#!/usr/bin/env python ############################################################################# # Mellanox # # Module contains an implementation of SONiC PSU Base API and # provides the PSUs status which are available in the platform # ############################################################################# try: import os.path import syslog import subprocess from glob import glob from sonic_fan.fan_base import FanBase except ImportError as e: raise ImportError (str(e) + "- required module not found") def log_err(msg): syslog.openlog("fanutil") syslog.syslog(syslog.LOG_ERR, msg) syslog.closelog() class FanUtil(FanBase): """Platform-specific FanUtil class""" PWM_MAX = 255 MAX_FAN_PER_DRAWER = 2 GET_HWSKU_CMD = "sonic-cfggen -d -v DEVICE_METADATA.localhost.hwsku" sku_without_fan_direction = ['ACS-MSN2010', 'ACS-MSN2100', 'ACS-MSN2410', 'ACS-MSN2700', 'Mellanox-SN2700', 'Mellanox-SN2700-D48C8', 'LS-SN2700', 'ACS-MSN2740'] sku_with_unpluggable_fan = ['ACS-MSN2010', 'ACS-MSN2100'] def __init__(self): FanBase.__init__(self) self.sku_name = self._get_sku_name() self.fan_path = "/var/run/hw-management/" if self.sku_name in self.sku_with_unpluggable_fan: self.fan_status = None self.unpluggable_fan = True else: self.fan_status = "thermal/fan{}_status" self.unpluggable_fan = False self.fan_get_speed = "thermal/fan{}_speed_get" self.fan_set_speed = "thermal/fan{}_speed_set" if self.sku_name in self.sku_without_fan_direction: self.fan_direction = None else: self.fan_direction = "system/fan_dir" self.fan_led_green = "led/led_fan*_green" self.num_of_fan, self.num_of_drawer = self._extract_num_of_fans_and_fan_drawers() def _get_sku_name(self): p = subprocess.Popen(self.GET_HWSKU_CMD, shell=True, stdout=subprocess.PIPE) out, err = p.communicate() return out.rstrip('\n') def _extract_num_of_fans_and_fan_drawers(self): # So far we don't have files representing the number of fans and drawers # The only way to retrieve the number is to count files. # for number of fans, we get it via couting the speed files. # for number of draws, we get it via couting the green led files. list_of_fan_speed = glob(self.fan_path + self.fan_get_speed.format("*")) num_of_fan = len(list_of_fan_speed) list_of_fan_leds = glob(self.fan_path + self.fan_led_green) num_of_drawer = len(list_of_fan_leds) return num_of_fan, num_of_drawer def _convert_fan_index_to_drawer_index(self, index): return (index + self.MAX_FAN_PER_DRAWER - 1) / self.MAX_FAN_PER_DRAWER def _read_file(self, file_pattern, index = 0): """ Reads the file of the fan :param file_pattern: The filename convention :param index: An integer, 1-based index of the fan of which to query status :return: int """ return_value = 0 try: with open(os.path.join(self.fan_path, file_pattern.format(index)), 'r') as file_to_read: return_value = int(file_to_read.read()) except IOError: log_err("Read file {} failed".format(self.fan_path + file_pattern.format(index))) return return_value return return_value def get_num_fans(self): """ Retrieves the number of FANs supported on the device :return: An integer, the number of FANs supported on the device """ return self.num_of_fan def get_status(self, index): """ Retrieves the operational status of FAN defined by index 1-based :param index: An integer, 1-based index of the PSU of which to query status :return: Boolean, - True if FAN is running with some speed - False if FAN has stopped running """ if not self.get_presence(index): return False return self.get_speed(index) != 0 def get_presence(self, index): """ Retrieves the presence status of a FAN defined by 1-based index :param index: An integer, 1-based index of the FAN of which to query status :return: Boolean, True if FAN is plugged, False if not """ if index > self.num_of_fan: raise RuntimeError("index ({}) shouldn't be greater than number of fans ({})".format(index, self.num_of_fan)) if self.unpluggable_fan: return True draw_index = self._convert_fan_index_to_drawer_index(index) presence = self._read_file(self.fan_status, draw_index) return presence != 0 def get_direction(self, index): """ Retrieves the airflow direction of a FAN defined by 1-based index :param index: An integer, 1-based index of the FAN of which to query status :return: string, denoting FAN airflow direction Note: What Mellanox calls forward: Air flows from fans side to QSFP side, for example: MSN2700-CS2F which means intake in community What Mellanox calls reverse: Air flow from QSFP side to fans side, for example: MSN2700-CS2R which means exhaust in community According to hw-mgmt: 1 stands for forward, in other words intake 0 stands for reverse, in other words exhaust """ if not self.fan_direction: return self.FAN_DIRECTION_NOT_APPLICABLE if index > self.num_of_fan: raise RuntimeError("index ({}) shouldn't be greater than number of fans ({})".format(index, self.num_of_fan)) drawer_index = self._convert_fan_index_to_drawer_index(index) fan_dir_bits = self._read_file(self.fan_direction) fan_mask = 1 << drawer_index - 1 if fan_dir_bits & fan_mask: return self.FAN_DIRECTION_INTAKE else: return self.FAN_DIRECTION_EXHAUST def get_speed(self, index): """ Retrieves the speed of a Front FAN in the tray in revolutions per minute defined by 1-based index :param index: An integer, 1-based index of the FAN of which to query speed :return: integer, denoting front FAN speed """ speed = self._read_file(self.fan_get_speed, index) return speed def set_speed(self, val): """ Sets the speed of all the FANs to a value denoted by the duty-cycle percentage val :param val: An integer, <0-100> denoting FAN duty cycle percentage :return: Boolean, True if operation is successful, False if not """ status = True pwm = int(round(self.PWM_MAX*val/100.0)) try: with open(os.path.join(self.fan_path, self.fan_set_speed.format(1)), 'w') as fan_pwm: fan_pwm.write(str(pwm)) except (ValueError, IOError): log_err("Read file {} failed".format(self.fan_path + self.fan_set_speed.format(1))) status = False return status