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.io.XStream; import com.sun.star.io.XInputStream; import com.sun.star.embed.*; import share.LogWriter; import complex.storages.TestHelper; import complex.storages.StorageTest; public class RegressionTest_i59886 implements StorageTest { XMultiServiceFactory m_xMSF; XSingleServiceFactory m_xStorageFactory; TestHelper m_aTestHelper; public RegressionTest_i59886( XMultiServiceFactory xMSF, XSingleServiceFactory xStorageFactory, LogWriter aLogWriter ) { m_xMSF = xMSF; m_xStorageFactory = xStorageFactory; m_aTestHelper = new TestHelper( aLogWriter, "RegressionTest_i59886: " ); } public boolean test() { try { XStream xTempFileStream = m_aTestHelper.CreateTempFileStream( m_xMSF ); if ( xTempFileStream == null ) return false; // create storage based on the temporary stream Object pArgs[] = new Object[2]; pArgs[0] = (Object) xTempFileStream; pArgs[1] = new Integer( ElementModes.WRITE ); Object oTempStorage = m_xStorageFactory.createInstanceWithArguments( pArgs ); XStorage xTempStorage = (XStorage) UnoRuntime.queryInterface( XStorage.class, oTempStorage ); if ( xTempStorage == null ) { m_aTestHelper.Error( "Can't create temporary storage representation!" ); return false; } byte pBytes[] = new byte[36000]; for ( int nInd = 0; nInd < 36000; nInd++ ) pBytes[nInd] = (byte)( nInd % 128 ); String sPass = "12345"; // open a new substream, set "MediaType" and "Compressed" properties to it and write some bytes if ( !m_aTestHelper.WriteBytesToEncrSubstream( xTempStorage, "SubStream1", "MediaType1", true, pBytes, sPass ) ) return false; // open a new substorage XStorage xTempSubStorage = m_aTestHelper.openSubStorage( xTempStorage, "SubStorage1", ElementModes.WRITE ); if ( xTempSubStorage == null ) { m_aTestHelper.Error( "Can't create substorage!" ); return false; } // open a new substream, set "MediaType" and "Compressed" properties to it and write some bytes if ( !m_aTestHelper.WriteBytesToEncrSubstream( xTempSubStorage, "SubStream2", "MediaType2", false, pBytes, sPass ) ) return false; // set "MediaType" property for storages and check that "IsRoot" and "OpenMode" properties are set correctly if ( !m_aTestHelper.setStorageTypeAndCheckProps( xTempStorage, "MediaType3", true, ElementModes.WRITE ) ) return false; // set "MediaType" property for storages and check that "IsRoot" and "OpenMode" properties are set correctly if ( !m_aTestHelper.setStorageTypeAndCheckProps( xTempSubStorage, "MediaType4", false, ElementModes.WRITE ) ) return false; // commit substorage first if ( !m_aTestHelper.commitStorage( xTempSubStorage ) ) return false; // commit the root storage so the contents must be stored now if ( !m_aTestHelper.commitStorage( xTempStorage ) ) return false; // dispose used storage to free resources if ( !m_aTestHelper.disposeStorage( xTempStorage ) ) return false; // ================================================ // now reopen the storage, set the common storage key // and copy the storage // ================================================ Object oStep2TempStorage = m_xStorageFactory.createInstanceWithArguments( pArgs ); XStorage xStep2TempStorage = (XStorage) UnoRuntime.queryInterface( XStorage.class, oStep2TempStorage ); if ( xStep2TempStorage == null ) { m_aTestHelper.Error( "Can't create temporary storage representation!" ); return false; } XStorage xStep2TempSubStorage = m_aTestHelper.openSubStorage( xStep2TempStorage, "SubStorage1", ElementModes.WRITE ); if ( xStep2TempSubStorage == null ) { m_aTestHelper.Error( "Can't create substorage!" ); return false; } // set the common storage password XEncryptionProtectedSource xEncr = (XEncryptionProtectedSource) UnoRuntime.queryInterface( XEncryptionProtectedSource.class, xStep2TempStorage ); if ( xEncr == null ) { m_aTestHelper.Error( "The storage does not support encryption access!" ); return false; } try { xEncr.setEncryptionPassword( sPass ); } catch( Exception e ) { m_aTestHelper.Error( "Can not set the common storage password!" ); return false; } // open the stream for writing and read them so that the cache is created, but do not change byte pDummyData[][] = new byte[1][3]; XStream xTempStream1 = m_aTestHelper.OpenStream( xStep2TempStorage, "SubStream1", ElementModes.WRITE ); XStream xTempStream2 = m_aTestHelper.OpenStream( xStep2TempSubStorage, "SubStream2", ElementModes.WRITE ); if ( xTempStream1 == null || xTempStream2 == null ) return false; XInputStream xTempInStream1 = xTempStream1.getInputStream(); XInputStream xTempInStream2 = xTempStream2.getInputStream(); if ( xTempInStream1 == null || xTempInStream2 == null ) { m_aTestHelper.Error( "No input stream is available!" ); return false; } xTempInStream1.readBytes( pDummyData, 3 ); xTempInStream2.readBytes( pDummyData, 3 ); // create temporary storage, it will be checked later Object oTargetStorage = m_xStorageFactory.createInstance(); XStorage xTargetStorage = (XStorage) UnoRuntime.queryInterface( XStorage.class, oTargetStorage ); if ( xTargetStorage == null ) { m_aTestHelper.Error( "Can't create temporary storage representation!" ); return false; } // copy the current storage to the target try { xStep2TempStorage.copyToStorage( xTargetStorage ); } catch( Exception e ) { m_aTestHelper.Error( "Can not copy the storage with common storage password!" ); return false; } // dispose used storage to free resources if ( !m_aTestHelper.disposeStorage( xStep2TempStorage ) ) return false; // ================================================ // now check all the information in the copy // ================================================ if ( !m_aTestHelper.checkStorageProperties( xTargetStorage, "MediaType3", true, ElementModes.WRITE ) ) return false; // open existing substorage XStorage xTargetSubStorage = m_aTestHelper.openSubStorage( xTargetStorage, "SubStorage1", ElementModes.WRITE ); if ( xTargetSubStorage == null ) { m_aTestHelper.Error( "Can't open existing substorage!" ); return false; } if ( !m_aTestHelper.checkStorageProperties( xTargetSubStorage, "MediaType4", false, ElementModes.WRITE ) ) return false; // set the common storage password XEncryptionProtectedSource xTargetEncr = (XEncryptionProtectedSource) UnoRuntime.queryInterface( XEncryptionProtectedSource.class, xTargetStorage ); if ( xTargetEncr == null ) { m_aTestHelper.Error( "The storage does not support encryption access!" ); return false; } try { xTargetEncr.setEncryptionPassword( sPass ); } catch( Exception e ) { m_aTestHelper.Error( "Can not set the common storage password!" ); return false; } // check the streams if ( !m_aTestHelper.checkStream( xTargetStorage, "SubStream1", "MediaType1", true, pBytes ) ) return false; if ( !m_aTestHelper.checkStream( xTargetSubStorage, "SubStream2", "MediaType2", true, pBytes ) ) return false; // dispose used storages to free resources if ( !m_aTestHelper.disposeStorage( xTargetStorage ) ) return false; return true; } catch( Exception e ) { m_aTestHelper.Error( "Exception: " + e ); return false; } } }