sonic-buildimage/platform/mellanox/mlnx-platform-api/sonic_platform/fan.py

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#!/usr/bin/env python
#############################################################################
# Mellanox
#
# Module contains an implementation of SONiC Platform Base API and
# provides the FANs status which are available in the platform
#
#############################################################################
import os.path
import subprocess
try:
from sonic_platform_base.fan_base import FanBase
from .led import FanLed, ComponentFaultyIndicator
from .utils import read_int_from_file, read_str_from_file, write_file
except ImportError as e:
raise ImportError (str(e) + "- required module not found")
PWM_MAX = 255
FAN_PATH = "/var/run/hw-management/thermal/"
CONFIG_PATH = "/var/run/hw-management/config"
FAN_DIR = "/var/run/hw-management/thermal/fan{}_dir"
FAN_DIR_VALUE_EXHAUST = 0
FAN_DIR_VALUE_INTAKE = 1
COOLING_STATE_PATH = "/var/run/hw-management/thermal/cooling_cur_state"
class Fan(FanBase):
"""Platform-specific Fan class"""
STATUS_LED_COLOR_ORANGE = "orange"
min_cooling_level = 2
MIN_VALID_COOLING_LEVEL = 1
MAX_VALID_COOLING_LEVEL = 10
# PSU fan speed vector
PSU_FAN_SPEED = ['0x3c', '0x3c', '0x3c', '0x3c', '0x3c',
'0x3c', '0x3c', '0x46', '0x50', '0x5a', '0x64']
def __init__(self, fan_index, fan_drawer, position, psu_fan = False, psu=None):
super(Fan, self).__init__()
# API index is starting from 0, Mellanox platform index is starting from 1
self.index = fan_index + 1
self.fan_drawer = fan_drawer
self.position = position
self.is_psu_fan = psu_fan
self.psu = psu
if self.fan_drawer:
self.led = ComponentFaultyIndicator(self.fan_drawer.get_led())
elif self.is_psu_fan:
from .psu import Psu
self.led = ComponentFaultyIndicator(Psu.get_shared_led())
else:
self.led = FanLed(self.index)
if not self.is_psu_fan:
self.fan_speed_get_path = "fan{}_speed_get".format(self.index)
self.fan_speed_set_path = "fan{}_speed_set".format(self.index)
self.fan_max_speed_path = os.path.join(FAN_PATH, "fan{}_max".format(self.index))
self.fan_min_speed_path = os.path.join(FAN_PATH, "fan{}_min".format(self.index))
self._name = "fan{}".format(self.index)
else:
self.fan_speed_get_path = "psu{}_fan1_speed_get".format(self.index)
self.fan_presence_path = "psu{}_fan1_speed_get".format(self.index)
self._name = 'psu_{}_fan_{}'.format(self.index, 1)
self.fan_max_speed_path = os.path.join(CONFIG_PATH, "psu_fan_max")
self.fan_min_speed_path = os.path.join(CONFIG_PATH, "psu_fan_min")
self.psu_i2c_bus_path = os.path.join(CONFIG_PATH, 'psu{0}_i2c_bus'.format(self.index))
self.psu_i2c_addr_path = os.path.join(CONFIG_PATH, 'psu{0}_i2c_addr'.format(self.index))
self.psu_i2c_command_path = os.path.join(CONFIG_PATH, 'fan_command')
self.fan_status_path = "fan{}_fault".format(self.index)
self.fan_pwm_path = "pwm1"
def get_direction(self):
"""
Retrieves the fan's direction
Returns:
A string, either FAN_DIRECTION_INTAKE or FAN_DIRECTION_EXHAUST
depending on fan direction
Notes:
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 self.is_psu_fan:
return self.FAN_DIRECTION_NOT_APPLICABLE
else:
return self.fan_drawer.get_direction()
def get_name(self):
return self._name
def get_status(self):
"""
Retrieves the operational status of fan
Returns:
bool: True if fan is operating properly, False if not
"""
status = 0
if self.is_psu_fan:
status = 0
else:
status = read_int_from_file(os.path.join(FAN_PATH, self.fan_status_path), 1)
return status == 0
def get_presence(self):
"""
Retrieves the presence status of fan
Returns:
bool: True if fan is present, False if not
"""
if self.is_psu_fan:
return self.psu.get_presence() and self.psu.get_powergood_status() and os.path.exists(os.path.join(FAN_PATH, self.fan_presence_path))
else:
return self.fan_drawer.get_presence()
def get_speed(self):
"""
Retrieves the speed of fan
Returns:
int: percentage of the max fan speed
"""
speed = 0
speed_in_rpm = read_int_from_file(os.path.join(FAN_PATH, self.fan_speed_get_path))
max_speed_in_rpm = read_int_from_file(self.fan_max_speed_path)
if max_speed_in_rpm == 0:
return speed_in_rpm
speed = 100*speed_in_rpm//max_speed_in_rpm
if speed > 100:
speed = 100
return speed
def get_target_speed(self):
"""
Retrieves the expected speed of fan
Returns:
int: percentage of the max fan speed
"""
if self.is_psu_fan:
try:
# Get PSU fan target speed according to current system cooling level
cooling_level = self.get_cooling_level()
return int(self.PSU_FAN_SPEED[cooling_level], 16)
except Exception:
return self.get_speed()
pwm = read_int_from_file(os.path.join(FAN_PATH, self.fan_speed_set_path))
return int(round(pwm*100.0/PWM_MAX))
def set_speed(self, speed):
"""
Set fan speed to expected value
Args:
speed: An integer, the percentage of full fan speed to set fan to,
in the range 0 (off) to 100 (full speed)
Returns:
bool: True if set success, False if fail.
"""
status = True
if self.is_psu_fan:
if not self.get_presence():
return False
from .thermal import logger
try:
bus = read_str_from_file(self.psu_i2c_bus_path, raise_exception=True)
addr = read_str_from_file(self.psu_i2c_addr_path, raise_exception=True)
command = read_str_from_file(self.psu_i2c_command_path, raise_exception=True)
speed = Fan.PSU_FAN_SPEED[int(speed // 10)]
command = "i2cset -f -y {0} {1} {2} {3} wp".format(bus, addr, command, speed)
subprocess.check_call(command, shell = True, universal_newlines=True)
return True
except subprocess.CalledProcessError as ce:
logger.log_error('Failed to call command {}, return code={}, command output={}'.format(ce.cmd, ce.returncode, ce.output))
return False
except Exception as e:
logger.log_error('Failed to set PSU FAN speed - {}'.format(e))
return False
try:
cooling_level = int(speed // 10)
if cooling_level < self.min_cooling_level:
cooling_level = self.min_cooling_level
speed = self.min_cooling_level * 10
self.set_cooling_level(cooling_level, cooling_level)
pwm = int(round(PWM_MAX*speed/100.0))
write_file(os.path.join(FAN_PATH, self.fan_speed_set_path), pwm, raise_exception=True)
except (ValueError, IOError):
status = False
return status
def set_status_led(self, color):
"""
Set led to expected color
Args:
color: A string representing the color with which to set the
fan module status LED
Returns:
bool: True if set success, False if fail.
"""
return self.led.set_status(color)
def get_status_led(self):
"""
Gets the state of the fan status LED
Returns:
A string, one of the predefined STATUS_LED_COLOR_* strings above
"""
return self.led.get_status()
def get_speed_tolerance(self):
"""
Retrieves the speed tolerance of the fan
Returns:
An integer, the percentage of variance from target speed which is
considered tolerable
"""
# The tolerance value is fixed as 50% for all the Mellanox platform
return 50
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.position
def is_replaceable(self):
"""
Indicate whether this device is replaceable.
Returns:
bool: True if it is replaceable.
"""
return False
@classmethod
def set_cooling_level(cls, level, cur_state):
"""
Change cooling level. The input level should be an integer value [1, 10].
1 means 10%, 2 means 20%, 10 means 100%.
"""
if not isinstance(level, int):
raise RuntimeError("Failed to set cooling level, input parameter must be integer")
if level < cls.MIN_VALID_COOLING_LEVEL or level > cls.MAX_VALID_COOLING_LEVEL:
raise RuntimeError("Failed to set cooling level, level value must be in range [{}, {}], got {}".format(
cls.MIN_VALID_COOLING_LEVEL,
cls.MAX_VALID_COOLING_LEVEL,
level
))
try:
# Reset FAN cooling level vector. According to low level team,
# if we need set cooling level to X, we need first write a (10+X)
# to cooling_cur_state file to reset the cooling level vector.
write_file(COOLING_STATE_PATH, level + 10, raise_exception=True)
# We need set cooling level after resetting the cooling level vector
write_file(COOLING_STATE_PATH, cur_state, raise_exception=True)
except (ValueError, IOError) as e:
raise RuntimeError("Failed to set cooling level - {}".format(e))
@classmethod
def get_cooling_level(cls):
try:
return read_int_from_file(COOLING_STATE_PATH, raise_exception=True)
except (ValueError, IOError) as e:
raise RuntimeError("Failed to get cooling level - {}".format(e))