304c6c80c4
* [BFN] Updated platform.json for wedge100bf_65x Signed-off-by: Andriy Kokhan <andriyx.kokhan@intel.com> * Reworked BFN platform thermal logic * Implemented PSU thermal APIs * Updated platform.json for accton_wedge100bf_32x Signed-off-by: Andriy Kokhan <andriyx.kokhan@intel.com> * Updated BFN platform plugins initialization flow Signed-off-by: Andriy Kokhan <andriyx.kokhan@intel.com> Signed-off-by: Andriy Kokhan <andriyx.kokhan@intel.com>
370 lines
11 KiB
Python
370 lines
11 KiB
Python
#!/usr/bin/env python
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try:
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import os
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import time
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import syslog
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import logging
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import logging.config
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import yaml
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from sonic_platform_base.chassis_base import ChassisBase
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from sonic_platform.sfp import Sfp
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from sonic_platform.psu import psu_list_get
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from sonic_platform.fan_drawer import fan_drawer_list_get
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from sonic_platform.thermal import chassis_thermals_list_get
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from sonic_platform.platform_utils import file_create
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from sonic_platform.eeprom import Eeprom
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from sonic_platform.platform_thrift_client import pltfm_mgr_ready
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from sonic_platform.platform_thrift_client import thrift_try
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from sonic_py_common import device_info
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except ImportError as e:
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raise ImportError(str(e) + "- required module not found")
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NUM_COMPONENT = 2
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class Chassis(ChassisBase):
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"""
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Platform-specific Chassis class
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"""
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PORT_START = 1
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PORT_END = 0
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PORTS_IN_BLOCK = 0
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QSFP_PORT_START = 1
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QSFP_PORT_END = 0
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QSFP_CHECK_INTERVAL = 4
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def __init__(self):
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ChassisBase.__init__(self)
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self.__eeprom = None
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self.__tlv_bin_eeprom = None
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self.__tlv_dict_eeprom = None
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self.__fan_drawers = None
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self.__fan_list = None
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self.__thermals = None
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self.__psu_list = None
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self.__sfp_list = None
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self.ready = False
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self.phy_port_cur_state = {}
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self.qsfp_interval = self.QSFP_CHECK_INTERVAL
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self.__initialize_components()
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with open(os.path.dirname(__file__) + "/logging.conf", 'r') as f:
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config_dict = yaml.load(f, yaml.SafeLoader)
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file_create(config_dict['handlers']['file']['filename'], '646')
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logging.config.dictConfig(config_dict)
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@property
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def _eeprom(self):
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if self.__eeprom is None:
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self.__eeprom = Eeprom()
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return self.__eeprom
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@_eeprom.setter
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def _eeprom(self, value):
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pass
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@property
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def _tlv_bin_eeprom(self):
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if self.__tlv_bin_eeprom is None:
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self.__tlv_bin_eeprom = self._eeprom.get_raw_data()
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return self.__tlv_bin_eeprom
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@property
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def _tlv_dict_eeprom(self):
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if self.__tlv_dict_eeprom is None:
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self.__tlv_dict_eeprom = self._eeprom.get_data()
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return self.__tlv_dict_eeprom
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@property
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def _fan_drawer_list(self):
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if self.__fan_drawers is None:
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self.__fan_drawers = fan_drawer_list_get()
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return self.__fan_drawers
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@_fan_drawer_list.setter
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def _fan_drawer_list(self, value):
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pass
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@property
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def _fan_list(self):
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if self.__fan_list is None:
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self.__fan_list = []
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for fan_drawer in self._fan_drawer_list:
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self.__fan_list.extend(fan_drawer._fan_list)
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return self.__fan_list
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@_fan_list.setter
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def _fan_list(self, value):
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pass
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@property
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def _thermal_list(self):
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if self.__thermals is None:
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self.__thermals = chassis_thermals_list_get()
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return self.__thermals
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@_thermal_list.setter
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def _thermal_list(self, value):
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pass
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@property
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def _psu_list(self):
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if self.__psu_list is None:
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self.__psu_list = psu_list_get()
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return self.__psu_list
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@_psu_list.setter
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def _psu_list(self, value):
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pass
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@property
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def _sfp_list(self):
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if self.__sfp_list is None:
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self.__update_port_info()
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self.__sfp_list = []
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for index in range(self.PORT_START, self.PORT_END + 1):
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sfp_node = Sfp(index)
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self.__sfp_list.append(sfp_node)
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return self.__sfp_list
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@_sfp_list.setter
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def _sfp_list(self, value):
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pass
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def __update_port_info(self):
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def qsfp_max_port_get(client):
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return client.pltfm_mgr.pltfm_mgr_qsfp_get_max_port()
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if self.QSFP_PORT_END == 0:
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platform = device_info.get_platform()
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self.QSFP_PORT_END = thrift_try(qsfp_max_port_get)
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exclude_cpu_port = [
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"x86_64-accton_as9516_32d-r0",
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"x86_64-accton_as9516bf_32d-r0",
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"x86_64-accton_wedge100bf_32x-r0"
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]
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if platform in exclude_cpu_port:
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self.QSFP_PORT_END -= 1
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self.PORT_END = self.QSFP_PORT_END
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self.PORTS_IN_BLOCK = self.QSFP_PORT_END
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def __initialize_components(self):
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from sonic_platform.component import Components
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for index in range(0, NUM_COMPONENT):
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component = Components(index)
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self._component_list.append(component)
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def get_name(self):
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"""
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Retrieves the name of the chassis
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Returns:
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string: The name of the chassis
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"""
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return self._eeprom.modelstr(self._tlv_bin_eeprom)
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def get_presence(self):
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"""
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Retrieves the presence of the chassis
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Returns:
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bool: True if chassis is present, False if not
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"""
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return True
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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 chassis
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Returns:
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string: Model/part number of chassis
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"""
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return self._eeprom.part_number_str(self._tlv_bin_eeprom)
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def get_serial(self):
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"""
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Retrieves the serial number of the chassis (Service tag)
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Returns:
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string: Serial number of chassis
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"""
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return self._eeprom.serial_number_str(self._tlv_bin_eeprom)
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def get_revision(self):
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"""
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Retrieves the revision number of the chassis (Service tag)
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Returns:
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string: Revision number of chassis
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"""
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return self._tlv_dict_eeprom.get(
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"0x{:X}".format(Eeprom._TLV_CODE_LABEL_REVISION), 'N/A')
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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, 0 for Ethernet0, 1 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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try:
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sfp = self._sfp_list[index-1]
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except IndexError:
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syslog.syslog(syslog.LOG_ERR, "SFP index {} out of range (1-{})\n".format(
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index, len(self._sfp_list)-1))
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return sfp
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def get_status(self):
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"""
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Retrieves the operational status of the chassis
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Returns:
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bool: A boolean value, True if chassis is operating properly
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False if not
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"""
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return True
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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.base_mac_addr(self._tlv_bin_eeprom)
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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._tlv_dict_eeprom
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def __get_transceiver_change_event(self, timeout=0):
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forever = False
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if timeout == 0:
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forever = True
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elif timeout > 0:
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timeout = timeout / float(1000) # Convert to secs
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else:
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syslog.syslog(syslog.LOG_ERR, "Invalid timeout value {}".format(timeout))
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return False, {}
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phy_port_dict = {} if self.ready else {'-1': 'system_not_ready'}
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while forever or timeout > 0:
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if not self.ready:
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if pltfm_mgr_ready():
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self.ready = True
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phy_port_dict = {}
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if self.ready and self.qsfp_interval == 0:
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self.qsfp_interval = self.QSFP_CHECK_INTERVAL
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# Get presence of each SFP
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for port in range(self.PORT_START, self.PORT_END + 1):
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try:
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sfp_resent = self.get_sfp(port).get_presence()
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except Exception:
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sfp_resent = False
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sfp_state = '1' if sfp_resent else '0'
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if port in self.phy_port_cur_state:
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if self.phy_port_cur_state[port] != sfp_state:
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phy_port_dict[port] = sfp_state
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else:
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phy_port_dict[port] = sfp_state
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# Update port current state
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self.phy_port_cur_state[port] = sfp_state
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# Break if tranceiver state has changed
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if phy_port_dict:
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break
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if timeout:
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timeout -= 1
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if self.qsfp_interval:
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self.qsfp_interval -= 1
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time.sleep(1)
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return self.ready, phy_port_dict
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def get_change_event(self, timeout=0):
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ready, event_sfp = self.__get_transceiver_change_event(timeout)
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return ready, { 'sfp': event_sfp } if ready else {}
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def get_reboot_cause(self):
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"""
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Retrieves the cause of the previous reboot
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Returns:
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A tuple (string, string) where the first element is a string
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containing the cause of the previous reboot. This string must be
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one of the predefined strings in this class. If the first string
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is "REBOOT_CAUSE_HARDWARE_OTHER", the second string can be used
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to pass a description of the reboot cause.
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"""
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return self.REBOOT_CAUSE_NON_HARDWARE, ''
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def get_position_in_parent(self):
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"""
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Retrieves 1-based relative physical position in parent device. If the agent cannot determine the parent-relative position
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for some reason, or if the associated value of entPhysicalContainedIn is '0', then the value '-1' is returned
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Returns:
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integer: The 1-based relative physical position in parent device or -1 if cannot determine the position
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"""
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return -1
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def is_replaceable(self):
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"""
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Indicate whether this device is replaceable.
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Returns:
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bool: True if it is replaceable.
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"""
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return False
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def initizalize_system_led(self):
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self.system_led = ""
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return True
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def set_status_led(self, color):
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"""
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Sets the state of the system LED
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Args:
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color: A string representing the color with which to set the
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system LED
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Returns:
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bool: True if system LED state is set successfully, False if not
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"""
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self.system_led = color
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return True
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def get_status_led(self):
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"""
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Gets the state of the system LED
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Returns:
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A string, one of the valid LED color strings which could be vendor
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specified.
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"""
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return self.system_led
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