mirror of
https://github.com/ClickHouse/ClickHouse.git
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191 lines
6.3 KiB
Python
191 lines
6.3 KiB
Python
# pylint: disable=unused-argument
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# pylint: disable=redefined-outer-name
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# pylint: disable=line-too-long
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import uuid
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import pytest
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from helpers.cluster import ClickHouseCluster
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cluster = ClickHouseCluster(__file__)
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n1 = cluster.add_instance('n1', main_configs=['configs/remote_servers.xml'])
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n2 = cluster.add_instance('n2', main_configs=['configs/remote_servers.xml'])
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n3 = cluster.add_instance('n3', main_configs=['configs/remote_servers.xml'])
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nodes = len(cluster.instances)
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queries = nodes*5
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def bootstrap():
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for n in cluster.instances.values():
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# At startup, server loads configuration files.
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#
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# However ConfigReloader does not know about already loaded files
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# (files is empty()), hence it will always reload the configuration
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# just after server starts (+ 2 seconds, reload timeout).
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#
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# And on configuration reload the clusters will be re-created, so some
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# internal stuff will be reseted:
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# - error_count
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# - last_used (round_robing)
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#
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# And if the reload will happen during round_robin test it will start
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# querying from the beginning, so let's issue config reload just after
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# start to avoid reload in the middle of the test execution.
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n.query('SYSTEM RELOAD CONFIG')
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n.query('DROP TABLE IF EXISTS data')
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n.query('DROP TABLE IF EXISTS dist')
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n.query('CREATE TABLE data (key Int) Engine=Memory()')
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n.query("""
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CREATE TABLE dist AS data
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Engine=Distributed(
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replicas_cluster,
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currentDatabase(),
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data)
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""".format())
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n.query("""
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CREATE TABLE dist_priority AS data
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Engine=Distributed(
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replicas_priority_cluster,
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currentDatabase(),
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data)
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""".format())
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n.query("""
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CREATE TABLE dist_priority_negative AS data
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Engine=Distributed(
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replicas_priority_negative_cluster,
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currentDatabase(),
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data)
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""".format())
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def make_uuid():
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return uuid.uuid4().hex
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@pytest.fixture(scope='module', autouse=True)
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def start_cluster():
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try:
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cluster.start()
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bootstrap()
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yield cluster
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finally:
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cluster.shutdown()
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def get_node(query_node, table='dist', *args, **kwargs):
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query_id = make_uuid()
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settings = {
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'query_id': query_id,
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'log_queries': 1,
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'log_queries_min_type': 'QUERY_START',
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'prefer_localhost_replica': 0,
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}
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if 'settings' not in kwargs:
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kwargs['settings'] = settings
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else:
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kwargs['settings'].update(settings)
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query_node.query('SELECT * FROM ' + table, *args, **kwargs)
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for n in cluster.instances.values():
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n.query('SYSTEM FLUSH LOGS')
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rows = query_node.query("""
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SELECT c.host_name
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FROM (
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SELECT _shard_num
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FROM cluster(shards_cluster, system.query_log)
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WHERE
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initial_query_id = '{query_id}' AND
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is_initial_query = 0 AND
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type = 'QueryFinish'
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ORDER BY event_date DESC, event_time DESC
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LIMIT 1
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) a
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JOIN system.clusters c
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ON a._shard_num = c.shard_num AND cluster = 'shards_cluster'
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""".format(query_id=query_id))
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return rows.strip()
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# TODO: right now random distribution looks bad, but works
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def test_load_balancing_default():
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unique_nodes = set()
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for _ in range(0, queries):
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unique_nodes.add(get_node(n1, settings={'load_balancing': 'random'}))
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assert len(unique_nodes) == nodes, unique_nodes
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def test_load_balancing_nearest_hostname():
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unique_nodes = set()
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for _ in range(0, queries):
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unique_nodes.add(get_node(n1, settings={'load_balancing': 'nearest_hostname'}))
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assert len(unique_nodes) == 1, unique_nodes
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assert unique_nodes == set(['n1'])
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def test_load_balancing_in_order():
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unique_nodes = set()
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for _ in range(0, queries):
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unique_nodes.add(get_node(n1, settings={'load_balancing': 'in_order'}))
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assert len(unique_nodes) == 1, unique_nodes
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assert unique_nodes == set(['n1'])
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def test_load_balancing_first_or_random():
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unique_nodes = set()
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for _ in range(0, queries):
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unique_nodes.add(get_node(n1, settings={'load_balancing': 'first_or_random'}))
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assert len(unique_nodes) == 1, unique_nodes
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assert unique_nodes == set(['n1'])
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def test_load_balancing_round_robin():
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unique_nodes = set()
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for _ in range(0, nodes):
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unique_nodes.add(get_node(n1, settings={'load_balancing': 'round_robin'}))
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assert len(unique_nodes) == nodes, unique_nodes
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assert unique_nodes == set(['n1', 'n2', 'n3'])
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@pytest.mark.parametrize('dist_table', [
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('dist_priority'),
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('dist_priority_negative'),
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])
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def test_load_balancing_priority_round_robin(dist_table):
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unique_nodes = set()
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for _ in range(0, nodes):
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unique_nodes.add(get_node(n1, dist_table, settings={'load_balancing': 'round_robin'}))
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assert len(unique_nodes) == 2, unique_nodes
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# n2 has bigger priority in config
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assert unique_nodes == set(['n1', 'n3'])
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def test_distributed_replica_max_ignored_errors():
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settings = {
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'load_balancing': 'in_order',
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'prefer_localhost_replica': 0,
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'connect_timeout': 2,
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'receive_timeout': 2,
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'send_timeout': 2,
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'idle_connection_timeout': 2,
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'tcp_keep_alive_timeout': 2,
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'distributed_replica_max_ignored_errors': 0,
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'distributed_replica_error_half_life': 60,
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}
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# initiate connection (if started only this test)
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n2.query('SELECT * FROM dist', settings=settings)
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cluster.pause_container('n1')
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# n1 paused -- skipping, and increment error_count for n1
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# but the query succeeds, no need in query_and_get_error()
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n2.query('SELECT * FROM dist', settings=settings)
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# XXX: due to config reloading we need second time (sigh)
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n2.query('SELECT * FROM dist', settings=settings)
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# check error_count for n1
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assert int(n2.query("""
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SELECT errors_count FROM system.clusters
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WHERE cluster = 'replicas_cluster' AND host_name = 'n1'
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""", settings=settings)) == 1
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cluster.unpause_container('n1')
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# still n2
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assert get_node(n2, settings=settings) == 'n2'
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# now n1
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settings['distributed_replica_max_ignored_errors'] = 1
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assert get_node(n2, settings=settings) == 'n1'
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