Ejemplo n.º 1
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    def test_sigtimedwait(self):
        t0 = time.monotonic()
        signal.sigtimedwait([signal.SIGUSR1], self.sleep_time)
        dt = time.monotonic() - t0

        if sys.platform.startswith('aix'):
            # On AIX, sigtimedwait(0.2) sleeps 199.8 ms
            self.assertGreaterEqual(dt, self.sleep_time * 0.9)
        else:
            self.assertGreaterEqual(dt, self.sleep_time)
Ejemplo n.º 2
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def run_mock_server(*args, wait=10):
    """
    :rtype: Process
    """
    mock_server_process = None

    testargs = [PROGRAM, *args]
    with patch.object(sys, 'argv', testargs):
        mock_server_process = Process(target=initiate, args=())
        mock_server_process.start()

    signal.signal(signal.SIGALRM, signal_handler)
    signal.sigtimedwait([signal.SIGALRM], wait)

    return mock_server_process
Ejemplo n.º 3
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 def wait(self, timeout=None):
     success = False
     if timeout is None:
         signal.sigwait({
             self._signalnum,
         })
         success = True
     else:
         success = (signal.sigtimedwait({
             self._signalnum,
         }, timeout) is not None)
     self._occured = success
     return success
Ejemplo n.º 4
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def main(args=None):
    if args is None:
        args = sys.argv[1:]
    parser = argparse.ArgumentParser()
    parser.add_argument("-a",
                        "--aliasFile",
                        action="store",
                        default=os.environ["HOME"] + "/.cloudmra/alias.json",
                        help="Filesystem path to alias json file.")
    parser.add_argument("-c",
                        "--configFile",
                        action="store",
                        default=os.environ["HOME"] +
                        "/.cloudmra/cloudmra.config",
                        help="Filesystem path to config json file.")
    parser.add_argument(
        "-S",
        "--systemd",
        action="store_true",
        help="Run as a systemd service."
    )  # store_true is false by default, and returns True when flag is set.
    arguments = parser.parse_args()

    with open(arguments.aliasFile, 'r') as aliasjson:
        ALIAS = (aliasjson.read())

    with open(arguments.configFile, 'r') as configjson:
        CONFIG = json.loads(configjson.read())

    main_overseer = overseer(CONFIG, ALIAS, LOOP=arguments.systemd)
    signal.signal(signalnum=signal.SIGTERM,
                  handler=main_overseer.signal_handler)
    signal.signal(signalnum=signal.SIGINT,
                  handler=main_overseer.signal_handler)

    if main_overseer.CONTINUE is False:
        main_overseer.process()
    else:
        while main_overseer.CONTINUE:
            main_overseer.process()
            if signal.sigtimedwait(set([signal.SIGTERM, signal.SIGINT]),
                                   main_overseer.SLEEP_TIME):
                main_overseer.signal_handler(signal.SIGTERM)
    return 0
Ejemplo n.º 5
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    def handle(self, **options):
        pidfile_path = os.path.join(os.environ.get("BUILDDIR", "."),
                                    ".runbuilds.pid")

        with open(pidfile_path, 'w') as pidfile:
            pidfile.write("%s" % os.getpid())

        # Clean up any stale/failed builds from previous Toaster run
        self.runbuild()

        signal.signal(signal.SIGUSR1, lambda sig, frame: None)

        while True:
            sigset = signal.sigtimedwait([signal.SIGUSR1], 5)
            if sigset:
                for sig in sigset:
                    # Consume each captured pending event
                    self.runbuild()
            else:
                # Check for build exceptions
                self.check_dead_builds()
Ejemplo n.º 6
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        def inner():
            # Block signals unconditionally to avoid them impacting our return
            # code.
            signal.pthread_sigmask(signal.SIG_SETMASK, test_signals)
            for sig in test_signals:
                os.kill(pid, sig)

            received_signal = False
            received_signals = signal.sigpending()
            while received_signals != test_signals:
                result = signal.sigtimedwait(forwarded_signals, 0.1)
                if result is not None:
                    received_signal = True
                    received_signals.add(result.si_signo)
                elif received_signal:
                    # Only trace after the first empty response.
                    received_signal = False
                    logger.debug("Waiting for %s",
                                 test_signals - received_signals)

            output_path.write_text(to_string(received_signals),
                                   encoding="utf-8")
Ejemplo n.º 7
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    def launch(self):
        self.check()

        received = False

        def set_received(*_):
            nonlocal received
            received = True

        signal.signal(signal.SIGUSR1, set_received)
        pid = self.fork_zeo()
        if not received:
            while not signal.sigtimedwait([signal.SIGUSR1], 1):
                pid, waitres = os.waitpid(pid, os.WNOHANG)
                if pid:
                    log.error(
                        'Database server failed to start (check log above).')
                    sys.exit(1)

        settings.DB_URI = urlunsplit(('zeo', '', self.zeo_path, '', ''))
        log.debug('Launched built-in ZEO')
        return pid
Ejemplo n.º 8
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def main() -> None:
    """Run the main processing loop for the certmgr instance."""
    mode_choices: Dict[str, BaseCert] = {
        "self-signed": SelfSignedCert(),
        "letsencrypt": LetsEncryptCert(),
        "cert-server": CertProxyServer(),
        "cert-client": CertProxyClient(),
    }

    cert_store = get_setting("CERT_STORE")
    for subdir in ("nginx", "selfsigned"):
        os.makedirs(f"{cert_store}/{subdir}", 0o755, True)

    cert_mode = get_setting("CERT_MODE")
    print(f"Running in {cert_mode} mode")
    cert_obj = mode_choices.get(cert_mode, None)

    if cert_obj is not None:
        cert_obj.create()
        # The certmgr will respond to the SIGUSR1 signal by checking for certificate
        # renewal ahead of the scheduled time.  The initial use for this is to
        # allow the NUC to trigger the certmgr (running in "cert-client" mode) to
        # check for an updated certificate when it detects that the wired ethernet
        # connection is up.
        usr1_signal = signal.SIGUSR1
        signal.signal(usr1_signal, handle_user_sig1)
        while True:
            # check for renewal after 12 hours or SIGUSR1 received
            got_sig = signal.sigtimedwait([usr1_signal],
                                          12 * 3600)  # (12 hrs x 3600 sec/hr)
            if got_sig is not None:
                print(f"Renew triggered by signal ({got_sig.si_signo}).")
            cert_obj.renew()
    else:
        print(f"Cannot run {cert_mode} mode")
        sys.exit(1)
Ejemplo n.º 9
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 def test_sigtimedwait(self):
     t0 = time.monotonic()
     signal.sigtimedwait([signal.SIGUSR1], self.sleep_time)
     dt = time.monotonic() - t0
     self.assertGreaterEqual(dt, self.sleep_time)
Ejemplo n.º 10
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    web_proc.start()

    # print('seedling: web process started, daemon: %s' % web_proc.daemon)


    def signal_handler(sig, context):
        global exit_flag
        if sig == signal.SIGTERM:
            exit_flag = True

    signal.signal(signal.SIGTERM, signal_handler)

    exit_flag = False
    while not exit_flag:

        siginfo = signal.sigtimedwait([signal.SIGTERM], 5)
        if not control_proc.is_alive() or not web_proc.is_alive():
            exit_flag = True
        elif siginfo and siginfo.si_signo == signal.SIGTERM:
            exit_flag = True

    if web_proc.is_alive():
        print('seedling: terminate web')
        os.kill(web_proc.pid, signal.SIGTERM)

    if control_proc.is_alive():
        print('seedling: terminate control')
        clear_queue(msg_queue)
        msg_queue.put('end')

    # Give control loop time to update instrumentation
Ejemplo n.º 11
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 def wrapper(*args):
     # print(func.__name__, end='')
     args[0].private_queue.put(os.getpid())
     signal.sigtimedwait([signal.SIGUSR1], 1.5)
     # print(func.__name__, "end")
     return func(*args)
Ejemplo n.º 12
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 def wait_func(signum):
     signal.sigtimedwait([signum], 120.0)
Ejemplo n.º 13
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    database = config['database']['connection']
    sensors = gather_sensors(config)
    xs1_host = config['xs1']['host']
    update_interval = int(config['updater']['interval'])

    db_connection = DatabaseConnection(database, sensors)

    while True:
        xs1_connection = XS1Connection(xs1_host)
        sensor_names = db_connection.get_sensors()
        sensor_values = list()
        for sensor_name in sensor_names:
            sensor = xs1_connection.get_sensor_by_name(sensor_name)
            if sensor:
                sensor.update(xs1_connection)
                sensor_values.append(sensor.value)
            else:
                raise RuntimeError('Sensor "'+sensor_name+'" does not exist.')
        xs1_connection.close()
        db_connection.insert_measurements(sensor_values)
        db_connection.commit()

        if signal.sigtimedwait([signal.SIGABRT,
                                signal.SIGINT,
                                signal.SIGTERM],
                               update_interval) != None:
            break

    db_connection.close()
Ejemplo n.º 14
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 def sleep(self, seconds):
     """Sleep for a certain amount of seconds.
     """
     ret = signal.sigtimedwait(SIGNALS, seconds)
     if ret is not None:
         return ret.si_signo
Ejemplo n.º 15
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current_time = 0.0
diffs = []
infrared = Button(0, pull_up=False)


def infra_event_pressed():
    global current_time
    current_time = time.time()


def infra_event_released():
    global diffs
    diff_time = time.time() - current_time
    diffs += [diff_time]
    # print("Infrared Deactivated", diff_time * 1000000, "uS")


infrared.when_pressed = infra_event_pressed
infrared.when_released = infra_event_released

sigtimedwait([], 5)
print([int(a * 10**6) for a in diffs])
# state = 0

# while True:
#     if infrared.value != state:
#         temp_time = time.time()
#         diff = temp_time - current_time1
#         current_time1 = temp_time
#         print("difference ", diff * 1000000)
#         state = infrared.value
Ejemplo n.º 16
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 def wait_func(signum):
     signal.sigtimedwait([signum], 120.0)
Ejemplo n.º 17
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 def test_sigtimedwait(self):
     t0 = time.monotonic()
     signal.sigtimedwait([signal.SIGUSR1], self.sleep_time)
     dt = time.monotonic() - t0
     self.assertGreaterEqual(dt, self.sleep_time)
Ejemplo n.º 18
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 def wrapper(*args):
     # print("start wait...", end='')
     args[0].public_queue.put(os.getpid())
     signal.sigtimedwait([signal.SIGUSR1], 1.5)
     # print("end")
     return func(*args)