/* -*- 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 using namespace css::uno; using namespace css::registry; using namespace css::lang; using namespace css::container; using namespace cppu; using namespace osl; namespace { class NestedKeyImpl; class NestedRegistryImpl : public WeakAggImplHelper4 < XSimpleRegistry, XInitialization, XServiceInfo, XEnumerationAccess > { public: NestedRegistryImpl( ); // XServiceInfo virtual OUString SAL_CALL getImplementationName( ) override; virtual sal_Bool SAL_CALL supportsService( const OUString& ServiceName ) override; virtual Sequence< OUString > SAL_CALL getSupportedServiceNames( ) override; // XInitialization virtual void SAL_CALL initialize( const Sequence< Any >& aArguments ) override; // XSimpleRegistry virtual OUString SAL_CALL getURL() override; virtual void SAL_CALL open( const OUString& rURL, sal_Bool bReadOnly, sal_Bool bCreate ) override; virtual sal_Bool SAL_CALL isValid( ) override; virtual void SAL_CALL close( ) override; virtual void SAL_CALL destroy( ) override; virtual Reference< XRegistryKey > SAL_CALL getRootKey( ) override; virtual sal_Bool SAL_CALL isReadOnly( ) override; virtual void SAL_CALL mergeKey( const OUString& aKeyName, const OUString& aUrl ) override; // XEnumerationAccess virtual Reference< XEnumeration > SAL_CALL createEnumeration( ) override; virtual Type SAL_CALL getElementType( ) override; virtual sal_Bool SAL_CALL hasElements( ) override; friend class NestedKeyImpl; protected: Mutex m_mutex; sal_uInt32 m_state; Reference m_localReg; Reference m_defaultReg; }; // class NestedKeyImpl the implementation of interface XRegistryKey class NestedKeyImpl : public WeakImplHelper< XRegistryKey > { public: NestedKeyImpl( NestedRegistryImpl* pDefaultRegistry, Reference& localKey, Reference& defaultKey); NestedKeyImpl( const OUString& aKeyName, NestedKeyImpl* pKey); // XRegistryKey virtual OUString SAL_CALL getKeyName() override; virtual sal_Bool SAL_CALL isReadOnly( ) override; virtual sal_Bool SAL_CALL isValid( ) override; virtual RegistryKeyType SAL_CALL getKeyType( const OUString& rKeyName ) override; virtual RegistryValueType SAL_CALL getValueType( ) override; virtual sal_Int32 SAL_CALL getLongValue( ) override; virtual void SAL_CALL setLongValue( sal_Int32 value ) override; virtual Sequence< sal_Int32 > SAL_CALL getLongListValue( ) override; virtual void SAL_CALL setLongListValue( const css::uno::Sequence< sal_Int32 >& seqValue ) override; virtual OUString SAL_CALL getAsciiValue( ) override; virtual void SAL_CALL setAsciiValue( const OUString& value ) override; virtual Sequence< OUString > SAL_CALL getAsciiListValue( ) override; virtual void SAL_CALL setAsciiListValue( const css::uno::Sequence< OUString >& seqValue ) override; virtual OUString SAL_CALL getStringValue( ) override; virtual void SAL_CALL setStringValue( const OUString& value ) override; virtual Sequence< OUString > SAL_CALL getStringListValue( ) override; virtual void SAL_CALL setStringListValue( const css::uno::Sequence< OUString >& seqValue ) override; virtual Sequence< sal_Int8 > SAL_CALL getBinaryValue( ) override; virtual void SAL_CALL setBinaryValue( const css::uno::Sequence< sal_Int8 >& value ) override; virtual Reference< XRegistryKey > SAL_CALL openKey( const OUString& aKeyName ) override; virtual Reference< XRegistryKey > SAL_CALL createKey( const OUString& aKeyName ) override; virtual void SAL_CALL closeKey( ) override; virtual void SAL_CALL deleteKey( const OUString& rKeyName ) override; virtual Sequence< Reference< XRegistryKey > > SAL_CALL openKeys( ) override; virtual Sequence< OUString > SAL_CALL getKeyNames( ) override; virtual sal_Bool SAL_CALL createLink( const OUString& aLinkName, const OUString& aLinkTarget ) override; virtual void SAL_CALL deleteLink( const OUString& rLinkName ) override; virtual OUString SAL_CALL getLinkTarget( const OUString& rLinkName ) override; virtual OUString SAL_CALL getResolvedName( const OUString& aKeyName ) override; protected: void computeChanges(); OUString computeName(const OUString& name); OUString m_name; sal_uInt32 m_state; rtl::Reference m_xRegistry; Reference m_localKey; Reference m_defaultKey; }; NestedKeyImpl::NestedKeyImpl( NestedRegistryImpl* pDefaultRegistry, Reference& localKey, Reference& defaultKey ) : m_xRegistry(pDefaultRegistry) { m_localKey = localKey; m_defaultKey = defaultKey; if (m_localKey.is()) { m_name = m_localKey->getKeyName(); } else if (m_defaultKey.is()) { m_name = m_defaultKey->getKeyName(); } m_state = m_xRegistry->m_state; } NestedKeyImpl::NestedKeyImpl( const OUString& rKeyName, NestedKeyImpl* pKey) : m_xRegistry(pKey->m_xRegistry) { if (pKey->m_localKey.is() && pKey->m_localKey->isValid()) { m_localKey = pKey->m_localKey->openKey(rKeyName); } if (pKey->m_defaultKey.is() && pKey->m_defaultKey->isValid()) { m_defaultKey = pKey->m_defaultKey->openKey(rKeyName); } if (m_localKey.is()) { m_name = m_localKey->getKeyName(); } else if (m_defaultKey.is()) { m_name = m_defaultKey->getKeyName(); } m_state = m_xRegistry->m_state; } void NestedKeyImpl::computeChanges() { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( m_state != m_xRegistry->m_state ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); Reference tmpKey = rootKey->openKey(m_name); if ( tmpKey.is() ) { m_localKey = rootKey->openKey(m_name); } m_state = m_xRegistry->m_state; } } // NestedKey_Impl::computeName() OUString NestedKeyImpl::computeName(const OUString& name) { OUString resLocalName, resDefaultName; Guard< Mutex > aGuard( m_xRegistry->m_mutex ); try { if ( m_localKey.is() && m_localKey->isValid() ) { resLocalName = m_localKey->getResolvedName(name); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getResolvedName(name); } if ( !resLocalName.isEmpty() && m_xRegistry->m_defaultReg->isValid() ) { Reference localRoot(m_xRegistry->m_localReg->getRootKey()); Reference defaultRoot(m_xRegistry->m_defaultReg->getRootKey()); resDefaultName = defaultRoot->getResolvedName(resLocalName); sal_uInt32 count = 100; while (resLocalName != resDefaultName && count > 0) { count--; if (resLocalName.isEmpty() || resDefaultName.isEmpty()) throw InvalidRegistryException(); resLocalName = localRoot->getResolvedName(resDefaultName); resDefaultName = defaultRoot->getResolvedName(resLocalName); } } } catch(InvalidRegistryException& ) { } return resLocalName; } OUString SAL_CALL NestedKeyImpl::getKeyName() { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); return m_name; } sal_Bool SAL_CALL NestedKeyImpl::isReadOnly( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( !m_localKey.is() || !m_localKey->isValid() ) throw InvalidRegistryException(); return m_localKey->isReadOnly(); } sal_Bool SAL_CALL NestedKeyImpl::isValid( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); return ((m_localKey.is() && m_localKey->isValid()) || (m_defaultKey.is() && m_defaultKey->isValid()) ); } RegistryKeyType SAL_CALL NestedKeyImpl::getKeyType( const OUString& rKeyName ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getKeyType(rKeyName); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getKeyType(rKeyName); } return RegistryKeyType_KEY; } RegistryValueType SAL_CALL NestedKeyImpl::getValueType( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getValueType(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getValueType(); } return RegistryValueType_NOT_DEFINED; } sal_Int32 SAL_CALL NestedKeyImpl::getLongValue( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getLongValue(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getLongValue(); } else { throw InvalidRegistryException(); } } void SAL_CALL NestedKeyImpl::setLongValue( sal_Int32 value ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->setLongValue(value); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); m_localKey->setLongValue(value); m_state = m_xRegistry->m_state++; } else { throw InvalidRegistryException(); } } Sequence< sal_Int32 > SAL_CALL NestedKeyImpl::getLongListValue( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getLongListValue(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getLongListValue(); } else { throw InvalidRegistryException(); } } void SAL_CALL NestedKeyImpl::setLongListValue( const Sequence< sal_Int32 >& seqValue ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->setLongListValue(seqValue); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); m_localKey->setLongListValue(seqValue); m_state = m_xRegistry->m_state++; } else { throw InvalidRegistryException(); } } OUString SAL_CALL NestedKeyImpl::getAsciiValue( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getAsciiValue(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getAsciiValue(); } else { throw InvalidRegistryException(); } } void SAL_CALL NestedKeyImpl::setAsciiValue( const OUString& value ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->setAsciiValue(value); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); m_localKey->setAsciiValue(value); m_state = m_xRegistry->m_state++; } else { throw InvalidRegistryException(); } } Sequence< OUString > SAL_CALL NestedKeyImpl::getAsciiListValue( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getAsciiListValue(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getAsciiListValue(); } else { throw InvalidRegistryException(); } } void SAL_CALL NestedKeyImpl::setAsciiListValue( const Sequence< OUString >& seqValue ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->setAsciiListValue(seqValue); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); m_localKey->setAsciiListValue(seqValue); m_state = m_xRegistry->m_state++; } else { throw InvalidRegistryException(); } } OUString SAL_CALL NestedKeyImpl::getStringValue( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getStringValue(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getStringValue(); } else { throw InvalidRegistryException(); } } void SAL_CALL NestedKeyImpl::setStringValue( const OUString& value ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->setStringValue(value); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); m_localKey->setStringValue(value); m_state = m_xRegistry->m_state++; } else { throw InvalidRegistryException(); } } Sequence< OUString > SAL_CALL NestedKeyImpl::getStringListValue( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getStringListValue(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getStringListValue(); } else { throw InvalidRegistryException(); } } void SAL_CALL NestedKeyImpl::setStringListValue( const Sequence< OUString >& seqValue ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->setStringListValue(seqValue); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); m_localKey->setStringListValue(seqValue); m_state = m_xRegistry->m_state++; } else { throw InvalidRegistryException(); } } Sequence< sal_Int8 > SAL_CALL NestedKeyImpl::getBinaryValue( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { return m_localKey->getBinaryValue(); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { return m_defaultKey->getBinaryValue(); } else { throw InvalidRegistryException(); } } void SAL_CALL NestedKeyImpl::setBinaryValue( const Sequence< sal_Int8 >& value ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); computeChanges(); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->setBinaryValue(value); } else if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); m_localKey->setBinaryValue(value); m_state = m_xRegistry->m_state++; } else { throw InvalidRegistryException(); } } Reference< XRegistryKey > SAL_CALL NestedKeyImpl::openKey( const OUString& aKeyName ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( !m_localKey.is() && !m_defaultKey.is() ) { throw InvalidRegistryException(); } OUString resolvedName = computeName(aKeyName); if ( resolvedName.isEmpty() ) throw InvalidRegistryException(); Reference localKey, defaultKey; if ( m_localKey.is() && m_localKey->isValid() ) { localKey = m_xRegistry->m_localReg->getRootKey()->openKey(resolvedName); } if ( m_defaultKey.is() && m_defaultKey->isValid() ) { defaultKey = m_xRegistry->m_defaultReg->getRootKey()->openKey(resolvedName); } if ( localKey.is() || defaultKey.is() ) { return static_cast(new NestedKeyImpl(m_xRegistry.get(), localKey, defaultKey)); } else { return Reference(); } } Reference< XRegistryKey > SAL_CALL NestedKeyImpl::createKey( const OUString& aKeyName ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( (!m_localKey.is() && !m_defaultKey.is()) || (m_localKey.is() && m_localKey->isReadOnly()) ) { throw InvalidRegistryException(); } OUString resolvedName = computeName(aKeyName); if ( resolvedName.isEmpty() ) throw InvalidRegistryException(); if ( m_localKey.is() && m_localKey->isValid() ) { Reference localKey, defaultKey; localKey = m_xRegistry->m_localReg->getRootKey()->createKey(resolvedName); if ( localKey.is() ) { if ( m_defaultKey.is() && m_defaultKey->isValid() ) { defaultKey = m_xRegistry->m_defaultReg->getRootKey()->openKey(resolvedName); } m_state = m_xRegistry->m_state++; return static_cast(new NestedKeyImpl(m_xRegistry.get(), localKey, defaultKey)); } } else { Reference localKey, defaultKey; if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); localKey = m_xRegistry->m_localReg->getRootKey()->createKey(resolvedName); if ( localKey.is() ) { defaultKey = m_xRegistry->m_defaultReg->getRootKey()->openKey(resolvedName); m_state = m_xRegistry->m_state++; return static_cast(new NestedKeyImpl(m_xRegistry.get(), localKey, defaultKey)); } } } return Reference(); } void SAL_CALL NestedKeyImpl::closeKey( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( m_localKey.is() && m_localKey->isValid() ) { m_localKey->closeKey(); } if ( m_defaultKey.is() && m_defaultKey->isValid() ) { m_defaultKey->closeKey(); } } void SAL_CALL NestedKeyImpl::deleteKey( const OUString& rKeyName ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( !m_localKey.is() || !m_localKey->isValid() || m_localKey->isReadOnly() ) { throw InvalidRegistryException(); } OUString resolvedName = computeName(rKeyName); if ( resolvedName.isEmpty() ) { throw InvalidRegistryException(); } m_xRegistry->m_localReg->getRootKey()->deleteKey(resolvedName); } Sequence< Reference< XRegistryKey > > SAL_CALL NestedKeyImpl::openKeys( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( !m_localKey.is() && !m_defaultKey.is() ) { throw InvalidRegistryException(); } Sequence localSeq, defaultSeq; if ( m_localKey.is() && m_localKey->isValid() ) { localSeq = m_localKey->getKeyNames(); } if ( m_defaultKey.is() && m_defaultKey->isValid() ) { defaultSeq = m_defaultKey->getKeyNames(); } sal_uInt32 local = localSeq.getLength(); sal_uInt32 def = defaultSeq.getLength(); sal_uInt32 len = 0; sal_uInt32 i, j; for (i=0; i < local; i++) { for (j=0 ; j < def; j++) { if ( localSeq.getConstArray()[i] == defaultSeq.getConstArray()[j] ) { len++; break; } } } Sequence< Reference > retSeq(local + def - len); OUString name; sal_Int32 lastIndex; for (i=0; i < local; i++) { name = localSeq.getConstArray()[i]; lastIndex = name.lastIndexOf('/'); name = name.copy(lastIndex); retSeq.getArray()[i] = static_cast(new NestedKeyImpl(name, this)); } sal_uInt32 k = local; for (i=0; i < def; i++) { bool insert = true; for (j=0 ; j < local; j++) { if ( retSeq.getConstArray()[j]->getKeyName() == defaultSeq.getConstArray()[i] ) { insert = false; break; } } if ( insert ) { name = defaultSeq.getConstArray()[i]; lastIndex = name.lastIndexOf('/'); name = name.copy(lastIndex); retSeq.getArray()[k++] = static_cast(new NestedKeyImpl(name, this)); } } return retSeq; } Sequence< OUString > SAL_CALL NestedKeyImpl::getKeyNames( ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( !m_localKey.is() && !m_defaultKey.is() ) { throw InvalidRegistryException(); } Sequence localSeq, defaultSeq; if ( m_localKey.is() && m_localKey->isValid() ) { localSeq = m_localKey->getKeyNames(); } if ( m_defaultKey.is() && m_defaultKey->isValid() ) { defaultSeq = m_defaultKey->getKeyNames(); } sal_uInt32 local = localSeq.getLength(); sal_uInt32 def = defaultSeq.getLength(); sal_uInt32 len = 0; sal_uInt32 i, j; for (i=0; i < local; i++) { for (j=0 ; j < def; j++) { if ( localSeq.getConstArray()[i] == defaultSeq.getConstArray()[j] ) { len++; break; } } } Sequence retSeq(local + def - len); for (i=0; i < local; i++) { retSeq.getArray()[i] = localSeq.getConstArray()[i]; } sal_uInt32 k = local; for (i=0; i < def; i++) { bool insert = true; for (j=0 ; j < local; j++) { if ( retSeq.getConstArray()[j] == defaultSeq.getConstArray()[i] ) { insert = false; break; } } if ( insert ) retSeq.getArray()[k++] = defaultSeq.getConstArray()[i]; } return retSeq; } sal_Bool SAL_CALL NestedKeyImpl::createLink( const OUString& aLinkName, const OUString& aLinkTarget ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); bool isCreated = false; if ( !m_localKey.is() && !m_defaultKey.is() ) { throw InvalidRegistryException(); } OUString linkName; OUString resolvedName; sal_Int32 lastIndex = aLinkName.lastIndexOf('/'); if ( lastIndex > 0 ) { linkName = aLinkName.copy(0, lastIndex); resolvedName = computeName(linkName); if ( resolvedName.isEmpty() ) { throw InvalidRegistryException(); } resolvedName = resolvedName + aLinkName.copy(lastIndex); } else { if ( lastIndex == 0 ) resolvedName = m_name + aLinkName; else resolvedName = m_name + "/" + aLinkName; } if ( m_localKey.is() && m_localKey->isValid() ) { isCreated = m_xRegistry->m_localReg->getRootKey()->createLink(resolvedName, aLinkTarget); } else { if ( m_defaultKey.is() && m_defaultKey->isValid() ) { Reference rootKey(m_xRegistry->m_localReg->getRootKey()); m_localKey = rootKey->createKey(m_name); isCreated = m_xRegistry->m_localReg->getRootKey()->createLink(resolvedName, aLinkTarget); } } if ( isCreated ) m_state = m_xRegistry->m_state++; return isCreated; } void SAL_CALL NestedKeyImpl::deleteLink( const OUString& rLinkName ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( !m_localKey.is() && !m_defaultKey.is() ) { throw InvalidRegistryException(); } OUString linkName; OUString resolvedName; sal_Int32 lastIndex = rLinkName.lastIndexOf('/'); if ( lastIndex > 0 ) { linkName = rLinkName.copy(0, lastIndex); resolvedName = computeName(linkName); if ( resolvedName.isEmpty() ) { throw InvalidRegistryException(); } resolvedName = resolvedName + rLinkName.copy(lastIndex); } else { if ( lastIndex == 0 ) resolvedName = m_name + rLinkName; else resolvedName = m_name + "/" + rLinkName; } if ( !m_localKey.is() || !m_localKey->isValid() || m_localKey->isReadOnly() ) { throw InvalidRegistryException(); } m_xRegistry->m_localReg->getRootKey()->deleteLink(resolvedName); } OUString SAL_CALL NestedKeyImpl::getLinkTarget( const OUString& rLinkName ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( !m_localKey.is() && !m_defaultKey.is() ) { throw InvalidRegistryException(); } OUString linkName; OUString resolvedName; sal_Int32 lastIndex = rLinkName.lastIndexOf('/'); if ( lastIndex > 0 ) { linkName = rLinkName.copy(0, lastIndex); resolvedName = computeName(linkName); if ( resolvedName.isEmpty() ) { throw InvalidRegistryException(); } resolvedName = resolvedName + rLinkName.copy(lastIndex); } else { if ( lastIndex == 0 ) resolvedName = m_name + rLinkName; else resolvedName = m_name + "/" + rLinkName; } OUString linkTarget; if ( m_localKey.is() && m_localKey->isValid() ) { try { linkTarget = m_xRegistry->m_localReg->getRootKey()->getLinkTarget(resolvedName); return linkTarget; } catch(InvalidRegistryException& ) { } } if ( m_defaultKey.is() && m_defaultKey->isValid() ) linkTarget = m_xRegistry->m_defaultReg->getRootKey()->getLinkTarget(resolvedName); return linkTarget; } OUString SAL_CALL NestedKeyImpl::getResolvedName( const OUString& aKeyName ) { Guard< Mutex > aGuard( m_xRegistry->m_mutex ); if ( !m_localKey.is() && !m_defaultKey.is() ) { throw InvalidRegistryException(); } OUString resolvedName = computeName(aKeyName); if ( resolvedName.isEmpty() ) { throw InvalidRegistryException(); } return resolvedName; } // DefaultRegistry Implementation NestedRegistryImpl::NestedRegistryImpl( ) : m_state(0) {} class RegistryEnumueration : public WeakImplHelper< XEnumeration > { public: RegistryEnumueration( const Reference< XSimpleRegistry > &r1, const Reference< XSimpleRegistry > &r2 ) : m_xReg1( r1 ) , m_xReg2( r2 ) {} public: virtual sal_Bool SAL_CALL hasMoreElements( ) override; virtual Any SAL_CALL nextElement( ) override; private: Reference< XSimpleRegistry > m_xReg1; Reference< XSimpleRegistry > m_xReg2; }; sal_Bool RegistryEnumueration::hasMoreElements( ) { return m_xReg1.is() || m_xReg2.is(); } Any RegistryEnumueration::nextElement( ) { Any a; if( m_xReg1.is() ) { a <<= m_xReg1; m_xReg1.clear(); } else if( m_xReg2.is() ) { a <<= m_xReg2; m_xReg2.clear(); } else { throw NoSuchElementException( "NestedRegistry: no nextElement() !" ); } return a; } Reference< XEnumeration > NestedRegistryImpl::createEnumeration( ) { MutexGuard guard( m_mutex ); return new RegistryEnumueration( m_localReg, m_defaultReg ); } Type NestedRegistryImpl::getElementType( ) { return cppu::UnoType::get(); } sal_Bool SAL_CALL NestedRegistryImpl::hasElements( ) { MutexGuard guard( m_mutex ); return m_localReg.is() || m_defaultReg.is(); } OUString SAL_CALL NestedRegistryImpl::getImplementationName( ) { return OUString("com.sun.star.comp.stoc.NestedRegistry"); } sal_Bool SAL_CALL NestedRegistryImpl::supportsService( const OUString& ServiceName ) { return cppu::supportsService(this, ServiceName); } Sequence SAL_CALL NestedRegistryImpl::getSupportedServiceNames( ) { Sequence< OUString > seqNames { "com.sun.star.registry.NestedRegistry" }; return seqNames; } void SAL_CALL NestedRegistryImpl::initialize( const Sequence< Any >& aArguments ) { Guard< Mutex > aGuard( m_mutex ); if ( (aArguments.getLength() == 2) && (aArguments[0].getValueType().getTypeClass() == TypeClass_INTERFACE) && (aArguments[1].getValueType().getTypeClass() == TypeClass_INTERFACE) ) { aArguments[0] >>= m_localReg; aArguments[1] >>= m_defaultReg; if ( m_localReg == m_defaultReg ) m_defaultReg.clear(); } } OUString SAL_CALL NestedRegistryImpl::getURL() { Guard< Mutex > aGuard( m_mutex ); try { if ( m_localReg.is() && m_localReg->isValid() ) return m_localReg->getURL(); } catch(InvalidRegistryException& ) { } return OUString(); } void SAL_CALL NestedRegistryImpl::open( const OUString&, sal_Bool, sal_Bool ) { throw InvalidRegistryException( "the 'open' method is not specified for a nested registry" ); } sal_Bool SAL_CALL NestedRegistryImpl::isValid( ) { Guard< Mutex > aGuard( m_mutex ); try { if ( (m_localReg.is() && m_localReg->isValid()) || (m_defaultReg.is() && m_defaultReg->isValid()) ) return true; } catch(InvalidRegistryException& ) { } return false; } void SAL_CALL NestedRegistryImpl::close( ) { Guard< Mutex > aGuard( m_mutex ); if ( m_localReg.is() && m_localReg->isValid() ) { m_localReg->close(); } if ( m_defaultReg.is() && m_defaultReg->isValid() ) { m_defaultReg->close(); } } void SAL_CALL NestedRegistryImpl::destroy( ) { throw InvalidRegistryException( "the 'destroy' method is not specified for a nested registry" ); } Reference< XRegistryKey > SAL_CALL NestedRegistryImpl::getRootKey( ) { Guard< Mutex > aGuard( m_mutex ); if ( !m_localReg.is() || !m_localReg->isValid() ) { throw InvalidRegistryException(); } Reference localKey, defaultKey; localKey = m_localReg->getRootKey(); if ( localKey.is() ) { if ( m_defaultReg.is() && m_defaultReg->isValid() ) { defaultKey = m_defaultReg->getRootKey(); } return static_cast(new NestedKeyImpl(this, localKey, defaultKey)); } return Reference(); } sal_Bool SAL_CALL NestedRegistryImpl::isReadOnly( ) { Guard< Mutex > aGuard( m_mutex ); try { if ( m_localReg.is() && m_localReg->isValid() ) return m_localReg->isReadOnly(); } catch(InvalidRegistryException& ) { } return false; } void SAL_CALL NestedRegistryImpl::mergeKey( const OUString& aKeyName, const OUString& aUrl ) { Guard< Mutex > aGuard( m_mutex ); if ( m_localReg.is() && m_localReg->isValid() ) { m_localReg->mergeKey(aKeyName, aUrl); m_state++; } } } // namespace extern "C" SAL_DLLPUBLIC_EXPORT css::uno::XInterface * com_sun_star_comp_stoc_NestedRegistry_get_implementation( SAL_UNUSED_PARAMETER css::uno::XComponentContext *, css::uno::Sequence const &) { return cppu::acquire(new NestedRegistryImpl); } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */