import os import shutil import time import re import pytest import threading from helpers.cluster import ClickHouseCluster from helpers.test_tools import assert_eq_with_retry, assert_logs_contain from helpers.network import PartitionManager test_recover_staled_replica_run = 1 cluster = ClickHouseCluster(__file__) main_node = cluster.add_instance( "main_node", main_configs=["configs/config.xml"], user_configs=["configs/settings.xml"], with_zookeeper=True, stay_alive=True, macros={"shard": 1, "replica": 1}, ) dummy_node = cluster.add_instance( "dummy_node", main_configs=["configs/config.xml"], user_configs=["configs/settings.xml"], with_zookeeper=True, stay_alive=True, macros={"shard": 1, "replica": 2}, ) competing_node = cluster.add_instance( "competing_node", main_configs=["configs/config.xml"], user_configs=["configs/settings.xml"], with_zookeeper=True, stay_alive=True, macros={"shard": 1, "replica": 3}, ) snapshotting_node = cluster.add_instance( "snapshotting_node", main_configs=["configs/config.xml"], user_configs=["configs/settings.xml"], with_zookeeper=True, macros={"shard": 2, "replica": 1}, ) snapshot_recovering_node = cluster.add_instance( "snapshot_recovering_node", main_configs=["configs/config.xml"], user_configs=["configs/settings.xml"], with_zookeeper=True, ) all_nodes = [ main_node, dummy_node, competing_node, snapshotting_node, snapshot_recovering_node, ] uuid_regex = re.compile("[0-9a-f]{8}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{4}-[0-9a-f]{12}") def assert_create_query(nodes, table_name, expected): replace_uuid = lambda x: re.sub(uuid_regex, "uuid", x) query = "show create table {}".format(table_name) for node in nodes: assert_eq_with_retry(node, query, expected, get_result=replace_uuid) @pytest.fixture(scope="module") def started_cluster(): try: cluster.start() yield cluster finally: cluster.shutdown() def test_create_replicated_table(started_cluster): main_node.query( "CREATE DATABASE create_replicated_table ENGINE = Replicated('/test/create_replicated_table', 'shard1', 'replica' || '1');" ) dummy_node.query( "CREATE DATABASE create_replicated_table ENGINE = Replicated('/test/create_replicated_table', 'shard1', 'replica2');" ) assert ( "Explicit zookeeper_path and replica_name are specified" in main_node.query_and_get_error( "CREATE TABLE create_replicated_table.replicated_table (d Date, k UInt64, i32 Int32) " "ENGINE=ReplicatedMergeTree('/test/tmp', 'r') ORDER BY k PARTITION BY toYYYYMM(d);" ) ) assert ( "Explicit zookeeper_path and replica_name are specified" in main_node.query_and_get_error( "CREATE TABLE create_replicated_table.replicated_table (d Date, k UInt64, i32 Int32) " "ENGINE=ReplicatedMergeTree('/test/tmp', 'r') ORDER BY k PARTITION BY toYYYYMM(d);" ) ) assert ( "This syntax for *MergeTree engine is deprecated" in main_node.query_and_get_error( "CREATE TABLE create_replicated_table.replicated_table (d Date, k UInt64, i32 Int32) " "ENGINE=ReplicatedMergeTree('/test/tmp/{shard}', '{replica}', d, k, 8192);" ) ) main_node.query( "CREATE TABLE create_replicated_table.replicated_table (d Date, k UInt64, i32 Int32) ENGINE=ReplicatedMergeTree ORDER BY k PARTITION BY toYYYYMM(d);" ) expected = ( "CREATE TABLE create_replicated_table.replicated_table\\n(\\n `d` Date,\\n `k` UInt64,\\n `i32` Int32\\n)\\n" "ENGINE = ReplicatedMergeTree(\\'/clickhouse/tables/{uuid}/{shard}\\', \\'{replica}\\')\\n" "PARTITION BY toYYYYMM(d)\\nORDER BY k\\nSETTINGS index_granularity = 8192" ) assert_create_query( [main_node, dummy_node], "create_replicated_table.replicated_table", expected ) # assert without replacing uuid assert main_node.query( "show create create_replicated_table.replicated_table" ) == dummy_node.query("show create create_replicated_table.replicated_table") main_node.query("DROP DATABASE create_replicated_table SYNC") dummy_node.query("DROP DATABASE create_replicated_table SYNC") @pytest.mark.parametrize("engine", ["MergeTree", "ReplicatedMergeTree"]) def test_simple_alter_table(started_cluster, engine): database = f"test_simple_alter_table_{engine}" main_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica1');" ) dummy_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica2');" ) # test_simple_alter_table name = f"{database}.alter_test" main_node.query( "CREATE TABLE {} " "(CounterID UInt32, StartDate Date, UserID UInt32, VisitID UInt32, NestedColumn Nested(A UInt8, S String), ToDrop UInt32) " "ENGINE = {} PARTITION BY StartDate ORDER BY (CounterID, StartDate, intHash32(UserID), VisitID);".format( name, engine ) ) main_node.query("ALTER TABLE {} ADD COLUMN Added0 UInt32;".format(name)) main_node.query("ALTER TABLE {} ADD COLUMN Added2 UInt32;".format(name)) main_node.query( "ALTER TABLE {} ADD COLUMN Added1 UInt32 AFTER Added0;".format(name) ) main_node.query( "ALTER TABLE {} ADD COLUMN AddedNested1 Nested(A UInt32, B UInt64) AFTER Added2;".format( name ) ) main_node.query( "ALTER TABLE {} ADD COLUMN AddedNested1.C Array(String) AFTER AddedNested1.B;".format( name ) ) main_node.query( "ALTER TABLE {} ADD COLUMN AddedNested2 Nested(A UInt32, B UInt64) AFTER AddedNested1;".format( name ) ) full_engine = ( engine if not "Replicated" in engine else engine + "(\\'/clickhouse/tables/{uuid}/{shard}\\', \\'{replica}\\')" ) expected = ( "CREATE TABLE {}\\n(\\n `CounterID` UInt32,\\n `StartDate` Date,\\n `UserID` UInt32,\\n" " `VisitID` UInt32,\\n `NestedColumn.A` Array(UInt8),\\n `NestedColumn.S` Array(String),\\n" " `ToDrop` UInt32,\\n `Added0` UInt32,\\n `Added1` UInt32,\\n `Added2` UInt32,\\n" " `AddedNested1.A` Array(UInt32),\\n `AddedNested1.B` Array(UInt64),\\n `AddedNested1.C` Array(String),\\n" " `AddedNested2.A` Array(UInt32),\\n `AddedNested2.B` Array(UInt64)\\n)\\n" "ENGINE = {}\\nPARTITION BY StartDate\\nORDER BY (CounterID, StartDate, intHash32(UserID), VisitID)\\n" "SETTINGS index_granularity = 8192".format(name, full_engine) ) assert_create_query([main_node, dummy_node], name, expected) # test_create_replica_after_delay competing_node.query( f"CREATE DATABASE IF NOT EXISTS {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica3');" ) main_node.query("ALTER TABLE {} ADD COLUMN Added3 UInt32;".format(name)) main_node.query("ALTER TABLE {} DROP COLUMN AddedNested1;".format(name)) main_node.query("ALTER TABLE {} RENAME COLUMN Added1 TO AddedNested1;".format(name)) full_engine = ( engine if not "Replicated" in engine else engine + "(\\'/clickhouse/tables/{uuid}/{shard}\\', \\'{replica}\\')" ) expected = ( "CREATE TABLE {}\\n(\\n `CounterID` UInt32,\\n `StartDate` Date,\\n `UserID` UInt32,\\n" " `VisitID` UInt32,\\n `NestedColumn.A` Array(UInt8),\\n `NestedColumn.S` Array(String),\\n" " `ToDrop` UInt32,\\n `Added0` UInt32,\\n `AddedNested1` UInt32,\\n `Added2` UInt32,\\n" " `AddedNested2.A` Array(UInt32),\\n `AddedNested2.B` Array(UInt64),\\n `Added3` UInt32\\n)\\n" "ENGINE = {}\\nPARTITION BY StartDate\\nORDER BY (CounterID, StartDate, intHash32(UserID), VisitID)\\n" "SETTINGS index_granularity = 8192".format(name, full_engine) ) assert_create_query([main_node, dummy_node, competing_node], name, expected) main_node.query(f"DROP DATABASE {database} SYNC") dummy_node.query(f"DROP DATABASE {database} SYNC") competing_node.query(f"DROP DATABASE {database} SYNC") @pytest.mark.parametrize("engine", ["MergeTree", "ReplicatedMergeTree"]) def test_delete_from_table(started_cluster, engine): database = f"delete_from_table_{engine}" main_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica1');" ) dummy_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard2', 'replica1');" ) name = f"{database}.delete_test" main_node.query( "CREATE TABLE {} " "(id UInt64, value String) " "ENGINE = {} PARTITION BY id%2 ORDER BY (id);".format(name, engine) ) main_node.query("INSERT INTO TABLE {} VALUES(1, 'aaaa');".format(name)) main_node.query("INSERT INTO TABLE {} VALUES(2, 'aaaa');".format(name)) dummy_node.query("INSERT INTO TABLE {} VALUES(1, 'bbbb');".format(name)) dummy_node.query("INSERT INTO TABLE {} VALUES(2, 'bbbb');".format(name)) main_node.query("DELETE FROM {} WHERE id=2;".format(name)) expected = "1\taaaa\n1\tbbbb" table_for_select = name if not "Replicated" in engine: table_for_select = f"cluster('{database}', {name})" for node in [main_node, dummy_node]: assert_eq_with_retry( node, "SELECT * FROM {} ORDER BY id, value;".format(table_for_select), expected, ) main_node.query(f"DROP DATABASE {database} SYNC") dummy_node.query(f"DROP DATABASE {database} SYNC") def get_table_uuid(database, name): return main_node.query( f"SELECT uuid FROM system.tables WHERE database = '{database}' and name = '{name}'" ).strip() @pytest.fixture(scope="module", name="attachable_part") def fixture_attachable_part(started_cluster): main_node.query(f"CREATE DATABASE testdb_attach_atomic ENGINE = Atomic") main_node.query( f"CREATE TABLE testdb_attach_atomic.test (CounterID UInt32) ENGINE = MergeTree ORDER BY (CounterID)" ) main_node.query(f"INSERT INTO testdb_attach_atomic.test VALUES (123)") main_node.query( f"ALTER TABLE testdb_attach_atomic.test FREEZE WITH NAME 'test_attach'" ) table_uuid = get_table_uuid("testdb_attach_atomic", "test") return os.path.join( main_node.path, f"database/shadow/test_attach/store/{table_uuid[:3]}/{table_uuid}/all_1_1_0", ) @pytest.mark.parametrize("engine", ["MergeTree", "ReplicatedMergeTree"]) def test_alter_attach(started_cluster, attachable_part, engine): database = f"alter_attach_{engine}" main_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica1');" ) dummy_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica2');" ) main_node.query( f"CREATE TABLE {database}.alter_attach_test (CounterID UInt32) ENGINE = {engine} ORDER BY (CounterID)" ) table_uuid = get_table_uuid(database, "alter_attach_test") # Provide and attach a part to the main node shutil.copytree( attachable_part, os.path.join( main_node.path, f"database/store/{table_uuid[:3]}/{table_uuid}/detached/all_1_1_0", ), ) main_node.query(f"ALTER TABLE {database}.alter_attach_test ATTACH PART 'all_1_1_0'") # On the main node, data is attached assert ( main_node.query(f"SELECT CounterID FROM {database}.alter_attach_test") == "123\n" ) # On the other node, data is replicated only if using a Replicated table engine if engine == "ReplicatedMergeTree": assert ( dummy_node.query(f"SELECT CounterID FROM {database}.alter_attach_test") == "123\n" ) else: assert ( dummy_node.query(f"SELECT CounterID FROM {database}.alter_attach_test") == "" ) main_node.query(f"DROP DATABASE {database} SYNC") dummy_node.query(f"DROP DATABASE {database} SYNC") @pytest.mark.parametrize("engine", ["MergeTree", "ReplicatedMergeTree"]) def test_alter_drop_part(started_cluster, engine): database = f"alter_drop_part_{engine}" main_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica1');" ) dummy_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica2');" ) part_name = "all_0_0_0" if engine == "ReplicatedMergeTree" else "all_1_1_0" main_node.query( f"CREATE TABLE {database}.alter_drop_part (CounterID UInt32) ENGINE = {engine} ORDER BY (CounterID)" ) main_node.query(f"INSERT INTO {database}.alter_drop_part VALUES (123)") if engine == "MergeTree": dummy_node.query(f"INSERT INTO {database}.alter_drop_part VALUES (456)") main_node.query(f"ALTER TABLE {database}.alter_drop_part DROP PART '{part_name}'") assert main_node.query(f"SELECT CounterID FROM {database}.alter_drop_part") == "" if engine == "ReplicatedMergeTree": # The DROP operation is still replicated at the table engine level assert ( dummy_node.query(f"SELECT CounterID FROM {database}.alter_drop_part") == "" ) else: assert ( dummy_node.query(f"SELECT CounterID FROM {database}.alter_drop_part") == "456\n" ) main_node.query(f"DROP DATABASE {database} SYNC") dummy_node.query(f"DROP DATABASE {database} SYNC") @pytest.mark.parametrize("engine", ["MergeTree", "ReplicatedMergeTree"]) def test_alter_detach_part(started_cluster, engine): database = f"alter_detach_part_{engine}" main_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica1');" ) dummy_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica2');" ) part_name = "all_0_0_0" if engine == "ReplicatedMergeTree" else "all_1_1_0" main_node.query( f"CREATE TABLE {database}.alter_detach (CounterID UInt32) ENGINE = {engine} ORDER BY (CounterID)" ) main_node.query(f"INSERT INTO {database}.alter_detach VALUES (123)") if engine == "MergeTree": dummy_node.query(f"INSERT INTO {database}.alter_detach VALUES (456)") main_node.query(f"ALTER TABLE {database}.alter_detach DETACH PART '{part_name}'") detached_parts_query = f"SELECT name FROM system.detached_parts WHERE database='{database}' AND table='alter_detach'" assert main_node.query(detached_parts_query) == f"{part_name}\n" if engine == "ReplicatedMergeTree": # The detach operation is still replicated at the table engine level assert dummy_node.query(detached_parts_query) == f"{part_name}\n" else: assert dummy_node.query(detached_parts_query) == "" main_node.query(f"DROP DATABASE {database} SYNC") dummy_node.query(f"DROP DATABASE {database} SYNC") @pytest.mark.parametrize("engine", ["MergeTree", "ReplicatedMergeTree"]) def test_alter_drop_detached_part(started_cluster, engine): database = f"alter_drop_detached_part_{engine}" main_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica1');" ) dummy_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica2');" ) part_name = "all_0_0_0" if engine == "ReplicatedMergeTree" else "all_1_1_0" main_node.query( f"CREATE TABLE {database}.alter_drop_detached (CounterID UInt32) ENGINE = {engine} ORDER BY (CounterID)" ) main_node.query(f"INSERT INTO {database}.alter_drop_detached VALUES (123)") main_node.query( f"ALTER TABLE {database}.alter_drop_detached DETACH PART '{part_name}'" ) if engine == "MergeTree": dummy_node.query(f"INSERT INTO {database}.alter_drop_detached VALUES (456)") dummy_node.query( f"ALTER TABLE {database}.alter_drop_detached DETACH PART '{part_name}'" ) main_node.query( f"ALTER TABLE {database}.alter_drop_detached DROP DETACHED PART '{part_name}'" ) detached_parts_query = f"SELECT name FROM system.detached_parts WHERE database='{database}' AND table='alter_drop_detached'" assert main_node.query(detached_parts_query) == "" assert dummy_node.query(detached_parts_query) == f"{part_name}\n" main_node.query(f"DROP DATABASE {database} SYNC") dummy_node.query(f"DROP DATABASE {database} SYNC") @pytest.mark.parametrize("engine", ["MergeTree", "ReplicatedMergeTree"]) def test_alter_drop_partition(started_cluster, engine): database = f"alter_drop_partition_{engine}" main_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica1');" ) dummy_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard1', 'replica2');" ) snapshotting_node.query( f"CREATE DATABASE {database} ENGINE = Replicated('/test/{database}', 'shard2', 'replica1');" ) main_node.query( f"CREATE TABLE {database}.alter_drop (CounterID UInt32) ENGINE = {engine} ORDER BY (CounterID)" ) main_node.query(f"INSERT INTO {database}.alter_drop VALUES (123)") if engine == "MergeTree": dummy_node.query(f"INSERT INTO {database}.alter_drop VALUES (456)") snapshotting_node.query(f"INSERT INTO {database}.alter_drop VALUES (789)") main_node.query( f"ALTER TABLE {database}.alter_drop ON CLUSTER {database} DROP PARTITION ID 'all'", settings={"replication_alter_partitions_sync": 2}, ) assert ( main_node.query( f"SELECT CounterID FROM clusterAllReplicas('{database}', {database}.alter_drop)" ) == "" ) assert dummy_node.query(f"SELECT CounterID FROM {database}.alter_drop") == "" main_node.query(f"DROP DATABASE {database}") dummy_node.query(f"DROP DATABASE {database}") snapshotting_node.query(f"DROP DATABASE {database}") def test_alter_fetch(started_cluster): main_node.query( "CREATE DATABASE alter_fetch ENGINE = Replicated('/test/alter_fetch', 'shard1', 'replica1');" ) dummy_node.query( "CREATE DATABASE alter_fetch ENGINE = Replicated('/test/alter_fetch', 'shard1', 'replica2');" ) main_node.query( "CREATE TABLE alter_fetch.fetch_source (CounterID UInt32) ENGINE = ReplicatedMergeTree ORDER BY (CounterID)" ) main_node.query( "CREATE TABLE alter_fetch.fetch_target (CounterID UInt32) ENGINE = ReplicatedMergeTree ORDER BY (CounterID)" ) main_node.query("INSERT INTO alter_fetch.fetch_source VALUES (123)") table_uuid = get_table_uuid("alter_fetch", "fetch_source") main_node.query( f"ALTER TABLE alter_fetch.fetch_target FETCH PART 'all_0_0_0' FROM '/clickhouse/tables/{table_uuid}/{{shard}}' " ) detached_parts_query = "SELECT name FROM system.detached_parts WHERE database='alter_fetch' AND table='fetch_target'" assert main_node.query(detached_parts_query) == "all_0_0_0\n" assert dummy_node.query(detached_parts_query) == "" main_node.query("DROP DATABASE alter_fetch SYNC") dummy_node.query("DROP DATABASE alter_fetch SYNC") def test_alters_from_different_replicas(started_cluster): main_node.query( "CREATE DATABASE alters_from_different_replicas ENGINE = Replicated('/test/alters_from_different_replicas', 'shard1', 'replica1');" ) dummy_node.query( "CREATE DATABASE alters_from_different_replicas ENGINE = Replicated('/test/alters_from_different_replicas', 'shard1', 'replica2');" ) # test_alters_from_different_replicas competing_node.query( "CREATE DATABASE alters_from_different_replicas ENGINE = Replicated('/test/alters_from_different_replicas', 'shard1', 'replica3');" ) main_node.query( "CREATE TABLE alters_from_different_replicas.concurrent_test " "(CounterID UInt32, StartDate Date, UserID UInt32, VisitID UInt32, NestedColumn Nested(A UInt8, S String), ToDrop UInt32) " "ENGINE = MergeTree PARTITION BY toYYYYMM(StartDate) ORDER BY (CounterID, StartDate, intHash32(UserID), VisitID);" ) main_node.query( "CREATE TABLE alters_from_different_replicas.dist AS alters_from_different_replicas.concurrent_test ENGINE = Distributed(alters_from_different_replicas, alters_from_different_replicas, concurrent_test, CounterID)" ) dummy_node.stop_clickhouse(kill=True) settings = {"distributed_ddl_task_timeout": 5} assert ( "There are 1 unfinished hosts (0 of them are currently active)" in competing_node.query_and_get_error( "ALTER TABLE alters_from_different_replicas.concurrent_test ADD COLUMN Added0 UInt32;", settings=settings, ) ) settings = { "distributed_ddl_task_timeout": 5, "distributed_ddl_output_mode": "null_status_on_timeout", } assert "shard1\treplica2\tQUEUED\t" in main_node.query( "ALTER TABLE alters_from_different_replicas.concurrent_test ADD COLUMN Added2 UInt32;", settings=settings, ) settings = { "distributed_ddl_task_timeout": 5, "distributed_ddl_output_mode": "never_throw", } assert "shard1\treplica2\tQUEUED\t" in competing_node.query( "ALTER TABLE alters_from_different_replicas.concurrent_test ADD COLUMN Added1 UInt32 AFTER Added0;", settings=settings, ) dummy_node.start_clickhouse() main_node.query( "ALTER TABLE alters_from_different_replicas.concurrent_test ADD COLUMN AddedNested1 Nested(A UInt32, B UInt64) AFTER Added2;" ) competing_node.query( "ALTER TABLE alters_from_different_replicas.concurrent_test ADD COLUMN AddedNested1.C Array(String) AFTER AddedNested1.B;" ) main_node.query( "ALTER TABLE alters_from_different_replicas.concurrent_test ADD COLUMN AddedNested2 Nested(A UInt32, B UInt64) AFTER AddedNested1;" ) expected = ( "CREATE TABLE alters_from_different_replicas.concurrent_test\\n(\\n `CounterID` UInt32,\\n `StartDate` Date,\\n `UserID` UInt32,\\n" " `VisitID` UInt32,\\n `NestedColumn.A` Array(UInt8),\\n `NestedColumn.S` Array(String),\\n `ToDrop` UInt32,\\n" " `Added0` UInt32,\\n `Added1` UInt32,\\n `Added2` UInt32,\\n `AddedNested1.A` Array(UInt32),\\n" " `AddedNested1.B` Array(UInt64),\\n `AddedNested1.C` Array(String),\\n `AddedNested2.A` Array(UInt32),\\n" " `AddedNested2.B` Array(UInt64)\\n)\\n" "ENGINE = MergeTree\\nPARTITION BY toYYYYMM(StartDate)\\nORDER BY (CounterID, StartDate, intHash32(UserID), VisitID)\\nSETTINGS index_granularity = 8192" ) assert_create_query( [main_node, competing_node], "alters_from_different_replicas.concurrent_test", expected, ) # test_create_replica_after_delay main_node.query("DROP TABLE alters_from_different_replicas.concurrent_test SYNC") main_node.query( "CREATE TABLE alters_from_different_replicas.concurrent_test " "(CounterID UInt32, StartDate Date, UserID UInt32, VisitID UInt32, NestedColumn Nested(A UInt8, S String), ToDrop UInt32) " "ENGINE = ReplicatedMergeTree ORDER BY CounterID;" ) expected = ( "CREATE TABLE alters_from_different_replicas.concurrent_test\\n(\\n `CounterID` UInt32,\\n `StartDate` Date,\\n `UserID` UInt32,\\n" " `VisitID` UInt32,\\n `NestedColumn.A` Array(UInt8),\\n `NestedColumn.S` Array(String),\\n `ToDrop` UInt32\\n)\\n" "ENGINE = ReplicatedMergeTree(\\'/clickhouse/tables/{uuid}/{shard}\\', \\'{replica}\\')\\nORDER BY CounterID\\nSETTINGS index_granularity = 8192" ) assert_create_query( [main_node, competing_node], "alters_from_different_replicas.concurrent_test", expected, ) main_node.query( "INSERT INTO alters_from_different_replicas.dist (CounterID, StartDate, UserID) SELECT number, addDays(toDate('2020-02-02'), number), intHash32(number) FROM numbers(10)" ) # test_replica_restart main_node.restart_clickhouse() expected = ( "CREATE TABLE alters_from_different_replicas.concurrent_test\\n(\\n `CounterID` UInt32,\\n `StartDate` Date,\\n `UserID` UInt32,\\n" " `VisitID` UInt32,\\n `NestedColumn.A` Array(UInt8),\\n `NestedColumn.S` Array(String),\\n `ToDrop` UInt32\\n)\\n" "ENGINE = ReplicatedMergeTree(\\'/clickhouse/tables/{uuid}/{shard}\\', \\'{replica}\\')\\nORDER BY CounterID\\nSETTINGS index_granularity = 8192" ) # test_snapshot_and_snapshot_recover snapshotting_node.query( "CREATE DATABASE alters_from_different_replicas ENGINE = Replicated('/test/alters_from_different_replicas', 'shard2', 'replica1');" ) snapshot_recovering_node.query( "CREATE DATABASE alters_from_different_replicas ENGINE = Replicated('/test/alters_from_different_replicas', 'shard2', 'replica2');" ) assert_create_query( all_nodes, "alters_from_different_replicas.concurrent_test", expected ) main_node.query("SYSTEM FLUSH DISTRIBUTED alters_from_different_replicas.dist") main_node.query( "ALTER TABLE alters_from_different_replicas.concurrent_test UPDATE StartDate = addYears(StartDate, 1) WHERE 1" ) res = main_node.query( "ALTER TABLE alters_from_different_replicas.concurrent_test DELETE WHERE UserID % 2" ) assert ( "shard1\treplica1\tOK" in res and "shard1\treplica2\tOK" in res and "shard1\treplica3\tOK" in res ) assert "shard2\treplica1\tOK" in res and "shard2\treplica2\tOK" in res expected = ( "1\t1\tmain_node\n" "1\t2\tdummy_node\n" "1\t3\tcompeting_node\n" "2\t1\tsnapshotting_node\n" "2\t2\tsnapshot_recovering_node\n" ) assert ( main_node.query( "SELECT shard_num, replica_num, host_name FROM system.clusters WHERE cluster='alters_from_different_replicas'" ) == expected ) # test_drop_and_create_replica main_node.query("DROP DATABASE alters_from_different_replicas SYNC") main_node.query( "CREATE DATABASE alters_from_different_replicas ENGINE = Replicated('/test/alters_from_different_replicas', 'shard1', 'replica1');" ) expected = ( "CREATE TABLE alters_from_different_replicas.concurrent_test\\n(\\n `CounterID` UInt32,\\n `StartDate` Date,\\n `UserID` UInt32,\\n" " `VisitID` UInt32,\\n `NestedColumn.A` Array(UInt8),\\n `NestedColumn.S` Array(String),\\n `ToDrop` UInt32\\n)\\n" "ENGINE = ReplicatedMergeTree(\\'/clickhouse/tables/{uuid}/{shard}\\', \\'{replica}\\')\\nORDER BY CounterID\\nSETTINGS index_granularity = 8192" ) assert_create_query( [main_node, competing_node], "alters_from_different_replicas.concurrent_test", expected, ) assert_create_query( all_nodes, "alters_from_different_replicas.concurrent_test", expected ) for node in all_nodes: node.query("SYSTEM SYNC REPLICA alters_from_different_replicas.concurrent_test") expected = ( "0\t2021-02-02\t4249604106\n" "1\t2021-02-03\t1343103100\n" "4\t2021-02-06\t3902320246\n" "7\t2021-02-09\t3844986530\n" "9\t2021-02-11\t1241149650\n" ) assert_eq_with_retry( dummy_node, "SELECT CounterID, StartDate, UserID FROM alters_from_different_replicas.dist ORDER BY CounterID", expected, ) main_node.query("DROP DATABASE alters_from_different_replicas SYNC") dummy_node.query("DROP DATABASE alters_from_different_replicas SYNC") competing_node.query("DROP DATABASE alters_from_different_replicas SYNC") snapshotting_node.query("DROP DATABASE alters_from_different_replicas SYNC") snapshot_recovering_node.query("DROP DATABASE alters_from_different_replicas SYNC") def create_some_tables(db): settings = { "distributed_ddl_task_timeout": 0, "allow_experimental_object_type": 1, "allow_suspicious_codecs": 1, } main_node.query(f"CREATE TABLE {db}.t1 (n int) ENGINE=Memory", settings=settings) dummy_node.query( f"CREATE TABLE {db}.t2 (s String) ENGINE=Memory", settings=settings ) main_node.query( f"CREATE TABLE {db}.mt1 (n int) ENGINE=MergeTree order by n", settings=settings, ) dummy_node.query( f"CREATE TABLE {db}.mt2 (n int) ENGINE=MergeTree order by n", settings=settings, ) main_node.query( f"CREATE TABLE {db}.rmt1 (n int) ENGINE=ReplicatedMergeTree order by n", settings=settings, ) dummy_node.query( f"CREATE TABLE {db}.rmt2 (n int CODEC(ZSTD, ZSTD, ZSTD(12), LZ4HC(12))) ENGINE=ReplicatedMergeTree order by n", settings=settings, ) main_node.query( f"CREATE TABLE {db}.rmt3 (n int, json Object('json') materialized '') ENGINE=ReplicatedMergeTree order by n", settings=settings, ) dummy_node.query( f"CREATE TABLE {db}.rmt5 (n int) ENGINE=ReplicatedMergeTree order by n", settings=settings, ) main_node.query( f"CREATE MATERIALIZED VIEW {db}.mv1 (n int) ENGINE=ReplicatedMergeTree order by n AS SELECT n FROM recover.rmt1", settings=settings, ) dummy_node.query( f"CREATE MATERIALIZED VIEW {db}.mv2 (n int) ENGINE=ReplicatedMergeTree order by n AS SELECT n FROM recover.rmt2", settings=settings, ) main_node.query( f"CREATE DICTIONARY {db}.d1 (n int DEFAULT 0, m int DEFAULT 1) PRIMARY KEY n " "SOURCE(CLICKHOUSE(HOST 'localhost' PORT 9000 USER 'default' TABLE 'rmt1' PASSWORD '' DB 'recover')) " "LIFETIME(MIN 1 MAX 10) LAYOUT(FLAT())" ) dummy_node.query( f"CREATE DICTIONARY {db}.d2 (n int DEFAULT 0, m int DEFAULT 1) PRIMARY KEY n " "SOURCE(CLICKHOUSE(HOST 'localhost' PORT 9000 USER 'default' TABLE 'rmt2' PASSWORD '' DB 'recover')) " "LIFETIME(MIN 1 MAX 10) LAYOUT(FLAT())" ) # These tables are used to check that DatabaseReplicated correctly renames all the tables in case when it restores from the lost state def create_table_for_exchanges(db): settings = {"distributed_ddl_task_timeout": 0} for table in ["a1", "a2", "a3", "a4", "a5", "a6"]: main_node.query( f"CREATE TABLE {db}.{table} (s String) ENGINE=ReplicatedMergeTree order by s", settings=settings, ) def test_recover_staled_replica(started_cluster): main_node.query( "CREATE DATABASE recover ENGINE = Replicated('/clickhouse/databases/recover', 'shard1', 'replica1');" ) started_cluster.get_kazoo_client("zoo1").set( "/clickhouse/databases/recover/logs_to_keep", b"10" ) dummy_node.query( "CREATE DATABASE recover ENGINE = Replicated('/clickhouse/databases/recover', 'shard1', 'replica2');" ) settings = {"distributed_ddl_task_timeout": 0} create_some_tables("recover") create_table_for_exchanges("recover") for table in ["t1", "t2", "mt1", "mt2", "rmt1", "rmt2", "rmt3", "rmt5"]: main_node.query(f"INSERT INTO recover.{table} VALUES (42)") for table in ["t1", "t2", "mt1", "mt2"]: dummy_node.query(f"INSERT INTO recover.{table} VALUES (42)") for i, table in enumerate(["a1", "a2", "a3", "a4", "a5", "a6"]): main_node.query(f"INSERT INTO recover.{table} VALUES ('{str(i + 1) * 10}')") for table in ["rmt1", "rmt2", "rmt3", "rmt5"]: main_node.query(f"SYSTEM SYNC REPLICA recover.{table}") for table in ["a1", "a2", "a3", "a4", "a5", "a6"]: main_node.query(f"SYSTEM SYNC REPLICA recover.{table}") with PartitionManager() as pm: pm.drop_instance_zk_connections(dummy_node) dummy_node.query_and_get_error("RENAME TABLE recover.t1 TO recover.m1") main_node.query_with_retry( "RENAME TABLE recover.t1 TO recover.m1", settings=settings ) main_node.query_with_retry( "ALTER TABLE recover.mt1 ADD COLUMN m int", settings=settings ) main_node.query_with_retry( "ALTER TABLE recover.rmt1 ADD COLUMN m int", settings=settings ) main_node.query_with_retry( "RENAME TABLE recover.rmt3 TO recover.rmt4", settings=settings ) main_node.query_with_retry("DROP TABLE recover.rmt5", settings=settings) main_node.query_with_retry("DROP DICTIONARY recover.d2", settings=settings) main_node.query_with_retry( "CREATE DICTIONARY recover.d2 (n int DEFAULT 0, m int DEFAULT 1) PRIMARY KEY n " "SOURCE(CLICKHOUSE(HOST 'localhost' PORT 9000 USER 'default' TABLE 'rmt1' PASSWORD '' DB 'recover')) " "LIFETIME(MIN 1 MAX 10) LAYOUT(FLAT());", settings=settings, ) inner_table = ( ".inner_id." + dummy_node.query_with_retry( "SELECT uuid FROM system.tables WHERE database='recover' AND name='mv1'" ).strip() ) main_node.query_with_retry( f"ALTER TABLE recover.`{inner_table}` MODIFY COLUMN n int DEFAULT 42", settings=settings, ) main_node.query_with_retry( "ALTER TABLE recover.mv1 MODIFY QUERY SELECT m FROM recover.rmt1", settings=settings, ) main_node.query_with_retry( "RENAME TABLE recover.mv2 TO recover.mv3", settings=settings, ) main_node.query_with_retry( "CREATE TABLE recover.tmp AS recover.m1", settings=settings ) main_node.query_with_retry("DROP TABLE recover.tmp", settings=settings) main_node.query_with_retry( "CREATE TABLE recover.tmp AS recover.m1", settings=settings ) main_node.query_with_retry("DROP TABLE recover.tmp", settings=settings) main_node.query_with_retry( "CREATE TABLE recover.tmp AS recover.m1", settings=settings ) main_node.query("EXCHANGE TABLES recover.a1 AND recover.a2", settings=settings) main_node.query("EXCHANGE TABLES recover.a3 AND recover.a4", settings=settings) main_node.query("EXCHANGE TABLES recover.a5 AND recover.a4", settings=settings) main_node.query("EXCHANGE TABLES recover.a6 AND recover.a3", settings=settings) main_node.query("RENAME TABLE recover.a6 TO recover.a7", settings=settings) main_node.query("RENAME TABLE recover.a1 TO recover.a8", settings=settings) assert ( main_node.query( "SELECT name FROM system.tables WHERE database='recover' AND name NOT LIKE '.inner_id.%' ORDER BY name" ) == "a2\na3\na4\na5\na7\na8\nd1\nd2\nm1\nmt1\nmt2\nmv1\nmv3\nrmt1\nrmt2\nrmt4\nt2\ntmp\n" ) query = ( "SELECT name, uuid, create_table_query FROM system.tables WHERE database='recover' AND name NOT LIKE '.inner_id.%' " "ORDER BY name SETTINGS show_table_uuid_in_table_create_query_if_not_nil=1" ) expected = main_node.query(query) assert_eq_with_retry(dummy_node, query, expected) assert ( main_node.query( "SELECT count() FROM system.tables WHERE database='recover' AND name LIKE '.inner_id.%'" ) == "2\n" ) assert ( dummy_node.query( "SELECT count() FROM system.tables WHERE database='recover' AND name LIKE '.inner_id.%'" ) == "2\n" ) # Check that Database Replicated renamed all the tables correctly for i, table in enumerate(["a2", "a8", "a5", "a7", "a4", "a3"]): assert ( dummy_node.query(f"SELECT * FROM recover.{table}") == f"{str(i + 1) * 10}\n" ) for table in [ "m1", "t2", "mt1", "mt2", "rmt1", "rmt2", "rmt4", "d1", "d2", "mv1", "mv3", ]: assert main_node.query(f"SELECT (*,).1 FROM recover.{table}") == "42\n" for table in ["t2", "rmt1", "rmt2", "rmt4", "d1", "d2", "mt2", "mv1", "mv3"]: assert ( dummy_node.query(f"SELECT '{table}', (*,).1 FROM recover.{table}") == f"{table}\t42\n" ) for table in ["m1", "mt1"]: assert dummy_node.query(f"SELECT count() FROM recover.{table}") == "0\n" global test_recover_staled_replica_run assert ( dummy_node.query( "SELECT count() FROM system.tables WHERE database='recover_broken_tables'" ) == f"{test_recover_staled_replica_run}\n" ) assert ( dummy_node.query( "SELECT count() FROM system.tables WHERE database='recover_broken_replicated_tables'" ) == f"{test_recover_staled_replica_run}\n" ) test_recover_staled_replica_run += 1 print(dummy_node.query("SHOW DATABASES")) print(dummy_node.query("SHOW TABLES FROM recover_broken_tables")) print(dummy_node.query("SHOW TABLES FROM recover_broken_replicated_tables")) table = dummy_node.query( "SHOW TABLES FROM recover_broken_tables LIKE 'mt1_41_%' LIMIT 1" ).strip() assert ( dummy_node.query(f"SELECT (*,).1 FROM recover_broken_tables.{table}") == "42\n" ) table = dummy_node.query( "SHOW TABLES FROM recover_broken_replicated_tables LIKE 'rmt5_41_%' LIMIT 1" ).strip() assert ( dummy_node.query(f"SELECT (*,).1 FROM recover_broken_replicated_tables.{table}") == "42\n" ) expected = "Cleaned 6 outdated objects: dropped 1 dictionaries and 3 tables, moved 2 tables" assert_logs_contain(dummy_node, expected) dummy_node.query("DROP TABLE recover.tmp") assert_eq_with_retry( main_node, "SELECT count() FROM system.tables WHERE database='recover' AND name='tmp'", "0\n", ) main_node.query("DROP DATABASE recover SYNC") dummy_node.query("DROP DATABASE recover SYNC") def test_recover_staled_replica_many_mvs(started_cluster): main_node.query("DROP DATABASE IF EXISTS recover_mvs") dummy_node.query("DROP DATABASE IF EXISTS recover_mvs") main_node.query_with_retry( "CREATE DATABASE IF NOT EXISTS recover_mvs ENGINE = Replicated('/clickhouse/databases/recover_mvs', 'shard1', 'replica1');" ) started_cluster.get_kazoo_client("zoo1").set( "/clickhouse/databases/recover_mvs/logs_to_keep", b"10" ) dummy_node.query_with_retry( "CREATE DATABASE IF NOT EXISTS recover_mvs ENGINE = Replicated('/clickhouse/databases/recover_mvs', 'shard1', 'replica2');" ) settings = {"distributed_ddl_task_timeout": 0} with PartitionManager() as pm: pm.drop_instance_zk_connections(dummy_node) dummy_node.query_and_get_error("RENAME TABLE recover_mvs.t1 TO recover_mvs.m1") for identifier in ["1", "2", "3", "4"]: main_node.query( f"CREATE TABLE recover_mvs.rmt{identifier} (n int) ENGINE=ReplicatedMergeTree ORDER BY n", settings=settings, ) print("Created tables") for identifier in ["1", "2", "3", "4"]: main_node.query( f"CREATE TABLE recover_mvs.mv_inner{identifier} (n int) ENGINE=ReplicatedMergeTree ORDER BY n", settings=settings, ) for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE MATERIALIZED VIEW recover_mvs.mv{identifier} TO recover_mvs.mv_inner{identifier} AS SELECT * FROM recover_mvs.rmt{identifier}""", settings=settings, ) print("Created MVs") for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE VIEW recover_mvs.view_from_mv{identifier} AS SELECT * FROM recover_mvs.mv{identifier}""", settings=settings, ) print("Created Views on top of MVs") for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE MATERIALIZED VIEW recover_mvs.cascade_mv{identifier} ENGINE=MergeTree() ORDER BY tuple() POPULATE AS SELECT * FROM recover_mvs.mv_inner{identifier};""", settings=settings, ) print("Created cascade MVs") for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE VIEW recover_mvs.view_from_cascade_mv{identifier} AS SELECT * FROM recover_mvs.cascade_mv{identifier}""", settings=settings, ) print("Created Views on top of cascade MVs") for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE MATERIALIZED VIEW recover_mvs.double_cascade_mv{identifier} ENGINE=MergeTree() ORDER BY tuple() POPULATE AS SELECT * FROM recover_mvs.`.inner_id.{get_table_uuid("recover_mvs", f"cascade_mv{identifier}")}`""", settings=settings, ) print("Created double cascade MVs") for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE VIEW recover_mvs.view_from_double_cascade_mv{identifier} AS SELECT * FROM recover_mvs.double_cascade_mv{identifier}""", settings=settings, ) print("Created Views on top of double cascade MVs") # This weird table name is actually makes sence because it starts with letter `a` and may break some internal sorting main_node.query_with_retry( """ CREATE VIEW recover_mvs.anime AS SELECT n FROM ( SELECT * FROM ( SELECT * FROM ( SELECT * FROM recover_mvs.mv_inner1 AS q1 INNER JOIN recover_mvs.mv_inner2 AS q2 ON q1.n = q2.n ) AS new_table_1 INNER JOIN recover_mvs.mv_inner3 AS q3 ON new_table_1.n = q3.n ) AS new_table_2 INNER JOIN recover_mvs.mv_inner4 AS q4 ON new_table_2.n = q4.n ) """, settings=settings, ) print("Created final boss") for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE DICTIONARY recover_mvs.`11111d{identifier}` (n UInt64) PRIMARY KEY n SOURCE(CLICKHOUSE(HOST 'localhost' PORT tcpPort() TABLE 'double_cascade_mv{identifier}' DB 'recover_mvs')) LAYOUT(FLAT()) LIFETIME(1)""", settings=settings, ) print("Created dictionaries") for identifier in ["1", "2", "3", "4"]: main_node.query_with_retry( f"""CREATE VIEW recover_mvs.`00000vd{identifier}` AS SELECT * FROM recover_mvs.`11111d{identifier}`""", settings=settings, ) print("Created Views on top of dictionaries") dummy_node.query("SYSTEM SYNC DATABASE REPLICA recover_mvs") query = "SELECT name FROM system.tables WHERE database='recover_mvs' ORDER BY name" assert main_node.query(query) == dummy_node.query(query) main_node.query("DROP DATABASE IF EXISTS recover_mvs") dummy_node.query("DROP DATABASE IF EXISTS recover_mvs") def test_startup_without_zk(started_cluster): with PartitionManager() as pm: pm.drop_instance_zk_connections(main_node) err = main_node.query_and_get_error( "CREATE DATABASE startup ENGINE = Replicated('/clickhouse/databases/startup', 'shard1', 'replica1');" ) assert "ZooKeeper" in err main_node.query( "CREATE DATABASE startup ENGINE = Replicated('/clickhouse/databases/startup', 'shard1', 'replica1');" ) main_node.query( "CREATE TABLE startup.rmt (n int) ENGINE=ReplicatedMergeTree order by n" ) main_node.query("INSERT INTO startup.rmt VALUES (42)") with PartitionManager() as pm: pm.drop_instance_zk_connections(main_node) main_node.restart_clickhouse(stop_start_wait_sec=60) assert main_node.query("SELECT (*,).1 FROM startup.rmt") == "42\n" # we need to wait until the table is not readonly main_node.query_with_retry("INSERT INTO startup.rmt VALUES(42)") main_node.query_with_retry("CREATE TABLE startup.m (n int) ENGINE=Memory") main_node.query("EXCHANGE TABLES startup.rmt AND startup.m") assert main_node.query("SELECT (*,).1 FROM startup.m") == "42\n" main_node.query("DROP DATABASE startup SYNC") def test_server_uuid(started_cluster): uuid1 = main_node.query("select serverUUID()") uuid2 = dummy_node.query("select serverUUID()") assert uuid1 != uuid2 main_node.restart_clickhouse() uuid1_after_restart = main_node.query("select serverUUID()") assert uuid1 == uuid1_after_restart def test_sync_replica(started_cluster): main_node.query( "CREATE DATABASE test_sync_database ENGINE = Replicated('/test/sync_replica', 'shard1', 'replica1');" ) dummy_node.query( "CREATE DATABASE test_sync_database ENGINE = Replicated('/test/sync_replica', 'shard1', 'replica2');" ) number_of_tables = 1000 settings = {"distributed_ddl_task_timeout": 0} with PartitionManager() as pm: pm.drop_instance_zk_connections(dummy_node) for i in range(number_of_tables): main_node.query( "CREATE TABLE test_sync_database.table_{} (n int) ENGINE=MergeTree order by n".format( i ), settings=settings, ) # wait for host to reconnect dummy_node.query_with_retry("SELECT * FROM system.zookeeper WHERE path='/'") dummy_node.query("SYSTEM SYNC DATABASE REPLICA test_sync_database") assert dummy_node.query( "SELECT count() FROM system.tables where database='test_sync_database'" ).strip() == str(number_of_tables) assert main_node.query( "SELECT count() FROM system.tables where database='test_sync_database'" ).strip() == str(number_of_tables) engine_settings = {"default_table_engine": "ReplicatedMergeTree"} dummy_node.query( "CREATE TABLE test_sync_database.table (n int, primary key n) partition by n", settings=engine_settings, ) main_node.query("INSERT INTO test_sync_database.table SELECT * FROM numbers(10)") dummy_node.query("TRUNCATE TABLE test_sync_database.table", settings=settings) dummy_node.query( "ALTER TABLE test_sync_database.table ADD COLUMN m int", settings=settings ) main_node.query( "SYSTEM SYNC DATABASE REPLICA ON CLUSTER test_sync_database test_sync_database" ) lp1 = main_node.query( "select value from system.zookeeper where path='/test/sync_replica/replicas/shard1|replica1' and name='log_ptr'" ) lp2 = main_node.query( "select value from system.zookeeper where path='/test/sync_replica/replicas/shard1|replica2' and name='log_ptr'" ) max_lp = main_node.query( "select value from system.zookeeper where path='/test/sync_replica/' and name='max_log_ptr'" ) assert lp1 == max_lp assert lp2 == max_lp main_node.query("DROP DATABASE test_sync_database SYNC") dummy_node.query("DROP DATABASE test_sync_database SYNC") def test_force_synchronous_settings(started_cluster): main_node.query( "CREATE DATABASE test_force_synchronous_settings ENGINE = Replicated('/clickhouse/databases/test2', 'shard1', 'replica1');" ) dummy_node.query( "CREATE DATABASE test_force_synchronous_settings ENGINE = Replicated('/clickhouse/databases/test2', 'shard1', 'replica2');" ) snapshotting_node.query( "CREATE DATABASE test_force_synchronous_settings ENGINE = Replicated('/clickhouse/databases/test2', 'shard2', 'replica1');" ) main_node.query( "CREATE TABLE test_force_synchronous_settings.t (n int) ENGINE=ReplicatedMergeTree('/test/same/path/{shard}', '{replica}') ORDER BY tuple()" ) main_node.query( "INSERT INTO test_force_synchronous_settings.t SELECT * FROM numbers(10)" ) snapshotting_node.query( "INSERT INTO test_force_synchronous_settings.t SELECT * FROM numbers(10)" ) snapshotting_node.query( "SYSTEM SYNC DATABASE REPLICA test_force_synchronous_settings" ) dummy_node.query("SYSTEM SYNC DATABASE REPLICA test_force_synchronous_settings") snapshotting_node.query("SYSTEM STOP MERGES test_force_synchronous_settings.t") def start_merges_func(): time.sleep(5) snapshotting_node.query("SYSTEM START MERGES test_force_synchronous_settings.t") start_merges_thread = threading.Thread(target=start_merges_func) start_merges_thread.start() settings = { "mutations_sync": 2, "database_replicated_enforce_synchronous_settings": 1, } main_node.query( "ALTER TABLE test_force_synchronous_settings.t UPDATE n = n * 10 WHERE 1", settings=settings, ) assert "10\t450\n" == snapshotting_node.query( "SELECT count(), sum(n) FROM test_force_synchronous_settings.t" ) start_merges_thread.join() def select_func(): dummy_node.query( "SELECT sleepEachRow(1) FROM test_force_synchronous_settings.t SETTINGS function_sleep_max_microseconds_per_block = 0" ) select_thread = threading.Thread(target=select_func) select_thread.start() settings = {"database_replicated_enforce_synchronous_settings": 1} snapshotting_node.query( "DROP TABLE test_force_synchronous_settings.t SYNC", settings=settings ) main_node.query( "CREATE TABLE test_force_synchronous_settings.t (n String) ENGINE=ReplicatedMergeTree('/test/same/path/{shard}', '{replica}') ORDER BY tuple()" ) select_thread.join() def test_recover_digest_mismatch(started_cluster): main_node.query("DROP DATABASE IF EXISTS recover_digest_mismatch") dummy_node.query("DROP DATABASE IF EXISTS recover_digest_mismatch") main_node.query( "CREATE DATABASE recover_digest_mismatch ENGINE = Replicated('/clickhouse/databases/recover_digest_mismatch', 'shard1', 'replica1');" ) dummy_node.query( "CREATE DATABASE recover_digest_mismatch ENGINE = Replicated('/clickhouse/databases/recover_digest_mismatch', 'shard1', 'replica2');" ) create_some_tables("recover_digest_mismatch") main_node.query("SYSTEM SYNC DATABASE REPLICA recover_digest_mismatch") dummy_node.query("SYSTEM SYNC DATABASE REPLICA recover_digest_mismatch") ways_to_corrupt_metadata = [ "mv /var/lib/clickhouse/metadata/recover_digest_mismatch/t1.sql /var/lib/clickhouse/metadata/recover_digest_mismatch/m1.sql", "sed --follow-symlinks -i 's/Int32/String/' /var/lib/clickhouse/metadata/recover_digest_mismatch/mv1.sql", "rm -f /var/lib/clickhouse/metadata/recover_digest_mismatch/d1.sql", "rm -rf /var/lib/clickhouse/metadata/recover_digest_mismatch/", # Will trigger "Directory already exists" "rm -rf /var/lib/clickhouse/store", ] for command in ways_to_corrupt_metadata: print(f"Corrupting data using `{command}`") need_remove_is_active_node = "rm -rf" in command dummy_node.stop_clickhouse(kill=not need_remove_is_active_node) dummy_node.exec_in_container(["bash", "-c", command]) query = ( "SELECT name, uuid, create_table_query FROM system.tables WHERE database='recover_digest_mismatch' AND name NOT LIKE '.inner_id.%' " "ORDER BY name SETTINGS show_table_uuid_in_table_create_query_if_not_nil=1" ) expected = main_node.query(query) if need_remove_is_active_node: # NOTE Otherwise it fails to recreate ReplicatedMergeTree table due to "Replica already exists" main_node.query( "SYSTEM DROP REPLICA '2' FROM DATABASE recover_digest_mismatch" ) # There is a race condition between deleting active node and creating it on server startup # So we start a server only after we deleted all table replicas from the Keeper dummy_node.start_clickhouse() assert_eq_with_retry(dummy_node, query, expected) main_node.query("DROP DATABASE IF EXISTS recover_digest_mismatch") dummy_node.query("DROP DATABASE IF EXISTS recover_digest_mismatch") print("Everything Okay") def test_replicated_table_structure_alter(started_cluster): main_node.query("DROP DATABASE IF EXISTS table_structure") dummy_node.query("DROP DATABASE IF EXISTS table_structure") main_node.query( "CREATE DATABASE table_structure ENGINE = Replicated('/clickhouse/databases/table_structure', 'shard1', 'replica1');" ) dummy_node.query( "CREATE DATABASE table_structure ENGINE = Replicated('/clickhouse/databases/table_structure', 'shard1', 'replica2');" ) competing_node.query( "CREATE DATABASE table_structure ENGINE = Replicated('/clickhouse/databases/table_structure', 'shard1', 'replica3');" ) competing_node.query("CREATE TABLE table_structure.mem (n int) ENGINE=Memory") dummy_node.query("DETACH DATABASE table_structure") settings = {"distributed_ddl_task_timeout": 0} main_node.query( "CREATE TABLE table_structure.rmt (n int, v UInt64) ENGINE=ReplicatedReplacingMergeTree(v) ORDER BY n", settings=settings, ) competing_node.query("SYSTEM SYNC DATABASE REPLICA table_structure") competing_node.query("DETACH DATABASE table_structure") main_node.query( "ALTER TABLE table_structure.rmt ADD COLUMN m int", settings=settings ) main_node.query( "ALTER TABLE table_structure.rmt COMMENT COLUMN v 'version'", settings=settings ) main_node.query("INSERT INTO table_structure.rmt VALUES (1, 2, 3)") command = "rm -f /var/lib/clickhouse/metadata/table_structure/mem.sql" competing_node.exec_in_container(["bash", "-c", command]) competing_node.restart_clickhouse(kill=True) dummy_node.query("ATTACH DATABASE table_structure") dummy_node.query("SYSTEM SYNC DATABASE REPLICA table_structure") dummy_node.query("SYSTEM SYNC REPLICA table_structure.rmt") assert "1\t2\t3\n" == dummy_node.query("SELECT * FROM table_structure.rmt") competing_node.query("SYSTEM SYNC DATABASE REPLICA table_structure") competing_node.query("SYSTEM SYNC REPLICA table_structure.rmt") # time.sleep(600) assert "mem" in competing_node.query("SHOW TABLES FROM table_structure") assert "1\t2\t3\n" == competing_node.query("SELECT * FROM table_structure.rmt") main_node.query("ALTER TABLE table_structure.rmt ADD COLUMN k int") main_node.query("INSERT INTO table_structure.rmt VALUES (1, 2, 3, 4)") dummy_node.query("SYSTEM SYNC DATABASE REPLICA table_structure") dummy_node.query("SYSTEM SYNC REPLICA table_structure.rmt") assert "1\t2\t3\t0\n1\t2\t3\t4\n" == dummy_node.query( "SELECT * FROM table_structure.rmt ORDER BY k" )