import random import string import threading import time from multiprocessing.dummy import Pool from helpers.test_tools import assert_logs_contain_with_retry import pytest from helpers.client import QueryRuntimeException from helpers.cluster import ClickHouseCluster # FIXME: each sleep(1) is a time bomb, and not only this cause false positive # it also makes the test not reliable (i.e. assertions may be wrong, due timing issues) # Seems that some SYSTEM query should be added to wait those things insteadof sleep. cluster = ClickHouseCluster(__file__) node1 = cluster.add_instance('node1', main_configs=['configs/logs_config.xml', "configs/config.d/instant_moves.xml", "configs/config.d/storage_configuration.xml", "configs/config.d/cluster.xml", ], with_zookeeper=True, tmpfs=['/jbod1:size=40M', '/jbod2:size=40M', '/external:size=200M'], macros={"shard": 0, "replica": 1}) node2 = cluster.add_instance('node2', main_configs=['configs/logs_config.xml', "configs/config.d/instant_moves.xml", "configs/config.d/storage_configuration.xml", "configs/config.d/cluster.xml", ], with_zookeeper=True, tmpfs=['/jbod1:size=40M', '/jbod2:size=40M', '/external:size=200M'], macros={"shard": 0, "replica": 2}) @pytest.fixture(scope="module") def started_cluster(): try: cluster.start() yield cluster finally: cluster.shutdown() def get_used_disks_for_table(node, table_name, partition=None): if partition is None: suffix = "" else: suffix = "and partition='{}'".format(partition) return node.query(""" SELECT disk_name FROM system.parts WHERE table == '{name}' AND active=1 {suffix} ORDER BY modification_time """.format(name=table_name, suffix=suffix)).strip().split('\n') def check_used_disks_with_retry(node, table_name, expected_disks, retries): for _ in range(retries): used_disks = get_used_disks_for_table(node, table_name) if set(used_disks).issubset(expected_disks): return True time.sleep(0.5) return False # Use unique table name for flaky checker, that run tests multiple times def unique_table_name(base_name): return f'{base_name}_{int(time.time())}' def wait_parts_mover(node, table, *args, **kwargs): # wait for MergeTreePartsMover assert_logs_contain_with_retry(node, f'default.{table}.*Removed part from old location', *args, **kwargs) @pytest.mark.parametrize("name,engine,alter", [ ("mt_test_rule_with_invalid_destination", "MergeTree()", 0), ("replicated_mt_test_rule_with_invalid_destination", "ReplicatedMergeTree('/clickhouse/replicated_test_rule_with_invalid_destination', '1')", 0), ("mt_test_rule_with_invalid_destination", "MergeTree()", 1), ("replicated_mt_test_rule_with_invalid_destination", "ReplicatedMergeTree('/clickhouse/replicated_test_rule_with_invalid_destination', '1')", 1), ]) def test_rule_with_invalid_destination(started_cluster, name, engine, alter): name = unique_table_name(name) try: def get_command(x, policy): x = x or "" if alter and x: return """ ALTER TABLE {name} MODIFY TTL {expression} """.format(expression=x, name=name) else: return """ CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() {expression} SETTINGS storage_policy='{policy}' """.format(expression=x, name=name, engine=engine, policy=policy) if alter: node1.query(get_command(None, "small_jbod_with_external")) with pytest.raises(QueryRuntimeException): node1.query(get_command("TTL d1 TO DISK 'unknown'", "small_jbod_with_external")) node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) if alter: node1.query(get_command(None, "small_jbod_with_external")) with pytest.raises(QueryRuntimeException): node1.query(get_command("TTL d1 TO VOLUME 'unknown'", "small_jbod_with_external")) node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) if alter: node1.query(get_command(None, "only_jbod2")) with pytest.raises(QueryRuntimeException): node1.query(get_command("TTL d1 TO DISK 'jbod1'", "only_jbod2")) node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) if alter: node1.query(get_command(None, "only_jbod2")) with pytest.raises(QueryRuntimeException): node1.query(get_command("TTL d1 TO VOLUME 'external'", "only_jbod2")) finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine,positive", [ ("mt_test_inserts_to_disk_do_not_work", "MergeTree()", 0), ("replicated_mt_test_inserts_to_disk_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_inserts_to_disk_do_not_work', '1')", 0), ("mt_test_inserts_to_disk_work", "MergeTree()", 1), ("replicated_mt_test_inserts_to_disk_work", "ReplicatedMergeTree('/clickhouse/replicated_test_inserts_to_disk_work', '1')", 1), ]) def test_inserts_to_disk_work(started_cluster, name, engine, positive): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'external' SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) data = [] # 10MB in total for i in range(10): data.append(("randomPrintableASCII(1024*1024)", "toDateTime({})".format( time.time() - 1 if i > 0 or positive else time.time() + 300))) node1.query("INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external" if positive else "jbod1"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" finally: try: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) except: pass @pytest.mark.parametrize("name,engine", [ ("mt_test_moves_work_after_storage_policy_change", "MergeTree()"), ("replicated_mt_test_moves_work_after_storage_policy_change", "ReplicatedMergeTree('/clickhouse/test_moves_work_after_storage_policy_change', '1')"), ]) def test_moves_work_after_storage_policy_change(started_cluster, name, engine): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() """.format(name=name, engine=engine)) node1.query( """ALTER TABLE {name} MODIFY SETTING storage_policy='default_with_small_jbod_with_external'""".format( name=name)) # Second expression is preferred because d1 > now()-3600. node1.query( """ALTER TABLE {name} MODIFY TTL now()-3600 TO DISK 'jbod1', d1 TO DISK 'external'""".format(name=name)) wait_expire_1 = 12 wait_expire_2 = 4 time_1 = time.time() + wait_expire_1 data = [] # 10MB in total for i in range(10): data.append(("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time_1))) node1.query("INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} wait_parts_mover(node1, name, retry_count=40) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine,positive", [ ("mt_test_moves_to_disk_do_not_work", "MergeTree()", 0), ("replicated_mt_test_moves_to_disk_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_to_disk_do_not_work', '1')", 0), ("mt_test_moves_to_disk_work", "MergeTree()", 1), ("replicated_mt_test_moves_to_disk_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_to_disk_work', '1')", 1), ]) def test_moves_to_disk_work(started_cluster, name, engine, positive): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'external' SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) wait_expire_1 = 12 wait_expire_2 = 20 time_1 = time.time() + wait_expire_1 time_2 = time.time() + wait_expire_1 + wait_expire_2 wait_expire_1_thread = threading.Thread(target=time.sleep, args=(wait_expire_1,)) wait_expire_1_thread.start() data = [] # 10MB in total for i in range(10): data.append(("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time_1 if i > 0 or positive else time_2))) node1.query("INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} wait_expire_1_thread.join() time.sleep(wait_expire_2 / 2) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external" if positive else "jbod1"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine", [ ("mt_test_moves_to_volume_work", "MergeTree()"), ("replicated_mt_test_moves_to_volume_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_to_volume_work', '1')"), ]) def test_moves_to_volume_work(started_cluster, name, engine): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( p1 Int64, s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() PARTITION BY p1 TTL d1 TO VOLUME 'external' SETTINGS storage_policy='jbods_with_external' """.format(name=name, engine=engine)) wait_expire_1 = 10 time_1 = time.time() + wait_expire_1 for p in range(2): data = [] # 10MB in total for i in range(5): data.append( (str(p), "randomPrintableASCII(1024*1024)", "toDateTime({})".format(time_1))) node1.query( "INSERT INTO {} (p1, s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {'jbod1', 'jbod2'} wait_parts_mover(node1, name, retry_count=40) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine,positive", [ ("mt_test_inserts_to_volume_do_not_work", "MergeTree()", 0), ("replicated_mt_test_inserts_to_volume_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_inserts_to_volume_do_not_work', '1')", 0), ("mt_test_inserts_to_volume_work", "MergeTree()", 1), ("replicated_mt_test_inserts_to_volume_work", "ReplicatedMergeTree('/clickhouse/replicated_test_inserts_to_volume_work', '1')", 1), ]) def test_inserts_to_volume_work(started_cluster, name, engine, positive): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( p1 Int64, s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() PARTITION BY p1 TTL d1 TO VOLUME 'external' SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) node1.query("SYSTEM STOP MOVES {name}".format(name=name)) for p in range(2): data = [] # 20MB in total for i in range(10): data.append((str(p), "randomPrintableASCII(1024*1024)", "toDateTime({})".format( time.time() - 1 if i > 0 or positive else time.time() + 300))) node1.query( "INSERT INTO {} (p1, s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external" if positive else "jbod1"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "20" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine", [ ("mt_test_moves_to_disk_eventually_work", "MergeTree()"), ("replicated_mt_test_moves_to_disk_eventually_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_to_disk_eventually_work', '1')"), ]) def test_moves_to_disk_eventually_work(started_cluster, name, engine): name = unique_table_name(name) try: name_temp = name + "_temp" node1.query(""" CREATE TABLE {name} ( s1 String ) ENGINE = MergeTree() ORDER BY tuple() SETTINGS storage_policy='only_jbod2' """.format(name=name_temp)) data = [] # 35MB in total for i in range(35): data.append("randomPrintableASCII(1024*1024)") node1.query("INSERT INTO {} VALUES {}".format(name_temp, ",".join(["(" + x + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name_temp) assert set(used_disks) == {"jbod2"} node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'jbod2' SETTINGS storage_policy='jbod1_with_jbod2' """.format(name=name, engine=engine)) data = [] # 10MB in total for i in range(10): data.append( ("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time.time() - 1))) node1.query("INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} node1.query("DROP TABLE {} NO DELAY".format(name_temp)) wait_parts_mover(node1, name) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod2"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name_temp)) node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) def test_replicated_download_ttl_info(started_cluster): name = unique_table_name("test_replicated_ttl_info") engine = "ReplicatedMergeTree('/clickhouse/test_replicated_download_ttl_info', '{replica}')" try: for i, node in enumerate((node1, node2), start=1): node.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'external' SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) node1.query("SYSTEM STOP MOVES {}".format(name)) node2.query("INSERT INTO {} (s1, d1) VALUES (randomPrintableASCII(1024*1024), toDateTime({}))".format(name, time.time() - 100)) assert set(get_used_disks_for_table(node2, name)) == {"external"} time.sleep(1) assert node1.query("SELECT count() FROM {}".format(name)).splitlines() == ["1"] assert set(get_used_disks_for_table(node1, name)) == {"external"} finally: for node in (node1, node2): try: node.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) except: continue @pytest.mark.parametrize("name,engine,positive", [ ("mt_test_merges_to_disk_do_not_work", "MergeTree()", 0), ("replicated_mt_test_merges_to_disk_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_merges_to_disk_do_not_work', '1')", 0), ("mt_test_merges_to_disk_work", "MergeTree()", 1), ("replicated_mt_test_merges_to_disk_work", "ReplicatedMergeTree('/clickhouse/replicated_test_merges_to_disk_work', '1')", 1), ]) def test_merges_to_disk_work(started_cluster, name, engine, positive): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'external' SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) node1.query("SYSTEM STOP MERGES {}".format(name)) node1.query("SYSTEM STOP MOVES {}".format(name)) wait_expire_1 = 16 wait_expire_2 = 20 time_1 = time.time() + wait_expire_1 time_2 = time.time() + wait_expire_1 + wait_expire_2 wait_expire_1_thread = threading.Thread(target=time.sleep, args=(wait_expire_1,)) wait_expire_1_thread.start() for _ in range(2): data = [] # 16MB in total for i in range(8): data.append(("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time_1 if i > 0 or positive else time_2))) node1.query( "INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} assert "2" == node1.query( "SELECT count() FROM system.parts WHERE table = '{}' AND active = 1".format(name)).strip() wait_expire_1_thread.join() time.sleep(wait_expire_2 / 2) node1.query("SYSTEM START MERGES {}".format(name)) node1.query("OPTIMIZE TABLE {}".format(name)) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external" if positive else "jbod1"} assert "1" == node1.query( "SELECT count() FROM system.parts WHERE table = '{}' AND active = 1".format(name)).strip() assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "16" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine", [ ("mt_test_merges_with_full_disk_work", "MergeTree()"), ("replicated_mt_test_merges_with_full_disk_work", "ReplicatedMergeTree('/clickhouse/replicated_test_merges_with_full_disk_work', '1')"), ]) def test_merges_with_full_disk_work(started_cluster, name, engine): name = unique_table_name(name) try: name_temp = name + "_temp" node1.query(""" CREATE TABLE {name} ( s1 String ) ENGINE = MergeTree() ORDER BY tuple() SETTINGS storage_policy='only_jbod2' """.format(name=name_temp)) data = [] # 35MB in total for i in range(35): data.append("randomPrintableASCII(1024*1024)") node1.query("INSERT INTO {} VALUES {}".format(name_temp, ",".join(["(" + x + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name_temp) assert set(used_disks) == {"jbod2"} node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'jbod2' SETTINGS storage_policy='jbod1_with_jbod2' """.format(name=name, engine=engine)) wait_expire_1 = 10 time_1 = time.time() + wait_expire_1 wait_expire_1_thread = threading.Thread(target=time.sleep, args=(wait_expire_1,)) wait_expire_1_thread.start() for _ in range(2): data = [] # 12MB in total for i in range(6): data.append(("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time_1))) # 1MB row node1.query( "INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} assert "2" == node1.query( "SELECT count() FROM system.parts WHERE table = '{}' AND active = 1".format(name)).strip() wait_expire_1_thread.join() node1.query("OPTIMIZE TABLE {}".format(name)) time.sleep(1) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} # Merged to the same disk against the rule. assert "1" == node1.query( "SELECT count() FROM system.parts WHERE table = '{}' AND active = 1".format(name)).strip() assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "12" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name_temp)) node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine,positive", [ ("mt_test_moves_after_merges_do_not_work", "MergeTree()", 0), ("replicated_mt_test_moves_after_merges_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_after_merges_do_not_work', '1')", 0), ("mt_test_moves_after_merges_work", "MergeTree()", 1), ("replicated_mt_test_moves_after_merges_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_after_merges_work', '1')", 1), ]) def test_moves_after_merges_work(started_cluster, name, engine, positive): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'external' SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) wait_expire_1 = 16 wait_expire_2 = 20 time_1 = time.time() + wait_expire_1 time_2 = time.time() + wait_expire_1 + wait_expire_2 wait_expire_1_thread = threading.Thread(target=time.sleep, args=(wait_expire_1,)) wait_expire_1_thread.start() for _ in range(2): data = [] # 14MB in total for i in range(7): data.append(("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time_1 if i > 0 or positive else time_2))) # 1MB row node1.query( "INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) node1.query("OPTIMIZE TABLE {}".format(name)) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} assert "1" == node1.query( "SELECT count() FROM system.parts WHERE table = '{}' AND active = 1".format(name)).strip() wait_expire_1_thread.join() time.sleep(wait_expire_2 / 2) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external" if positive else "jbod1"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "14" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine,positive,bar", [ ("mt_test_moves_after_alter_do_not_work", "MergeTree()", 0, "DELETE"), ("replicated_mt_test_moves_after_alter_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_after_alter_do_not_work', '1')", 0, "DELETE"), ("mt_test_moves_after_alter_work", "MergeTree()", 1, "DELETE"), ("replicated_mt_test_moves_after_alter_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_after_alter_work', '1')", 1, "DELETE"), ("mt_test_moves_after_alter_do_not_work", "MergeTree()", 0, "TO DISK 'external'"), ("replicated_mt_test_moves_after_alter_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_after_alter_do_not_work', '1')", 0, "TO DISK 'external'"), ("mt_test_moves_after_alter_work", "MergeTree()", 1, "TO DISK 'external'"), ("replicated_mt_test_moves_after_alter_work", "ReplicatedMergeTree('/clickhouse/replicated_test_moves_after_alter_work', '1')", 1, "TO DISK 'external'"), ]) def test_ttls_do_not_work_after_alter(started_cluster, name, engine, positive, bar): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO DISK 'external' SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) if positive: node1.query(""" ALTER TABLE {name} MODIFY TTL d1 + INTERVAL 15 MINUTE {bar} """.format(name=name, bar=bar)) # That shall disable TTL. data = [] # 10MB in total for i in range(10): data.append( ("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time.time() - 1))) # 1MB row node1.query("INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1" if positive else "external"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine", [ ("mt_test_materialize_ttl_in_partition", "MergeTree()"), ("replicated_mt_test_materialize_ttl_in_partition", "ReplicatedMergeTree('/clickhouse/test_materialize_ttl_in_partition', '1')"), ]) def test_materialize_ttl_in_partition(started_cluster, name, engine): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( p1 Int8, s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY p1 PARTITION BY p1 SETTINGS storage_policy='small_jbod_with_external' """.format(name=name, engine=engine)) data = [] # 5MB in total for i in range(5): data.append((str(i), "randomPrintableASCII(1024*1024)", "toDateTime({})".format(time.time() - 1))) # 1MB row node1.query( "INSERT INTO {} (p1, s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} node1.query(""" ALTER TABLE {name} MODIFY TTL d1 TO DISK 'external' SETTINGS materialize_ttl_after_modify = 0 """.format(name=name)) time.sleep(3) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} node1.query(""" ALTER TABLE {name} MATERIALIZE TTL IN PARTITION 2 """.format(name=name)) node1.query(""" ALTER TABLE {name} MATERIALIZE TTL IN PARTITION 4 """.format(name=name)) time.sleep(3) used_disks_sets = [] for i in range(len(data)): used_disks_sets.append(set(get_used_disks_for_table(node1, name, partition=i))) assert used_disks_sets == [{"jbod1"}, {"jbod1"}, {"external"}, {"jbod1"}, {"external"}] assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == str(len(data)) finally: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) @pytest.mark.parametrize("name,engine,positive", [ ("mt_test_alter_multiple_ttls_positive", "MergeTree()", True), ("mt_replicated_test_alter_multiple_ttls_positive", "ReplicatedMergeTree('/clickhouse/replicated_test_alter_multiple_ttls_positive', '1')", True), ("mt_test_alter_multiple_ttls_negative", "MergeTree()", False), ("mt_replicated_test_alter_multiple_ttls_negative", "ReplicatedMergeTree('/clickhouse/replicated_test_alter_multiple_ttls_negative', '1')", False), ]) def test_alter_multiple_ttls(started_cluster, name, engine, positive): name = unique_table_name(name) """Copyright 2019, Altinity LTD Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.""" """Check that when multiple TTL expressions are set and before any parts are inserted the TTL expressions are changed with ALTER command then all old TTL expressions are removed and the the parts are moved to the specified disk or volume or deleted if the new TTL expression is triggered and are not moved or deleted when it is not. """ now = time.time() try: node1.query(""" CREATE TABLE {name} ( p1 Int64, s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() PARTITION BY p1 TTL d1 + INTERVAL 34 SECOND TO DISK 'jbod2', d1 + INTERVAL 64 SECOND TO VOLUME 'external' SETTINGS storage_policy='jbods_with_external', merge_with_ttl_timeout=0 """.format(name=name, engine=engine)) node1.query(""" ALTER TABLE {name} MODIFY TTL d1 + INTERVAL 0 SECOND TO DISK 'jbod2', d1 + INTERVAL 14 SECOND TO VOLUME 'external', d1 + INTERVAL 19 SECOND DELETE """.format(name=name)) for p in range(3): data = [] # 6MB in total now = time.time() for i in range(2): p1 = p d1 = now - 1 if i > 0 or positive else now + 300 data.append("({}, randomPrintableASCII(1024*1024), toDateTime({}))".format(p1, d1)) node1.query("INSERT INTO {name} (p1, s1, d1) VALUES {values}".format(name=name, values=",".join(data))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod2"} if positive else {"jbod1", "jbod2"} assert node1.query("SELECT count() FROM {name}".format(name=name)).splitlines() == ["6"] if positive: expected_disks = {"external"} else: expected_disks = {"jbod1", "jbod2"} check_used_disks_with_retry(node1, name, expected_disks, 50) assert node1.query("SELECT count() FROM {name}".format(name=name)).splitlines() == ["6"] time.sleep(5) for i in range(50): rows_count = int(node1.query("SELECT count() FROM {name}".format(name=name)).strip()) if positive: if rows_count == 0: break else: if rows_count == 3: break node1.query("OPTIMIZE TABLE {name} FINAL".format(name=name)) time.sleep(0.5) if positive: assert rows_count == 0 else: assert rows_count == 3 finally: node1.query("DROP TABLE IF EXISTS {name} NO DELAY".format(name=name)) @pytest.mark.parametrize("name,engine", [ ("concurrently_altering_ttl_mt", "MergeTree()"), ("concurrently_altering_ttl_replicated_mt", "ReplicatedMergeTree('/clickhouse/concurrently_altering_ttl_replicated_mt', '1')",), ]) def test_concurrent_alter_with_ttl_move(started_cluster, name, engine): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( EventDate Date, number UInt64 ) ENGINE = {engine} ORDER BY tuple() PARTITION BY toYYYYMM(EventDate) SETTINGS storage_policy='jbods_with_external' """.format(name=name, engine=engine)) values = list({random.randint(1, 1000000) for _ in range(0, 1000)}) def insert(num): for i in range(num): day = random.randint(11, 30) value = values.pop() month = '0' + str(random.choice([3, 4])) node1.query("INSERT INTO {} VALUES(toDate('2019-{m}-{d}'), {v})".format(name, m=month, d=day, v=value)) def alter_move(num): def produce_alter_move(node, name): move_type = random.choice(["PART", "PARTITION"]) if move_type == "PART": for _ in range(10): try: parts = node1.query( "SELECT name from system.parts where table = '{}' and active = 1".format( name)).strip().split('\n') break except QueryRuntimeException: pass else: raise Exception("Cannot select from system.parts") move_part = random.choice(["'" + part + "'" for part in parts]) else: move_part = random.choice([201903, 201904]) move_disk = random.choice(["DISK", "VOLUME"]) if move_disk == "DISK": move_volume = random.choice(["'external'", "'jbod1'", "'jbod2'"]) else: move_volume = random.choice(["'main'", "'external'"]) try: node1.query("ALTER TABLE {} MOVE {mt} {mp} TO {md} {mv}".format( name, mt=move_type, mp=move_part, md=move_disk, mv=move_volume)) except QueryRuntimeException: pass for i in range(num): produce_alter_move(node1, name) def alter_update(num): for i in range(num): try: node1.query("ALTER TABLE {} UPDATE number = number + 1 WHERE 1".format(name)) except: pass def alter_modify_ttl(num): for i in range(num): ttls = [] for j in range(random.randint(1, 10)): what = random.choice( ["TO VOLUME 'main'", "TO VOLUME 'external'", "TO DISK 'jbod1'", "TO DISK 'jbod2'", "TO DISK 'external'"]) when = "now()+{}".format(random.randint(-1, 5)) ttls.append("{} {}".format(when, what)) try: node1.query("ALTER TABLE {} MODIFY TTL {}".format(name, ", ".join(ttls))) except QueryRuntimeException: pass def optimize_table(num): for i in range(num): try: # optimize may throw after concurrent alter node1.query("OPTIMIZE TABLE {} FINAL".format(name), settings={'optimize_throw_if_noop': '1'}) break except: pass p = Pool(15) tasks = [] for i in range(5): tasks.append(p.apply_async(insert, (30,))) tasks.append(p.apply_async(alter_move, (30,))) tasks.append(p.apply_async(alter_update, (30,))) tasks.append(p.apply_async(alter_modify_ttl, (30,))) tasks.append(p.apply_async(optimize_table, (30,))) for task in tasks: task.get(timeout=120) assert node1.query("SELECT 1") == "1\n" assert node1.query("SELECT COUNT() FROM {}".format(name)) == "150\n" finally: node1.query("DROP TABLE IF EXISTS {name} NO DELAY".format(name=name)) @pytest.mark.skip(reason="Flacky test") @pytest.mark.parametrize("name,positive", [ ("test_double_move_while_select_negative", 0), ("test_double_move_while_select_positive", 1), ]) def test_double_move_while_select(started_cluster, name, positive): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( n Int64, s String ) ENGINE = MergeTree ORDER BY tuple() PARTITION BY n SETTINGS storage_policy='small_jbod_with_external' """.format(name=name)) node1.query( "INSERT INTO {name} VALUES (1, randomPrintableASCII(10*1024*1024))".format(name=name)) parts = node1.query( "SELECT name FROM system.parts WHERE table = '{name}' AND active = 1".format(name=name)).splitlines() assert len(parts) == 1 node1.query("ALTER TABLE {name} MOVE PART '{part}' TO DISK 'external'".format(name=name, part=parts[0])) def long_select(): if positive: node1.query("SELECT sleep(3), sleep(2), sleep(1), n FROM {name}".format(name=name)) thread = threading.Thread(target=long_select) thread.start() time.sleep(1) node1.query("ALTER TABLE {name} MOVE PART '{part}' TO DISK 'jbod1'".format(name=name, part=parts[0])) # Fill jbod1 to force ClickHouse to make move of partition 1 to external. node1.query( "INSERT INTO {name} VALUES (2, randomPrintableASCII(9*1024*1024))".format(name=name)) node1.query( "INSERT INTO {name} VALUES (3, randomPrintableASCII(9*1024*1024))".format(name=name)) node1.query( "INSERT INTO {name} VALUES (4, randomPrintableASCII(9*1024*1024))".format(name=name)) wait_parts_mover(node1, name, retry_count=40) # If SELECT locked old part on external, move shall fail. assert node1.query( "SELECT disk_name FROM system.parts WHERE table = '{name}' AND active = 1 AND name = '{part}'" .format(name=name, part=parts[0])).splitlines() == ["jbod1" if positive else "external"] thread.join() assert node1.query("SELECT n FROM {name} ORDER BY n".format(name=name)).splitlines() == ["1", "2", "3", "4"] finally: node1.query("DROP TABLE IF EXISTS {name} NO DELAY".format(name=name)) @pytest.mark.parametrize("name,engine,positive", [ ("mt_test_alter_with_merge_do_not_work", "MergeTree()", 0), ("replicated_mt_test_alter_with_merge_do_not_work", "ReplicatedMergeTree('/clickhouse/replicated_test_alter_with_merge_do_not_work', '1')", 0), ("mt_test_alter_with_merge_work", "MergeTree()", 1), ("replicated_mt_test_alter_with_merge_work", "ReplicatedMergeTree('/clickhouse/replicated_test_alter_with_merge_work', '1')", 1), ]) def test_alter_with_merge_work(started_cluster, name, engine, positive): name = unique_table_name(name) """Copyright 2019, Altinity LTD Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License.""" """Check that TTL expressions are re-evaluated for existing parts after ALTER command changes TTL expressions and parts are merged. """ try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 + INTERVAL 3000 SECOND TO DISK 'jbod2', d1 + INTERVAL 6000 SECOND TO VOLUME 'external' SETTINGS storage_policy='jbods_with_external', merge_with_ttl_timeout=0 """.format(name=name, engine=engine)) def optimize_table(num): for i in range(num): try: # optimize may throw after concurrent alter node1.query("OPTIMIZE TABLE {} FINAL".format(name), settings={'optimize_throw_if_noop': '1'}) break except: pass for p in range(3): data = [] # 6MB in total now = time.time() for i in range(2): d1 = now - 1 if positive else now + 300 data.append("(randomPrintableASCII(1024*1024), toDateTime({}))".format(d1)) values = ",".join(data) node1.query("INSERT INTO {name} (s1, d1) VALUES {values}".format(name=name, values=values)) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1", "jbod2"} node1.query("SELECT count() FROM {name}".format(name=name)).splitlines() == ["6"] node1.query(""" ALTER TABLE {name} MODIFY TTL d1 + INTERVAL 0 SECOND TO DISK 'jbod2', d1 + INTERVAL 5 SECOND TO VOLUME 'external', d1 + INTERVAL 10 SECOND DELETE """.format(name=name)) optimize_table(20) assert node1.query( "SELECT count() FROM system.parts WHERE table = '{name}' AND active = 1".format(name=name)) == "1\n" time.sleep(5) optimize_table(20) if positive: assert check_used_disks_with_retry(node1, name, set(["external"]), 50) else: assert check_used_disks_with_retry(node1, name, set(["jbod1", "jbod2"]), 50) time.sleep(5) optimize_table(20) if positive: assert node1.query("SELECT count() FROM {name}".format(name=name)) == "0\n" else: assert node1.query("SELECT count() FROM {name}".format(name=name)) == "6\n" finally: node1.query("DROP TABLE IF EXISTS {name} NO DELAY".format(name=name)) @pytest.mark.parametrize("name,dest_type,engine", [ ("mt_test_disabled_ttl_move_on_insert_work", "DISK", "MergeTree()"), ("mt_test_disabled_ttl_move_on_insert_work", "VOLUME", "MergeTree()"), ("replicated_mt_test_disabled_ttl_move_on_insert_work", "DISK", "ReplicatedMergeTree('/clickhouse/replicated_test_disabled_ttl_move_on_insert_work', '1')"), ("replicated_mt_test_disabled_ttl_move_on_insert_work", "VOLUME", "ReplicatedMergeTree('/clickhouse/replicated_test_disabled_ttl_move_on_insert_work', '1')"), ]) def test_disabled_ttl_move_on_insert(started_cluster, name, dest_type, engine): name = unique_table_name(name) try: node1.query(""" CREATE TABLE {name} ( s1 String, d1 DateTime ) ENGINE = {engine} ORDER BY tuple() TTL d1 TO {dest_type} 'external' SETTINGS storage_policy='jbod_without_instant_ttl_move' """.format(name=name, dest_type=dest_type, engine=engine)) node1.query("SYSTEM STOP MOVES {}".format(name)) data = [] # 10MB in total for i in range(10): data.append(("randomPrintableASCII(1024*1024)", "toDateTime({})".format(time.time() - 1))) node1.query("INSERT INTO {} (s1, d1) VALUES {}".format(name, ",".join(["(" + ",".join(x) + ")" for x in data]))) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"jbod1"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" node1.query("SYSTEM START MOVES {}".format(name)) time.sleep(3) used_disks = get_used_disks_for_table(node1, name) assert set(used_disks) == {"external"} assert node1.query("SELECT count() FROM {name}".format(name=name)).strip() == "10" finally: try: node1.query("DROP TABLE IF EXISTS {} NO DELAY".format(name)) except: pass