def check_psu_sysfs(dut, psu_id, psu_state):
    """
    @summary: Check psu related sysfs under /var/run/hw-management/thermal against psu_state
    """
    psu_exist = "/var/run/hw-management/thermal/psu{}_status".format(psu_id)
    if psu_state == "NOT PRESENT":
        psu_exist_content = dut.command("cat {}".format(psu_exist))
        logging.info("PSU state {} file {} read {}".format(
            psu_state, psu_exist, psu_exist_content["stdout"]))
        assert psu_exist_content[
            "stdout"] == "0", "CLI returns NOT PRESENT while {} contains {}".format(
                psu_exist, psu_exist_content["stdout"])
    else:
        platform_data = get_platform_data(dut)
        hot_swappable = platform_data["psus"]["hot_swappable"]
        if hot_swappable:
            psu_exist_content = dut.command("cat {}".format(psu_exist))
            logging.info("PSU state {} file {} read {}".format(
                psu_state, psu_exist, psu_exist_content["stdout"]))
            assert psu_exist_content[
                "stdout"] == "1", "CLI returns {} while {} contains {}".format(
                    psu_state, psu_exist, psu_exist_content["stdout"])

        psu_pwr_state = "/var/run/hw-management/thermal/psu{}_pwr_status".format(
            psu_id)
        psu_pwr_state_content = dut.command("cat {}".format(psu_pwr_state))
        logging.info("PSU state {} file {} read {}".format(
            psu_state, psu_pwr_state, psu_pwr_state_content["stdout"]))
        assert (psu_pwr_state_content["stdout"] == "1" and psu_state == "OK") \
               or (psu_pwr_state_content["stdout"] == "0" and psu_state == "NOT OK"), \
            "sysfs content {} mismatches with psu_state {}".format(psu_pwr_state_content["stdout"], psu_state)
    def _extract_num_of_fans_and_fan_drawers(self):
        """
        Get FAN number and Fan number for each FAN drawer of this DUT.
        :return:
        """
        if MockerHelper.INIT_FAN_NUM:
            return

        MockerHelper.INIT_FAN_NUM = True
        get_drawer_num_cmd = 'ls {}fan*_status | wc -l'.format(MockerHelper.THERMAL_PATH)
        output = self.dut.shell(get_drawer_num_cmd)
        content = output['stdout'].strip()
        if not content:
            return
        fan_drawer_num = int(content)

        get_fan_num_cmd = 'ls {}fan*_speed_get | wc -l'.format(MockerHelper.THERMAL_PATH)
        output = self.dut.shell(get_fan_num_cmd)
        content = output['stdout'].strip()
        if not content:
            return

        MockerHelper.FAN_NUM = int(content)
        platform_data = get_platform_data(self.dut)
        if not platform_data['fans']['hot_swappable']:
            # For non swappable fan, there is no drawer. We put them in a "virtual" drawer.
            MockerHelper.FAN_NUM_PER_DRAWER = MockerHelper.FAN_NUM
            return

        if MockerHelper.FAN_NUM > fan_drawer_num:
            MockerHelper.FAN_NUM_PER_DRAWER = 2
        else:
            MockerHelper.FAN_NUM_PER_DRAWER = 1
    def mock_fan_presence(self, status):
        platform_data = get_platform_data(self.mock_helper.dut)
        always_present = not platform_data['fans']['hot_swappable']
        if always_present:
            return False, None

        value = 1 if status else 0
        self.fan_drawer_data.mock_presence(value)
        return True, self.fan_data.name
def test_set_psu_fan_speed(duthost, mocker_factory):
    platform_data = get_platform_data(duthost)
    psu_num = platform_data['psus']['number']
    hot_swappable = platform_data['psus']['hot_swappable']
    if not hot_swappable:
        pytest.skip('The platform {} does not support this test case.'.format(
            duthost.facts["platform"]))

    logging.info('Create mocker, it may take a few seconds...')
    single_fan_mocker = mocker_factory(duthost, 'SingleFanMocker')
    logging.info('Mock FAN absence...')
    single_fan_mocker.mock_absence()
    assert wait_until(THERMAL_CONTROL_TEST_WAIT_TIME, THERMAL_CONTROL_TEST_CHECK_INTERVAL, check_cooling_cur_state, duthost, 10, operator.eq), \
        'Current cooling state is {}'.format(get_cooling_cur_state(duthost))

    logging.info('Wait {} seconds for the policy to take effect...'.format(
        THERMAL_CONTROL_TEST_CHECK_INTERVAL))
    time.sleep(THERMAL_CONTROL_TEST_CHECK_INTERVAL)
    full_speeds = []
    for index in range(psu_num):
        speed = get_psu_speed(duthost, index)
        full_speeds.append(speed)

    logging.info('Full speed={}'.format(full_speeds))
    logging.info('Mock FAN presence...')
    single_fan_mocker.mock_presence()
    assert wait_until(THERMAL_CONTROL_TEST_WAIT_TIME, THERMAL_CONTROL_TEST_CHECK_INTERVAL, check_cooling_cur_state, duthost, 10, operator.ne), \
        'Current cooling state is {}'.format(get_cooling_cur_state(duthost))
    logging.info('Wait {} seconds for the policy to take effect...'.format(
        THERMAL_CONTROL_TEST_CHECK_INTERVAL))
    time.sleep(THERMAL_CONTROL_TEST_CHECK_INTERVAL)
    cooling_cur_state = get_cooling_cur_state(duthost)
    logging.info('Cooling level changed to {}'.format(cooling_cur_state))
    current_speeds = []
    for index in range(psu_num):
        speed = get_psu_speed(duthost, index)
        current_speeds.append(speed)

    logging.info('Current speed={}'.format(current_speeds))
    index = 0
    if cooling_cur_state < 6:
        cooling_cur_state = 6
    expect_multiple = float(10) / cooling_cur_state
    while index < psu_num:
        full_speed = full_speeds[index]
        current_speed = current_speeds[index]
        index += 1
        if not full_speed or not current_speed:
            continue

        actual_multiple = float(full_speed) / current_speed
        if expect_multiple > actual_multiple:
            assert actual_multiple > expect_multiple * (1 -
                                                        PSU_SPEED_TOLERANCE)
        elif expect_multiple < actual_multiple:
            assert actual_multiple < expect_multiple * (1 +
                                                        PSU_SPEED_TOLERANCE)
Exemple #5
0
def test_set_psu_fan_speed(duthosts, rand_one_dut_hostname, mocker_factory):
    duthost = duthosts[rand_one_dut_hostname]
    platform_data = get_platform_data(duthost)
    psu_num = platform_data['psus']['number']
    hot_swappable = platform_data['psus']['hot_swappable']
    if not hot_swappable:
        pytest.skip('The platform {} does not support this test case.'.format(duthost.facts["platform"]))

    psu_max_speed = get_psu_max_speed(duthost)
    logger.info('Create mocker, it may take a few seconds...')
    single_fan_mocker = mocker_factory(duthost, 'SingleFanMocker')
    logger.info('Mock FAN absence...')
    single_fan_mocker.mock_absence()
    assert wait_until(THERMAL_CONTROL_TEST_WAIT_TIME * 2,
                      THERMAL_CONTROL_TEST_CHECK_INTERVAL,
                      0,
                      check_psu_fan_speed,
                      duthost,
                      psu_num,
                      psu_max_speed,
                      operator.eq), 'Wait for PSU fan speed change to full speed failed'

    logger.info('Mock FAN presence...')
    single_fan_mocker.mock_presence()
    wait_result = wait_until(THERMAL_CONTROL_TEST_WAIT_TIME * 2,
                             THERMAL_CONTROL_TEST_CHECK_INTERVAL,
                             0,
                             check_psu_fan_speed,
                             duthost,
                             psu_num,
                             psu_max_speed,
                             operator.ne)

    if not wait_result:
        cooling_cur_state = get_cooling_cur_state(duthost)
        if cooling_cur_state == MAX_COOLING_LEVEL:
            cmd_output = str(duthost.command('show platform temperature')['stdout_lines'])
            cmd_output = cmd_output.replace("u'", "").replace(',', " ")
            cmd_output = re.split(r'  +',cmd_output)
            cmd_output.pop(0)
            j = 0
            table = []
            while j != len(cmd_output):
                entry = []
                for i in range(8):
                    entry.append(cmd_output[j + i])
                table.append(entry)
                j += 8
            pytest.skip('Cooling level is still 10, ignore the rest test.\nIt might happen because the asic temperature is still high.\nCurrent system temperature:\n{}'.format(tabulate(table)))
        else:
            assert False, 'Wait for PSU fan speed change to normal failed'
Exemple #6
0
    def __init__(self, mock_helper, naming_rule, index):
        """
        Constructor of FAN drawer data.
        :param mock_helper: Instance of MockHelper.
        :param naming_rule: Naming rule of this kind of Fan drawer.
        :param index: Fan drawer index.
        """
        self.index = index
        self.helper = mock_helper
        self.platform_data = get_platform_data(self.helper.dut)
        if "201911" in self.helper.dut.os_version:
            self.mock_fan_direction = self.mock_fan_direction_fan_dir_for_all_fans
        else:
            self.mock_fan_direction = self.mock_fan_direction_fan_dir_per_fan
        if self.platform_data['fans']['hot_swappable']:
            self.name = 'drawer{}'.format(index)
        else:
            self.name = 'N/A'
        self.fan_data_list = []
        self.mocked_presence = None
        self.mocked_direction = None
        if 'presence' in naming_rule:
            self.presence_file = naming_rule['presence'].format(index)
        else:
            self.presence_file = None

        if 'led_capability' in naming_rule:
            self.led_capability_file = naming_rule['led_capability'].format(
                index)
        else:
            self.led_capability_file = None

        if 'led_green' in naming_rule:
            self.led_green_file = naming_rule['led_green'].format(index)
        else:
            self.led_green_file = None

        if 'led_red' in naming_rule:
            self.led_red_file = naming_rule['led_red'].format(index)
        else:
            self.led_red_file = None

        if 'led_orange' in naming_rule:
            self.led_orange_file = naming_rule['led_orange'].format(index)
        else:
            self.led_orange_file = None
 def mock_data(self):
     """
     Mock random data for all Thermals in this DUT.
     :return:
     """
     platform_data = get_platform_data(self.mock_helper.dut)
     thermal_dict = platform_data["thermals"]
     for category, content in thermal_dict.items():
         number = int(content['number'])
         naming_rule = THERMAL_NAMING_RULE[category]
         if 'start' in content:
             start = int(content['start'])
             for index in range(start, start + number):
                 mock_data = TemperatureData(self.mock_helper, naming_rule, index)
                 self._do_mock(mock_data)
         else:  # non index-able thermal
             mock_data = TemperatureData(self.mock_helper, naming_rule, None)
             self._do_mock(mock_data)
def test_psu_absence_policy(duthosts, rand_one_dut_hostname, mocker_factory):
    duthost = duthosts[rand_one_dut_hostname]
    platform_data = get_platform_data(duthost)
    hot_swappable = platform_data['psus']['hot_swappable']
    if not hot_swappable:
        pytest.skip('The platform {} does not support this test case.'.format(
            duthost.facts["platform"]))

    psu_num = platform_data['psus']['number']
    psu_mocker = mocker_factory(duthost, 'PsuMocker')
    psu_index = random.randint(1, psu_num)
    psu_mocker.mock_psu_status(psu_index, False)
    wait_result = wait_until(THERMAL_CONTROL_TEST_WAIT_TIME,
                             THERMAL_CONTROL_TEST_CHECK_INTERVAL, 0, check_pwm,
                             duthost, MAX_PWM, operator.eq)
    assert wait_result, 'PSU is absent, but PWM value is not turned to {}'.format(
        MAX_PWM)
    assert check_fan_speed(
        duthost, MAX_PWM), 'Fan speed is not turn to {}'.format(MAX_PWM)
Exemple #9
0
def test_set_psu_fan_speed(duthosts, rand_one_dut_hostname, mocker_factory):
    duthost = duthosts[rand_one_dut_hostname]
    platform_data = get_platform_data(duthost)
    psu_num = platform_data['psus']['number']
    hot_swappable = platform_data['psus']['hot_swappable']
    if not hot_swappable:
        pytest.skip('The platform {} does not support this test case.'.format(
            duthost.facts["platform"]))

    logging.info('Create mocker, it may take a few seconds...')
    single_fan_mocker = mocker_factory(duthost, 'SingleFanMocker')
    logging.info('Mock FAN absence...')
    single_fan_mocker.mock_absence()
    assert wait_until(THERMAL_CONTROL_TEST_WAIT_TIME, THERMAL_CONTROL_TEST_CHECK_INTERVAL, check_cooling_cur_state, duthost, 10, operator.eq), \
        'Current cooling state is {}'.format(get_cooling_cur_state(duthost))

    logging.info('Wait {} seconds for the policy to take effect...'.format(
        THERMAL_CONTROL_TEST_WAIT_TIME))
    time.sleep(THERMAL_CONTROL_TEST_WAIT_TIME)
    psu_max_speed = get_psu_max_speed(duthost)
    logging.info('Max PSU fan speed is {}'.format(psu_max_speed))
    for index in range(psu_num):
        speed = get_psu_speed(duthost, index)
        logging.info('Speed for PSU {} fan is {}'.format(index, speed))
        _check_psu_fan_speed_in_range(speed, psu_max_speed, 10)

    logging.info('Mock FAN presence...')
    single_fan_mocker.mock_presence()
    assert wait_until(THERMAL_CONTROL_TEST_WAIT_TIME, THERMAL_CONTROL_TEST_CHECK_INTERVAL, check_cooling_cur_state, duthost, 10, operator.ne), \
        'Current cooling state is {}'.format(get_cooling_cur_state(duthost))
    logging.info('Wait {} seconds for the policy to take effect...'.format(
        THERMAL_CONTROL_TEST_CHECK_INTERVAL))
    time.sleep(THERMAL_CONTROL_TEST_CHECK_INTERVAL)
    cooling_cur_state = get_cooling_cur_state(duthost)
    logging.info('Cooling level changed to {}'.format(cooling_cur_state))
    if cooling_cur_state < 6:  # PSU fan speed will never be less than 60%
        cooling_cur_state = 6
    for index in range(psu_num):
        speed = get_psu_speed(duthost, index)
        logging.info('Speed for PSU {} fan is {}'.format(index, speed))
        _check_psu_fan_speed_in_range(speed, psu_max_speed, cooling_cur_state)
 def is_fan_removable(self):
     """
     :return: True if FAN is removable else False
     """
     platform_data = get_platform_data(self.mock_helper.dut)
     return platform_data['fans']['hot_swappable']
    def mock_data(self):
        """
        Mock random data for all FANs in this DUT.
        :return:
        """
        fan_index = 1
        drawer_index = 1
        drawer_data = None
        presence = 0
        direction = NOT_AVAILABLE
        naming_rule = FAN_NAMING_RULE['fan']
        while fan_index <= MockerHelper.FAN_NUM:
            try:
                if (fan_index - 1) % MockerHelper.FAN_NUM_PER_DRAWER == 0:
                    drawer_data = FanDrawerData(self.mock_helper, naming_rule,
                                                drawer_index)
                    self.drawer_list.append(drawer_data)
                    drawer_index += 1
                    presence = random.randint(0, 1)
                    drawer_data.mock_presence(presence)
                    drawer_data.mock_fan_direction(random.randint(0, 1))
                    if drawer_data.mocked_presence == 'Present':
                        presence = 1

                fan_data = FanData(self.mock_helper, naming_rule, fan_index)
                drawer_data.fan_data_list.append(fan_data)
                fan_index += 1
                if presence == 1:
                    fan_data.mock_status(random.randint(0, 1))
                    speed = random.randint(60, 100)
                    fan_data.mock_speed(speed)
                    fan_data.mock_target_speed(speed)
                    self.expected_data[fan_data.name] = [
                        drawer_data.name,
                        'N/A',  # update this value later
                        fan_data.name,
                        '{}%'.format(fan_data.mocked_speed),
                        drawer_data.mocked_direction,
                        drawer_data.mocked_presence,
                        fan_data.mocked_status
                    ]
                else:
                    self.expected_data[fan_data.name] = [
                        drawer_data.name, 'red', fan_data.name, 'N/A', 'N/A',
                        'Not Present', 'N/A'
                    ]
            except SysfsNotExistError as e:
                logging.info('Failed to mock fan data: {}'.format(e))
                continue

        # update led color here
        for drawer_data in self.drawer_list:
            for fan_data in drawer_data.fan_data_list:
                if drawer_data.mocked_presence == 'Present':
                    expected_data = self.expected_data[fan_data.name]
                    expected_data[1] = drawer_data.get_expect_led_color()

        platform_data = get_platform_data(self.mock_helper.dut)
        psu_count = platform_data["psus"]["number"]
        naming_rule = FAN_NAMING_RULE['psu_fan']
        for index in range(1, psu_count + 1):
            try:
                fan_data = FanData(self.mock_helper, naming_rule, index)
                speed = random.randint(60, 100)
                fan_data.mock_speed(speed)

                self.expected_data[fan_data.name] = [
                    'N/A', '', fan_data.name,
                    '{}%'.format(fan_data.mocked_speed), NOT_AVAILABLE,
                    'Present', 'OK'
                ]
            except SysfsNotExistError as e:
                logging.info('Failed to mock fan data for {} - {}'.format(
                    fan_data.name, e))
                continue
def check_sysfs(dut):
    """
    @summary: Check various hw-management related sysfs under /var/run/hw-management
    """
    platform_data = get_platform_data(dut)
    sysfs_config = generate_sysfs_config(platform_data)
    logging.info("Collect mellanox sysfs facts")
    sysfs_facts = dut.sysfs_facts(config=sysfs_config)['ansible_facts']

    logging.info("Check broken symbolinks")
    broken_symbolinks = sysfs_facts['symbolink_info']['broken_links']
    assert len(broken_symbolinks) == 0, \
        "Found some broken symbolinks: {}".format(str(broken_symbolinks))

    logging.info("Check ASIC related sysfs")
    try:
        asic_temp = float(sysfs_facts['asic_info']['temp']) / 1000
        assert 0 < asic_temp < 105, "Abnormal ASIC temperature: {}".format(
            sysfs_facts['asic_info']['temp'])
    except Exception as e:
        assert False, "Bad content in /var/run/hw-management/thermal/asic: {}".format(
            repr(e))

    logging.info("Check fan related sysfs")
    for fan_id, fan_info in sysfs_facts['fan_info'].items():
        if platform_data["fans"]["hot_swappable"]:
            assert fan_info[
                'status'] == '1', "Fan {} status {} is not 1".format(
                    fan_id, fan_info['status'])

        assert fan_info[
            'fault'] == '0', "Fan {} fault status {} is not 1".format(
                fan_id, fan_info['fault'])

    if not _is_fan_speed_in_range(sysfs_facts):
        sysfs_fan_config = [generate_sysfs_fan_config(platform_data)]
        assert wait_until(30, 5, _check_fan_speed_in_range, dut,
                          sysfs_fan_config), "Fan speed not in range"

    logging.info("Check CPU related sysfs")
    cpu_temp_high_counter = 0
    cpu_temp_list = []
    cpu_crit_temp_list = []
    cpu_pack_count = platform_data["cpu_pack"]["number"]
    if cpu_pack_count > 0:
        cpu_pack_temp = float(sysfs_facts['cpu_pack_info']['temp']) / 1000
        cpu_pack_max_temp = float(
            sysfs_facts['cpu_pack_info']['max_temp']) / 1000
        cpu_pack_crit_temp = float(
            sysfs_facts['cpu_pack_info']['crit_temp']) / 1000
        assert cpu_pack_max_temp <= cpu_pack_crit_temp, "Bad CPU pack max temp or critical temp, {}, {} ".format(
            str(cpu_pack_max_temp), str(cpu_pack_crit_temp))
        if cpu_pack_temp >= cpu_pack_crit_temp:
            cpu_temp_high_counter += 1
        cpu_temp_list.append(cpu_pack_temp)
        cpu_crit_temp_list.append(cpu_pack_crit_temp)

    for core_id, cpu_info in sysfs_facts['cpu_core_info'].items():
        cpu_core_temp = float(cpu_info["temp"]) / 1000
        cpu_core_max_temp = float(cpu_info["max_temp"]) / 1000
        cpu_core_crit_temp = float(cpu_info["crit_temp"]) / 1000
        assert cpu_core_max_temp <= cpu_core_crit_temp, "Bad CPU core{} max temp or critical temp, {}, {} ".format(
            core_id, str(cpu_core_max_temp), str(cpu_core_crit_temp))
        if cpu_core_temp >= cpu_core_crit_temp:
            cpu_temp_high_counter += 1
        cpu_temp_list.append(cpu_core_temp)
        cpu_crit_temp_list.append(cpu_core_crit_temp)

    if cpu_temp_high_counter > 0:
        logging.info("CPU temperatures {}".format(cpu_temp_list))
        logging.info("CPU critical temperatures {}".format(cpu_crit_temp_list))
        assert False, "At least {} of the CPU cores or pack is overheated".format(
            cpu_temp_high_counter)

    logging.info("Check PSU related sysfs")
    if platform_data["psus"]["hot_swappable"]:
        for psu_id, psu_info in sysfs_facts['psu_info'].items():
            psu_id = int(psu_id)
            psu_status = int(psu_info["status"])
            if not psu_status:
                logging.info("PSU {} doesn't exist, skipped".format(psu_id))
                continue

            psu_pwr_status = int(psu_info["pwr_status"])
            if not psu_pwr_status:
                logging.info("PSU {} isn't power on, skipped".format(psu_id))
                continue

            psu_temp = float(psu_info["temp"]) / 1000
            psu_max_temp = float(psu_info["max_temp"]) / 1000
            assert psu_temp < psu_max_temp, "PSU{} overheated, temp: {}".format(
                psu_id, str(psu_temp))
            assert psu_info[
                "max_temp_alarm"] == '0', "PSU{} temp alarm set".format(psu_id)
            try:
                psu_fan_speed = int(psu_info["fan_speed"])
                assert psu_fan_speed > 1000, "Bad fan speed: {}".format(
                    str(psu_fan_speed))
            except Exception as e:
                assert "Invalid PSU fan speed value {} for PSU {}, exception: {}".format(
                    psu_info["fan_speed"], psu_id, e)

    logging.info("Check SFP related sysfs")
    for sfp_id, sfp_info in sysfs_facts['sfp_info'].items():
        assert sfp_info["temp_fault"] == '0', "SFP%d temp fault" % sfp_id
        sfp_temp = float(sfp_info['temp']) if sfp_info['temp'] != '0' else 0
        sfp_temp_crit = float(
            sfp_info['crit_temp']) if sfp_info['crit_temp'] != '0' else 0
        sfp_temp_emergency = float(
            sfp_info['emergency_temp']
        ) if sfp_info['emergency_temp'] != '0' else 0
        if sfp_temp_crit != 0:
            assert sfp_temp < sfp_temp_crit, "SFP{} overheated, temp{}".format(
                sfp_id, str(sfp_temp))
            assert sfp_temp_crit < sfp_temp_emergency, "Wrong SFP critical temp or emergency temp, " \
                                                       "critical temp: {} emergency temp: {}".format(
                                                           str(sfp_temp_crit), str(sfp_temp_emergency))
    logging.info("Finish checking sysfs")
def test_set_psu_fan_speed(duthosts, rand_one_dut_hostname, mocker_factory):
    duthost = duthosts[rand_one_dut_hostname]
    platform_data = get_platform_data(duthost)
    psu_num = platform_data['psus']['number']
    hot_swappable = platform_data['psus']['hot_swappable']
    if not hot_swappable:
        pytest.skip('The platform {} does not support this test case.'.format(
            duthost.facts["platform"]))

    logging.info('Create mocker, it may take a few seconds...')
    single_fan_mocker = mocker_factory(duthost, 'SingleFanMocker')
    logging.info('Mock FAN absence...')
    single_fan_mocker.mock_absence()
    assert wait_until(THERMAL_CONTROL_TEST_WAIT_TIME, THERMAL_CONTROL_TEST_CHECK_INTERVAL, check_cooling_cur_state, duthost, MAX_COOLING_LEVEL, operator.eq), \
        'Current cooling state is {}'.format(get_cooling_cur_state(duthost))

    logging.info('Wait {} seconds for the policy to take effect...'.format(
        THERMAL_CONTROL_TEST_WAIT_TIME))
    time.sleep(THERMAL_CONTROL_TEST_WAIT_TIME)
    psu_max_speed = get_psu_max_speed(duthost)
    logging.info('Max PSU fan speed is {}'.format(psu_max_speed))
    for index in range(psu_num):
        speed = get_psu_speed(duthost, index)
        logging.info('Speed for PSU {} fan is {}'.format(index, speed))
        _check_psu_fan_speed_in_range(speed, psu_max_speed, MAX_COOLING_LEVEL)

    logging.info('Mock FAN presence...')
    single_fan_mocker.mock_presence()
    wait_until(THERMAL_CONTROL_TEST_WAIT_TIME,
               THERMAL_CONTROL_TEST_CHECK_INTERVAL, check_cooling_cur_state,
               duthost, MAX_COOLING_LEVEL, operator.ne)
    logging.info('Wait {} seconds for the policy to take effect...'.format(
        THERMAL_CONTROL_TEST_WAIT_TIME * 2))
    # We have to wait THERMAL_CONTROL_TEST_WAIT_TIME * 2 seconds long here because:
    #     Usually we only need wait THERMAL_CONTROL_TEST_WAIT_TIME seconds here to make sure thermal
    #     control daemon change the cooling level to proper value, However,
    #     there is chance that kernel might change cooling state back to MAX_COOLING_LEVEL after
    #     user space thermal control adjust it to dynamic minimum value. So we have to wait longer for the
    #     user space thermal control to set fan speed to dynamic minimum value again. It
    #     means that we might need wait up to 2 thermal loops here.
    time.sleep(THERMAL_CONTROL_TEST_WAIT_TIME * 2)
    cooling_cur_state = get_cooling_cur_state(duthost)
    if cooling_cur_state == MAX_COOLING_LEVEL:
        cmd_output = str(
            duthost.command('show platform temperature')['stdout_lines'])
        cmd_output = cmd_output.replace("u'", "").replace(',', " ")
        cmd_output = re.split(r'  +', cmd_output)
        cmd_output.pop(0)
        j = 0
        table = []
        while j != len(cmd_output):
            entry = []
            for i in range(8):
                entry.append(cmd_output[j + i])
            table.append(entry)
            j += 8
        pytest.skip(
            'Cooling level is still 10, ignore the rest test.\nIt might happen because the asic temperature is still high.\nCurrent system temperature:\n{}'
            .format(tabulate(table)))
    logging.info('Cooling level changed to {}'.format(cooling_cur_state))
    if cooling_cur_state < 6:  # PSU fan speed will never be less than 60%
        cooling_cur_state = 6
    for index in range(psu_num):
        speed = get_psu_speed(duthost, index)
        logging.info('Speed for PSU {} fan is {}'.format(index, speed))
        _check_psu_fan_speed_in_range(speed, psu_max_speed, cooling_cur_state)