly() ) return; // Remove all elements from our user-defined storage! try { for ( int i = 1; i < css::ui::UIElementType::COUNT; i++ ) { UIElementType& rElementType = m_aUIElements[LAYER_USERDEFINED][i]; if ( rElementType.xStorage.is() ) { bool bCommitSubStorage( false ); const Sequence< OUString > aUIElementStreamNames = rElementType.xStorage->getElementNames(); for ( OUString const & rName : aUIElementStreamNames ) { rElementType.xStorage->removeElement( rName ); bCommitSubStorage = true; } if ( bCommitSubStorage ) { Reference< XTransactedObject > xTransactedObject( rElementType.xStorage, UNO_QUERY ); if ( xTransactedObject.is() ) xTransactedObject->commit(); m_pStorageHandler[i]->commitUserChanges(); } } } // remove settings from user defined layer and notify listener about removed settings data! ConfigEventNotifyContainer aRemoveEventNotifyContainer; ConfigEventNotifyContainer aReplaceEventNotifyContainer; for ( sal_Int16 j = 1; j < css::ui::UIElementType::COUNT; j++ ) { try { UIElementType& rUserElementType = m_aUIElements[LAYER_USERDEFINED][j]; UIElementType& rDefaultElementType = m_aUIElements[LAYER_DEFAULT][j]; impl_resetElementTypeData( rUserElementType, rDefaultElementType, aRemoveEventNotifyContainer, aReplaceEventNotifyContainer ); rUserElementType.bModified = false; } catch (const Exception&) { css::uno::Any anyEx = cppu::getCaughtException(); throw css::lang::WrappedTargetRuntimeException( "ModuleUIConfigurationManager::reset exception", css::uno::Reference(*this), anyEx); } } m_bModified = false; // Unlock mutex before notify our listeners aGuard.clear(); // Notify our listeners for ( auto const & k: aRemoveEventNotifyContainer ) implts_notifyContainerListener( k, NotifyOp_Remove ); for ( auto const & k: aReplaceEventNotifyContainer ) implts_notifyContainerListener( k, NotifyOp_Replace ); } catch ( const css::lang::IllegalArgumentException& ) { } catch ( const css::container::NoSuchElementException& ) { } catch ( const css::embed::InvalidStorageException& ) { } catch ( const css::embed::StorageWrappedTargetException& ) { } } Sequence< Sequence< PropertyValue > > SAL_CALL ModuleUIConfigurationManager::getUIElementsInfo( sal_Int16 ElementType ) { if (( ElementType < 0 ) || ( ElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException(); SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); std::vector< Sequence< PropertyValue > > aElementInfoSeq; UIElementInfoHashMap aUIElementInfoCollection; if ( ElementType == css::ui::UIElementType::UNKNOWN ) { for ( sal_Int16 i = 0; i < css::ui::UIElementType::COUNT; i++ ) impl_fillSequenceWithElementTypeInfo( aUIElementInfoCollection, i ); } else impl_fillSequenceWithElementTypeInfo( aUIElementInfoCollection, ElementType ); aElementInfoSeq.resize( aUIElementInfoCollection.size() ); sal_Int32 n = 0; for (auto const& elem : aUIElementInfoCollection) { Sequence< PropertyValue > aUIElementInfo{ comphelper::makePropertyValue("ResourceURL", elem.second.aResourceURL), comphelper::makePropertyValue(m_aPropUIName, elem.second.aUIName) }; aElementInfoSeq[n++] = aUIElementInfo; } return comphelper::containerToSequence(aElementInfoSeq); } Reference< XIndexContainer > SAL_CALL ModuleUIConfigurationManager::createSettings() { SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); // Creates an empty item container which can be filled from outside return Reference< XIndexContainer >( new RootItemContainer() ); } sal_Bool SAL_CALL ModuleUIConfigurationManager::hasSettings( const OUString& ResourceURL ) { sal_Int16 nElementType = RetrieveTypeFromResourceURL( ResourceURL ); if (( nElementType == css::ui::UIElementType::UNKNOWN ) || ( nElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException(); SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); UIElementData* pDataSettings = impl_findUIElementData( ResourceURL, nElementType, false ); if ( pDataSettings ) return true; return false; } Reference< XIndexAccess > SAL_CALL ModuleUIConfigurationManager::getSettings( const OUString& ResourceURL, sal_Bool bWriteable ) { sal_Int16 nElementType = RetrieveTypeFromResourceURL( ResourceURL ); if (( nElementType == css::ui::UIElementType::UNKNOWN ) || ( nElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException(); SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); UIElementData* pDataSettings = impl_findUIElementData( ResourceURL, nElementType ); if ( pDataSettings ) { // Create a copy of our data if someone wants to change the data. if ( bWriteable ) return Reference< XIndexAccess >( new RootItemContainer( pDataSettings->xSettings ) ); else return pDataSettings->xSettings; } throw NoSuchElementException(); } void SAL_CALL ModuleUIConfigurationManager::replaceSettings( const OUString& ResourceURL, const Reference< css::container::XIndexAccess >& aNewData ) { sal_Int16 nElementType = RetrieveTypeFromResourceURL( ResourceURL ); if (( nElementType == css::ui::UIElementType::UNKNOWN ) || ( nElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException(); else if ( m_bReadOnly ) throw IllegalAccessException(); else { SolarMutexClearableGuard aGuard; if ( m_bDisposed ) throw DisposedException(); UIElementData* pDataSettings = impl_findUIElementData( ResourceURL, nElementType ); if ( !pDataSettings ) throw NoSuchElementException(); if ( !pDataSettings->bDefaultNode ) { // we have a settings entry in our user-defined layer - replace Reference< XIndexAccess > xOldSettings = pDataSettings->xSettings; // Create a copy of the data if the container is not const Reference< XIndexReplace > xReplace( aNewData, UNO_QUERY ); if ( xReplace.is() ) pDataSettings->xSettings = new ConstItemContainer( aNewData ); else pDataSettings->xSettings = aNewData; pDataSettings->bDefault = false; pDataSettings->bModified = true; m_bModified = true; // Modify type container UIElementType& rElementType = m_aUIElements[LAYER_USERDEFINED][nElementType]; rElementType.bModified = true; Reference< XUIConfigurationManager > xThis(this); Reference< XInterface > xIfac( xThis, UNO_QUERY ); // Create event to notify listener about replaced element settings ui::ConfigurationEvent aEvent; aEvent.ResourceURL = ResourceURL; aEvent.Accessor <<= xThis; aEvent.Source = xIfac; aEvent.ReplacedElement <<= xOldSettings; aEvent.Element <<= pDataSettings->xSettings; aGuard.clear(); implts_notifyContainerListener( aEvent, NotifyOp_Replace ); } else { // we have no settings in our user-defined layer - insert UIElementData aUIElementData; aUIElementData.bDefault = false; aUIElementData.bDefaultNode = false; aUIElementData.bModified = true; // Create a copy of the data if the container is not const Reference< XIndexReplace > xReplace( aNewData, UNO_QUERY ); if ( xReplace.is() ) aUIElementData.xSettings = new ConstItemContainer( aNewData ); else aUIElementData.xSettings = aNewData; aUIElementData.aName = RetrieveNameFromResourceURL( ResourceURL ) + m_aXMLPostfix; aUIElementData.aResourceURL = ResourceURL; m_bModified = true; // Modify type container UIElementType& rElementType = m_aUIElements[LAYER_USERDEFINED][nElementType]; rElementType.bModified = true; UIElementDataHashMap& rElements = rElementType.aElementsHashMap; // Check our user element settings hash map as it can already contain settings that have been set to default! // If no node can be found, we have to insert it. UIElementDataHashMap::iterator pIter = rElements.find( ResourceURL ); if ( pIter != rElements.end() ) pIter->second = aUIElementData; else rElements.emplace( ResourceURL, aUIElementData ); Reference< XUIConfigurationManager > xThis(this); Reference< XInterface > xIfac( xThis, UNO_QUERY ); // Create event to notify listener about replaced element settings ui::ConfigurationEvent aEvent; aEvent.ResourceURL = ResourceURL; aEvent.Accessor <<= xThis; aEvent.Source = xIfac; aEvent.ReplacedElement <<= pDataSettings->xSettings; aEvent.Element <<= aUIElementData.xSettings; aGuard.clear(); implts_notifyContainerListener( aEvent, NotifyOp_Replace ); } } } void SAL_CALL ModuleUIConfigurationManager::removeSettings( const OUString& ResourceURL ) { sal_Int16 nElementType = RetrieveTypeFromResourceURL( ResourceURL ); if (( nElementType == css::ui::UIElementType::UNKNOWN ) || ( nElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException( "The ResourceURL is not valid or " "describes an unknown type. " "ResourceURL: " + ResourceURL, nullptr, 0 ); else if ( m_bReadOnly ) throw IllegalAccessException( "The configuration manager is read-only. " "ResourceURL: " + ResourceURL, nullptr ); else { SolarMutexClearableGuard aGuard; if ( m_bDisposed ) throw DisposedException( "The configuration manager has been disposed, " "and can't uphold its method specification anymore. " "ResourceURL: " + ResourceURL, nullptr ); UIElementData* pDataSettings = impl_findUIElementData( ResourceURL, nElementType ); if ( !pDataSettings ) throw NoSuchElementException( "The settings data cannot be found. " "ResourceURL: " + ResourceURL, nullptr ); // If element settings are default, we don't need to change anything! if ( pDataSettings->bDefault ) return; else { Reference< XIndexAccess > xRemovedSettings = pDataSettings->xSettings; pDataSettings->bDefault = true; // check if this is a default layer node if ( !pDataSettings->bDefaultNode ) pDataSettings->bModified = true; // we have to remove this node from the user layer! pDataSettings->xSettings.clear(); m_bModified = true; // user layer must be written // Modify type container UIElementType& rElementType = m_aUIElements[LAYER_USERDEFINED][nElementType]; rElementType.bModified = true; Reference< XUIConfigurationManager > xThis(this); Reference< XInterface > xIfac( xThis, UNO_QUERY ); // Check if we have settings in the default layer which replaces the user-defined one! UIElementData* pDefaultDataSettings = impl_findUIElementData( ResourceURL, nElementType ); if ( pDefaultDataSettings ) { // Create event to notify listener about replaced element settings ui::ConfigurationEvent aEvent; aEvent.ResourceURL = ResourceURL; aEvent.Accessor <<= xThis; aEvent.Source = xIfac; aEvent.Element <<= xRemovedSettings; aEvent.ReplacedElement <<= pDefaultDataSettings->xSettings; aGuard.clear(); implts_notifyContainerListener( aEvent, NotifyOp_Replace ); } else { // Create event to notify listener about removed element settings ui::ConfigurationEvent aEvent; aEvent.ResourceURL = ResourceURL; aEvent.Accessor <<= xThis; aEvent.Source = xIfac; aEvent.Element <<= xRemovedSettings; aGuard.clear(); implts_notifyContainerListener( aEvent, NotifyOp_Remove ); } } } } void SAL_CALL ModuleUIConfigurationManager::insertSettings( const OUString& NewResourceURL, const Reference< XIndexAccess >& aNewData ) { sal_Int16 nElementType = RetrieveTypeFromResourceURL( NewResourceURL ); if (( nElementType == css::ui::UIElementType::UNKNOWN ) || ( nElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException(); else if ( m_bReadOnly ) throw IllegalAccessException(); else { SolarMutexClearableGuard aGuard; if ( m_bDisposed ) throw DisposedException(); UIElementData* pDataSettings = impl_findUIElementData( NewResourceURL, nElementType ); if ( !(!pDataSettings) ) throw ElementExistException(); UIElementData aUIElementData; aUIElementData.bDefault = false; aUIElementData.bDefaultNode = false; aUIElementData.bModified = true; // Create a copy of the data if the container is not const Reference< XIndexReplace > xReplace( aNewData, UNO_QUERY ); if ( xReplace.is() ) aUIElementData.xSettings = new ConstItemContainer( aNewData ); else aUIElementData.xSettings = aNewData; aUIElementData.aName = RetrieveNameFromResourceURL( NewResourceURL ) + m_aXMLPostfix; aUIElementData.aResourceURL = NewResourceURL; m_bModified = true; UIElementType& rElementType = m_aUIElements[LAYER_USERDEFINED][nElementType]; rElementType.bModified = true; UIElementDataHashMap& rElements = rElementType.aElementsHashMap; rElements.emplace( NewResourceURL, aUIElementData ); Reference< XIndexAccess > xInsertSettings( aUIElementData.xSettings ); Reference< XUIConfigurationManager > xThis(this); // Create event to notify listener about removed element settings ui::ConfigurationEvent aEvent; aEvent.ResourceURL = NewResourceURL; aEvent.Accessor <<= xThis; aEvent.Source = xThis; aEvent.Element <<= xInsertSettings; aGuard.clear(); implts_notifyContainerListener( aEvent, NotifyOp_Insert ); } } Reference< XInterface > SAL_CALL ModuleUIConfigurationManager::getImageManager() { SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); if ( !m_xModuleImageManager.is() ) { m_xModuleImageManager = new ImageManager( m_xContext, /*bForModule*/true ); uno::Sequence aPropSeq(comphelper::InitAnyPropertySequence( { {"UserConfigStorage", uno::Any(m_xUserConfigStorage)}, {"ModuleIdentifier", uno::Any(m_aModuleIdentifier)}, {"UserRootCommit", uno::Any(m_xUserRootCommit)}, })); m_xModuleImageManager->initialize( aPropSeq ); } return Reference< XInterface >( static_cast(m_xModuleImageManager.get()), UNO_QUERY ); } Reference< ui::XAcceleratorConfiguration > SAL_CALL ModuleUIConfigurationManager::getShortCutManager() { SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); if ( !m_xModuleAcceleratorManager.is() ) try { m_xModuleAcceleratorManager = ui::ModuleAcceleratorConfiguration:: createWithModuleIdentifier(m_xContext, m_aModuleIdentifier); } catch ( const css::uno::DeploymentException& ) { SAL_WARN("fwk.uiconfiguration", "ModuleAcceleratorConfiguration" " not available. This should happen only on mobile platforms."); } return m_xModuleAcceleratorManager; } Reference< XInterface > SAL_CALL ModuleUIConfigurationManager::getEventsManager() { return Reference< XInterface >(); } // XModuleUIConfigurationManager sal_Bool SAL_CALL ModuleUIConfigurationManager::isDefaultSettings( const OUString& ResourceURL ) { sal_Int16 nElementType = RetrieveTypeFromResourceURL( ResourceURL ); if (( nElementType == css::ui::UIElementType::UNKNOWN ) || ( nElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException(); SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); UIElementData* pDataSettings = impl_findUIElementData( ResourceURL, nElementType, false ); if ( pDataSettings && pDataSettings->bDefaultNode ) return true; return false; } Reference< XIndexAccess > SAL_CALL ModuleUIConfigurationManager::getDefaultSettings( const OUString& ResourceURL ) { sal_Int16 nElementType = RetrieveTypeFromResourceURL( ResourceURL ); if (( nElementType == css::ui::UIElementType::UNKNOWN ) || ( nElementType >= css::ui::UIElementType::COUNT )) throw IllegalArgumentException(); SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); // preload list of element types on demand impl_preloadUIElementTypeList( LAYER_DEFAULT, nElementType ); // Look into our default vector/unordered_map combination UIElementDataHashMap& rDefaultHashMap = m_aUIElements[LAYER_DEFAULT][nElementType].aElementsHashMap; UIElementDataHashMap::iterator pIter = rDefaultHashMap.find( ResourceURL ); if ( pIter != rDefaultHashMap.end() ) { if ( !pIter->second.xSettings.is() ) impl_requestUIElementData( nElementType, LAYER_DEFAULT, pIter->second ); return pIter->second.xSettings; } // Nothing has been found! throw NoSuchElementException(); } // XUIConfigurationPersistence void SAL_CALL ModuleUIConfigurationManager::reload() { SolarMutexClearableGuard aGuard; if ( m_bDisposed ) throw DisposedException(); if ( !m_xUserConfigStorage.is() || !m_bModified || m_bReadOnly ) return; // Try to access our module sub folder ConfigEventNotifyContainer aRemoveNotifyContainer; ConfigEventNotifyContainer aReplaceNotifyContainer; for ( sal_Int16 i = 1; i < css::ui::UIElementType::COUNT; i++ ) { try { UIElementType& rUserElementType = m_aUIElements[LAYER_USERDEFINED][i]; if ( rUserElementType.bModified ) { UIElementType& rDefaultElementType = m_aUIElements[LAYER_DEFAULT][i]; impl_reloadElementTypeData( rUserElementType, rDefaultElementType, aRemoveNotifyContainer, aReplaceNotifyContainer ); } } catch ( const Exception& ) { throw IOException(); } } m_bModified = false; // Unlock mutex before notify our listeners aGuard.clear(); // Notify our listeners for (const ui::ConfigurationEvent & j : aRemoveNotifyContainer) implts_notifyContainerListener( j, NotifyOp_Remove ); for (const ui::ConfigurationEvent & k : aReplaceNotifyContainer) implts_notifyContainerListener( k, NotifyOp_Replace ); } void SAL_CALL ModuleUIConfigurationManager::store() { SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); if ( !m_xUserConfigStorage.is() || !m_bModified || m_bReadOnly ) return; // Try to access our module sub folder for ( int i = 1; i < css::ui::UIElementType::COUNT; i++ ) { try { UIElementType& rElementType = m_aUIElements[LAYER_USERDEFINED][i]; if ( rElementType.bModified && rElementType.xStorage.is() ) { impl_storeElementTypeData( rElementType.xStorage, rElementType ); m_pStorageHandler[i]->commitUserChanges(); } } catch ( const Exception& ) { throw IOException(); } } m_bModified = false; } void SAL_CALL ModuleUIConfigurationManager::storeToStorage( const Reference< XStorage >& Storage ) { SolarMutexGuard g; if ( m_bDisposed ) throw DisposedException(); if ( !m_xUserConfigStorage.is() || !m_bModified || m_bReadOnly ) return; // Try to access our module sub folder for ( int i = 1; i < css::ui::UIElementType::COUNT; i++ ) { try { Reference< XStorage > xElementTypeStorage( Storage->openStorageElement( OUString(UIELEMENTTYPENAMES[i]), ElementModes::READWRITE )); UIElementType& rElementType = m_aUIElements[LAYER_USERDEFINED][i]; if ( rElementType.bModified && xElementTypeStorage.is() ) impl_storeElementTypeData( xElementTypeStorage, rElementType, false ); // store data to storage, but don't reset modify flag! } catch ( const Exception& ) { throw IOException(); } } Reference< XTransactedObject > xTransactedObject( Storage, UNO_QUERY ); if ( xTransactedObject.is() ) xTransactedObject->commit(); } sal_Bool SAL_CALL ModuleUIConfigurationManager::isModified() { SolarMutexGuard g; return m_bModified; } sal_Bool SAL_CALL ModuleUIConfigurationManager::isReadOnly() { SolarMutexGuard g; return m_bReadOnly; } void ModuleUIConfigurationManager::implts_notifyContainerListener( const ui::ConfigurationEvent& aEvent, NotifyOp eOp ) { std::unique_lock aGuard(m_mutex); using ListenerMethodType = void (SAL_CALL css::ui::XUIConfigurationListener::*)(const ui::ConfigurationEvent&); ListenerMethodType aListenerMethod {}; switch ( eOp ) { case NotifyOp_Replace: aListenerMethod = &css::ui::XUIConfigurationListener::elementReplaced; break; case NotifyOp_Insert: aListenerMethod = &css::ui::XUIConfigurationListener::elementInserted; break; case NotifyOp_Remove: aListenerMethod = &css::ui::XUIConfigurationListener::elementRemoved; break; } m_aConfigListeners.notifyEach(aGuard, aListenerMethod, aEvent); } } extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface * com_sun_star_comp_framework_ModuleUIConfigurationManager_get_implementation( css::uno::XComponentContext *context, css::uno::Sequence const &arguments) { return cppu::acquire(new ModuleUIConfigurationManager(context, arguments)); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */