ClickHouse/tests/integration/test_polymorphic_parts/test.py

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import os
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import random
import string
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import struct
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import pytest
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from helpers.cluster import ClickHouseCluster
from helpers.test_tools import TSV
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from helpers.test_tools import assert_eq_with_retry, exec_query_with_retry
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cluster = ClickHouseCluster(__file__)
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def get_random_array():
return [random.randint(0, 1000) % 1000 for _ in range(random.randint(0, 1000))]
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def get_random_string():
length = random.randint(0, 1000)
return "".join(
random.choice(string.ascii_uppercase + string.digits) for _ in range(length)
)
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def insert_random_data(table, node, size):
data = [
"("
+ ",".join(
(
"'2019-10-11'",
str(i),
"'" + get_random_string() + "'",
str(get_random_array()),
)
)
+ ")"
for i in range(size)
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]
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node.query("INSERT INTO {} VALUES {}".format(table, ",".join(data)))
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def create_tables(name, nodes, node_settings, shard):
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for i, (node, settings) in enumerate(zip(nodes, node_settings)):
node.query(
"""
CREATE TABLE {name}(date Date, id UInt32, s String, arr Array(Int32))
ENGINE = ReplicatedMergeTree('/clickhouse/tables/test/{shard}/{name}', '{repl}')
PARTITION BY toYYYYMM(date)
ORDER BY id
SETTINGS index_granularity = 64, index_granularity_bytes = {index_granularity_bytes},
min_rows_for_wide_part = {min_rows_for_wide_part}, min_rows_for_compact_part = {min_rows_for_compact_part},
min_bytes_for_wide_part = 0, min_bytes_for_compact_part = 0,
in_memory_parts_enable_wal = 1
""".format(
name=name, shard=shard, repl=i, **settings
)
)
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def create_tables_old_format(name, nodes, shard):
for i, node in enumerate(nodes):
node.query(
"""
CREATE TABLE {name}(date Date, id UInt32, s String, arr Array(Int32))
ENGINE = ReplicatedMergeTree('/clickhouse/tables/test/{shard}/{name}', '{repl}', date, id, 64)
""".format(
name=name, shard=shard, repl=i
)
)
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node1 = cluster.add_instance(
"node1",
main_configs=[],
user_configs=["configs/users.d/not_optimize_count.xml"],
with_zookeeper=True,
)
node2 = cluster.add_instance(
"node2",
main_configs=[],
user_configs=["configs/users.d/not_optimize_count.xml"],
with_zookeeper=True,
)
settings_default = {
"index_granularity_bytes": 10485760,
"min_rows_for_wide_part": 512,
"min_rows_for_compact_part": 0,
}
settings_compact_only = {
"index_granularity_bytes": 10485760,
"min_rows_for_wide_part": 1000000,
"min_rows_for_compact_part": 0,
}
settings_not_adaptive = {
"index_granularity_bytes": 0,
"min_rows_for_wide_part": 512,
"min_rows_for_compact_part": 0,
}
node3 = cluster.add_instance(
"node3",
main_configs=[],
user_configs=["configs/users.d/not_optimize_count.xml"],
with_zookeeper=True,
)
node4 = cluster.add_instance(
"node4",
user_configs=["configs/users.d/not_optimize_count.xml"],
main_configs=["configs/no_leader.xml"],
with_zookeeper=True,
)
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settings_compact = {
"index_granularity_bytes": 10485760,
"min_rows_for_wide_part": 512,
"min_rows_for_compact_part": 0,
}
settings_wide = {
"index_granularity_bytes": 10485760,
"min_rows_for_wide_part": 0,
"min_rows_for_compact_part": 0,
}
node5 = cluster.add_instance(
"node5", main_configs=["configs/compact_parts.xml"], with_zookeeper=True
)
node6 = cluster.add_instance(
"node6", main_configs=["configs/compact_parts.xml"], with_zookeeper=True
)
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settings_in_memory = {
"index_granularity_bytes": 10485760,
"min_rows_for_wide_part": 512,
"min_rows_for_compact_part": 256,
}
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node9 = cluster.add_instance("node9", with_zookeeper=True, stay_alive=True)
node10 = cluster.add_instance("node10", with_zookeeper=True)
node11 = cluster.add_instance(
"node11",
main_configs=["configs/do_not_merge.xml"],
with_zookeeper=True,
stay_alive=True,
)
node12 = cluster.add_instance(
"node12",
main_configs=["configs/do_not_merge.xml"],
with_zookeeper=True,
stay_alive=True,
)
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@pytest.fixture(scope="module")
def start_cluster():
try:
cluster.start()
create_tables(
"polymorphic_table",
[node1, node2],
[settings_default, settings_default],
"shard1",
)
create_tables(
"compact_parts_only",
[node1, node2],
[settings_compact_only, settings_compact_only],
"shard1",
)
create_tables(
"non_adaptive_table",
[node1, node2],
[settings_not_adaptive, settings_not_adaptive],
"shard1",
)
create_tables(
"polymorphic_table_compact",
[node3, node4],
[settings_compact, settings_wide],
"shard2",
)
create_tables(
"polymorphic_table_wide",
[node3, node4],
[settings_wide, settings_compact],
"shard2",
)
create_tables_old_format("polymorphic_table", [node5, node6], "shard3")
create_tables(
"in_memory_table",
[node9, node10],
[settings_in_memory, settings_in_memory],
"shard4",
)
create_tables(
"wal_table",
[node11, node12],
[settings_in_memory, settings_in_memory],
"shard4",
)
create_tables(
"restore_table",
[node11, node12],
[settings_in_memory, settings_in_memory],
"shard5",
)
create_tables(
"deduplication_table",
[node9, node10],
[settings_in_memory, settings_in_memory],
"shard5",
)
create_tables(
"sync_table",
[node9, node10],
[settings_in_memory, settings_in_memory],
"shard5",
)
create_tables(
"alters_table",
[node9, node10],
[settings_in_memory, settings_in_memory],
"shard5",
)
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yield cluster
finally:
cluster.shutdown()
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@pytest.mark.parametrize(
("first_node", "second_node"),
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[
(node1, node2), # compact parts
(node5, node6), # compact parts, old-format
],
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)
def test_polymorphic_parts_basics(start_cluster, first_node, second_node):
first_node.query("SYSTEM STOP MERGES")
second_node.query("SYSTEM STOP MERGES")
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for size in [300, 300, 600]:
insert_random_data("polymorphic_table", first_node, size)
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second_node.query("SYSTEM SYNC REPLICA polymorphic_table", timeout=20)
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assert first_node.query("SELECT count() FROM polymorphic_table") == "1200\n"
assert second_node.query("SELECT count() FROM polymorphic_table") == "1200\n"
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expected = "Compact\t2\nWide\t1\n"
assert TSV(
first_node.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'polymorphic_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV(expected)
assert TSV(
second_node.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'polymorphic_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV(expected)
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first_node.query("SYSTEM START MERGES")
second_node.query("SYSTEM START MERGES")
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for _ in range(40):
insert_random_data("polymorphic_table", first_node, 10)
insert_random_data("polymorphic_table", second_node, 10)
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first_node.query("SYSTEM SYNC REPLICA polymorphic_table", timeout=20)
second_node.query("SYSTEM SYNC REPLICA polymorphic_table", timeout=20)
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assert first_node.query("SELECT count() FROM polymorphic_table") == "2000\n"
assert second_node.query("SELECT count() FROM polymorphic_table") == "2000\n"
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first_node.query("OPTIMIZE TABLE polymorphic_table FINAL")
second_node.query("SYSTEM SYNC REPLICA polymorphic_table", timeout=20)
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assert first_node.query("SELECT count() FROM polymorphic_table") == "2000\n"
assert second_node.query("SELECT count() FROM polymorphic_table") == "2000\n"
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assert (
first_node.query(
"SELECT DISTINCT part_type FROM system.parts WHERE table = 'polymorphic_table' AND active"
)
== "Wide\n"
)
assert (
second_node.query(
"SELECT DISTINCT part_type FROM system.parts WHERE table = 'polymorphic_table' AND active"
)
== "Wide\n"
)
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# Check alters and mutations also work
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first_node.query("ALTER TABLE polymorphic_table ADD COLUMN ss String")
first_node.query("ALTER TABLE polymorphic_table UPDATE ss = toString(id) WHERE 1")
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second_node.query("SYSTEM SYNC REPLICA polymorphic_table", timeout=20)
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first_node.query("SELECT count(ss) FROM polymorphic_table") == "2000\n"
first_node.query("SELECT uniqExact(ss) FROM polymorphic_table") == "600\n"
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second_node.query("SELECT count(ss) FROM polymorphic_table") == "2000\n"
second_node.query("SELECT uniqExact(ss) FROM polymorphic_table") == "600\n"
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# Checks mostly that merge from compact part to compact part works.
def test_compact_parts_only(start_cluster):
for i in range(20):
insert_random_data("compact_parts_only", node1, 100)
insert_random_data("compact_parts_only", node2, 100)
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node1.query("SYSTEM SYNC REPLICA compact_parts_only", timeout=20)
node2.query("SYSTEM SYNC REPLICA compact_parts_only", timeout=20)
assert node1.query("SELECT count() FROM compact_parts_only") == "4000\n"
assert node2.query("SELECT count() FROM compact_parts_only") == "4000\n"
assert (
node1.query(
"SELECT DISTINCT part_type FROM system.parts WHERE table = 'compact_parts_only' AND active"
)
== "Compact\n"
)
assert (
node2.query(
"SELECT DISTINCT part_type FROM system.parts WHERE table = 'compact_parts_only' AND active"
)
== "Compact\n"
)
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node1.query("OPTIMIZE TABLE compact_parts_only FINAL")
node2.query("SYSTEM SYNC REPLICA compact_parts_only", timeout=20)
assert node2.query("SELECT count() FROM compact_parts_only") == "4000\n"
expected = "Compact\t1\n"
assert TSV(
node1.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'compact_parts_only' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV(expected)
assert TSV(
node2.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'compact_parts_only' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV(expected)
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# Check that follower replicas create parts of the same type, which leader has chosen at merge.
@pytest.mark.parametrize(
("table", "part_type"),
[("polymorphic_table_compact", "Compact"), ("polymorphic_table_wide", "Wide")],
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)
def test_different_part_types_on_replicas(start_cluster, table, part_type):
leader = node3
follower = node4
assert (
leader.query(
"SELECT is_leader FROM system.replicas WHERE table = '{}'".format(table)
)
== "1\n"
)
assert (
node4.query(
"SELECT is_leader FROM system.replicas WHERE table = '{}'".format(table)
)
== "0\n"
)
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for _ in range(3):
insert_random_data(table, leader, 100)
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leader.query("OPTIMIZE TABLE {} FINAL".format(table))
follower.query("SYSTEM SYNC REPLICA {}".format(table), timeout=20)
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expected = "{}\t1\n".format(part_type)
assert TSV(
leader.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = '{}' AND active GROUP BY part_type ORDER BY part_type".format(
table
)
)
) == TSV(expected)
assert TSV(
follower.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = '{}' AND active GROUP BY part_type ORDER BY part_type".format(
table
)
)
) == TSV(expected)
node7 = cluster.add_instance(
"node7",
user_configs=["configs_old/users.d/not_optimize_count.xml"],
with_zookeeper=True,
image="yandex/clickhouse-server",
tag="19.17.8.54",
stay_alive=True,
with_installed_binary=True,
)
node8 = cluster.add_instance(
"node8",
user_configs=["configs/users.d/not_optimize_count.xml"],
with_zookeeper=True,
)
settings7 = {"index_granularity_bytes": 10485760}
settings8 = {
"index_granularity_bytes": 10485760,
"min_rows_for_wide_part": 512,
"min_rows_for_compact_part": 0,
}
@pytest.fixture(scope="module")
def start_cluster_diff_versions():
try:
for name in ["polymorphic_table", "polymorphic_table_2"]:
cluster.start()
node7.query(
"""
CREATE TABLE {name}(date Date, id UInt32, s String, arr Array(Int32))
ENGINE = ReplicatedMergeTree('/clickhouse/tables/test/shard5/{name}', '1')
PARTITION BY toYYYYMM(date)
ORDER BY id
SETTINGS index_granularity = 64, index_granularity_bytes = {index_granularity_bytes}
""".format(
name=name, **settings7
)
)
node8.query(
"""
CREATE TABLE {name}(date Date, id UInt32, s String, arr Array(Int32))
ENGINE = ReplicatedMergeTree('/clickhouse/tables/test/shard5/{name}', '2')
PARTITION BY toYYYYMM(date)
ORDER BY id
SETTINGS index_granularity = 64, index_granularity_bytes = {index_granularity_bytes},
min_rows_for_wide_part = {min_rows_for_wide_part}, min_bytes_for_wide_part = {min_bytes_for_wide_part}
""".format(
name=name, **settings8
)
)
yield cluster
finally:
cluster.shutdown()
@pytest.mark.skip(reason="compatability is temporary broken")
def test_polymorphic_parts_diff_versions(start_cluster_diff_versions):
# Check that replication with Wide parts works between different versions.
node_old = node7
node_new = node8
insert_random_data("polymorphic_table", node7, 100)
node8.query("SYSTEM SYNC REPLICA polymorphic_table", timeout=20)
assert node8.query("SELECT count() FROM polymorphic_table") == "100\n"
assert (
node8.query(
"SELECT DISTINCT part_type FROM system.parts WHERE table = 'polymorphic_table' and active"
)
== "Wide\n"
)
@pytest.mark.skip(reason="compatability is temporary broken")
def test_polymorphic_parts_diff_versions_2(start_cluster_diff_versions):
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# Replication doesn't work on old version if part is created in compact format, because
# this version doesn't know anything about it. It's considered to be ok.
node_old = node7
node_new = node8
insert_random_data("polymorphic_table_2", node_new, 100)
assert node_new.query("SELECT count() FROM polymorphic_table_2") == "100\n"
assert node_old.query("SELECT count() FROM polymorphic_table_2") == "0\n"
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with pytest.raises(Exception):
node_old.query("SYSTEM SYNC REPLICA polymorphic_table_2", timeout=3)
node_old.restart_with_latest_version()
node_old.query("SYSTEM SYNC REPLICA polymorphic_table_2", timeout=20)
# Works after update
assert node_old.query("SELECT count() FROM polymorphic_table_2") == "100\n"
assert (
node_old.query(
"SELECT DISTINCT part_type FROM system.parts WHERE table = 'polymorphic_table_2' and active"
)
== "Compact\n"
)
def test_polymorphic_parts_non_adaptive(start_cluster):
node1.query("SYSTEM STOP MERGES")
node2.query("SYSTEM STOP MERGES")
insert_random_data("non_adaptive_table", node1, 100)
node2.query("SYSTEM SYNC REPLICA non_adaptive_table", timeout=20)
insert_random_data("non_adaptive_table", node2, 100)
node1.query("SYSTEM SYNC REPLICA non_adaptive_table", timeout=20)
assert TSV(
node1.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'non_adaptive_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV("Wide\t2\n")
assert TSV(
node2.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'non_adaptive_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV("Wide\t2\n")
assert node1.contains_in_log(
"<Warning> default.non_adaptive_table ([0-9a-f-]*): Table can't create parts with adaptive granularity"
)
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def test_in_memory(start_cluster):
node9.query("SYSTEM STOP MERGES")
node10.query("SYSTEM STOP MERGES")
for size in [200, 200, 300, 600]:
insert_random_data("in_memory_table", node9, size)
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node10.query("SYSTEM SYNC REPLICA in_memory_table", timeout=20)
assert node9.query("SELECT count() FROM in_memory_table") == "1300\n"
assert node10.query("SELECT count() FROM in_memory_table") == "1300\n"
expected = "Compact\t1\nInMemory\t2\nWide\t1\n"
assert TSV(
node9.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'in_memory_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV(expected)
assert TSV(
node10.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'in_memory_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV(expected)
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node9.query("SYSTEM START MERGES")
node10.query("SYSTEM START MERGES")
assert_eq_with_retry(
node9,
"OPTIMIZE TABLE in_memory_table FINAL SETTINGS optimize_throw_if_noop = 1",
"",
)
node10.query("SYSTEM SYNC REPLICA in_memory_table", timeout=20)
assert node9.query("SELECT count() FROM in_memory_table") == "1300\n"
assert node10.query("SELECT count() FROM in_memory_table") == "1300\n"
assert TSV(
node9.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'in_memory_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV("Wide\t1\n")
assert TSV(
node10.query(
"SELECT part_type, count() FROM system.parts "
"WHERE table = 'in_memory_table' AND active GROUP BY part_type ORDER BY part_type"
)
) == TSV("Wide\t1\n")
def test_in_memory_wal_rotate(start_cluster):
# Write every part to single wal
node11.query(
"ALTER TABLE restore_table MODIFY SETTING write_ahead_log_max_bytes = 10"
)
for i in range(5):
insert_random_data("restore_table", node11, 50)
for i in range(5):
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# Check file exists
node11.exec_in_container(
[
"bash",
"-c",
"test -f /var/lib/clickhouse/data/default/restore_table/wal_{0}_{0}.bin".format(
i
),
]
)
for node in [node11, node12]:
node.query(
"ALTER TABLE restore_table MODIFY SETTING number_of_free_entries_in_pool_to_lower_max_size_of_merge = 0"
)
node.query(
"ALTER TABLE restore_table MODIFY SETTING max_bytes_to_merge_at_max_space_in_pool = 10000000"
)
assert_eq_with_retry(
node11,
"OPTIMIZE TABLE restore_table FINAL SETTINGS optimize_throw_if_noop = 1",
"",
)
# Restart to be sure, that clearing stale logs task was ran
node11.restart_clickhouse(kill=True)
for i in range(5):
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# check file doesn't exist
node11.exec_in_container(
[
"bash",
"-c",
"test ! -e /var/lib/clickhouse/data/default/restore_table/wal_{0}_{0}.bin".format(
i
),
]
)
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# New wal file was created and ready to write part to it
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# Check file exists
node11.exec_in_container(
["bash", "-c", "test -f /var/lib/clickhouse/data/default/restore_table/wal.bin"]
)
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# Chech file empty
node11.exec_in_container(
[
"bash",
"-c",
"test ! -s /var/lib/clickhouse/data/default/restore_table/wal.bin",
]
)
def test_in_memory_deduplication(start_cluster):
for i in range(3):
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# table can be in readonly node
exec_query_with_retry(
node9,
"INSERT INTO deduplication_table (date, id, s) VALUES (toDate('2020-03-03'), 1, 'foo')",
)
exec_query_with_retry(
node10,
"INSERT INTO deduplication_table (date, id, s) VALUES (toDate('2020-03-03'), 1, 'foo')",
)
node9.query("SYSTEM SYNC REPLICA deduplication_table", timeout=20)
node10.query("SYSTEM SYNC REPLICA deduplication_table", timeout=20)
assert (
node9.query("SELECT date, id, s FROM deduplication_table")
== "2020-03-03\t1\tfoo\n"
)
assert (
node10.query("SELECT date, id, s FROM deduplication_table")
== "2020-03-03\t1\tfoo\n"
)
# Checks that restoring from WAL works after table schema changed
def test_in_memory_alters(start_cluster):
def check_parts_type(parts_num):
assert (
node9.query(
"SELECT part_type, count() FROM system.parts WHERE table = 'alters_table' \
AND active GROUP BY part_type"
)
== "InMemory\t{}\n".format(parts_num)
)
node9.query(
"INSERT INTO alters_table (date, id, s) VALUES (toDate('2020-10-10'), 1, 'ab'), (toDate('2020-10-10'), 2, 'cd')"
)
node9.query("ALTER TABLE alters_table ADD COLUMN col1 UInt32")
node9.restart_clickhouse(kill=True)
expected = "1\tab\t0\n2\tcd\t0\n"
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assert node9.query("SELECT id, s, col1 FROM alters_table ORDER BY id") == expected
check_parts_type(1)
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node9.query(
"INSERT INTO alters_table (date, id, col1) VALUES (toDate('2020-10-10'), 3, 100)"
)
node9.query("ALTER TABLE alters_table MODIFY COLUMN col1 String")
node9.query("ALTER TABLE alters_table DROP COLUMN s")
node9.restart_clickhouse(kill=True)
check_parts_type(2)
with pytest.raises(Exception):
node9.query("SELECT id, s, col1 FROM alters_table")
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# Values of col1 was not materialized as integers, so they have
# default string values after alter
expected = "1\t_foo\n2\t_foo\n3\t100_foo\n"
assert (
node9.query("SELECT id, col1 || '_foo' FROM alters_table ORDER BY id")
== expected
)
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def test_polymorphic_parts_index(start_cluster):
node1.query(
"CREATE DATABASE test_index ENGINE=Ordinary"
) # Different paths with Atomic
node1.query(
"""
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CREATE TABLE test_index.index_compact(a UInt32, s String)
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ENGINE = MergeTree ORDER BY a
SETTINGS min_rows_for_wide_part = 1000, index_granularity = 128, merge_max_block_size = 100"""
)
node1.query(
"INSERT INTO test_index.index_compact SELECT number, toString(number) FROM numbers(100)"
)
node1.query(
"INSERT INTO test_index.index_compact SELECT number, toString(number) FROM numbers(30)"
)
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node1.query("OPTIMIZE TABLE test_index.index_compact FINAL")
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assert (
node1.query(
"SELECT part_type FROM system.parts WHERE table = 'index_compact' AND active"
)
== "Compact\n"
)
assert (
node1.query(
"SELECT marks FROM system.parts WHERE table = 'index_compact' AND active"
)
== "2\n"
)
index_path = os.path.join(
node1.path, "database/data/test_index/index_compact/all_1_2_1/primary.idx"
)
f = open(index_path, "rb")
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assert os.path.getsize(index_path) == 8
assert struct.unpack("I", f.read(4))[0] == 0
assert struct.unpack("I", f.read(4))[0] == 99