sonic-buildimage/device/celestica/x86_64-cel_silverstone-r0/sonic_platform/psu.py

#!/usr/bin/env python

#############################################################################
# Celestica
#
# Module contains an implementation of SONiC Platform Base API and
# provides the PSUs status which are available in the platform
#
#############################################################################

import os
import re
import math
import sonic_platform

try:
    from sonic_platform_base.psu_base import PsuBase
    from helper import APIHelper
    from sonic_platform.fan import Fan
except ImportError as e:
    raise ImportError(str(e) + "- required module not found")

PSU_NAME_LIST = ["PSU-1", "PSU-2"]
PSU_NUM_FAN = [1, 1]

IPMI_SENSOR_NETFN = "0x04"
IPMI_OEM_NETFN = "0x3A"
IPMI_SS_READ_CMD = "0x2D {}"
IPMI_SET_PSU_LED_CMD = "0x07 0x02 {}"
IPMI_GET_PSU_LED_CMD = "0x08 0x02"
IPMI_FRU_MODEL_KEY = "Board Part Number"
IPMI_FRU_SERIAL_KEY = "Board Serial"

PSU_LED_OFF_CMD = "0x00"
PSU_LED_GREEN_CMD = "0x01"
PSU_LED_AMBER_CMD = "0x02"

PSU1_VOUT_SS_ID = "0x36"
PSU1_COUT_SS_ID = "0x37"
PSU1_POUT_SS_ID = "0x38"
PSU1_STATUS_REG = "0x39"

PSU2_VOUT_SS_ID = "0x40"
PSU2_COUT_SS_ID = "0x41"
PSU2_POUT_SS_ID = "0x42"
PSU2_STATUS_REG = "0x2f"

PSU1_FRU_ID = 3

SS_READ_OFFSET = 0


class Psu(PsuBase):
    """Platform-specific Psu class"""

    def __init__(self, psu_index):
        PsuBase.__init__(self)
        self.index = psu_index
        for fan_index in range(0, PSU_NUM_FAN[self.index]):
            fan = Fan(fan_index, 0, is_psu_fan=True, psu_index=self.index)
            self._fan_list.append(fan)
        self._api_helper = APIHelper()

    def find_value(self, in_string):
        result = re.search("^.+ ([0-9a-f]{2}) .+$", in_string)
        return result.group(1) if result else result

    def get_voltage(self):
        """
        Retrieves current PSU voltage output
        Returns:
            A float number, the output voltage in volts,
            e.g. 12.1
        """
        psu_voltage = 0.0
        psu_vout_key = globals()['PSU{}_VOUT_SS_ID'.format(self.index+1)]
        status, raw_ss_read = self._api_helper.ipmi_raw(
            IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_vout_key))
        ss_read = raw_ss_read.split()[SS_READ_OFFSET]
        # Formula: Rx1x10^-1
        psu_voltage = int(ss_read, 16) * math.pow(10, -1)

        return psu_voltage

    def get_current(self):
        """
        Retrieves present electric current supplied by PSU
        Returns:
            A float number, the electric current in amperes, e.g 15.4
        """
        psu_current = 0.0
        psu_cout_key = globals()['PSU{}_COUT_SS_ID'.format(self.index+1)]
        status, raw_ss_read = self._api_helper.ipmi_raw(
            IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_cout_key))
        ss_read = raw_ss_read.split()[SS_READ_OFFSET]
        # Formula: Rx5x10^-1
        psu_current = int(ss_read, 16) * 5 * math.pow(10, -1)

        return psu_current

    def get_power(self):
        """
        Retrieves current energy supplied by PSU
        Returns:
            A float number, the power in watts, e.g. 302.6
        """
        psu_power = 0.0
        psu_pout_key = globals()['PSU{}_POUT_SS_ID'.format(self.index+1)]
        status, raw_ss_read = self._api_helper.ipmi_raw(
            IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_pout_key))
        ss_read = raw_ss_read.split()[SS_READ_OFFSET]
        # Formula: Rx6x10^0
        psu_power = int(ss_read, 16) * 6
        return psu_power

    def get_powergood_status(self):
        """
        Retrieves the powergood status of PSU
        Returns:
            A boolean, True if PSU has stablized its output voltages and passed all
            its internal self-tests, False if not.
        """
        return self.get_status()

    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
                   Note: Only support green and off
        Returns:
            bool: True if status LED state is set successfully, False if not
        Note
            Set manual
            ipmitool raw 0x3a 0x09 0x2 0x0
        """
        led_cmd = {
            self.STATUS_LED_COLOR_GREEN: PSU_LED_GREEN_CMD,
            self.STATUS_LED_COLOR_AMBER: PSU_LED_AMBER_CMD,
            self.STATUS_LED_COLOR_OFF: PSU_LED_OFF_CMD
        }.get(color)

        status, set_led = self._api_helper.ipmi_raw(
            IPMI_OEM_NETFN, IPMI_SET_PSU_LED_CMD.format(led_cmd))
        set_status_led = False if not status else True

        return set_status_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
        """
        status, hx_color = self._api_helper.ipmi_raw(
            IPMI_OEM_NETFN, IPMI_GET_PSU_LED_CMD)

        status_led = {
            "00": self.STATUS_LED_COLOR_OFF,
            "01": self.STATUS_LED_COLOR_GREEN,
            "02": self.STATUS_LED_COLOR_AMBER,
        }.get(hx_color, self.STATUS_LED_COLOR_OFF)

        return status_led

    def get_name(self):
        """
        Retrieves the name of the device
            Returns:
            string: The name of the device
        """
        return PSU_NAME_LIST[self.index]

    def get_presence(self):
        """
        Retrieves the presence of the PSU
        Returns:
            bool: True if PSU is present, False if not
        """
        psu_presence = False
        psu_pstatus_key = globals()['PSU{}_STATUS_REG'.format(self.index+1)]
        status, raw_status_read = self._api_helper.ipmi_raw(
            IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_pstatus_key))
        status_byte = self.find_value(raw_status_read)

        if status:
            presence_int = (int(status_byte, 16) >> 0) & 1
            psu_presence = True if presence_int else False

        return psu_presence

    def get_model(self):
        """
        Retrieves the model number (or part number) of the device
        Returns:
            string: Model/part number of device
        """
        model = "Unknown"
        ipmi_fru_idx = self.index + PSU1_FRU_ID
        status, raw_model = self._api_helper.ipmi_fru_id(
            ipmi_fru_idx, IPMI_FRU_MODEL_KEY)

        fru_pn_list = raw_model.split()
        if len(fru_pn_list) > 4:
            model = fru_pn_list[4]

        return model

    def get_serial(self):
        """
        Retrieves the serial number of the device
        Returns:
            string: Serial number of device
        """
        serial = "Unknown"
        ipmi_fru_idx = self.index + PSU1_FRU_ID
        status, raw_model = self._api_helper.ipmi_fru_id(
            ipmi_fru_idx, IPMI_FRU_SERIAL_KEY)

        fru_sr_list = raw_model.split()
        if len(fru_sr_list) > 3:
            serial = fru_sr_list[3]

        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
        """
        psu_status = False
        psu_pstatus_key = globals()['PSU{}_STATUS_REG'.format(self.index+1)]
        status, raw_status_read = self._api_helper.ipmi_raw(
            IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_pstatus_key))
        status_byte = self.find_value(raw_status_read)

        if status:
            failure_detected = (int(status_byte, 16) >> 1) & 1
            input_lost = (int(status_byte, 16) >> 3) & 1
            psu_status = False if (input_lost or failure_detected) else True            

        return psu_status
[platform/device] - Implement Silverstone platform API [PSU] (#3784) Implement part of the Chassis and Fan related APIs. Psu APIs get_voltage() get_current() get_power() get_powergood_status() set_status_led() get_status_led() Update Fan APIs to support PSU FAN get_direction() get_speed() get_target_speed() get_speed_tolerance() get_target_speed() PSU APIs base on Device API get_name() get_presence() get_model() get_serial() get_status() - How I did it Implement PSU APIs Update FAN API to support PSU Fans Add PSU object to Chassis API 2019-12-04 21:00:13 -06:00			`#!/usr/bin/env python`

			`#############################################################################`
			`# Celestica`
			`#`
			`# Module contains an implementation of SONiC Platform Base API and`
			`# provides the PSUs status which are available in the platform`
			`#`
			`#############################################################################`

			`import os`
			`import re`
			`import math`
			`import sonic_platform`

			`try:`
			`from sonic_platform_base.psu_base import PsuBase`
			`from helper import APIHelper`
			`from sonic_platform.fan import Fan`
			`except ImportError as e:`
			`raise ImportError(str(e) + "- required module not found")`

			`PSU_NAME_LIST = ["PSU-1", "PSU-2"]`
			`PSU_NUM_FAN = [1, 1]`

			`IPMI_SENSOR_NETFN = "0x04"`
			`IPMI_OEM_NETFN = "0x3A"`
			`IPMI_SS_READ_CMD = "0x2D {}"`
			`IPMI_SET_PSU_LED_CMD = "0x07 0x02 {}"`
			`IPMI_GET_PSU_LED_CMD = "0x08 0x02"`
			`IPMI_FRU_MODEL_KEY = "Board Part Number"`
			`IPMI_FRU_SERIAL_KEY = "Board Serial"`

			`PSU_LED_OFF_CMD = "0x00"`
			`PSU_LED_GREEN_CMD = "0x01"`
			`PSU_LED_AMBER_CMD = "0x02"`

			`PSU1_VOUT_SS_ID = "0x36"`
			`PSU1_COUT_SS_ID = "0x37"`
			`PSU1_POUT_SS_ID = "0x38"`
			`PSU1_STATUS_REG = "0x39"`

			`PSU2_VOUT_SS_ID = "0x40"`
			`PSU2_COUT_SS_ID = "0x41"`
			`PSU2_POUT_SS_ID = "0x42"`
			`PSU2_STATUS_REG = "0x2f"`

			`PSU1_FRU_ID = 3`

			`SS_READ_OFFSET = 0`


			`class Psu(PsuBase):`
			`"""Platform-specific Psu class"""`

			`def __init__(self, psu_index):`
			`PsuBase.__init__(self)`
			`self.index = psu_index`
			`for fan_index in range(0, PSU_NUM_FAN[self.index]):`
			`fan = Fan(fan_index, 0, is_psu_fan=True, psu_index=self.index)`
			`self._fan_list.append(fan)`
			`self._api_helper = APIHelper()`

			`def find_value(self, in_string):`
			`result = re.search("^.+ ([0-9a-f]{2}) .+$", in_string)`
			`return result.group(1) if result else result`

			`def get_voltage(self):`
			`"""`
			`Retrieves current PSU voltage output`
			`Returns:`
			`A float number, the output voltage in volts,`
			`e.g. 12.1`
			`"""`
			`psu_voltage = 0.0`
			`psu_vout_key = globals()['PSU{}_VOUT_SS_ID'.format(self.index+1)]`
			`status, raw_ss_read = self._api_helper.ipmi_raw(`
			`IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_vout_key))`
			`ss_read = raw_ss_read.split()[SS_READ_OFFSET]`
			`# Formula: Rx1x10^-1`
			`psu_voltage = int(ss_read, 16) * math.pow(10, -1)`

			`return psu_voltage`

			`def get_current(self):`
			`"""`
			`Retrieves present electric current supplied by PSU`
			`Returns:`
			`A float number, the electric current in amperes, e.g 15.4`
			`"""`
			`psu_current = 0.0`
			`psu_cout_key = globals()['PSU{}_COUT_SS_ID'.format(self.index+1)]`
			`status, raw_ss_read = self._api_helper.ipmi_raw(`
			`IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_cout_key))`
			`ss_read = raw_ss_read.split()[SS_READ_OFFSET]`
			`# Formula: Rx5x10^-1`
			`psu_current = int(ss_read, 16) * 5 * math.pow(10, -1)`

			`return psu_current`

			`def get_power(self):`
			`"""`
			`Retrieves current energy supplied by PSU`
			`Returns:`
			`A float number, the power in watts, e.g. 302.6`
			`"""`
			`psu_power = 0.0`
			`psu_pout_key = globals()['PSU{}_POUT_SS_ID'.format(self.index+1)]`
			`status, raw_ss_read = self._api_helper.ipmi_raw(`
			`IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_pout_key))`
			`ss_read = raw_ss_read.split()[SS_READ_OFFSET]`
			`# Formula: Rx6x10^0`
			`psu_power = int(ss_read, 16) * 6`
			`return psu_power`

			`def get_powergood_status(self):`
			`"""`
			`Retrieves the powergood status of PSU`
			`Returns:`
			`A boolean, True if PSU has stablized its output voltages and passed all`
			`its internal self-tests, False if not.`
			`"""`
			`return self.get_status()`

			`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`
			`Note: Only support green and off`
			`Returns:`
			`bool: True if status LED state is set successfully, False if not`
			`Note`
			`Set manual`
			`ipmitool raw 0x3a 0x09 0x2 0x0`
			`"""`
			`led_cmd = {`
			`self.STATUS_LED_COLOR_GREEN: PSU_LED_GREEN_CMD,`
			`self.STATUS_LED_COLOR_AMBER: PSU_LED_AMBER_CMD,`
			`self.STATUS_LED_COLOR_OFF: PSU_LED_OFF_CMD`
			`}.get(color)`

			`status, set_led = self._api_helper.ipmi_raw(`
			`IPMI_OEM_NETFN, IPMI_SET_PSU_LED_CMD.format(led_cmd))`
			`set_status_led = False if not status else True`

			`return set_status_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`
			`"""`
			`status, hx_color = self._api_helper.ipmi_raw(`
			`IPMI_OEM_NETFN, IPMI_GET_PSU_LED_CMD)`

			`status_led = {`
			`"00": self.STATUS_LED_COLOR_OFF,`
			`"01": self.STATUS_LED_COLOR_GREEN,`
			`"02": self.STATUS_LED_COLOR_AMBER,`
			`}.get(hx_color, self.STATUS_LED_COLOR_OFF)`

			`return status_led`

			`def get_name(self):`
			`"""`
			`Retrieves the name of the device`
			`Returns:`
			`string: The name of the device`
			`"""`
			`return PSU_NAME_LIST[self.index]`

			`def get_presence(self):`
			`"""`
			`Retrieves the presence of the PSU`
			`Returns:`
			`bool: True if PSU is present, False if not`
			`"""`
			`psu_presence = False`
			`psu_pstatus_key = globals()['PSU{}_STATUS_REG'.format(self.index+1)]`
			`status, raw_status_read = self._api_helper.ipmi_raw(`
			`IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_pstatus_key))`
			`status_byte = self.find_value(raw_status_read)`

			`if status:`
			`presence_int = (int(status_byte, 16) >> 0) & 1`
			`psu_presence = True if presence_int else False`

			`return psu_presence`

			`def get_model(self):`
			`"""`
			`Retrieves the model number (or part number) of the device`
			`Returns:`
			`string: Model/part number of device`
			`"""`
			`model = "Unknown"`
			`ipmi_fru_idx = self.index + PSU1_FRU_ID`
			`status, raw_model = self._api_helper.ipmi_fru_id(`
			`ipmi_fru_idx, IPMI_FRU_MODEL_KEY)`

			`fru_pn_list = raw_model.split()`
			`if len(fru_pn_list) > 4:`
			`model = fru_pn_list[4]`

			`return model`

			`def get_serial(self):`
			`"""`
			`Retrieves the serial number of the device`
			`Returns:`
			`string: Serial number of device`
			`"""`
			`serial = "Unknown"`
			`ipmi_fru_idx = self.index + PSU1_FRU_ID`
			`status, raw_model = self._api_helper.ipmi_fru_id(`
			`ipmi_fru_idx, IPMI_FRU_SERIAL_KEY)`

			`fru_sr_list = raw_model.split()`
			`if len(fru_sr_list) > 3:`
			`serial = fru_sr_list[3]`

			`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`
			`"""`
			`psu_status = False`
			`psu_pstatus_key = globals()['PSU{}_STATUS_REG'.format(self.index+1)]`
			`status, raw_status_read = self._api_helper.ipmi_raw(`
			`IPMI_SENSOR_NETFN, IPMI_SS_READ_CMD.format(psu_pstatus_key))`
			`status_byte = self.find_value(raw_status_read)`

			`if status:`
			`failure_detected = (int(status_byte, 16) >> 1) & 1`
			`input_lost = (int(status_byte, 16) >> 3) & 1`
			`psu_status = False if (input_lost or failure_detected) else True`

			`return psu_status`