import base64 import errno import http.client import logging import os import stat import os.path as p import pprint import pwd import re import shutil import socket import subprocess import time import traceback import urllib.parse import shlex import urllib3 import requests try: # Please, add modules that required for specific tests only here. # So contributors will be able to run most tests locally # without installing tons of unneeded packages that may be not so easy to install. import asyncio from cassandra.policies import RoundRobinPolicy import cassandra.cluster import psycopg2 from psycopg2.extensions import ISOLATION_LEVEL_AUTOCOMMIT import pymongo import pymysql import nats import ssl from confluent_kafka.avro.cached_schema_registry_client import ( CachedSchemaRegistryClient, ) from .hdfs_api import HDFSApi # imports requests_kerberos except Exception as e: logging.warning(f"Cannot import some modules, some tests may not work: {e}") from dict2xml import dict2xml from kazoo.client import KazooClient from kazoo.exceptions import KazooException from minio import Minio from helpers.test_tools import assert_eq_with_retry, exec_query_with_retry from helpers import pytest_xdist_logging_to_separate_files from helpers.client import QueryRuntimeException import docker from .client import Client from .config_cluster import * HELPERS_DIR = p.dirname(__file__) CLICKHOUSE_ROOT_DIR = p.join(p.dirname(__file__), "../../..") LOCAL_DOCKER_COMPOSE_DIR = p.join( CLICKHOUSE_ROOT_DIR, "docker/test/integration/runner/compose/" ) DEFAULT_ENV_NAME = ".env" SANITIZER_SIGN = "==================" CLICKHOUSE_START_COMMAND = ( "clickhouse server --config-file=/etc/clickhouse-server/{main_config_file}" ) CLICKHOUSE_LOG_FILE = "/var/log/clickhouse-server/clickhouse-server.log" CLICKHOUSE_ERROR_LOG_FILE = "/var/log/clickhouse-server/clickhouse-server.err.log" # to create docker-compose env file def _create_env_file(path, variables): logging.debug(f"Env {variables} stored in {path}") with open(path, "w") as f: for var, value in list(variables.items()): f.write("=".join([var, value]) + "\n") return path def run_and_check( args, env=None, shell=False, stdout=subprocess.PIPE, stderr=subprocess.PIPE, timeout=300, nothrow=False, detach=False, ): if detach: subprocess.Popen( args, stdout=subprocess.DEVNULL, stderr=subprocess.DEVNULL, env=env, shell=shell, ) return logging.debug(f"Command:{args}") res = subprocess.run( args, stdout=stdout, stderr=stderr, env=env, shell=shell, timeout=timeout ) out = res.stdout.decode("utf-8") err = res.stderr.decode("utf-8") # check_call(...) from subprocess does not print stderr, so we do it manually for outline in out.splitlines(): logging.debug(f"Stdout:{outline}") for errline in err.splitlines(): logging.debug(f"Stderr:{errline}") if res.returncode != 0: logging.debug(f"Exitcode:{res.returncode}") if env: logging.debug(f"Env:{env}") if not nothrow: raise Exception( f"Command {args} return non-zero code {res.returncode}: {res.stderr.decode('utf-8')}" ) return out # Based on https://stackoverflow.com/a/1365284/3706827 def get_free_port(): with socket.socket() as s: s.bind(("", 0)) return s.getsockname()[1] def retry_exception(num, delay, func, exception=Exception, *args, **kwargs): """ Retry if `func()` throws, `num` times. :param func: func to run :param num: number of retries :throws StopIteration """ i = 0 while i <= num: try: func(*args, **kwargs) time.sleep(delay) except exception: # pylint: disable=broad-except i += 1 continue return raise StopIteration("Function did not finished successfully") def subprocess_check_call(args, detach=False, nothrow=False): # Uncomment for debugging # logging.info('run:' + ' '.join(args)) return run_and_check(args, detach=detach, nothrow=nothrow) def get_odbc_bridge_path(): path = os.environ.get("CLICKHOUSE_TESTS_ODBC_BRIDGE_BIN_PATH") if path is None: server_path = os.environ.get("CLICKHOUSE_TESTS_SERVER_BIN_PATH") if server_path is not None: return os.path.join(os.path.dirname(server_path), "clickhouse-odbc-bridge") else: return "/usr/bin/clickhouse-odbc-bridge" return path def get_library_bridge_path(): path = os.environ.get("CLICKHOUSE_TESTS_LIBRARY_BRIDGE_BIN_PATH") if path is None: server_path = os.environ.get("CLICKHOUSE_TESTS_SERVER_BIN_PATH") if server_path is not None: return os.path.join( os.path.dirname(server_path), "clickhouse-library-bridge" ) else: return "/usr/bin/clickhouse-library-bridge" return path def get_docker_compose_path(): compose_path = os.environ.get("DOCKER_COMPOSE_DIR") if compose_path is not None: return os.path.dirname(compose_path) else: if os.path.exists(os.path.dirname("/compose/")): return os.path.dirname("/compose/") # default in docker runner container else: logging.debug( f"Fallback docker_compose_path to LOCAL_DOCKER_COMPOSE_DIR: {LOCAL_DOCKER_COMPOSE_DIR}" ) return LOCAL_DOCKER_COMPOSE_DIR def check_kafka_is_available(kafka_id, kafka_port): p = subprocess.Popen( ( "docker", "exec", "-i", kafka_id, "/usr/bin/kafka-broker-api-versions", "--bootstrap-server", f"INSIDE://localhost:{kafka_port}", ), stdout=subprocess.PIPE, stderr=subprocess.PIPE, ) p.communicate() return p.returncode == 0 def check_kerberos_kdc_is_available(kerberos_kdc_id): p = subprocess.Popen( ( "docker", "exec", "-i", kerberos_kdc_id, "/etc/rc.d/init.d/krb5kdc", "status", ), stdout=subprocess.PIPE, stderr=subprocess.PIPE, ) p.communicate() return p.returncode == 0 def check_postgresql_java_client_is_available(postgresql_java_client_id): p = subprocess.Popen( ("docker", "exec", "-i", postgresql_java_client_id, "java", "-version"), stdout=subprocess.PIPE, ) p.communicate() return p.returncode == 0 def check_rabbitmq_is_available(rabbitmq_id, cookie): p = subprocess.Popen( ( "docker", "exec", "-e", f"RABBITMQ_ERLANG_COOKIE={cookie}", "-i", rabbitmq_id, "rabbitmqctl", "await_startup", ), stdout=subprocess.PIPE, ) p.communicate() return p.returncode == 0 def rabbitmq_debuginfo(rabbitmq_id, cookie): p = subprocess.Popen( ( "docker", "exec", "-e", f"RABBITMQ_ERLANG_COOKIE={cookie}", "-i", rabbitmq_id, "rabbitmq-diagnostics", "status", ), stdout=subprocess.PIPE, ) p.communicate() p = subprocess.Popen( ( "docker", "exec", "-e", f"RABBITMQ_ERLANG_COOKIE={cookie}", "-i", rabbitmq_id, "rabbitmq-diagnostics", "listeners", ), stdout=subprocess.PIPE, ) p.communicate() p = subprocess.Popen( ( "docker", "exec", "-e", f"RABBITMQ_ERLANG_COOKIE={cookie}", "-i", rabbitmq_id, "rabbitmq-diagnostics", "environment", ), stdout=subprocess.PIPE, ) p.communicate() async def check_nats_is_available(nats_port, ssl_ctx=None): nc = await nats_connect_ssl( nats_port, user="click", password="house", ssl_ctx=ssl_ctx ) available = nc.is_connected await nc.close() return available async def nats_connect_ssl(nats_port, user, password, ssl_ctx=None): if not ssl_ctx: ssl_ctx = ssl.create_default_context() ssl_ctx.check_hostname = False ssl_ctx.verify_mode = ssl.CERT_NONE nc = await nats.connect( "tls://localhost:{}".format(nats_port), user=user, password=password, tls=ssl_ctx, ) return nc def enable_consistent_hash_plugin(rabbitmq_id, cookie): p = subprocess.Popen( ( "docker", "exec", "-e", f"RABBITMQ_ERLANG_COOKIE={cookie}", "-i", rabbitmq_id, "rabbitmq-plugins", "enable", "rabbitmq_consistent_hash_exchange", ), stdout=subprocess.PIPE, ) p.communicate() return p.returncode == 0 def get_instances_dir(name): instances_dir_name = "_instances" run_id = os.environ.get("INTEGRATION_TESTS_RUN_ID", "") if name: instances_dir_name += "_" + name if run_id: instances_dir_name += "_" + shlex.quote(run_id) return instances_dir_name def extract_test_name(base_path): """Extracts the name of the test based to a path to its test*.py file Must be unique in each test directory (because it's used to make instances dir and to stop docker containers from previous run) """ name = p.basename(base_path) if name == "test.py": name = "" elif name.startswith("test_") and name.endswith(".py"): name = name[len("test_") : (len(name) - len(".py"))] return name class ClickHouseCluster: """ClickHouse cluster with several instances and (possibly) ZooKeeper. Add instances with several calls to add_instance(), then start them with the start() call. Directories for instances are created in the directory of base_path. After cluster is started, these directories will contain logs, database files, docker-compose config, ClickHouse configs etc. """ def __init__( self, base_path, name=None, base_config_dir=None, server_bin_path=None, client_bin_path=None, odbc_bridge_bin_path=None, library_bridge_bin_path=None, zookeeper_config_path=None, custom_dockerd_host=None, zookeeper_keyfile=None, zookeeper_certfile=None, with_spark=False, ): for param in list(os.environ.keys()): logging.debug("ENV %40s %s" % (param, os.environ[param])) self.base_path = base_path self.base_dir = p.dirname(base_path) self.name = name if name is not None else extract_test_name(base_path) self.base_config_dir = base_config_dir or os.environ.get( "CLICKHOUSE_TESTS_BASE_CONFIG_DIR", "/etc/clickhouse-server/" ) self.server_bin_path = p.realpath( server_bin_path or os.environ.get("CLICKHOUSE_TESTS_SERVER_BIN_PATH", "/usr/bin/clickhouse") ) self.odbc_bridge_bin_path = p.realpath( odbc_bridge_bin_path or get_odbc_bridge_path() ) self.library_bridge_bin_path = p.realpath( library_bridge_bin_path or get_library_bridge_path() ) self.client_bin_path = p.realpath( client_bin_path or os.environ.get( "CLICKHOUSE_TESTS_CLIENT_BIN_PATH", "/usr/bin/clickhouse-client" ) ) self.zookeeper_config_path = ( p.join(self.base_dir, zookeeper_config_path) if zookeeper_config_path else p.join(HELPERS_DIR, "zookeeper_config.xml") ) project_name = ( pwd.getpwuid(os.getuid()).pw_name + p.basename(self.base_dir) + self.name ) # docker-compose removes everything non-alphanumeric from project names so we do it too. self.project_name = re.sub(r"[^a-z0-9]", "", project_name.lower()) self.instances_dir_name = get_instances_dir(self.name) self.instances_dir = p.join(self.base_dir, self.instances_dir_name) self.docker_logs_path = p.join(self.instances_dir, "docker.log") self.env_file = p.join(self.instances_dir, DEFAULT_ENV_NAME) self.env_variables = {} # Problems with glibc 2.36+ [1] # # [1]: https://github.com/ClickHouse/ClickHouse/issues/43426#issuecomment-1368512678 self.env_variables["ASAN_OPTIONS"] = "use_sigaltstack=0" self.env_variables["TSAN_OPTIONS"] = "use_sigaltstack=0" self.env_variables["CLICKHOUSE_WATCHDOG_ENABLE"] = "0" self.env_variables["CLICKHOUSE_NATS_TLS_SECURE"] = "0" self.up_called = False custom_dockerd_host = custom_dockerd_host or os.environ.get( "CLICKHOUSE_TESTS_DOCKERD_HOST" ) self.docker_api_version = os.environ.get("DOCKER_API_VERSION") self.docker_base_tag = os.environ.get("DOCKER_BASE_TAG", "latest") self.base_cmd = ["docker-compose"] if custom_dockerd_host: self.base_cmd += ["--host", custom_dockerd_host] self.base_cmd += ["--env-file", self.env_file] self.base_cmd += ["--project-name", self.project_name] self.base_zookeeper_cmd = None self.base_mysql_cmd = [] self.base_kafka_cmd = [] self.base_kerberized_kafka_cmd = [] self.base_kerberos_kdc_cmd = [] self.base_rabbitmq_cmd = [] self.base_nats_cmd = [] self.base_cassandra_cmd = [] self.base_jdbc_bridge_cmd = [] self.base_redis_cmd = [] self.pre_zookeeper_commands = [] self.instances = {} self.with_zookeeper = False self.with_zookeeper_secure = False self.with_mysql_client = False self.with_mysql = False self.with_mysql8 = False self.with_mysql_cluster = False self.with_postgres = False self.with_postgres_cluster = False self.with_postgresql_java_client = False self.with_kafka = False self.with_kerberized_kafka = False self.with_kerberos_kdc = False self.with_rabbitmq = False self.with_nats = False self.with_odbc_drivers = False self.with_hdfs = False self.with_kerberized_hdfs = False self.with_mongo = False self.with_mongo_secure = False self.with_net_trics = False self.with_redis = False self.with_cassandra = False self.with_ldap = False self.with_jdbc_bridge = False self.with_nginx = False self.with_hive = False self.with_coredns = False # available when with_minio == True self.with_minio = False self.minio_dir = os.path.join(self.instances_dir, "minio") self.minio_certs_dir = None # source for certificates self.minio_data_dir = p.join(self.minio_dir, "data") self.minio_host = "minio1" self.minio_ip = None self.minio_bucket = "root" self.minio_bucket_2 = "root2" self.minio_port = 9001 self.minio_client = None # type: Minio self.minio_redirect_host = "proxy1" self.minio_redirect_ip = None self.minio_redirect_port = 8080 self.spark_session = None self.with_azurite = False self._azurite_port = 0 # available when with_hdfs == True self.hdfs_host = "hdfs1" self.hdfs_ip = None self.hdfs_name_port = 50070 self.hdfs_data_port = 50075 self.hdfs_dir = p.abspath(p.join(self.instances_dir, "hdfs")) self.hdfs_logs_dir = os.path.join(self.hdfs_dir, "logs") self.hdfs_api = None # also for kerberized hdfs # available when with_kerberized_hdfs == True self.hdfs_kerberized_host = "kerberizedhdfs1" self.hdfs_kerberized_ip = None self.hdfs_kerberized_name_port = 50070 self.hdfs_kerberized_data_port = 1006 self.hdfs_kerberized_dir = p.abspath( p.join(self.instances_dir, "kerberized_hdfs") ) self.hdfs_kerberized_logs_dir = os.path.join(self.hdfs_kerberized_dir, "logs") # available when with_kafka == True self.kafka_host = "kafka1" self.kafka_dir = os.path.join(self.instances_dir, "kafka") self._kafka_port = 0 self.kafka_docker_id = None self.schema_registry_host = "schema-registry" self._schema_registry_port = 0 self.schema_registry_auth_host = "schema-registry-auth" self._schema_registry_auth_port = 0 self.kafka_docker_id = self.get_instance_docker_id(self.kafka_host) self.coredns_host = "coredns" # available when with_kerberozed_kafka == True # reuses kafka_dir self.kerberized_kafka_host = "kerberized_kafka1" self._kerberized_kafka_port = 0 self.kerberized_kafka_docker_id = self.get_instance_docker_id( self.kerberized_kafka_host ) # available when with_kerberos_kdc == True self.kerberos_kdc_host = "kerberoskdc" self.keberos_kdc_docker_id = self.get_instance_docker_id(self.kerberos_kdc_host) # available when with_mongo == True self.mongo_host = "mongo1" self._mongo_port = 0 self.mongo_no_cred_host = "mongo2" self._mongo_no_cred_port = 0 # available when with_cassandra == True self.cassandra_host = "cassandra1" self.cassandra_port = 9042 self.cassandra_ip = None self.cassandra_id = self.get_instance_docker_id(self.cassandra_host) # available when with_ldap == True self.ldap_host = "openldap" self.ldap_container = None self.ldap_port = 1389 self.ldap_id = self.get_instance_docker_id(self.ldap_host) # available when with_rabbitmq == True self.rabbitmq_host = "rabbitmq1" self.rabbitmq_ip = None self.rabbitmq_port = 5672 self.rabbitmq_dir = p.abspath(p.join(self.instances_dir, "rabbitmq")) self.rabbitmq_cookie_file = os.path.join(self.rabbitmq_dir, "erlang.cookie") self.rabbitmq_logs_dir = os.path.join(self.rabbitmq_dir, "logs") self.rabbitmq_cookie = self.get_instance_docker_id(self.rabbitmq_host) self.nats_host = "nats1" self.nats_port = 4444 self.nats_docker_id = None self.nats_dir = p.abspath(p.join(self.instances_dir, "nats")) self.nats_cert_dir = os.path.join(self.nats_dir, "cert") self.nats_ssl_context = None # available when with_nginx == True self.nginx_host = "nginx" self.nginx_ip = None self.nginx_port = 80 self.nginx_id = self.get_instance_docker_id(self.nginx_host) # available when with_redis == True self.redis_host = "redis1" self._redis_port = 0 # available when with_postgres == True self.postgres_host = "postgres1" self.postgres_ip = None self.postgres_conn = None self.postgres2_host = "postgres2" self.postgres2_ip = None self.postgres2_conn = None self.postgres3_host = "postgres3" self.postgres3_ip = None self.postgres3_conn = None self.postgres4_host = "postgres4" self.postgres4_ip = None self.postgres4_conn = None self.postgres_port = 5432 self.postgres_dir = p.abspath(p.join(self.instances_dir, "postgres")) self.postgres_logs_dir = os.path.join(self.postgres_dir, "postgres1") self.postgres2_logs_dir = os.path.join(self.postgres_dir, "postgres2") self.postgres3_logs_dir = os.path.join(self.postgres_dir, "postgres3") self.postgres4_logs_dir = os.path.join(self.postgres_dir, "postgres4") self.postgres_id = self.get_instance_docker_id(self.postgres_host) # available when with_postgresql_java_client = True self.postgresql_java_client_host = "java" self.postgresql_java_client_docker_id = self.get_instance_docker_id( self.postgresql_java_client_host ) # available when with_mysql_client == True self.mysql_client_host = "mysql_client" self.mysql_client_container = None # available when with_mysql == True self.mysql_host = "mysql57" self.mysql_port = 3306 self.mysql_ip = None self.mysql_dir = p.abspath(p.join(self.instances_dir, "mysql")) self.mysql_logs_dir = os.path.join(self.mysql_dir, "logs") # available when with_mysql_cluster == True self.mysql2_host = "mysql2" self.mysql3_host = "mysql3" self.mysql4_host = "mysql4" self.mysql2_ip = None self.mysql3_ip = None self.mysql4_ip = None self.mysql_cluster_dir = p.abspath(p.join(self.instances_dir, "mysql")) self.mysql_cluster_logs_dir = os.path.join(self.mysql_dir, "logs") # available when with_mysql8 == True self.mysql8_host = "mysql80" self.mysql8_port = 3306 self.mysql8_ip = None self.mysql8_dir = p.abspath(p.join(self.instances_dir, "mysql8")) self.mysql8_logs_dir = os.path.join(self.mysql8_dir, "logs") # available when with_zookeper_secure == True self.zookeeper_secure_port = 2281 self.zookeeper_keyfile = zookeeper_keyfile self.zookeeper_certfile = zookeeper_certfile # available when with_zookeper == True self.use_keeper = True self.zookeeper_port = 2181 self.keeper_instance_dir_prefix = p.join( p.abspath(self.instances_dir), "keeper" ) # if use_keeper = True self.zookeeper_instance_dir_prefix = p.join(self.instances_dir, "zk") self.zookeeper_dirs_to_create = [] # available when with_jdbc_bridge == True self.jdbc_bridge_host = "bridge1" self.jdbc_bridge_ip = None self.jdbc_bridge_port = 9019 self.jdbc_driver_dir = p.abspath(p.join(self.instances_dir, "jdbc_driver")) self.jdbc_driver_logs_dir = os.path.join(self.jdbc_driver_dir, "logs") self.docker_client = None self.is_up = False self.env = os.environ.copy() logging.debug(f"CLUSTER INIT base_config_dir:{self.base_config_dir}") if p.exists(self.instances_dir): shutil.rmtree(self.instances_dir, ignore_errors=True) logging.debug(f"Removed :{self.instances_dir}") if with_spark: import pyspark # if you change packages, don't forget to update them in docker/test/integration/runner/dockerd-entrypoint.sh ( pyspark.sql.SparkSession.builder.appName("spark_test") # The jars are now linked to "$SPARK_HOME/jars" and we don't # need packages to be downloaded once and once again # .config( # "spark.jars.packages", # "org.apache.hudi:hudi-spark3.3-bundle_2.12:0.13.0,io.delta:delta-core_2.12:2.2.0,org.apache.iceberg:iceberg-spark-runtime-3.3_2.12:1.1.0", # ) .master("local") .getOrCreate() .stop() ) @property def kafka_port(self): if self._kafka_port: return self._kafka_port self._kafka_port = get_free_port() return self._kafka_port @property def schema_registry_port(self): if self._schema_registry_port: return self._schema_registry_port self._schema_registry_port = get_free_port() return self._schema_registry_port @property def schema_registry_auth_port(self): if self._schema_registry_auth_port: return self._schema_registry_auth_port self._schema_registry_auth_port = get_free_port() return self._schema_registry_auth_port @property def kerberized_kafka_port(self): if self._kerberized_kafka_port: return self._kerberized_kafka_port self._kerberized_kafka_port = get_free_port() return self._kerberized_kafka_port @property def azurite_port(self): if self._azurite_port: return self._azurite_port self._azurite_port = get_free_port() return self._azurite_port @property def mongo_port(self): if self._mongo_port: return self._mongo_port self._mongo_port = get_free_port() return self._mongo_port @property def mongo_no_cred_port(self): if self._mongo_no_cred_port: return self._mongo_no_cred_port self._mongo_no_cred_port = get_free_port() return self._mongo_no_cred_port @property def redis_port(self): if self._redis_port: return self._redis_port self._redis_port = get_free_port() return self._redis_port def print_all_docker_pieces(self): res_networks = subprocess.check_output( f"docker network ls --filter name='{self.project_name}*'", shell=True, universal_newlines=True, ) logging.debug( f"Docker networks for project {self.project_name} are {res_networks}" ) res_containers = subprocess.check_output( f"docker container ls -a --filter name='{self.project_name}*'", shell=True, universal_newlines=True, ) logging.debug( f"Docker containers for project {self.project_name} are {res_containers}" ) res_volumes = subprocess.check_output( f"docker volume ls --filter name='{self.project_name}*'", shell=True, universal_newlines=True, ) logging.debug( f"Docker volumes for project {self.project_name} are {res_volumes}" ) def cleanup(self): logging.debug("Cleanup called") self.print_all_docker_pieces() if ( os.environ and "DISABLE_CLEANUP" in os.environ and os.environ["DISABLE_CLEANUP"] == "1" ): logging.warning("Cleanup is disabled") return # Just in case kill unstopped containers from previous launch try: unstopped_containers = self.get_running_containers() logging.debug(f"Unstopped containers: {unstopped_containers}") if len(unstopped_containers): logging.debug( f"Trying to kill unstopped containers: {unstopped_containers}" ) for id in unstopped_containers: run_and_check(f"docker kill {id}", shell=True, nothrow=True) run_and_check(f"docker rm {id}", shell=True, nothrow=True) unstopped_containers = self.get_running_containers() if unstopped_containers: logging.debug(f"Left unstopped containers: {unstopped_containers}") else: logging.debug(f"Unstopped containers killed.") else: logging.debug(f"No running containers for project: {self.project_name}") except Exception as ex: logging.debug(f"Got exception removing containers {str(ex)}") # # Just in case remove unused networks try: logging.debug("Trying to prune unused networks...") list_networks = subprocess.check_output( f"docker network ls -q --filter name='{self.project_name}'", shell=True, universal_newlines=True, ).splitlines() if list_networks: logging.debug(f"Trying to remove networks: {list_networks}") run_and_check(f"docker network rm {' '.join(list_networks)}") logging.debug(f"Networks removed: {list_networks}") except: pass # Remove unused images try: logging.debug("Trying to prune unused images...") run_and_check(["docker", "image", "prune", "-f"]) logging.debug("Images pruned") except: pass # Remove unused volumes try: logging.debug("Trying to prune unused volumes...") result = run_and_check(["docker volume ls | wc -l"], shell=True) if int(result > 0): run_and_check(["docker", "volume", "prune", "-f"]) logging.debug(f"Volumes pruned: {result}") except: pass def get_docker_handle(self, docker_id): exception = None for i in range(5): try: return self.docker_client.containers.get(docker_id) except Exception as ex: print("Got exception getting docker handle", str(ex)) time.sleep(i * 2) exception = ex raise exception def get_client_cmd(self): cmd = self.client_bin_path if p.basename(cmd) == "clickhouse": cmd += " client" return cmd # Returns the list of currently running docker containers corresponding to this ClickHouseCluster. def get_running_containers(self): # docker-compose names containers using the following formula: # container_name = project_name + '_' + instance_name + '_1' # We need to have "^/" and "$" in the "--filter name" option below to filter by exact name of the container, see # https://stackoverflow.com/questions/48767760/how-to-make-docker-container-ls-f-name-filter-by-exact-name filter_name = f"^/{self.project_name}_.*_1$" # We want the command "docker container list" to show only containers' ID and their names, separated by colon. format = "{{.ID}}:{{.Names}}" containers = run_and_check( f"docker container list --all --filter name='{filter_name}' --format '{format}'", shell=True, ) containers = dict(line.split(":", 1) for line in containers.splitlines()) return containers def copy_file_from_container_to_container( self, src_node, src_path, dst_node, dst_path ): fname = os.path.basename(src_path) run_and_check( [f"docker cp {src_node.docker_id}:{src_path} {self.instances_dir}"], shell=True, ) run_and_check( [f"docker cp {self.instances_dir}/{fname} {dst_node.docker_id}:{dst_path}"], shell=True, ) def setup_zookeeper_secure_cmd( self, instance, env_variables, docker_compose_yml_dir ): logging.debug("Setup ZooKeeper Secure") zookeeper_docker_compose_path = p.join( docker_compose_yml_dir, "docker_compose_zookeeper_secure.yml" ) env_variables["ZOO_SECURE_CLIENT_PORT"] = str(self.zookeeper_secure_port) env_variables["ZK_FS"] = "bind" for i in range(1, 4): zk_data_path = os.path.join( self.zookeeper_instance_dir_prefix + str(i), "data" ) zk_log_path = os.path.join( self.zookeeper_instance_dir_prefix + str(i), "log" ) env_variables["ZK_DATA" + str(i)] = zk_data_path env_variables["ZK_DATA_LOG" + str(i)] = zk_log_path self.zookeeper_dirs_to_create += [zk_data_path, zk_log_path] logging.debug(f"DEBUG ZK: {self.zookeeper_dirs_to_create}") self.with_zookeeper_secure = True self.base_cmd.extend(["--file", zookeeper_docker_compose_path]) self.base_zookeeper_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", zookeeper_docker_compose_path, ] return self.base_zookeeper_cmd def setup_zookeeper_cmd(self, instance, env_variables, docker_compose_yml_dir): logging.debug("Setup ZooKeeper") zookeeper_docker_compose_path = p.join( docker_compose_yml_dir, "docker_compose_zookeeper.yml" ) env_variables["ZK_FS"] = "bind" for i in range(1, 4): zk_data_path = os.path.join( self.zookeeper_instance_dir_prefix + str(i), "data" ) zk_log_path = os.path.join( self.zookeeper_instance_dir_prefix + str(i), "log" ) env_variables["ZK_DATA" + str(i)] = zk_data_path env_variables["ZK_DATA_LOG" + str(i)] = zk_log_path self.zookeeper_dirs_to_create += [zk_data_path, zk_log_path] logging.debug(f"DEBUG ZK: {self.zookeeper_dirs_to_create}") self.with_zookeeper = True self.base_cmd.extend(["--file", zookeeper_docker_compose_path]) self.base_zookeeper_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", zookeeper_docker_compose_path, ] return self.base_zookeeper_cmd def setup_keeper_cmd(self, instance, env_variables, docker_compose_yml_dir): logging.debug("Setup Keeper") keeper_docker_compose_path = p.join( docker_compose_yml_dir, "docker_compose_keeper.yml" ) binary_path = self.server_bin_path binary_dir = os.path.dirname(self.server_bin_path) # always prefer clickhouse-keeper standalone binary if os.path.exists( os.path.join(binary_dir, "clickhouse-keeper") ) and not os.path.islink(os.path.join(binary_dir, "clickhouse-keeper")): binary_path = os.path.join(binary_dir, "clickhouse-keeper") keeper_cmd_prefix = "clickhouse-keeper" else: if binary_path.endswith("-server"): binary_path = binary_path[: -len("-server")] keeper_cmd_prefix = "clickhouse keeper" env_variables["keeper_binary"] = binary_path env_variables["keeper_cmd_prefix"] = keeper_cmd_prefix env_variables["image"] = "clickhouse/integration-test:" + self.docker_base_tag env_variables["user"] = str(os.getuid()) env_variables["keeper_fs"] = "bind" for i in range(1, 4): keeper_instance_dir = self.keeper_instance_dir_prefix + f"{i}" logs_dir = os.path.join(keeper_instance_dir, "log") configs_dir = os.path.join(keeper_instance_dir, "config") coordination_dir = os.path.join(keeper_instance_dir, "coordination") env_variables[f"keeper_logs_dir{i}"] = logs_dir env_variables[f"keeper_config_dir{i}"] = configs_dir env_variables[f"keeper_db_dir{i}"] = coordination_dir self.zookeeper_dirs_to_create += [logs_dir, configs_dir, coordination_dir] self.with_zookeeper = True self.base_cmd.extend(["--file", keeper_docker_compose_path]) self.base_zookeeper_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", keeper_docker_compose_path, ] return self.base_zookeeper_cmd def setup_mysql_client_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_mysql_client = True self.base_cmd.extend( [ "--file", p.join(docker_compose_yml_dir, "docker_compose_mysql_client.yml"), ] ) self.base_mysql_client_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_mysql_client.yml"), ] return self.base_mysql_client_cmd def setup_mysql_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_mysql = True env_variables["MYSQL_HOST"] = self.mysql_host env_variables["MYSQL_PORT"] = str(self.mysql_port) env_variables["MYSQL_ROOT_HOST"] = "%" env_variables["MYSQL_LOGS"] = self.mysql_logs_dir env_variables["MYSQL_LOGS_FS"] = "bind" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_mysql.yml")] ) self.base_mysql_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_mysql.yml"), ] return self.base_mysql_cmd def setup_mysql8_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_mysql8 = True env_variables["MYSQL8_HOST"] = self.mysql8_host env_variables["MYSQL8_PORT"] = str(self.mysql8_port) env_variables["MYSQL8_ROOT_HOST"] = "%" env_variables["MYSQL8_LOGS"] = self.mysql8_logs_dir env_variables["MYSQL8_LOGS_FS"] = "bind" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_mysql_8_0.yml")] ) self.base_mysql8_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_mysql_8_0.yml"), ] return self.base_mysql8_cmd def setup_mysql_cluster_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_mysql_cluster = True env_variables["MYSQL_CLUSTER_PORT"] = str(self.mysql_port) env_variables["MYSQL_CLUSTER_ROOT_HOST"] = "%" env_variables["MYSQL_CLUSTER_LOGS"] = self.mysql_cluster_logs_dir env_variables["MYSQL_CLUSTER_LOGS_FS"] = "bind" self.base_cmd.extend( [ "--file", p.join(docker_compose_yml_dir, "docker_compose_mysql_cluster.yml"), ] ) self.base_mysql_cluster_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_mysql_cluster.yml"), ] return self.base_mysql_cluster_cmd def setup_postgres_cmd(self, instance, env_variables, docker_compose_yml_dir): self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_postgres.yml")] ) env_variables["POSTGRES_PORT"] = str(self.postgres_port) env_variables["POSTGRES_DIR"] = self.postgres_logs_dir env_variables["POSTGRES_LOGS_FS"] = "bind" self.with_postgres = True self.base_postgres_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_postgres.yml"), ] return self.base_postgres_cmd def setup_postgres_cluster_cmd( self, instance, env_variables, docker_compose_yml_dir ): self.with_postgres_cluster = True env_variables["POSTGRES_PORT"] = str(self.postgres_port) env_variables["POSTGRES2_DIR"] = self.postgres2_logs_dir env_variables["POSTGRES3_DIR"] = self.postgres3_logs_dir env_variables["POSTGRES4_DIR"] = self.postgres4_logs_dir env_variables["POSTGRES_LOGS_FS"] = "bind" self.base_cmd.extend( [ "--file", p.join(docker_compose_yml_dir, "docker_compose_postgres_cluster.yml"), ] ) self.base_postgres_cluster_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_postgres_cluster.yml"), ] def setup_postgresql_java_client_cmd( self, instance, env_variables, docker_compose_yml_dir ): self.with_postgresql_java_client = True self.base_cmd.extend( [ "--file", p.join( docker_compose_yml_dir, "docker_compose_postgresql_java_client.yml" ), ] ) self.base_postgresql_java_client_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_postgresql_java_client.yml"), ] def setup_hdfs_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_hdfs = True env_variables["HDFS_HOST"] = self.hdfs_host env_variables["HDFS_NAME_PORT"] = str(self.hdfs_name_port) env_variables["HDFS_DATA_PORT"] = str(self.hdfs_data_port) env_variables["HDFS_LOGS"] = self.hdfs_logs_dir env_variables["HDFS_FS"] = "bind" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_hdfs.yml")] ) self.base_hdfs_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_hdfs.yml"), ] logging.debug("HDFS BASE CMD:{self.base_hdfs_cmd)}") return self.base_hdfs_cmd def setup_kerberized_hdfs_cmd( self, instance, env_variables, docker_compose_yml_dir ): self.with_kerberized_hdfs = True env_variables["KERBERIZED_HDFS_HOST"] = self.hdfs_kerberized_host env_variables["KERBERIZED_HDFS_NAME_PORT"] = str(self.hdfs_kerberized_name_port) env_variables["KERBERIZED_HDFS_DATA_PORT"] = str(self.hdfs_kerberized_data_port) env_variables["KERBERIZED_HDFS_LOGS"] = self.hdfs_kerberized_logs_dir env_variables["KERBERIZED_HDFS_FS"] = "bind" env_variables["KERBERIZED_HDFS_DIR"] = instance.path + "/" self.base_cmd.extend( [ "--file", p.join(docker_compose_yml_dir, "docker_compose_kerberized_hdfs.yml"), ] ) self.base_kerberized_hdfs_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_kerberized_hdfs.yml"), ] return self.base_kerberized_hdfs_cmd def setup_kafka_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_kafka = True env_variables["KAFKA_HOST"] = self.kafka_host env_variables["KAFKA_EXTERNAL_PORT"] = str(self.kafka_port) env_variables["SCHEMA_REGISTRY_DIR"] = instance.path + "/" env_variables["SCHEMA_REGISTRY_EXTERNAL_PORT"] = str(self.schema_registry_port) env_variables["SCHEMA_REGISTRY_AUTH_EXTERNAL_PORT"] = str( self.schema_registry_auth_port ) self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_kafka.yml")] ) self.base_kafka_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_kafka.yml"), ] return self.base_kafka_cmd def setup_kerberized_kafka_cmd( self, instance, env_variables, docker_compose_yml_dir ): self.with_kerberized_kafka = True env_variables["KERBERIZED_KAFKA_DIR"] = instance.path + "/" env_variables["KERBERIZED_KAFKA_HOST"] = self.kerberized_kafka_host env_variables["KERBERIZED_KAFKA_EXTERNAL_PORT"] = str( self.kerberized_kafka_port ) self.base_cmd.extend( [ "--file", p.join(docker_compose_yml_dir, "docker_compose_kerberized_kafka.yml"), ] ) self.base_kerberized_kafka_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_kerberized_kafka.yml"), ] return self.base_kerberized_kafka_cmd def setup_kerberos_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_kerberos_kdc = True env_variables["KERBEROS_KDC_DIR"] = self.instances_dir + "/" env_variables["KERBEROS_KDC_HOST"] = self.kerberos_kdc_host self.base_cmd.extend( [ "--file", p.join(docker_compose_yml_dir, "docker_compose_kerberos_kdc.yml"), ] ) self.base_kerberos_kdc_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_kerberos_kdc.yml"), ] return self.base_kerberos_kdc_cmd def setup_redis_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_redis = True env_variables["REDIS_HOST"] = self.redis_host env_variables["REDIS_EXTERNAL_PORT"] = str(self.redis_port) env_variables["REDIS_INTERNAL_PORT"] = "6379" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_redis.yml")] ) self.base_redis_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_redis.yml"), ] return self.base_redis_cmd def setup_rabbitmq_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_rabbitmq = True env_variables["RABBITMQ_HOST"] = self.rabbitmq_host env_variables["RABBITMQ_PORT"] = str(self.rabbitmq_port) env_variables["RABBITMQ_LOGS"] = self.rabbitmq_logs_dir env_variables["RABBITMQ_LOGS_FS"] = "bind" env_variables["RABBITMQ_COOKIE_FILE"] = self.rabbitmq_cookie_file env_variables["RABBITMQ_COOKIE_FILE_FS"] = "bind" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_rabbitmq.yml")] ) self.base_rabbitmq_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_rabbitmq.yml"), ] return self.base_rabbitmq_cmd def setup_nats_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_nats = True env_variables["NATS_HOST"] = self.nats_host env_variables["NATS_INTERNAL_PORT"] = "4444" env_variables["NATS_EXTERNAL_PORT"] = str(self.nats_port) env_variables["NATS_CERT_DIR"] = self.nats_cert_dir self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_nats.yml")] ) self.base_nats_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_nats.yml"), ] return self.base_nats_cmd def setup_mongo_secure_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_mongo = self.with_mongo_secure = True env_variables["MONGO_HOST"] = self.mongo_host env_variables["MONGO_EXTERNAL_PORT"] = str(self.mongo_port) env_variables["MONGO_INTERNAL_PORT"] = "27017" env_variables["MONGO_CONFIG_PATH"] = HELPERS_DIR self.base_cmd.extend( [ "--file", p.join(docker_compose_yml_dir, "docker_compose_mongo_secure.yml"), ] ) self.base_mongo_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_mongo_secure.yml"), ] return self.base_mongo_cmd def setup_mongo_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_mongo = True env_variables["MONGO_HOST"] = self.mongo_host env_variables["MONGO_EXTERNAL_PORT"] = str(self.mongo_port) env_variables["MONGO_INTERNAL_PORT"] = "27017" env_variables["MONGO_NO_CRED_EXTERNAL_PORT"] = str(self.mongo_no_cred_port) env_variables["MONGO_NO_CRED_INTERNAL_PORT"] = "27017" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_mongo.yml")] ) self.base_mongo_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_mongo.yml"), ] return self.base_mongo_cmd def setup_coredns_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_coredns = True env_variables["COREDNS_CONFIG_DIR"] = instance.path + "/" + "coredns_config" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_coredns.yml")] ) self.base_coredns_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_coredns.yml"), ] return self.base_coredns_cmd def setup_minio_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_minio = True cert_d = p.join(self.minio_dir, "certs") env_variables["MINIO_CERTS_DIR"] = cert_d env_variables["MINIO_DATA_DIR"] = self.minio_data_dir env_variables["MINIO_PORT"] = str(self.minio_port) env_variables["SSL_CERT_FILE"] = p.join(self.base_dir, cert_d, "public.crt") self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_minio.yml")] ) self.base_minio_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_minio.yml"), ] return self.base_minio_cmd def setup_azurite_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_azurite = True env_variables["AZURITE_PORT"] = str(self.azurite_port) env_variables[ "AZURITE_STORAGE_ACCOUNT_URL" ] = f"http://azurite1:{env_variables['AZURITE_PORT']}/devstoreaccount1" env_variables["AZURITE_CONNECTION_STRING"] = ( f"DefaultEndpointsProtocol=http;AccountName=devstoreaccount1;" f"AccountKey=Eby8vdM02xNOcqFlqUwJPLlmEtlCDXJ1OUzFT50uSRZ6IFsuFq2UVErCz4I6tq/K1SZFPTOtr/KBHBeksoGMGw==;" f"BlobEndpoint={env_variables['AZURITE_STORAGE_ACCOUNT_URL']};" ) self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_azurite.yml")] ) self.base_azurite_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_azurite.yml"), ] return self.base_azurite_cmd def setup_cassandra_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_cassandra = True env_variables["CASSANDRA_PORT"] = str(self.cassandra_port) self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_cassandra.yml")] ) self.base_cassandra_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_cassandra.yml"), ] return self.base_cassandra_cmd def setup_ldap_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_ldap = True env_variables["LDAP_EXTERNAL_PORT"] = str(self.ldap_port) self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_ldap.yml")] ) self.base_ldap_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_ldap.yml"), ] return self.base_ldap_cmd def setup_jdbc_bridge_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_jdbc_bridge = True env_variables["JDBC_DRIVER_LOGS"] = self.jdbc_driver_logs_dir env_variables["JDBC_DRIVER_FS"] = "bind" self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_jdbc_bridge.yml")] ) self.base_jdbc_bridge_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_jdbc_bridge.yml"), ] return self.base_jdbc_bridge_cmd def setup_nginx_cmd(self, instance, env_variables, docker_compose_yml_dir): self.with_nginx = True self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_nginx.yml")] ) self.base_nginx_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_nginx.yml"), ] return self.base_nginx_cmd def setup_hive(self, instance, env_variables, docker_compose_yml_dir): self.with_hive = True self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_hive.yml")] ) self.base_hive_cmd = [ "docker-compose", "--env-file", instance.env_file, "--project-name", self.project_name, "--file", p.join(docker_compose_yml_dir, "docker_compose_hive.yml"), ] return self.base_hive_cmd def add_instance( self, name, base_config_dir=None, main_configs=None, user_configs=None, dictionaries=None, macros=None, with_zookeeper=False, with_zookeeper_secure=False, with_mysql_client=False, with_mysql=False, with_mysql8=False, with_mysql_cluster=False, with_kafka=False, with_kerberized_kafka=False, with_kerberos_kdc=False, with_secrets=False, with_rabbitmq=False, with_nats=False, clickhouse_path_dir=None, with_odbc_drivers=False, with_postgres=False, with_postgres_cluster=False, with_postgresql_java_client=False, clickhouse_log_file=CLICKHOUSE_LOG_FILE, clickhouse_error_log_file=CLICKHOUSE_ERROR_LOG_FILE, with_hdfs=False, with_kerberized_hdfs=False, with_mongo=False, with_mongo_secure=False, with_nginx=False, with_redis=False, with_minio=False, with_azurite=False, with_cassandra=False, with_ldap=False, with_jdbc_bridge=False, with_hive=False, with_coredns=False, allow_analyzer=True, hostname=None, env_variables=None, instance_env_variables=False, image="clickhouse/integration-test", tag=None, stay_alive=False, ipv4_address=None, ipv6_address=None, with_installed_binary=False, external_dirs=None, tmpfs=None, zookeeper_docker_compose_path=None, minio_certs_dir=None, minio_data_dir=None, use_keeper=True, main_config_name="config.xml", users_config_name="users.xml", copy_common_configs=True, config_root_name="clickhouse", extra_configs=[], ) -> "ClickHouseInstance": """Add an instance to the cluster. name - the name of the instance directory and the value of the 'instance' macro in ClickHouse. base_config_dir - a directory with config.xml and users.xml files which will be copied to /etc/clickhouse-server/ directory main_configs - a list of config files that will be added to config.d/ directory user_configs - a list of config files that will be added to users.d/ directory with_zookeeper - if True, add ZooKeeper configuration to configs and ZooKeeper instances to the cluster. with_zookeeper_secure - if True, add ZooKeeper Secure configuration to configs and ZooKeeper instances to the cluster. extra_configs - config files cannot put into config.d and users.d """ if self.is_up: raise Exception("Can't add instance %s: cluster is already up!" % name) if name in self.instances: raise Exception( "Can't add instance `%s': there is already an instance with the same name!" % name ) if tag is None: tag = self.docker_base_tag if not env_variables: env_variables = {} self.use_keeper = use_keeper # Code coverage files will be placed in database directory # (affect only WITH_COVERAGE=1 build) env_variables[ "LLVM_PROFILE_FILE" ] = "/var/lib/clickhouse/server_%h_%p_%m.profraw" clickhouse_start_command = CLICKHOUSE_START_COMMAND if clickhouse_log_file: clickhouse_start_command += " --log-file=" + clickhouse_log_file if clickhouse_error_log_file: clickhouse_start_command += " --errorlog-file=" + clickhouse_error_log_file logging.debug(f"clickhouse_start_command: {clickhouse_start_command}") instance = ClickHouseInstance( cluster=self, base_path=self.base_dir, name=name, base_config_dir=base_config_dir if base_config_dir else self.base_config_dir, custom_main_configs=main_configs or [], custom_user_configs=user_configs or [], custom_dictionaries=dictionaries or [], macros=macros or {}, with_zookeeper=with_zookeeper, zookeeper_config_path=self.zookeeper_config_path, with_mysql_client=with_mysql_client, with_mysql=with_mysql, with_mysql8=with_mysql8, with_mysql_cluster=with_mysql_cluster, with_kafka=with_kafka, with_kerberized_kafka=with_kerberized_kafka, with_kerberos_kdc=with_kerberos_kdc, with_rabbitmq=with_rabbitmq, with_nats=with_nats, with_nginx=with_nginx, with_kerberized_hdfs=with_kerberized_hdfs, with_secrets=with_secrets or with_kerberized_hdfs or with_kerberos_kdc or with_kerberized_kafka, with_mongo=with_mongo or with_mongo_secure, with_redis=with_redis, with_minio=with_minio, with_azurite=with_azurite, with_jdbc_bridge=with_jdbc_bridge, with_hive=with_hive, with_coredns=with_coredns, with_cassandra=with_cassandra, with_ldap=with_ldap, allow_analyzer=allow_analyzer, server_bin_path=self.server_bin_path, odbc_bridge_bin_path=self.odbc_bridge_bin_path, library_bridge_bin_path=self.library_bridge_bin_path, clickhouse_path_dir=clickhouse_path_dir, with_odbc_drivers=with_odbc_drivers, with_postgres=with_postgres, with_postgres_cluster=with_postgres_cluster, with_postgresql_java_client=with_postgresql_java_client, clickhouse_start_command=clickhouse_start_command, main_config_name=main_config_name, users_config_name=users_config_name, copy_common_configs=copy_common_configs, hostname=hostname, env_variables=env_variables, instance_env_variables=instance_env_variables, image=image, tag=tag, stay_alive=stay_alive, ipv4_address=ipv4_address, ipv6_address=ipv6_address, with_installed_binary=with_installed_binary, external_dirs=external_dirs, tmpfs=tmpfs or [], config_root_name=config_root_name, extra_configs=extra_configs, ) docker_compose_yml_dir = get_docker_compose_path() self.instances[name] = instance if ipv4_address is not None or ipv6_address is not None: self.with_net_trics = True self.base_cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_net.yml")] ) self.base_cmd.extend(["--file", instance.docker_compose_path]) cmds = [] if with_zookeeper_secure and not self.with_zookeeper_secure: cmds.append( self.setup_zookeeper_secure_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_zookeeper and not self.with_zookeeper: if self.use_keeper: cmds.append( self.setup_keeper_cmd( instance, env_variables, docker_compose_yml_dir ) ) else: cmds.append( self.setup_zookeeper_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_mysql_client and not self.with_mysql_client: cmds.append( self.setup_mysql_client_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_mysql and not self.with_mysql: cmds.append( self.setup_mysql_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_mysql8 and not self.with_mysql8: cmds.append( self.setup_mysql8_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_mysql_cluster and not self.with_mysql_cluster: cmds.append( self.setup_mysql_cluster_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_postgres and not self.with_postgres: cmds.append( self.setup_postgres_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_postgres_cluster and not self.with_postgres_cluster: cmds.append( self.setup_postgres_cluster_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_postgresql_java_client and not self.with_postgresql_java_client: cmds.append( self.setup_postgresql_java_client_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_odbc_drivers and not self.with_odbc_drivers: self.with_odbc_drivers = True if not self.with_mysql: cmds.append( self.setup_mysql_cmd( instance, env_variables, docker_compose_yml_dir ) ) if not self.with_postgres: cmds.append( self.setup_postgres_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_kafka and not self.with_kafka: cmds.append( self.setup_kafka_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_kerberized_kafka and not self.with_kerberized_kafka: cmds.append( self.setup_kerberized_kafka_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_kerberos_kdc and not self.with_kerberos_kdc: cmds.append( self.setup_kerberos_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_rabbitmq and not self.with_rabbitmq: cmds.append( self.setup_rabbitmq_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_nats and not self.with_nats: cmds.append( self.setup_nats_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_nginx and not self.with_nginx: cmds.append( self.setup_nginx_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_hdfs and not self.with_hdfs: cmds.append( self.setup_hdfs_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_kerberized_hdfs and not self.with_kerberized_hdfs: cmds.append( self.setup_kerberized_hdfs_cmd( instance, env_variables, docker_compose_yml_dir ) ) if (with_mongo or with_mongo_secure) and not ( self.with_mongo or self.with_mongo_secure ): if with_mongo_secure: cmds.append( self.setup_mongo_secure_cmd( instance, env_variables, docker_compose_yml_dir ) ) else: cmds.append( self.setup_mongo_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_coredns and not self.with_coredns: cmds.append( self.setup_coredns_cmd(instance, env_variables, docker_compose_yml_dir) ) if self.with_net_trics: for cmd in cmds: cmd.extend( ["--file", p.join(docker_compose_yml_dir, "docker_compose_net.yml")] ) if with_redis and not self.with_redis: cmds.append( self.setup_redis_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_minio and not self.with_minio: cmds.append( self.setup_minio_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_azurite and not self.with_azurite: cmds.append( self.setup_azurite_cmd(instance, env_variables, docker_compose_yml_dir) ) if minio_certs_dir is not None: if self.minio_certs_dir is None: self.minio_certs_dir = minio_certs_dir else: raise Exception("Overwriting minio certs dir") if minio_data_dir is not None: if self.minio_data_dir is None: self.minio_data_dir = minio_data_dir else: raise Exception("Overwriting minio data dir") if with_cassandra and not self.with_cassandra: cmds.append( self.setup_cassandra_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_ldap and not self.with_ldap: cmds.append( self.setup_ldap_cmd(instance, env_variables, docker_compose_yml_dir) ) if with_jdbc_bridge and not self.with_jdbc_bridge: cmds.append( self.setup_jdbc_bridge_cmd( instance, env_variables, docker_compose_yml_dir ) ) if with_hive: cmds.append( self.setup_hive(instance, env_variables, docker_compose_yml_dir) ) logging.debug( "Cluster name:{} project_name:{}. Added instance name:{} tag:{} base_cmd:{} docker_compose_yml_dir:{}".format( self.name, self.project_name, name, tag, self.base_cmd, docker_compose_yml_dir, ) ) return instance def get_instance_docker_id(self, instance_name): # According to how docker-compose names containers. return self.project_name + "_" + instance_name + "_1" def _replace(self, path, what, to): with open(path, "r") as p: data = p.read() data = data.replace(what, to) with open(path, "w") as p: p.write(data) def restart_instance_with_ip_change(self, node, new_ip): if "::" in new_ip: if node.ipv6_address is None: raise Exception("You should specity ipv6_address in add_node method") self._replace(node.docker_compose_path, node.ipv6_address, new_ip) node.ipv6_address = new_ip else: if node.ipv4_address is None: raise Exception("You should specity ipv4_address in add_node method") self._replace(node.docker_compose_path, node.ipv4_address, new_ip) node.ipv4_address = new_ip run_and_check(self.base_cmd + ["stop", node.name]) run_and_check(self.base_cmd + ["rm", "--force", "--stop", node.name]) run_and_check( self.base_cmd + ["up", "--force-recreate", "--no-deps", "-d", node.name] ) node.ip_address = self.get_instance_ip(node.name) node.client = Client(node.ip_address, command=self.client_bin_path) logging.info("Restart node with ip change") # In builds with sanitizer the server can take a long time to start node.wait_for_start(start_timeout=180.0, connection_timeout=600.0) # seconds res = node.client.query("SELECT 30") logging.debug(f"Read '{res}'") assert "30\n" == res logging.info("Restarted") return node def restart_service(self, service_name): run_and_check(self.base_cmd + ["restart", service_name]) def get_instance_ip(self, instance_name): logging.debug("get_instance_ip instance_name={}".format(instance_name)) docker_id = self.get_instance_docker_id(instance_name) # for cont in self.docker_client.containers.list(): # logging.debug("CONTAINERS LIST: ID={} NAME={} STATUS={}".format(cont.id, cont.name, cont.status)) handle = self.docker_client.containers.get(docker_id) return list(handle.attrs["NetworkSettings"]["Networks"].values())[0][ "IPAddress" ] def get_instance_global_ipv6(self, instance_name): logging.debug("get_instance_ip instance_name={}".format(instance_name)) docker_id = self.get_instance_docker_id(instance_name) # for cont in self.docker_client.containers.list(): # logging.debug("CONTAINERS LIST: ID={} NAME={} STATUS={}".format(cont.id, cont.name, cont.status)) handle = self.docker_client.containers.get(docker_id) return list(handle.attrs["NetworkSettings"]["Networks"].values())[0][ "GlobalIPv6Address" ] def get_container_id(self, instance_name): return self.get_instance_docker_id(instance_name) # docker_id = self.get_instance_docker_id(instance_name) # handle = self.docker_client.containers.get(docker_id) # return handle.attrs['Id'] def get_container_logs(self, instance_name): container_id = self.get_container_id(instance_name) return self.docker_client.api.logs(container_id).decode() def exec_in_container( self, container_id, cmd, detach=False, nothrow=False, use_cli=True, **kwargs ): if use_cli: logging.debug( f"run container_id:{container_id} detach:{detach} nothrow:{nothrow} cmd: {cmd}" ) exec_cmd = ["docker", "exec"] if "user" in kwargs: exec_cmd += ["-u", kwargs["user"]] if "privileged" in kwargs: exec_cmd += ["--privileged"] result = subprocess_check_call( exec_cmd + [container_id] + cmd, detach=detach, nothrow=nothrow ) return result else: exec_id = self.docker_client.api.exec_create(container_id, cmd, **kwargs) output = self.docker_client.api.exec_start(exec_id, detach=detach) exit_code = self.docker_client.api.exec_inspect(exec_id)["ExitCode"] if exit_code: container_info = self.docker_client.api.inspect_container(container_id) image_id = container_info.get("Image") image_info = self.docker_client.api.inspect_image(image_id) logging.debug(("Command failed in container {}: ".format(container_id))) pprint.pprint(container_info) logging.debug("") logging.debug( ("Container {} uses image {}: ".format(container_id, image_id)) ) pprint.pprint(image_info) logging.debug("") message = 'Cmd "{}" failed in container {}. Return code {}. Output: {}'.format( " ".join(cmd), container_id, exit_code, output ) if nothrow: logging.debug(message) else: raise Exception(message) if not detach: return output.decode() return output def copy_file_to_container(self, container_id, local_path, dest_path): with open(local_path, "rb") as fdata: data = fdata.read() encodedBytes = base64.b64encode(data) encodedStr = str(encodedBytes, "utf-8") self.exec_in_container( container_id, [ "bash", "-c", "echo {} | base64 --decode > {}".format(encodedStr, dest_path), ], ) def wait_for_url( self, url="http://localhost:8123/ping", conn_timeout=2, interval=2, timeout=60 ): if not url.startswith("http"): url = "http://" + url if interval <= 0: interval = 2 if timeout <= 0: timeout = 60 attempts = 1 errors = [] start = time.time() while time.time() - start < timeout: try: requests.get( url, allow_redirects=True, timeout=conn_timeout, verify=False ).raise_for_status() logging.debug( "{} is available after {} seconds".format(url, time.time() - start) ) return except Exception as ex: logging.debug( "{} Attempt {} failed, retrying in {} seconds".format( ex, attempts, interval ) ) attempts += 1 errors += [str(ex)] time.sleep(interval) run_and_check(["docker", "ps", "--all"]) logging.error("Can't connect to URL:{}".format(errors)) raise Exception( "Cannot wait URL {}(interval={}, timeout={}, attempts={})".format( url, interval, timeout, attempts ) ) def wait_mysql_client_to_start(self, timeout=180): start = time.time() errors = [] self.mysql_client_container = self.get_docker_handle( self.get_instance_docker_id(self.mysql_client_host) ) while time.time() - start < timeout: try: info = self.mysql_client_container.client.api.inspect_container( self.mysql_client_container.name ) if info["State"]["Health"]["Status"] == "healthy": logging.debug("Mysql Client Container Started") return time.sleep(1) except Exception as ex: errors += [str(ex)] time.sleep(1) run_and_check(["docker", "ps", "--all"]) logging.error("Can't connect to MySQL Client:{}".format(errors)) raise Exception("Cannot wait MySQL Client container") def wait_mysql_to_start(self, timeout=180): self.mysql_ip = self.get_instance_ip("mysql57") start = time.time() errors = [] while time.time() - start < timeout: try: conn = pymysql.connect( user=mysql_user, password=mysql_pass, host=self.mysql_ip, port=self.mysql_port, ) conn.close() logging.debug("Mysql Started") return except Exception as ex: errors += [str(ex)] time.sleep(0.5) run_and_check(["docker", "ps", "--all"]) logging.error("Can't connect to MySQL:{}".format(errors)) raise Exception("Cannot wait MySQL container") def wait_mysql8_to_start(self, timeout=180): self.mysql8_ip = self.get_instance_ip("mysql80") start = time.time() while time.time() - start < timeout: try: conn = pymysql.connect( user=mysql8_user, password=mysql8_pass, host=self.mysql8_ip, port=self.mysql8_port, ) conn.close() logging.debug("Mysql 8 Started") return except Exception as ex: logging.debug("Can't connect to MySQL 8 " + str(ex)) time.sleep(0.5) run_and_check(["docker", "ps", "--all"]) raise Exception("Cannot wait MySQL 8 container") def wait_mysql_cluster_to_start(self, timeout=180): self.mysql2_ip = self.get_instance_ip(self.mysql2_host) self.mysql3_ip = self.get_instance_ip(self.mysql3_host) self.mysql4_ip = self.get_instance_ip(self.mysql4_host) start = time.time() errors = [] while time.time() - start < timeout: try: for ip in [self.mysql2_ip, self.mysql3_ip, self.mysql4_ip]: conn = pymysql.connect( user=mysql_user, password=mysql_pass, host=ip, port=self.mysql_port, ) conn.close() logging.debug(f"Mysql Started {ip}") return except Exception as ex: errors += [str(ex)] time.sleep(0.5) run_and_check(["docker", "ps", "--all"]) logging.error("Can't connect to MySQL:{}".format(errors)) raise Exception("Cannot wait MySQL container") def wait_postgres_to_start(self, timeout=260): self.postgres_ip = self.get_instance_ip(self.postgres_host) start = time.time() while time.time() - start < timeout: try: self.postgres_conn = psycopg2.connect( host=self.postgres_ip, port=self.postgres_port, database=pg_db, user=pg_user, password=pg_pass, ) self.postgres_conn.set_isolation_level(ISOLATION_LEVEL_AUTOCOMMIT) self.postgres_conn.autocommit = True logging.debug("Postgres Started") return except Exception as ex: logging.debug("Can't connect to Postgres " + str(ex)) time.sleep(0.5) raise Exception("Cannot wait Postgres container") def wait_postgres_cluster_to_start(self, timeout=180): self.postgres2_ip = self.get_instance_ip(self.postgres2_host) self.postgres3_ip = self.get_instance_ip(self.postgres3_host) self.postgres4_ip = self.get_instance_ip(self.postgres4_host) start = time.time() while time.time() - start < timeout: try: self.postgres2_conn = psycopg2.connect( host=self.postgres2_ip, port=self.postgres_port, database=pg_db, user=pg_user, password=pg_pass, ) self.postgres2_conn.set_isolation_level(ISOLATION_LEVEL_AUTOCOMMIT) self.postgres2_conn.autocommit = True logging.debug("Postgres Cluster host 2 started") break except Exception as ex: logging.debug("Can't connect to Postgres host 2" + str(ex)) time.sleep(0.5) while time.time() - start < timeout: try: self.postgres3_conn = psycopg2.connect( host=self.postgres3_ip, port=self.postgres_port, database=pg_db, user=pg_user, password=pg_pass, ) self.postgres3_conn.set_isolation_level(ISOLATION_LEVEL_AUTOCOMMIT) self.postgres3_conn.autocommit = True logging.debug("Postgres Cluster host 3 started") break except Exception as ex: logging.debug("Can't connect to Postgres host 3" + str(ex)) time.sleep(0.5) while time.time() - start < timeout: try: self.postgres4_conn = psycopg2.connect( host=self.postgres4_ip, port=self.postgres_port, database=pg_db, user=pg_user, password=pg_pass, ) self.postgres4_conn.set_isolation_level(ISOLATION_LEVEL_AUTOCOMMIT) self.postgres4_conn.autocommit = True logging.debug("Postgres Cluster host 4 started") return except Exception as ex: logging.debug("Can't connect to Postgres host 4" + str(ex)) time.sleep(0.5) raise Exception("Cannot wait Postgres container") def wait_postgresql_java_client(self, timeout=180): start = time.time() while time.time() - start < timeout: try: if check_postgresql_java_client_is_available( self.postgresql_java_client_docker_id ): logging.debug("PostgreSQL Java Client is available") return True time.sleep(0.5) except Exception as ex: logging.debug("Can't find PostgreSQL Java Client" + str(ex)) time.sleep(0.5) raise Exception("Cannot wait PostgreSQL Java Client container") def wait_rabbitmq_to_start(self, timeout=30): self.print_all_docker_pieces() self.rabbitmq_ip = self.get_instance_ip(self.rabbitmq_host) start = time.time() while time.time() - start < timeout: try: if check_rabbitmq_is_available( self.rabbitmq_docker_id, self.rabbitmq_cookie ): logging.debug("RabbitMQ is available") if enable_consistent_hash_plugin( self.rabbitmq_docker_id, self.rabbitmq_cookie ): logging.debug("RabbitMQ consistent hash plugin is available") return True time.sleep(0.5) except Exception as ex: logging.debug("Can't connect to RabbitMQ " + str(ex)) time.sleep(0.5) try: with open(os.path.join(self.rabbitmq_dir, "docker.log"), "w+") as f: subprocess.check_call( # STYLE_CHECK_ALLOW_SUBPROCESS_CHECK_CALL self.base_rabbitmq_cmd + ["logs"], stdout=f ) rabbitmq_debuginfo(self.rabbitmq_docker_id, self.rabbitmq_cookie) except Exception as e: logging.debug("Unable to get logs from docker.") raise Exception("Cannot wait RabbitMQ container") def wait_nats_is_available(self, max_retries=5): retries = 0 while True: if asyncio.run( check_nats_is_available(self.nats_port, ssl_ctx=self.nats_ssl_context) ): break else: retries += 1 if retries > max_retries: raise Exception("NATS is not available") logging.debug("Waiting for NATS to start up") time.sleep(1) def wait_zookeeper_secure_to_start(self, timeout=20): logging.debug("Wait ZooKeeper Secure to start") start = time.time() while time.time() - start < timeout: try: for instance in ["zoo1", "zoo2", "zoo3"]: conn = self.get_kazoo_client(instance) conn.get_children("/") conn.stop() logging.debug("All instances of ZooKeeper Secure started") return except Exception as ex: logging.debug("Can't connect to ZooKeeper secure " + str(ex)) time.sleep(0.5) raise Exception("Cannot wait ZooKeeper secure container") def wait_zookeeper_to_start(self, timeout=180): logging.debug("Wait ZooKeeper to start") start = time.time() while time.time() - start < timeout: try: for instance in ["zoo1", "zoo2", "zoo3"]: conn = self.get_kazoo_client(instance) conn.get_children("/") conn.stop() logging.debug("All instances of ZooKeeper started") return except Exception as ex: logging.debug(f"Can't connect to ZooKeeper {instance}: {ex}") time.sleep(0.5) raise Exception( "Cannot wait ZooKeeper container (probably it's a `iptables-nft` issue, you may try to `sudo iptables -P FORWARD ACCEPT`)" ) def make_hdfs_api(self, timeout=180, kerberized=False): if kerberized: keytab = p.abspath( p.join(self.instances["node1"].path, "secrets/clickhouse.keytab") ) krb_conf = p.abspath( p.join(self.instances["node1"].path, "secrets/krb_long.conf") ) self.hdfs_kerberized_ip = self.get_instance_ip(self.hdfs_kerberized_host) kdc_ip = self.get_instance_ip("hdfskerberos") self.hdfs_api = HDFSApi( user="root", timeout=timeout, kerberized=True, principal="root@TEST.CLICKHOUSE.TECH", keytab=keytab, krb_conf=krb_conf, host=self.hdfs_kerberized_host, protocol="http", proxy_port=self.hdfs_kerberized_name_port, data_port=self.hdfs_kerberized_data_port, hdfs_ip=self.hdfs_kerberized_ip, kdc_ip=kdc_ip, ) else: self.hdfs_ip = self.get_instance_ip(self.hdfs_host) self.hdfs_api = HDFSApi( user="root", host=self.hdfs_host, data_port=self.hdfs_data_port, proxy_port=self.hdfs_name_port, hdfs_ip=self.hdfs_ip, ) def wait_kafka_is_available(self, kafka_docker_id, kafka_port, max_retries=50): retries = 0 while True: if check_kafka_is_available(kafka_docker_id, kafka_port): return else: retries += 1 if retries > max_retries: break logging.debug("Waiting for Kafka to start up") time.sleep(1) try: with open(os.path.join(self.kafka_dir, "docker.log"), "w+") as f: subprocess.check_call( # STYLE_CHECK_ALLOW_SUBPROCESS_CHECK_CALL self.base_kafka_cmd + ["logs"], stdout=f ) except Exception as e: logging.debug("Unable to get logs from docker.") raise Exception("Kafka is not available") def wait_kerberos_kdc_is_available(self, kerberos_kdc_docker_id, max_retries=50): retries = 0 while True: if check_kerberos_kdc_is_available(kerberos_kdc_docker_id): break else: retries += 1 if retries > max_retries: raise Exception("Kerberos KDC is not available") logging.debug("Waiting for Kerberos KDC to start up") time.sleep(1) def wait_hdfs_to_start(self, timeout=300, check_marker=False): start = time.time() while time.time() - start < timeout: try: self.hdfs_api.write_data("/somefilewithrandomname222", "1") logging.debug("Connected to HDFS and SafeMode disabled! ") if check_marker: self.hdfs_api.read_data("/preparations_done_marker") return except Exception as ex: logging.exception( "Can't connect to HDFS or preparations are not done yet " + str(ex) ) time.sleep(1) raise Exception("Can't wait HDFS to start") def wait_mongo_to_start(self, timeout=30, secure=False): connection_str = "mongodb://{user}:{password}@{host}:{port}".format( host="localhost", port=self.mongo_port, user=mongo_user, password=mongo_pass ) if secure: connection_str += "/?tls=true&tlsAllowInvalidCertificates=true" connection = pymongo.MongoClient(connection_str) start = time.time() while time.time() - start < timeout: try: connection.list_database_names() logging.debug(f"Connected to Mongo dbs: {connection.database_names()}") return except Exception as ex: logging.debug("Can't connect to Mongo " + str(ex)) time.sleep(1) def wait_minio_to_start(self, timeout=180, secure=False): self.minio_ip = self.get_instance_ip(self.minio_host) self.minio_redirect_ip = self.get_instance_ip(self.minio_redirect_host) os.environ["SSL_CERT_FILE"] = p.join( self.base_dir, self.minio_dir, "certs", "public.crt" ) minio_client = Minio( f"{self.minio_ip}:{self.minio_port}", access_key=minio_access_key, secret_key=minio_secret_key, secure=secure, http_client=urllib3.PoolManager(cert_reqs="CERT_NONE"), ) # disable SSL check as we test ClickHouse and not Python library start = time.time() while time.time() - start < timeout: try: minio_client.list_buckets() logging.debug("Connected to Minio.") buckets = [self.minio_bucket, self.minio_bucket_2] for bucket in buckets: if minio_client.bucket_exists(bucket): delete_object_list = map( lambda x: x.object_name, minio_client.list_objects_v2(bucket, recursive=True), ) errors = minio_client.remove_objects(bucket, delete_object_list) for error in errors: logging.error(f"Error occured when deleting object {error}") minio_client.remove_bucket(bucket) minio_client.make_bucket(bucket) logging.debug("S3 bucket '%s' created", bucket) self.minio_client = minio_client return except Exception as ex: logging.debug("Can't connect to Minio: %s", str(ex)) time.sleep(1) try: with open(os.path.join(self.minio_dir, "docker.log"), "w+") as f: subprocess.check_call( # STYLE_CHECK_ALLOW_SUBPROCESS_CHECK_CALL self.base_minio_cmd + ["logs"], stdout=f ) except Exception as e: logging.debug("Unable to get logs from docker.") raise Exception("Can't wait Minio to start") def wait_azurite_to_start(self, timeout=180): from azure.storage.blob import BlobServiceClient connection_string = ( f"DefaultEndpointsProtocol=http;AccountName=devstoreaccount1;" f"AccountKey=Eby8vdM02xNOcqFlqUwJPLlmEtlCDXJ1OUzFT50uSRZ6IFsuFq2UVErCz4I6tq/K1SZFPTOtr/KBHBeksoGMGw==;" f"BlobEndpoint=http://127.0.0.1:{self.env_variables['AZURITE_PORT']}/devstoreaccount1;" ) time.sleep(1) start = time.time() while time.time() - start < timeout: try: blob_service_client = BlobServiceClient.from_connection_string( connection_string ) logging.debug(blob_service_client.get_account_information()) self.blob_service_client = blob_service_client return except Exception as ex: logging.debug("Can't connect to Azurite: %s", str(ex)) time.sleep(1) raise Exception("Can't wait Azurite to start") def wait_schema_registry_to_start(self, timeout=180): for port in self.schema_registry_port, self.schema_registry_auth_port: reg_url = "http://localhost:{}".format(port) arg = {"url": reg_url} sr_client = CachedSchemaRegistryClient(arg) start = time.time() sr_started = False sr_auth_started = False while time.time() - start < timeout: try: sr_client._send_request(sr_client.url) logging.debug("Connected to SchemaRegistry") # don't care about possible auth errors sr_started = True break except Exception as ex: logging.debug(("Can't connect to SchemaRegistry: %s", str(ex))) time.sleep(1) if not sr_started: raise Exception("Can't wait Schema Registry to start") def wait_cassandra_to_start(self, timeout=180): self.cassandra_ip = self.get_instance_ip(self.cassandra_host) cass_client = cassandra.cluster.Cluster( [self.cassandra_ip], port=self.cassandra_port, load_balancing_policy=RoundRobinPolicy(), ) start = time.time() while time.time() - start < timeout: try: logging.info( f"Check Cassandra Online {self.cassandra_id} {self.cassandra_ip} {self.cassandra_port}" ) check = self.exec_in_container( self.cassandra_id, [ "bash", "-c", f"/opt/cassandra/bin/cqlsh -u cassandra -p cassandra -e 'describe keyspaces' {self.cassandra_ip} {self.cassandra_port}", ], user="root", ) logging.info("Cassandra Online") cass_client.connect() logging.info("Connected Clients to Cassandra") return except Exception as ex: logging.warning("Can't connect to Cassandra: %s", str(ex)) time.sleep(1) raise Exception("Can't wait Cassandra to start") def wait_ldap_to_start(self, timeout=180): self.ldap_container = self.get_docker_handle(self.ldap_id) start = time.time() while time.time() - start < timeout: try: logging.info(f"Check LDAP Online {self.ldap_host} {self.ldap_port}") self.exec_in_container( self.ldap_id, [ "bash", "-c", f"/opt/bitnami/openldap/bin/ldapsearch -x -H ldap://{self.ldap_host}:{self.ldap_port} -D cn=admin,dc=example,dc=org -w clickhouse -b dc=example,dc=org", ], user="root", ) logging.info("LDAP Online") return except Exception as ex: logging.warning("Can't connect to LDAP: %s", str(ex)) time.sleep(1) raise Exception("Can't wait LDAP to start") def start(self): pytest_xdist_logging_to_separate_files.setup() logging.info("Running tests in {}".format(self.base_path)) if not os.path.exists(self.instances_dir): os.mkdir(self.instances_dir) else: logging.warning( "Instance directory already exists. Did you call cluster.start() for second time?" ) logging.debug(f"Cluster start called. is_up={self.is_up}") self.print_all_docker_pieces() if self.is_up: return try: self.cleanup() except Exception as e: logging.warning("Cleanup failed:{e}") try: for instance in list(self.instances.values()): logging.debug(f"Setup directory for instance: {instance.name}") instance.create_dir() _create_env_file(os.path.join(self.env_file), self.env_variables) self.docker_client = docker.DockerClient( base_url="unix:///var/run/docker.sock", version=self.docker_api_version, timeout=600, ) common_opts = ["--verbose", "up", "-d"] images_pull_cmd = self.base_cmd + ["pull"] # sometimes dockerhub/proxy can be flaky for i in range(5): try: run_and_check(images_pull_cmd) break except Exception as ex: if i == 4: raise ex logging.info("Got exception pulling images: %s", ex) time.sleep(i * 3) if self.with_zookeeper_secure and self.base_zookeeper_cmd: logging.debug("Setup ZooKeeper Secure") logging.debug( f"Creating internal ZooKeeper dirs: {self.zookeeper_dirs_to_create}" ) for i in range(1, 3): if os.path.exists(self.zookeeper_instance_dir_prefix + f"{i}"): shutil.rmtree(self.zookeeper_instance_dir_prefix + f"{i}") for dir in self.zookeeper_dirs_to_create: os.makedirs(dir) run_and_check(self.base_zookeeper_cmd + common_opts, env=self.env) self.up_called = True self.wait_zookeeper_secure_to_start() for command in self.pre_zookeeper_commands: self.run_kazoo_commands_with_retries(command, repeats=5) if self.with_zookeeper and self.base_zookeeper_cmd: logging.debug("Setup ZooKeeper") logging.debug( f"Creating internal ZooKeeper dirs: {self.zookeeper_dirs_to_create}" ) if self.use_keeper: for i in range(1, 4): if os.path.exists(self.keeper_instance_dir_prefix + f"{i}"): shutil.rmtree(self.keeper_instance_dir_prefix + f"{i}") else: for i in range(1, 3): if os.path.exists(self.zookeeper_instance_dir_prefix + f"{i}"): shutil.rmtree(self.zookeeper_instance_dir_prefix + f"{i}") for dir in self.zookeeper_dirs_to_create: os.makedirs(dir) if self.use_keeper: # TODO: remove hardcoded paths from here for i in range(1, 4): shutil.copy( os.path.join(HELPERS_DIR, f"keeper_config{i}.xml"), os.path.join( self.keeper_instance_dir_prefix + f"{i}", "config" ), ) run_and_check(self.base_zookeeper_cmd + common_opts, env=self.env) self.up_called = True self.wait_zookeeper_to_start() for command in self.pre_zookeeper_commands: self.run_kazoo_commands_with_retries(command, repeats=5) if self.with_mysql_client and self.base_mysql_client_cmd: logging.debug("Setup MySQL Client") subprocess_check_call(self.base_mysql_client_cmd + common_opts) self.wait_mysql_client_to_start() if self.with_mysql and self.base_mysql_cmd: logging.debug("Setup MySQL") if os.path.exists(self.mysql_dir): shutil.rmtree(self.mysql_dir) os.makedirs(self.mysql_logs_dir) os.chmod(self.mysql_logs_dir, stat.S_IRWXU | stat.S_IRWXO) subprocess_check_call(self.base_mysql_cmd + common_opts) self.up_called = True self.wait_mysql_to_start() if self.with_mysql8 and self.base_mysql8_cmd: logging.debug("Setup MySQL 8") if os.path.exists(self.mysql8_dir): shutil.rmtree(self.mysql8_dir) os.makedirs(self.mysql8_logs_dir) os.chmod(self.mysql8_logs_dir, stat.S_IRWXU | stat.S_IRWXO) subprocess_check_call(self.base_mysql8_cmd + common_opts) self.wait_mysql8_to_start() if self.with_mysql_cluster and self.base_mysql_cluster_cmd: print("Setup MySQL") if os.path.exists(self.mysql_cluster_dir): shutil.rmtree(self.mysql_cluster_dir) os.makedirs(self.mysql_cluster_logs_dir) os.chmod(self.mysql_cluster_logs_dir, stat.S_IRWXU | stat.S_IRWXO) subprocess_check_call(self.base_mysql_cluster_cmd + common_opts) self.up_called = True self.wait_mysql_cluster_to_start() if self.with_postgres and self.base_postgres_cmd: logging.debug("Setup Postgres") if os.path.exists(self.postgres_dir): shutil.rmtree(self.postgres_dir) os.makedirs(self.postgres_logs_dir) os.chmod(self.postgres_logs_dir, stat.S_IRWXU | stat.S_IRWXO) subprocess_check_call(self.base_postgres_cmd + common_opts) self.up_called = True self.wait_postgres_to_start() if self.with_postgres_cluster and self.base_postgres_cluster_cmd: logging.debug("Setup Postgres") os.makedirs(self.postgres2_logs_dir) os.chmod(self.postgres2_logs_dir, stat.S_IRWXU | stat.S_IRWXO) os.makedirs(self.postgres3_logs_dir) os.chmod(self.postgres3_logs_dir, stat.S_IRWXU | stat.S_IRWXO) os.makedirs(self.postgres4_logs_dir) os.chmod(self.postgres4_logs_dir, stat.S_IRWXU | stat.S_IRWXO) subprocess_check_call(self.base_postgres_cluster_cmd + common_opts) self.up_called = True self.wait_postgres_cluster_to_start() if ( self.with_postgresql_java_client and self.base_postgresql_java_client_cmd ): logging.debug("Setup Postgres Java Client") subprocess_check_call( self.base_postgresql_java_client_cmd + common_opts ) self.up_called = True self.wait_postgresql_java_client() if self.with_kafka and self.base_kafka_cmd: logging.debug("Setup Kafka") os.mkdir(self.kafka_dir) subprocess_check_call( self.base_kafka_cmd + common_opts + ["--renew-anon-volumes"] ) self.up_called = True self.wait_kafka_is_available(self.kafka_docker_id, self.kafka_port) self.wait_schema_registry_to_start() if self.with_kerberized_kafka and self.base_kerberized_kafka_cmd: logging.debug("Setup kerberized kafka") os.mkdir(self.kafka_dir) run_and_check( self.base_kerberized_kafka_cmd + common_opts + ["--renew-anon-volumes"] ) self.up_called = True self.wait_kafka_is_available( self.kerberized_kafka_docker_id, self.kerberized_kafka_port, 100 ) if self.with_kerberos_kdc and self.base_kerberos_kdc_cmd: logging.debug("Setup Kerberos KDC") run_and_check( self.base_kerberos_kdc_cmd + common_opts + ["--renew-anon-volumes"] ) self.up_called = True self.wait_kerberos_kdc_is_available(self.keberos_kdc_docker_id) if self.with_rabbitmq and self.base_rabbitmq_cmd: logging.debug("Setup RabbitMQ") os.makedirs(self.rabbitmq_logs_dir) os.chmod(self.rabbitmq_logs_dir, stat.S_IRWXU | stat.S_IRWXO) with open(self.rabbitmq_cookie_file, "w") as f: f.write(self.rabbitmq_cookie) os.chmod(self.rabbitmq_cookie_file, stat.S_IRUSR) subprocess_check_call( self.base_rabbitmq_cmd + common_opts + ["--renew-anon-volumes"] ) self.up_called = True self.rabbitmq_docker_id = self.get_instance_docker_id("rabbitmq1") time.sleep(2) logging.debug(f"RabbitMQ checking container try") self.wait_rabbitmq_to_start() if self.with_nats and self.base_nats_cmd: logging.debug("Setup NATS") os.makedirs(self.nats_cert_dir) env = os.environ.copy() env["NATS_CERT_DIR"] = self.nats_cert_dir run_and_check( p.join(self.base_dir, "nats_certs.sh"), env=env, detach=False, nothrow=False, ) self.nats_ssl_context = ssl.create_default_context() self.nats_ssl_context.load_verify_locations( p.join(self.nats_cert_dir, "ca", "ca-cert.pem") ) subprocess_check_call(self.base_nats_cmd + common_opts) self.nats_docker_id = self.get_instance_docker_id("nats1") self.up_called = True self.wait_nats_is_available() if self.with_hdfs and self.base_hdfs_cmd: logging.debug("Setup HDFS") os.makedirs(self.hdfs_logs_dir) os.chmod(self.hdfs_logs_dir, stat.S_IRWXU | stat.S_IRWXO) subprocess_check_call(self.base_hdfs_cmd + common_opts) self.up_called = True self.make_hdfs_api() self.wait_hdfs_to_start() if self.with_kerberized_hdfs and self.base_kerberized_hdfs_cmd: logging.debug("Setup kerberized HDFS") os.makedirs(self.hdfs_kerberized_logs_dir) os.chmod(self.hdfs_kerberized_logs_dir, stat.S_IRWXU | stat.S_IRWXO) run_and_check(self.base_kerberized_hdfs_cmd + common_opts) self.up_called = True self.make_hdfs_api(kerberized=True) self.wait_hdfs_to_start(check_marker=True) if self.with_nginx and self.base_nginx_cmd: logging.debug("Setup nginx") subprocess_check_call( self.base_nginx_cmd + common_opts + ["--renew-anon-volumes"] ) self.up_called = True self.nginx_docker_id = self.get_instance_docker_id("nginx") if self.with_mongo and self.base_mongo_cmd: logging.debug("Setup Mongo") run_and_check(self.base_mongo_cmd + common_opts) self.up_called = True self.wait_mongo_to_start(30, secure=self.with_mongo_secure) if self.with_coredns and self.base_coredns_cmd: logging.debug("Setup coredns") run_and_check(self.base_coredns_cmd + common_opts) self.up_called = True time.sleep(10) if self.with_redis and self.base_redis_cmd: logging.debug("Setup Redis") subprocess_check_call(self.base_redis_cmd + common_opts) self.up_called = True time.sleep(10) if self.with_hive and self.base_hive_cmd: logging.debug("Setup hive") subprocess_check_call(self.base_hive_cmd + common_opts) self.up_called = True time.sleep(30) if self.with_minio and self.base_minio_cmd: # Copy minio certificates to minio/certs os.mkdir(self.minio_dir) if self.minio_certs_dir is None: os.mkdir(os.path.join(self.minio_dir, "certs")) else: shutil.copytree( os.path.join(self.base_dir, self.minio_certs_dir), os.path.join(self.minio_dir, "certs"), ) os.mkdir(self.minio_data_dir) os.chmod(self.minio_data_dir, stat.S_IRWXU | stat.S_IRWXO) minio_start_cmd = self.base_minio_cmd + common_opts logging.info( "Trying to create Minio instance by command %s", " ".join(map(str, minio_start_cmd)), ) run_and_check(minio_start_cmd) self.up_called = True logging.info("Trying to connect to Minio...") self.wait_minio_to_start(secure=self.minio_certs_dir is not None) if self.with_azurite and self.base_azurite_cmd: azurite_start_cmd = self.base_azurite_cmd + common_opts logging.info( "Trying to create Azurite instance by command %s", " ".join(map(str, azurite_start_cmd)), ) run_and_check(azurite_start_cmd) self.up_called = True logging.info("Trying to connect to Azurite") self.wait_azurite_to_start() if self.with_cassandra and self.base_cassandra_cmd: subprocess_check_call(self.base_cassandra_cmd + ["up", "-d"]) self.up_called = True self.wait_cassandra_to_start() if self.with_ldap and self.base_ldap_cmd: ldap_start_cmd = self.base_ldap_cmd + common_opts subprocess_check_call(ldap_start_cmd) self.up_called = True self.wait_ldap_to_start() if self.with_jdbc_bridge and self.base_jdbc_bridge_cmd: os.makedirs(self.jdbc_driver_logs_dir) os.chmod(self.jdbc_driver_logs_dir, stat.S_IRWXU | stat.S_IRWXO) subprocess_check_call(self.base_jdbc_bridge_cmd + ["up", "-d"]) self.up_called = True self.jdbc_bridge_ip = self.get_instance_ip(self.jdbc_bridge_host) self.wait_for_url( f"http://{self.jdbc_bridge_ip}:{self.jdbc_bridge_port}/ping" ) clickhouse_start_cmd = self.base_cmd + ["up", "-d", "--no-recreate"] logging.debug( ( "Trying to create ClickHouse instance by command %s", " ".join(map(str, clickhouse_start_cmd)), ) ) self.up_called = True run_and_check(clickhouse_start_cmd) logging.debug("ClickHouse instance created") start_timeout = 300.0 # seconds for instance in self.instances.values(): instance.docker_client = self.docker_client instance.ip_address = self.get_instance_ip(instance.name) logging.debug( f"Waiting for ClickHouse start in {instance.name}, ip: {instance.ip_address}..." ) instance.wait_for_start(start_timeout) logging.debug(f"ClickHouse {instance.name} started") instance.client = Client( instance.ip_address, command=self.client_bin_path ) self.is_up = True except BaseException as e: logging.debug("Failed to start cluster: ") logging.debug(str(e)) logging.debug(traceback.print_exc()) self.shutdown() raise def shutdown(self, kill=True, ignore_fatal=True): sanitizer_assert_instance = None fatal_log = None if self.up_called: with open(self.docker_logs_path, "w+") as f: try: subprocess.check_call( # STYLE_CHECK_ALLOW_SUBPROCESS_CHECK_CALL self.base_cmd + ["logs"], stdout=f ) except Exception as e: logging.debug("Unable to get logs from docker.") f.seek(0) for line in f: if SANITIZER_SIGN in line: sanitizer_assert_instance = line.split("|")[0].strip() break if kill: try: run_and_check(self.base_cmd + ["stop", "--timeout", "20"]) except Exception as e: logging.debug( "Kill command failed during shutdown. {}".format(repr(e)) ) logging.debug("Trying to kill forcefully") run_and_check(self.base_cmd + ["kill"]) # Check server logs for Fatal messages and sanitizer failures. # NOTE: we cannot do this via docker since in case of Fatal message container may already die. for name, instance in self.instances.items(): if instance.contains_in_log( SANITIZER_SIGN, from_host=True, filename="stderr.log" ): sanitizer_assert_instance = instance.grep_in_log( SANITIZER_SIGN, from_host=True, filename="stderr.log", after=1000, ) logging.error( "Sanitizer in instance %s log %s", name, sanitizer_assert_instance, ) if not ignore_fatal and instance.contains_in_log( "Fatal", from_host=True ): fatal_log = instance.grep_in_log("Fatal", from_host=True) if "Child process was terminated by signal 9 (KILL)" in fatal_log: fatal_log = None continue logging.error("Crash in instance %s fatal log %s", name, fatal_log) try: subprocess_check_call(self.base_cmd + ["down", "--volumes"]) except Exception as e: logging.debug( "Down + remove orphans failed during shutdown. {}".format(repr(e)) ) else: logging.warning( "docker-compose up was not called. Trying to export docker.log for running containers" ) self.cleanup() self.is_up = False self.docker_client = None for instance in list(self.instances.values()): instance.docker_client = None instance.ip_address = None instance.client = None if sanitizer_assert_instance is not None: raise Exception( "Sanitizer assert found for instance {}".format( sanitizer_assert_instance ) ) if fatal_log is not None: raise Exception("Fatal messages found: {}".format(fatal_log)) def pause_container(self, instance_name): subprocess_check_call(self.base_cmd + ["pause", instance_name]) def unpause_container(self, instance_name): subprocess_check_call(self.base_cmd + ["unpause", instance_name]) def open_bash_shell(self, instance_name): os.system(" ".join(self.base_cmd + ["exec", instance_name, "/bin/bash"])) def get_kazoo_client(self, zoo_instance_name): use_ssl = False if self.with_zookeeper_secure: port = self.zookeeper_secure_port use_ssl = True elif self.with_zookeeper: port = self.zookeeper_port else: raise Exception("Cluster has no ZooKeeper") ip = self.get_instance_ip(zoo_instance_name) logging.debug( f"get_kazoo_client: {zoo_instance_name}, ip:{ip}, port:{port}, use_ssl:{use_ssl}" ) zk = KazooClient( hosts=f"{ip}:{port}", use_ssl=use_ssl, verify_certs=False, certfile=self.zookeeper_certfile, keyfile=self.zookeeper_keyfile, ) zk.start() return zk def run_kazoo_commands_with_retries( self, kazoo_callback, zoo_instance_name="zoo1", repeats=1, sleep_for=1 ): zk = self.get_kazoo_client(zoo_instance_name) logging.debug( f"run_kazoo_commands_with_retries: {zoo_instance_name}, {kazoo_callback}" ) for i in range(repeats - 1): try: kazoo_callback(zk) return except KazooException as e: logging.debug(repr(e)) time.sleep(sleep_for) kazoo_callback(zk) zk.stop() def add_zookeeper_startup_command(self, command): self.pre_zookeeper_commands.append(command) def stop_zookeeper_nodes(self, zk_nodes): for n in zk_nodes: logging.info("Stopping zookeeper node: %s", n) subprocess_check_call(self.base_zookeeper_cmd + ["stop", n]) def start_zookeeper_nodes(self, zk_nodes): for n in zk_nodes: logging.info("Starting zookeeper node: %s", n) subprocess_check_call(self.base_zookeeper_cmd + ["start", n]) DOCKER_COMPOSE_TEMPLATE = """ version: '2.3' services: {name}: image: {image}:{tag} hostname: {hostname} volumes: - {instance_config_dir}:/etc/clickhouse-server/ - {db_dir}:/var/lib/clickhouse/ - {logs_dir}:/var/log/clickhouse-server/ - /etc/passwd:/etc/passwd:ro {binary_volume} {odbc_bridge_volume} {library_bridge_volume} {external_dirs_volumes} {odbc_ini_path} {keytab_path} {krb5_conf} entrypoint: {entrypoint_cmd} tmpfs: {tmpfs} cap_add: - SYS_PTRACE - NET_ADMIN - IPC_LOCK - SYS_NICE # for umount/mount on fly - SYS_ADMIN depends_on: {depends_on} user: '{user}' env_file: - {env_file} security_opt: - label:disable dns_opt: - attempts:2 - timeout:1 - inet6 - rotate {networks} {app_net} {ipv4_address} {ipv6_address} {net_aliases} {net_alias1} """ class ClickHouseInstance: def __init__( self, cluster, base_path, name, base_config_dir, custom_main_configs, custom_user_configs, custom_dictionaries, macros, with_zookeeper, zookeeper_config_path, with_mysql_client, with_mysql, with_mysql8, with_mysql_cluster, with_kafka, with_kerberized_kafka, with_kerberos_kdc, with_rabbitmq, with_nats, with_nginx, with_kerberized_hdfs, with_secrets, with_mongo, with_redis, with_minio, with_azurite, with_jdbc_bridge, with_hive, with_coredns, with_cassandra, with_ldap, allow_analyzer, server_bin_path, odbc_bridge_bin_path, library_bridge_bin_path, clickhouse_path_dir, with_odbc_drivers, with_postgres, with_postgres_cluster, with_postgresql_java_client, clickhouse_start_command=CLICKHOUSE_START_COMMAND, main_config_name="config.xml", users_config_name="users.xml", copy_common_configs=True, hostname=None, env_variables=None, instance_env_variables=False, image="clickhouse/integration-test", tag="latest", stay_alive=False, ipv4_address=None, ipv6_address=None, with_installed_binary=False, external_dirs=None, tmpfs=None, config_root_name="clickhouse", extra_configs=[], ): self.name = name self.base_cmd = cluster.base_cmd self.docker_id = cluster.get_instance_docker_id(self.name) self.cluster = cluster self.hostname = hostname if hostname is not None else self.name self.external_dirs = external_dirs self.tmpfs = tmpfs or [] self.base_config_dir = ( p.abspath(p.join(base_path, base_config_dir)) if base_config_dir else None ) self.custom_main_config_paths = [ p.abspath(p.join(base_path, c)) for c in custom_main_configs ] self.custom_user_config_paths = [ p.abspath(p.join(base_path, c)) for c in custom_user_configs ] self.custom_dictionaries_paths = [ p.abspath(p.join(base_path, c)) for c in custom_dictionaries ] self.custom_extra_config_paths = [ p.abspath(p.join(base_path, c)) for c in extra_configs ] self.clickhouse_path_dir = ( p.abspath(p.join(base_path, clickhouse_path_dir)) if clickhouse_path_dir else None ) self.secrets_dir = p.abspath(p.join(base_path, "secrets")) self.macros = macros if macros is not None else {} self.with_zookeeper = with_zookeeper self.zookeeper_config_path = zookeeper_config_path self.server_bin_path = server_bin_path self.odbc_bridge_bin_path = odbc_bridge_bin_path self.library_bridge_bin_path = library_bridge_bin_path self.with_mysql_client = with_mysql_client self.with_mysql = with_mysql self.with_mysql8 = with_mysql8 self.with_mysql_cluster = with_mysql_cluster self.with_postgres = with_postgres self.with_postgres_cluster = with_postgres_cluster self.with_postgresql_java_client = with_postgresql_java_client self.with_kafka = with_kafka self.with_kerberized_kafka = with_kerberized_kafka self.with_kerberos_kdc = with_kerberos_kdc self.with_rabbitmq = with_rabbitmq self.with_nats = with_nats self.with_nginx = with_nginx self.with_kerberized_hdfs = with_kerberized_hdfs self.with_secrets = with_secrets self.with_mongo = with_mongo self.with_redis = with_redis self.with_minio = with_minio self.with_azurite = with_azurite self.with_cassandra = with_cassandra self.with_ldap = with_ldap self.with_jdbc_bridge = with_jdbc_bridge self.with_hive = with_hive self.with_coredns = with_coredns self.coredns_config_dir = p.abspath(p.join(base_path, "coredns_config")) self.allow_analyzer = allow_analyzer self.main_config_name = main_config_name self.users_config_name = users_config_name self.copy_common_configs = copy_common_configs self.clickhouse_start_command = clickhouse_start_command.replace( "{main_config_file}", self.main_config_name ) self.clickhouse_stay_alive_command = "bash -c \"trap 'pkill tail' INT TERM; {} --daemon; coproc tail -f /dev/null; wait $$!\"".format( clickhouse_start_command ) self.path = p.join(self.cluster.instances_dir, name) self.docker_compose_path = p.join(self.path, "docker-compose.yml") self.env_variables = env_variables or {} self.instance_env_variables = instance_env_variables self.env_file = self.cluster.env_file if with_odbc_drivers: self.odbc_ini_path = self.path + "/odbc.ini:/etc/odbc.ini" self.with_mysql = True else: self.odbc_ini_path = "" if with_kerberized_kafka or with_kerberized_hdfs or with_kerberos_kdc: if with_kerberos_kdc: base_secrets_dir = self.cluster.instances_dir else: base_secrets_dir = os.path.dirname(self.docker_compose_path) self.keytab_path = "- " + base_secrets_dir + "/secrets:/tmp/keytab" self.krb5_conf = ( "- " + base_secrets_dir + "/secrets/krb.conf:/etc/krb5.conf:ro" ) else: self.keytab_path = "" self.krb5_conf = "" self.docker_client = None self.ip_address = None self.client = None self.image = image self.tag = tag self.stay_alive = stay_alive self.ipv4_address = ipv4_address self.ipv6_address = ipv6_address self.with_installed_binary = with_installed_binary self.is_up = False self.config_root_name = config_root_name def is_built_with_sanitizer(self, sanitizer_name=""): build_opts = self.query( "SELECT value FROM system.build_options WHERE name = 'CXX_FLAGS'" ) return "-fsanitize={}".format(sanitizer_name) in build_opts def is_debug_build(self): build_opts = self.query( "SELECT value FROM system.build_options WHERE name = 'CXX_FLAGS'" ) return "NDEBUG" not in build_opts def is_built_with_thread_sanitizer(self): return self.is_built_with_sanitizer("thread") def is_built_with_address_sanitizer(self): return self.is_built_with_sanitizer("address") def is_built_with_memory_sanitizer(self): return self.is_built_with_sanitizer("memory") # Connects to the instance via clickhouse-client, sends a query (1st argument) and returns the answer def query( self, sql, stdin=None, timeout=None, settings=None, user=None, password=None, database=None, host=None, ignore_error=False, query_id=None, ): sql_for_log = "" if len(sql) > 1000: sql_for_log = sql[:1000] else: sql_for_log = sql logging.debug("Executing query %s on %s", sql_for_log, self.name) return self.client.query( sql, stdin=stdin, timeout=timeout, settings=settings, user=user, password=password, database=database, ignore_error=ignore_error, query_id=query_id, host=host, ) def query_with_retry( self, sql, stdin=None, timeout=None, settings=None, user=None, password=None, database=None, host=None, ignore_error=False, retry_count=20, sleep_time=0.5, check_callback=lambda x: True, ): # logging.debug(f"Executing query {sql} on {self.name}") result = None for i in range(retry_count): try: result = self.query( sql, stdin=stdin, timeout=timeout, settings=settings, user=user, password=password, database=database, host=host, ignore_error=ignore_error, ) if check_callback(result): return result time.sleep(sleep_time) except Exception as ex: # logging.debug("Retry {} got exception {}".format(i + 1, ex)) time.sleep(sleep_time) if result is not None: return result raise Exception("Can't execute query {}".format(sql)) # As query() but doesn't wait response and returns response handler def get_query_request(self, sql, *args, **kwargs): logging.debug(f"Executing query {sql} on {self.name}") return self.client.get_query_request(sql, *args, **kwargs) # Connects to the instance via clickhouse-client, sends a query (1st argument), expects an error and return its code def query_and_get_error( self, sql, stdin=None, timeout=None, settings=None, user=None, password=None, database=None, query_id=None, ): logging.debug(f"Executing query {sql} on {self.name}") return self.client.query_and_get_error( sql, stdin=stdin, timeout=timeout, settings=settings, user=user, password=password, database=database, query_id=query_id, ) def query_and_get_error_with_retry( self, sql, stdin=None, timeout=None, settings=None, user=None, password=None, database=None, retry_count=20, sleep_time=0.5, ): logging.debug(f"Executing query {sql} on {self.name}") result = None for i in range(retry_count): try: result = self.client.query_and_get_error( sql, stdin=stdin, timeout=timeout, settings=settings, user=user, password=password, database=database, ) time.sleep(sleep_time) if result is not None: return result except QueryRuntimeException as ex: logging.debug("Retry {} got exception {}".format(i + 1, ex)) time.sleep(sleep_time) raise Exception("Query {} did not fail".format(sql)) # The same as query_and_get_error but ignores successful query. def query_and_get_answer_with_error( self, sql, stdin=None, timeout=None, settings=None, user=None, password=None, database=None, query_id=None, ): logging.debug(f"Executing query {sql} on {self.name}") return self.client.query_and_get_answer_with_error( sql, stdin=stdin, timeout=timeout, settings=settings, user=user, password=password, database=database, query_id=query_id, ) # Connects to the instance via HTTP interface, sends a query and returns the answer def http_query( self, sql, data=None, method=None, params=None, user=None, password=None, port=8123, timeout=None, retry_strategy=None, content=False, ): output, error = self.http_query_and_get_answer_with_error( sql, data=data, method=method, params=params, user=user, password=password, port=port, timeout=timeout, retry_strategy=retry_strategy, content=content, ) if error: raise Exception("ClickHouse HTTP server returned " + error) return output # Connects to the instance via HTTP interface, sends a query, expects an error and return the error message def http_query_and_get_error( self, sql, data=None, method=None, params=None, user=None, password=None, port=8123, timeout=None, retry_strategy=None, ): output, error = self.http_query_and_get_answer_with_error( sql, data=data, method=method, params=params, user=user, password=password, port=port, timeout=timeout, retry_strategy=retry_strategy, ) if not error: raise Exception( "ClickHouse HTTP server is expected to fail, but succeeded: " + output ) return error def append_hosts(self, name, ip): self.exec_in_container( (["bash", "-c", "echo '{}' {} >> /etc/hosts".format(ip, name)]), privileged=True, user="root", ) def set_hosts(self, hosts): entries = ["127.0.0.1 localhost", "::1 localhost"] for host in hosts: entries.append(f"{host[0]} {host[1]}") self.exec_in_container( ["bash", "-c", 'echo -e "{}" > /etc/hosts'.format("\\n".join(entries))], privileged=True, user="root", ) # Connects to the instance via HTTP interface, sends a query and returns both the answer and the error message # as a tuple (output, error). def http_query_and_get_answer_with_error( self, sql, data=None, method=None, params=None, user=None, password=None, port=8123, timeout=None, retry_strategy=None, content=False, ): logging.debug(f"Executing query {sql} on {self.name} via HTTP interface") if params is None: params = {} else: params = params.copy() if sql is not None: params["query"] = sql auth = None if user and password: auth = requests.auth.HTTPBasicAuth(user, password) elif user: auth = requests.auth.HTTPBasicAuth(user, "") url = f"http://{self.ip_address}:{port}/?" + urllib.parse.urlencode(params) if retry_strategy is None: requester = requests else: adapter = requests.adapters.HTTPAdapter(max_retries=retry_strategy) requester = requests.Session() requester.mount("https://", adapter) requester.mount("http://", adapter) if method is None: method = "POST" if data else "GET" r = requester.request(method, url, data=data, auth=auth, timeout=timeout) # Force encoding to UTF-8 r.encoding = "UTF-8" if r.ok: return (r.content if content else r.text, None) code = r.status_code return (None, str(code) + " " + http.client.responses[code] + ": " + r.text) # Connects to the instance via HTTP interface, sends a query and returns the answer def http_request(self, url, method="GET", params=None, data=None, headers=None): logging.debug(f"Sending HTTP request {url} to {self.name}") url = "http://" + self.ip_address + ":8123/" + url return requests.request( method=method, url=url, params=params, data=data, headers=headers ) def stop_clickhouse(self, stop_wait_sec=30, kill=False): if not self.stay_alive: raise Exception( "clickhouse can be stopped only with stay_alive=True instance" ) try: ps_clickhouse = self.exec_in_container( ["bash", "-c", "ps -C clickhouse"], nothrow=True, user="root" ) if ps_clickhouse == " PID TTY STAT TIME COMMAND": logging.warning("ClickHouse process already stopped") return self.exec_in_container( ["bash", "-c", "pkill {} clickhouse".format("-9" if kill else "")], user="root", ) start_time = time.time() stopped = False while time.time() <= start_time + stop_wait_sec: pid = self.get_process_pid("clickhouse") if pid is None: stopped = True break else: time.sleep(1) if not stopped: pid = self.get_process_pid("clickhouse") if pid is not None: logging.warning( f"Force kill clickhouse in stop_clickhouse. ps:{pid}" ) self.exec_in_container( [ "bash", "-c", f"gdb -batch -ex 'thread apply all bt full' -p {pid} > {os.path.join(self.path, 'logs/stdout.log')}", ], user="root", ) self.stop_clickhouse(kill=True) else: ps_all = self.exec_in_container( ["bash", "-c", "ps aux"], nothrow=True, user="root" ) logging.warning( f"We want force stop clickhouse, but no clickhouse-server is running\n{ps_all}" ) return except Exception as e: logging.warning(f"Stop ClickHouse raised an error {e}") def start_clickhouse(self, start_wait_sec=60, retry_start=True): if not self.stay_alive: raise Exception( "ClickHouse can be started again only with stay_alive=True instance" ) start_time = time.time() time_to_sleep = 0.5 while start_time + start_wait_sec >= time.time(): # sometimes after SIGKILL (hard reset) server may refuse to start for some time # for different reasons. pid = self.get_process_pid("clickhouse") if pid is None: logging.debug("No clickhouse process running. Start new one.") self.exec_in_container( ["bash", "-c", "{} --daemon".format(self.clickhouse_start_command)], user=str(os.getuid()), ) time.sleep(1) continue else: logging.debug("Clickhouse process running.") try: self.wait_start(start_wait_sec + start_time - time.time()) return except Exception as e: logging.warning( f"Current start attempt failed. Will kill {pid} just in case." ) self.exec_in_container( ["bash", "-c", f"kill -9 {pid}"], user="root", nothrow=True ) if not retry_start: raise time.sleep(time_to_sleep) raise Exception("Cannot start ClickHouse, see additional info in logs") def wait_start(self, start_wait_sec): start_time = time.time() last_err = None while True: try: pid = self.get_process_pid("clickhouse") if pid is None: raise Exception("ClickHouse server is not running. Check logs.") exec_query_with_retry(self, "select 20", retry_count=10, silent=True) return except QueryRuntimeException as err: last_err = err pid = self.get_process_pid("clickhouse") if pid is not None: logging.warning(f"ERROR {err}") else: raise Exception("ClickHouse server is not running. Check logs.") if time.time() > start_time + start_wait_sec: break logging.error( f"No time left to start. But process is still running. Will dump threads." ) ps_clickhouse = self.exec_in_container( ["bash", "-c", "ps -C clickhouse"], nothrow=True, user="root" ) logging.info(f"PS RESULT:\n{ps_clickhouse}") pid = self.get_process_pid("clickhouse") if pid is not None: self.exec_in_container( ["bash", "-c", f"gdb -batch -ex 'thread apply all bt full' -p {pid}"], user="root", ) if last_err is not None: raise last_err def restart_clickhouse(self, stop_start_wait_sec=60, kill=False): self.stop_clickhouse(stop_start_wait_sec, kill) self.start_clickhouse(stop_start_wait_sec) def exec_in_container(self, cmd, detach=False, nothrow=False, **kwargs): return self.cluster.exec_in_container( self.docker_id, cmd, detach, nothrow, **kwargs ) def rotate_logs(self): self.exec_in_container( ["bash", "-c", f"kill -HUP {self.get_process_pid('clickhouse server')}"], user="root", ) def contains_in_log( self, substring, from_host=False, filename="clickhouse-server.log" ): if from_host: # We check fist file exists but want to look for all rotated logs as well result = subprocess_check_call( [ "bash", "-c", f'[ -f {self.logs_dir}/{filename} ] && zgrep -aH "{substring}" {self.logs_dir}/{filename}* || true', ] ) else: result = self.exec_in_container( [ "bash", "-c", f'[ -f /var/log/clickhouse-server/{filename} ] && zgrep -aH "{substring}" /var/log/clickhouse-server/{filename} || true', ] ) return len(result) > 0 def grep_in_log( self, substring, from_host=False, filename="clickhouse-server.log", after=None ): logging.debug(f"grep in log called %s", substring) if after is not None: after_opt = "-A{}".format(after) else: after_opt = "" if from_host: # We check fist file exists but want to look for all rotated logs as well result = subprocess_check_call( [ "bash", "-c", f'[ -f {self.logs_dir}/{filename} ] && zgrep {after_opt} -a "{substring}" {self.logs_dir}/{filename}* || true', ] ) else: result = self.exec_in_container( [ "bash", "-c", f'[ -f /var/log/clickhouse-server/{filename} ] && zgrep {after_opt} -a "{substring}" /var/log/clickhouse-server/{filename}* || true', ] ) logging.debug("grep result %s", result) return result def count_in_log(self, substring): result = self.exec_in_container( [ "bash", "-c", 'grep -a "{}" /var/log/clickhouse-server/clickhouse-server.log | wc -l'.format( substring ), ] ) return result def wait_for_log_line( self, regexp, filename="/var/log/clickhouse-server/clickhouse-server.log", timeout=30, repetitions=1, look_behind_lines=100, ): start_time = time.time() result = self.exec_in_container( [ "bash", "-c", 'timeout {} tail -Fn{} "{}" | grep -Em {} {}'.format( timeout, look_behind_lines, filename, repetitions, shlex.quote(regexp), ), ] ) # if repetitions>1 grep will return success even if not enough lines were collected, if repetitions > 1 and len(result.splitlines()) < repetitions: logging.debug( "wait_for_log_line: those lines were found during {} seconds:".format( timeout ) ) logging.debug(result) raise Exception( "wait_for_log_line: Not enough repetitions: {} found, while {} expected".format( len(result.splitlines()), repetitions ) ) wait_duration = time.time() - start_time logging.debug( '{} log line(s) matching "{}" appeared in a {:.3f} seconds'.format( repetitions, regexp, wait_duration ) ) return wait_duration def path_exists(self, path): return ( self.exec_in_container( [ "bash", "-c", "echo $(if [ -e '{}' ]; then echo 'yes'; else echo 'no'; fi)".format( path ), ] ) == "yes\n" ) def copy_file_to_container(self, local_path, dest_path): return self.cluster.copy_file_to_container( self.docker_id, local_path, dest_path ) def get_process_pid(self, process_name): output = self.exec_in_container( [ "bash", "-c", "ps ax | grep '{}' | grep -v 'grep' | grep -v 'coproc' | grep -v 'bash -c' | awk '{{print $1}}'".format( process_name ), ] ) if output: try: pid = int(output.split("\n")[0].strip()) return pid except: return None return None def restart_with_original_version( self, stop_start_wait_sec=300, callback_onstop=None, signal=15, clear_data_dir=False, ): begin_time = time.time() if not self.stay_alive: raise Exception("Cannot restart not stay alive container") self.exec_in_container( ["bash", "-c", "pkill -{} clickhouse".format(signal)], user="root" ) retries = int(stop_start_wait_sec / 0.5) local_counter = 0 # wait stop while local_counter < retries: if not self.get_process_pid("clickhouse server"): break time.sleep(0.5) local_counter += 1 # force kill if server hangs if self.get_process_pid("clickhouse server"): # server can die before kill, so don't throw exception, it's expected self.exec_in_container( ["bash", "-c", "pkill -{} clickhouse".format(9)], nothrow=True, user="root", ) if callback_onstop: callback_onstop(self) if clear_data_dir: self.exec_in_container( [ "bash", "-c", "rm -rf /var/lib/clickhouse/metadata && rm -rf /var/lib/clickhouse/data", ], user="root", ) self.exec_in_container( [ "bash", "-c", "echo 'restart_with_original_version: From version' && /usr/bin/clickhouse server --version && echo 'To version' && /usr/share/clickhouse_original server --version", ] ) self.exec_in_container( [ "bash", "-c", "cp /usr/share/clickhouse_original /usr/bin/clickhouse && chmod 777 /usr/bin/clickhouse", ], user="root", ) self.exec_in_container( ["bash", "-c", "{} --daemon".format(self.clickhouse_start_command)], user=str(os.getuid()), ) # wait start time_left = begin_time + stop_start_wait_sec - time.time() if time_left <= 0: raise Exception(f"No time left during restart") else: self.wait_start(time_left) def restart_with_latest_version( self, stop_start_wait_sec=300, callback_onstop=None, signal=15, fix_metadata=False, ): begin_time = time.time() if not self.stay_alive: raise Exception("Cannot restart not stay alive container") self.exec_in_container( ["bash", "-c", "pkill -{} clickhouse".format(signal)], user="root" ) retries = int(stop_start_wait_sec / 0.5) local_counter = 0 # wait stop while local_counter < retries: if not self.get_process_pid("clickhouse server"): break time.sleep(0.5) local_counter += 1 # force kill if server hangs if self.get_process_pid("clickhouse server"): # server can die before kill, so don't throw exception, it's expected self.exec_in_container( ["bash", "-c", "pkill -{} clickhouse".format(9)], nothrow=True, user="root", ) if callback_onstop: callback_onstop(self) self.exec_in_container( ["bash", "-c", "cp /usr/bin/clickhouse /usr/share/clickhouse_original"], user="root", ) self.exec_in_container( [ "bash", "-c", "cp /usr/share/clickhouse_fresh /usr/bin/clickhouse && chmod 777 /usr/bin/clickhouse", ], user="root", ) self.exec_in_container( [ "bash", "-c", "echo 'restart_with_latest_version: From version' && /usr/share/clickhouse_original server --version && echo 'To version' /usr/share/clickhouse_fresh server --version", ] ) if fix_metadata: # Versions older than 20.7 might not create .sql file for system and default database # Create it manually if upgrading from older version self.exec_in_container( [ "bash", "-c", "echo 'ATTACH DATABASE system ENGINE=Ordinary' > /var/lib/clickhouse/metadata/system.sql", ] ) self.exec_in_container( [ "bash", "-c", "echo 'ATTACH DATABASE system ENGINE=Ordinary' > /var/lib/clickhouse/metadata/default.sql", ] ) self.exec_in_container( ["bash", "-c", "{} --daemon".format(self.clickhouse_start_command)], user=str(os.getuid()), ) # wait start time_left = begin_time + stop_start_wait_sec - time.time() if time_left <= 0: raise Exception(f"No time left during restart") else: self.wait_start(time_left) def get_docker_handle(self): return self.cluster.get_docker_handle(self.docker_id) def stop(self): self.get_docker_handle().stop() def start(self): self.get_docker_handle().start() def wait_for_start(self, start_timeout=None, connection_timeout=None): handle = self.get_docker_handle() if start_timeout is None or start_timeout <= 0: raise Exception("Invalid timeout: {}".format(start_timeout)) if connection_timeout is not None and connection_timeout < start_timeout: raise Exception( "Connection timeout {} should be grater then start timeout {}".format( connection_timeout, start_timeout ) ) start_time = time.time() prev_rows_in_log = 0 def has_new_rows_in_log(): nonlocal prev_rows_in_log try: rows_in_log = int(self.count_in_log(".*").strip()) res = rows_in_log > prev_rows_in_log prev_rows_in_log = rows_in_log return res except ValueError: return False while True: handle.reload() status = handle.status if status == "exited": raise Exception( f"Instance `{self.name}' failed to start. Container status: {status}, logs: {handle.logs().decode('utf-8')}" ) deadline = start_time + start_timeout # It is possible that server starts slowly. # If container is running, and there is some progress in log, check connection_timeout. if connection_timeout and status == "running" and has_new_rows_in_log(): deadline = start_time + connection_timeout current_time = time.time() if current_time >= deadline: raise Exception( f"Timed out while waiting for instance `{self.name}' with ip address {self.ip_address} to start. " f"Container status: {status}, logs: {handle.logs().decode('utf-8')}" ) socket_timeout = min(start_timeout, deadline - current_time) # Repeatedly poll the instance address until there is something that listens there. # Usually it means that ClickHouse is ready to accept queries. try: sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM) sock.settimeout(socket_timeout) sock.connect((self.ip_address, 9000)) self.is_up = True return except socket.timeout: continue except socket.error as e: if ( e.errno == errno.ECONNREFUSED or e.errno == errno.EHOSTUNREACH or e.errno == errno.ENETUNREACH ): time.sleep(0.1) else: raise finally: sock.close() def dict_to_xml(self, dictionary): xml_str = dict2xml( dictionary, wrap=self.config_root_name, indent=" ", newlines=True ) return xml_str @property def odbc_drivers(self): if self.odbc_ini_path: return { "SQLite3": { "DSN": "sqlite3_odbc", "Database": "/tmp/sqliteodbc", "Driver": "/usr/lib/x86_64-linux-gnu/odbc/libsqlite3odbc.so", "Setup": "/usr/lib/x86_64-linux-gnu/odbc/libsqlite3odbc.so", }, "MySQL": { "DSN": "mysql_odbc", "Driver": "/usr/lib/x86_64-linux-gnu/odbc/libmyodbc.so", "Database": odbc_mysql_db, "Uid": odbc_mysql_uid, "Pwd": odbc_mysql_pass, "Server": self.cluster.mysql_host, }, "PostgreSQL": { "DSN": "postgresql_odbc", "Database": odbc_psql_db, "UserName": odbc_psql_user, "Password": odbc_psql_pass, "Port": str(self.cluster.postgres_port), "Servername": self.cluster.postgres_host, "Protocol": "9.3", "ReadOnly": "No", "RowVersioning": "No", "ShowSystemTables": "No", "Driver": "/usr/lib/x86_64-linux-gnu/odbc/psqlodbca.so", "Setup": "/usr/lib/x86_64-linux-gnu/odbc/libodbcpsqlS.so", "ConnSettings": "", }, } else: return {} def _create_odbc_config_file(self): with open(self.odbc_ini_path.split(":")[0], "w") as f: for driver_setup in list(self.odbc_drivers.values()): f.write("[{}]\n".format(driver_setup["DSN"])) for key, value in list(driver_setup.items()): if key != "DSN": f.write(key + "=" + value + "\n") def replace_config(self, path_to_config, replacement): self.exec_in_container( ["bash", "-c", "echo '{}' > {}".format(replacement, path_to_config)] ) def replace_in_config(self, path_to_config, replace, replacement): self.exec_in_container( ["bash", "-c", f"sed -i 's/{replace}/{replacement}/g' {path_to_config}"] ) def create_dir(self): """Create the instance directory and all the needed files there.""" os.makedirs(self.path) instance_config_dir = p.abspath(p.join(self.path, "configs")) os.makedirs(instance_config_dir) print( f"Copy common default production configuration from {self.base_config_dir}. Files: {self.main_config_name}, {self.users_config_name}" ) shutil.copyfile( p.join(self.base_config_dir, self.main_config_name), p.join(instance_config_dir, self.main_config_name), ) shutil.copyfile( p.join(self.base_config_dir, self.users_config_name), p.join(instance_config_dir, self.users_config_name), ) logging.debug("Create directory for configuration generated in this helper") # used by all utils with any config conf_d_dir = p.abspath(p.join(instance_config_dir, "conf.d")) os.mkdir(conf_d_dir) logging.debug("Create directory for common tests configuration") # used by server with main config.xml self.config_d_dir = p.abspath(p.join(instance_config_dir, "config.d")) os.mkdir(self.config_d_dir) users_d_dir = p.abspath(p.join(instance_config_dir, "users.d")) os.mkdir(users_d_dir) dictionaries_dir = p.abspath(p.join(instance_config_dir, "dictionaries")) os.mkdir(dictionaries_dir) extra_conf_dir = p.abspath(p.join(instance_config_dir, "extra_conf.d")) os.mkdir(extra_conf_dir) def write_embedded_config(name, dest_dir, fix_log_level=False): with open(p.join(HELPERS_DIR, name), "r") as f: data = f.read() data = data.replace("clickhouse", self.config_root_name) if fix_log_level: data = data.replace("test", "trace") with open(p.join(dest_dir, name), "w") as r: r.write(data) logging.debug("Copy common configuration from helpers") # The file is named with 0_ prefix to be processed before other configuration overloads. if self.copy_common_configs: write_embedded_config( "0_common_instance_config.xml", self.config_d_dir, self.with_installed_binary, ) write_embedded_config("0_common_instance_users.xml", users_d_dir) if ( os.environ.get("CLICKHOUSE_USE_NEW_ANALYZER") is not None and self.allow_analyzer ): write_embedded_config("0_common_enable_analyzer.xml", users_d_dir) if len(self.custom_dictionaries_paths): write_embedded_config("0_common_enable_dictionaries.xml", self.config_d_dir) version = None version_parts = self.tag.split(".") if version_parts[0].isdigit() and version_parts[1].isdigit(): version = {"major": int(version_parts[0]), "minor": int(version_parts[1])} # async replication is only supported in version 23.9+ # for tags that don't specify a version we assume it has a version of ClickHouse # that supports async replication if a test for it is present if ( version == None or version["major"] > 23 or (version["major"] == 23 and version["minor"] >= 9) ): write_embedded_config( "0_common_enable_keeper_async_replication.xml", self.config_d_dir ) logging.debug("Generate and write macros file") macros = self.macros.copy() macros["instance"] = self.name with open(p.join(conf_d_dir, "macros.xml"), "w") as macros_config: macros_config.write(self.dict_to_xml({"macros": macros})) # Put ZooKeeper config if self.with_zookeeper: shutil.copy(self.zookeeper_config_path, conf_d_dir) if self.with_secrets: if self.with_kerberos_kdc: base_secrets_dir = self.cluster.instances_dir else: base_secrets_dir = self.path from_dir = self.secrets_dir to_dir = p.abspath(p.join(base_secrets_dir, "secrets")) logging.debug(f"Copy secret from {from_dir} to {to_dir}") shutil.copytree( self.secrets_dir, p.abspath(p.join(base_secrets_dir, "secrets")), dirs_exist_ok=True, ) if self.with_coredns: shutil.copytree( self.coredns_config_dir, p.abspath(p.join(self.path, "coredns_config")) ) # Copy config.d configs logging.debug( f"Copy custom test config files {self.custom_main_config_paths} to {self.config_d_dir}" ) for path in self.custom_main_config_paths: shutil.copy(path, self.config_d_dir) # Copy users.d configs for path in self.custom_user_config_paths: shutil.copy(path, users_d_dir) # Copy dictionaries configs to configs/dictionaries for path in self.custom_dictionaries_paths: shutil.copy(path, dictionaries_dir) for path in self.custom_extra_config_paths: shutil.copy(path, extra_conf_dir) db_dir = p.abspath(p.join(self.path, "database")) logging.debug(f"Setup database dir {db_dir}") if self.clickhouse_path_dir is not None: logging.debug(f"Database files taken from {self.clickhouse_path_dir}") shutil.copytree(self.clickhouse_path_dir, db_dir) logging.debug( f"Database copied from {self.clickhouse_path_dir} to {db_dir}" ) else: os.mkdir(db_dir) logs_dir = p.abspath(p.join(self.path, "logs")) logging.debug(f"Setup logs dir {logs_dir}") os.mkdir(logs_dir) self.logs_dir = logs_dir depends_on = [] if self.with_mysql_client: depends_on.append(self.cluster.mysql_client_host) if self.with_mysql: depends_on.append("mysql57") if self.with_mysql8: depends_on.append("mysql80") if self.with_mysql_cluster: depends_on.append("mysql57") depends_on.append("mysql2") depends_on.append("mysql3") depends_on.append("mysql4") if self.with_postgres_cluster: depends_on.append("postgres2") depends_on.append("postgres3") depends_on.append("postgres4") if self.with_kafka: depends_on.append("kafka1") depends_on.append("schema-registry") if self.with_kerberized_kafka: depends_on.append("kerberized_kafka1") if self.with_kerberos_kdc: depends_on.append("kerberoskdc") if self.with_kerberized_hdfs: depends_on.append("kerberizedhdfs1") if self.with_rabbitmq: depends_on.append("rabbitmq1") if self.with_nats: depends_on.append("nats1") if self.with_zookeeper: depends_on.append("zoo1") depends_on.append("zoo2") depends_on.append("zoo3") if self.with_minio: depends_on.append("minio1") if self.with_azurite: depends_on.append("azurite1") # In case the environment variables are exclusive, we don't want it to be in the cluster's env file. # Instead, a separate env file will be created for the instance and needs to be filled with cluster's env variables. if self.instance_env_variables is True: # Create a dictionary containing cluster & instance env variables. # Instance env variables will override cluster's. temp_env_variables = self.cluster.env_variables.copy() temp_env_variables.update(self.env_variables) self.env_variables = temp_env_variables else: self.cluster.env_variables.update(self.env_variables) odbc_ini_path = "" if self.odbc_ini_path: self._create_odbc_config_file() odbc_ini_path = "- " + self.odbc_ini_path entrypoint_cmd = self.clickhouse_start_command if self.stay_alive: entrypoint_cmd = self.clickhouse_stay_alive_command.replace( "{main_config_file}", self.main_config_name ) else: entrypoint_cmd = ( "[" + ", ".join(map(lambda x: '"' + x + '"', entrypoint_cmd.split())) + "]" ) logging.debug("Entrypoint cmd: {}".format(entrypoint_cmd)) networks = app_net = ipv4_address = ipv6_address = net_aliases = net_alias1 = "" if ( self.ipv4_address is not None or self.ipv6_address is not None or self.hostname != self.name ): networks = "networks:" app_net = "default:" if self.ipv4_address is not None: ipv4_address = "ipv4_address: " + self.ipv4_address if self.ipv6_address is not None: ipv6_address = "ipv6_address: " + self.ipv6_address if self.hostname != self.name: net_aliases = "aliases:" net_alias1 = "- " + self.hostname if not self.with_installed_binary: binary_volume = "- " + self.server_bin_path + ":/usr/bin/clickhouse" odbc_bridge_volume = ( "- " + self.odbc_bridge_bin_path + ":/usr/bin/clickhouse-odbc-bridge" ) library_bridge_volume = ( "- " + self.library_bridge_bin_path + ":/usr/bin/clickhouse-library-bridge" ) else: binary_volume = "- " + self.server_bin_path + ":/usr/share/clickhouse_fresh" odbc_bridge_volume = ( "- " + self.odbc_bridge_bin_path + ":/usr/share/clickhouse-odbc-bridge_fresh" ) library_bridge_volume = ( "- " + self.library_bridge_bin_path + ":/usr/share/clickhouse-library-bridge_fresh" ) external_dirs_volumes = "" if self.external_dirs: for external_dir in self.external_dirs: external_dir_abs_path = p.abspath( p.join(self.cluster.instances_dir, external_dir.lstrip("/")) ) logging.info(f"external_dir_abs_path={external_dir_abs_path}") os.makedirs(external_dir_abs_path, exist_ok=True) external_dirs_volumes += ( "- " + external_dir_abs_path + ":" + external_dir + "\n" ) # The current implementation of `self.env_variables` is not exclusive. Meaning the variables # are shared with all nodes within the same cluster, even if it is specified for a single node. # In order not to break the existing tests, the `self.instance_env_variables` option was added as a workaround. # IMHO, it would be better to make `self.env_variables` exclusive by default and remove the `self.instance_env_variables` option. if self.instance_env_variables: self.env_file = p.abspath(p.join(self.path, ".env")) _create_env_file(self.env_file, self.env_variables) with open(self.docker_compose_path, "w") as docker_compose: docker_compose.write( DOCKER_COMPOSE_TEMPLATE.format( image=self.image, tag=self.tag, name=self.name, hostname=self.hostname, binary_volume=binary_volume, odbc_bridge_volume=odbc_bridge_volume, library_bridge_volume=library_bridge_volume, instance_config_dir=instance_config_dir, config_d_dir=self.config_d_dir, db_dir=db_dir, external_dirs_volumes=external_dirs_volumes, tmpfs=str(self.tmpfs), logs_dir=logs_dir, depends_on=str(depends_on), user=os.getuid(), env_file=self.env_file, odbc_ini_path=odbc_ini_path, keytab_path=self.keytab_path, krb5_conf=self.krb5_conf, entrypoint_cmd=entrypoint_cmd, networks=networks, app_net=app_net, ipv4_address=ipv4_address, ipv6_address=ipv6_address, net_aliases=net_aliases, net_alias1=net_alias1, ) ) def wait_for_path_exists(self, path, seconds): while seconds > 0: seconds -= 1 if self.path_exists(path): return time.sleep(1) def get_backuped_s3_objects(self, disk, backup_name): path = f"/var/lib/clickhouse/disks/{disk}/shadow/{backup_name}/store" self.wait_for_path_exists(path, 10) return self.get_s3_objects(path) def get_s3_objects(self, path): command = [ "find", path, "-type", "f", "-exec", "grep", "-o", "r[01]\\{64\\}-file-[[:lower:]]\\{32\\}", "{}", ";", ] return self.exec_in_container(command).split("\n") def get_s3_data_objects(self, path): command = [ "find", path, "-type", "f", "-name", "*.bin", "-exec", "grep", "-o", "r[01]\\{64\\}-file-[[:lower:]]\\{32\\}", "{}", ";", ] return self.exec_in_container(command).split("\n") def get_table_objects(self, table, database=None): objects = [] database_query = "" if database: database_query = f"AND database='{database}'" data_paths = self.query( f""" SELECT arrayJoin(data_paths) FROM system.tables WHERE name='{table}' {database_query} """ ) paths = data_paths.split("\n") for path in paths: if path: objects = objects + self.get_s3_data_objects(path) return objects def create_format_schema(self, file_name, content): self.exec_in_container( [ "bash", "-c", "echo '{}' > {}".format( content, "/var/lib/clickhouse/format_schemas/" + file_name ), ] ) class ClickHouseKiller(object): def __init__(self, clickhouse_node): self.clickhouse_node = clickhouse_node def __enter__(self): self.clickhouse_node.stop_clickhouse(kill=True) def __exit__(self, exc_type, exc_val, exc_tb): self.clickhouse_node.start_clickhouse()