mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-11-18 13:42:02 +00:00
252 lines
8.7 KiB
Python
252 lines
8.7 KiB
Python
import logging
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import random
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import threading
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import time
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from collections import Counter
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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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node1 = cluster.add_instance('node1', macros={'cluster': 'test1'}, with_zookeeper=True)
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# Check, that limits on max part size for merges doesn`t affect mutations
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node2 = cluster.add_instance('node2', macros={'cluster': 'test1'}, main_configs=["configs/merge_tree.xml"],
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with_zookeeper=True)
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node3 = cluster.add_instance('node3', macros={'cluster': 'test2'}, main_configs=["configs/merge_tree_max_parts.xml"],
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with_zookeeper=True)
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node4 = cluster.add_instance('node4', macros={'cluster': 'test2'}, main_configs=["configs/merge_tree_max_parts.xml"],
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with_zookeeper=True)
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node5 = cluster.add_instance('node5', macros={'cluster': 'test3'}, main_configs=["configs/merge_tree_max_parts.xml"])
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all_nodes = [node1, node2, node3, node4, node5]
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def prepare_cluster():
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for node in all_nodes:
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node.query("DROP TABLE IF EXISTS test_mutations SYNC")
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for node in [node1, node2, node3, node4]:
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node.query("""
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CREATE TABLE test_mutations(d Date, x UInt32, i UInt32)
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ENGINE ReplicatedMergeTree('/clickhouse/{cluster}/tables/test/test_mutations', '{instance}')
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ORDER BY x
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PARTITION BY toYYYYMM(d)
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SETTINGS number_of_free_entries_in_pool_to_execute_mutation=0
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""")
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node5.query(
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"CREATE TABLE test_mutations(d Date, x UInt32, i UInt32) ENGINE MergeTree() ORDER BY x PARTITION BY toYYYYMM(d)")
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@pytest.fixture(scope="module")
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def started_cluster():
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try:
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cluster.start()
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yield cluster
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finally:
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cluster.shutdown()
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class Runner:
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def __init__(self, nodes):
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self.nodes = nodes
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self.mtx = threading.Lock()
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self.total_inserted_xs = 0
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self.total_inserted_rows = 0
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self.total_mutations = 0
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self.total_deleted_xs = 0
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self.total_deleted_rows = 0
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self.current_xs = Counter()
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self.currently_inserting_xs = Counter()
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self.currently_deleting_xs = set()
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self.stop_ev = threading.Event()
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self.exceptions = []
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def do_insert(self, thread_num, partitions_num):
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self.stop_ev.wait(random.random())
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# Each thread inserts a small random number of rows with random year, month 01 and day determined
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# by the thread number. The idea is to avoid spurious duplicates and to insert into a
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# nontrivial number of partitions.
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month = '01'
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day = str(thread_num + 1).zfill(2)
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i = 1
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while not self.stop_ev.is_set():
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xs = [random.randint(1, 10) for _ in range(random.randint(1, 10))]
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with self.mtx:
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xs = [x for x in xs if x not in self.currently_deleting_xs]
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if len(xs) == 0:
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continue
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for x in xs:
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self.currently_inserting_xs[x] += 1
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year = 2000 + random.randint(0, partitions_num)
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date_str = '{year}-{month}-{day}'.format(year=year, month=month, day=day)
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payload = ''
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for x in xs:
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payload += '{date_str} {x} {i}\n'.format(date_str=date_str, x=x, i=i)
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i += 1
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try:
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logging.debug(f"thread {thread_num}: insert for {date_str}: {xs}")
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random.choice(self.nodes).query("INSERT INTO test_mutations FORMAT TSV", payload)
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with self.mtx:
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for x in xs:
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self.current_xs[x] += 1
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self.total_inserted_xs += sum(xs)
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self.total_inserted_rows += len(xs)
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except Exception as e:
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logging.debug(f"Exception while inserting: {e}")
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self.exceptions.append(e)
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finally:
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with self.mtx:
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for x in xs:
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self.currently_inserting_xs[x] -= 1
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self.stop_ev.wait(0.2 + random.random() / 5)
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def do_delete(self, thread_num):
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self.stop_ev.wait(1.0 + random.random())
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while not self.stop_ev.is_set():
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chosen = False
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with self.mtx:
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if self.current_xs:
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x = random.choice(list(self.current_xs.elements()))
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if self.currently_inserting_xs[x] == 0 and x not in self.currently_deleting_xs:
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chosen = True
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self.currently_deleting_xs.add(x)
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to_delete_count = self.current_xs[x]
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if not chosen:
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self.stop_ev.wait(0.1 * random.random())
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continue
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try:
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logging.debug(f"thread {thread_num}: delete {to_delete_count} * {x}")
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random.choice(self.nodes).query("ALTER TABLE test_mutations DELETE WHERE x = {}".format(x))
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with self.mtx:
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self.total_mutations += 1
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self.current_xs[x] -= to_delete_count
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self.total_deleted_xs += to_delete_count * x
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self.total_deleted_rows += to_delete_count
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except Exception as e:
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logging.debug(f"Exception while deleting: {e}")
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finally:
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with self.mtx:
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self.currently_deleting_xs.remove(x)
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self.stop_ev.wait(1.0 + random.random() * 2)
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def wait_for_mutations(nodes, number_of_mutations):
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for i in range(100): # wait for replication 80 seconds max
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time.sleep(0.8)
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def get_done_mutations(node):
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return int(node.query("SELECT sum(is_done) FROM system.mutations WHERE table = 'test_mutations'").rstrip())
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if all([get_done_mutations(n) == number_of_mutations for n in nodes]):
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return True
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return False
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def test_mutations(started_cluster):
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prepare_cluster()
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DURATION_SECONDS = 30
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nodes = [node1, node2]
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runner = Runner(nodes)
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threads = []
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for thread_num in range(5):
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threads.append(threading.Thread(target=runner.do_insert, args=(thread_num, 10)))
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for thread_num in (11, 12, 13):
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threads.append(threading.Thread(target=runner.do_delete, args=(thread_num,)))
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for t in threads:
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t.start()
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time.sleep(DURATION_SECONDS)
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runner.stop_ev.set()
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for t in threads:
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t.join()
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# Sanity check: at least something was inserted and something was deleted
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assert runner.total_inserted_rows > 0
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assert runner.total_mutations > 0
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all_done = wait_for_mutations(nodes, runner.total_mutations)
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logging.debug(f"Total mutations: {runner.total_mutations}")
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for node in nodes:
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logging.debug(node.query(
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"SELECT mutation_id, command, parts_to_do, is_done FROM system.mutations WHERE table = 'test_mutations' FORMAT TSVWithNames"))
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assert all_done
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expected_sum = runner.total_inserted_xs - runner.total_deleted_xs
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actual_sums = []
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for i, node in enumerate(nodes):
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actual_sums.append(int(node.query("SELECT sum(x) FROM test_mutations").rstrip()))
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assert actual_sums[i] == expected_sum
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@pytest.mark.parametrize(
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('nodes',),
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[
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([node5, ],), # MergeTree
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([node3, node4],), # ReplicatedMergeTree
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]
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)
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def test_mutations_dont_prevent_merges(started_cluster, nodes):
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prepare_cluster()
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for year in range(2000, 2016):
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rows = ''
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date_str = '{}-01-{}'.format(year, random.randint(1, 10))
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for i in range(10):
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rows += '{} {} {}\n'.format(date_str, random.randint(1, 10), i)
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nodes[0].query("INSERT INTO test_mutations FORMAT TSV", rows)
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# will run mutations of 16 parts in parallel, mutations will sleep for about 20 seconds
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nodes[0].query("ALTER TABLE test_mutations UPDATE i = sleepEachRow(2) WHERE 1")
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runner = Runner(nodes)
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threads = []
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for thread_num in range(2):
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threads.append(threading.Thread(target=runner.do_insert, args=(thread_num, 0)))
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# will insert approx 8-10 new parts per 1 second into one partition
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for t in threads:
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t.start()
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all_done = wait_for_mutations(nodes, 1)
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runner.stop_ev.set()
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for t in threads:
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t.join()
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for node in nodes:
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logging.debug(node.query(
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"SELECT mutation_id, command, parts_to_do, is_done FROM system.mutations WHERE table = 'test_mutations' FORMAT TSVWithNames"))
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logging.debug(node.query(
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"SELECT partition, count(name), sum(active), sum(active*rows) FROM system.parts WHERE table ='test_mutations' GROUP BY partition FORMAT TSVWithNames"))
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assert all_done, "All done"
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assert all([str(e).find("Too many parts") < 0 for e in runner.exceptions])
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