mirror of
https://github.com/ClickHouse/ClickHouse.git
synced 2024-11-12 18:45:20 +00:00
3e1b2f515b
Fix some flaky tests
343 lines
16 KiB
Python
343 lines
16 KiB
Python
import time
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import psycopg2
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import pymysql.cursors
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import pytest
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from helpers.cluster import ClickHouseCluster
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from helpers.test_tools import assert_eq_with_retry
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from psycopg2.extensions import ISOLATION_LEVEL_AUTOCOMMIT
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cluster = ClickHouseCluster(__file__)
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node1 = cluster.add_instance('node1', with_odbc_drivers=True, with_mysql=True,
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main_configs=['configs/openssl.xml', 'configs/odbc_logging.xml',
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'configs/enable_dictionaries.xml',
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'configs/dictionaries/sqlite3_odbc_hashed_dictionary.xml',
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'configs/dictionaries/sqlite3_odbc_cached_dictionary.xml',
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'configs/dictionaries/postgres_odbc_hashed_dictionary.xml'], stay_alive=True)
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create_table_sql_template = """
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CREATE TABLE `clickhouse`.`{}` (
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`id` int(11) NOT NULL,
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`name` varchar(50) NOT NULL,
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`age` int NOT NULL default 0,
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`money` int NOT NULL default 0,
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`column_x` int default NULL,
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PRIMARY KEY (`id`)) ENGINE=InnoDB;
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"""
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def get_mysql_conn():
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conn = pymysql.connect(user='root', password='clickhouse', host='127.0.0.1', port=3308)
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return conn
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def create_mysql_db(conn, name):
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with conn.cursor() as cursor:
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cursor.execute(
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"CREATE DATABASE {} DEFAULT CHARACTER SET 'utf8'".format(name))
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def create_mysql_table(conn, table_name):
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with conn.cursor() as cursor:
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cursor.execute(create_table_sql_template.format(table_name))
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def get_postgres_conn():
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conn_string = "host='localhost' user='postgres' password='mysecretpassword'"
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conn = psycopg2.connect(conn_string)
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conn.set_isolation_level(ISOLATION_LEVEL_AUTOCOMMIT)
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conn.autocommit = True
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return conn
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def create_postgres_db(conn, name):
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cursor = conn.cursor()
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cursor.execute("CREATE SCHEMA {}".format(name))
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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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sqlite_db = node1.odbc_drivers["SQLite3"]["Database"]
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print("sqlite data received")
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node1.exec_in_container(
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["bash", "-c", "echo 'CREATE TABLE t1(x INTEGER PRIMARY KEY ASC, y, z);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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node1.exec_in_container(
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["bash", "-c", "echo 'CREATE TABLE t2(X INTEGER PRIMARY KEY ASC, Y, Z);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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node1.exec_in_container(
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["bash", "-c", "echo 'CREATE TABLE t3(X INTEGER PRIMARY KEY ASC, Y, Z);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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node1.exec_in_container(
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["bash", "-c", "echo 'CREATE TABLE t4(X INTEGER PRIMARY KEY ASC, Y, Z);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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print("sqlite tables created")
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mysql_conn = get_mysql_conn()
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print("mysql connection received")
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## create mysql db and table
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create_mysql_db(mysql_conn, 'clickhouse')
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print("mysql database created")
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postgres_conn = get_postgres_conn()
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print("postgres connection received")
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create_postgres_db(postgres_conn, 'clickhouse')
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print("postgres db created")
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cursor = postgres_conn.cursor()
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cursor.execute(
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"create table if not exists clickhouse.test_table (column1 int primary key, column2 varchar(40) not null)")
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yield cluster
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except Exception as ex:
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print(ex)
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raise ex
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finally:
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cluster.shutdown()
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def test_mysql_simple_select_works(started_cluster):
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mysql_setup = node1.odbc_drivers["MySQL"]
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table_name = 'test_insert_select'
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conn = get_mysql_conn()
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create_mysql_table(conn, table_name)
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# Check that NULL-values are handled correctly by the ODBC-bridge
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with conn.cursor() as cursor:
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cursor.execute(
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"INSERT INTO clickhouse.{} VALUES(50, 'null-guy', 127, 255, NULL), (100, 'non-null-guy', 127, 255, 511);".format(
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table_name))
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conn.commit()
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assert node1.query("SELECT column_x FROM odbc('DSN={}', '{}')".format(mysql_setup["DSN"], table_name),
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settings={"external_table_functions_use_nulls": "1"}) == '\\N\n511\n'
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assert node1.query("SELECT column_x FROM odbc('DSN={}', '{}')".format(mysql_setup["DSN"], table_name),
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settings={"external_table_functions_use_nulls": "0"}) == '0\n511\n'
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node1.query('''
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CREATE TABLE {}(id UInt32, name String, age UInt32, money UInt32, column_x Nullable(UInt32)) ENGINE = MySQL('mysql1:3306', 'clickhouse', '{}', 'root', 'clickhouse');
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'''.format(table_name, table_name))
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node1.query(
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"INSERT INTO {}(id, name, money, column_x) select number, concat('name_', toString(number)), 3, NULL from numbers(49) ".format(
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table_name))
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node1.query(
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"INSERT INTO {}(id, name, money, column_x) select number, concat('name_', toString(number)), 3, 42 from numbers(51, 49) ".format(
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table_name))
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assert node1.query("SELECT COUNT () FROM {} WHERE column_x IS NOT NULL".format(table_name)) == '50\n'
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assert node1.query("SELECT COUNT () FROM {} WHERE column_x IS NULL".format(table_name)) == '50\n'
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assert node1.query("SELECT count(*) FROM odbc('DSN={}', '{}')".format(mysql_setup["DSN"], table_name)) == '100\n'
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# previously this test fails with segfault
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# just to be sure :)
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assert node1.query("select 1") == "1\n"
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conn.close()
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def test_mysql_insert(started_cluster):
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mysql_setup = node1.odbc_drivers["MySQL"]
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table_name = 'test_insert'
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conn = get_mysql_conn()
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create_mysql_table(conn, table_name)
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odbc_args = "'DSN={}', '{}', '{}'".format(mysql_setup["DSN"], mysql_setup["Database"], table_name)
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node1.query(
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"create table mysql_insert (id Int64, name String, age UInt8, money Float, column_x Nullable(Int16)) Engine=ODBC({})".format(
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odbc_args))
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node1.query("insert into mysql_insert values (1, 'test', 11, 111, 1111), (2, 'odbc', 22, 222, NULL)")
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assert node1.query("select * from mysql_insert") == "1\ttest\t11\t111\t1111\n2\todbc\t22\t222\t\\N\n"
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node1.query("insert into table function odbc({}) values (3, 'insert', 33, 333, 3333)".format(odbc_args))
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node1.query(
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"insert into table function odbc({}) (id, name, age, money) select id*4, upper(name), age*4, money*4 from odbc({}) where id=1".format(
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odbc_args, odbc_args))
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assert node1.query(
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"select * from mysql_insert where id in (3, 4)") == "3\tinsert\t33\t333\t3333\n4\tTEST\t44\t444\t\\N\n"
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def test_sqlite_simple_select_function_works(started_cluster):
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sqlite_setup = node1.odbc_drivers["SQLite3"]
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sqlite_db = sqlite_setup["Database"]
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node1.exec_in_container(["bash", "-c", "echo 'INSERT INTO t1 values(1, 2, 3);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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assert node1.query("select * from odbc('DSN={}', '{}')".format(sqlite_setup["DSN"], 't1')) == "1\t2\t3\n"
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assert node1.query("select y from odbc('DSN={}', '{}')".format(sqlite_setup["DSN"], 't1')) == "2\n"
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assert node1.query("select z from odbc('DSN={}', '{}')".format(sqlite_setup["DSN"], 't1')) == "3\n"
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assert node1.query("select x from odbc('DSN={}', '{}')".format(sqlite_setup["DSN"], 't1')) == "1\n"
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assert node1.query("select x, y from odbc('DSN={}', '{}')".format(sqlite_setup["DSN"], 't1')) == "1\t2\n"
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assert node1.query("select z, x, y from odbc('DSN={}', '{}')".format(sqlite_setup["DSN"], 't1')) == "3\t1\t2\n"
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assert node1.query(
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"select count(), sum(x) from odbc('DSN={}', '{}') group by x".format(sqlite_setup["DSN"], 't1')) == "1\t1\n"
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def test_sqlite_simple_select_storage_works(started_cluster):
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sqlite_setup = node1.odbc_drivers["SQLite3"]
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sqlite_db = sqlite_setup["Database"]
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node1.exec_in_container(["bash", "-c", "echo 'INSERT INTO t4 values(1, 2, 3);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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node1.query("create table SqliteODBC (x Int32, y String, z String) engine = ODBC('DSN={}', '', 't4')".format(
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sqlite_setup["DSN"]))
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assert node1.query("select * from SqliteODBC") == "1\t2\t3\n"
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assert node1.query("select y from SqliteODBC") == "2\n"
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assert node1.query("select z from SqliteODBC") == "3\n"
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assert node1.query("select x from SqliteODBC") == "1\n"
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assert node1.query("select x, y from SqliteODBC") == "1\t2\n"
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assert node1.query("select z, x, y from SqliteODBC") == "3\t1\t2\n"
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assert node1.query("select count(), sum(x) from SqliteODBC group by x") == "1\t1\n"
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def test_sqlite_odbc_hashed_dictionary(started_cluster):
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sqlite_db = node1.odbc_drivers["SQLite3"]["Database"]
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node1.exec_in_container(["bash", "-c", "echo 'INSERT INTO t2 values(1, 2, 3);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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node1.query("SYSTEM RELOAD DICTIONARY sqlite3_odbc_hashed")
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first_update_time = node1.query("SELECT last_successful_update_time FROM system.dictionaries WHERE name = 'sqlite3_odbc_hashed'")
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print("First update time", first_update_time)
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assert_eq_with_retry(node1, "select dictGetUInt8('sqlite3_odbc_hashed', 'Z', toUInt64(1))", "3")
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assert_eq_with_retry(node1, "select dictGetUInt8('sqlite3_odbc_hashed', 'Z', toUInt64(200))", "1") # default
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second_update_time = node1.query("SELECT last_successful_update_time FROM system.dictionaries WHERE name = 'sqlite3_odbc_hashed'")
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# Reloaded with new data
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print("Second update time", second_update_time)
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while first_update_time == second_update_time:
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second_update_time = node1.query("SELECT last_successful_update_time FROM system.dictionaries WHERE name = 'sqlite3_odbc_hashed'")
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print("Waiting dictionary to update for the second time")
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time.sleep(0.1)
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node1.exec_in_container(["bash", "-c", "echo 'INSERT INTO t2 values(200, 2, 7);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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# No reload because of invalidate query
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third_update_time = node1.query("SELECT last_successful_update_time FROM system.dictionaries WHERE name = 'sqlite3_odbc_hashed'")
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print("Third update time", second_update_time)
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counter = 0
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while third_update_time == second_update_time:
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third_update_time = node1.query("SELECT last_successful_update_time FROM system.dictionaries WHERE name = 'sqlite3_odbc_hashed'")
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time.sleep(0.1)
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if counter > 50:
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break
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counter += 1
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assert_eq_with_retry(node1, "select dictGetUInt8('sqlite3_odbc_hashed', 'Z', toUInt64(1))", "3")
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assert_eq_with_retry(node1, "select dictGetUInt8('sqlite3_odbc_hashed', 'Z', toUInt64(200))", "1") # still default
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node1.exec_in_container(["bash", "-c", "echo 'REPLACE INTO t2 values(1, 2, 5);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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assert_eq_with_retry(node1, "select dictGetUInt8('sqlite3_odbc_hashed', 'Z', toUInt64(1))", "5")
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assert_eq_with_retry(node1, "select dictGetUInt8('sqlite3_odbc_hashed', 'Z', toUInt64(200))", "7")
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def test_sqlite_odbc_cached_dictionary(started_cluster):
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sqlite_db = node1.odbc_drivers["SQLite3"]["Database"]
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node1.exec_in_container(["bash", "-c", "echo 'INSERT INTO t3 values(1, 2, 3);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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assert node1.query("select dictGetUInt8('sqlite3_odbc_cached', 'Z', toUInt64(1))") == "3\n"
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# Allow insert
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node1.exec_in_container(["bash", "-c", "chmod a+rw /tmp"], privileged=True, user='root')
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node1.exec_in_container(["bash", "-c", "chmod a+rw {}".format(sqlite_db)], privileged=True, user='root')
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node1.query("insert into table function odbc('DSN={};', '', 't3') values (200, 2, 7)".format(
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node1.odbc_drivers["SQLite3"]["DSN"]))
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assert node1.query("select dictGetUInt8('sqlite3_odbc_cached', 'Z', toUInt64(200))") == "7\n" # new value
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node1.exec_in_container(["bash", "-c", "echo 'REPLACE INTO t3 values(1, 2, 12);' | sqlite3 {}".format(sqlite_db)],
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privileged=True, user='root')
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assert_eq_with_retry(node1, "select dictGetUInt8('sqlite3_odbc_cached', 'Z', toUInt64(1))", "12")
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def test_postgres_odbc_hached_dictionary_with_schema(started_cluster):
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conn = get_postgres_conn()
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cursor = conn.cursor()
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cursor.execute("insert into clickhouse.test_table values(1, 'hello'),(2, 'world')")
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node1.query("SYSTEM RELOAD DICTIONARY postgres_odbc_hashed")
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assert_eq_with_retry(node1, "select dictGetString('postgres_odbc_hashed', 'column2', toUInt64(1))", "hello")
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assert_eq_with_retry(node1, "select dictGetString('postgres_odbc_hashed', 'column2', toUInt64(2))", "world")
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def test_postgres_odbc_hached_dictionary_no_tty_pipe_overflow(started_cluster):
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conn = get_postgres_conn()
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cursor = conn.cursor()
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cursor.execute("insert into clickhouse.test_table values(3, 'xxx')")
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for i in range(100):
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try:
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node1.query("system reload dictionary postgres_odbc_hashed", timeout=5)
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except Exception as ex:
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assert False, "Exception occured -- odbc-bridge hangs: " + str(ex)
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assert_eq_with_retry(node1, "select dictGetString('postgres_odbc_hashed', 'column2', toUInt64(3))", "xxx")
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def test_postgres_insert(started_cluster):
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conn = get_postgres_conn()
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conn.cursor().execute("truncate table clickhouse.test_table")
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# Also test with Servername containing '.' and '-' symbols (defined in
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# postgres .yml file). This is needed to check parsing, validation and
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# reconstruction of connection string.
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node1.query(
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"create table pg_insert (column1 UInt8, column2 String) engine=ODBC('DSN=postgresql_odbc;Servername=postgre-sql.local', 'clickhouse', 'test_table')")
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node1.query("insert into pg_insert values (1, 'hello'), (2, 'world')")
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assert node1.query("select * from pg_insert") == '1\thello\n2\tworld\n'
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node1.query("insert into table function odbc('DSN=postgresql_odbc;', 'clickhouse', 'test_table') format CSV 3,test")
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node1.query(
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"insert into table function odbc('DSN=postgresql_odbc;Servername=postgre-sql.local', 'clickhouse', 'test_table') select number, 's' || toString(number) from numbers (4, 7)")
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assert node1.query("select sum(column1), count(column1) from pg_insert") == "55\t10\n"
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assert node1.query(
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"select sum(n), count(n) from (select (*,).1 as n from (select * from odbc('DSN=postgresql_odbc;', 'clickhouse', 'test_table')))") == "55\t10\n"
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def test_bridge_dies_with_parent(started_cluster):
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if node1.is_built_with_address_sanitizer():
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# TODO: Leak sanitizer falsely reports about a leak of 16 bytes in clickhouse-odbc-bridge in this test and
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# that's linked somehow with that we have replaced getauxval() in glibc-compatibility.
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# The leak sanitizer calls getauxval() for its own purposes, and our replaced version doesn't seem to be equivalent in that case.
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return
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node1.query("select dictGetString('postgres_odbc_hashed', 'column2', toUInt64(1))")
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clickhouse_pid = node1.get_process_pid("clickhouse server")
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bridge_pid = node1.get_process_pid("odbc-bridge")
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assert clickhouse_pid is not None
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assert bridge_pid is not None
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while clickhouse_pid is not None:
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try:
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node1.exec_in_container(["bash", "-c", "kill {}".format(clickhouse_pid)], privileged=True, user='root')
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except:
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pass
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clickhouse_pid = node1.get_process_pid("clickhouse server")
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time.sleep(1)
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for i in range(30):
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time.sleep(1) # just for sure, that odbc-bridge caught signal
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bridge_pid = node1.get_process_pid("odbc-bridge")
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if bridge_pid is None:
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break
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if bridge_pid:
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out = node1.exec_in_container(["gdb", "-p", str(bridge_pid), "--ex", "thread apply all bt", "--ex", "q"],
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privileged=True, user='root')
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print("Bridge is running, gdb output:")
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print(out)
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assert clickhouse_pid is None
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assert bridge_pid is None
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