package complex.storages; import com.sun.star.uno.XInterface; import com.sun.star.lang.XMultiServiceFactory; import com.sun.star.lang.XSingleServiceFactory; import com.sun.star.bridge.XUnoUrlResolver; import com.sun.star.uno.UnoRuntime; import com.sun.star.uno.XInterface; import com.sun.star.embed.*; import share.LogWriter; import complex.storages.TestHelper; import complex.storages.StorageTest; public class Test09 implements StorageTest { XMultiServiceFactory m_xMSF; XSingleServiceFactory m_xStorageFactory; TestHelper m_aTestHelper; public Test09( XMultiServiceFactory xMSF, XSingleServiceFactory xStorageFactory, LogWriter aLogWriter ) { m_xMSF = xMSF; m_xStorageFactory = xStorageFactory; m_aTestHelper = new TestHelper( aLogWriter, "Test09: " ); } public boolean test() { try { // create temporary storage based on arbitrary medium // after such a storage is closed it is lost Object oTempStorage = m_xStorageFactory.createInstance(); XStorage xTempStorage = (XStorage) UnoRuntime.queryInterface( XStorage.class, oTempStorage ); if ( xTempStorage == null ) { m_aTestHelper.Error( "Can't create temporary storage representation!" ); return false; } String sPass1 = "123"; String sPass2 = "321"; byte pBytes[] = { 1, 1, 1, 1, 1 }; // open a new substream, set "MediaType" and "Compressed" properties to it and write some bytes // the stream will not be encrypted if ( !m_aTestHelper.WriteBytesToEncrSubstream( xTempStorage, "SubStream1", "MediaType1", false, pBytes, sPass1 ) ) return false; // create temporary file String sTempFileURL = m_aTestHelper.CreateTempFile( m_xMSF ); if ( sTempFileURL == null || sTempFileURL == "" ) { m_aTestHelper.Error( "No valid temporary file was created!" ); return false; } // create temporary storage based on a previously created temporary file Object pArgs[] = new Object[2]; pArgs[0] = (Object) sTempFileURL; pArgs[1] = new Integer( ElementModes.WRITE ); Object oTempFileStorage = m_xStorageFactory.createInstanceWithArguments( pArgs ); XStorage xTempFileStorage = (XStorage)UnoRuntime.queryInterface( XStorage.class, oTempFileStorage ); if ( xTempFileStorage == null ) { m_aTestHelper.Error( "Can't create storage based on temporary file!" ); return false; } // copy xTempStorage to xTempFileStorage // xTempFileStorage will be automatically commited if ( !m_aTestHelper.copyStorage( xTempStorage, xTempFileStorage ) ) return false; // change password of the substream of new storage based on file int nResult = m_aTestHelper.ChangeStreamPass( xTempFileStorage, "SubStream1", sPass1, sPass2 ); if ( nResult == 0 ) return false; // test failed else if ( nResult == -1 ) return true; // tested optional feature is not supported if ( !m_aTestHelper.commitStorage( xTempFileStorage ) ) return false; // dispose used storages to free resources if ( !m_aTestHelper.disposeStorage( xTempStorage ) || !m_aTestHelper.disposeStorage( xTempFileStorage ) ) return false; // ================================================ // now check all the written and copied information // ================================================ // the temporary file must not be locked any more after storage disposing pArgs[1] = new Integer( ElementModes.READ ); Object oResultStorage = m_xStorageFactory.createInstanceWithArguments( pArgs ); XStorage xResultStorage = (XStorage) UnoRuntime.queryInterface( XStorage.class, oResultStorage ); if ( xResultStorage == null ) { m_aTestHelper.Error( "Can't reopen storage based on temporary file!" ); return false; } if ( !m_aTestHelper.checkEncrStream( xResultStorage, "SubStream1", "MediaType1", pBytes, sPass2 ) ) return false; // dispose used storages to free resources if ( !m_aTestHelper.disposeStorage( xResultStorage ) ) return false; return true; } catch( Exception e ) { m_aTestHelper.Error( "Exception: " + e ); return false; } } }