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main.py
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main.py
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#!/usr/bin/env python3
#
# main.py
#
# Command-line utility for interacting with SFP transceivers within SONiC
#
import os
import sys
import natsort
import ast
import time
import datetime
import subprocess
import click
import sonic_platform
import sonic_platform_base.sonic_sfp.sfputilhelper
from sonic_platform_base.sfp_base import SfpBase
from swsscommon.swsscommon import SonicV2Connector
from natsort import natsorted
from sonic_py_common import device_info, logger, multi_asic
from utilities_common.sfp_helper import covert_application_advertisement_to_output_string
from utilities_common.sfp_helper import QSFP_DATA_MAP
from tabulate import tabulate
from utilities_common.general import load_db_config
VERSION = '3.0'
SYSLOG_IDENTIFIER = "sfputil"
PLATFORM_JSON = 'platform.json'
PORT_CONFIG_INI = 'port_config.ini'
EXIT_FAIL = -1
EXIT_SUCCESS = 0
ERROR_PERMISSIONS = 1
ERROR_CHASSIS_LOAD = 2
ERROR_SFPUTILHELPER_LOAD = 3
ERROR_PORT_CONFIG_LOAD = 4
ERROR_NOT_IMPLEMENTED = 5
ERROR_INVALID_PORT = 6
SMBUS_BLOCK_WRITE_SIZE = 32
# Default host password as per CMIS spec:
# http://www.qsfp-dd.com/wp-content/uploads/2021/05/CMIS5p0.pdf
CDB_DEFAULT_HOST_PASSWORD = 0x00001011
MAX_LPL_FIRMWARE_BLOCK_SIZE = 116 #Bytes
PAGE_SIZE = 128
PAGE_OFFSET = 128
SFF8472_A0_SIZE = 256
# TODO: We should share these maps and the formatting functions between sfputil and sfpshow
QSFP_DD_DATA_MAP = {
'model': 'Vendor PN',
'vendor_oui': 'Vendor OUI',
'vendor_date': 'Vendor Date Code(YYYY-MM-DD Lot)',
'manufacturer': 'Vendor Name',
'vendor_rev': 'Vendor Rev',
'serial': 'Vendor SN',
'type': 'Identifier',
'ext_identifier': 'Extended Identifier',
'ext_rateselect_compliance': 'Extended RateSelect Compliance',
'cable_length': 'cable_length',
'cable_type': 'Length',
'nominal_bit_rate': 'Nominal Bit Rate(100Mbs)',
'specification_compliance': 'Specification compliance',
'encoding': 'Encoding',
'connector': 'Connector',
'application_advertisement': 'Application Advertisement',
'hardware_rev': 'Hardware Revision',
'media_interface_code': 'Media Interface Code',
'host_electrical_interface': 'Host Electrical Interface',
'host_lane_count': 'Host Lane Count',
'media_lane_count': 'Media Lane Count',
'host_lane_assignment_option': 'Host Lane Assignment Options',
'media_lane_assignment_option': 'Media Lane Assignment Options',
'active_apsel_hostlane1': 'Active App Selection Host Lane 1',
'active_apsel_hostlane2': 'Active App Selection Host Lane 2',
'active_apsel_hostlane3': 'Active App Selection Host Lane 3',
'active_apsel_hostlane4': 'Active App Selection Host Lane 4',
'active_apsel_hostlane5': 'Active App Selection Host Lane 5',
'active_apsel_hostlane6': 'Active App Selection Host Lane 6',
'active_apsel_hostlane7': 'Active App Selection Host Lane 7',
'active_apsel_hostlane8': 'Active App Selection Host Lane 8',
'media_interface_technology': 'Media Interface Technology',
'cmis_rev': 'CMIS Revision',
'supported_max_tx_power': 'Supported Max TX Power',
'supported_min_tx_power': 'Supported Min TX Power',
'supported_max_laser_freq': 'Supported Max Laser Frequency',
'supported_min_laser_freq': 'Supported Min Laser Frequency'
}
SFP_DOM_CHANNEL_MONITOR_MAP = {
'rx1power': 'RXPower',
'tx1bias': 'TXBias',
'tx1power': 'TXPower'
}
SFP_DOM_CHANNEL_THRESHOLD_MAP = {
'txpowerhighalarm': 'TxPowerHighAlarm',
'txpowerlowalarm': 'TxPowerLowAlarm',
'txpowerhighwarning': 'TxPowerHighWarning',
'txpowerlowwarning': 'TxPowerLowWarning',
'rxpowerhighalarm': 'RxPowerHighAlarm',
'rxpowerlowalarm': 'RxPowerLowAlarm',
'rxpowerhighwarning': 'RxPowerHighWarning',
'rxpowerlowwarning': 'RxPowerLowWarning',
'txbiashighalarm': 'TxBiasHighAlarm',
'txbiaslowalarm': 'TxBiasLowAlarm',
'txbiashighwarning': 'TxBiasHighWarning',
'txbiaslowwarning': 'TxBiasLowWarning'
}
QSFP_DOM_CHANNEL_THRESHOLD_MAP = {
'rxpowerhighalarm': 'RxPowerHighAlarm',
'rxpowerlowalarm': 'RxPowerLowAlarm',
'rxpowerhighwarning': 'RxPowerHighWarning',
'rxpowerlowwarning': 'RxPowerLowWarning',
'txbiashighalarm': 'TxBiasHighAlarm',
'txbiaslowalarm': 'TxBiasLowAlarm',
'txbiashighwarning': 'TxBiasHighWarning',
'txbiaslowwarning': 'TxBiasLowWarning'
}
DOM_MODULE_THRESHOLD_MAP = {
'temphighalarm': 'TempHighAlarm',
'templowalarm': 'TempLowAlarm',
'temphighwarning': 'TempHighWarning',
'templowwarning': 'TempLowWarning',
'vcchighalarm': 'VccHighAlarm',
'vcclowalarm': 'VccLowAlarm',
'vcchighwarning': 'VccHighWarning',
'vcclowwarning': 'VccLowWarning'
}
QSFP_DOM_CHANNEL_MONITOR_MAP = {
'rx1power': 'RX1Power',
'rx2power': 'RX2Power',
'rx3power': 'RX3Power',
'rx4power': 'RX4Power',
'tx1bias': 'TX1Bias',
'tx2bias': 'TX2Bias',
'tx3bias': 'TX3Bias',
'tx4bias': 'TX4Bias',
'tx1power': 'TX1Power',
'tx2power': 'TX2Power',
'tx3power': 'TX3Power',
'tx4power': 'TX4Power'
}
QSFP_DD_DOM_CHANNEL_MONITOR_MAP = {
'rx1power': 'RX1Power',
'rx2power': 'RX2Power',
'rx3power': 'RX3Power',
'rx4power': 'RX4Power',
'rx5power': 'RX5Power',
'rx6power': 'RX6Power',
'rx7power': 'RX7Power',
'rx8power': 'RX8Power',
'tx1bias': 'TX1Bias',
'tx2bias': 'TX2Bias',
'tx3bias': 'TX3Bias',
'tx4bias': 'TX4Bias',
'tx5bias': 'TX5Bias',
'tx6bias': 'TX6Bias',
'tx7bias': 'TX7Bias',
'tx8bias': 'TX8Bias',
'tx1power': 'TX1Power',
'tx2power': 'TX2Power',
'tx3power': 'TX3Power',
'tx4power': 'TX4Power',
'tx5power': 'TX5Power',
'tx6power': 'TX6Power',
'tx7power': 'TX7Power',
'tx8power': 'TX8Power'
}
DOM_MODULE_MONITOR_MAP = {
'temperature': 'Temperature',
'voltage': 'Vcc'
}
DOM_CHANNEL_THRESHOLD_UNIT_MAP = {
'txpowerhighalarm': 'dBm',
'txpowerlowalarm': 'dBm',
'txpowerhighwarning': 'dBm',
'txpowerlowwarning': 'dBm',
'rxpowerhighalarm': 'dBm',
'rxpowerlowalarm': 'dBm',
'rxpowerhighwarning': 'dBm',
'rxpowerlowwarning': 'dBm',
'txbiashighalarm': 'mA',
'txbiaslowalarm': 'mA',
'txbiashighwarning': 'mA',
'txbiaslowwarning': 'mA'
}
DOM_MODULE_THRESHOLD_UNIT_MAP = {
'temphighalarm': 'C',
'templowalarm': 'C',
'temphighwarning': 'C',
'templowwarning': 'C',
'vcchighalarm': 'Volts',
'vcclowalarm': 'Volts',
'vcchighwarning': 'Volts',
'vcclowwarning': 'Volts'
}
DOM_VALUE_UNIT_MAP = {
'rx1power': 'dBm',
'rx2power': 'dBm',
'rx3power': 'dBm',
'rx4power': 'dBm',
'tx1bias': 'mA',
'tx2bias': 'mA',
'tx3bias': 'mA',
'tx4bias': 'mA',
'tx1power': 'dBm',
'tx2power': 'dBm',
'tx3power': 'dBm',
'tx4power': 'dBm',
'temperature': 'C',
'voltage': 'Volts'
}
QSFP_DD_DOM_VALUE_UNIT_MAP = {
'rx1power': 'dBm',
'rx2power': 'dBm',
'rx3power': 'dBm',
'rx4power': 'dBm',
'rx5power': 'dBm',
'rx6power': 'dBm',
'rx7power': 'dBm',
'rx8power': 'dBm',
'tx1bias': 'mA',
'tx2bias': 'mA',
'tx3bias': 'mA',
'tx4bias': 'mA',
'tx5bias': 'mA',
'tx6bias': 'mA',
'tx7bias': 'mA',
'tx8bias': 'mA',
'tx1power': 'dBm',
'tx2power': 'dBm',
'tx3power': 'dBm',
'tx4power': 'dBm',
'tx5power': 'dBm',
'tx6power': 'dBm',
'tx7power': 'dBm',
'tx8power': 'dBm',
'temperature': 'C',
'voltage': 'Volts'
}
RJ45_PORT_TYPE = 'RJ45'
# Global platform-specific Chassis class instance
platform_chassis = None
# Global platform-specific sfputil class instance
platform_sfputil = None
# Global logger instance
log = logger.Logger(SYSLOG_IDENTIFIER)
def is_sfp_present(port_name):
physical_port = logical_port_to_physical_port_index(port_name)
sfp = platform_chassis.get_sfp(physical_port)
try:
presence = sfp.get_presence()
except NotImplementedError:
click.echo("sfp get_presence() NOT implemented!", err=True)
sys.exit(ERROR_NOT_IMPLEMENTED)
return bool(presence)
def is_port_type_rj45(port_name):
physical_port = logical_port_to_physical_port_index(port_name)
try:
port_types = platform_chassis.get_port_or_cage_type(physical_port)
return SfpBase.SFP_PORT_TYPE_BIT_RJ45 == port_types
except NotImplementedError:
pass
return False
# ========================== Methods for formatting output ==========================
# Convert dict values to cli output string
def format_dict_value_to_string(sorted_key_table,
dom_info_dict, dom_value_map,
dom_unit_map, alignment=0):
output = ''
indent = ' ' * 8
separator = ": "
for key in sorted_key_table:
if dom_info_dict is not None and key in dom_info_dict and dom_info_dict[key] != 'N/A':
value = dom_info_dict[key]
units = ''
if type(value) != str or (value != 'Unknown' and not value.endswith(dom_unit_map[key])):
units = dom_unit_map[key]
output += '{}{}{}{}{}\n'.format((indent * 2),
dom_value_map[key],
separator.rjust(len(separator) + alignment - len(dom_value_map[key])),
value,
units)
return output
def convert_sfp_info_to_output_string(sfp_info_dict):
indent = ' ' * 8
output = ''
sfp_type = sfp_info_dict['type']
# CMIS supported module types include QSFP-DD and OSFP
if sfp_type.startswith('QSFP-DD') or sfp_type.startswith('OSFP'):
sorted_qsfp_data_map_keys = sorted(QSFP_DD_DATA_MAP, key=QSFP_DD_DATA_MAP.get)
for key in sorted_qsfp_data_map_keys:
if key == 'cable_type':
output += '{}{}: {}\n'.format(indent, sfp_info_dict['cable_type'], sfp_info_dict['cable_length'])
elif key == 'cable_length':
pass
elif key == 'specification_compliance':
output += '{}{}: {}\n'.format(indent, QSFP_DD_DATA_MAP[key], sfp_info_dict[key])
elif key == 'supported_max_tx_power' or key == 'supported_min_tx_power':
if key in sfp_info_dict: # C-CMIS compliant / coherent modules
output += '{}{}: {}dBm\n'.format(indent, QSFP_DD_DATA_MAP[key], sfp_info_dict[key])
elif key == 'supported_max_laser_freq' or key == 'supported_min_laser_freq':
if key in sfp_info_dict: # C-CMIS compliant / coherent modules
output += '{}{}: {}GHz\n'.format(indent, QSFP_DD_DATA_MAP[key], sfp_info_dict[key])
elif key == 'application_advertisement':
output += covert_application_advertisement_to_output_string(indent, sfp_info_dict)
else:
try:
output += '{}{}: {}\n'.format(indent, QSFP_DD_DATA_MAP[key], sfp_info_dict[key])
except (KeyError, ValueError) as e:
output += '{}{}: N/A\n'.format(indent, QSFP_DD_DATA_MAP[key])
else:
sorted_qsfp_data_map_keys = sorted(QSFP_DATA_MAP, key=QSFP_DATA_MAP.get)
for key in sorted_qsfp_data_map_keys:
if key == 'cable_type':
output += '{}{}: {}\n'.format(indent, sfp_info_dict['cable_type'], sfp_info_dict['cable_length'])
elif key == 'cable_length':
pass
elif key == 'specification_compliance':
output += '{}{}:\n'.format(indent, QSFP_DATA_MAP['specification_compliance'])
spec_compliance_dict = {}
try:
spec_compliance_dict = ast.literal_eval(sfp_info_dict['specification_compliance'])
sorted_compliance_key_table = natsorted(spec_compliance_dict)
for compliance_key in sorted_compliance_key_table:
output += '{}{}: {}\n'.format((indent * 2), compliance_key, spec_compliance_dict[compliance_key])
except ValueError as e:
output += '{}N/A\n'.format((indent * 2))
else:
output += '{}{}: {}\n'.format(indent, QSFP_DATA_MAP[key], sfp_info_dict[key])
return output
# Convert DOM sensor info in DB to CLI output string
def convert_dom_to_output_string(sfp_type, dom_info_dict):
indent = ' ' * 8
output_dom = ''
channel_threshold_align = 18
module_threshold_align = 15
if sfp_type.startswith('QSFP') or sfp_type.startswith('OSFP'):
# Channel Monitor
if sfp_type.startswith('QSFP-DD') or sfp_type.startswith('OSFP'):
output_dom += (indent + 'ChannelMonitorValues:\n')
sorted_key_table = natsorted(QSFP_DD_DOM_CHANNEL_MONITOR_MAP)
output_channel = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
QSFP_DD_DOM_CHANNEL_MONITOR_MAP,
QSFP_DD_DOM_VALUE_UNIT_MAP)
output_dom += output_channel
else:
output_dom += (indent + 'ChannelMonitorValues:\n')
sorted_key_table = natsorted(QSFP_DOM_CHANNEL_MONITOR_MAP)
output_channel = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
QSFP_DOM_CHANNEL_MONITOR_MAP,
DOM_VALUE_UNIT_MAP)
output_dom += output_channel
# Channel Threshold
if sfp_type.startswith('QSFP-DD') or sfp_type.startswith('OSFP'):
dom_map = SFP_DOM_CHANNEL_THRESHOLD_MAP
else:
dom_map = QSFP_DOM_CHANNEL_THRESHOLD_MAP
output_dom += (indent + 'ChannelThresholdValues:\n')
sorted_key_table = natsorted(dom_map)
output_channel_threshold = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
dom_map,
DOM_CHANNEL_THRESHOLD_UNIT_MAP,
channel_threshold_align)
output_dom += output_channel_threshold
# Module Monitor
output_dom += (indent + 'ModuleMonitorValues:\n')
sorted_key_table = natsorted(DOM_MODULE_MONITOR_MAP)
output_module = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
DOM_MODULE_MONITOR_MAP,
DOM_VALUE_UNIT_MAP)
output_dom += output_module
# Module Threshold
output_dom += (indent + 'ModuleThresholdValues:\n')
sorted_key_table = natsorted(DOM_MODULE_THRESHOLD_MAP)
output_module_threshold = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
DOM_MODULE_THRESHOLD_MAP,
DOM_MODULE_THRESHOLD_UNIT_MAP,
module_threshold_align)
output_dom += output_module_threshold
else:
output_dom += (indent + 'MonitorData:\n')
sorted_key_table = natsorted(SFP_DOM_CHANNEL_MONITOR_MAP)
output_channel = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
SFP_DOM_CHANNEL_MONITOR_MAP,
DOM_VALUE_UNIT_MAP)
output_dom += output_channel
sorted_key_table = natsorted(DOM_MODULE_MONITOR_MAP)
output_module = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
DOM_MODULE_MONITOR_MAP,
DOM_VALUE_UNIT_MAP)
output_dom += output_module
output_dom += (indent + 'ThresholdData:\n')
# Module Threshold
sorted_key_table = natsorted(DOM_MODULE_THRESHOLD_MAP)
output_module_threshold = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
DOM_MODULE_THRESHOLD_MAP,
DOM_MODULE_THRESHOLD_UNIT_MAP,
module_threshold_align)
output_dom += output_module_threshold
# Channel Threshold
sorted_key_table = natsorted(SFP_DOM_CHANNEL_THRESHOLD_MAP)
output_channel_threshold = format_dict_value_to_string(
sorted_key_table, dom_info_dict,
SFP_DOM_CHANNEL_THRESHOLD_MAP,
DOM_CHANNEL_THRESHOLD_UNIT_MAP,
channel_threshold_align)
output_dom += output_channel_threshold
return output_dom
# =============== Getting and printing SFP data ===============
#
def get_physical_port_name(logical_port, physical_port, ganged):
"""
Returns:
port_num if physical
logical_port:port_num if logical port and is a ganged port
logical_port if logical and not ganged
"""
if logical_port == physical_port:
return str(logical_port)
elif ganged:
return "{}:{} (ganged)".format(logical_port, physical_port)
else:
return logical_port
def logical_port_name_to_physical_port_list(port_name):
if port_name.startswith("Ethernet"):
if platform_sfputil.is_logical_port(port_name):
return platform_sfputil.get_logical_to_physical(port_name)
else:
click.echo("Error: Invalid port '{}'".format(port_name))
return None
else:
return [int(port_name)]
def logical_port_to_physical_port_index(port_name):
if not platform_sfputil.is_logical_port(port_name):
click.echo("Error: invalid port '{}'\n".format(port_name))
print_all_valid_port_values()
sys.exit(ERROR_INVALID_PORT)
physical_port = logical_port_name_to_physical_port_list(port_name)[0]
if physical_port is None:
click.echo("Error: No physical port found for logical port '{}'".format(port_name))
sys.exit(EXIT_FAIL)
return physical_port
def print_all_valid_port_values():
click.echo("Valid values for port: {}\n".format(str(platform_sfputil.logical)))
# ==================== Methods for initialization ====================
# Instantiate platform-specific Chassis class
def load_platform_chassis():
global platform_chassis
# Load new platform api class
try:
platform_chassis = sonic_platform.platform.Platform().get_chassis()
except Exception as e:
log.log_error("Failed to instantiate Chassis due to {}".format(repr(e)))
if not platform_chassis:
return False
return True
# Instantiate SfpUtilHelper class
def load_sfputilhelper():
global platform_sfputil
# we have to make use of sfputil for some features
# even though when new platform api is used for all vendors.
# in this sense, we treat it as a part of new platform api.
# we have already moved sfputil to sonic_platform_base
# which is the root of new platform api.
platform_sfputil = sonic_platform_base.sonic_sfp.sfputilhelper.SfpUtilHelper()
if not platform_sfputil:
return False
return True
def load_port_config():
load_db_config()
try:
if multi_asic.is_multi_asic():
# For multi ASIC platforms we pass DIR of port_config_file_path and the number of asics
(platform_path, hwsku_path) = device_info.get_paths_to_platform_and_hwsku_dirs()
# Load platform module from source
platform_sfputil.read_all_porttab_mappings(hwsku_path, multi_asic.get_num_asics())
else:
# For single ASIC platforms we pass port_config_file_path and the asic_inst as 0
port_config_file_path = device_info.get_path_to_port_config_file()
platform_sfputil.read_porttab_mappings(port_config_file_path, 0)
except Exception as e:
log.log_error("Error reading port info ({})".format(str(e)), True)
return False
return True
# ==================== CLI commands and groups ====================
# This is our main entrypoint - the main 'sfputil' command
@click.group()
def cli():
"""sfputil - Command line utility for managing SFP transceivers"""
if os.geteuid() != 0:
click.echo("Root privileges are required for this operation")
sys.exit(ERROR_PERMISSIONS)
# Load platform-specific Chassis class
if not load_platform_chassis():
sys.exit(ERROR_CHASSIS_LOAD)
# Load SfpUtilHelper class
if not load_sfputilhelper():
sys.exit(ERROR_SFPUTILHELPER_LOAD)
# Load port info
if not load_port_config():
sys.exit(ERROR_PORT_CONFIG_LOAD)
# 'show' subgroup
@cli.group()
def show():
"""Display status of SFP transceivers"""
pass
# 'eeprom' subcommand
@show.command()
@click.option('-p', '--port', metavar='<port_name>', help="Display SFP EEPROM data for port <port_name> only")
@click.option('-d', '--dom', 'dump_dom', is_flag=True, help="Also display Digital Optical Monitoring (DOM) data")
@click.option('-n', '--namespace', default=None, help="Display interfaces for specific namespace")
def eeprom(port, dump_dom, namespace):
"""Display EEPROM data of SFP transceiver(s)"""
logical_port_list = []
output = ""
# Create a list containing the logical port names of all ports we're interested in
if port is None:
logical_port_list = platform_sfputil.logical
else:
if platform_sfputil.is_logical_port(port) == 0:
click.echo("Error: invalid port '{}'\n".format(port))
print_all_valid_port_values()
sys.exit(ERROR_INVALID_PORT)
logical_port_list = [port]
for logical_port_name in logical_port_list:
ganged = False
i = 1
physical_port_list = logical_port_name_to_physical_port_list(logical_port_name)
if physical_port_list is None:
click.echo("Error: No physical ports found for logical port '{}'".format(logical_port_name))
return
if len(physical_port_list) > 1:
ganged = True
for physical_port in physical_port_list:
port_name = get_physical_port_name(logical_port_name, i, ganged)
if is_port_type_rj45(port_name):
output += "{}: SFP EEPROM is not applicable for RJ45 port\n".format(port_name)
output += '\n'
continue
try:
presence = platform_chassis.get_sfp(physical_port).get_presence()
except NotImplementedError:
click.echo("Sfp.get_presence() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
if not presence:
output += "{}: SFP EEPROM not detected\n".format(port_name)
else:
output += "{}: SFP EEPROM detected\n".format(port_name)
try:
xcvr_info = platform_chassis.get_sfp(physical_port).get_transceiver_info()
except NotImplementedError:
click.echo("Sfp.get_transceiver_info() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
output += convert_sfp_info_to_output_string(xcvr_info)
if dump_dom:
try:
xcvr_dom_info = platform_chassis.get_sfp(physical_port).get_transceiver_bulk_status()
except NotImplementedError:
click.echo("Sfp.get_transceiver_bulk_status() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
try:
xcvr_dom_threshold_info = platform_chassis.get_sfp(physical_port).get_transceiver_threshold_info()
if xcvr_dom_threshold_info:
xcvr_dom_info.update(xcvr_dom_threshold_info)
except NotImplementedError:
click.echo("Sfp.get_transceiver_threshold_info() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
output += convert_dom_to_output_string(xcvr_info['type'], xcvr_dom_info)
output += '\n'
click.echo(output)
# 'eeprom-hexdump' subcommand
@show.command()
@click.option('-p', '--port', metavar='<port_name>', required=True, help="Display SFP EEPROM hexdump for port <port_name>")
@click.option('-n', '--page', metavar='<page_number>', help="Display SFP EEEPROM hexdump for <page_number_in_hex>")
def eeprom_hexdump(port, page):
"""Display EEPROM hexdump of SFP transceiver(s) for a given port name and page number"""
output = ""
if platform_sfputil.is_logical_port(port) == 0:
click.echo("Error: invalid port {}".format(port))
print_all_valid_port_values()
sys.exit(ERROR_INVALID_PORT)
if page is None:
page = '0'
logical_port_name = port
physical_port = logical_port_to_physical_port_index(logical_port_name)
if is_port_type_rj45(logical_port_name):
click.echo("{}: SFP EEPROM Hexdump is not applicable for RJ45 port".format(port))
sys.exit(ERROR_INVALID_PORT)
try:
presence = platform_chassis.get_sfp(physical_port).get_presence()
except NotImplementedError:
click.echo("Sfp.get_presence() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
if not presence:
click.echo("SFP EEPROM not detected")
sys.exit(ERROR_NOT_IMPLEMENTED)
else:
try:
id = platform_chassis.get_sfp(physical_port).read_eeprom(0, 1)
if id is None:
click.echo("Error: Failed to read EEPROM for offset 0!")
sys.exit(ERROR_NOT_IMPLEMENTED)
except NotImplementedError:
click.echo("Sfp.read_eeprom() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
if id[0] == 0x3:
output = eeprom_hexdump_sff8472(port, physical_port, page)
else:
output = eeprom_hexdump_sff8636(port, physical_port, page)
output += '\n'
click.echo(output)
def eeprom_hexdump_sff8472(port, physical_port, page):
try:
output = ""
indent = ' ' * 8
output += 'EEPROM hexdump for port {} page {}h'.format(port, page)
output += '\n{}A0h dump'.format(indent)
page_dump = platform_chassis.get_sfp(physical_port).read_eeprom(0, SFF8472_A0_SIZE)
if page_dump is None:
click.echo("Error: Failed to read EEPROM for A0h!")
sys.exit(ERROR_NOT_IMPLEMENTED)
output += hexdump(indent, page_dump, 0)
page_dump = platform_chassis.get_sfp(physical_port).read_eeprom(SFF8472_A0_SIZE, PAGE_SIZE)
if page_dump is None:
click.echo("Error: Failed to read EEPROM for A2h!")
sys.exit(ERROR_NOT_IMPLEMENTED)
else:
output += '\n\n{}A2h dump (lower 128 bytes)'.format(indent)
output += hexdump(indent, page_dump, 0)
page_dump = platform_chassis.get_sfp(physical_port).read_eeprom(SFF8472_A0_SIZE + PAGE_OFFSET + (int(page, base=16) * PAGE_SIZE), PAGE_SIZE)
if page_dump is None:
click.echo("Error: Failed to read EEPROM for A2h upper page!")
sys.exit(ERROR_NOT_IMPLEMENTED)
else:
output += '\n\n{}A2h dump (upper 128 bytes) page {}h'.format(indent, page)
output += hexdump(indent, page_dump, PAGE_OFFSET)
except NotImplementedError:
click.echo("Sfp.read_eeprom() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
except ValueError:
click.echo("Please enter a numeric page number")
sys.exit(ERROR_NOT_IMPLEMENTED)
return output
def eeprom_hexdump_sff8636(port, physical_port, page):
try:
output = ""
indent = ' ' * 8
output += 'EEPROM hexdump for port {} page {}h'.format(port, page)
output += '\n{}Lower page 0h'.format(indent)
page_dump = platform_chassis.get_sfp(physical_port).read_eeprom(0, PAGE_SIZE)
if page_dump is None:
click.echo("Error: Failed to read EEPROM for page 0!")
sys.exit(ERROR_NOT_IMPLEMENTED)
output += hexdump(indent, page_dump, 0)
page_dump = platform_chassis.get_sfp(physical_port).read_eeprom(int(page, base=16) * PAGE_SIZE + PAGE_OFFSET, PAGE_SIZE)
if page_dump is None:
click.echo("Error: Failed to read EEPROM!")
sys.exit(ERROR_NOT_IMPLEMENTED)
else:
output += '\n\n{}Upper page {}h'.format(indent, page)
output += hexdump(indent, page_dump, PAGE_OFFSET)
except NotImplementedError:
click.echo("Sfp.read_eeprom() is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
except ValueError:
click.echo("Please enter a numeric page number")
sys.exit(ERROR_NOT_IMPLEMENTED)
return output
def convert_byte_to_valid_ascii_char(byte):
if byte < 32 or 126 < byte:
return '.'
else:
return chr(byte)
def hexdump(indent, data, mem_address):
ascii_string = ''
result = ''
for byte in data:
ascii_string = ascii_string + convert_byte_to_valid_ascii_char(byte)
byte_string = "{:02x}".format(byte)
if mem_address % 16 == 0:
mem_address_string = "{:08x}".format(mem_address)
result += '\n{}{} '.format(indent, mem_address_string)
result += '{} '.format(byte_string)
elif mem_address % 16 == 15:
result += '{} '.format(byte_string)
result += '|{}|'.format(ascii_string)
ascii_string = ""
elif mem_address % 16 == 8:
result += ' {} '.format(byte_string)
else:
result += '{} '.format(byte_string)
mem_address += 1
return result
# 'presence' subcommand
@show.command()
@click.option('-p', '--port', metavar='<port_name>', help="Display SFP presence for port <port_name> only")
def presence(port):
"""Display presence of SFP transceiver(s)"""
logical_port_list = []
output_table = []
table_header = ["Port", "Presence"]
# Create a list containing the logical port names of all ports we're interested in
if port is None:
logical_port_list = platform_sfputil.logical
else:
if platform_sfputil.is_logical_port(port) == 0:
click.echo("Error: invalid port '{}'\n".format(port))
print_all_valid_port_values()
sys.exit(ERROR_INVALID_PORT)
logical_port_list = [port]
logical_port_list = natsort.natsorted(logical_port_list)
for logical_port_name in logical_port_list:
ganged = False
i = 1
physical_port_list = logical_port_name_to_physical_port_list(logical_port_name)
if physical_port_list is None:
click.echo("Error: No physical ports found for logical port '{}'".format(logical_port_name))
return
if len(physical_port_list) > 1:
ganged = True
for physical_port in physical_port_list:
port_name = get_physical_port_name(logical_port_name, i, ganged)
try:
presence = platform_chassis.get_sfp(physical_port).get_presence()
except NotImplementedError:
click.echo("This functionality is currently not implemented for this platform")
sys.exit(ERROR_NOT_IMPLEMENTED)
status_string = "Present" if presence else "Not present"
output_table.append([port_name, status_string])
i += 1
click.echo(tabulate(output_table, table_header, tablefmt="simple"))
# 'error-status' subcommand
def fetch_error_status_from_platform_api(port):
"""Fetch the error status from platform API and return the output as a string
Args:
port: the port whose error status will be fetched.
None represents for all ports.
Returns:
A string consisting of the error status of each port.
"""
if port is None:
logical_port_list = natsort.natsorted(platform_sfputil.logical)
else:
logical_port_list = [port]
output = []
for logical_port_name in logical_port_list:
physical_port = logical_port_to_physical_port_index(logical_port_name)
if is_port_type_rj45(logical_port_name):
output.append([logical_port_name, "N/A"])
else:
try:
error_description = platform_chassis.get_sfp(physical_port).get_error_description()
output.append([logical_port_name, error_description])
except NotImplementedError:
click.echo("get_error_description NOT implemented for port {}".format(logical_port_name))
sys.exit(ERROR_NOT_IMPLEMENTED)
return output
def fetch_error_status_from_state_db(port, state_db):
"""Fetch the error status from STATE_DB and return them in a list.
Args:
port: the port whose error status will be fetched.
None represents for all ports.
Returns:
A list consisting of tuples (port, description) and sorted by port.
"""
status = {}
if port:
status[port] = state_db.get_all(state_db.STATE_DB, 'TRANSCEIVER_STATUS|{}'.format(port))
else:
ports = state_db.keys(state_db.STATE_DB, 'TRANSCEIVER_STATUS|*')
for key in ports:
status[key.split('|')[1]] = state_db.get_all(state_db.STATE_DB, key)
sorted_ports = natsort.natsorted(status)
output = []
for port in sorted_ports:
if is_port_type_rj45(port):
description = "N/A"
else:
statestring = status[port].get('status')
description = status[port].get('error')
if statestring == '1':
description = 'OK'
elif statestring == '0':
description = 'Unplugged'
elif description == 'N/A':
log.log_error("Inconsistent state found for port {}: state is {} but error description is N/A".format(port, statestring))
description = 'Unknown state: {}'.format(statestring)
output.append([port, description])
return output
@show.command()
@click.option('-p', '--port', metavar='<port_name>', help="Display SFP error status for port <port_name> only")
@click.option('-hw', '--fetch-from-hardware', 'fetch_from_hardware', is_flag=True, default=False, help="Fetch the error status from hardware directly")
def error_status(port, fetch_from_hardware):
"""Display error status of SFP transceiver(s)"""
output_table = []
table_header = ["Port", "Error Status"]
# Create a list containing the logical port names of all ports we're interested in
if port and platform_sfputil.is_logical_port(port) == 0:
click.echo("Error: invalid port '{}'\n".format(port))
click.echo("Valid values for port: {}\n".format(str(platform_sfputil.logical)))
sys.exit(ERROR_INVALID_PORT)
if fetch_from_hardware:
output_table = fetch_error_status_from_platform_api(port)
else:
namespaces = multi_asic.get_front_end_namespaces()
for namespace in namespaces:
state_db = SonicV2Connector(use_unix_socket_path=False, namespace=namespace)
if state_db is not None:
state_db.connect(state_db.STATE_DB)
output_table.extend(fetch_error_status_from_state_db(port, state_db))
else:
click.echo("Failed to connect to STATE_DB")
return
click.echo(tabulate(output_table, table_header, tablefmt='simple'))
# 'lpmode' subcommand
@show.command()
@click.option('-p', '--port', metavar='<port_name>', help="Display SFP low-power mode status for port <port_name> only")
def lpmode(port):
"""Display low-power mode status of SFP transceiver(s)"""
logical_port_list = []
output_table = []
table_header = ["Port", "Low-power Mode"]
# Create a list containing the logical port names of all ports we're interested in
if port is None:
logical_port_list = platform_sfputil.logical
else:
if platform_sfputil.is_logical_port(port) == 0:
click.echo("Error: invalid port '{}'\n".format(port))
print_all_valid_port_values()
sys.exit(ERROR_INVALID_PORT)
logical_port_list = [port]
for logical_port_name in logical_port_list:
ganged = False
i = 1
physical_port_list = logical_port_name_to_physical_port_list(logical_port_name)
if physical_port_list is None:
click.echo("Error: No physical ports found for logical port '{}'".format(logical_port_name))
return
if is_port_type_rj45(logical_port_name):
output_table.append([logical_port_name, "N/A"])