import os import re import sys import stat import time import fcntl import atexit import shutil import signal import argparse import platform import tempfile import unittest import subprocess from multiprocessing import Process class TestUnit(unittest.TestCase): current_dir = os.path.abspath( os.path.join(os.path.dirname(__file__), os.pardir) ) pardir = os.path.abspath( os.path.join(os.path.dirname(__file__), os.pardir, os.pardir) ) is_su = os.geteuid() == 0 uid = os.geteuid() gid = os.getegid() architecture = platform.architecture()[0] system = platform.system() maxDiff = None detailed = False save_log = False print_log = False unsafe = False def __init__(self, methodName='runTest'): super().__init__(methodName) if re.match(r'.*\/run\.py$', sys.argv[0]): args, rest = TestUnit._parse_args() TestUnit._set_args(args) def run(self, result=None): if not hasattr(self, 'application_type'): return super().run(result) # rerun test for each available module version type = self.application_type for module in self.prerequisites['modules']: if module in self.available['modules']: for version in self.available['modules'][module]: self.application_type = type + ' ' + version super().run(result) @classmethod def main(cls): args, rest = TestUnit._parse_args() for i, arg in enumerate(rest): if arg[:5] == 'test_': rest[i] = cls.__name__ + '.' + arg sys.argv = sys.argv[:1] + rest TestUnit._set_args(args) unittest.main() @classmethod def setUpClass(cls, complete_check=True): cls.available = {'modules': {}, 'features': {}} unit = TestUnit() unit._run() # read unit.log for i in range(50): with open(unit.testdir + '/unit.log', 'r') as f: log = f.read() m = re.search('controller started', log) if m is None: time.sleep(0.1) else: break if m is None: unit.stop() exit("Unit is writing log too long") # discover available modules from unit.log for module in re.findall(r'module: ([a-zA-Z]+) (.*) ".*"$', log, re.M): if module[0] not in cls.available['modules']: cls.available['modules'][module[0]] = [module[1]] else: cls.available['modules'][module[0]].append(module[1]) def check(available, prerequisites): missed = [] # check modules if 'modules' in prerequisites: available_modules = list(available['modules'].keys()) for module in prerequisites['modules']: if module in available_modules: continue missed.append(module) if missed: print('Unit has no ' + ', '.join(missed) + ' module(s)') raise unittest.SkipTest() # check features if 'features' in prerequisites: available_features = list(available['features'].keys()) for feature in prerequisites['features']: if feature in available_features: continue missed.append(feature) if missed: print(', '.join(missed) + ' feature(s) not supported') raise unittest.SkipTest() def destroy(): unit.stop() unit._check_alerts(log) shutil.rmtree(unit.testdir) def complete(): destroy() check(cls.available, cls.prerequisites) if complete_check: complete() else: unit.complete = complete return unit def setUp(self): self._run() def _run(self): build_dir = self.pardir + '/build' self.unitd = build_dir + '/unitd' if not os.path.isfile(self.unitd): exit("Could not find unit") self.testdir = tempfile.mkdtemp(prefix='unit-test-') self.public_dir(self.testdir) if oct(stat.S_IMODE(os.stat(build_dir).st_mode)) != '0o777': self.public_dir(build_dir) os.mkdir(self.testdir + '/state') with open(self.testdir + '/unit.log', 'w') as log: self._p = subprocess.Popen( [ self.unitd, '--no-daemon', '--modules', self.pardir + '/build', '--state', self.testdir + '/state', '--pid', self.testdir + '/unit.pid', '--log', self.testdir + '/unit.log', '--control', 'unix:' + self.testdir + '/control.unit.sock', '--tmp', self.testdir, ], stderr=log, ) atexit.register(self.stop) # Due to race between connect() and listen() after the socket binding # tests waits for unit.pid file which is created after listen(). if not self.waitforfiles(self.testdir + '/unit.pid'): exit("Could not start unit") self.skip_alerts = [ r'read signalfd\(4\) failed', r'last message send failed', r'sendmsg.+failed', r'recvmsg.+failed', ] self.skip_sanitizer = False def tearDown(self): self.stop() # detect errors and failures for current test def list2reason(exc_list): if exc_list and exc_list[-1][0] is self: return exc_list[-1][1] if hasattr(self, '_outcome'): result = self.defaultTestResult() self._feedErrorsToResult(result, self._outcome.errors) else: result = getattr( self, '_outcomeForDoCleanups', self._resultForDoCleanups ) success = not list2reason(result.errors) and not list2reason( result.failures ) # check unit.log for alerts unit_log = self.testdir + '/unit.log' with open(unit_log, 'r', encoding='utf-8', errors='ignore') as f: self._check_alerts(f.read()) # remove unit.log if not TestUnit.save_log and success: shutil.rmtree(self.testdir) else: self._print_log() def stop(self): self._stop() self.stop_processes() atexit.unregister(self.stop) def _stop(self): if self._p.poll() is not None: return with self._p as p: p.send_signal(signal.SIGQUIT) try: retcode = p.wait(15) if retcode: self.fail( "Child process terminated with code " + str(retcode) ) except: p.kill() self.fail("Could not terminate unit") def run_process(self, target, *args): if not hasattr(self, '_processes'): self._processes = [] process = Process(target=target, args=args) process.start() self._processes.append(process) def stop_processes(self): if not hasattr(self, '_processes'): return for process in self._processes: if process.is_alive(): process.terminate() process.join(timeout=15) if process.is_alive(): self.fail('Fail to stop process') def waitforfiles(self, *files): for i in range(50): wait = False ret = False for f in files: if not os.path.exists(f): wait = True break if wait: time.sleep(0.1) else: ret = True break return ret def public_dir(self, path): os.chmod(path, 0o777) for root, dirs, files in os.walk(path): for d in dirs: os.chmod(os.path.join(root, d), 0o777) for f in files: os.chmod(os.path.join(root, f), 0o777) def _check_alerts(self, log): found = False alerts = re.findall('.+\[alert\].+', log) if alerts: print('All alerts/sanitizer errors found in log:') [print(alert) for alert in alerts] found = True if self.skip_alerts: for skip in self.skip_alerts: alerts = [al for al in alerts if re.search(skip, al) is None] if alerts: self._print_log(log) self.assertFalse(alerts, 'alert(s)') if not self.skip_sanitizer: sanitizer_errors = re.findall('.+Sanitizer.+', log) if sanitizer_errors: self._print_log(log) self.assertFalse(sanitizer_errors, 'sanitizer error(s)') if found: print('skipped.') @staticmethod def _parse_args(): parser = argparse.ArgumentParser(add_help=False) parser.add_argument( '-d', '--detailed', dest='detailed', action='store_true', help='Detailed output for tests', ) parser.add_argument( '-l', '--log', dest='save_log', action='store_true', help='Save unit.log after the test execution', ) parser.add_argument( '-r', '--reprint_log', dest='print_log', action='store_true', help='Print unit.log to stdout in case of errors', ) parser.add_argument( '-u', '--unsafe', dest='unsafe', action='store_true', help='Run unsafe tests', ) return parser.parse_known_args() @staticmethod def _set_args(args): TestUnit.detailed = args.detailed TestUnit.save_log = args.save_log TestUnit.print_log = args.print_log TestUnit.unsafe = args.unsafe # set stdout to non-blocking if TestUnit.detailed or TestUnit.print_log: fcntl.fcntl(sys.stdout.fileno(), fcntl.F_SETFL, 0) def _print_log(self, data=None): path = self.testdir + '/unit.log' print('Path to unit.log:\n' + path + '\n') if TestUnit.print_log: if data is None: with open(path, 'r', encoding='utf-8', errors='ignore') as f: data = f.read() print(data)