[device/celestica]: Add thermalctld support on Haliburton platform APIs (#6493)

- Removed the old function for detecting a faulty fan.
- Removed the old function for detecting excess temperature.
- Implement thermal_manager APIs based on ThermalManagerBase
- Implement thermal_conditions APIs based on ThermalPolicyConditionBase
- Implement thermal_actions APIs based on ThermalPolicyActionBase
- Implement thermal_info APIs based on ThermalPolicyInfoBase
- Add thermal_policy.json
This commit is contained in:
Wirut Getbamrung 2021-05-03 23:14:35 +07:00 committed by GitHub
parent e1ff8b6ad6
commit cfda77b3de
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GPG Key ID: 4AEE18F83AFDEB23
21 changed files with 1141 additions and 220 deletions

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@ -1,13 +1,11 @@
# Configuration file generated by pwmconfig, changes will be lost
INTERVAL=2
DEVPATH=hwmon3=devices/pci0000:00/0000:00:13.0/i2c-0/i2c-8/i2c-23/23-004d hwmon2=devices/pci0000:00/0000:00:13.0/i2c-0/i2c-8/i2c-11/11-001a
DEVNAME=hwmon3=emc2305 hwmon2=max6699
FCTEMPS=hwmon3/device/pwm1=hwmon2/temp1_input hwmon3/device/pwm2=hwmon2/temp1_input hwmon3/device/pwm4=hwmon2/temp1_input
FCFANS=hwmon3/device/pwm1=hwmon3/device/fan1_input hwmon3/device/pwm2=hwmon3/device/fan2_input hwmon3/device/pwm4=hwmon3/device/fan4_input
MINTEMP=hwmon3/device/pwm1=27 hwmon3/device/pwm2=27 hwmon3/device/pwm4=27
MAXTEMP=hwmon3/device/pwm1=46 hwmon3/device/pwm2=46 hwmon3/device/pwm4=46
MINSTART=hwmon3/device/pwm1=102 hwmon3/device/pwm2=102 hwmon3/device/pwm4=102
MINSTOP=hwmon3/device/pwm1=102 hwmon3/device/pwm2=102 hwmon3/device/pwm4=102
MINPWM=hwmon3/device/pwm1=102 hwmon3/device/pwm2=102 hwmon3/device/pwm4=102
MAXPWM=hwmon3/device/pwm1=255 hwmon3/device/pwm2=255 hwmon3/device/pwm4=255
THYST=hwmon3/device/pwm1=2 hwmon3/device/pwm2=2 hwmon3/device/pwm4=2
FCTEMPS=23-004d/pwm1=/sys/bus/i2c/devices/11-001a/hwmon/hwmon*/temp1_input 23-004d/pwm2=/sys/bus/i2c/devices/11-001a/hwmon/hwmon*/temp1_input 23-004d/pwm4=/sys/bus/i2c/devices/11-001a/hwmon/hwmon*/temp1_input
FCFANS=23-004d/pwm1=23-004d/fan1_input 23-004d/pwm2=23-004d/fan2_input 23-004d/pwm4=23-004d/fan4_input
MINTEMP=23-004d/pwm1=27 23-004d/pwm2=27 23-004d/pwm4=27
MAXTEMP=23-004d/pwm1=46 23-004d/pwm2=46 23-004d/pwm4=46
MINSTART=23-004d/pwm1=102 23-004d/pwm2=102 23-004d/pwm4=102
MINSTOP=23-004d/pwm1=102 23-004d/pwm2=102 23-004d/pwm4=102
MINPWM=23-004d/pwm1=102 23-004d/pwm2=102 23-004d/pwm4=102
MAXPWM=23-004d/pwm1=255 23-004d/pwm2=255 23-004d/pwm4=255
THYST=23-004d/pwm1=2 23-004d/pwm2=2 23-004d/pwm4=2

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@ -1,13 +1,11 @@
# Configuration file generated by pwmconfig, changes will be lost
INTERVAL=2
DEVPATH=hwmon3=devices/pci0000:00/0000:00:13.0/i2c-0/i2c-8/i2c-23/23-004d hwmon2=devices/pci0000:00/0000:00:13.0/i2c-0/i2c-8/i2c-11/11-001a
DEVNAME=hwmon3=emc2305 hwmon2=max6697
FCTEMPS=hwmon3/device/pwm1=hwmon2/temp3_input hwmon3/device/pwm2=hwmon2/temp3_input hwmon3/device/pwm4=hwmon2/temp3_input
FCFANS=hwmon3/device/pwm1=hwmon3/device/fan1_input hwmon3/device/pwm2=hwmon3/device/fan2_input hwmon3/device/pwm4=hwmon3/device/fan4_input
MINTEMP=hwmon3/device/pwm1=29 hwmon3/device/pwm2=29 hwmon3/device/pwm4=29
MAXTEMP=hwmon3/device/pwm1=46 hwmon3/device/pwm2=46 hwmon3/device/pwm4=46
MINSTART=hwmon3/device/pwm1=102 hwmon3/device/pwm2=102 hwmon3/device/pwm4=102
MINSTOP=hwmon3/device/pwm1=102 hwmon3/device/pwm2=102 hwmon3/device/pwm4=102
MINPWM=hwmon3/device/pwm1=102 hwmon3/device/pwm2=102 hwmon3/device/pwm4=102
MAXPWM=hwmon3/device/pwm1=255 hwmon3/device/pwm2=255 hwmon3/device/pwm4=255
THYST=hwmon3/device/pwm1=2 hwmon3/device/pwm2=2 hwmon3/device/pwm4=2
FCTEMPS=23-004d/pwm1=/sys/bus/i2c/devices/11-001a/hwmon/hwmon*/temp3_input 23-004d/pwm2=/sys/bus/i2c/devices/11-001a/hwmon/hwmon*/temp3_input 23-004d/pwm4=/sys/bus/i2c/devices/11-001a/hwmon/hwmon*/temp3_input
FCFANS=23-004d/pwm1=23-004d/fan1_input 23-004d/pwm2=23-004d/fan2_input 23-004d/pwm4=23-004d/fan4_input
MINTEMP=23-004d/pwm1=29 23-004d/pwm2=29 23-004d/pwm4=29
MAXTEMP=23-004d/pwm1=46 23-004d/pwm2=46 23-004d/pwm4=46
MINSTART=23-004d/pwm1=102 23-004d/pwm2=102 23-004d/pwm4=102
MINSTOP=23-004d/pwm1=102 23-004d/pwm2=102 23-004d/pwm4=102
MINPWM=23-004d/pwm1=102 23-004d/pwm2=102 23-004d/pwm4=102
MAXPWM=23-004d/pwm1=255 23-004d/pwm2=255 23-004d/pwm4=255
THYST=23-004d/pwm1=2 23-004d/pwm2=2 23-004d/pwm4=2

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@ -1,2 +1,2 @@
__all__ = ["platform", "chassis"]
from sonic_platform import *
from . import chassis
from . import platform

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@ -6,18 +6,12 @@
#
#############################################################################
import sys
import re
import os
import subprocess
import json
try:
import sys
from sonic_platform_base.sonic_sfp.sfputilhelper import SfpUtilHelper
from sonic_platform_base.chassis_base import ChassisBase
from sonic_py_common import device_info
from .common import Common
from .event import SfpEvent
from .helper import APIHelper
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
@ -38,11 +32,10 @@ class Chassis(ChassisBase):
def __init__(self):
ChassisBase.__init__(self)
self._api_helper = APIHelper()
self._api_common = Common()
self.sfp_module_initialized = False
self.__initialize_eeprom()
self.is_host = self._api_helper.is_host()
self.is_host = self._api_common.is_host()
if not self.is_host:
self.__initialize_fan()
@ -81,8 +74,9 @@ class Chassis(ChassisBase):
def __initialize_thermals(self):
from sonic_platform.thermal import Thermal
airflow = self.__get_air_flow()
for index in range(0, NUM_THERMAL):
thermal = Thermal(index)
thermal = Thermal(index, airflow)
self._thermal_list.append(thermal)
def __initialize_eeprom(self):
@ -95,17 +89,11 @@ class Chassis(ChassisBase):
component = Component(index)
self._component_list.append(component)
def __is_host(self):
return os.system(HOST_CHK_CMD) == 0
def __read_txt_file(self, file_path):
try:
with open(file_path, 'r') as fd:
data = fd.read()
return data.strip()
except IOError:
pass
return None
def __get_air_flow(self):
air_flow_path = '/usr/share/sonic/device/{}/fan_airflow'.format(
self._api_common.platform) if self.is_host else '/usr/share/sonic/platform/fan_airflow'
air_flow = self._api_common.read_txt_file(air_flow_path)
return air_flow or 'B2F'
def get_base_mac(self):
"""
@ -116,6 +104,14 @@ class Chassis(ChassisBase):
"""
return self._eeprom.get_mac()
def get_serial_number(self):
"""
Retrieves the hardware serial number for the chassis
Returns:
A string containing the hardware serial number for this chassis.
"""
return self._eeprom.get_serial()
def get_system_eeprom_info(self):
"""
Retrieves the full content of system EEPROM information for the chassis
@ -141,7 +137,7 @@ class Chassis(ChassisBase):
reboot_cause = self.REBOOT_CAUSE_HARDWARE_OTHER
hw_reboot_cause = self._component_list[0].get_register_value(
RESET_REGISTER)
sw_reboot_cause = self.__read_txt_file(
sw_reboot_cause = self._api_common.read_txt_file(
self._reboot_cause_path) or "Unknown"
if hw_reboot_cause == "0x55":
@ -151,8 +147,12 @@ class Chassis(ChassisBase):
reboot_cause = self.REBOOT_CAUSE_POWER_LOSS
elif hw_reboot_cause == "0x33":
reboot_cause = self.REBOOT_CAUSE_WATCHDOG
elif hw_reboot_cause == "0x88":
reboot_cause = self.REBOOT_CAUSE_THERMAL_OVERLOAD_CPU
elif hw_reboot_cause == "0x99":
reboot_cause = self.REBOOT_CAUSE_THERMAL_OVERLOAD_ASIC
else:
reboot_cause = self.REBOOT_CAUSE_HARDWARE_OTHER
reboot_cause = self.REBOOT_CAUSE_NON_HARDWARE
description = 'Unknown reason'
return (reboot_cause, description)
@ -251,6 +251,14 @@ class Chassis(ChassisBase):
index, len(self._sfp_list)))
return sfp
##############################################################
################## ThermalManager methods ####################
##############################################################
def get_thermal_manager(self):
from .thermal_manager import ThermalManager
return ThermalManager
##############################################################
###################### Device methods ########################
##############################################################
@ -261,13 +269,13 @@ class Chassis(ChassisBase):
Returns:
string: The name of the device
"""
return self._api_helper.hwsku
return self._api_common.hwsku
def get_presence(self):
"""
Retrieves the presence of the Chassis
Retrieves the presence of the PSU
Returns:
bool: True if Chassis is present, False if not
bool: True if PSU is present, False if not
"""
return True
@ -285,7 +293,7 @@ class Chassis(ChassisBase):
Returns:
string: Serial number of device
"""
return self._eeprom.get_serial()
return self.get_serial_number()
def get_status(self):
"""
@ -294,3 +302,4 @@ class Chassis(ChassisBase):
A boolean value, True if device is operating properly, False if not
"""
return True

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@ -0,0 +1,283 @@
import os
import imp
import yaml
import subprocess
from sonic_py_common import device_info
class Common:
DEVICE_PATH = '/usr/share/sonic/device/'
PMON_PLATFORM_PATH = '/usr/share/sonic/platform/'
CONFIG_DIR = 'sonic_platform_config'
OUTPUT_SOURCE_IPMI = 'ipmitool'
OUTPUT_SOURCE_GIVEN_LIST = 'value_list'
OUTPUT_SOURCE_GIVEN_VALUE = 'value'
OUTPUT_SOURCE_GIVEN_CLASS = 'class'
OUTPUT_SOURCE_SYSFS = 'sysfs_value'
OUTPUT_SOURCE_FUNC = 'function'
OUTPUT_SOURCE_GIVEN_TXT_FILE = 'txt_file'
OUTPUT_SOURCE_GIVEN_VER_HEX_FILE = 'hex_version_file'
OUTPUT_SOURCE_GIVEN_VER_HEX_ADDR = 'hex_version_getreg'
SET_METHOD_IPMI = 'ipmitool'
NULL_VAL = 'N/A'
HOST_CHK_CMD = "docker > /dev/null 2>&1"
REF_KEY = '$ref:'
def __init__(self, conf=None):
self._main_conf = conf
(self.platform, self.hwsku) = device_info.get_platform_and_hwsku()
def run_command(self, command):
status = False
output = ""
try:
p = subprocess.Popen(
command, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
raw_data, err = p.communicate()
if err == '':
status, output = True, raw_data.strip()
except Exception:
pass
return status, output
def _clean_input(self, input, config):
cleaned_input = input
ai = config.get('avaliable_input')
if ai and input not in ai:
return None
input_translator = config.get('input_translator')
if type(input_translator) is dict:
cleaned_input = input_translator.get(input)
elif type(input_translator) is str:
cleaned_input = eval(input_translator.format(input))
return cleaned_input
def _clean_output(self, index, output, config):
output_translator = config.get('output_translator')
if type(output_translator) is dict:
output = output_translator.get(output)
elif type(output_translator) is str:
output = eval(output_translator.format(output))
elif type(output_translator) is list:
output = eval(output_translator[index].format(output))
return output
def _ipmi_get(self, index, config):
argument = config.get('argument')
cmd = config['command'].format(
config['argument'][index]) if argument else config['command']
status, output = self.run_command(cmd)
return output if status else None
def _sysfs_read(self, index, config):
sysfs_path = config.get('sysfs_path')
argument = config.get('argument', '')
if self.REF_KEY in argument:
argument = self._main_conf[argument.split(":")[1]]
if type(argument) is list:
sysfs_path = sysfs_path.format(argument[index])
content = ""
try:
content = open(sysfs_path)
content = content.readline().rstrip()
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False
return content
def _sysfs_write(self, index, config, input):
sysfs_path = config.get('sysfs_path')
argument = config.get('argument', '')
if self.REF_KEY in argument:
argument = self._main_conf[argument.split(":")[1]]
if type(argument) is list:
sysfs_path = sysfs_path.format(argument[index])
write_offset = int(config.get('write_offset', 0))
output = ""
try:
open_file = open(sysfs_path, "r+")
open_file.seek(write_offset)
open_file.write(input)
open_file.close()
except IOError as e:
print("Error: unable to open file: %s" % str(e))
return False, output
return True, output
def _ipmi_set(self, index, config, input):
arg = config['argument'][index].format(input)
return self.run_command(config['command'].format(arg))
def _hex_ver_decode(self, hver, num_of_bits, num_of_points):
ver_list = []
c_bit = 0
bin_val = bin(int(hver, 16))[2:].zfill(num_of_bits)
bit_split = num_of_bits / (num_of_points + 1)
for x in range(0, num_of_points+1):
split_bin = bin_val[c_bit:c_bit+bit_split]
ver_list.append(str(int(split_bin, 2)))
c_bit += bit_split
return '.'.join(ver_list)
def _get_class(self, config):
"""
Retreives value of expected attribute
Returns:
A value of the attribute of object
"""
path = config['host_path'] if self.is_host() else config['pmon_path']
module = imp.load_source(config['class'], path)
class_ = getattr(module, config['class'])
return class_
def get_reg(self, path, reg_addr):
cmd = "echo {1} > {0}; cat {0}".format(path, reg_addr)
status, output = self.run_command(cmd)
return output if status else None
def read_txt_file(self, path):
with open(path, 'r') as f:
output = f.readline()
return output.strip('\n')
def write_txt_file(self, file_path, value):
try:
with open(file_path, 'w') as fd:
fd.write(str(value))
except Exception:
return False
return True
def is_host(self):
return os.system(self.HOST_CHK_CMD) == 0
def load_json_file(self, path):
"""
Retrieves the json object from json file path
Returns:
A json object
"""
with open(path, 'r') as f:
json_data = yaml.safe_load(f)
return json_data
def get_config_path(self, config_name):
"""
Retrieves the path to platform api config directory
Args:
config_name: A string containing the name of config file.
Returns:
A string containing the path to json file
"""
return os.path.join(self.DEVICE_PATH, self.platform, self.CONFIG_DIR, config_name) if self.is_host() else os.path.join(self.PMON_PLATFORM_PATH, self.CONFIG_DIR, config_name)
def get_output(self, index, config, default):
"""
Retrieves the output for each function base on config
Args:
index: An integer containing the index of device.
config: A dict object containing the configuration of specified function.
default: A string containing the default output of specified function.
Returns:
A string containing the output of specified function in config
"""
output_source = config.get('output_source')
if output_source == self.OUTPUT_SOURCE_IPMI:
output = self._ipmi_get(index, config)
elif output_source == self.OUTPUT_SOURCE_GIVEN_VALUE:
output = config["value"]
elif output_source == self.OUTPUT_SOURCE_GIVEN_CLASS:
output = self._get_class(config)
elif output_source == self.OUTPUT_SOURCE_GIVEN_LIST:
output = config["value_list"][index]
elif output_source == self.OUTPUT_SOURCE_SYSFS:
output = self._sysfs_read(index, config)
elif output_source == self.OUTPUT_SOURCE_FUNC:
func_conf = self._main_conf[config['function'][index]]
output = self.get_output(index, func_conf, default)
elif output_source == self.OUTPUT_SOURCE_GIVEN_TXT_FILE:
path = config.get('path')
output = self.read_txt_file(path)
elif output_source == self.OUTPUT_SOURCE_GIVEN_VER_HEX_FILE:
path = config.get('path')
hex_ver = self.read_txt_file(path)
output = self._hex_ver_decode(
hex_ver, config['num_of_bits'], config['num_of_points'])
elif output_source == self.OUTPUT_SOURCE_GIVEN_VER_HEX_ADDR:
path = config.get('path')
addr = config.get('reg_addr')
hex_ver = self.get_reg(path, addr)
output = self._hex_ver_decode(
hex_ver, config['num_of_bits'], config['num_of_points'])
else:
output = default
return self._clean_output(index, output, config) or default
def set_output(self, index, input, config):
"""
Sets the output of specified function on config
Args:
config: A dict object containing the configuration of specified function.
index: An integer containing the index of device.
input: A string containing the input of specified function.
Returns:
bool: True if set function is successfully, False if not
"""
cleaned_input = self._clean_input(input, config)
if not cleaned_input:
return False
set_method = config.get('set_method')
if set_method == self.SET_METHOD_IPMI:
output = self._ipmi_set(index, config, cleaned_input)[0]
elif set_method == self.OUTPUT_SOURCE_SYSFS:
output = self._sysfs_write(index, config, cleaned_input)[0]
else:
output = False
return output
def get_event(self, timeout, config, sfp_list):
"""
Returns a nested dictionary containing all devices which have
experienced a change at chassis level
"""
event_class = self._get_class(config)
return event_class(sfp_list).get_event(timeout)

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@ -6,7 +6,6 @@
#
#############################################################################
import json
import os.path
import shutil
import shlex
@ -49,7 +48,7 @@ class Component(ComponentBase):
rc = process.poll()
if rc != 0:
return False
except:
except Exception:
return False
return True

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@ -8,11 +8,9 @@
#############################################################################
try:
import glob
import os
import sys
import re
from array import array
if sys.version_info.major == 3:
from io import StringIO
@ -52,7 +50,7 @@ class Tlv(eeprom_tlvinfo.TlvInfoDecoder):
value = match.group(3).rstrip('\0')
_eeprom_info_dict[idx] = value
except:
except Exception:
pass
return _eeprom_info_dict
@ -61,7 +59,7 @@ class Tlv(eeprom_tlvinfo.TlvInfoDecoder):
sys.stdout = StringIO()
try:
self.read_eeprom_db()
except:
except Exception:
decode_output = sys.stdout.getvalue()
sys.stdout = original_stdout
return self.__parse_output(decode_output)
@ -73,7 +71,7 @@ class Tlv(eeprom_tlvinfo.TlvInfoDecoder):
if not os.path.exists(CACHE_ROOT):
try:
os.makedirs(CACHE_ROOT)
except:
except Exception:
pass
#
@ -82,7 +80,7 @@ class Tlv(eeprom_tlvinfo.TlvInfoDecoder):
#
try:
self.set_cache_name(os.path.join(CACHE_ROOT, CACHE_FILE))
except:
except Exception:
pass
e = self.read_eeprom()
@ -91,7 +89,7 @@ class Tlv(eeprom_tlvinfo.TlvInfoDecoder):
try:
self.update_cache(e)
except:
except Exception:
pass
self.decode_eeprom(e)
@ -112,3 +110,6 @@ class Tlv(eeprom_tlvinfo.TlvInfoDecoder):
def get_mac(self):
return self._eeprom.get('0x24', "Undefined.")
def get_pn(self):
return self._eeprom.get('0x21', "Undefined.")

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@ -6,12 +6,12 @@
#
#############################################################################
import json
import math
import os.path
try:
from sonic_platform_base.fan_base import FanBase
from .common import Common
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
@ -67,25 +67,10 @@ class Fan(FanBase):
self.STATUS_LED_COLOR_RED: "amber",
self.STATUS_LED_COLOR_OFF: "off"
}
self._api_common = Common()
FanBase.__init__(self)
def __read_txt_file(self, file_path):
try:
with open(file_path, 'r') as fd:
data = fd.read()
return data.strip()
except IOError:
pass
return ""
def __write_txt_file(self, file_path, value):
try:
with open(file_path, 'w') as fd:
fd.write(str(value))
except:
return False
return True
def __search_file_by_name(self, directory, file_name):
for dirpath, dirnames, files in os.walk(directory):
for name in files:
@ -105,7 +90,8 @@ class Fan(FanBase):
if not self.is_psu_fan:
fan_direction_file = (FAN_PATH +
self.fan_e1031_direction.format(self.fan_tray_index+1))
raw = self.__read_txt_file(fan_direction_file).strip('\r\n')
raw = self._api_common.read_txt_file(
fan_direction_file).strip('\r\n')
direction = self.FAN_DIRECTION_INTAKE if str(
raw).upper() == "F2B" else self.FAN_DIRECTION_EXHAUST
@ -126,8 +112,8 @@ class Fan(FanBase):
fan_speed_sysfs_name = "fan{}_input".format(self.fan_index+1)
fan_speed_sysfs_path = self.__search_file_by_name(
self.psu_hwmon_path, fan_speed_sysfs_name)
fan_speed_rpm = self.__read_txt_file(fan_speed_sysfs_path) or 0
fan_speed_raw = float(fan_speed_rpm)/PSU_FAN_MAX_RPM * 100
fan_speed_rpm = self._api_common.read_txt_file(
fan_speed_sysfs_path) or 0
speed = math.ceil(float(fan_speed_rpm) * 100 / PSU_FAN_MAX_RPM)
elif self.get_presence():
chip = self.emc2305_chip_mapping[self.fan_index]
@ -136,7 +122,7 @@ class Fan(FanBase):
sysfs_path = "%s%s/%s" % (
EMC2305_PATH, device, EMC2305_FAN_INPUT)
sysfs_path = sysfs_path.format(fan_index[self.fan_tray_index])
raw = self.__read_txt_file(sysfs_path).strip('\r\n')
raw = self._api_common.read_txt_file(sysfs_path).strip('\r\n')
pwm = int(raw, 10) if raw else 0
speed = math.ceil(float(pwm * 100 / EMC2305_MAX_PWM))
@ -163,7 +149,7 @@ class Fan(FanBase):
sysfs_path = "%s%s/%s" % (
EMC2305_PATH, device, EMC2305_FAN_TARGET)
sysfs_path = sysfs_path.format(fan_index[self.fan_tray_index])
raw = self.__read_txt_file(sysfs_path).strip('\r\n')
raw = self._api_common.read_txt_file(sysfs_path).strip('\r\n')
pwm = int(raw, 10) if raw else 0
target = math.ceil(float(pwm) * 100 / EMC2305_MAX_PWM)
@ -202,7 +188,7 @@ class Fan(FanBase):
sysfs_path = "%s%s/%s" % (
EMC2305_PATH, device, EMC2305_FAN_PWM)
sysfs_path = sysfs_path.format(fan_index[self.fan_tray_index])
return self.__write_txt_file(sysfs_path, int(pwm))
return self._api_common.write_txt_file(sysfs_path, int(pwm))
return False
@ -220,7 +206,7 @@ class Fan(FanBase):
fan_led_file = (FAN_PATH +
self.fan_e1031_led.format(self.fan_tray_index+1))
set_status_led = self.__write_txt_file(
set_status_led = self._api_common.write_txt_file(
fan_led_file, self.fan_e1031_led_col_map[color]) if self.get_presence() else False
return set_status_led
@ -244,14 +230,55 @@ class Fan(FanBase):
"""
fan_direction_file = (FAN_PATH +
self.fan_e1031_presence.format(self.fan_tray_index+1))
present_str = self.__read_txt_file(fan_direction_file) or '1'
present_str = self._api_common.read_txt_file(fan_direction_file) or '1'
return int(present_str) == 0 if not self.is_psu_fan else True
def get_model(self):
"""
Retrieves the model number (or part number) of the device
Returns:
string: Model/part number of device
"""
if self.is_psu_fan:
return NULL_VAL
model = NULL_VAL
return model
def get_serial(self):
"""
Retrieves the serial number of the device
Returns:
string: Serial number of device
"""
if self.is_psu_fan:
return NULL_VAL
serial = NULL_VAL
return serial
def get_status(self):
"""
Retrieves the operational status of the device
Returns:
A boolean value, True if device is operating properly, False if not
"""
return self.get_presence() and self.get_speed() > 0
status = 1
if self.is_psu_fan:
fan_fault_sysfs_name = "fan1_fault"
fan_fault_sysfs_path = self.__search_file_by_name(
self.psu_hwmon_path, fan_fault_sysfs_name)
status = self._api_common.read_txt_file(fan_fault_sysfs_path)
elif self.get_presence():
chip = self.emc2305_chip_mapping[self.fan_index]
device = chip['device']
fan_index = chip['index_map']
sysfs_path = "%s%s/%s" % (
EMC2305_PATH, device, 'fan{}_fault')
sysfs_path = sysfs_path.format(fan_index[self.fan_tray_index])
status = self._api_common.read_txt_file(sysfs_path)
return False if int(status) != 0 else True

View File

@ -7,7 +7,6 @@
#############################################################################
import os.path
import sonic_platform
try:
from sonic_platform_base.psu_base import PsuBase

View File

@ -8,7 +8,6 @@
import os
import time
import subprocess
from ctypes import create_string_buffer
try:
@ -159,7 +158,7 @@ class Sfp(SfpBase):
raw = sysfsfile_eeprom.read(num_bytes)
for n in range(0, num_bytes):
eeprom_raw[n] = hex(ord(raw[n]))[2:].zfill(2)
except:
except Exception:
pass
finally:
if sysfsfile_eeprom:
@ -469,7 +468,6 @@ class Sfp(SfpBase):
A Boolean, True if tx_disable is enabled, False if disabled
"""
tx_disable = False
tx_fault = False
status_control_raw = self.__read_eeprom_specific_bytes(
SFP_STATUS_CONTROL_OFFSET, SFP_STATUS_CONTROL_WIDTH)
if status_control_raw:
@ -602,7 +600,7 @@ class Sfp(SfpBase):
# Write to eeprom
sysfsfile_eeprom.seek(SFP_STATUS_CONTROL_OFFSET)
sysfsfile_eeprom.write(buffer[0])
except:
except Exception:
#print("Error: unable to open file: %s" % str(e))
return False
finally:

View File

@ -6,16 +6,90 @@
#
#############################################################################
import os
import re
import os.path
try:
import os
from sonic_platform_base.thermal_base import ThermalBase
from .common import Common
except ImportError as e:
raise ImportError(str(e) + "- required module not found")
THERMAL_INFO = {
0: {
"F2B_max": 55.000,
"F2B_max_crit": 58.000,
"B2F_max": 55.000,
"B2F_max_crit": 58.000,
"postion": "asic",
"name": "Inlet ambient sensor (Rear to Front)",
"ss_index": 1,
"i2c_path": "i2c-11/11-001a/hwmon", # U7273
},
1: {
"F2B_max": 85.000,
"F2B_max_crit": 90.000,
"B2F_max": 85.000,
"B2F_max_crit": 90.000,
"postion": "asic",
"name": "Helix shutdown sensor (Rear to Front)",
"ss_index": 2,
"i2c_path": "i2c-11/11-001a/hwmon", # Q7000
},
2: {
"F2B_max": 55.000,
"F2B_max_crit": 58.000,
"B2F_max": 55.000,
"B2F_max_crit": 58.000,
"postion": "asic",
"name": "Inlet ambient sensor (Front to Rear, right)",
"ss_index": 3,
"i2c_path": "i2c-11/11-001a/hwmon", # Q7001
},
3: {
"F2B_max": 85.000,
"F2B_max_crit": 90.000,
"B2F_max": 85.000,
"B2F_max_crit": 90.000,
"postion": "asic",
"name": "Helix shutdown sensor (Front to Rear)",
"ss_index": 4,
"i2c_path": "i2c-11/11-001a/hwmon", # Q7751
},
4: {
"F2B_max": 55.000,
"F2B_max_crit": 58.000,
"B2F_max": 55.000,
"B2F_max_crit": 58.000,
"postion": "cpu",
"name": "Inlet ambient sensor (Front to Rear, left)",
"ss_index": 5,
"i2c_path": "i2c-11/11-001a/hwmon" # Q7752
},
5: {
"F2B_max": 90.000,
"F2B_max_crit": 95.000,
"B2F_max": 90.000,
"B2F_max_crit": 95.000,
"postion": "cpu",
"name": "CPU errata sensor (Front to Rear)",
"ss_index": 2,
"i2c_path": "i2c-3/3-001a/hwmon" # Q5
},
6: {
"F2B_max": 90.000,
"F2B_max_crit": 95.000,
"B2F_max": 90.000,
"B2F_max_crit": 95.000,
"postion": "cpu",
"name": "CPU errata sensor (Rear to Front)",
"ss_index": 3,
"i2c_path": "i2c-3/3-001a/hwmon" # Q6
}
}
NULL_VAL = "N/A"
I2C_ADAPTER_PATH = "/sys/class/i2c-adapter"
class Thermal(ThermalBase):
"""Platform-specific Thermal class"""
@ -24,57 +98,33 @@ class Thermal(ThermalBase):
CPUBOARD_SS_PATH = "/sys/class/i2c-adapter/i2c-3/3-001a/hwmon/hwmon1"
SS_CONFIG_PATH = "/usr/share/sonic/device/x86_64-cel_e1031-r0/sensors.conf"
def __init__(self, thermal_index):
def __init__(self, thermal_index, airflow):
ThermalBase.__init__(self)
self.index = thermal_index
self._api_common = Common()
# Add thermal name
self.THERMAL_NAME_LIST.append("Rear panel-Inlet ambient sensor")
self.THERMAL_NAME_LIST.append("Rear panel-Helix shutdown sensor")
self.THERMAL_NAME_LIST.append(
"Front panel-Inlet ambient sensor (right)")
self.THERMAL_NAME_LIST.append("Front panel-Helix shutdown sensor")
self.THERMAL_NAME_LIST.append(
"Front panel-Inlet ambient sensor (left)")
self.THERMAL_NAME_LIST.append("CPU board temperature sensor : 1")
self.THERMAL_NAME_LIST.append("CPU board temperature sensor : 2")
self._airflow = airflow
self._thermal_info = THERMAL_INFO[self.index]
self._hwmon_path = self._get_hwmon_path()
self._ss_index = self._thermal_info["ss_index"]
# Set hwmon path
self.ss_index, self.hwmon_path = self.__get_ss_info(self.index)
self.ss_key = self.THERMAL_NAME_LIST[self.index]
self.name = self.get_name()
self.postion = self._thermal_info["postion"]
def __get_ss_info(self, index):
if self.index <= 4:
ss_path = self.MAINBOARD_SS_PATH
ss_index = index+1
else:
ss_path = self.CPUBOARD_SS_PATH
ss_index = index-3
return ss_index, ss_path
def _get_hwmon_path(self):
hwmon_path = os.path.join(I2C_ADAPTER_PATH, self._thermal_info["i2c_path"])
hwmon_dir = os.listdir(hwmon_path)[0]
return os.path.join(hwmon_path, hwmon_dir)
def __read_txt_file(self, file_path):
try:
with open(file_path, 'r') as fd:
data = fd.read()
return data.strip()
except IOError:
raise IOError("Unable to open %s file !" % file_path)
def __get_temp(self, temp_file):
temp_file_path = os.path.join(self.hwmon_path, temp_file)
raw_temp = self.__read_txt_file(temp_file_path)
def _get_temp(self, temp_file):
temp_file_path = os.path.join(self._hwmon_path, temp_file)
raw_temp = self._api_common.read_txt_file(temp_file_path)
temp = float(raw_temp)/1000
return "{:.3f}".format(temp)
return float("{:.3f}".format(temp))
def __set_threshold(self, file_name, temperature):
temp_file_path = os.path.join(self.hwmon_path, file_name)
try:
with open(temp_file_path, 'w') as fd:
fd.write(str(temperature))
return True
except IOError:
return False
def _set_threshold(self, file_name, temperature):
temp_file_path = os.path.join(self._hwmon_path, file_name)
return self._api_common.write_txt_file(temp_file_path, str(temperature))
def get_temperature(self):
"""
@ -83,8 +133,8 @@ class Thermal(ThermalBase):
A float number of current temperature in Celsius up to nearest thousandth
of one degree Celsius, e.g. 30.125
"""
temp_file = "temp{}_input".format(self.ss_index)
return self.__get_temp(temp_file)
temp_file = "temp{}_input".format(self._ss_index)
return self._get_temp(temp_file)
def get_high_threshold(self):
"""
@ -93,8 +143,17 @@ class Thermal(ThermalBase):
A float number, the high threshold temperature of thermal in Celsius
up to nearest thousandth of one degree Celsius, e.g. 30.125
"""
temp_file = "temp{}_max".format(self.ss_index)
return self.__get_temp(temp_file)
max_crit_key = '{}_max'.format(self._airflow)
return self._thermal_info.get(max_crit_key, None)
def get_low_threshold(self):
"""
Retrieves the low threshold temperature of thermal
Returns:
A float number, the low threshold temperature of thermal in Celsius
up to nearest thousandth of one degree Celsius, e.g. 30.125
"""
return 0.0
def set_high_threshold(self, temperature):
"""
@ -105,8 +164,8 @@ class Thermal(ThermalBase):
Returns:
A boolean, True if threshold is set successfully, False if not
"""
temp_file = "temp{}_max".format(self.ss_index)
is_set = self.__set_threshold(temp_file, int(temperature*1000))
temp_file = "temp{}_max".format(self._ss_index)
is_set = self._set_threshold(temp_file, int(temperature*1000))
file_set = False
if is_set:
try:
@ -115,7 +174,7 @@ class Thermal(ThermalBase):
f.seek(0)
ss_found = False
for idx, val in enumerate(content):
if self.ss_key in val:
if self.name in val:
ss_found = True
elif ss_found and temp_file in val:
content[idx] = " set {} {}\n".format(
@ -128,13 +187,43 @@ class Thermal(ThermalBase):
return is_set & file_set
def set_low_threshold(self, temperature):
"""
Sets the low threshold temperature of thermal
Args :
temperature: A float number up to nearest thousandth of one degree Celsius,
e.g. 30.125
Returns:
A boolean, True if threshold is set successfully, False if not
"""
return False
def get_high_critical_threshold(self):
"""
Retrieves the high critical threshold temperature of thermal
Returns:
A float number, the high critical threshold temperature of thermal in Celsius
up to nearest thousandth of one degree Celsius, e.g. 30.125
"""
max_crit_key = '{}_max_crit'.format(self._airflow)
return self._thermal_info.get(max_crit_key, None)
def get_low_critical_threshold(self):
"""
Retrieves the low critical threshold temperature of thermal
Returns:
A float number, the low critical threshold temperature of thermal in Celsius
up to nearest thousandth of one degree Celsius, e.g. 30.125
"""
return 0.0
def get_name(self):
"""
Retrieves the name of the thermal device
Returns:
string: The name of the thermal device
"""
return self.THERMAL_NAME_LIST[self.index]
return self._thermal_info["name"]
def get_presence(self):
"""
@ -142,10 +231,26 @@ class Thermal(ThermalBase):
Returns:
bool: True if PSU is present, False if not
"""
temp_file = "temp{}_input".format(self.ss_index)
temp_file_path = os.path.join(self.hwmon_path, temp_file)
temp_file = "temp{}_input".format(self._ss_index)
temp_file_path = os.path.join(self._hwmon_path, temp_file)
return os.path.isfile(temp_file_path)
def get_model(self):
"""
Retrieves the model number (or part number) of the device
Returns:
string: Model/part number of device
"""
return NULL_VAL
def get_serial(self):
"""
Retrieves the serial number of the device
Returns:
string: Serial number of device
"""
return NULL_VAL
def get_status(self):
"""
Retrieves the operational status of the device
@ -155,10 +260,10 @@ class Thermal(ThermalBase):
if not self.get_presence():
return False
fault_file = "temp{}_fault".format(self.ss_index)
fault_file_path = os.path.join(self.hwmon_path, fault_file)
fault_file = "temp{}_fault".format(self._ss_index)
fault_file_path = os.path.join(self._hwmon_path, fault_file)
if not os.path.isfile(fault_file_path):
return True
raw_txt = self.__read_txt_file(fault_file_path)
raw_txt = self._api_common.read_txt_file(fault_file_path)
return int(raw_txt) == 0

View File

@ -0,0 +1,78 @@
from sonic_platform_base.sonic_thermal_control.thermal_action_base import ThermalPolicyActionBase
from sonic_platform_base.sonic_thermal_control.thermal_json_object import thermal_json_object
from .thermal_infos import ChassisInfo
from .common import Common
@thermal_json_object('thermal_control.control')
class ControlThermalAlgoAction(ThermalPolicyActionBase):
"""
Action to control the thermal control algorithm
"""
# JSON field definition
JSON_FIELD_STATUS = 'status'
def __init__(self):
self.status = True
def load_from_json(self, json_obj):
"""
Construct ControlThermalAlgoAction via JSON. JSON example:
{
"type": "thermal_control.control"
"status": "true"
}
:param json_obj: A JSON object representing a ControlThermalAlgoAction action.
:return:
"""
if ControlThermalAlgoAction.JSON_FIELD_STATUS in json_obj:
status_str = json_obj[ControlThermalAlgoAction.JSON_FIELD_STATUS].lower(
)
if status_str == 'true':
self.status = True
elif status_str == 'false':
self.status = False
else:
raise ValueError('Invalid {} field value, please specify true of false'.
format(ControlThermalAlgoAction.JSON_FIELD_STATUS))
else:
raise ValueError('ControlThermalAlgoAction '
'missing mandatory field {} in JSON policy file'.
format(ControlThermalAlgoAction.JSON_FIELD_STATUS))
def execute(self, thermal_info_dict):
"""
Disable thermal control algorithm
:param thermal_info_dict: A dictionary stores all thermal information.
:return:
"""
if ChassisInfo.INFO_NAME in thermal_info_dict:
chassis_info_obj = thermal_info_dict[ChassisInfo.INFO_NAME]
chassis = chassis_info_obj.get_chassis()
thermal_manager = chassis.get_thermal_manager()
if self.status:
thermal_manager.start_thermal_control_algorithm()
else:
thermal_manager.stop_thermal_control_algorithm()
@thermal_json_object('switch.power_cycling')
class SwitchPolicyAction(ThermalPolicyActionBase):
"""
Base class for thermal action. Once all thermal conditions in a thermal policy are matched,
all predefined thermal action will be executed.
"""
def execute(self, thermal_info_dict):
"""
Take action when thermal condition matches. For example, power cycle the switch.
:param thermal_info_dict: A dictionary stores all thermal information.
:return:
"""
thermal_overload_position_path = '/tmp/thermal_overload_position'
thermal_overload_position = Common().read_txt_file(
thermal_overload_position_path)
cmd = 'bash /usr/share/sonic/platform/thermal_overload_control.sh {}'.format(
thermal_overload_position)
Common().run_command(cmd)

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@ -0,0 +1,78 @@
from sonic_platform_base.sonic_thermal_control.thermal_condition_base import ThermalPolicyConditionBase
from sonic_platform_base.sonic_thermal_control.thermal_json_object import thermal_json_object
class FanCondition(ThermalPolicyConditionBase):
def get_fan_info(self, thermal_info_dict):
from .thermal_infos import FanInfo
if FanInfo.INFO_NAME in thermal_info_dict and isinstance(thermal_info_dict[FanInfo.INFO_NAME], FanInfo):
return thermal_info_dict[FanInfo.INFO_NAME]
else:
return None
@thermal_json_object('fan.any.absence')
class AnyFanAbsenceCondition(FanCondition):
def is_match(self, thermal_info_dict):
fan_info_obj = self.get_fan_info(thermal_info_dict)
return len(fan_info_obj.get_absence_fans()) > 0 if fan_info_obj else False
@thermal_json_object('fan.any.fault')
class AnyFanFaultCondition(FanCondition):
def is_match(self, thermal_info_dict):
fan_info_obj = self.get_fan_info(thermal_info_dict)
return len(fan_info_obj.get_fault_fans()) > 0 if fan_info_obj else False
@thermal_json_object('fan.all.presence')
class AllFanPresenceCondition(FanCondition):
def is_match(self, thermal_info_dict):
fan_info_obj = self.get_fan_info(thermal_info_dict)
return len(fan_info_obj.get_absence_fans()) == 0 if fan_info_obj else False
@thermal_json_object('fan.all.good')
class AllFanGoodCondition(FanCondition):
def is_match(self, thermal_info_dict):
fan_info_obj = self.get_fan_info(thermal_info_dict)
return len(fan_info_obj.get_fault_fans()) == 0 if fan_info_obj else False
class ThermalCondition(ThermalPolicyConditionBase):
def get_thermal_info(self, thermal_info_dict):
from .thermal_infos import ThermalInfo
if ThermalInfo.INFO_NAME in thermal_info_dict and isinstance(thermal_info_dict[ThermalInfo.INFO_NAME], ThermalInfo):
return thermal_info_dict[ThermalInfo.INFO_NAME]
else:
return None
@thermal_json_object('thermal.over.high_threshold')
class ThermalOverHighCriticalCondition(ThermalCondition):
def is_match(self, thermal_info_dict):
thermal_info_obj = self.get_thermal_info(thermal_info_dict)
if thermal_info_obj:
return thermal_info_obj.is_over_high_threshold()
else:
return False
@thermal_json_object('thermal.over.high_critical_threshold')
class ThermalOverHighCriticalCondition(ThermalCondition):
def is_match(self, thermal_info_dict):
thermal_info_obj = self.get_thermal_info(thermal_info_dict)
if thermal_info_obj:
return thermal_info_obj.is_over_high_critical_threshold()
else:
return False
@thermal_json_object('thermal.all.good')
class ThermalGoodCondition(ThermalCondition):
def is_match(self, thermal_info_dict):
thermal_info_obj = self.get_thermal_info(thermal_info_dict)
if thermal_info_obj:
return not thermal_info_obj.is_over_threshold()
else:
return False

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@ -0,0 +1,165 @@
from sonic_platform_base.sonic_thermal_control.thermal_info_base import ThermalPolicyInfoBase
from sonic_platform_base.sonic_thermal_control.thermal_json_object import thermal_json_object
from .common import Common
import time
@thermal_json_object('fan_info')
class FanInfo(ThermalPolicyInfoBase):
"""
Fan information needed by thermal policy
"""
# Fan information name
INFO_NAME = 'fan_info'
def __init__(self):
self._absence_fans = set()
self._presence_fans = set()
self._fault_fans = set()
self._status_changed = False
def collect(self, chassis):
"""
Collect absence and presence fans.
:param chassis: The chassis object
:return:
"""
self._status_changed = False
for fan in chassis.get_all_fans():
presence = fan.get_presence()
status = fan.get_status()
if presence and fan not in self._presence_fans:
self._presence_fans.add(fan)
self._status_changed = True
if fan in self._absence_fans:
self._absence_fans.remove(fan)
elif not presence and fan not in self._absence_fans:
self._absence_fans.add(fan)
self._status_changed = True
if fan in self._presence_fans:
self._presence_fans.remove(fan)
if not status and fan not in self._fault_fans:
self._fault_fans.add(fan)
self._status_changed = True
elif status and fan in self._fault_fans:
self._fault_fans.remove(fan)
self._status_changed = True
def get_absence_fans(self):
"""
Retrieves absence fans
:return: A set of absence fans
"""
return self._absence_fans
def get_presence_fans(self):
"""
Retrieves presence fans
:return: A set of presence fans
"""
return self._presence_fans
def get_fault_fans(self):
"""
Retrieves fault fans
:return: A set of fault fans
"""
return self._fault_fans
def is_status_changed(self):
"""
Retrieves if the status of fan information changed
:return: True if status changed else False
"""
return self._status_changed
@thermal_json_object('thermal_info')
class ThermalInfo(ThermalPolicyInfoBase):
"""
Thermal information needed by thermal policy
"""
# Fan information name
INFO_NAME = 'thermal_info'
def collect(self, chassis):
"""
Collect thermal sensor temperature change status
:param chassis: The chassis object
:return:
"""
self._over_high_threshold = False
self._over_high_critical_threshold = False
self._thermal_overload_position = 'cpu'
# Calculate average temp within the device
temp = 0
num_of_thermals = chassis.get_num_thermals()
for index in range(num_of_thermals):
thermal = chassis.get_thermal(index)
temp = thermal.get_temperature()
high_threshold = thermal.get_high_threshold()
high_critical_threshold = thermal.get_high_critical_threshold()
if high_threshold and temp > high_threshold:
self._over_high_threshold = True
if high_critical_threshold and temp > high_critical_threshold:
self._thermal_overload_position = thermal.postion
self._over_high_critical_threshold = True
def is_over_threshold(self):
"""
Retrieves if the temperature is over any threshold
:return: True if the temperature is over any threshold else False
"""
return self._over_high_threshold or self._over_high_critical_threshold
def is_over_high_critical_threshold(self):
"""
Retrieves if the temperature is over high critical threshold
:return: True if the temperature is over high critical threshold else False
"""
thermal_overload_position_path = '/tmp/thermal_overload_position'
if self._over_high_critical_threshold:
Common().write_txt_file(thermal_overload_position_path,
self._thermal_overload_position)
time.sleep(1)
return self._over_high_critical_threshold
def is_over_high_threshold(self):
"""
Retrieves if the temperature is over high threshold
:return: True if the temperature is over high threshold else False
"""
return self._over_high_threshold
@thermal_json_object('chassis_info')
class ChassisInfo(ThermalPolicyInfoBase):
"""
Chassis information needed by thermal policy
"""
INFO_NAME = 'chassis_info'
def __init__(self):
self._chassis = None
def collect(self, chassis):
"""
Collect platform chassis.
:param chassis: The chassis object
:return:
"""
self._chassis = chassis
def get_chassis(self):
"""
Retrieves platform chassis object
:return: A platform chassis object.
"""
return self._chassis

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@ -0,0 +1,47 @@
from sonic_platform_base.sonic_thermal_control.thermal_manager_base import ThermalManagerBase
from .common import Common
from .thermal_actions import *
from .thermal_conditions import *
from .thermal_infos import *
class ThermalManager(ThermalManagerBase):
FSC_ALGORITHM_CMD = ' supervisorctl {} fancontrol'
@classmethod
def start_thermal_control_algorithm(cls):
"""
Start vendor specific thermal control algorithm. The default behavior of this function is a no-op.
:return:
"""
return cls._enable_fancontrol_service(True)
@classmethod
def stop_thermal_control_algorithm(cls):
"""
Stop thermal control algorithm
Returns:
bool: True if set success, False if fail.
"""
return cls._enable_fancontrol_service(False)
@classmethod
def deinitialize(cls):
"""
Destroy thermal manager, including any vendor specific cleanup. The default behavior of this function
is a no-op.
:return:
"""
return cls._enable_fancontrol_service(True)
@classmethod
def _enable_fancontrol_service(cls, enable):
"""
Control thermal by fcs algorithm
Args:
enable: Bool, indicate enable the algorithm or not
Returns:
bool: True if set success, False if fail.
"""
cmd = 'start' if enable else 'stop'
return Common().run_command(cls.FSC_ALGORITHM_CMD.format(cmd))

View File

@ -4,11 +4,8 @@
# Watchdog contains an implementation of SONiC Platform Base API
#
#############################################################################
import ctypes
import fcntl
import os
import subprocess
import time
import array
try:

View File

@ -0,0 +1,75 @@
#!/bin/bash
#
# Copyright 2020-present Celestica. All Rights Reserved.
#
# This program file is free software; you can redistribute it and/or modify it
# under the terms of the GNU General Public License as published by the
# Free Software Foundation; version 2 of the License.
#
# This program is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
# for more details.
#
#
PATH=/sbin:/bin:/usr/sbin:/usr/bin:/usr/local/bin
SETREG_FILE=/sys/devices/platform/e1031.smc/setreg
TOVERREG=0x115
CPUOVER=0xa1
ASICOVER=0xa2
prog="$0"
command="$1"
if [[ $EUID -ne 0 ]]; then
echo "This script must be run as root"
exit 1
fi
usage() {
echo "Usage: thermal_overload_control.sh [option] <command>"
echo
echo "Options:"
echo " -h, --help : to print this message."
echo
echo "Commands:"
echo
echo " cpu: To enabling CPU thermal overload handler"
echo
echo " asic : To enabling ASIC thermal overload handler"
echo
}
cpu_overload() {
logger "Enable CPU thermal overload control"
set_reg=`echo ${TOVERREG} ${CPUOVER} > ${SETREG_FILE}`
}
asic_overload() {
logger "Enable ASIC thermal overload control"
set_reg=`echo ${TOVERREG} ${ASICOVER} > ${SETREG_FILE}`
}
if [ $# -lt 1 ]; then
usage
exit -1
fi
case "$command" in
-h | --help)
usage
;;
cpu)
cpu_overload
;;
asic)
asic_overload
;;
*)
usage
exit -1
;;
esac
exit $?

View File

@ -0,0 +1,93 @@
{
"thermal_control_algorithm": {
"run_at_boot_up": "true"
},
"info_types": [
{
"type": "chassis_info"
},
{
"type": "fan_info"
},
{
"type": "thermal_info"
}
],
"policies": [
{
"name": "any fan absence",
"conditions": [
{
"type": "fan.any.absence"
}
],
"actions": [
{
"type": "thermal_control.control",
"status": "false"
}
]
},
{
"name": "any fan broken",
"conditions": [
{
"type": "fan.any.fault"
}
],
"actions": [
{
"type": "thermal_control.control",
"status": "false"
}
]
},
{
"name": "any thermal over threshold",
"conditions": [
{
"type": "thermal.over.high_threshold"
}
],
"actions": [
{
"type": "thermal_control.control",
"status": "false"
}
]
},
{
"name": "temp over high critical threshold",
"conditions": [
{
"type": "thermal.over.high_critical_threshold"
}
],
"actions": [
{
"type": "switch.power_cycling"
}
]
},
{
"name": "all fan presence / thermal no warning",
"conditions": [
{
"type": "fan.all.presence"
},
{
"type": "fan.all.good"
},
{
"type": "thermal.all.good"
}
],
"actions": [
{
"type": "thermal_control.control",
"status": "true"
}
]
}
]
}

View File

@ -53,9 +53,12 @@ start)
echo max6699 0x1a > /sys/bus/i2c/devices/i2c-3/new_device
echo max6699 0x1a > /sys/bus/i2c/devices/i2c-11/new_device
## TODO: fix dps200 driver cause kernel panic issue
# https://github.com/Azure/sonic-buildimage/issues/6602
# Attach PSUs
echo dps200 0x5a > /sys/bus/i2c/devices/i2c-12/new_device
echo dps200 0x5b > /sys/bus/i2c/devices/i2c-13/new_device
# echo dps200 0x5a > /sys/bus/i2c/devices/i2c-12/new_device
# echo dps200 0x5b > /sys/bus/i2c/devices/i2c-13/new_device
# Attach fans
echo emc2305 0x4d > /sys/bus/i2c/devices/i2c-23/new_device

View File

@ -1,12 +1,15 @@
depmod -a
sudo chmod +x /usr/local/bin/udev_prefix.sh
sudo chmod +x /usr/local/bin/popmsg.sh
sudo chmod +x /usr/local/bin/reload_udev.sh
/usr/local/bin/platform_api_mgnt.sh install
/etc/init.d/fancontrol.sh install
/usr/local/bin/reload_udev.sh
systemctl enable platform-modules-haliburton.service
systemctl enable fancontrol.service
systemctl start platform-modules-haliburton.service
systemctl start fancontrol.service
/usr/local/bin/platform_api_mgnt.sh install
/usr/local/bin/reload_udev.sh
systemctl start fancontrol.service

View File

@ -7,72 +7,37 @@
# Default-Start: 2 3 4 5
# Default-Stop:
# Short-Description: fancontrol
# Description: fan speed regulator
# Description: fancontrol configuration selector
### END INIT INFO
. /lib/lsb/init-functions
[ -f /etc/default/rcS ] && . /etc/default/rcS
PATH=/bin:/usr/bin:/sbin:/usr/sbin:/usr/local/bin
DAEMON=/usr/local/bin/fancontrol
DESC="fan speed regulator"
NAME="fancontrol"
PIDFILE=/var/run/fancontrol.pid
PLATFORMPATH=/sys/devices/platform/e1031.smc
MAIN_CONF=/usr/share/sonic/device/x86_64-cel_e1031-r0/fancontrol
DEVPATH=/sys/devices/pci0000:00/0000:00:13.0/i2c-0/i2c-8/i2c-23/23-004d
PLATFORM_PATH=/sys/devices/platform/e1031.smc
test -x $DAEMON || exit 0
init() {
FANDIR=$(cat ${PLATFORM_PATH}/fan1_dir)
CONF=${MAIN_CONF}-${FANDIR}
echo $FANDIR > /usr/share/sonic/device/x86_64-cel_e1031-r0/fan_airflow
}
for i in 1 2 3
do
j=$i
[ $i -eq 3 ] && j=4
FANFAULT=$(cat ${DEVPATH}/fan${j}_fault)
[ $FANFAULT = 1 ] && continue
FANDIR=$(cat ${PLATFORMPATH}/fan${i}_dir)
done
CONF=${MAIN_CONF}-${FANDIR}
install() {
find /var/lib/docker/overlay*/ -path */sbin/fancontrol -exec cp /usr/local/bin/fancontrol {} \;
}
case "$1" in
start)
if [ -f $CONF ] ; then
if $DAEMON --check $CONF 1>/dev/null 2>/dev/null ; then
log_daemon_msg "Starting $DESC" "$NAME\n"
start-stop-daemon --start --quiet --pidfile $PIDFILE --startas $DAEMON $CONF
log_end_msg $?
else
log_failure_msg "Not starting fancontrol, broken configuration file; please re-run pwmconfig."
fi
else
if [ "$VERBOSE" != no ]; then
log_warning_msg "Not starting fancontrol; run pwmconfig first."
fi
fi
;;
stop)
log_daemon_msg "Stopping $DESC" "$NAME"
start-stop-daemon --stop --quiet --pidfile $PIDFILE --oknodo --startas $DAEMON $CONF
rm -f $PIDFILE
log_end_msg $?
;;
restart)
$0 stop
sleep 3
$0 start
;;
force-reload)
if start-stop-daemon --stop --test --quiet --pidfile $PIDFILE --startas $DAEMON $CONF ; then
$0 restart
fi
;;
status)
status_of_proc $DAEMON $NAME $CONF && exit 0 || exit $?
;;
*)
log_success_msg "Usage: /etc/init.d/fancontrol {start|stop|restart|force-reload|status}"
exit 1
;;
start)
init
cp $CONF $MAIN_CONF
;;
install)
install
;;
*)
log_success_msg "Usage: /etc/init.d/fancontrol {start} | {install}"
exit 1
;;
esac
exit 0
exit 0