#!/usr/bin/env python3 # pylint: disable=too-many-return-statements # pylint: disable=global-variable-not-assigned import enum import shutil import sys import os import os.path import signal import re import copy import traceback import math # Not requests, to avoid requiring extra dependency. import http.client import urllib.parse import json # for crc32 import zlib from argparse import ArgumentParser from typing import Tuple, Union, Optional, Dict, Set, List import subprocess from subprocess import Popen from subprocess import PIPE from datetime import datetime from time import time, sleep from errno import ESRCH try: import termcolor except ImportError: termcolor = None import random import string import multiprocessing import socket from contextlib import closing USE_JINJA = True try: import jinja2 except ImportError: USE_JINJA = False print('WARNING: jinja2 not installed! Template tests will be skipped.') MESSAGES_TO_RETRY = [ "ConnectionPoolWithFailover: Connection failed at try", "DB::Exception: New table appeared in database being dropped or detached. Try again", "is already started to be removing by another replica right now", "DB::Exception: Cannot enqueue query", "is executing longer than distributed_ddl_task_timeout" # FIXME ] MAX_RETRIES = 3 TEST_FILE_EXTENSIONS = ['.sql', '.sql.j2', '.sh', '.py', '.expect'] def stringhash(s): # default hash() function consistent # only during process invocation https://stackoverflow.com/a/42089311 return zlib.crc32(s.encode('utf-8')) class HTTPError(Exception): def __init__(self, message=None, code=None): self.message = message self.code = code super().__init__(message) def __str__(self): return 'Code: {}. {}'.format(self.code, self.message) # Helpers to execute queries via HTTP interface. def clickhouse_execute_http(base_args, query, timeout=30, settings=None, default_format=None): client = http.client.HTTPConnection( host=base_args.tcp_host, port=base_args.http_port, timeout=timeout) timeout = int(timeout) params = { 'query': query, # hung check in stress tests may remove the database, # hence we should use 'system'. 'database': 'system', 'connect_timeout': timeout, 'receive_timeout': timeout, 'send_timeout': timeout, 'http_connection_timeout': timeout, 'http_receive_timeout': timeout, 'http_send_timeout': timeout, } if settings is not None: params.update(settings) if default_format is not None: params['default_format'] = default_format client.request('POST', '/?' + base_args.client_options_query_str + urllib.parse.urlencode(params)) res = client.getresponse() data = res.read() if res.status != 200: raise HTTPError(data.decode(), res.status) return data def clickhouse_execute(base_args, query, timeout=30, settings=None): return clickhouse_execute_http(base_args, query, timeout, settings).strip() def clickhouse_execute_json(base_args, query, timeout=30, settings=None): data = clickhouse_execute_http(base_args, query, timeout, settings, 'JSONEachRow') if not data: return None rows = [] for row in data.strip().splitlines(): rows.append(json.loads(row)) return rows class Terminated(KeyboardInterrupt): pass def signal_handler(sig, frame): raise Terminated(f'Terminated with {sig} signal') def stop_tests(): global stop_tests_triggered_lock global stop_tests_triggered global restarted_tests with stop_tests_triggered_lock: print("Stopping tests") if not stop_tests_triggered.is_set(): stop_tests_triggered.set() # materialize multiprocessing.Manager().list() object before # sending SIGTERM since this object is a proxy, that requires # communicating with manager thread, but after SIGTERM will be # send, this thread will die, and you will get # ConnectionRefusedError error for any access to "restarted_tests" # variable. restarted_tests = [*restarted_tests] # send signal to all processes in group to avoid hung check triggering # (to avoid terminating clickhouse-test itself, the signal should be ignored) signal.signal(signal.SIGTERM, signal.SIG_IGN) os.killpg(os.getpgid(os.getpid()), signal.SIGTERM) signal.signal(signal.SIGTERM, signal.SIG_DFL) def get_db_engine(args, database_name): if args.replicated_database: return f" ON CLUSTER test_cluster_database_replicated \ ENGINE=Replicated('/test/clickhouse/db/{database_name}', \ '{{shard}}', '{{replica}}')" if args.db_engine: return " ENGINE=" + args.db_engine return "" # Will use default engine def get_zookeeper_session_uptime(args): try: if args.replicated_database: return int(clickhouse_execute(args, """ SELECT min(materialize(zookeeperSessionUptime())) FROM clusterAllReplicas('test_cluster_database_replicated', system.one) """)) else: return int(clickhouse_execute(args, 'SELECT zookeeperSessionUptime()')) except: return None def need_retry(args, stdout, stderr, total_time): if args.check_zookeeper_session: # Sometimes we may get unexpected exception like "Replica is readonly" or "Shutdown is called for table" # instead of "Session expired" or "Connection loss" # Retry if session was expired during test execution. # If ZooKeeper is configured, then it's more reliable than checking stderr, # but the following condition is always true if ZooKeeper is not configured. session_uptime = get_zookeeper_session_uptime(args) if session_uptime is not None and session_uptime < math.ceil(total_time): return True return any(msg in stdout for msg in MESSAGES_TO_RETRY) or any(msg in stderr for msg in MESSAGES_TO_RETRY) def get_processlist(args): if args.replicated_database: return clickhouse_execute_json(args, """ SELECT materialize((hostName(), tcpPort())) as host, * FROM clusterAllReplicas('test_cluster_database_replicated', system.processes) WHERE query NOT LIKE '%system.processes%' """) else: return clickhouse_execute_json(args, 'SHOW PROCESSLIST') # collect server stacktraces using gdb def get_stacktraces_from_gdb(server_pid): try: cmd = f"gdb -batch -ex 'thread apply all backtrace' -p {server_pid}" return subprocess.check_output(cmd, shell=True).decode('utf-8') except Exception as e: print(f"Error occurred while receiving stack traces from gdb: {e}") return None # collect server stacktraces from system.stack_trace table # it does not work in Sandbox def get_stacktraces_from_clickhouse(args): settings_str = ' '.join([ get_additional_client_options(args), '--allow_introspection_functions=1', '--skip_unavailable_shards=1', ]) replicated_msg = \ "{} {} --query \ \"SELECT materialize((hostName(), tcpPort())) as host, thread_id, \ arrayStringConcat(arrayMap(x, y -> concat(x, ': ', y), \ arrayMap(x -> addressToLine(x), trace), \ arrayMap(x -> demangle(addressToSymbol(x)), trace)), '\n') as trace \ FROM clusterAllReplicas('test_cluster_database_replicated', 'system.stack_trace') \ ORDER BY host, thread_id FORMAT Vertical\"".format(args.client, settings_str) msg = \ "{} {} --query \ \"SELECT arrayStringConcat(arrayMap(x, y -> concat(x, ': ', y), \ arrayMap(x -> addressToLine(x), trace), \ arrayMap(x -> demangle(addressToSymbol(x)), trace)), '\n') as trace \ FROM system.stack_trace FORMAT Vertical\"".format(args.client, settings_str) try: return subprocess.check_output( replicated_msg if args.replicated_database else msg, shell=True, stderr=subprocess.STDOUT).decode('utf-8') except Exception as e: print(f"Error occurred while receiving stack traces from client: {e}") return None def print_stacktraces() -> None: server_pid = get_server_pid() bt = None if server_pid and not args.replicated_database: print("") print(f"Located ClickHouse server process {server_pid} listening at TCP port {args.tcp_port}") print("Collecting stacktraces from all running threads with gdb:") bt = get_stacktraces_from_gdb(server_pid) if len(bt) < 1000: print("Got suspiciously small stacktraces: ", bt) bt = None if bt is None: print("\nCollecting stacktraces from system.stacktraces table:") bt = get_stacktraces_from_clickhouse(args) if bt is not None: print(bt) return print(colored( f"\nUnable to locate ClickHouse server process listening at TCP port {args.tcp_port}. " "It must have crashed or exited prematurely!", args, "red", attrs=["bold"])) def get_server_pid(): # lsof does not work in stress tests for some reason cmd_lsof = f"lsof -i tcp:{args.tcp_port} -s tcp:LISTEN -Fp | awk '/^p[0-9]+$/{{print substr($0, 2)}}'" cmd_pidof = "pidof -s clickhouse-server" commands = [cmd_lsof, cmd_pidof] output = None for cmd in commands: try: output = subprocess.check_output(cmd, shell=True, stderr=subprocess.STDOUT, universal_newlines=True) if output: return int(output) except Exception as e: print(f"Cannot get server pid with {cmd}, got {output}: {e}") return None # most likely server is dead def colored(text, args, color=None, on_color=None, attrs=None): if termcolor and (sys.stdout.isatty() or args.force_color): return termcolor.colored(text, color, on_color, attrs) else: return text class TestStatus(enum.Enum): FAIL = "FAIL" UNKNOWN = "UNKNOWN" OK = "OK" SKIPPED = "SKIPPED" class FailureReason(enum.Enum): # FAIL reasons TIMEOUT = "Timeout!" SERVER_DIED = "server died" EXIT_CODE = "return code: " STDERR = "having stderror: " EXCEPTION = "having having exception in stdout: " RESULT_DIFF = "result differs with reference: " TOO_LONG = "Test runs too long (> 60s). Make it faster." # SKIPPED reasons DISABLED = "disabled" SKIP = "skip" NO_JINJA = "no jinja" NO_ZOOKEEPER = "no zookeeper" NO_SHARD = "no shard" FAST_ONLY = "running fast tests only" NO_LONG = "not running long tests" REPLICATED_DB = "replicated-database" BUILD = "not running for current build" # UNKNOWN reasons NO_REFERENCE = "no reference file" INTERNAL_ERROR = "Test internal error: " class TestResult: def __init__(self, case_name: str, status: TestStatus, reason: Optional[FailureReason], total_time: float, description: str): self.case_name: str = case_name self.status: TestStatus = status self.reason: Optional[FailureReason] = reason self.total_time: float = total_time self.description: str = description self.need_retry: bool = False def check_if_need_retry(self, args, stdout, stderr, runs_count): if self.status != TestStatus.FAIL: return if not need_retry(args, stdout, stderr, self.total_time): return if MAX_RETRIES < runs_count: return self.need_retry = True class TestCase: @staticmethod def get_reference_file(suite_dir, name): """ Returns reference file name for specified test """ name = removesuffix(name, ".gen") for ext in ['.reference', '.gen.reference']: reference_file = os.path.join(suite_dir, name) + ext if os.path.isfile(reference_file): return reference_file return None @staticmethod def configure_testcase_args(args, case_file, suite_tmp_dir): testcase_args = copy.deepcopy(args) testcase_args.testcase_start_time = datetime.now() testcase_basename = os.path.basename(case_file) testcase_args.testcase_client = f"{testcase_args.client} --log_comment='{testcase_basename}'" testcase_args.testcase_basename = testcase_basename if testcase_args.database: database = testcase_args.database os.environ.setdefault("CLICKHOUSE_DATABASE", database) os.environ.setdefault("CLICKHOUSE_TMP", suite_tmp_dir) else: # If --database is not specified, we will create temporary database with unique name # And we will recreate and drop it for each test def random_str(length=6): alphabet = string.ascii_lowercase + string.digits # NOTE: it is important not to use default random generator, since it shares state. return ''.join(random.SystemRandom().choice(alphabet) for _ in range(length)) database = 'test_{suffix}'.format(suffix=random_str()) clickhouse_execute(args, "CREATE DATABASE " + database + get_db_engine(testcase_args, database), settings={ 'log_comment': testcase_args.testcase_basename, }) os.environ["CLICKHOUSE_DATABASE"] = database # Set temporary directory to match the randomly generated database, # because .sh tests also use it for temporary files and we want to avoid # collisions. testcase_args.test_tmp_dir = os.path.join(suite_tmp_dir, database) os.mkdir(testcase_args.test_tmp_dir) os.environ.setdefault("CLICKHOUSE_TMP", testcase_args.test_tmp_dir) testcase_args.testcase_database = database return testcase_args def __init__(self, suite, case: str, args, is_concurrent: bool): self.case: str = case # case file name self.tags: Set[str] = suite.all_tags[case] if case in suite.all_tags else set() self.case_file: str = os.path.join(suite.suite_path, case) (self.name, self.ext) = os.path.splitext(case) file_suffix = ('.' + str(os.getpid())) if is_concurrent and args.test_runs > 1 else '' self.reference_file = self.get_reference_file(suite.suite_path, self.name) self.stdout_file = os.path.join(suite.suite_tmp_path, self.name) + file_suffix + '.stdout' self.stderr_file = os.path.join(suite.suite_tmp_path, self.name) + file_suffix + '.stderr' self.testcase_args = None self.runs_count = 0 # should skip test, should increment skipped_total, skip reason def should_skip_test(self, suite) -> Optional[FailureReason]: tags = self.tags if tags and ('disabled' in tags) and not args.disabled: return FailureReason.DISABLED elif os.path.exists(os.path.join(suite.suite_path, self.name) + '.disabled') and not args.disabled: return FailureReason.DISABLED elif args.skip and any(s in self.name for s in args.skip): return FailureReason.SKIP elif not USE_JINJA and self.ext.endswith("j2"): return FailureReason.NO_JINJA elif tags and (('zookeeper' in tags) or ('replica' in tags)) and not args.zookeeper: return FailureReason.NO_ZOOKEEPER elif tags and (('shard' in tags) or ('distributed' in tags) or ('global' in tags)) and not args.shard: return FailureReason.NO_SHARD elif tags and ('no-fasttest' in tags) and args.fast_tests_only: return FailureReason.FAST_ONLY elif tags and (('long' in tags) or ('deadlock' in tags) or ('race' in tags)) and args.no_long: # Tests for races and deadlocks usually are run in a loop for a significant amount of time return FailureReason.NO_LONG elif tags and ('no-replicated-database' in tags) and args.replicated_database: return FailureReason.REPLICATED_DB elif tags: for build_flag in args.build_flags: if 'no-' + build_flag in tags: return FailureReason.BUILD return None def process_result_impl(self, proc, stdout: str, stderr: str, total_time: float): description = "" if proc: if proc.returncode is None: try: proc.kill() except OSError as e: if e.errno != ESRCH: raise if stderr: description += stderr return TestResult(self.name, TestStatus.FAIL, FailureReason.TIMEOUT, total_time, description) if proc.returncode != 0: reason = FailureReason.EXIT_CODE description += str(proc.returncode) if stderr: description += "\n" description += stderr # Stop on fatal errors like segmentation fault. They are sent to client via logs. if ' ' in stderr: reason = FailureReason.SERVER_DIED if self.testcase_args.stop \ and ('Connection refused' in stderr or 'Attempt to read after eof' in stderr) \ and 'Received exception from server' not in stderr: reason = FailureReason.SERVER_DIED if os.path.isfile(self.stdout_file): description += ", result:\n\n" description += '\n'.join(open(self.stdout_file).read().splitlines()[:100]) description += '\n' description += "\nstdout:\n{}\n".format(stdout) return TestResult(self.name, TestStatus.FAIL, reason, total_time, description) if stderr: description += "\n{}\n".format('\n'.join(stderr.splitlines()[:100])) description += "\nstdout:\n{}\n".format(stdout) return TestResult(self.name, TestStatus.FAIL, FailureReason.STDERR, total_time, description) if 'Exception' in stdout: description += "\n{}\n".format('\n'.join(stdout.splitlines()[:100])) return TestResult(self.name, TestStatus.FAIL, FailureReason.EXCEPTION, total_time, description) if '@@SKIP@@' in stdout: skip_reason = stdout.replace('@@SKIP@@', '').rstrip("\n") description += " - " description += skip_reason return TestResult(self.name, TestStatus.SKIPPED, FailureReason.SKIP, total_time, description) if self.reference_file is None: return TestResult(self.name, TestStatus.UNKNOWN, FailureReason.NO_REFERENCE, total_time, description) result_is_different = subprocess.call(['diff', '-q', self.reference_file, self.stdout_file], stdout=PIPE) if result_is_different: diff = Popen(['diff', '-U', str(self.testcase_args.unified), self.reference_file, self.stdout_file], stdout=PIPE, universal_newlines=True).communicate()[0] description += "\n{}\n".format(diff) return TestResult(self.name, TestStatus.FAIL, FailureReason.RESULT_DIFF, total_time, description) if self.testcase_args.test_runs > 1 and total_time > 60 and 'long' not in self.tags: # We're in Flaky Check mode, check the run time as well while we're at it. return TestResult(self.name, TestStatus.FAIL, FailureReason.TOO_LONG, total_time, description) if os.path.exists(self.stdout_file): os.remove(self.stdout_file) if os.path.exists(self.stderr_file): os.remove(self.stderr_file) return TestResult(self.name, TestStatus.OK, None, total_time, description) @staticmethod def print_test_time(test_time) -> str: if args.print_time: return " {0:.2f} sec.".format(test_time) else: return '' def process_result(self, result: TestResult, messages): description_full = messages[result.status] description_full += self.print_test_time(result.total_time) if result.reason is not None: description_full += " - " description_full += result.reason.value description_full += result.description description_full += "\n" if result.status == TestStatus.FAIL: description_full += 'Database: ' + self.testcase_args.testcase_database result.description = description_full return result @staticmethod def send_test_name_failed(suite: str, case: str) -> bool: pid = os.getpid() clickhouse_execute(args, f"SELECT 'Running test {suite}/{case} from pid={pid}'") def run_single_test(self, server_logs_level, client_options): args = self.testcase_args client = args.testcase_client start_time = args.testcase_start_time database = args.testcase_database # This is for .sh tests os.environ["CLICKHOUSE_LOG_COMMENT"] = args.testcase_basename params = { 'client': client + ' --database=' + database, 'logs_level': server_logs_level, 'options': client_options, 'test': self.case_file, 'stdout': self.stdout_file, 'stderr': self.stderr_file, } # >> append to stderr (but not stdout since it is not used there), # because there are also output of per test database creation if not args.database: pattern = '{test} > {stdout} 2> {stderr}' else: pattern = '{test} > {stdout} 2> {stderr}' if self.ext == '.sql': pattern = "{client} --send_logs_level={logs_level} --testmode --multiquery {options} < " + pattern command = pattern.format(**params) proc = Popen(command, shell=True, env=os.environ) while (datetime.now() - start_time).total_seconds() < args.timeout and proc.poll() is None: sleep(0.01) need_drop_database = not args.database if need_drop_database and args.no_drop_if_fail: maybe_passed = (proc.returncode == 0) and (proc.stderr is None) and ( proc.stdout is None or 'Exception' not in proc.stdout) need_drop_database = not maybe_passed if need_drop_database: seconds_left = max(args.timeout - (datetime.now() - start_time).total_seconds(), 20) try: clickhouse_execute(args, "DROP DATABASE " + database, timeout=seconds_left, settings={ 'log_comment': args.testcase_basename, }) except socket.timeout: total_time = (datetime.now() - start_time).total_seconds() return None, "", f"Timeout dropping database {database} after test", total_time shutil.rmtree(args.test_tmp_dir) total_time = (datetime.now() - start_time).total_seconds() # Normalize randomized database names in stdout, stderr files. os.system("LC_ALL=C sed -i -e 's/{test_db}/default/g' {file}".format(test_db=database, file=self.stdout_file)) if args.hide_db_name: os.system( "LC_ALL=C sed -i -e 's/{test_db}/default/g' {file}".format(test_db=database, file=self.stderr_file)) if args.replicated_database: os.system("LC_ALL=C sed -i -e 's|/auto_{{shard}}||g' {file}".format(file=self.stdout_file)) os.system("LC_ALL=C sed -i -e 's|auto_{{replica}}||g' {file}".format(file=self.stdout_file)) # Normalize hostname in stdout file. os.system("LC_ALL=C sed -i -e 's/{hostname}/localhost/g' {file}".format(hostname=socket.gethostname(), file=self.stdout_file)) stdout = open(self.stdout_file, 'rb').read() if os.path.exists(self.stdout_file) else b'' stdout = str(stdout, errors='replace', encoding='utf-8') stderr = open(self.stderr_file, 'rb').read() if os.path.exists(self.stderr_file) else b'' stderr = str(stderr, errors='replace', encoding='utf-8') return proc, stdout, stderr, total_time def run(self, args, suite, client_options, server_logs_level): try: skip_reason = self.should_skip_test(suite) if skip_reason is not None: return TestResult(self.name, TestStatus.SKIPPED, skip_reason, 0., "") if args.testname: try: self.send_test_name_failed(suite.suite, self.case) except: return TestResult(self.name, TestStatus.FAIL, FailureReason.SERVER_DIED, 0., "\nServer does not respond to health check\n") self.runs_count += 1 self.testcase_args = self.configure_testcase_args(args, self.case_file, suite.suite_tmp_path) proc, stdout, stderr, total_time = self.run_single_test(server_logs_level, client_options) result = self.process_result_impl(proc, stdout, stderr, total_time) result.check_if_need_retry(args, stdout, stderr, self.runs_count) return result except KeyboardInterrupt as e: raise e except: exc_type, exc_value, tb = sys.exc_info() exc_name = exc_type.__name__ traceback_str = "\n".join(traceback.format_tb(tb, 10)) description = f"{exc_name}\n{exc_value}\n{traceback_str}" return TestResult(self.name, TestStatus.UNKNOWN, FailureReason.INTERNAL_ERROR, 0., description) class TestSuite: @staticmethod def tests_in_suite_key_func(item: str) -> int: if args.order == 'random': return random.random() reverse = 1 if args.order == 'asc' else -1 if -1 == item.find('_'): return 99998 prefix, _ = item.split('_', 1) try: return reverse * int(prefix) except ValueError: return 99997 @staticmethod def render_test_template(j2env, suite_dir, test_name): """ Render template for test and reference file if needed """ if j2env is None: return test_name test_base_name = removesuffix(test_name, ".sql.j2", ".sql") reference_file_name = test_base_name + ".reference.j2" reference_file_path = os.path.join(suite_dir, reference_file_name) if os.path.isfile(reference_file_path): tpl = j2env.get_template(reference_file_name) tpl.stream().dump(os.path.join(suite_dir, test_base_name) + ".gen.reference") if test_name.endswith(".sql.j2"): tpl = j2env.get_template(test_name) generated_test_name = test_base_name + ".gen.sql" tpl.stream().dump(os.path.join(suite_dir, generated_test_name)) return generated_test_name return test_name @staticmethod def read_test_tags(suite_dir: str, all_tests: List[str]) -> Dict[str, Set[str]]: def get_comment_sign(filename): if filename.endswith('.sql') or filename.endswith('.sql.j2'): return '--' elif filename.endswith('.sh') or filename.endswith('.py') or filename.endswith('.expect'): return '#' else: raise Exception(f'Unknown file_extension: {filename}') def parse_tags_from_line(line, comment_sign): if not line.startswith(comment_sign): return None tags_str = line[len(comment_sign):].lstrip() tags_prefix = "Tags:" if not tags_str.startswith(tags_prefix): return None tags_str = tags_str[len(tags_prefix):] tags = tags_str.split(',') tags = {tag.strip() for tag in tags} return tags def is_shebang(line): return line.startswith('#!') def load_tags_from_file(filepath): with open(filepath, 'r') as file: try: line = file.readline() if is_shebang(line): line = file.readline() except UnicodeDecodeError: return [] return parse_tags_from_line(line, get_comment_sign(filepath)) all_tags = {} start_time = datetime.now() for test_name in all_tests: tags = load_tags_from_file(os.path.join(suite_dir, test_name)) if tags: all_tags[test_name] = tags elapsed = (datetime.now() - start_time).total_seconds() if elapsed > 1: print(f"Tags for suite {suite_dir} read in {elapsed:.2f} seconds") return all_tags def __init__(self, args, suite_path: str, suite_tmp_path: str, suite: str): self.args = args self.suite_path: str = suite_path self.suite_tmp_path: str = suite_tmp_path self.suite: str = suite filter_func = lambda x: True if args.run_by_hash_num is not None and args.run_by_hash_total is not None: if args.run_by_hash_num > args.run_by_hash_total: raise Exception(f"Incorrect run by hash, value {args.run_by_hash_num} bigger than total {args.run_by_hash_total}") filter_func = lambda x: stringhash(x) % args.run_by_hash_total == args.run_by_hash_num self.all_tests: List[str] = self.get_tests_list(self.tests_in_suite_key_func, filter_func) self.all_tags: Dict[str, Set[str]] = self.read_test_tags(self.suite_path, self.all_tests) self.sequential_tests = [] self.parallel_tests = [] for test_name in self.all_tests: if self.is_sequential_test(test_name): self.sequential_tests.append(test_name) else: self.parallel_tests.append(test_name) def is_sequential_test(self, test_name): if args.sequential: if any(s in test_name for s in args.sequential): return True if test_name not in self.all_tags: return False return ('no-parallel' in self.all_tags[test_name]) or ('sequential' in self.all_tags[test_name]) def get_tests_list(self, sort_key, filter_func): """ Return list of tests file names to run """ all_tests = list(self.get_selected_tests(filter_func)) all_tests = all_tests * self.args.test_runs all_tests.sort(key=sort_key) return all_tests def get_selected_tests(self, filter_func): """ Find all files with tests, filter, render templates """ j2env = jinja2.Environment( loader=jinja2.FileSystemLoader(self.suite_path), keep_trailing_newline=True, ) if USE_JINJA else None for test_name in os.listdir(self.suite_path): if not is_test_from_dir(self.suite_path, test_name): continue if self.args.test and not any(re.search(pattern, test_name) for pattern in self.args.test): continue if USE_JINJA and test_name.endswith(".gen.sql"): continue if not filter_func(test_name): continue test_name = self.render_test_template(j2env, self.suite_path, test_name) yield test_name @staticmethod def read_test_suite(args, suite_dir_name: str): def is_data_present(): return int(clickhouse_execute(args, 'EXISTS TABLE test.hits')) base_dir = os.path.abspath(args.queries) tmp_dir = os.path.abspath(args.tmp) suite_path = os.path.join(base_dir, suite_dir_name) suite_re_obj = re.search('^[0-9]+_(.*)$', suite_dir_name) if not suite_re_obj: # skip .gitignore and so on return None suite_tmp_path = os.path.join(tmp_dir, suite_dir_name) if not os.path.exists(suite_tmp_path): os.makedirs(suite_tmp_path) suite = suite_re_obj.group(1) if not os.path.isdir(suite_path): return None if 'stateful' in suite and not args.no_stateful and not is_data_present(): print("Won't run stateful tests because test data wasn't loaded.") return None if 'stateless' in suite and args.no_stateless: print("Won't run stateless tests because they were manually disabled.") return None if 'stateful' in suite and args.no_stateful: print("Won't run stateful tests because they were manually disabled.") return None return TestSuite(args, suite_path, suite_tmp_path, suite) stop_time = None exit_code = None server_died = None stop_tests_triggered_lock = None stop_tests_triggered = None queue = None multiprocessing_manager = None restarted_tests = None # def run_tests_array(all_tests: List[str], num_tests: int, test_suite: TestSuite): def run_tests_array(all_tests_with_params): all_tests, num_tests, test_suite = all_tests_with_params global stop_time global exit_code global server_died global restarted_tests OP_SQUARE_BRACKET = colored("[", args, attrs=['bold']) CL_SQUARE_BRACKET = colored("]", args, attrs=['bold']) MSG_FAIL = OP_SQUARE_BRACKET + colored(" FAIL ", args, "red", attrs=['bold']) + CL_SQUARE_BRACKET MSG_UNKNOWN = OP_SQUARE_BRACKET + colored(" UNKNOWN ", args, "yellow", attrs=['bold']) + CL_SQUARE_BRACKET MSG_OK = OP_SQUARE_BRACKET + colored(" OK ", args, "green", attrs=['bold']) + CL_SQUARE_BRACKET MSG_SKIPPED = OP_SQUARE_BRACKET + colored(" SKIPPED ", args, "cyan", attrs=['bold']) + CL_SQUARE_BRACKET MESSAGES = {TestStatus.FAIL: MSG_FAIL, TestStatus.UNKNOWN: MSG_UNKNOWN, TestStatus.OK: MSG_OK, TestStatus.SKIPPED: MSG_SKIPPED} passed_total = 0 skipped_total = 0 failures_total = 0 failures_chain = 0 start_time = datetime.now() is_concurrent = multiprocessing.current_process().name != "MainProcess" client_options = get_additional_client_options(args) if num_tests > 0: about = 'about ' if is_concurrent else '' proc_name = multiprocessing.current_process().name print(f"\nRunning {about}{num_tests} {test_suite.suite} tests ({proc_name}).\n") while True: if is_concurrent: case = queue.get(timeout=args.timeout * 1.1) if not case: break else: if all_tests: case = all_tests.pop(0) else: break if server_died.is_set(): stop_tests() break if stop_time and time() > stop_time: print("\nStop tests run because global time limit is exceeded.\n") stop_tests() break test_case = TestCase(test_suite, case, args, is_concurrent) try: description = '' if not is_concurrent: sys.stdout.flush() sys.stdout.write("{0:72}".format(removesuffix(test_case.name, ".gen", ".sql") + ": ")) # This flush is needed so you can see the test name of the long # running test before it will finish. But don't do it in parallel # mode, so that the lines don't mix. sys.stdout.flush() else: description = "{0:72}".format(removesuffix(test_case.name, ".gen", ".sql") + ": ") while True: test_result = test_case.run(args, test_suite, client_options, server_logs_level) test_result = test_case.process_result(test_result, MESSAGES) if not test_result.need_retry: break restarted_tests.append(test_result) if test_result.status == TestStatus.OK: passed_total += 1 failures_chain = 0 elif test_result.status == TestStatus.FAIL: failures_total += 1 failures_chain += 1 if test_result.reason == FailureReason.SERVER_DIED: server_died.set() stop_tests() elif test_result.status == TestStatus.SKIPPED: skipped_total += 1 description += test_result.description if description and not description.endswith('\n'): description += '\n' sys.stdout.write(description) sys.stdout.flush() except KeyboardInterrupt as e: print(colored("Break tests execution", args, "red")) stop_tests() raise e if failures_chain >= 20: stop_tests() break if failures_total > 0: print(colored(f"\nHaving {failures_total} errors! {passed_total} tests passed." f" {skipped_total} tests skipped. {(datetime.now() - start_time).total_seconds():.2f} s elapsed" f' ({multiprocessing.current_process().name}).', args, "red", attrs=["bold"])) exit_code.value = 1 else: print(colored(f"\n{passed_total} tests passed. {skipped_total} tests skipped." f" {(datetime.now() - start_time).total_seconds():.2f} s elapsed" f' ({multiprocessing.current_process().name}).', args, "green", attrs=["bold"])) sys.stdout.flush() server_logs_level = "warning" def check_server_started(args): print("Connecting to ClickHouse server...", end='') sys.stdout.flush() retry_count = args.server_check_retries while retry_count > 0: try: clickhouse_execute(args, 'SELECT 1') print(" OK") sys.stdout.flush() return True except (ConnectionRefusedError, ConnectionResetError): print('.', end='') sys.stdout.flush() retry_count -= 1 sleep(0.5) continue print('\nAll connection tries failed') sys.stdout.flush() return False class BuildFlags(): THREAD = 'tsan' ADDRESS = 'asan' UNDEFINED = 'ubsan' MEMORY = 'msan' DEBUG = 'debug' RELEASE = 'release' ORDINARY_DATABASE = 'ordinary-database' POLYMORPHIC_PARTS = 'polymorphic-parts' def collect_build_flags(args): result = [] value = clickhouse_execute(args, "SELECT value FROM system.build_options WHERE name = 'CXX_FLAGS'") if b'-fsanitize=thread' in value: result.append(BuildFlags.THREAD) elif b'-fsanitize=address' in value: result.append(BuildFlags.ADDRESS) elif b'-fsanitize=undefined' in value: result.append(BuildFlags.UNDEFINED) elif b'-fsanitize=memory' in value: result.append(BuildFlags.MEMORY) value = clickhouse_execute(args, "SELECT value FROM system.build_options WHERE name = 'BUILD_TYPE'") if b'Debug' in value: result.append(BuildFlags.DEBUG) elif b'RelWithDebInfo' in value or b'Release' in value: result.append(BuildFlags.RELEASE) value = clickhouse_execute(args, "SELECT value FROM system.settings WHERE name = 'default_database_engine'") if value == b'Ordinary': result.append(BuildFlags.ORDINARY_DATABASE) value = int(clickhouse_execute(args, "SELECT value FROM system.merge_tree_settings WHERE name = 'min_bytes_for_wide_part'")) if value == 0: result.append(BuildFlags.POLYMORPHIC_PARTS) return result def suite_key_func(item: str) -> Union[int, Tuple[int, str]]: if args.order == 'random': return random.random() if -1 == item.find('_'): return 99998, '' prefix, suffix = item.split('_', 1) try: return int(prefix), suffix except ValueError: return 99997, '' def extract_key(key: str) -> str: return subprocess.getstatusoutput( args.extract_from_config + " --try --config " + args.configserver + key)[1] def do_run_tests(jobs, test_suite: TestSuite, parallel): if jobs > 1 and len(test_suite.parallel_tests) > 0: print("Found", len(test_suite.parallel_tests), "parallel tests and", len(test_suite.sequential_tests), "sequential tests") run_n, run_total = parallel.split('/') run_n = float(run_n) run_total = float(run_total) tests_n = len(test_suite.parallel_tests) if run_total > tests_n: run_total = tests_n if jobs > tests_n: jobs = tests_n if jobs > run_total: run_total = jobs batch_size = max(1, len(test_suite.parallel_tests) // jobs) parallel_tests_array = [] for _ in range(jobs): parallel_tests_array.append((None, batch_size, test_suite)) with closing(multiprocessing.Pool(processes=jobs)) as pool: pool.map_async(run_tests_array, parallel_tests_array) for suit in test_suite.parallel_tests: queue.put(suit, timeout=args.timeout * 1.1) for _ in range(jobs): queue.put(None, timeout=args.timeout * 1.1) queue.close() pool.join() run_tests_array((test_suite.sequential_tests, len(test_suite.sequential_tests), test_suite)) return len(test_suite.sequential_tests) + len(test_suite.parallel_tests) else: num_tests = len(test_suite.all_tests) run_tests_array((test_suite.all_tests, num_tests, test_suite)) return num_tests def is_test_from_dir(suite_dir, case): case_file = os.path.join(suite_dir, case) # We could also test for executable files (os.access(case_file, os.X_OK), # but it interferes with 01610_client_spawn_editor.editor, which is invoked # as a query editor in the test, and must be marked as executable. return os.path.isfile(case_file) and any(case_file.endswith(suppotred_ext) for suppotred_ext in TEST_FILE_EXTENSIONS) def removesuffix(text, *suffixes): """ Added in python 3.9 https://www.python.org/dev/peps/pep-0616/ This version can work with several possible suffixes """ for suffix in suffixes: if suffix and text.endswith(suffix): return text[:-len(suffix)] return text def main(args): global server_died global stop_time global exit_code global server_logs_level global restarted_tests if not check_server_started(args): msg = "Server is not responding. Cannot execute 'SELECT 1' query. \ If you are using split build, you have to specify -c option." if args.hung_check: print(msg) pid = get_server_pid() print("Got server pid", pid) print_stacktraces() raise Exception(msg) args.build_flags = collect_build_flags(args) if args.skip: args.skip = set(args.skip) base_dir = os.path.abspath(args.queries) # Keep same default values as in queries/shell_config.sh os.environ.setdefault("CLICKHOUSE_BINARY", args.binary) # os.environ.setdefault("CLICKHOUSE_CLIENT", args.client) os.environ.setdefault("CLICKHOUSE_CONFIG", args.configserver) if args.configclient: os.environ.setdefault("CLICKHOUSE_CONFIG_CLIENT", args.configclient) # Force to print server warnings in stderr # Shell scripts could change logging level os.environ.setdefault("CLICKHOUSE_CLIENT_SERVER_LOGS_LEVEL", server_logs_level) # This code is bad as the time is not monotonic if args.global_time_limit: stop_time = time() + args.global_time_limit if args.zookeeper is None: try: args.zookeeper = int(extract_key(" --key zookeeper | grep . | wc -l")) > 0 except ValueError: args.zookeeper = False if args.shard is None: args.shard = bool(extract_key(' --key listen_host | grep -E "127.0.0.2|::"')) def create_common_database(args, db_name): create_database_retries = 0 while create_database_retries < MAX_RETRIES: start_time = datetime.now() try: clickhouse_execute(args, "CREATE DATABASE IF NOT EXISTS " + db_name + get_db_engine(args, db_name)) except HTTPError as e: total_time = (datetime.now() - start_time).total_seconds() if not need_retry(args, e.message, e.message, total_time): break create_database_retries += 1 if args.database and args.database != "test": create_common_database(args, args.database) create_common_database(args, "test") total_tests_run = 0 for suite in sorted(os.listdir(base_dir), key=suite_key_func): if server_died.is_set(): break test_suite = TestSuite.read_test_suite(args, suite) if test_suite is None: continue total_tests_run += do_run_tests(args.jobs, test_suite, args.parallel) if server_died.is_set(): exit_code.value = 1 if args.hung_check: # Some queries may execute in background for some time after test was finished. This is normal. for _ in range(1, 60): processlist = get_processlist(args) if not processlist: break sleep(1) if processlist: print(colored("\nFound hung queries in processlist:", args, "red", attrs=["bold"])) print(json.dumps(processlist, indent=4)) print_stacktraces() exit_code.value = 1 else: print(colored("\nNo queries hung.", args, "green", attrs=["bold"])) if len(restarted_tests) > 0: print("\nSome tests were restarted:\n") for test_result in restarted_tests: print("\n{0:72}: ".format(test_result.case_name)) # replace it with lowercase to avoid parsing retried tests as failed for status in TestStatus: test_result.description = test_result.description.replace(status.value, status.value.lower()) print(test_result.description) if total_tests_run == 0: print("No tests were run.") sys.exit(1) else: print("All tests have finished.") sys.exit(exit_code.value) def find_binary(name): if os.path.exists(name) and os.access(name, os.X_OK): return True paths = os.environ.get("PATH").split(':') for path in paths: if os.access(os.path.join(path, name), os.X_OK): return True # maybe it wasn't in PATH if os.access(os.path.join('/usr/local/bin', name), os.X_OK): return True if os.access(os.path.join('/usr/bin', name), os.X_OK): return True return False def get_additional_client_options(args): if args.client_option: return ' '.join('--' + option for option in args.client_option) return '' def get_additional_client_options_url(args): if args.client_option: return '&'.join(args.client_option) return '' if __name__ == '__main__': stop_time = None exit_code = multiprocessing.Value("i", 0) server_died = multiprocessing.Event() stop_tests_triggered_lock = multiprocessing.Lock() stop_tests_triggered = multiprocessing.Event() queue = multiprocessing.Queue(maxsize=1) multiprocessing_manager = multiprocessing.Manager() restarted_tests = multiprocessing_manager.list() # Move to a new process group and kill it at exit so that we don't have any # infinite tests processes left # (new process group is required to avoid killing some parent processes) os.setpgid(0, 0) signal.signal(signal.SIGTERM, signal_handler) signal.signal(signal.SIGINT, signal_handler) signal.signal(signal.SIGHUP, signal_handler) parser = ArgumentParser(description='ClickHouse functional tests') parser.add_argument('-q', '--queries', help='Path to queries dir') parser.add_argument('--tmp', help='Path to tmp dir') parser.add_argument('-b', '--binary', default='clickhouse', help='Path to clickhouse (if monolithic build, clickhouse-server otherwise) binary or name of binary in PATH') parser.add_argument('-c', '--client', help='Path to clickhouse-client (if split build, useless otherwise) binary of name of binary in PATH') parser.add_argument('--extract_from_config', help='extract-from-config program') parser.add_argument('--configclient', help='Client config (if you use not default ports)') parser.add_argument('--configserver', default='/etc/clickhouse-server/config.xml', help='Preprocessed server config') parser.add_argument('-o', '--output', help='Output xUnit compliant test report directory') parser.add_argument('-t', '--timeout', type=int, default=600, help='Timeout for each test case in seconds') parser.add_argument('--global_time_limit', type=int, help='Stop if executing more than specified time (after current test finished)') parser.add_argument('test', nargs='*', help='Optional test case name regex') parser.add_argument('-d', '--disabled', action='store_true', default=False, help='Also run disabled tests') parser.add_argument('--stop', action='store_true', default=None, dest='stop', help='Stop on network errors') parser.add_argument('--order', default='desc', choices=['asc', 'desc', 'random'], help='Run order') parser.add_argument('--testname', action='store_true', default=None, dest='testname', help='Make query with test name before test run') parser.add_argument('--hung-check', action='store_true', default=False) parser.add_argument('--force-color', action='store_true', default=False) parser.add_argument('--database', help='Database for tests (random name test_XXXXXX by default)') parser.add_argument('--no-drop-if-fail', action='store_true', help='Do not drop database for test if test has failed') parser.add_argument('--hide-db-name', action='store_true', help='Replace random database name with "default" in stderr') parser.add_argument('--parallel', default='1/1', help='One parallel test run number/total') parser.add_argument('-j', '--jobs', default=1, nargs='?', type=int, help='Run all tests in parallel') parser.add_argument('--test-runs', default=1, nargs='?', type=int, help='Run each test many times (useful for e.g. flaky check)') parser.add_argument('-U', '--unified', default=3, type=int, help='output NUM lines of unified context') parser.add_argument('-r', '--server-check-retries', default=180, type=int, help='Num of tries to execute SELECT 1 before tests started') parser.add_argument('--db-engine', help='Database engine name') parser.add_argument('--replicated-database', action='store_true', default=False, help='Run tests with Replicated database engine') parser.add_argument('--fast-tests-only', action='store_true', default=False, help='Run only fast tests (the tests without the "no-fasttest" tag)') parser.add_argument('--no-stateless', action='store_true', help='Disable all stateless tests') parser.add_argument('--no-stateful', action='store_true', help='Disable all stateful tests') parser.add_argument('--skip', nargs='+', help="Skip these tests") parser.add_argument('--sequential', nargs='+', help="Run these tests sequentially even if --parallel specified") parser.add_argument('--no-long', action='store_true', dest='no_long', help='Do not run long tests') parser.add_argument('--client-option', nargs='+', help='Specify additional client argument') parser.add_argument('--print-time', action='store_true', dest='print_time', help='Print test time') parser.add_argument('--check-zookeeper-session', action='store_true', help='Check ZooKeeper session uptime to determine if failed test should be retried') parser.add_argument('--run-by-hash-num', type=int, help='Run tests matching crc32(test_name) % run_by_hash_total == run_by_hash_num') parser.add_argument('--run-by-hash-total', type=int, help='Total test groups for crc32(test_name) % run_by_hash_total == run_by_hash_num') group = parser.add_mutually_exclusive_group(required=False) group.add_argument('--zookeeper', action='store_true', default=None, dest='zookeeper', help='Run zookeeper related tests') group.add_argument('--no-zookeeper', action='store_false', default=None, dest='zookeeper', help='Do not run zookeeper related tests') group = parser.add_mutually_exclusive_group(required=False) group.add_argument('--shard', action='store_true', default=None, dest='shard', help='Run sharding related tests (required to clickhouse-server listen 127.0.0.2 127.0.0.3)') group.add_argument('--no-shard', action='store_false', default=None, dest='shard', help='Do not run shard related tests') args = parser.parse_args() if args.queries and not os.path.isdir(args.queries): print(f"Cannot access the specified directory with queries ({args.queries})", file=sys.stderr) sys.exit(1) # Autodetect the directory with queries if not specified if args.queries is None: args.queries = 'queries' if not os.path.isdir(args.queries): # If we're running from the repo args.queries = os.path.join(os.path.dirname(os.path.abspath(__file__)), 'queries') if not os.path.isdir(args.queries): # Next we're going to try some system directories, don't write 'stdout' files into them. if args.tmp is None: args.tmp = '/tmp/clickhouse-test' args.queries = '/usr/local/share/clickhouse-test/queries' if not os.path.isdir(args.queries): args.queries = '/usr/share/clickhouse-test/queries' if not os.path.isdir(args.queries): print("Failed to detect path to the queries directory. Please specify it with '--queries' option.", file=sys.stderr) sys.exit(1) print("Using queries from '" + args.queries + "' directory") if args.tmp is None: args.tmp = args.queries if args.client is None: if find_binary(args.binary + '-client'): args.client = args.binary + '-client' print("Using " + args.client + " as client program (expecting split build)") elif find_binary(args.binary): args.client = args.binary + ' client' print("Using " + args.client + " as client program (expecting monolithic build)") else: print("No 'clickhouse' or 'clickhouse-client' client binary found", file=sys.stderr) parser.print_help() sys.exit(1) if args.configclient: args.client += ' --config-file=' + args.configclient tcp_host = os.getenv("CLICKHOUSE_HOST") if tcp_host is not None: args.tcp_host = tcp_host args.client += f' --host={tcp_host}' else: args.tcp_host = 'localhost' tcp_port = os.getenv("CLICKHOUSE_PORT_TCP") if tcp_port is not None: args.tcp_port = int(tcp_port) args.client += f" --port={tcp_port}" else: args.tcp_port = 9000 http_port = os.getenv("CLICKHOUSE_PORT_HTTP") if http_port is not None: args.http_port = int(http_port) else: args.http_port = 8123 client_database = os.getenv("CLICKHOUSE_DATABASE") if client_database is not None: args.client += f' --database={client_database}' args.client_database = client_database else: args.client_database = 'default' if args.client_option: # Set options for client if 'CLICKHOUSE_CLIENT_OPT' in os.environ: os.environ['CLICKHOUSE_CLIENT_OPT'] += ' ' else: os.environ['CLICKHOUSE_CLIENT_OPT'] = '' os.environ['CLICKHOUSE_CLIENT_OPT'] += get_additional_client_options(args) # Set options for curl if 'CLICKHOUSE_URL_PARAMS' in os.environ: os.environ['CLICKHOUSE_URL_PARAMS'] += '&' else: os.environ['CLICKHOUSE_URL_PARAMS'] = '' client_options_query_str = get_additional_client_options_url(args) args.client_options_query_str = client_options_query_str + '&' os.environ['CLICKHOUSE_URL_PARAMS'] += client_options_query_str else: args.client_options_query_str = '' if args.extract_from_config is None: if os.access(args.binary + '-extract-from-config', os.X_OK): args.extract_from_config = args.binary + '-extract-from-config' else: args.extract_from_config = args.binary + ' extract-from-config' if args.jobs is None: args.jobs = multiprocessing.cpu_count() main(args)