# # Copyright (c) 2019-2022 NVIDIA CORPORATION & AFFILIATES. # Apache-2.0 # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ############################################################################# # Mellanox # # Module contains an implementation of SONiC Platform Base API and # provides the PSUs status which are available in the platform # ############################################################################# try: import os import time from sonic_platform_base.psu_base import PsuBase from sonic_py_common.logger import Logger from .device_data import DeviceDataManager from .led import PsuLed, SharedLed, ComponentFaultyIndicator from . import utils from .vpd_parser import VpdParser except ImportError as e: raise ImportError (str(e) + "- required module not found") # Global logger class instance logger = Logger() PSU_PATH = '/var/run/hw-management/' class FixedPsu(PsuBase): def __init__(self, psu_index): super(FixedPsu, self).__init__() self.index = psu_index + 1 self._name = "PSU {}".format(self.index) self.psu_oper_status = os.path.join(PSU_PATH, "thermal/psu{}_pwr_status".format(self.index)) self._led = None def get_name(self): return self._name def get_model(self): return 'N/A' def get_serial(self): return 'N/A' def get_revision(self): return 'N/A' def get_powergood_status(self): """ Retrieves the operational status of power supply unit (PSU) defined Returns: bool: True if PSU is operating properly, False if not """ return utils.read_int_from_file(self.psu_oper_status) == 1 def get_presence(self): """ Retrieves the presence status of power supply unit (PSU) defined Returns: bool: True if PSU is present, False if not """ return True def get_voltage(self): """ Retrieves current PSU voltage output Returns: A float number, the output voltage in volts, e.g. 12.1 """ return None def get_current(self): """ Retrieves present electric current supplied by PSU Returns: A float number, the electric current in amperes, e.g 15.4 """ return None def get_power(self): """ Retrieves current energy supplied by PSU Returns: A float number, the power in watts, e.g. 302.6 """ return None @property def led(self): if not self._led: self._led = PsuLed(self.index) return self._led def set_status_led(self, color): """ Sets the state of the PSU status LED Args: color: A string representing the color with which to set the PSU status LED Returns: bool: True if status LED state is set successfully, False if not Notes: Only one led for all PSUs. """ return self.led.set_status(color) def get_status_led(self): """ Gets the state of the PSU status LED Returns: A string, one of the predefined STATUS_LED_COLOR_* strings above """ return self.led.get_status() def get_power_available_status(self): """ Gets the power available status Returns: True if power is present and power on. False and "absence of PSU" if power is not present. False and "absence of power" if power is present but not power on. """ if not self.get_presence(): return False, "absence of PSU" elif not self.get_powergood_status(): return False, "absence of power" else: return True, "" def get_position_in_parent(self): """ Retrieves 1-based relative physical position in parent device Returns: integer: The 1-based relative physical position in parent device """ return self.index def is_replaceable(self): """ Indicate whether this device is replaceable. Returns: bool: True if it is replaceable. """ return False def get_temperature(self): """ Retrieves current temperature reading from PSU Returns: A float number of current temperature in Celsius up to nearest thousandth of one degree Celsius, e.g. 30.125 """ return None def get_temperature_high_threshold(self): """ Retrieves the high threshold temperature of PSU Returns: A float number, the high threshold temperature of PSU in Celsius up to nearest thousandth of one degree Celsius, e.g. 30.125 """ return None class Psu(FixedPsu): """Platform-specific Psu class""" PSU_CURRENT = "power/psu{}_curr" PSU_POWER = "power/psu{}_power" PSU_VPD = "eeprom/psu{}_vpd" shared_led = None def __init__(self, psu_index): super(Psu, self).__init__(psu_index) self._psu_voltage = None self._psu_voltage_min = None self._psu_voltage_max = None self._psu_voltage_capability = None self.psu_current = os.path.join(PSU_PATH, self.PSU_CURRENT.format(self.index)) self.psu_power = os.path.join(PSU_PATH, self.PSU_POWER.format(self.index)) self.psu_power_max = self.psu_power + "_max" self.psu_presence = os.path.join(PSU_PATH, "thermal/psu{}_status".format(self.index)) self.psu_temp = os.path.join(PSU_PATH, 'thermal/psu{}_temp'.format(self.index)) self.psu_temp_threshold = os.path.join(PSU_PATH, 'thermal/psu{}_temp_max'.format(self.index)) from .fan import PsuFan self._fan_list.append(PsuFan(psu_index, 1, self)) self.vpd_parser = VpdParser(os.path.join(PSU_PATH, self.PSU_VPD.format(self.index))) # initialize thermal for PSU from .thermal import initialize_psu_thermal self._thermal_list = initialize_psu_thermal(psu_index, self.get_power_available_status) @property def psu_voltage(self): if not self._psu_voltage: psu_voltage_out = os.path.join(PSU_PATH, "power/psu{}_volt_out2".format(self.index)) if os.path.exists(psu_voltage_out): self._psu_voltage = psu_voltage_out else: psu_voltage_out = os.path.join(PSU_PATH, "power/psu{}_volt".format(self.index)) if os.path.exists(psu_voltage_out): self._psu_voltage = psu_voltage_out return self._psu_voltage @property def psu_voltage_min(self): if not self._psu_voltage_min: psu_voltage = self.psu_voltage if psu_voltage: self._psu_voltage_min = psu_voltage + "_min" return self._psu_voltage_min @property def psu_voltage_max(self): if not self._psu_voltage_max: psu_voltage = self.psu_voltage if psu_voltage: self._psu_voltage_max = psu_voltage + "_max" return self._psu_voltage_max @property def psu_voltage_capability(self): if not self._psu_voltage_capability: psu_voltage = self.psu_voltage if psu_voltage: self._psu_voltage_capability = psu_voltage + "_capability" return self._psu_voltage_capability def get_model(self): """ Retrieves the model number (or part number) of the device Returns: string: Model/part number of device """ return self.vpd_parser.get_model() def get_serial(self): """ Retrieves the serial number of the device Returns: string: Serial number of device """ return self.vpd_parser.get_serial() def get_revision(self): """ Retrieves the hardware revision of the device Returns: string: Revision value of device """ return self.vpd_parser.get_revision() def get_presence(self): """ Retrieves the presence status of power supply unit (PSU) defined Returns: bool: True if PSU is present, False if not """ return utils.read_int_from_file(self.psu_presence) == 1 def get_voltage(self): """ Retrieves current PSU voltage output Returns: A float number, the output voltage in volts, e.g. 12.1 """ if self.get_powergood_status() and self.psu_voltage: # TODO: should we put log_func=None here? If not do this, when a PSU is back to power, some PSU related # sysfs may not ready, read_int_from_file would encounter exception and log an error. voltage = utils.read_int_from_file(self.psu_voltage, log_func=logger.log_info) return float(voltage) / 1000 return None def get_current(self): """ Retrieves present electric current supplied by PSU Returns: A float number, the electric current in amperes, e.g 15.4 """ if self.get_powergood_status(): amperes = utils.read_int_from_file(self.psu_current, log_func=logger.log_info) return float(amperes) / 1000 return None def get_power(self): """ Retrieves current energy supplied by PSU Returns: A float number, the power in watts, e.g. 302.6 """ if self.get_powergood_status(): power = utils.read_int_from_file(self.psu_power, log_func=logger.log_info) return float(power) / 1000000 return None @classmethod def get_shared_led(cls): if not cls.shared_led: cls.shared_led = SharedLed(PsuLed(None)) return cls.shared_led @property def led(self): if not self._led: self._led = ComponentFaultyIndicator(Psu.get_shared_led()) return self._led def get_status_led(self): """ Gets the state of the PSU status LED Returns: A string, one of the predefined STATUS_LED_COLOR_* strings above """ return Psu.get_shared_led().get_status() def is_replaceable(self): """ Indicate whether this device is replaceable. Returns: bool: True if it is replaceable. """ return True def get_temperature(self): """ Retrieves current temperature reading from PSU Returns: A float number of current temperature in Celsius up to nearest thousandth of one degree Celsius, e.g. 30.125 """ if self.get_powergood_status(): temp = utils.read_int_from_file(self.psu_temp, log_func=logger.log_info) return float(temp) / 1000 return None def get_temperature_high_threshold(self): """ Retrieves the high threshold temperature of PSU Returns: A float number, the high threshold temperature of PSU in Celsius up to nearest thousandth of one degree Celsius, e.g. 30.125 """ if self.get_powergood_status(): temp_threshold = utils.read_int_from_file(self.psu_temp_threshold, log_func=logger.log_info) return float(temp_threshold) / 1000 return None @utils.default_return(None) def get_voltage_high_threshold(self): """ Retrieves the high threshold PSU voltage output Returns: A float number, the high threshold output voltage in volts, e.g. 12.1 Notes: The thresholds of voltage are not supported on all platforms. So we have to check capability first. """ if self.psu_voltage_capability and self.psu_voltage_max and self.get_powergood_status(): capability = utils.read_str_from_file(self.psu_voltage_capability) if 'max' in capability: max_voltage = utils.read_int_from_file(self.psu_voltage_max, log_func=logger.log_info) max_voltage = InvalidPsuVolWA.run(self, max_voltage, self.psu_voltage_max) if max_voltage: return float(max_voltage) / 1000 return None @utils.default_return(None) def get_voltage_low_threshold(self): """ Retrieves the low threshold PSU voltage output Returns: A float number, the low threshold output voltage in volts, e.g. 12.1 Notes: The thresholds of voltage are not supported on all platforms. So we have to check capability first. """ if self.psu_voltage_capability and self.psu_voltage_min and self.get_powergood_status(): capability = utils.read_str_from_file(self.psu_voltage_capability) if 'min' in capability: min_voltage = utils.read_int_from_file(self.psu_voltage_min, log_func=logger.log_info) min_voltage = InvalidPsuVolWA.run(self, min_voltage, self.psu_voltage_min) if min_voltage: return float(min_voltage) / 1000 return None def get_maximum_supplied_power(self): """ Retrieves the maximum supplied power by PSU Returns: A float number, the maximum power output in Watts. e.g. 1200.1 """ if self.psu_power_max and self.get_powergood_status(): power_max = utils.read_int_from_file(self.psu_power_max, log_func=logger.log_info) return float(power_max) / 1000000 else: return None class InvalidPsuVolWA: """This class is created as a workaround for a known hardware issue that the PSU voltage threshold could be a invalid value 127998. Once we read a voltage threshold value equal to 127998, we should do following: 1. Check the PSU vendor, it should be Delta 2. Generate a temp sensor configuration file which contains a few set commands. Those set commands are the WA provided by low level team. 3. Call "sensors -s -c " 4. Wait for it to take effect This issue is found on 3700, 3700c, 3800, 4600c """ INVALID_VOLTAGE_VALUE = 127998 EXPECT_VENDOR_NAME = 'DELTA' EXPECT_CAPACITY = '1100' EXPECT_PLATFORMS = ['x86_64-mlnx_msn3700-r0', 'x86_64-mlnx_msn3700c-r0', 'x86_64-mlnx_msn3800-r0', 'x86_64-mlnx_msn4600c-r0'] MFR_FIELD = 'MFR_NAME' CAPACITY_FIELD = 'CAPACITY' WAIT_TIME = 1 @classmethod def run(cls, psu, threshold_value, threshold_file): if threshold_value != cls.INVALID_VOLTAGE_VALUE: # If the threshold value is not an invalid value, just return return threshold_value platform_name = DeviceDataManager.get_platform_name() # Apply the WA to specified platforms if platform_name not in cls.EXPECT_PLATFORMS: # It is unlikely to go to this branch, so we log a warning here logger.log_warning('PSU {} threshold file {} value {}, but platform is {}'.format(psu.index, threshold_file, threshold_value, platform_name)) return threshold_value # Check PSU vendor, make sure it is DELTA vendor_name = psu.vpd_parser.get_entry_value(cls.MFR_FIELD) if vendor_name != 'N/A' and vendor_name != cls.EXPECT_VENDOR_NAME: # It is unlikely to go to this branch, so we log a warning here logger.log_warning('PSU {} threshold file {} value {}, but its vendor is {}'.format(psu.index, threshold_file, threshold_value, vendor_name)) return threshold_value # Check PSU version, make sure it is 1100 capacity = psu.vpd_parser.get_entry_value(cls.CAPACITY_FIELD) if capacity != 'N/A' and capacity != cls.EXPECT_CAPACITY: logger.log_warning('PSU {} threshold file {} value {}, but its capacity is {}'.format(psu.index, threshold_file, threshold_value, capacity)) return threshold_value # Run a sensors -s command to triger hardware to get the real threashold value utils.run_command('sensors -s') # Wait for the threshold value change return cls.wait_set_done(threshold_file) @classmethod def wait_set_done(cls, threshold_file): wait_time = cls.WAIT_TIME while wait_time > 0: value = utils.read_int_from_file(threshold_file, log_func=logger.log_info) if value != cls.INVALID_VOLTAGE_VALUE: return value wait_time -= 1 time.sleep(1) # It is enough to use warning here because user might power off/on the PSU which may cause threshold_file # does not exist logger.log_warning('sensors -s does not recover PSU threshold sensor after {} seconds'.format(cls.WAIT_TIME)) return None