import pytest from helpers.cluster import ClickHouseCluster from helpers.test_tools import assert_eq_with_retry, exec_query_with_retry cluster = ClickHouseCluster(__file__) node1 = cluster.add_instance("node1", stay_alive=True) node2 = cluster.add_instance( "node2", with_zookeeper=True, image="yandex/clickhouse-server", tag="21.2", with_installed_binary=True, stay_alive=True, allow_analyzer=False, ) # Use differents nodes because if there is node.restart_from_latest_version(), then in later tests # it will be with latest version, but shouldn't, order of tests in CI is shuffled. node3 = cluster.add_instance( "node3", image="yandex/clickhouse-server", tag="21.5", with_installed_binary=True, stay_alive=True, allow_analyzer=False, ) node4 = cluster.add_instance( "node4", image="yandex/clickhouse-server", tag="21.5", with_installed_binary=True, stay_alive=True, allow_analyzer=False, ) node5 = cluster.add_instance( "node5", image="yandex/clickhouse-server", tag="21.5", with_installed_binary=True, stay_alive=True, allow_analyzer=False, ) node6 = cluster.add_instance( "node6", image="yandex/clickhouse-server", tag="21.5", with_installed_binary=True, stay_alive=True, allow_analyzer=False, ) def insert_data(node, table_name="test_table", n=1, col2=1): node.query( """ INSERT INTO {} SELECT toDateTime(NOW()), {}, sumMapState(arrayMap(i -> 1, range(300)), arrayMap(i -> 1, range(300))) FROM numbers({});""".format( table_name, col2, n ) ) def create_table(node, name="test_table", version=None): node.query("DROP TABLE IF EXISTS {};".format(name)) if version is None: node.query( """ CREATE TABLE {} ( `col1` DateTime, `col2` Int64, `col3` AggregateFunction(sumMap, Array(UInt8), Array(UInt8)) ) ENGINE = AggregatingMergeTree() ORDER BY (col1, col2) """.format( name ) ) else: node.query( """ CREATE TABLE {} ( `col1` DateTime, `col2` Int64, `col3` AggregateFunction({}, sumMap, Array(UInt8), Array(UInt8)) ) ENGINE = AggregatingMergeTree() ORDER BY (col1, col2) """.format( name, version ) ) @pytest.fixture(scope="module") def start_cluster(): try: cluster.start() yield cluster finally: cluster.shutdown() def test_modulo_partition_key_issue_23508(start_cluster): node2.query( "CREATE TABLE test (id Int64, v UInt64, value String) ENGINE = ReplicatedReplacingMergeTree('/clickhouse/tables/table1', '1', v) PARTITION BY id % 20 ORDER BY (id, v)" ) node2.query( "INSERT INTO test SELECT number, number, toString(number) FROM numbers(10)" ) expected = node2.query("SELECT number, number, toString(number) FROM numbers(10)") partition_data = node2.query( "SELECT partition, name FROM system.parts WHERE table='test' ORDER BY partition" ) assert expected == node2.query("SELECT * FROM test ORDER BY id") node2.restart_with_latest_version() assert expected == node2.query("SELECT * FROM test ORDER BY id") assert partition_data == node2.query( "SELECT partition, name FROM system.parts WHERE table='test' ORDER BY partition" ) # Test from issue 16587 def test_aggregate_function_versioning_issue_16587(start_cluster): for node in [node1, node3]: node.query("DROP TABLE IF EXISTS test_table;") node.query( """ CREATE TABLE test_table (`col1` DateTime, `col2` Int64) ENGINE = MergeTree() ORDER BY col1""" ) node.query( "insert into test_table select '2020-10-26 00:00:00', 1929292 from numbers(300)" ) expected = "([1],[600])" result_on_old_version = node3.query( "select sumMap(sm) from (select sumMap([1],[1]) as sm from remote('127.0.0.{1,2}', default.test_table) group by col1, col2);" ).strip() assert result_on_old_version != expected result_on_new_version = node1.query( "select sumMap(sm) from (select sumMap([1],[1]) as sm from remote('127.0.0.{1,2}', default.test_table) group by col1, col2);" ).strip() assert result_on_new_version == expected def test_aggregate_function_versioning_fetch_data_from_old_to_new_server(start_cluster): for node in [node1, node4]: create_table(node) insert_data(node) expected = "([1],[300])" new_server_data = node1.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert new_server_data == expected old_server_data = node4.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert old_server_data != expected data_from_old_to_new_server = node1.query( "select finalizeAggregation(col3) from remote('node4', default.test_table);" ).strip() assert data_from_old_to_new_server == old_server_data def test_aggregate_function_versioning_server_upgrade(start_cluster): for node in [node1, node5]: create_table(node) insert_data(node1, col2=5) insert_data(node5, col2=1) # Serialization with version 0, server does not support versioning of aggregate function states. old_server_data = node5.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert old_server_data == "([1],[44])" create = node5.query("describe table default.test_table;").strip() assert create.strip().endswith( "col3\tAggregateFunction(sumMap, Array(UInt8), Array(UInt8))" ) print("Ok 1") # Upgrade server. node5.restart_with_latest_version() # Deserialized with version 0, server supports versioning. upgraded_server_data = node5.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert upgraded_server_data == "([1],[44])" create = node5.query("describe table default.test_table;").strip() assert create.strip().endswith( "col3\tAggregateFunction(sumMap, Array(UInt8), Array(UInt8))" ) print("Ok 2") create = node1.query("describe table default.test_table;").strip() print(create) assert create.strip().endswith( "col3\tAggregateFunction(1, sumMap, Array(UInt8), Array(UInt8))" ) # Data from upgraded server to new server. Deserialize with version 0. data_from_upgraded_to_new_server = node1.query( "select finalizeAggregation(col3) from remote('node5', default.test_table);" ).strip() assert data_from_upgraded_to_new_server == upgraded_server_data == "([1],[44])" print("Ok 3") # Data is serialized according to version 0 (though one of the states is version 1, but result is version 0). upgraded_server_data = node5.query( "select finalizeAggregation(col3) from remote('127.0.0.{1,2}', default.test_table);" ).strip() assert upgraded_server_data == "([1],[44])\n([1],[44])" print("Ok 4") # Check insertion after server upgarde. insert_data(node5, col2=2) # Check newly inserted data is still serialized with 0 version. upgraded_server_data = node5.query( "select finalizeAggregation(col3) from default.test_table order by col2;" ).strip() assert upgraded_server_data == "([1],[44])\n([1],[44])" print("Ok 5") # New table has latest version. new_server_data = node1.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert new_server_data == "([1],[300])" print("Ok 6") # Insert from new server (with version 1) to upgraded server (where version will be 0), result version 0. node1.query( "insert into table function remote('node5', default.test_table) select * from default.test_table;" ).strip() upgraded_server_data = node5.query( "select finalizeAggregation(col3) from default.test_table order by col2;" ).strip() assert upgraded_server_data == "([1],[44])\n([1],[44])\n([1],[44])" print("Ok 7") # But new table gets data with latest version. insert_data(node1) new_server_data = node1.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert new_server_data == "([1],[300])\n([1],[300])" print("Ok 8") # Create table with column implicitly with older version (version 0). create_table(node1, name="test_table_0", version=0) insert_data(node1, table_name="test_table_0", col2=3) data = node1.query( "select finalizeAggregation(col3) from default.test_table_0;" ).strip() assert data == "([1],[44])" print("Ok") # Insert from new server to upgraded server to a new table but the version was set implicitly to 0, so data version 0. node1.query( "insert into table function remote('node5', default.test_table) select * from default.test_table_0;" ).strip() upgraded_server_data = node5.query( "select finalizeAggregation(col3) from default.test_table order by col2;" ).strip() assert upgraded_server_data == "([1],[44])\n([1],[44])\n([1],[44])\n([1],[44])" print("Ok") def test_aggregate_function_versioning_persisting_metadata(start_cluster): for node in [node1, node6]: create_table(node) insert_data(node) data = node1.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert data == "([1],[300])" data = node6.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert data == "([1],[44])" node6.restart_with_latest_version() for node in [node1, node6]: node.query("DETACH TABLE test_table") node.query("ATTACH TABLE test_table") for node in [node1, node6]: insert_data(node) new_server_data = node1.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert new_server_data == "([1],[300])\n([1],[300])" upgraded_server_data = node6.query( "select finalizeAggregation(col3) from default.test_table;" ).strip() assert upgraded_server_data == "([1],[44])\n([1],[44])" for node in [node1, node6]: node.restart_clickhouse() insert_data(node) result = node1.query( "select finalizeAggregation(col3) from remote('127.0.0.{1,2}', default.test_table);" ).strip() assert ( result == "([1],[300])\n([1],[300])\n([1],[300])\n([1],[300])\n([1],[300])\n([1],[300])" ) result = node6.query( "select finalizeAggregation(col3) from remote('127.0.0.{1,2}', default.test_table);" ).strip() assert ( result == "([1],[44])\n([1],[44])\n([1],[44])\n([1],[44])\n([1],[44])\n([1],[44])" )