@BeforeClass public static void setUpBeforeClass() throws Exception { conf = TEST_UTIL.getConfiguration(); TEST_UTIL.startMiniCluster(); REST_TEST_UTIL.startServletContainer(conf); client = new Client(new Cluster().add("localhost", REST_TEST_UTIL.getServletPort())); testTableSchemaModel = new TestTableSchemaModel(); context = JAXBContext.newInstance(ColumnSchemaModel.class, TableSchemaModel.class); }
@BeforeClass public static void setUpBeforeClass() throws Exception { conf = TEST_UTIL.getConfiguration(); TEST_UTIL.startMiniCluster(); REST_TEST_UTIL.startServletContainer(conf); client = new Client(new Cluster().add("localhost", REST_TEST_UTIL.getServletPort())); context = JAXBContext.newInstance( CellModel.class, CellSetModel.class, RowModel.class, ScannerModel.class); marshaller = context.createMarshaller(); unmarshaller = context.createUnmarshaller(); Admin admin = TEST_UTIL.getHBaseAdmin(); if (admin.tableExists(TABLE)) { return; } HTableDescriptor htd = new HTableDescriptor(TABLE); htd.addFamily(new HColumnDescriptor(CFA)); htd.addFamily(new HColumnDescriptor(CFB)); admin.createTable(htd); expectedRows1 = insertData(TEST_UTIL.getConfiguration(), TABLE, COLUMN_1, 1.0); expectedRows2 = insertData(TEST_UTIL.getConfiguration(), TABLE, COLUMN_2, 0.5); }
@BeforeClass public static void setUpBeforeClass() throws Exception { TEST_UTIL.startMiniCluster(3); REST_TEST_UTIL.startServletContainer(TEST_UTIL.getConfiguration()); context = JAXBContext.newInstance( CellModel.class, CellSetModel.class, RowModel.class, ScannerModel.class); marshaller = context.createMarshaller(); unmarshaller = context.createUnmarshaller(); client = new Client(new Cluster().add("localhost", REST_TEST_UTIL.getServletPort())); HBaseAdmin admin = TEST_UTIL.getHBaseAdmin(); if (!admin.tableExists(TABLE)) { HTableDescriptor htd = new HTableDescriptor(TABLE); htd.addFamily(new HColumnDescriptor(FAMILIES[0])); htd.addFamily(new HColumnDescriptor(FAMILIES[1])); admin.createTable(htd); HTable table = new HTable(TEST_UTIL.getConfiguration(), TABLE); // Insert first half for (byte[] ROW : ROWS_ONE) { Put p = new Put(ROW); for (byte[] QUALIFIER : QUALIFIERS_ONE) { p.add(FAMILIES[0], QUALIFIER, VALUES[0]); } table.put(p); } for (byte[] ROW : ROWS_TWO) { Put p = new Put(ROW); for (byte[] QUALIFIER : QUALIFIERS_TWO) { p.add(FAMILIES[1], QUALIFIER, VALUES[1]); } table.put(p); } // Insert second half (reverse families) for (byte[] ROW : ROWS_ONE) { Put p = new Put(ROW); for (byte[] QUALIFIER : QUALIFIERS_ONE) { p.add(FAMILIES[1], QUALIFIER, VALUES[0]); } table.put(p); } for (byte[] ROW : ROWS_TWO) { Put p = new Put(ROW); for (byte[] QUALIFIER : QUALIFIERS_TWO) { p.add(FAMILIES[0], QUALIFIER, VALUES[1]); } table.put(p); } // Delete the second qualifier from all rows and families for (byte[] ROW : ROWS_ONE) { Delete d = new Delete(ROW); d.deleteColumns(FAMILIES[0], QUALIFIERS_ONE[1]); d.deleteColumns(FAMILIES[1], QUALIFIERS_ONE[1]); table.delete(d); } for (byte[] ROW : ROWS_TWO) { Delete d = new Delete(ROW); d.deleteColumns(FAMILIES[0], QUALIFIERS_TWO[1]); d.deleteColumns(FAMILIES[1], QUALIFIERS_TWO[1]); table.delete(d); } colsPerRow -= 2; // Delete the second rows from both groups, one column at a time for (byte[] QUALIFIER : QUALIFIERS_ONE) { Delete d = new Delete(ROWS_ONE[1]); d.deleteColumns(FAMILIES[0], QUALIFIER); d.deleteColumns(FAMILIES[1], QUALIFIER); table.delete(d); } for (byte[] QUALIFIER : QUALIFIERS_TWO) { Delete d = new Delete(ROWS_TWO[1]); d.deleteColumns(FAMILIES[0], QUALIFIER); d.deleteColumns(FAMILIES[1], QUALIFIER); table.delete(d); } numRows -= 2; } }