import fcntl import inspect import json import os import re import shutil import signal import stat import subprocess import sys import tempfile import time from multiprocessing import Process from pathlib import Path import pytest from unit.check.check_prerequisites import check_prerequisites from unit.check.discover_available import discover_available from unit.http import HTTP1 from unit.log import Log from unit.log import print_log_on_assert from unit.option import option from unit.status import Status from unit.utils import check_findmnt from unit.utils import public_dir from unit.utils import waitforfiles from unit.utils import waitforunmount def pytest_addoption(parser): parser.addoption( "--detailed", default=False, action="store_true", help="Detailed output for tests", ) parser.addoption( "--print-log", default=False, action="store_true", help="Print unit.log to stdout in case of errors", ) parser.addoption( "--save-log", default=False, action="store_true", help="Save unit.log after the test execution", ) parser.addoption( "--unsafe", default=False, action="store_true", help="Run unsafe tests", ) parser.addoption( "--user", type=str, help="Default user for non-privileged processes of unitd", ) parser.addoption( "--fds-threshold", type=int, default=0, help="File descriptors threshold", ) parser.addoption( "--restart", default=False, action="store_true", help="Force Unit to restart after every test", ) unit_instance = {} _processes = [] _fds_info = { 'main': {'fds': 0, 'skip': False}, 'router': {'name': 'unit: router', 'pid': -1, 'fds': 0, 'skip': False}, 'controller': { 'name': 'unit: controller', 'pid': -1, 'fds': 0, 'skip': False, }, } http = HTTP1() is_findmnt = check_findmnt() def pytest_configure(config): option.config = config.option option.detailed = config.option.detailed option.fds_threshold = config.option.fds_threshold option.print_log = config.option.print_log option.save_log = config.option.save_log option.unsafe = config.option.unsafe option.user = config.option.user option.restart = config.option.restart option.generated_tests = {} option.current_dir = os.path.abspath( os.path.join(os.path.dirname(__file__), os.pardir) ) option.test_dir = f'{option.current_dir}/test' option.cache_dir = tempfile.mkdtemp(prefix='unit-test-cache-') public_dir(option.cache_dir) # set stdout to non-blocking if option.detailed or option.print_log: fcntl.fcntl(sys.stdout.fileno(), fcntl.F_SETFL, 0) def pytest_generate_tests(metafunc): module = metafunc.module if ( not hasattr(module, 'client') or not hasattr(module.client, 'application_type') or module.client.application_type is None or module.client.application_type == 'external' ): return app_type = module.client.application_type def generate_tests(versions): if not versions: pytest.skip('no available module versions') metafunc.fixturenames.append('tmp_ct') metafunc.parametrize('tmp_ct', versions) for version in versions: option.generated_tests[ f'{metafunc.function.__name__} [{version}]' ] = f'{app_type} {version}' # take available module from option and generate tests for each version available_modules = option.available['modules'] for module, version in metafunc.module.prerequisites['modules'].items(): if module in available_modules and available_modules[module]: available_versions = available_modules[module] if version == 'all': generate_tests(available_versions) elif version == 'any': option.generated_tests[ metafunc.function.__name__ ] = f'{app_type} {available_versions[0]}' elif callable(version): generate_tests(list(filter(version, available_versions))) else: raise ValueError( f''' Unexpected prerequisite version "{version}" for module "{module}". 'all', 'any' or callable expected.''' ) def pytest_sessionstart(): unit = unit_run() discover_available(unit) _clear_conf() unit_stop() Log.check_alerts() if option.restart: shutil.rmtree(unit['temp_dir']) else: _clear_temp_dir() @pytest.hookimpl(tryfirst=True, hookwrapper=True) def pytest_runtest_makereport(item): # execute all other hooks to obtain the report object outcome = yield rep = outcome.get_result() # set a report attribute for each phase of a call, which can # be "setup", "call", "teardown" setattr(item, f'rep_{rep.when}', rep) @pytest.fixture(scope='module', autouse=True) def check_prerequisites_module(request): if hasattr(request.module, 'prerequisites'): check_prerequisites(request.module.prerequisites) @pytest.fixture(autouse=True) def run(request): unit = unit_run() option.skip_alerts = [ r'read signalfd\(4\) failed', r'sendmsg.+failed', r'recvmsg.+failed', ] option.skip_sanitizer = False _fds_info['main']['skip'] = False _fds_info['router']['skip'] = False _fds_info['controller']['skip'] = False yield # stop unit error_stop_unit = unit_stop() error_stop_processes = stop_processes() # prepare log with Log.open() as f: log = f.read() Log.set_pos(f.tell()) if not option.save_log and option.restart: shutil.rmtree(unit['temp_dir']) Log.set_pos(0) # clean temp_dir before the next test if not option.restart: _clear_conf(log=log) _clear_temp_dir() # check descriptors _check_fds(log=log) # check processes id's and amount _check_processes() # print unit.log in case of error if hasattr(request.node, 'rep_call') and request.node.rep_call.failed: Log.print_log(log) if error_stop_unit or error_stop_processes: Log.print_log(log) # check unit.log for errors assert error_stop_unit is None, 'stop unit' assert error_stop_processes is None, 'stop processes' Log.check_alerts(log=log) def unit_run(state_dir=None): global unit_instance if not option.restart and 'unitd' in unit_instance: return unit_instance builddir = f'{option.current_dir}/build' libdir = f'{builddir}/lib' modulesdir = f'{libdir}/unit/modules' sbindir = f'{builddir}/sbin' unitd = f'{sbindir}/unitd' if not Path(unitd).is_file(): sys.exit('Could not find unit') temporary_dir = tempfile.mkdtemp(prefix='unit-test-') option.temp_dir = temporary_dir public_dir(temporary_dir) if oct(stat.S_IMODE(Path(builddir).stat().st_mode)) != '0o777': public_dir(builddir) statedir = f'{temporary_dir}/state' if state_dir is None else state_dir Path(statedir).mkdir(exist_ok=True) control_sock = f'{temporary_dir}/control.unit.sock' unitd_args = [ unitd, '--no-daemon', '--modulesdir', modulesdir, '--statedir', statedir, '--pid', f'{temporary_dir}/unit.pid', '--log', f'{temporary_dir}/unit.log', '--control', f'unix:{temporary_dir}/control.unit.sock', '--tmpdir', temporary_dir, ] if option.user: unitd_args.extend(['--user', option.user]) with open(f'{temporary_dir}/unit.log', 'w', encoding='utf-8') as log: unit_instance['process'] = subprocess.Popen(unitd_args, stderr=log) if not waitforfiles(control_sock): Log.print_log() sys.exit('Could not start unit') unit_instance['temp_dir'] = temporary_dir unit_instance['control_sock'] = control_sock unit_instance['unitd'] = unitd unit_instance['pid'] = ( Path(f'{temporary_dir}/unit.pid').read_text(encoding='utf-8').rstrip() ) if state_dir is None: _clear_conf() _fds_info['main']['fds'] = _count_fds(unit_instance['pid']) router = _fds_info['router'] router['pid'] = pid_by_name(router['name']) router['fds'] = _count_fds(router['pid']) controller = _fds_info['controller'] controller['pid'] = pid_by_name(controller['name']) controller['fds'] = _count_fds(controller['pid']) Status._check_zeros() return unit_instance def unit_stop(): if not option.restart: if inspect.stack()[1].function.startswith('test_'): pytest.skip('no restart mode') return # check zombies out = subprocess.check_output( ['ps', 'ax', '-o', 'state', '-o', 'ppid'] ).decode() z_ppids = re.findall(r'Z\s*(\d+)', out) assert unit_instance['pid'] not in z_ppids, 'no zombies' # terminate unit p = unit_instance['process'] if p.poll() is not None: return p.send_signal(signal.SIGQUIT) try: retcode = p.wait(15) if retcode: return f'Child process terminated with code {retcode}' except KeyboardInterrupt: p.kill() raise except: p.kill() return 'Could not terminate unit' @print_log_on_assert def _clear_conf(*, log=None): sock = unit_instance['control_sock'] resp = http.put( url='/config', sock_type='unix', addr=sock, body=json.dumps({"listeners": {}, "applications": {}}), )['body'] assert 'success' in resp, 'clear conf' def get(url): return http.get(url=url, sock_type='unix', addr=sock)['body'] def delete(url): return http.delete(url=url, sock_type='unix', addr=sock)['body'] if ( 'openssl' in option.available['modules'] and option.available['modules']['openssl'] ): try: certs = json.loads(get('/certificates')).keys() except json.JSONDecodeError: pytest.fail("Can't parse certificates list.") for cert in certs: assert 'success' in delete(f'/certificates/{cert}'), 'delete cert' if ( 'njs' in option.available['modules'] and option.available['modules']['njs'] ): try: scripts = json.loads(get('/js_modules')).keys() except json.JSONDecodeError: pytest.fail("Can't parse njs modules list.") for script in scripts: assert 'success' in delete(f'/js_modules/{script}'), 'delete script' def _clear_temp_dir(): temporary_dir = unit_instance['temp_dir'] if is_findmnt and not waitforunmount(temporary_dir, timeout=600): Log.print_log() sys.exit(f'Could not unmount filesystems in tmpdir ({temporary_dir}).') for item in Path(temporary_dir).iterdir(): if item.name not in [ 'control.unit.sock', 'state', 'unit.pid', 'unit.log', ]: public_dir(item) if item.is_file() or stat.S_ISSOCK(item.stat().st_mode): item.unlink() else: for _ in range(10): try: shutil.rmtree(item) break except OSError as err: # OSError: [Errno 16] Device or resource busy # OSError: [Errno 39] Directory not empty if err.errno not in [16, 39]: raise time.sleep(1) def _check_processes(): router_pid = _fds_info['router']['pid'] controller_pid = _fds_info['controller']['pid'] main_pid = unit_instance['pid'] for _ in range(600): out = ( subprocess.check_output( ['ps', '-ax', '-o', 'pid', '-o', 'ppid', '-o', 'command'] ) .decode() .splitlines() ) out = [l for l in out if main_pid in l] if len(out) <= 3: break time.sleep(0.1) if option.restart: assert len(out) == 0, 'all termimated' return assert len(out) == 3, 'main, router, and controller expected' out = [l for l in out if 'unit: main' not in l] assert len(out) == 2, 'one main' out = [ l for l in out if re.search(fr'{router_pid}\s+{main_pid}.*unit: router', l) is None ] assert len(out) == 1, 'one router' out = [ l for l in out if re.search(fr'{controller_pid}\s+{main_pid}.*unit: controller', l) is None ] assert len(out) == 0, 'one controller' @print_log_on_assert def _check_fds(*, log=None): def waitforfds(diff): for _ in range(600): fds_diff = diff() if fds_diff <= option.fds_threshold: break time.sleep(0.1) return fds_diff ps = _fds_info['main'] if not ps['skip']: fds_diff = waitforfds( lambda: _count_fds(unit_instance['pid']) - ps['fds'] ) ps['fds'] += fds_diff assert fds_diff <= option.fds_threshold, 'descriptors leak main process' else: ps['fds'] = _count_fds(unit_instance['pid']) for name in ['controller', 'router']: ps = _fds_info[name] ps_pid = ps['pid'] ps['pid'] = pid_by_name(ps['name']) if not ps['skip']: fds_diff = waitforfds(lambda: _count_fds(ps['pid']) - ps['fds']) ps['fds'] += fds_diff if not option.restart: assert ps['pid'] == ps_pid, f'same pid {name}' assert fds_diff <= option.fds_threshold, f'descriptors leak {name}' else: ps['fds'] = _count_fds(ps['pid']) def _count_fds(pid): procfile = Path(f'/proc/{pid}/fd') if procfile.is_dir(): return len(list(procfile.iterdir())) try: out = subprocess.check_output( ['procstat', '-f', pid], stderr=subprocess.STDOUT, ).decode() return len(out.splitlines()) except (FileNotFoundError, TypeError, subprocess.CalledProcessError): pass try: out = subprocess.check_output( ['lsof', '-n', '-p', pid], stderr=subprocess.STDOUT, ).decode() return len(out.splitlines()) except (FileNotFoundError, TypeError, subprocess.CalledProcessError): pass return 0 def run_process(target, *args): global _processes process = Process(target=target, args=args) process.start() _processes.append(process) def stop_processes(): if not _processes: return fail = False for process in _processes: if process.is_alive(): process.terminate() process.join(timeout=15) if process.is_alive(): fail = True if fail: return 'Fail to stop process(es)' def pid_by_name(name): output = subprocess.check_output(['ps', 'ax', '-O', 'ppid']).decode() m = re.search(fr'\s*(\d+)\s*{unit_instance["pid"]}.*{name}', output) return None if m is None else m.group(1) def find_proc(name, ps_output): return re.findall(f'{unit_instance["pid"]}.*{name}', ps_output) def pytest_sessionfinish(): if not option.restart and option.save_log: Log.print_path() option.restart = True unit_stop() public_dir(option.cache_dir) shutil.rmtree(option.cache_dir) if not option.save_log and Path(option.temp_dir).is_dir(): public_dir(option.temp_dir) shutil.rmtree(option.temp_dir) @pytest.fixture def date_to_sec_epoch(): def _date_to_sec_epoch(date, template='%a, %d %b %Y %X %Z'): return time.mktime(time.strptime(date, template)) return _date_to_sec_epoch @pytest.fixture def findall(): def _findall(*args, **kwargs): return Log.findall(*args, **kwargs) return _findall @pytest.fixture def is_su(): return option.is_privileged @pytest.fixture def is_unsafe(request): return request.config.getoption("--unsafe") @pytest.fixture def require(): return check_prerequisites @pytest.fixture def search_in_file(): def _search_in_file(pattern, name='unit.log', flags=re.M): return re.search(pattern, Log.read(name), flags) return _search_in_file @pytest.fixture def sec_epoch(): return time.mktime(time.gmtime()) @pytest.fixture() def skip_alert(): def _skip(*alerts): option.skip_alerts.extend(alerts) return _skip @pytest.fixture() def skip_fds_check(): def _skip(main=False, router=False, controller=False): _fds_info['main']['skip'] = main _fds_info['router']['skip'] = router _fds_info['controller']['skip'] = controller return _skip @pytest.fixture() def system(): return option.system @pytest.fixture def temp_dir(): return unit_instance['temp_dir'] @pytest.fixture def unit_pid(): return unit_instance['process'].pid @pytest.fixture def wait_for_record(): def _wait_for_record(*args, **kwargs): return Log.wait_for_record(*args, **kwargs) return _wait_for_record