import pytest from helpers.cluster import ClickHouseCluster, CLICKHOUSE_CI_MIN_TESTED_VERSION cluster = ClickHouseCluster(__file__) node1 = cluster.add_instance( "node1", with_zookeeper=False, image="clickhouse/clickhouse-server", tag=CLICKHOUSE_CI_MIN_TESTED_VERSION, stay_alive=True, with_installed_binary=True, allow_analyzer=False, ) node2 = cluster.add_instance( "node2", with_zookeeper=False, image="clickhouse/clickhouse-server", tag=CLICKHOUSE_CI_MIN_TESTED_VERSION, stay_alive=True, with_installed_binary=True, allow_analyzer=False, ) node3 = cluster.add_instance("node3", with_zookeeper=False, allow_analyzer=False) node4 = cluster.add_instance("node4", with_zookeeper=False, allow_analyzer=False) @pytest.fixture(scope="module") def start_cluster(): try: cluster.start() yield cluster finally: cluster.shutdown() @pytest.fixture(autouse=True) def cleanup(): yield node1.restart_with_original_version(clear_data_dir=True) # We will test that serialization of internal state of "avg" function is compatible between different versions. # TODO Implement versioning of serialization format for aggregate function states. # NOTE This test is too ad-hoc. def test_backward_compatability_for_avg(start_cluster): node1.query("create table tab (x UInt64) engine = Memory") node2.query("create table tab (x UInt64) engine = Memory") node3.query("create table tab (x UInt64) engine = Memory") node4.query("create table tab (x UInt64) engine = Memory") node1.query("INSERT INTO tab VALUES (1)") node2.query("INSERT INTO tab VALUES (2)") node3.query("INSERT INTO tab VALUES (3)") node4.query("INSERT INTO tab VALUES (4)") assert ( node1.query("SELECT avg(x) FROM remote('node{1..4}', default, tab)") == "2.5\n" ) assert ( node2.query("SELECT avg(x) FROM remote('node{1..4}', default, tab)") == "2.5\n" ) assert ( node3.query("SELECT avg(x) FROM remote('node{1..4}', default, tab)") == "2.5\n" ) assert ( node4.query("SELECT avg(x) FROM remote('node{1..4}', default, tab)") == "2.5\n" ) # Also check with persisted aggregate function state node1.query("create table state (x AggregateFunction(avg, UInt64)) engine = Log") node1.query( "INSERT INTO state SELECT avgState(arrayJoin(CAST([1, 2, 3, 4] AS Array(UInt64))))" ) assert node1.query("SELECT avgMerge(x) FROM state") == "2.5\n" node1.restart_with_latest_version(fix_metadata=True) assert node1.query("SELECT avgMerge(x) FROM state") == "2.5\n" node1.query("drop table tab") node1.query("drop table state") node2.query("drop table tab") node3.query("drop table tab") node4.query("drop table tab") @pytest.mark.parametrize("uniq_keys", [1000, 500000]) def test_backward_compatability_for_uniq_exact(start_cluster, uniq_keys): node1.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64) Engine = Memory") node2.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64) Engine = Memory") node3.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64) Engine = Memory") node4.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64) Engine = Memory") node1.query( f"INSERT INTO tab_{uniq_keys} SELECT number FROM numbers_mt(0, {uniq_keys})" ) node2.query( f"INSERT INTO tab_{uniq_keys} SELECT number FROM numbers_mt(1, {uniq_keys})" ) node3.query( f"INSERT INTO tab_{uniq_keys} SELECT number FROM numbers_mt(2, {uniq_keys})" ) node4.query( f"INSERT INTO tab_{uniq_keys} SELECT number FROM numbers_mt(3, {uniq_keys})" ) assert ( node1.query( f"SELECT uniqExact(x) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) assert ( node2.query( f"SELECT uniqExact(x) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) assert ( node3.query( f"SELECT uniqExact(x) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) assert ( node4.query( f"SELECT uniqExact(x) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) # Also check with persisted aggregate function state node1.query( f"CREATE TABLE state_{uniq_keys} (x AggregateFunction(uniqExact, UInt64)) Engine = Log" ) node1.query( f"INSERT INTO state_{uniq_keys} SELECT uniqExactState(number) FROM numbers_mt({uniq_keys})" ) assert ( node1.query(f"SELECT uniqExactMerge(x) FROM state_{uniq_keys}") == f"{uniq_keys}\n" ) node1.restart_with_latest_version(fix_metadata=True) assert ( node1.query(f"SELECT uniqExactMerge(x) FROM state_{uniq_keys}") == f"{uniq_keys}\n" ) node1.query(f"DROP TABLE state_{uniq_keys}") node1.query(f"DROP TABLE tab_{uniq_keys}") node2.query(f"DROP TABLE tab_{uniq_keys}") node3.query(f"DROP TABLE tab_{uniq_keys}") node4.query(f"DROP TABLE tab_{uniq_keys}") @pytest.mark.parametrize("uniq_keys", [1000, 500000]) def test_backward_compatability_for_uniq_exact_variadic(start_cluster, uniq_keys): node1.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64, y UInt64) Engine = Memory") node2.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64, y UInt64) Engine = Memory") node3.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64, y UInt64) Engine = Memory") node4.query(f"CREATE TABLE tab_{uniq_keys} (x UInt64, y UInt64) Engine = Memory") node1.query( f"INSERT INTO tab_{uniq_keys} SELECT number, number/2 FROM numbers_mt(0, {uniq_keys})" ) node2.query( f"INSERT INTO tab_{uniq_keys} SELECT number, number/2 FROM numbers_mt(1, {uniq_keys})" ) node3.query( f"INSERT INTO tab_{uniq_keys} SELECT number, number/2 FROM numbers_mt(2, {uniq_keys})" ) node4.query( f"INSERT INTO tab_{uniq_keys} SELECT number, number/2 FROM numbers_mt(3, {uniq_keys})" ) assert ( node1.query( f"SELECT uniqExact(x, y) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) assert ( node2.query( f"SELECT uniqExact(x, y) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) assert ( node3.query( f"SELECT uniqExact(x, y) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) assert ( node4.query( f"SELECT uniqExact(x, y) FROM remote('node{{1..4}}', default, tab_{uniq_keys})" ) == f"{uniq_keys + 3}\n" ) # Also check with persisted aggregate function state node1.query( f"CREATE TABLE state_{uniq_keys} (x AggregateFunction(uniqExact, UInt64, UInt64)) Engine = Log" ) node1.query( f"INSERT INTO state_{uniq_keys} SELECT uniqExactState(number, intDiv(number,2)) FROM numbers_mt({uniq_keys})" ) assert ( node1.query(f"SELECT uniqExactMerge(x) FROM state_{uniq_keys}") == f"{uniq_keys}\n" ) node1.restart_with_latest_version(fix_metadata=True) assert ( node1.query(f"SELECT uniqExactMerge(x) FROM state_{uniq_keys}") == f"{uniq_keys}\n" ) node1.query(f"DROP TABLE state_{uniq_keys}") node1.query(f"DROP TABLE tab_{uniq_keys}") node2.query(f"DROP TABLE tab_{uniq_keys}") node3.query(f"DROP TABLE tab_{uniq_keys}") node4.query(f"DROP TABLE tab_{uniq_keys}")