/* -*- 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 "datasource.hxx" #include "module_dba.hxx" #include "services.hxx" #include "userinformation.hxx" #include "commandcontainer.hxx" #include "dbastrings.hrc" #include "core_resource.hxx" #include "core_resource.hrc" #include "connection.hxx" #include "SharedConnection.hxx" #include "databasedocument.hxx" #include "OAuthenticationContinuation.hxx" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace ::com::sun::star::sdbc; using namespace ::com::sun::star::sdbcx; using namespace ::com::sun::star::sdb; using namespace ::com::sun::star::beans; using namespace ::com::sun::star::uno; using namespace ::com::sun::star::lang; using namespace ::com::sun::star::embed; using namespace ::com::sun::star::container; using namespace ::com::sun::star::util; using namespace ::com::sun::star::io; using namespace ::com::sun::star::task; using namespace ::com::sun::star::ucb; using namespace ::com::sun::star::frame; using namespace ::com::sun::star::reflection; using namespace ::cppu; using namespace ::osl; using namespace ::dbtools; using namespace ::comphelper; namespace dbaccess { // FlushNotificationAdapter typedef ::cppu::WeakImplHelper1< XFlushListener > FlushNotificationAdapter_Base; /** helper class which implements a XFlushListener, and forwards all notification events to another XFlushListener The speciality is that the foreign XFlushListener instance, to which the notifications are forwarded, is held weak. Thus, the class can be used with XFlushable instance which hold their listeners with a hard reference, if you simply do not *want* to be held hard-ref-wise. */ class FlushNotificationAdapter : public FlushNotificationAdapter_Base { private: WeakReference< XFlushable > m_aBroadcaster; WeakReference< XFlushListener > m_aListener; public: static void installAdapter( const Reference< XFlushable >& _rxBroadcaster, const Reference< XFlushListener >& _rxListener ) { Reference< XFlushListener > xAdapter( new FlushNotificationAdapter( _rxBroadcaster, _rxListener ) ); } protected: FlushNotificationAdapter( const Reference< XFlushable >& _rxBroadcaster, const Reference< XFlushListener >& _rxListener ); virtual ~FlushNotificationAdapter(); void SAL_CALL impl_dispose( bool _bRevokeListener ); protected: // XFlushListener virtual void SAL_CALL flushed( const ::com::sun::star::lang::EventObject& rEvent ) throw (::com::sun::star::uno::RuntimeException, std::exception) SAL_OVERRIDE; // XEventListener virtual void SAL_CALL disposing( const ::com::sun::star::lang::EventObject& Source ) throw (::com::sun::star::uno::RuntimeException, std::exception) SAL_OVERRIDE; }; FlushNotificationAdapter::FlushNotificationAdapter( const Reference< XFlushable >& _rxBroadcaster, const Reference< XFlushListener >& _rxListener ) :m_aBroadcaster( _rxBroadcaster ) ,m_aListener( _rxListener ) { OSL_ENSURE( _rxBroadcaster.is(), "FlushNotificationAdapter::FlushNotificationAdapter: invalid flushable!" ); osl_atomic_increment( &m_refCount ); { if ( _rxBroadcaster.is() ) _rxBroadcaster->addFlushListener( this ); } osl_atomic_decrement( &m_refCount ); OSL_ENSURE( m_refCount == 1, "FlushNotificationAdapter::FlushNotificationAdapter: broadcaster isn't holding by hard ref!?" ); } FlushNotificationAdapter::~FlushNotificationAdapter() { } void SAL_CALL FlushNotificationAdapter::impl_dispose( bool _bRevokeListener ) { Reference< XFlushListener > xKeepAlive( this ); if ( _bRevokeListener ) { Reference< XFlushable > xFlushable( m_aBroadcaster ); if ( xFlushable.is() ) xFlushable->removeFlushListener( this ); } m_aListener.clear(); m_aBroadcaster.clear(); } void SAL_CALL FlushNotificationAdapter::flushed( const EventObject& rEvent ) throw (RuntimeException, std::exception) { Reference< XFlushListener > xListener( m_aListener ); if ( xListener.is() ) xListener->flushed( rEvent ); else impl_dispose( true ); } void SAL_CALL FlushNotificationAdapter::disposing( const EventObject& Source ) throw (RuntimeException, std::exception) { Reference< XFlushListener > xListener( m_aListener ); if ( xListener.is() ) xListener->disposing( Source ); impl_dispose( true ); } OAuthenticationContinuation::OAuthenticationContinuation() :m_bRemberPassword(true), // TODO: a meaningful default m_bCanSetUserName(true) { } sal_Bool SAL_CALL OAuthenticationContinuation::canSetRealm( ) throw(RuntimeException, std::exception) { return sal_False; } void SAL_CALL OAuthenticationContinuation::setRealm( const OUString& /*Realm*/ ) throw(RuntimeException, std::exception) { SAL_WARN("dbaccess","OAuthenticationContinuation::setRealm: not supported!"); } sal_Bool SAL_CALL OAuthenticationContinuation::canSetUserName( ) throw(RuntimeException, std::exception) { // we always allow this, even if the database document is read-only. In this case, // it's simply that the user cannot store the new user name. return m_bCanSetUserName; } void SAL_CALL OAuthenticationContinuation::setUserName( const OUString& _rUser ) throw(RuntimeException, std::exception) { m_sUser = _rUser; } sal_Bool SAL_CALL OAuthenticationContinuation::canSetPassword( ) throw(RuntimeException, std::exception) { return sal_True; } void SAL_CALL OAuthenticationContinuation::setPassword( const OUString& _rPassword ) throw(RuntimeException, std::exception) { m_sPassword = _rPassword; } Sequence< RememberAuthentication > SAL_CALL OAuthenticationContinuation::getRememberPasswordModes( RememberAuthentication& _reDefault ) throw(RuntimeException, std::exception) { Sequence< RememberAuthentication > aReturn(1); _reDefault = aReturn[0] = RememberAuthentication_SESSION; return aReturn; } void SAL_CALL OAuthenticationContinuation::setRememberPassword( RememberAuthentication _eRemember ) throw(RuntimeException, std::exception) { m_bRemberPassword = (RememberAuthentication_NO != _eRemember); } sal_Bool SAL_CALL OAuthenticationContinuation::canSetAccount( ) throw(RuntimeException, std::exception) { return sal_False; } void SAL_CALL OAuthenticationContinuation::setAccount( const OUString& ) throw(RuntimeException, std::exception) { SAL_WARN("dbaccess","OAuthenticationContinuation::setAccount: not supported!"); } Sequence< RememberAuthentication > SAL_CALL OAuthenticationContinuation::getRememberAccountModes( RememberAuthentication& _reDefault ) throw(RuntimeException, std::exception) { Sequence < RememberAuthentication > aReturn(1); aReturn[0] = RememberAuthentication_NO; _reDefault = RememberAuthentication_NO; return aReturn; } void SAL_CALL OAuthenticationContinuation::setRememberAccount( RememberAuthentication /*Remember*/ ) throw(RuntimeException, std::exception) { SAL_WARN("dbaccess","OAuthenticationContinuation::setRememberAccount: not supported!"); } /** The class OSharedConnectionManager implements a structure to share connections. It owns the master connections which will be disposed when the last connection proxy is gone. */ typedef ::cppu::WeakImplHelper1< XEventListener > OConnectionHelper_BASE; // need to hold the digest struct TDigestHolder { sal_uInt8 m_pBuffer[RTL_DIGEST_LENGTH_SHA1]; TDigestHolder() { m_pBuffer[0] = 0; } }; class OSharedConnectionManager : public OConnectionHelper_BASE { // contains the currently used master connections typedef struct { Reference< XConnection > xMasterConnection; oslInterlockedCount nALiveCount; } TConnectionHolder; // the less-compare functor, used for the stl::map struct TDigestLess : public ::std::binary_function< TDigestHolder, TDigestHolder, bool> { bool operator() (const TDigestHolder& x, const TDigestHolder& y) const { sal_uInt32 i; for(i=0;i < RTL_DIGEST_LENGTH_SHA1 && (x.m_pBuffer[i] >= y.m_pBuffer[i]); ++i) ; return i < RTL_DIGEST_LENGTH_SHA1; } }; typedef ::std::map< TDigestHolder,TConnectionHolder,TDigestLess> TConnectionMap; // holds the master connections typedef ::std::map< Reference< XConnection >,TConnectionMap::iterator> TSharedConnectionMap;// holds the shared connections ::osl::Mutex m_aMutex; TConnectionMap m_aConnections; // remember the master connection in conjunction with the digest TSharedConnectionMap m_aSharedConnection; // the shared connections with conjunction with an iterator into the connections map Reference< XProxyFactory > m_xProxyFactory; protected: virtual ~OSharedConnectionManager(); public: OSharedConnectionManager(const Reference< XComponentContext >& _rxContext); void SAL_CALL disposing( const ::com::sun::star::lang::EventObject& Source ) throw(RuntimeException, std::exception) SAL_OVERRIDE; Reference getConnection( const OUString& url, const OUString& user, const OUString& password, const Sequence< PropertyValue >& _aInfo, ODatabaseSource* _pDataSource); void addEventListener(const Reference& _rxConnection,TConnectionMap::iterator& _rIter); }; OSharedConnectionManager::OSharedConnectionManager(const Reference< XComponentContext >& _rxContext) { m_xProxyFactory.set( ProxyFactory::create( _rxContext ) ); } OSharedConnectionManager::~OSharedConnectionManager() { } void SAL_CALL OSharedConnectionManager::disposing( const ::com::sun::star::lang::EventObject& Source ) throw(RuntimeException, std::exception) { MutexGuard aGuard(m_aMutex); Reference xConnection(Source.Source,UNO_QUERY); TSharedConnectionMap::iterator aFind = m_aSharedConnection.find(xConnection); if ( m_aSharedConnection.end() != aFind ) { osl_atomic_decrement(&aFind->second->second.nALiveCount); if ( !aFind->second->second.nALiveCount ) { ::comphelper::disposeComponent(aFind->second->second.xMasterConnection); m_aConnections.erase(aFind->second); } m_aSharedConnection.erase(aFind); } } Reference OSharedConnectionManager::getConnection( const OUString& url, const OUString& user, const OUString& password, const Sequence< PropertyValue >& _aInfo, ODatabaseSource* _pDataSource) { MutexGuard aGuard(m_aMutex); TConnectionMap::key_type nId; Sequence< PropertyValue > aInfoCopy(_aInfo); sal_Int32 nPos = aInfoCopy.getLength(); aInfoCopy.realloc( nPos + 2 ); aInfoCopy[nPos].Name = "TableFilter"; aInfoCopy[nPos++].Value <<= _pDataSource->m_pImpl->m_aTableFilter; aInfoCopy[nPos].Name = "TableTypeFilter"; aInfoCopy[nPos++].Value <<= _pDataSource->m_pImpl->m_aTableTypeFilter; OUString sUser = user; OUString sPassword = password; if ((sUser.isEmpty()) && (sPassword.isEmpty()) && (!_pDataSource->m_pImpl->m_sUser.isEmpty())) { // ease the usage of this method. data source which are intended to have a user automatically // fill in the user/password combination if the caller of this method does not specify otherwise sUser = _pDataSource->m_pImpl->m_sUser; if (!_pDataSource->m_pImpl->m_aPassword.isEmpty()) sPassword = _pDataSource->m_pImpl->m_aPassword; } ::connectivity::OConnectionWrapper::createUniqueId(url,aInfoCopy,nId.m_pBuffer,sUser,sPassword); TConnectionMap::iterator aIter = m_aConnections.find(nId); if ( m_aConnections.end() == aIter ) { TConnectionHolder aHolder; aHolder.nALiveCount = 0; // will be incremented by addListener aHolder.xMasterConnection = _pDataSource->buildIsolatedConnection(user,password); aIter = m_aConnections.insert(TConnectionMap::value_type(nId,aHolder)).first; } Reference xRet; if ( aIter->second.xMasterConnection.is() ) { Reference< XAggregation > xConProxy = m_xProxyFactory->createProxy(aIter->second.xMasterConnection.get()); xRet = new OSharedConnection(xConProxy); m_aSharedConnection.insert(TSharedConnectionMap::value_type(xRet,aIter)); addEventListener(xRet,aIter); } return xRet; } void OSharedConnectionManager::addEventListener(const Reference& _rxConnection,TConnectionMap::iterator& _rIter) { Reference xComp(_rxConnection,UNO_QUERY); xComp->addEventListener(this); OSL_ENSURE( m_aConnections.end() != _rIter , "Iterator is end!"); osl_atomic_increment(&_rIter->second.nALiveCount); } namespace { Sequence< PropertyValue > lcl_filterDriverProperties( const Reference< XDriver >& _xDriver, const OUString& _sUrl, const Sequence< PropertyValue >& _rDataSourceSettings, const AsciiPropertyValue* _pKnownSettings ) { if ( _xDriver.is() ) { Sequence< DriverPropertyInfo > aDriverInfo(_xDriver->getPropertyInfo(_sUrl,_rDataSourceSettings)); const PropertyValue* pDataSourceSetting = _rDataSourceSettings.getConstArray(); const PropertyValue* pEnd = pDataSourceSetting + _rDataSourceSettings.getLength(); ::std::vector< PropertyValue > aRet; for ( ; pDataSourceSetting != pEnd ; ++pDataSourceSetting ) { bool bAllowSetting = false; const AsciiPropertyValue* pSetting = _pKnownSettings; for ( ; pSetting->AsciiName; ++pSetting ) { if ( pDataSourceSetting->Name.equalsAscii( pSetting->AsciiName ) ) { // the particular data source setting is known const DriverPropertyInfo* pAllowedDriverSetting = aDriverInfo.getConstArray(); const DriverPropertyInfo* pDriverSettingsEnd = pAllowedDriverSetting + aDriverInfo.getLength(); for ( ; pAllowedDriverSetting != pDriverSettingsEnd; ++pAllowedDriverSetting ) { if ( pAllowedDriverSetting->Name.equalsAscii( pSetting->AsciiName ) ) { // the driver also allows this setting bAllowSetting = true; break; } } break; } } if ( bAllowSetting || !pSetting->AsciiName ) { // if the driver allows this particular setting, or if the setting is completely unknown, // we pass it to the driver aRet.push_back( *pDataSourceSetting ); } } if ( !aRet.empty() ) return Sequence< PropertyValue >(&(*aRet.begin()),aRet.size()); } return Sequence< PropertyValue >(); } typedef ::std::map< OUString, sal_Int32 > PropertyAttributeCache; struct IsDefaultAndNotRemoveable : public ::std::unary_function< PropertyValue, bool > { private: const PropertyAttributeCache& m_rAttribs; public: IsDefaultAndNotRemoveable( const PropertyAttributeCache& _rAttribs ) : m_rAttribs( _rAttribs ) { } bool operator()( const PropertyValue& _rProp ) { if ( _rProp.State != PropertyState_DEFAULT_VALUE ) return false; bool bRemoveable = true; PropertyAttributeCache::const_iterator pos = m_rAttribs.find( _rProp.Name ); OSL_ENSURE( pos != m_rAttribs.end(), "IsDefaultAndNotRemoveable: illegal property name!" ); if ( pos != m_rAttribs.end() ) bRemoveable = ( ( pos->second & PropertyAttribute::REMOVABLE ) != 0 ); return !bRemoveable; } }; } } // namespace dbaccess // ODatabaseContext extern "C" void SAL_CALL createRegistryInfo_ODatabaseSource() { static ::dba::OAutoRegistration< ::dbaccess::ODatabaseSource > aAutoRegistration; } namespace dbaccess { ODatabaseSource::ODatabaseSource(const ::rtl::Reference& _pImpl) :ModelDependentComponent( _pImpl ) ,ODatabaseSource_Base( getMutex() ) ,OPropertySetHelper( ODatabaseSource_Base::rBHelper ) ,m_aBookmarks( *this, getMutex() ) ,m_aFlushListeners( getMutex() ) { // some kind of default SAL_INFO("dbaccess", "DS: ctor: " << std::hex << this << ": " << std::hex << m_pImpl.get() ); } ODatabaseSource::~ODatabaseSource() { SAL_INFO("dbaccess", "DS: dtor: " << std::hex << this << ": " << std::hex << m_pImpl.get() ); if ( !ODatabaseSource_Base::rBHelper.bInDispose && !ODatabaseSource_Base::rBHelper.bDisposed ) { acquire(); dispose(); } } void ODatabaseSource::setName( const Reference< XDocumentDataSource >& _rxDocument, const OUString& _rNewName, DBContextAccess ) { ODatabaseSource& rModelImpl = dynamic_cast< ODatabaseSource& >( *_rxDocument.get() ); ::osl::MutexGuard aGuard( rModelImpl.m_aMutex ); if ( rModelImpl.m_pImpl.is() ) rModelImpl.m_pImpl->m_sName = _rNewName; } // com::sun::star::lang::XTypeProvider Sequence< Type > ODatabaseSource::getTypes() throw (RuntimeException, std::exception) { OTypeCollection aPropertyHelperTypes( cppu::UnoType::get(), cppu::UnoType::get(), cppu::UnoType::get()); return ::comphelper::concatSequences( ODatabaseSource_Base::getTypes(), aPropertyHelperTypes.getTypes() ); } Sequence< sal_Int8 > ODatabaseSource::getImplementationId() throw (RuntimeException, std::exception) { return css::uno::Sequence(); } // com::sun::star::uno::XInterface Any ODatabaseSource::queryInterface( const Type & rType ) throw (RuntimeException, std::exception) { Any aIface = ODatabaseSource_Base::queryInterface( rType ); if ( !aIface.hasValue() ) aIface = ::cppu::OPropertySetHelper::queryInterface( rType ); return aIface; } void ODatabaseSource::acquire() throw () { ODatabaseSource_Base::acquire(); } void ODatabaseSource::release() throw () { ODatabaseSource_Base::release(); } void SAL_CALL ODatabaseSource::disposing( const ::com::sun::star::lang::EventObject& Source ) throw(RuntimeException, std::exception) { if ( m_pImpl.is() ) m_pImpl->disposing(Source); } // XServiceInfo OUString ODatabaseSource::getImplementationName( ) throw(RuntimeException, std::exception) { return getImplementationName_static(); } OUString ODatabaseSource::getImplementationName_static( ) throw(RuntimeException) { return OUString("com.sun.star.comp.dba.ODatabaseSource"); } Sequence< OUString > ODatabaseSource::getSupportedServiceNames( ) throw (RuntimeException, std::exception) { return getSupportedServiceNames_static(); } Reference< XInterface > ODatabaseSource::Create( const Reference< XComponentContext >& _rxContext ) { Reference< XDatabaseContext > xDBContext( DatabaseContext::create(_rxContext) ); return xDBContext->createInstance(); } Sequence< OUString > ODatabaseSource::getSupportedServiceNames_static( ) throw (RuntimeException) { Sequence< OUString > aSNS( 2 ); aSNS[0] = SERVICE_SDB_DATASOURCE; aSNS[1] = "com.sun.star.sdb.DocumentDataSource"; return aSNS; } sal_Bool ODatabaseSource::supportsService( const OUString& _rServiceName ) throw (RuntimeException, std::exception) { return cppu::supportsService(this, _rServiceName); } // OComponentHelper void ODatabaseSource::disposing() { SAL_INFO("dbaccess", "DS: disp: " << std::hex << this << ", " << std::hex << m_pImpl.get() ); ODatabaseSource_Base::WeakComponentImplHelperBase::disposing(); OPropertySetHelper::disposing(); EventObject aDisposeEvent(static_cast(this)); m_aFlushListeners.disposeAndClear( aDisposeEvent ); ODatabaseDocument::clearObjectContainer(m_pImpl->m_xCommandDefinitions); ODatabaseDocument::clearObjectContainer(m_pImpl->m_xTableDefinitions); m_pImpl.clear(); } Reference< XConnection > ODatabaseSource::buildLowLevelConnection(const OUString& _rUid, const OUString& _rPwd) { Reference< XConnection > xReturn; Reference< XDriverManager > xManager; try { xManager.set( ConnectionPool::create( m_pImpl->m_aContext ), UNO_QUERY_THROW ); } catch( const Exception& ) { } if ( !xManager.is() ) // no connection pool installed, fall back to driver manager xManager.set( DriverManager::create(m_pImpl->m_aContext ), UNO_QUERY_THROW ); OUString sUser(_rUid); OUString sPwd(_rPwd); if ((sUser.isEmpty()) && (sPwd.isEmpty()) && (!m_pImpl->m_sUser.isEmpty())) { // ease the usage of this method. data source which are intended to have a user automatically // fill in the user/password combination if the caller of this method does not specify otherwise sUser = m_pImpl->m_sUser; if (!m_pImpl->m_aPassword.isEmpty()) sPwd = m_pImpl->m_aPassword; } sal_uInt16 nExceptionMessageId = RID_STR_COULDNOTCONNECT_UNSPECIFIED; if (xManager.is()) { sal_Int32 nAdditionalArgs(0); if (!sUser.isEmpty()) ++nAdditionalArgs; if (!sPwd.isEmpty()) ++nAdditionalArgs; Sequence< PropertyValue > aUserPwd(nAdditionalArgs); sal_Int32 nArgPos = 0; if (!sUser.isEmpty()) { aUserPwd[ nArgPos ].Name = "user"; aUserPwd[ nArgPos ].Value <<= sUser; ++nArgPos; } if (!sPwd.isEmpty()) { aUserPwd[ nArgPos ].Name = "password"; aUserPwd[ nArgPos ].Value <<= sPwd; } Reference< XDriver > xDriver; try { Reference< XDriverAccess > xAccessDrivers( xManager, UNO_QUERY ); if ( xAccessDrivers.is() ) xDriver = xAccessDrivers->getDriverByURL( m_pImpl->m_sConnectURL ); } catch( const Exception& ) { SAL_WARN("dbaccess", "ODatabaseSource::buildLowLevelConnection: got a strange exception while analyzing the error!" ); } if ( !xDriver.is() || !xDriver->acceptsURL( m_pImpl->m_sConnectURL ) ) { // Nowadays, it's allowed for a driver to be registered for a given URL, but actually not to accept it. // This is because registration nowadays happens at compile time (by adding respective configuration data), // but acceptance is decided at runtime. nExceptionMessageId = RID_STR_COULDNOTCONNECT_NODRIVER; } else { Sequence< PropertyValue > aDriverInfo = lcl_filterDriverProperties( xDriver, m_pImpl->m_sConnectURL, m_pImpl->m_xSettings->getPropertyValues(), dbaccess::ODatabaseModelImpl::getDefaultDataSourceSettings() ); if ( m_pImpl->isEmbeddedDatabase() ) { sal_Int32 nCount = aDriverInfo.getLength(); aDriverInfo.realloc(nCount + 3 ); aDriverInfo[nCount].Name = "URL"; aDriverInfo[nCount++].Value <<= m_pImpl->getURL(); aDriverInfo[nCount].Name = "Storage"; Reference< css::document::XDocumentSubStorageSupplier> xDocSup( m_pImpl->getDocumentSubStorageSupplier() ); aDriverInfo[nCount++].Value <<= xDocSup->getDocumentSubStorage("database",ElementModes::READWRITE); aDriverInfo[nCount].Name = "Document"; aDriverInfo[nCount++].Value <<= getDatabaseDocument(); } if (nAdditionalArgs) xReturn = xManager->getConnectionWithInfo(m_pImpl->m_sConnectURL, ::comphelper::concatSequences(aUserPwd,aDriverInfo)); else xReturn = xManager->getConnectionWithInfo(m_pImpl->m_sConnectURL,aDriverInfo); if ( m_pImpl->isEmbeddedDatabase() ) { // see ODatabaseSource::flushed for comment on why we register as FlushListener // at the connection Reference< XFlushable > xFlushable( xReturn, UNO_QUERY ); if ( xFlushable.is() ) FlushNotificationAdapter::installAdapter( xFlushable, this ); } } } else nExceptionMessageId = RID_STR_COULDNOTLOAD_MANAGER; if ( !xReturn.is() ) { OUString sMessage = DBACORE_RESSTRING( nExceptionMessageId ) .replaceAll("$name$", m_pImpl->m_sConnectURL); SQLContext aContext; aContext.Message = DBACORE_RESSTRING(RID_STR_CONNECTION_REQUEST). replaceFirst("$name$", m_pImpl->m_sConnectURL); throwGenericSQLException( sMessage, static_cast< XDataSource* >( this ), makeAny( aContext ) ); } return xReturn; } // OPropertySetHelper Reference< XPropertySetInfo > ODatabaseSource::getPropertySetInfo() throw (RuntimeException, std::exception) { return createPropertySetInfo( getInfoHelper() ) ; } // comphelper::OPropertyArrayUsageHelper ::cppu::IPropertyArrayHelper* ODatabaseSource::createArrayHelper( ) const { BEGIN_PROPERTY_HELPER(13) DECL_PROP1(INFO, Sequence< PropertyValue >, BOUND); DECL_PROP1_BOOL(ISPASSWORDREQUIRED, BOUND); DECL_PROP1_BOOL(ISREADONLY, READONLY); DECL_PROP1(LAYOUTINFORMATION, Sequence< PropertyValue >, BOUND); DECL_PROP1(NAME, OUString, READONLY); DECL_PROP2_IFACE(NUMBERFORMATSSUPPLIER, XNumberFormatsSupplier, READONLY, TRANSIENT); DECL_PROP1(PASSWORD, OUString, TRANSIENT); DECL_PROP2_IFACE(SETTINGS, XPropertySet, BOUND, READONLY); DECL_PROP1_BOOL(SUPPRESSVERSIONCL, BOUND); DECL_PROP1(TABLEFILTER, Sequence< OUString >,BOUND); DECL_PROP1(TABLETYPEFILTER, Sequence< OUString >,BOUND); DECL_PROP1(URL, OUString, BOUND); DECL_PROP1(USER, OUString, BOUND); END_PROPERTY_HELPER(); } // cppu::OPropertySetHelper ::cppu::IPropertyArrayHelper& ODatabaseSource::getInfoHelper() { return *getArrayHelper(); } sal_Bool ODatabaseSource::convertFastPropertyValue(Any & rConvertedValue, Any & rOldValue, sal_Int32 nHandle, const Any& rValue ) throw( IllegalArgumentException ) { bool bModified(false); if ( m_pImpl.is() ) { switch (nHandle) { case PROPERTY_ID_TABLEFILTER: bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_aTableFilter); break; case PROPERTY_ID_TABLETYPEFILTER: bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_aTableTypeFilter); break; case PROPERTY_ID_USER: bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_sUser); break; case PROPERTY_ID_PASSWORD: bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_aPassword); break; case PROPERTY_ID_ISPASSWORDREQUIRED: bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_bPasswordRequired); break; case PROPERTY_ID_SUPPRESSVERSIONCL: bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_bSuppressVersionColumns); break; case PROPERTY_ID_LAYOUTINFORMATION: bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_aLayoutInformation); break; case PROPERTY_ID_URL: { bModified = ::comphelper::tryPropertyValue(rConvertedValue, rOldValue, rValue, m_pImpl->m_sConnectURL); } break; case PROPERTY_ID_INFO: { Sequence aValues; if (!(rValue >>= aValues)) throw IllegalArgumentException(); const PropertyValue* valueEnd = aValues.getConstArray() + aValues.getLength(); const PropertyValue* checkName = aValues.getConstArray(); for ( ;checkName != valueEnd; ++checkName ) { if ( checkName->Name.isEmpty() ) throw IllegalArgumentException(); } Sequence< PropertyValue > aSettings = m_pImpl->m_xSettings->getPropertyValues(); bModified = aSettings.getLength() != aValues.getLength(); if ( !bModified ) { const PropertyValue* pInfoIter = aSettings.getConstArray(); const PropertyValue* checkValue = aValues.getConstArray(); for ( ;!bModified && checkValue != valueEnd ; ++checkValue,++pInfoIter) { bModified = checkValue->Name != pInfoIter->Name; if ( !bModified ) { bModified = !::comphelper::compare(checkValue->Value,pInfoIter->Value); } } } rConvertedValue = rValue; rOldValue <<= aSettings; } break; default: SAL_WARN("dbaccess", "ODatabaseSource::convertFastPropertyValue: unknown or readonly Property!" ); } } return bModified; } namespace { struct SelectPropertyName : public ::std::unary_function< PropertyValue, OUString > { public: const OUString& operator()( const PropertyValue& _lhs ) { return _lhs.Name; } }; /** sets a new set of property values for a given property bag instance The method takes a property bag, and a sequence of property values to set for this bag. Upon return, every property which is not part of the given sequence is

removed from the bag, if it's a removable property
orreset to its default value, if it's not a removable property

. @param _rxPropertyBag the property bag to operate on @param _rAllNewPropertyValues the new property values to set for the bag */ void lcl_setPropertyValues_resetOrRemoveOther( const Reference< XPropertyBag >& _rxPropertyBag, const Sequence< PropertyValue >& _rAllNewPropertyValues ) { // sequences are ugly to operate on typedef ::std::set< OUString > StringSet; StringSet aToBeSetPropertyNames; ::std::transform( _rAllNewPropertyValues.getConstArray(), _rAllNewPropertyValues.getConstArray() + _rAllNewPropertyValues.getLength(), ::std::insert_iterator< StringSet >( aToBeSetPropertyNames, aToBeSetPropertyNames.end() ), SelectPropertyName() ); try { // obtain all properties currently known at the bag Reference< XPropertySetInfo > xPSI( _rxPropertyBag->getPropertySetInfo(), UNO_QUERY_THROW ); Sequence< Property > aAllExistentProperties( xPSI->getProperties() ); Reference< XPropertyState > xPropertyState( _rxPropertyBag, UNO_QUERY_THROW ); // loop through them, and reset resp. default properties which are not to be set const Property* pExistentProperty( aAllExistentProperties.getConstArray() ); const Property* pExistentPropertyEnd( aAllExistentProperties.getConstArray() + aAllExistentProperties.getLength() ); for ( ; pExistentProperty != pExistentPropertyEnd; ++pExistentProperty ) { if ( aToBeSetPropertyNames.find( pExistentProperty->Name ) != aToBeSetPropertyNames.end() ) continue; // this property is not to be set, but currently exists in the bag. // -> Remove it, or reset it to the default. if ( ( pExistentProperty->Attributes & PropertyAttribute::REMOVABLE ) != 0 ) _rxPropertyBag->removeProperty( pExistentProperty->Name ); else xPropertyState->setPropertyToDefault( pExistentProperty->Name ); } // finally, set the new property values _rxPropertyBag->setPropertyValues( _rAllNewPropertyValues ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } } void ODatabaseSource::setFastPropertyValue_NoBroadcast( sal_Int32 nHandle, const Any& rValue ) throw (Exception, std::exception) { if ( m_pImpl.is() ) { switch(nHandle) { case PROPERTY_ID_TABLEFILTER: rValue >>= m_pImpl->m_aTableFilter; break; case PROPERTY_ID_TABLETYPEFILTER: rValue >>= m_pImpl->m_aTableTypeFilter; break; case PROPERTY_ID_USER: rValue >>= m_pImpl->m_sUser; // if the user name has changed, reset the password m_pImpl->m_aPassword = OUString(); break; case PROPERTY_ID_PASSWORD: rValue >>= m_pImpl->m_aPassword; break; case PROPERTY_ID_ISPASSWORDREQUIRED: m_pImpl->m_bPasswordRequired = any2bool(rValue); break; case PROPERTY_ID_SUPPRESSVERSIONCL: m_pImpl->m_bSuppressVersionColumns = any2bool(rValue); break; case PROPERTY_ID_URL: rValue >>= m_pImpl->m_sConnectURL; break; case PROPERTY_ID_INFO: { Sequence< PropertyValue > aInfo; OSL_VERIFY( rValue >>= aInfo ); lcl_setPropertyValues_resetOrRemoveOther( m_pImpl->m_xSettings, aInfo ); } break; case PROPERTY_ID_LAYOUTINFORMATION: rValue >>= m_pImpl->m_aLayoutInformation; break; } m_pImpl->setModified(true); } } void ODatabaseSource::getFastPropertyValue( Any& rValue, sal_Int32 nHandle ) const { if ( m_pImpl.is() ) { switch (nHandle) { case PROPERTY_ID_TABLEFILTER: rValue <<= m_pImpl->m_aTableFilter; break; case PROPERTY_ID_TABLETYPEFILTER: rValue <<= m_pImpl->m_aTableTypeFilter; break; case PROPERTY_ID_USER: rValue <<= m_pImpl->m_sUser; break; case PROPERTY_ID_PASSWORD: rValue <<= m_pImpl->m_aPassword; break; case PROPERTY_ID_ISPASSWORDREQUIRED: rValue <<= m_pImpl->m_bPasswordRequired; break; case PROPERTY_ID_SUPPRESSVERSIONCL: rValue <<= m_pImpl->m_bSuppressVersionColumns; break; case PROPERTY_ID_ISREADONLY: rValue <<= m_pImpl->m_bReadOnly; break; case PROPERTY_ID_INFO: { try { // collect the property attributes of all current settings Reference< XPropertySet > xSettingsAsProps( m_pImpl->m_xSettings, UNO_QUERY_THROW ); Reference< XPropertySetInfo > xPST( xSettingsAsProps->getPropertySetInfo(), UNO_QUERY_THROW ); Sequence< Property > aSettings( xPST->getProperties() ); ::std::map< OUString, sal_Int32 > aPropertyAttributes; for ( const Property* pSettings = aSettings.getConstArray(); pSettings != aSettings.getConstArray() + aSettings.getLength(); ++pSettings ) { aPropertyAttributes[ pSettings->Name ] = pSettings->Attributes; } // get all current settings with their values Sequence< PropertyValue > aValues( m_pImpl->m_xSettings->getPropertyValues() ); // transform them so that only property values which fulfill certain // criteria survive Sequence< PropertyValue > aNonDefaultOrUserDefined( aValues.getLength() ); const PropertyValue* pCopyEnd = ::std::remove_copy_if( aValues.getConstArray(), aValues.getConstArray() + aValues.getLength(), aNonDefaultOrUserDefined.getArray(), IsDefaultAndNotRemoveable( aPropertyAttributes ) ); aNonDefaultOrUserDefined.realloc( pCopyEnd - aNonDefaultOrUserDefined.getArray() ); rValue <<= aNonDefaultOrUserDefined; } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } break; case PROPERTY_ID_SETTINGS: rValue <<= m_pImpl->m_xSettings; break; case PROPERTY_ID_URL: rValue <<= m_pImpl->m_sConnectURL; break; case PROPERTY_ID_NUMBERFORMATSSUPPLIER: rValue <<= m_pImpl->getNumberFormatsSupplier(); break; case PROPERTY_ID_NAME: rValue <<= m_pImpl->m_sName; break; case PROPERTY_ID_LAYOUTINFORMATION: rValue <<= m_pImpl->m_aLayoutInformation; break; default: SAL_WARN("dbaccess","unknown Property"); } } } // XDataSource void ODatabaseSource::setLoginTimeout(sal_Int32 seconds) throw( SQLException, RuntimeException, std::exception ) { ModelMethodGuard aGuard( *this ); m_pImpl->m_nLoginTimeout = seconds; } sal_Int32 ODatabaseSource::getLoginTimeout(void) throw( SQLException, RuntimeException, std::exception ) { ModelMethodGuard aGuard( *this ); return m_pImpl->m_nLoginTimeout; } // XCompletedConnection Reference< XConnection > SAL_CALL ODatabaseSource::connectWithCompletion( const Reference< XInteractionHandler >& _rxHandler ) throw(SQLException, RuntimeException, std::exception) { return connectWithCompletion(_rxHandler,false); } Reference< XConnection > ODatabaseSource::getConnection(const OUString& user, const OUString& password) throw( SQLException, RuntimeException, std::exception ) { return getConnection(user,password,false); } Reference< XConnection > SAL_CALL ODatabaseSource::getIsolatedConnection( const OUString& user, const OUString& password ) throw(SQLException, RuntimeException, std::exception) { return getConnection(user,password,true); } Reference< XConnection > SAL_CALL ODatabaseSource::getIsolatedConnectionWithCompletion( const Reference< XInteractionHandler >& _rxHandler ) throw(SQLException, RuntimeException, std::exception) { return connectWithCompletion(_rxHandler,true); } Reference< XConnection > SAL_CALL ODatabaseSource::connectWithCompletion( const Reference< XInteractionHandler >& _rxHandler,bool _bIsolated ) throw(SQLException, RuntimeException) { ModelMethodGuard aGuard( *this ); if (!_rxHandler.is()) { SAL_WARN("dbaccess","ODatabaseSource::connectWithCompletion: invalid interaction handler!"); return getConnection(m_pImpl->m_sUser, m_pImpl->m_aPassword,_bIsolated); } OUString sUser(m_pImpl->m_sUser), sPassword(m_pImpl->m_aPassword); bool bNewPasswordGiven = false; if (m_pImpl->m_bPasswordRequired && sPassword.isEmpty()) { // we need a password, but don't have one yet. // -> ask the user // build an interaction request // two continuations (Ok and Cancel) OInteractionAbort* pAbort = new OInteractionAbort; OAuthenticationContinuation* pAuthenticate = new OAuthenticationContinuation; // the name which should be referred in the login dialog OUString sServerName( m_pImpl->m_sName ); INetURLObject aURLCheck( sServerName ); if ( aURLCheck.GetProtocol() != INET_PROT_NOT_VALID ) sServerName = aURLCheck.getBase( INetURLObject::LAST_SEGMENT, true, INetURLObject::DECODE_UNAMBIGUOUS ); // the request AuthenticationRequest aRequest; aRequest.ServerName = sServerName; aRequest.HasRealm = aRequest.HasAccount = sal_False; aRequest.HasUserName = aRequest.HasPassword = sal_True; aRequest.UserName = m_pImpl->m_sUser; aRequest.Password = m_pImpl->m_sFailedPassword.isEmpty() ? m_pImpl->m_aPassword : m_pImpl->m_sFailedPassword; OInteractionRequest* pRequest = new OInteractionRequest(makeAny(aRequest)); Reference< XInteractionRequest > xRequest(pRequest); // some knittings pRequest->addContinuation(pAbort); pRequest->addContinuation(pAuthenticate); // handle the request try { MutexRelease aRelease( getMutex() ); // release the mutex when calling the handler, it may need to lock the SolarMutex _rxHandler->handle(xRequest); } catch(Exception&) { DBG_UNHANDLED_EXCEPTION(); } if (!pAuthenticate->wasSelected()) return Reference< XConnection >(); // get the result sUser = m_pImpl->m_sUser = pAuthenticate->getUser(); sPassword = pAuthenticate->getPassword(); if (pAuthenticate->getRememberPassword()) { m_pImpl->m_aPassword = pAuthenticate->getPassword(); bNewPasswordGiven = true; } m_pImpl->m_sFailedPassword = OUString(); } try { return getConnection(sUser, sPassword,_bIsolated); } catch(Exception&) { if (bNewPasswordGiven) { m_pImpl->m_sFailedPassword = m_pImpl->m_aPassword; // assume that we had an authentication problem. Without this we may, after an unsuccessful connect, while // the user gave us a password an the order to remember it, never allow an password input again (at least // not without restarting the session) m_pImpl->m_aPassword = OUString(); } throw; } } Reference< XConnection > ODatabaseSource::buildIsolatedConnection(const OUString& user, const OUString& password) { Reference< XConnection > xConn; Reference< XConnection > xSdbcConn = buildLowLevelConnection(user, password); OSL_ENSURE( xSdbcConn.is(), "ODatabaseSource::buildIsolatedConnection: invalid return value of buildLowLevelConnection!" ); // buildLowLevelConnection is expected to always succeed if ( xSdbcConn.is() ) { // build a connection server and return it (no stubs) xConn = new OConnection(*this, xSdbcConn, m_pImpl->m_aContext); } return xConn; } Reference< XConnection > ODatabaseSource::getConnection(const OUString& user, const OUString& password,bool _bIsolated) throw( SQLException, RuntimeException ) { ModelMethodGuard aGuard( *this ); Reference< XConnection > xConn; if ( _bIsolated ) { xConn = buildIsolatedConnection(user,password); } else { // create a new proxy for the connection if ( !m_pImpl->m_xSharedConnectionManager.is() ) { m_pImpl->m_pSharedConnectionManager = new OSharedConnectionManager( m_pImpl->m_aContext ); m_pImpl->m_xSharedConnectionManager = m_pImpl->m_pSharedConnectionManager; } xConn = m_pImpl->m_pSharedConnectionManager->getConnection( m_pImpl->m_sConnectURL, user, password, m_pImpl->m_xSettings->getPropertyValues(), this ); } if ( xConn.is() ) { Reference< XComponent> xComp(xConn,UNO_QUERY); if ( xComp.is() ) xComp->addEventListener( static_cast< XContainerListener* >( this ) ); m_pImpl->m_aConnections.push_back(OWeakConnection(xConn)); } return xConn; } Reference< XNameAccess > SAL_CALL ODatabaseSource::getBookmarks( ) throw (RuntimeException, std::exception) { ModelMethodGuard aGuard( *this ); return static_cast< XNameContainer* >(&m_aBookmarks); } Reference< XNameAccess > SAL_CALL ODatabaseSource::getQueryDefinitions( ) throw(RuntimeException, std::exception) { ModelMethodGuard aGuard( *this ); Reference< XNameAccess > xContainer = m_pImpl->m_xCommandDefinitions; if ( !xContainer.is() ) { Any aValue; ::com::sun::star::uno::Reference< ::com::sun::star::uno::XInterface > xMy(*this); if ( dbtools::getDataSourceSetting(xMy,"CommandDefinitions",aValue) ) { OUString sSupportService; aValue >>= sSupportService; if ( !sSupportService.isEmpty() ) { Sequence aArgs(1); aArgs[0] <<= NamedValue("DataSource",makeAny(xMy)); xContainer.set( m_pImpl->m_aContext->getServiceManager()->createInstanceWithArgumentsAndContext(sSupportService, aArgs, m_pImpl->m_aContext), UNO_QUERY); } } if ( !xContainer.is() ) { TContentPtr& rContainerData( m_pImpl->getObjectContainer( ODatabaseModelImpl::E_QUERY ) ); xContainer = new OCommandContainer( m_pImpl->m_aContext, *this, rContainerData, false ); } m_pImpl->m_xCommandDefinitions = xContainer; } return xContainer; } // XTablesSupplier Reference< XNameAccess > ODatabaseSource::getTables() throw( RuntimeException, std::exception ) { ModelMethodGuard aGuard( *this ); Reference< XNameAccess > xContainer = m_pImpl->m_xTableDefinitions; if ( !xContainer.is() ) { TContentPtr& rContainerData( m_pImpl->getObjectContainer( ODatabaseModelImpl::E_TABLE ) ); xContainer = new OCommandContainer( m_pImpl->m_aContext, *this, rContainerData, true ); m_pImpl->m_xTableDefinitions = xContainer; } return xContainer; } void SAL_CALL ODatabaseSource::flush( ) throw (RuntimeException, std::exception) { try { // SYNCHRONIZED -> { ModelMethodGuard aGuard( *this ); typedef ::utl::SharedUNOComponent< XModel, ::utl::CloseableComponent > SharedModel; SharedModel xModel( m_pImpl->getModel_noCreate(), SharedModel::NoTakeOwnership ); if ( !xModel.is() ) xModel.reset( m_pImpl->createNewModel_deliverOwnership( false ), SharedModel::TakeOwnership ); Reference< css::frame::XStorable> xStorable( xModel, UNO_QUERY_THROW ); xStorable->store(); } // <- SYNCHRONIZED css::lang::EventObject aFlushedEvent(*this); m_aFlushListeners.notifyEach( &XFlushListener::flushed, aFlushedEvent ); } catch( const Exception& ) { DBG_UNHANDLED_EXCEPTION(); } } void SAL_CALL ODatabaseSource::flushed( const EventObject& /*rEvent*/ ) throw (RuntimeException, std::exception) { ModelMethodGuard aGuard( *this ); // Okay, this is some hack. // // In general, we have the problem that embedded databases write into their underlying storage, which // logically is one of our sub storage, and practically is a temporary file maintained by the // package implementation. As long as we did not commit this storage and our main storage, // the changes made by the embedded database engine are not really reflected in the database document // file. This is Bad (TM) for a "real" database application - imagine somebody entering some // data, and then crashing: For a database application, you would expect that the data still is present // when you connect to the database next time. // // Since this is a conceptual problem as long as we do use those ZIP packages (in fact, we *cannot* // provide the desired functionality as long as we do not have a package format which allows O(1) writes), // we cannot completely fix this. However, we can relax the problem by committing more often - often // enough so that data loss is more seldom, and seldom enough so that there's no noticeable performance // decrease. // // For this, we introduced a few places which XFlushable::flush their connections, and register as // XFlushListener at the embedded connection (which needs to provide the XFlushable functionality). // Then, when the connection is flushed, we commit both the database storage and our main storage. // // #i55274# OSL_ENSURE( m_pImpl->isEmbeddedDatabase(), "ODatabaseSource::flushed: no embedded database?!" ); bool bWasModified = m_pImpl->m_bModified; m_pImpl->commitEmbeddedStorage(); m_pImpl->setModified( bWasModified ); } void SAL_CALL ODatabaseSource::addFlushListener( const Reference< ::com::sun::star::util::XFlushListener >& _xListener ) throw (RuntimeException, std::exception) { m_aFlushListeners.addInterface(_xListener); } void SAL_CALL ODatabaseSource::removeFlushListener( const Reference< ::com::sun::star::util::XFlushListener >& _xListener ) throw (RuntimeException, std::exception) { m_aFlushListeners.removeInterface(_xListener); } void SAL_CALL ODatabaseSource::elementInserted( const ContainerEvent& /*Event*/ ) throw (RuntimeException, std::exception) { ModelMethodGuard aGuard( *this ); if ( m_pImpl.is() ) m_pImpl->setModified(true); } void SAL_CALL ODatabaseSource::elementRemoved( const ContainerEvent& /*Event*/ ) throw (RuntimeException, std::exception) { ModelMethodGuard aGuard( *this ); if ( m_pImpl.is() ) m_pImpl->setModified(true); } void SAL_CALL ODatabaseSource::elementReplaced( const ContainerEvent& /*Event*/ ) throw (RuntimeException, std::exception) { ModelMethodGuard aGuard( *this ); if ( m_pImpl.is() ) m_pImpl->setModified(true); } // XDocumentDataSource Reference< XOfficeDatabaseDocument > SAL_CALL ODatabaseSource::getDatabaseDocument() throw (RuntimeException, std::exception) { ModelMethodGuard aGuard( *this ); Reference< XModel > xModel( m_pImpl->getModel_noCreate() ); if ( !xModel.is() ) xModel = m_pImpl->createNewModel_deliverOwnership( false ); return Reference< XOfficeDatabaseDocument >( xModel, UNO_QUERY_THROW ); } Reference< XInterface > ODatabaseSource::getThis() const { return *const_cast< ODatabaseSource* >( this ); } } // namespace dbaccess /* vim:set shiftwidth=4 softtabstop=4 expandtab: */