147bf240f0
#### Why I did it Currently, SONiC use a single value to represent SFP error, however, multiple SFP errors could exist at the same time. This PR is aimed to support it #### How I did it Return bitmap instead of single value when a SFP event occurs Signed-off-by: Stephen Sun <stephens@nvidia.com>
652 lines
24 KiB
Python
652 lines
24 KiB
Python
#############################################################################
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# Mellanox
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#
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# Module contains an implementation of SONiC Platform Base API and
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# provides the Chassis information which are available in the platform
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#
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#############################################################################
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try:
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from sonic_platform_base.chassis_base import ChassisBase
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from sonic_platform_base.component_base import ComponentBase
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from sonic_py_common import device_info
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from sonic_py_common.logger import Logger
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from os import listdir
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from os.path import isfile, join
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import sys
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import io
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import re
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import syslog
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except ImportError as e:
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raise ImportError (str(e) + "- required module not found")
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MAX_SELECT_DELAY = 3600
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MLNX_NUM_PSU = 2
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DMI_FILE = '/sys/firmware/dmi/entries/2-0/raw'
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DMI_HEADER_LEN = 15
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DMI_PRODUCT_NAME = "Product Name"
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DMI_MANUFACTURER = "Manufacturer"
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DMI_VERSION = "Version"
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DMI_SERIAL = "Serial Number"
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DMI_ASSET_TAG = "Asset Tag"
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DMI_LOC = "Location In Chassis"
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DMI_TABLE_MAP = {
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DMI_PRODUCT_NAME: 0,
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DMI_MANUFACTURER: 1,
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DMI_VERSION: 2,
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DMI_SERIAL: 3,
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DMI_ASSET_TAG: 4,
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DMI_LOC: 5
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}
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EEPROM_CACHE_ROOT = '/var/cache/sonic/decode-syseeprom'
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EEPROM_CACHE_FILE = 'syseeprom_cache'
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HWMGMT_SYSTEM_ROOT = '/var/run/hw-management/system/'
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MST_DEVICE_NAME_PATTERN = '/dev/mst/mt[0-9]*_pciconf0'
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MST_DEVICE_RE_PATTERN = '/dev/mst/mt([0-9]*)_pciconf0'
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SPECTRUM1_CHIP_ID = '52100'
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#reboot cause related definitions
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REBOOT_CAUSE_ROOT = HWMGMT_SYSTEM_ROOT
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REBOOT_CAUSE_FILE_LENGTH = 1
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# Global logger class instance
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logger = Logger()
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# magic code defnition for port number, qsfp port position of each Platform
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# port_position_tuple = (PORT_START, QSFP_PORT_START, PORT_END, PORT_IN_BLOCK, EEPROM_OFFSET)
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platform_dict_port = {'x86_64-mlnx_msn2010-r0': 3, 'x86_64-mlnx_msn2100-r0': 1, 'x86_64-mlnx_msn2410-r0': 2,
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'x86_64-mlnx_msn2700-r0': 0, 'x86_64-mlnx_lssn2700': 0, 'x86_64-mlnx_msn2740-r0': 0,
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'x86_64-mlnx_msn3420-r0': 5, 'x86_64-mlnx_msn3700-r0': 0, 'x86_64-mlnx_msn3700c-r0': 0,
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'x86_64-mlnx_msn3800-r0': 4, 'x86_64-mlnx_msn4600-r0': 4, 'x86_64-mlnx_msn4600c-r0': 4,
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'x86_64-mlnx_msn4700-r0': 0, 'x86_64-mlnx_msn4410-r0': 0}
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port_position_tuple_list = [(0, 0, 31, 32, 1), (0, 0, 15, 16, 1), (0, 48, 55, 56, 1), (0, 18, 21, 22, 1), (0, 0, 63, 64, 1), (0, 48, 59, 60, 1)]
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class Chassis(ChassisBase):
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"""Platform-specific Chassis class"""
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# System status LED
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_led = None
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def __init__(self):
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super(Chassis, self).__init__()
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self.name = "Undefined"
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self.model = "Undefined"
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# Initialize Platform name
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self.platform_name = device_info.get_platform()
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# Initialize DMI data
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self.dmi_data = None
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# move the initialization of each components to their dedicated initializer
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# which will be called from platform
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#
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# Multiple scenarios need to be taken into consideration regarding the SFP modules initialization.
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# - Platform daemons
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# - Can access multiple or all SFP modules
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# - sfputil
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# - Sometimes can access only one SFP module
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# - Call get_sfp to get one SFP module object
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#
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# We should initialize all SFP modules only if it is necessary because initializing SFP module is time-consuming.
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# This means,
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# - If get_sfp is called,
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# - If the _sfp_list isn't initialized, initialize it first.
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# - Only the SFP module being required should be initialized.
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# - If get_all_sfps is called,
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# - If the _sfp_list isn't initialized, initialize it first.
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# - All SFP modules need to be initialized.
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# But the SFP modules that have already been initialized should not be initialized for the second time.
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# This can caused by get_sfp being called before.
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#
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# Due to the complexity of SFP modules initialization, we have to introduce two initialized flags for SFP modules
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# - sfp_module_partial_initialized:
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# - False: The _sfp_list is [] (SFP stuff has never been accessed)
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# - True: The _sfp_list is a list whose length is number of SFP modules supported by the platform
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# - sfp_module_full_initialized:
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# - False: All SFP modules have not been created
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# - True: All SFP modules have been created
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#
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self.sfp_module_partial_initialized = False
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self.sfp_module_full_initialized = False
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self.sfp_event_initialized = False
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self.reboot_cause_initialized = False
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self.sdk_handle = None
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self.deinitialize_sdk_handle = None
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logger.log_info("Chassis loaded successfully")
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def __del__(self):
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if self.sfp_event_initialized:
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self.sfp_event.deinitialize()
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if self.deinitialize_sdk_handle:
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self.deinitialize_sdk_handle(self.sdk_handle)
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def initialize_psu(self):
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from sonic_platform.psu import Psu
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# Initialize PSU list
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self.psu_module = Psu
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for index in range(MLNX_NUM_PSU):
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psu = Psu(index, self.platform_name)
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self._psu_list.append(psu)
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def initialize_fan(self):
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from .device_data import DEVICE_DATA
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from sonic_platform.fan import Fan
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from .fan_drawer import RealDrawer, VirtualDrawer
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fan_data = DEVICE_DATA[self.platform_name]['fans']
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drawer_num = fan_data['drawer_num']
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drawer_type = fan_data['drawer_type']
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fan_num_per_drawer = fan_data['fan_num_per_drawer']
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drawer_ctor = RealDrawer if drawer_type == 'real' else VirtualDrawer
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fan_index = 0
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for drawer_index in range(drawer_num):
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drawer = drawer_ctor(drawer_index, fan_data)
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self._fan_drawer_list.append(drawer)
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for index in range(fan_num_per_drawer):
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fan = Fan(fan_index, drawer, index + 1)
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fan_index += 1
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drawer._fan_list.append(fan)
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def initialize_single_sfp(self, index):
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if not self._sfp_list[index]:
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if index >= self.QSFP_PORT_START and index < self.PORTS_IN_BLOCK:
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sfp_module = self.sfp_module(index, 'QSFP', self.get_sdk_handle, self.platform_name)
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else:
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sfp_module = self.sfp_module(index, 'SFP', self.get_sdk_handle, self.platform_name)
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self._sfp_list[index] = sfp_module
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def initialize_sfp(self, index=None):
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from sonic_platform.sfp import SFP
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self.sfp_module = SFP
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# Initialize SFP list
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port_position_tuple = self._get_port_position_tuple_by_platform_name()
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self.PORT_START = port_position_tuple[0]
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self.QSFP_PORT_START = port_position_tuple[1]
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self.PORT_END = port_position_tuple[2]
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self.PORTS_IN_BLOCK = port_position_tuple[3]
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if index is not None:
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if not self.sfp_module_partial_initialized:
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if index >= self.PORT_START and index < self.PORT_END:
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self._sfp_list = list([None]*(self.PORT_END + 1))
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else:
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raise IndexError("{} is not a valid index of SPF modules. Valid index range:[{}, {}]".format(
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index, self.PORT_START + 1, self.PORT_END + 1))
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self.sfp_module_partial_initialized = True
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else:
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if not self.sfp_module_partial_initialized:
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self._sfp_list = list([None]*(self.PORT_END + 1))
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self.sfp_module_partial_initialized = True
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for index in range(self.PORT_START, self.PORT_END + 1):
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self.initialize_single_sfp(index)
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self.sfp_module_full_initialized = True
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def get_sdk_handle(self):
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if not self.sdk_handle:
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from sonic_platform.sfp import initialize_sdk_handle, deinitialize_sdk_handle
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self.sdk_handle = initialize_sdk_handle()
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if self.sdk_handle is None:
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logger.log_error('Failed to open SDK handle')
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else:
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self.deinitialize_sdk_handle = deinitialize_sdk_handle
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return self.sdk_handle
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def initialize_thermals(self):
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from sonic_platform.thermal import initialize_chassis_thermals
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# Initialize thermals
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initialize_chassis_thermals(self.platform_name, self._thermal_list)
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def initialize_eeprom(self):
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from .eeprom import Eeprom
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# Initialize EEPROM
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self._eeprom = Eeprom()
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# Get chassis name and model from eeprom
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self.name = self._eeprom.get_product_name()
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self.model = self._eeprom.get_part_number()
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def initialize_components(self):
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# Initialize component list
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from sonic_platform.component import ComponentONIE, ComponentSSD, ComponentBIOS, ComponentCPLD
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self._component_list.append(ComponentONIE())
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self._component_list.append(ComponentSSD())
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self._component_list.append(ComponentBIOS())
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self._component_list.extend(ComponentCPLD.get_component_list())
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def initizalize_system_led(self):
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from .led import SystemLed
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Chassis._led = SystemLed()
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def get_name(self):
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"""
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Retrieves the name of the device
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Returns:
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string: The name of the device
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"""
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return self.name
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def get_model(self):
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"""
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Retrieves the model number (or part number) of the device
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Returns:
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string: Model/part number of device
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"""
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return self.model
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def get_revision(self):
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"""
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Retrieves the hardware revision of the device
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Returns:
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string: Revision value of device
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"""
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if self.dmi_data is None:
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self.dmi_data = self._parse_dmi(DMI_FILE)
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return self.dmi_data.get(DMI_VERSION, "N/A")
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##############################################
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# SFP methods
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##############################################
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def get_num_sfps(self):
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"""
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Retrieves the number of sfps available on this chassis
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Returns:
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An integer, the number of sfps available on this chassis
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"""
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if not self.sfp_module_full_initialized:
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self.initialize_sfp()
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return len(self._sfp_list)
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def get_all_sfps(self):
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"""
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Retrieves all sfps available on this chassis
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Returns:
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A list of objects derived from SfpBase representing all sfps
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available on this chassis
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"""
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if not self.sfp_module_full_initialized:
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self.initialize_sfp()
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return self._sfp_list
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def get_sfp(self, index):
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"""
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Retrieves sfp represented by (1-based) index <index>
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Args:
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index: An integer, the index (1-based) of the sfp to retrieve.
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The index should be the sequence of a physical port in a chassis,
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starting from 1.
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For example, 1 for Ethernet0, 2 for Ethernet4 and so on.
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Returns:
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An object dervied from SfpBase representing the specified sfp
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"""
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sfp = None
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index -= 1
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try:
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if not self.sfp_module_partial_initialized:
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self.initialize_sfp(index)
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sfp = self._sfp_list[index]
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if not sfp:
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self.initialize_single_sfp(index)
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sfp = self._sfp_list[index]
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except IndexError:
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sys.stderr.write("SFP index {} out of range (0-{})\n".format(
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index, len(self._sfp_list)-1))
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return sfp
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def _extract_num_of_fans_and_fan_drawers(self):
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num_of_fan = 0
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num_of_drawer = 0
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for f in listdir(self.fan_path):
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if isfile(join(self.fan_path, f)):
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match_obj = re.match('fan(\d+)_speed_get', f)
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if match_obj != None:
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if int(match_obj.group(1)) > num_of_fan:
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num_of_fan = int(match_obj.group(1))
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else:
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match_obj = re.match('fan(\d+)_status', f)
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if match_obj != None and int(match_obj.group(1)) > num_of_drawer:
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num_of_drawer = int(match_obj.group(1))
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return num_of_fan, num_of_drawer
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def _get_port_position_tuple_by_platform_name(self):
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position_tuple = port_position_tuple_list[platform_dict_port[self.platform_name]]
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return position_tuple
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def get_watchdog(self):
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"""
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Retrieves hardware watchdog device on this chassis
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Returns:
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An object derived from WatchdogBase representing the hardware
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watchdog device
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Note:
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We overload this method to ensure that watchdog is only initialized
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when it is referenced. Currently, only one daemon can open the watchdog.
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To initialize watchdog in the constructor causes multiple daemon
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try opening watchdog when loading and constructing a chassis object
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and fail. By doing so we can eliminate that risk.
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"""
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try:
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if self._watchdog is None:
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from sonic_platform.watchdog import get_watchdog
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self._watchdog = get_watchdog()
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except Exception as e:
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logger.log_info("Fail to load watchdog due to {}".format(repr(e)))
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return self._watchdog
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def get_base_mac(self):
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"""
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Retrieves the base MAC address for the chassis
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Returns:
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A string containing the MAC address in the format
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'XX:XX:XX:XX:XX:XX'
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"""
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return self._eeprom.get_base_mac()
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def get_serial(self):
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"""
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Retrieves the hardware serial number for the chassis
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Returns:
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A string containing the hardware serial number for this chassis.
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"""
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return self._eeprom.get_serial_number()
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def get_system_eeprom_info(self):
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"""
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Retrieves the full content of system EEPROM information for the chassis
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Returns:
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A dictionary where keys are the type code defined in
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OCP ONIE TlvInfo EEPROM format and values are their corresponding
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values.
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"""
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return self._eeprom.get_system_eeprom_info()
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def _read_generic_file(self, filename, len):
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"""
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Read a generic file, returns the contents of the file
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"""
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result = ''
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try:
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fileobj = io.open(filename)
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result = fileobj.read(len)
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fileobj.close()
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return result
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except Exception as e:
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logger.log_info("Fail to read file {} due to {}".format(filename, repr(e)))
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return '0'
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def _parse_dmi(self, filename):
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"""
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Read DMI data chassis data and returns a dictionary of values
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Returns:
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A dictionary containing the dmi table of the switch chassis info
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"""
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result = {}
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try:
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fileobj = open(filename, "rb")
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data = fileobj.read()
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fileobj.close()
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body = data[DMI_HEADER_LEN:]
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records = body.split(b'\x00')
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for k, v in DMI_TABLE_MAP.items():
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result[k] = records[v].decode("utf-8")
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except Exception as e:
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logger.log_error("Fail to decode DMI {} due to {}".format(filename, repr(e)))
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return result
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def _verify_reboot_cause(self, filename):
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'''
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Open and read the reboot cause file in
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/var/run/hwmanagement/system (which is defined as REBOOT_CAUSE_ROOT)
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If a reboot cause file doesn't exists, returns '0'.
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'''
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return bool(int(self._read_generic_file(join(REBOOT_CAUSE_ROOT, filename), REBOOT_CAUSE_FILE_LENGTH).rstrip('\n')))
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def initialize_reboot_cause(self):
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self.reboot_major_cause_dict = {
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'reset_main_pwr_fail' : self.REBOOT_CAUSE_POWER_LOSS,
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'reset_aux_pwr_or_ref' : self.REBOOT_CAUSE_POWER_LOSS,
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'reset_asic_thermal' : self.REBOOT_CAUSE_THERMAL_OVERLOAD_ASIC,
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'reset_hotswap_or_wd' : self.REBOOT_CAUSE_WATCHDOG,
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'reset_swb_wd' : self.REBOOT_CAUSE_WATCHDOG,
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'reset_sff_wd' : self.REBOOT_CAUSE_WATCHDOG
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}
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self.reboot_minor_cause_dict = {
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'reset_fw_reset' : "Reset by ASIC firmware",
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'reset_long_pb' : "Reset by long press on power button",
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'reset_short_pb' : "Reset by short press on power button",
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'reset_comex_thermal' : "ComEx thermal shutdown",
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'reset_comex_pwr_fail' : "ComEx power fail",
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'reset_comex_wd' : "Reset requested from ComEx",
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'reset_from_asic' : "Reset requested from ASIC",
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'reset_reload_bios' : "Reset caused by BIOS reload",
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'reset_hotswap_or_halt' : "Reset caused by hotswap or halt",
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'reset_from_comex' : "Reset from ComEx",
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'reset_voltmon_upgrade_fail': "Reset due to voltage monitor devices upgrade failure"
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}
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self.reboot_by_software = 'reset_sw_reset'
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self.reboot_cause_initialized = True
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def get_reboot_cause(self):
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"""
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Retrieves the cause of the previous reboot
|
|
|
|
Returns:
|
|
A tuple (string, string) where the first element is a string
|
|
containing the cause of the previous reboot. This string must be
|
|
one of the predefined strings in this class. If the first string
|
|
is "REBOOT_CAUSE_HARDWARE_OTHER", the second string can be used
|
|
to pass a description of the reboot cause.
|
|
"""
|
|
#read reboot causes files in the following order
|
|
if not self.reboot_cause_initialized:
|
|
self.initialize_reboot_cause()
|
|
|
|
for reset_file, reset_cause in self.reboot_major_cause_dict.items():
|
|
if self._verify_reboot_cause(reset_file):
|
|
return reset_cause, ''
|
|
|
|
for reset_file, reset_cause in self.reboot_minor_cause_dict.items():
|
|
if self._verify_reboot_cause(reset_file):
|
|
return self.REBOOT_CAUSE_HARDWARE_OTHER, reset_cause
|
|
|
|
if self._verify_reboot_cause(self.reboot_by_software):
|
|
logger.log_info("Hardware reboot cause: the system was rebooted due to software requesting")
|
|
else:
|
|
logger.log_info("Hardware reboot cause: no hardware reboot cause found")
|
|
|
|
return self.REBOOT_CAUSE_NON_HARDWARE, ''
|
|
|
|
|
|
def _show_capabilities(self):
|
|
"""
|
|
This function is for debug purpose
|
|
Some features require a xSFP module to support some capabilities but it's unrealistic to
|
|
check those modules one by one.
|
|
So this function is introduce to show some capabilities of all xSFP modules mounted on the device.
|
|
"""
|
|
for s in self._sfp_list:
|
|
try:
|
|
print("index {} tx disable {} dom {} calibration {} temp {} volt {} power (tx {} rx {})".format(s.index,
|
|
s.dom_tx_disable_supported,
|
|
s.dom_supported,
|
|
s.calibration,
|
|
s.dom_temp_supported,
|
|
s.dom_volt_supported,
|
|
s.dom_rx_power_supported,
|
|
s.dom_tx_power_supported
|
|
))
|
|
except:
|
|
print("fail to retrieve capabilities for module index {}".format(s.index))
|
|
|
|
|
|
def get_change_event(self, timeout=0):
|
|
"""
|
|
Returns a nested dictionary containing all devices which have
|
|
experienced a change at chassis level
|
|
|
|
Args:
|
|
timeout: Timeout in milliseconds (optional). If timeout == 0,
|
|
this method will block until a change is detected.
|
|
|
|
Returns:
|
|
(bool, dict):
|
|
- True if call successful, False if not;
|
|
- A nested dictionary where key is a device type,
|
|
value is a dictionary with key:value pairs in the format of
|
|
{'device_id':'device_event'},
|
|
where device_id is the device ID for this device and
|
|
device_event,
|
|
status='1' represents device inserted,
|
|
status='0' represents device removed.
|
|
Ex. {'fan':{'0':'0', '2':'1'}, 'sfp':{'11':'0'}}
|
|
indicates that fan 0 has been removed, fan 2
|
|
has been inserted and sfp 11 has been removed.
|
|
"""
|
|
# Initialize SFP event first
|
|
if not self.sfp_event_initialized:
|
|
from sonic_platform.sfp_event import sfp_event
|
|
self.sfp_event = sfp_event()
|
|
self.sfp_event.initialize()
|
|
self.MAX_SELECT_EVENT_RETURNED = self.PORT_END
|
|
self.sfp_event_initialized = True
|
|
|
|
wait_for_ever = (timeout == 0)
|
|
port_dict = {}
|
|
error_dict = {}
|
|
if wait_for_ever:
|
|
timeout = MAX_SELECT_DELAY
|
|
while True:
|
|
status = self.sfp_event.check_sfp_status(port_dict, error_dict, timeout)
|
|
if bool(port_dict):
|
|
break
|
|
else:
|
|
status = self.sfp_event.check_sfp_status(port_dict, error_dict, timeout)
|
|
|
|
if status:
|
|
self.reinit_sfps(port_dict)
|
|
result_dict = {'sfp':port_dict}
|
|
if error_dict:
|
|
result_dict['sfp_error'] = error_dict
|
|
return True, result_dict
|
|
else:
|
|
return True, {'sfp':{}}
|
|
|
|
def reinit_sfps(self, port_dict):
|
|
"""
|
|
Re-initialize SFP if there is any newly inserted SFPs
|
|
:param port_dict: SFP event data
|
|
:return:
|
|
"""
|
|
# SFP not initialize yet, do nothing
|
|
if not self.sfp_module_full_initialized:
|
|
return
|
|
|
|
from . import sfp
|
|
for index, status in port_dict.items():
|
|
if status == sfp.SFP_STATUS_INSERTED:
|
|
try:
|
|
self.get_sfp(index).reinit()
|
|
except Exception as e:
|
|
logger.log_error("Fail to re-initialize SFP {} - {}".format(index, repr(e)))
|
|
|
|
def get_thermal_manager(self):
|
|
from .thermal_manager import ThermalManager
|
|
return ThermalManager
|
|
|
|
def set_status_led(self, color):
|
|
"""
|
|
Sets the state of the system LED
|
|
|
|
Args:
|
|
color: A string representing the color with which to set the
|
|
system LED
|
|
|
|
Returns:
|
|
bool: True if system LED state is set successfully, False if not
|
|
"""
|
|
return False if not Chassis._led else Chassis._led.set_status(color)
|
|
|
|
def get_status_led(self):
|
|
"""
|
|
Gets the state of the system LED
|
|
|
|
Returns:
|
|
A string, one of the valid LED color strings which could be vendor
|
|
specified.
|
|
"""
|
|
return None if not Chassis._led else Chassis._led.get_status()
|
|
|
|
def get_position_in_parent(self):
|
|
"""
|
|
Retrieves 1-based relative physical position in parent device. If the agent cannot determine the parent-relative position
|
|
for some reason, or if the associated value of entPhysicalContainedIn is '0', then the value '-1' is returned
|
|
Returns:
|
|
integer: The 1-based relative physical position in parent device or -1 if cannot determine the position
|
|
"""
|
|
return -1
|
|
|
|
def is_replaceable(self):
|
|
"""
|
|
Indicate whether this device is replaceable.
|
|
Returns:
|
|
bool: True if it is replaceable.
|
|
"""
|
|
return False
|