/* -*- 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 namespace utl { using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::util; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::container; using namespace ::com::sun::star::configuration; //= OConfigurationNode OConfigurationNode::OConfigurationNode(const Reference< XInterface >& _rxNode ) :m_bEscapeNames(false) { OSL_ENSURE(_rxNode.is(), "OConfigurationNode::OConfigurationNode: invalid node interface!"); if (_rxNode.is()) { // collect all interfaces necessary m_xHierarchyAccess.set(_rxNode, UNO_QUERY); m_xDirectAccess.set(_rxNode, UNO_QUERY); // reset _all_ interfaces if _one_ of them is not supported if (!m_xHierarchyAccess.is() || !m_xDirectAccess.is()) { m_xHierarchyAccess = nullptr; m_xDirectAccess = nullptr; } // now for the non-critical interfaces m_xReplaceAccess.set(_rxNode, UNO_QUERY); m_xContainerAccess.set(_rxNode, UNO_QUERY); } Reference< XComponent > xConfigNodeComp(m_xDirectAccess, UNO_QUERY); if (xConfigNodeComp.is()) startComponentListening(xConfigNodeComp); if (isValid()) m_bEscapeNames = isSetNode() && Reference< XStringEscape >::query(m_xDirectAccess).is(); } OConfigurationNode::OConfigurationNode(const OConfigurationNode& _rSource) : OEventListenerAdapter() , m_xHierarchyAccess(_rSource.m_xHierarchyAccess) , m_xDirectAccess(_rSource.m_xDirectAccess) , m_xReplaceAccess(_rSource.m_xReplaceAccess) , m_xContainerAccess(_rSource.m_xContainerAccess) , m_bEscapeNames(_rSource.m_bEscapeNames) { Reference< XComponent > xConfigNodeComp(m_xDirectAccess, UNO_QUERY); if (xConfigNodeComp.is()) startComponentListening(xConfigNodeComp); } OConfigurationNode::OConfigurationNode(OConfigurationNode&& _rSource) : OEventListenerAdapter() , m_xHierarchyAccess(std::move(_rSource.m_xHierarchyAccess)) , m_xDirectAccess(std::move(_rSource.m_xDirectAccess)) , m_xReplaceAccess(std::move(_rSource.m_xReplaceAccess)) , m_xContainerAccess(std::move(_rSource.m_xContainerAccess)) , m_bEscapeNames(std::move(_rSource.m_bEscapeNames)) { Reference< XComponent > xConfigNodeComp(m_xDirectAccess, UNO_QUERY); if (xConfigNodeComp.is()) startComponentListening(xConfigNodeComp); } OConfigurationNode& OConfigurationNode::operator=(const OConfigurationNode& _rSource) { stopAllComponentListening(); m_xHierarchyAccess = _rSource.m_xHierarchyAccess; m_xDirectAccess = _rSource.m_xDirectAccess; m_xContainerAccess = _rSource.m_xContainerAccess; m_xReplaceAccess = _rSource.m_xReplaceAccess; m_bEscapeNames = _rSource.m_bEscapeNames; Reference< XComponent > xConfigNodeComp(m_xDirectAccess, UNO_QUERY); if (xConfigNodeComp.is()) startComponentListening(xConfigNodeComp); return *this; } OConfigurationNode& OConfigurationNode::operator=(OConfigurationNode&& _rSource) { stopAllComponentListening(); m_xHierarchyAccess = std::move(_rSource.m_xHierarchyAccess); m_xDirectAccess = std::move(_rSource.m_xDirectAccess); m_xContainerAccess = std::move(_rSource.m_xContainerAccess); m_xReplaceAccess = std::move(_rSource.m_xReplaceAccess); m_bEscapeNames = std::move(_rSource.m_bEscapeNames); Reference< XComponent > xConfigNodeComp(m_xDirectAccess, UNO_QUERY); if (xConfigNodeComp.is()) startComponentListening(xConfigNodeComp); return *this; } void OConfigurationNode::_disposing( const EventObject& _rSource ) { Reference< XComponent > xDisposingSource(_rSource.Source, UNO_QUERY); Reference< XComponent > xConfigNodeComp(m_xDirectAccess, UNO_QUERY); if (xDisposingSource.get() == xConfigNodeComp.get()) clear(); } OUString OConfigurationNode::getLocalName() const { OUString sLocalName; try { Reference< XNamed > xNamed( m_xDirectAccess, UNO_QUERY_THROW ); sLocalName = xNamed->getName(); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION("unotools"); } return sLocalName; } OUString OConfigurationNode::normalizeName(const OUString& _rName, NAMEORIGIN _eOrigin) const { OUString sName(_rName); if (getEscape()) { Reference< XStringEscape > xEscaper(m_xDirectAccess, UNO_QUERY); if (xEscaper.is() && !sName.isEmpty()) { try { if (NO_CALLER == _eOrigin) sName = xEscaper->escapeString(sName); else sName = xEscaper->unescapeString(sName); } catch(Exception&) { DBG_UNHANDLED_EXCEPTION("unotools"); } } } return sName; } Sequence< OUString > OConfigurationNode::getNodeNames() const throw() { OSL_ENSURE(m_xDirectAccess.is(), "OConfigurationNode::getNodeNames: object is invalid!"); Sequence< OUString > aReturn; if (m_xDirectAccess.is()) { try { aReturn = m_xDirectAccess->getElementNames(); // normalize the names OUString* pNames = aReturn.getArray(); for (sal_Int32 i=0; iremoveByName(sName); return true; } catch (NoSuchElementException&) { SAL_WARN( "unotools", "OConfigurationNode::removeNode: there is no element named: " << _rName ); } catch (WrappedTargetException&) { OSL_FAIL("OConfigurationNode::removeNode: caught a WrappedTargetException!"); } catch(Exception&) { OSL_FAIL("OConfigurationNode::removeNode: caught a generic exception!"); } } return false; } OConfigurationNode OConfigurationNode::insertNode(const OUString& _rName,const Reference< XInterface >& _xNode) const throw() { if(_xNode.is()) { try { OUString sName = normalizeName(_rName, NO_CALLER); m_xContainerAccess->insertByName(sName, makeAny(_xNode)); // if we're here, all was ok ... return OConfigurationNode( _xNode ); } catch(const Exception&) { DBG_UNHANDLED_EXCEPTION("unotools"); } // dispose the child if it has already been created, but could not be inserted Reference< XComponent > xChildComp(_xNode, UNO_QUERY); if (xChildComp.is()) try { xChildComp->dispose(); } catch(Exception&) { } } return OConfigurationNode(); } OConfigurationNode OConfigurationNode::createNode(const OUString& _rName) const throw() { Reference< XSingleServiceFactory > xChildFactory(m_xContainerAccess, UNO_QUERY); OSL_ENSURE(xChildFactory.is(), "OConfigurationNode::createNode: object is invalid or read-only!"); if (xChildFactory.is()) // implies m_xContainerAccess.is() { Reference< XInterface > xNewChild; try { xNewChild = xChildFactory->createInstance(); } catch(const Exception&) { DBG_UNHANDLED_EXCEPTION("unotools"); } return insertNode(_rName,xNewChild); } return OConfigurationNode(); } OConfigurationNode OConfigurationNode::openNode(const OUString& _rPath) const throw() { OSL_ENSURE(m_xDirectAccess.is(), "OConfigurationNode::openNode: object is invalid!"); OSL_ENSURE(m_xHierarchyAccess.is(), "OConfigurationNode::openNode: object is invalid!"); try { OUString sNormalized = normalizeName(_rPath, NO_CALLER); Reference< XInterface > xNode; if (m_xDirectAccess.is() && m_xDirectAccess->hasByName(sNormalized)) { xNode.set( m_xDirectAccess->getByName(sNormalized), css::uno::UNO_QUERY); if (!xNode.is()) OSL_FAIL("OConfigurationNode::openNode: could not open the node!"); } else if (m_xHierarchyAccess.is()) { xNode.set( m_xHierarchyAccess->getByHierarchicalName(_rPath), css::uno::UNO_QUERY); if (!xNode.is()) OSL_FAIL("OConfigurationNode::openNode: could not open the node!"); } if (xNode.is()) return OConfigurationNode( xNode ); } catch(const NoSuchElementException&) { SAL_WARN( "unotools", "OConfigurationNode::openNode: there is no element named " << _rPath ); } catch(Exception&) { OSL_FAIL("OConfigurationNode::openNode: caught an exception while retrieving the node!"); } return OConfigurationNode(); } bool OConfigurationNode::isSetNode() const { bool bIsSet = false; Reference< XServiceInfo > xSI(m_xHierarchyAccess, UNO_QUERY); if (xSI.is()) { try { bIsSet = xSI->supportsService("com.sun.star.configuration.SetAccess"); } catch(Exception&) { } } return bIsSet; } bool OConfigurationNode::hasByHierarchicalName( const OUString& _rName ) const throw() { OSL_ENSURE( m_xHierarchyAccess.is(), "OConfigurationNode::hasByHierarchicalName: no hierarchy access!" ); try { if ( m_xHierarchyAccess.is() ) { OUString sName = normalizeName( _rName, NO_CALLER ); return m_xHierarchyAccess->hasByHierarchicalName( sName ); } } catch(Exception&) { } return false; } bool OConfigurationNode::hasByName(const OUString& _rName) const throw() { OSL_ENSURE(m_xDirectAccess.is(), "OConfigurationNode::hasByName: object is invalid!"); try { OUString sName = normalizeName(_rName, NO_CALLER); if (m_xDirectAccess.is()) return m_xDirectAccess->hasByName(sName); } catch(Exception&) { } return false; } bool OConfigurationNode::setNodeValue(const OUString& _rPath, const Any& _rValue) const throw() { bool bResult = false; OSL_ENSURE(m_xReplaceAccess.is(), "OConfigurationNode::setNodeValue: object is invalid!"); if (m_xReplaceAccess.is()) { try { // check if _rPath is a level-1 path OUString sNormalizedName = normalizeName(_rPath, NO_CALLER); if (m_xReplaceAccess->hasByName(sNormalizedName)) { m_xReplaceAccess->replaceByName(sNormalizedName, _rValue); bResult = true; } // check if the name refers to a indirect descendant else if (m_xHierarchyAccess.is() && m_xHierarchyAccess->hasByHierarchicalName(_rPath)) { OSL_ASSERT(!_rPath.isEmpty()); OUString sParentPath, sLocalName; if ( splitLastFromConfigurationPath(_rPath, sParentPath, sLocalName) ) { OConfigurationNode aParentAccess = openNode(sParentPath); if (aParentAccess.isValid()) bResult = aParentAccess.setNodeValue(sLocalName, _rValue); } else { m_xReplaceAccess->replaceByName(sLocalName, _rValue); bResult = true; } } } catch(IllegalArgumentException&) { OSL_FAIL("OConfigurationNode::setNodeValue: could not replace the value: caught an IllegalArgumentException!"); } catch(NoSuchElementException&) { OSL_FAIL("OConfigurationNode::setNodeValue: could not replace the value: caught a NoSuchElementException!"); } catch(WrappedTargetException&) { OSL_FAIL("OConfigurationNode::setNodeValue: could not replace the value: caught a WrappedTargetException!"); } catch(Exception&) { OSL_FAIL("OConfigurationNode::setNodeValue: could not replace the value: caught a generic Exception!"); } } return bResult; } Any OConfigurationNode::getNodeValue(const OUString& _rPath) const throw() { OSL_ENSURE(m_xDirectAccess.is(), "OConfigurationNode::hasByName: object is invalid!"); OSL_ENSURE(m_xHierarchyAccess.is(), "OConfigurationNode::hasByName: object is invalid!"); Any aReturn; try { OUString sNormalizedPath = normalizeName(_rPath, NO_CALLER); if (m_xDirectAccess.is() && m_xDirectAccess->hasByName(sNormalizedPath) ) { aReturn = m_xDirectAccess->getByName(sNormalizedPath); } else if (m_xHierarchyAccess.is()) { aReturn = m_xHierarchyAccess->getByHierarchicalName(_rPath); } } catch(const NoSuchElementException&) { DBG_UNHANDLED_EXCEPTION("unotools"); } return aReturn; } void OConfigurationNode::clear() throw() { m_xHierarchyAccess.clear(); m_xDirectAccess.clear(); m_xReplaceAccess.clear(); m_xContainerAccess.clear(); } //= helper namespace { Reference< XMultiServiceFactory > lcl_getConfigProvider( const Reference & i_rContext ) { try { Reference< XMultiServiceFactory > xProvider = theDefaultProvider::get( i_rContext ); return xProvider; } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("unotools"); } return nullptr; } Reference< XInterface > lcl_createConfigurationRoot( const Reference< XMultiServiceFactory >& i_rxConfigProvider, const OUString& i_rNodePath, const bool i_bUpdatable, const sal_Int32 i_nDepth ) { ENSURE_OR_RETURN( i_rxConfigProvider.is(), "invalid provider", nullptr ); try { ::comphelper::NamedValueCollection aArgs; aArgs.put( "nodepath", i_rNodePath ); aArgs.put( "depth", i_nDepth ); OUString sAccessService( i_bUpdatable ? OUString( "com.sun.star.configuration.ConfigurationUpdateAccess" ) : OUString( "com.sun.star.configuration.ConfigurationAccess" )); Reference< XInterface > xRoot( i_rxConfigProvider->createInstanceWithArguments( sAccessService, aArgs.getWrappedPropertyValues() ), UNO_SET_THROW ); return xRoot; } catch ( const Exception& ) { DBG_UNHANDLED_EXCEPTION("unotools"); } return nullptr; } } OConfigurationTreeRoot::OConfigurationTreeRoot( const Reference< XInterface >& _rxRootNode ) :OConfigurationNode( _rxRootNode ) ,m_xCommitter( _rxRootNode, UNO_QUERY ) { } OConfigurationTreeRoot::OConfigurationTreeRoot( const Reference & i_rContext, const OUString& i_rNodePath, const bool i_bUpdatable ) :OConfigurationNode( lcl_createConfigurationRoot( lcl_getConfigProvider( i_rContext ), i_rNodePath, i_bUpdatable, -1 ).get() ) ,m_xCommitter() { if ( i_bUpdatable ) { m_xCommitter.set( getUNONode(), UNO_QUERY ); OSL_ENSURE( m_xCommitter.is(), "OConfigurationTreeRoot::OConfigurationTreeRoot: could not create an updatable node!" ); } } void OConfigurationTreeRoot::clear() throw() { OConfigurationNode::clear(); m_xCommitter.clear(); } bool OConfigurationTreeRoot::commit() const throw() { OSL_ENSURE(isValid(), "OConfigurationTreeRoot::commit: object is invalid!"); if (!isValid()) return false; OSL_ENSURE(m_xCommitter.is(), "OConfigurationTreeRoot::commit: I'm a readonly node!"); if (!m_xCommitter.is()) return false; try { m_xCommitter->commitChanges(); return true; } catch(const Exception&) { DBG_UNHANDLED_EXCEPTION("unotools"); } return false; } OConfigurationTreeRoot OConfigurationTreeRoot::createWithProvider(const Reference< XMultiServiceFactory >& _rxConfProvider, const OUString& _rPath, sal_Int32 _nDepth, CREATION_MODE _eMode) { Reference< XInterface > xRoot( lcl_createConfigurationRoot( _rxConfProvider, _rPath, _eMode != CM_READONLY, _nDepth ) ); if ( xRoot.is() ) return OConfigurationTreeRoot( xRoot ); return OConfigurationTreeRoot(); } OConfigurationTreeRoot OConfigurationTreeRoot::createWithComponentContext( const Reference< XComponentContext >& _rxContext, const OUString& _rPath, sal_Int32 _nDepth, CREATION_MODE _eMode ) { return createWithProvider( lcl_getConfigProvider( _rxContext ), _rPath, _nDepth, _eMode ); } OConfigurationTreeRoot OConfigurationTreeRoot::tryCreateWithComponentContext( const Reference< XComponentContext >& rxContext, const OUString& _rPath, sal_Int32 _nDepth , CREATION_MODE _eMode ) { OSL_ENSURE( rxContext.is(), "OConfigurationTreeRoot::tryCreateWithComponentContext: invalid XComponentContext!" ); try { Reference< XMultiServiceFactory > xConfigFactory = theDefaultProvider::get( rxContext ); return createWithProvider( xConfigFactory, _rPath, _nDepth, _eMode ); } catch(const Exception&) { // silence this, 'cause the contract of this method states "no assertions" } return OConfigurationTreeRoot(); } } // namespace utl /* vim:set shiftwidth=4 softtabstop=4 expandtab: */