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bd45592539
At startup, server loads configuration files. However ConfigReloader does not know about already loaded files (files is empty()), hence it will always reload the configuration just after server starts (+ 2 seconds, reload timeout). And on configuration reload the clusters will be re-created, so some internal stuff will be reseted: - error_count - last_used (round_robing) And if the reload will happen during round_robin test it will start querying from the beginning, so let's issue config reload just after start to avoid reload in the middle of the test execution.
166 lines
5.5 KiB
Python
166 lines
5.5 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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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, *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 dist', *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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# TODO: last_used will be reset on config reload, hence may fail
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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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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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