sonic-buildimage/device/mellanox/x86_64-mlnx_msn2700-r0/plugins/sfputil.py
shlomibitton aa33a959dd [Mellanox] Add a new Mellanox platform x86_64-mlnx_msn3420 and new SKU ACS-MSN3420 (#4436)
* New SKU support for MSN3420

Signed-off-by: Shlomi Bitton <shlomibi@mellanox.com>

Conflicts:
	device/mellanox/x86_64-mlnx_msn2700-r0/plugins/sfputil.py

* Add CPLD's

* Symlink fixes and semantics

* Adding new platform at end of lines
2020-04-27 08:50:23 -07:00

661 lines
33 KiB
Python

# sfputil.py
#
# Platform-specific SFP transceiver interface for SONiC
#
try:
import time
import subprocess
from sonic_sfp.sfputilbase import *
import syslog
except ImportError as e:
raise ImportError("%s - required module not found" % str(e))
# sfp supports dom
XCVR_DOM_CAPABILITY_DOM_SUPPORT_BIT = 0x40
# sfp module threshold offset and width
SFP_MODULE_THRESHOLD_OFFSET = 0
SFP_MODULE_THRESHOLD_WIDTH = 56
# I2C page size for sfp
SFP_I2C_PAGE_SIZE = 256
# parameters for DB connection
REDIS_TIMEOUT_USECS = 0
# parameters for SFP presence
SFP_STATUS_INSERTED = '1'
# system level event/error
EVENT_ON_ALL_SFP = '-1'
SYSTEM_NOT_READY = 'system_not_ready'
SYSTEM_READY = 'system_become_ready'
SYSTEM_FAIL = 'system_fail'
GET_HWSKU_CMD = "sonic-cfggen -d -v DEVICE_METADATA.localhost.hwsku"
# Ethernet<n> <=> sfp<n+SFP_PORT_NAME_OFFSET>
SFP_PORT_NAME_OFFSET = 1
SFP_PORT_NAME_CONVENTION = "sfp{}"
# magic code defnition for port number, qsfp port position of each hwsku
# port_position_tuple = (PORT_START, QSFP_PORT_START, PORT_END, PORT_IN_BLOCK, EEPROM_OFFSET)
hwsku_dict = {'ACS-MSN2700': 0, 'Mellanox-SN2700': 0, 'Mellanox-SN2700-D48C8': 0, "LS-SN2700":0, 'ACS-MSN2740': 0, 'ACS-MSN2100': 1, 'ACS-MSN2410': 2, 'ACS-MSN2010': 3, 'ACS-MSN3700': 0, 'ACS-MSN3700C': 0, 'ACS-MSN3800': 4, 'Mellanox-SN3800-D112C8': 4, 'ACS-MSN4700': 0, 'ACS-MSN3420': 5}
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)]
def log_info(msg, also_print_to_console=False):
syslog.openlog("sfputil")
syslog.syslog(syslog.LOG_INFO, msg)
syslog.closelog()
def log_err(msg, also_print_to_console=False):
syslog.openlog("sfputil")
syslog.syslog(syslog.LOG_ERR, msg)
syslog.closelog()
class SfpUtil(SfpUtilBase):
"""Platform-specific SfpUtil class"""
PORT_START = 0
QSFP_PORT_START = 0
PORT_END = 0
PORTS_IN_BLOCK = 0
EEPROM_OFFSET = 0
db_sel = None
db_sel_timeout = None
db_sel_object = None
db_sel_tbl = None
state_db = None
sfpd_status_tbl = None
@property
def port_start(self):
return self.PORT_START
@property
def port_end(self):
return self.PORT_END
@property
def qsfp_ports(self):
return range(self.QSFP_PORT_START, self.PORTS_IN_BLOCK + 1)
@property
def port_to_eeprom_mapping(self):
print "dependency on sysfs has been removed"
raise Exception()
def get_port_position_tuple_by_sku_name(self):
p = subprocess.Popen(GET_HWSKU_CMD, shell=True, stdout=subprocess.PIPE)
out, err = p.communicate()
position_tuple = port_position_tuple_list[hwsku_dict[out.rstrip('\n')]]
return position_tuple
def __init__(self):
port_position_tuple = self.get_port_position_tuple_by_sku_name()
self.PORT_START = port_position_tuple[0]
self.QSFP_PORT_START = port_position_tuple[1]
self.PORT_END = port_position_tuple[2]
self.PORTS_IN_BLOCK = port_position_tuple[3]
self.EEPROM_OFFSET = port_position_tuple[4]
self.mlnx_sfpd_started = False
SfpUtilBase.__init__(self)
def get_presence(self, port_num):
presence = False
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return presence
port_num += SFP_PORT_NAME_OFFSET
sfpname = SFP_PORT_NAME_CONVENTION.format(port_num)
ethtool_cmd = "ethtool -m {} 2>/dev/null".format(sfpname)
try:
proc = subprocess.Popen(ethtool_cmd, stdout=subprocess.PIPE, shell=True, stderr=subprocess.STDOUT)
stdout = proc.communicate()[0]
proc.wait()
result = stdout.rstrip('\n')
if result != '':
presence = True
except OSError, e:
return presence
return presence
def get_low_power_mode(self, port_num):
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
lpm_cmd = "docker exec syncd python /usr/share/sonic/platform/plugins/sfplpmget.py {}".format(port_num)
try:
output = subprocess.check_output(lpm_cmd, shell=True)
if 'LPM ON' in output:
return True
except subprocess.CalledProcessError as e:
print "Error! Unable to get LPM for {}, rc = {}, err msg: {}".format(port_num, e.returncode, e.output)
return False
return False
def set_low_power_mode(self, port_num, lpmode):
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
curr_lpmode = self.get_low_power_mode(port_num)
if curr_lpmode == lpmode:
return True
# Compose LPM command
lpm = 'on' if lpmode else 'off'
lpm_cmd = "docker exec syncd python /usr/share/sonic/platform/plugins/sfplpmset.py {} {}".format(port_num, lpm)
# Set LPM
try:
subprocess.check_output(lpm_cmd, shell=True)
except subprocess.CalledProcessError as e:
print "Error! Unable to set LPM for {}, rc = {}, err msg: {}".format(port_num, e.returncode, e.output)
return False
return True
def reset(self, port_num):
# Check for invalid port_num
if port_num < self.port_start or port_num > self.port_end:
return False
lpm_cmd = "docker exec syncd python /usr/share/sonic/platform/plugins/sfpreset.py {}".format(port_num)
try:
subprocess.check_output(lpm_cmd, shell=True)
return True
except subprocess.CalledProcessError as e:
print "Error! Unable to set LPM for {}, rc = {}, err msg: {}".format(port_num, e.returncode, e.output)
return False
return False
def get_transceiver_change_event(self, timeout=0):
phy_port_dict = {}
status = True
if self.db_sel == None:
from swsscommon import swsscommon
self.state_db = swsscommon.DBConnector("STATE_DB",
REDIS_TIMEOUT_USECS,
True)
# Subscribe to state table for SFP change notifications
self.db_sel = swsscommon.Select()
self.db_sel_tbl = swsscommon.NotificationConsumer(self.state_db, 'TRANSCEIVER_NOTIFY')
self.db_sel.addSelectable(self.db_sel_tbl)
self.db_sel_timeout = swsscommon.Select.TIMEOUT
self.db_sel_object = swsscommon.Select.OBJECT
self.sfpd_status_tbl = swsscommon.Table(self.state_db, 'MLNX_SFPD_TASK')
# Check the liveness of mlnx-sfpd, if it failed, return system_fail event
# If mlnx-sfpd not started, return system_not_ready event
keys = self.sfpd_status_tbl.getKeys()
if 'LIVENESS' not in keys:
if self.mlnx_sfpd_started:
log_err("mlnx-sfpd exited, return false to notify xcvrd.")
phy_port_dict[EVENT_ON_ALL_SFP] = SYSTEM_FAIL
return False, phy_port_dict
else:
log_info("mlnx-sfpd not ready, return false to notify xcvrd.")
phy_port_dict[EVENT_ON_ALL_SFP] = SYSTEM_NOT_READY
return False, phy_port_dict
else:
if not self.mlnx_sfpd_started:
self.mlnx_sfpd_started = True
log_info("mlnx-sfpd is running")
phy_port_dict[EVENT_ON_ALL_SFP] = SYSTEM_READY
return False, phy_port_dict
if timeout:
(state, c) = self.db_sel.select(timeout)
else:
(state, c) = self.db_sel.select()
if state == self.db_sel_timeout:
status = True
elif state != self.db_sel_object:
status = False
else:
(key, op, fvp) = self.db_sel_tbl.pop()
phy_port_dict[key] = op
return status, phy_port_dict
def _read_eeprom_specific_bytes(self, sysfsfile_eeprom, offset, num_bytes):
print("_read_eeprom_specific_bytes should not be called since the sysfs it dependents on will no longer exist.")
print("_read_eeprom_specific_bytes_via_ethtool should be called instead")
raise Exception()
# Read out any bytes from any offset
def _read_eeprom_specific_bytes_via_ethtool(self, port_num, offset, num_bytes):
port_num += SFP_PORT_NAME_OFFSET
sfpname = SFP_PORT_NAME_CONVENTION.format(port_num)
eeprom_raw = []
ethtool_cmd = "ethtool -m {} hex on offset {} length {}".format(sfpname, offset, num_bytes)
try:
output = subprocess.check_output(ethtool_cmd, shell=True)
output_lines = output.splitlines()
first_line_raw = output_lines[0]
if "Offset" in first_line_raw:
for line in output_lines[2:]:
line_split = line.split()
eeprom_raw = eeprom_raw + line_split[1:]
except subprocess.CalledProcessError as e:
return None
return eeprom_raw
# Read eeprom
def _read_eeprom_devid(self, port_num, devid, offset, num_bytes = 512):
if port_num in self.osfp_ports:
pass
elif port_num in self.qsfp_ports:
pass
elif (self.DOM_EEPROM_ADDR == devid):
offset += 256
eeprom_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, offset, num_bytes)
return eeprom_raw
# Read out SFP type, vendor name, PN, REV, SN from eeprom.
def get_transceiver_info_dict(self, port_num):
transceiver_info_dict = {}
compliance_code_dict = {}
# ToDo: OSFP tranceiver info parsing not fully supported.
# in inf8628.py lack of some memory map definition
# will be implemented when the inf8628 memory map ready
if port_num in self.osfp_ports:
offset = 0
vendor_rev_width = XCVR_HW_REV_WIDTH_OSFP
sfpi_obj = inf8628InterfaceId()
if sfpi_obj is None:
print("Error: sfp_object open failed")
return None
sfp_type_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + OSFP_TYPE_OFFSET), XCVR_TYPE_WIDTH)
if sfp_type_raw is not None:
sfp_type_data = sfpi_obj.parse_sfp_type(sfp_type_raw, 0)
else:
return None
sfp_vendor_name_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + OSFP_VENDOR_NAME_OFFSET), XCVR_VENDOR_NAME_WIDTH)
if sfp_vendor_name_raw is not None:
sfp_vendor_name_data = sfpi_obj.parse_vendor_name(sfp_vendor_name_raw, 0)
else:
return None
sfp_vendor_pn_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + OSFP_VENDOR_PN_OFFSET), XCVR_VENDOR_PN_WIDTH)
if sfp_vendor_pn_raw is not None:
sfp_vendor_pn_data = sfpi_obj.parse_vendor_pn(sfp_vendor_pn_raw, 0)
else:
return None
sfp_vendor_rev_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + OSFP_HW_REV_OFFSET), vendor_rev_width)
if sfp_vendor_rev_raw is not None:
sfp_vendor_rev_data = sfpi_obj.parse_vendor_rev(sfp_vendor_rev_raw, 0)
else:
return None
sfp_vendor_sn_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + OSFP_VENDOR_SN_OFFSET), XCVR_VENDOR_SN_WIDTH)
if sfp_vendor_sn_raw is not None:
sfp_vendor_sn_data = sfpi_obj.parse_vendor_sn(sfp_vendor_sn_raw, 0)
else:
return None
transceiver_info_dict['type'] = sfp_type_data['data']['type']['value']
transceiver_info_dict['manufacturename'] = sfp_vendor_name_data['data']['Vendor Name']['value']
transceiver_info_dict['modelname'] = sfp_vendor_pn_data['data']['Vendor PN']['value']
transceiver_info_dict['hardwarerev'] = sfp_vendor_rev_data['data']['Vendor Rev']['value']
transceiver_info_dict['serialnum'] = sfp_vendor_sn_data['data']['Vendor SN']['value']
# Below part is added to avoid fail the xcvrd, shall be implemented later
transceiver_info_dict['vendor_oui'] = 'N/A'
transceiver_info_dict['vendor_date'] = 'N/A'
transceiver_info_dict['Connector'] = 'N/A'
transceiver_info_dict['encoding'] = 'N/A'
transceiver_info_dict['ext_identifier'] = 'N/A'
transceiver_info_dict['ext_rateselect_compliance'] = 'N/A'
transceiver_info_dict['cable_type'] = 'N/A'
transceiver_info_dict['cable_length'] = 'N/A'
transceiver_info_dict['specification_compliance'] = 'N/A'
transceiver_info_dict['nominal_bit_rate'] = 'N/A'
else:
if port_num in self.qsfp_ports:
offset = 128
vendor_rev_width = XCVR_HW_REV_WIDTH_QSFP
cable_length_width = XCVR_CABLE_LENGTH_WIDTH_QSFP
interface_info_bulk_width = XCVR_INTFACE_BULK_WIDTH_QSFP
sfp_type = 'QSFP'
sfpi_obj = sff8436InterfaceId()
if sfpi_obj is None:
print("Error: sfp_object open failed")
return None
else:
offset = 0
vendor_rev_width = XCVR_HW_REV_WIDTH_SFP
cable_length_width = XCVR_CABLE_LENGTH_WIDTH_SFP
interface_info_bulk_width = XCVR_INTFACE_BULK_WIDTH_SFP
sfp_type = 'SFP'
sfpi_obj = sff8472InterfaceId()
if sfpi_obj is None:
print("Error: sfp_object open failed")
return None
sfp_interface_bulk_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + XCVR_INTFACE_BULK_OFFSET), interface_info_bulk_width)
if sfp_interface_bulk_raw is not None:
sfp_interface_bulk_data = sfpi_obj.parse_sfp_info_bulk(sfp_interface_bulk_raw, 0)
else:
return None
sfp_vendor_name_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + XCVR_VENDOR_NAME_OFFSET), XCVR_VENDOR_NAME_WIDTH)
if sfp_vendor_name_raw is not None:
sfp_vendor_name_data = sfpi_obj.parse_vendor_name(sfp_vendor_name_raw, 0)
else:
return None
sfp_vendor_pn_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + XCVR_VENDOR_PN_OFFSET), XCVR_VENDOR_PN_WIDTH)
if sfp_vendor_pn_raw is not None:
sfp_vendor_pn_data = sfpi_obj.parse_vendor_pn(sfp_vendor_pn_raw, 0)
else:
return None
sfp_vendor_rev_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + XCVR_HW_REV_OFFSET), vendor_rev_width)
if sfp_vendor_rev_raw is not None:
sfp_vendor_rev_data = sfpi_obj.parse_vendor_rev(sfp_vendor_rev_raw, 0)
else:
return None
sfp_vendor_sn_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + XCVR_VENDOR_SN_OFFSET), XCVR_VENDOR_SN_WIDTH)
if sfp_vendor_sn_raw is not None:
sfp_vendor_sn_data = sfpi_obj.parse_vendor_sn(sfp_vendor_sn_raw, 0)
else:
return None
sfp_vendor_oui_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + XCVR_VENDOR_OUI_OFFSET), XCVR_VENDOR_OUI_WIDTH)
if sfp_vendor_oui_raw is not None:
sfp_vendor_oui_data = sfpi_obj.parse_vendor_oui(sfp_vendor_oui_raw, 0)
else:
return None
sfp_vendor_date_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + XCVR_VENDOR_DATE_OFFSET), XCVR_VENDOR_DATE_WIDTH)
if sfp_vendor_date_raw is not None:
sfp_vendor_date_data = sfpi_obj.parse_vendor_date(sfp_vendor_date_raw, 0)
else:
return None
transceiver_info_dict['type'] = sfp_interface_bulk_data['data']['type']['value']
transceiver_info_dict['manufacturename'] = sfp_vendor_name_data['data']['Vendor Name']['value']
transceiver_info_dict['modelname'] = sfp_vendor_pn_data['data']['Vendor PN']['value']
transceiver_info_dict['hardwarerev'] = sfp_vendor_rev_data['data']['Vendor Rev']['value']
transceiver_info_dict['serialnum'] = sfp_vendor_sn_data['data']['Vendor SN']['value']
transceiver_info_dict['vendor_oui'] = sfp_vendor_oui_data['data']['Vendor OUI']['value']
transceiver_info_dict['vendor_date'] = sfp_vendor_date_data['data']['VendorDataCode(YYYY-MM-DD Lot)']['value']
transceiver_info_dict['Connector'] = sfp_interface_bulk_data['data']['Connector']['value']
transceiver_info_dict['encoding'] = sfp_interface_bulk_data['data']['EncodingCodes']['value']
transceiver_info_dict['ext_identifier'] = sfp_interface_bulk_data['data']['Extended Identifier']['value']
transceiver_info_dict['ext_rateselect_compliance'] = sfp_interface_bulk_data['data']['RateIdentifier']['value']
if sfp_type == 'QSFP':
for key in qsfp_cable_length_tup:
if key in sfp_interface_bulk_data['data']:
transceiver_info_dict['cable_type'] = key
transceiver_info_dict['cable_length'] = str(sfp_interface_bulk_data['data'][key]['value'])
for key in qsfp_compliance_code_tup:
if key in sfp_interface_bulk_data['data']['Specification compliance']['value']:
compliance_code_dict[key] = sfp_interface_bulk_data['data']['Specification compliance']['value'][key]['value']
transceiver_info_dict['specification_compliance'] = str(compliance_code_dict)
transceiver_info_dict['nominal_bit_rate'] = str(sfp_interface_bulk_data['data']['Nominal Bit Rate(100Mbs)']['value'])
else:
for key in sfp_cable_length_tup:
if key in sfp_interface_bulk_data['data']:
transceiver_info_dict['cable_type'] = key
transceiver_info_dict['cable_length'] = str(sfp_interface_bulk_data['data'][key]['value'])
for key in sfp_compliance_code_tup:
if key in sfp_interface_bulk_data['data']['Specification compliance']['value']:
compliance_code_dict[key] = sfp_interface_bulk_data['data']['Specification compliance']['value'][key]['value']
transceiver_info_dict['specification_compliance'] = str(compliance_code_dict)
transceiver_info_dict['nominal_bit_rate'] = str(sfp_interface_bulk_data['data']['NominalSignallingRate(UnitsOf100Mbd)']['value'])
return transceiver_info_dict
def get_transceiver_dom_info_dict(self, port_num):
transceiver_dom_info_dict = {}
# Below part is added to avoid failing xcvrd
# Currently, the way in which dom data is read has been changed from
# using sysfs to using ethtool.
# The ethtool returns None for ports without dom support, resulting in
# None being returned. However, this fails xcvrd to add the
# TRANSCEIVER_DOM_SENSOR table entry of associated port to CONFIG_DB
# and then causes SNMP fail.
# To address this issue a default dict is initialized with all data set to
# 'N/A' and is returned is the above case.
# BTW, in the original implementation which sysfs is used to read dom data,
# even though non-None data is returned for ports without dom support,
# it does not contain valid data. This can result in wrong data in
# TRANSCEIVER_DOM_SENSOR table.
transceiver_dom_info_dict['temperature'] = 'N/A'
transceiver_dom_info_dict['voltage'] = 'N/A'
transceiver_dom_info_dict['rx1power'] = 'N/A'
transceiver_dom_info_dict['rx2power'] = 'N/A'
transceiver_dom_info_dict['rx3power'] = 'N/A'
transceiver_dom_info_dict['rx4power'] = 'N/A'
transceiver_dom_info_dict['tx1bias'] = 'N/A'
transceiver_dom_info_dict['tx2bias'] = 'N/A'
transceiver_dom_info_dict['tx3bias'] = 'N/A'
transceiver_dom_info_dict['tx4bias'] = 'N/A'
transceiver_dom_info_dict['tx1power'] = 'N/A'
transceiver_dom_info_dict['tx2power'] = 'N/A'
transceiver_dom_info_dict['tx3power'] = 'N/A'
transceiver_dom_info_dict['tx4power'] = 'N/A'
if port_num in self.osfp_ports:
pass
elif port_num in self.qsfp_ports:
offset = 0
offset_xcvr = 128
sfpd_obj = sff8436Dom()
if sfpd_obj is None:
return None
sfpi_obj = sff8436InterfaceId()
if sfpi_obj is None:
return None
# QSFP capability byte parse, through this byte can know whether it support tx_power or not.
# TODO: in the future when decided to migrate to support SFF-8636 instead of SFF-8436,
# need to add more code for determining the capability and version compliance
# in SFF-8636 dom capability definitions evolving with the versions.
qsfp_dom_capability_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset_xcvr + XCVR_DOM_CAPABILITY_OFFSET), XCVR_DOM_CAPABILITY_WIDTH)
if qsfp_dom_capability_raw is not None:
qspf_dom_capability_data = sfpi_obj.parse_qsfp_dom_capability(qsfp_dom_capability_raw, 0)
else:
return transceiver_dom_info_dict
dom_temperature_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + QSFP_TEMPE_OFFSET), QSFP_TEMPE_WIDTH)
if dom_temperature_raw is not None:
dom_temperature_data = sfpd_obj.parse_temperature(dom_temperature_raw, 0)
else:
return transceiver_dom_info_dict
dom_voltage_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + QSFP_VOLT_OFFSET), QSFP_VOLT_WIDTH)
if dom_voltage_raw is not None:
dom_voltage_data = sfpd_obj.parse_voltage(dom_voltage_raw, 0)
else:
return transceiver_dom_info_dict
qsfp_dom_rev_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + QSFP_DOM_REV_OFFSET), QSFP_DOM_REV_WIDTH)
if qsfp_dom_rev_raw is not None:
qsfp_dom_rev_data = sfpd_obj.parse_sfp_dom_rev(qsfp_dom_rev_raw, 0)
else:
return transceiver_dom_info_dict
transceiver_dom_info_dict['temperature'] = dom_temperature_data['data']['Temperature']['value']
transceiver_dom_info_dict['voltage'] = dom_voltage_data['data']['Vcc']['value']
# The tx_power monitoring is only available on QSFP which compliant with SFF-8636
# and claimed that it support tx_power with one indicator bit.
dom_channel_monitor_data = {}
qsfp_dom_rev = qsfp_dom_rev_data['data']['dom_rev']['value']
qsfp_tx_power_support = qspf_dom_capability_data['data']['Tx_power_support']['value']
if (qsfp_dom_rev[0:8] != 'SFF-8636' or (qsfp_dom_rev[0:8] == 'SFF-8636' and qsfp_tx_power_support != 'on')):
dom_channel_monitor_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + QSFP_CHANNL_MON_OFFSET), QSFP_CHANNL_MON_WIDTH)
if dom_channel_monitor_raw is not None:
dom_channel_monitor_data = sfpd_obj.parse_channel_monitor_params(dom_channel_monitor_raw, 0)
else:
return transceiver_dom_info_dict
else:
dom_channel_monitor_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num, (offset + QSFP_CHANNL_MON_OFFSET), QSFP_CHANNL_MON_WITH_TX_POWER_WIDTH)
if dom_channel_monitor_raw is not None:
dom_channel_monitor_data = sfpd_obj.parse_channel_monitor_params_with_tx_power(dom_channel_monitor_raw, 0)
else:
return transceiver_dom_info_dict
transceiver_dom_info_dict['tx1power'] = dom_channel_monitor_data['data']['TX1Power']['value']
transceiver_dom_info_dict['tx2power'] = dom_channel_monitor_data['data']['TX2Power']['value']
transceiver_dom_info_dict['tx3power'] = dom_channel_monitor_data['data']['TX3Power']['value']
transceiver_dom_info_dict['tx4power'] = dom_channel_monitor_data['data']['TX4Power']['value']
transceiver_dom_info_dict['temperature'] = dom_temperature_data['data']['Temperature']['value']
transceiver_dom_info_dict['voltage'] = dom_voltage_data['data']['Vcc']['value']
transceiver_dom_info_dict['rx1power'] = dom_channel_monitor_data['data']['RX1Power']['value']
transceiver_dom_info_dict['rx2power'] = dom_channel_monitor_data['data']['RX2Power']['value']
transceiver_dom_info_dict['rx3power'] = dom_channel_monitor_data['data']['RX3Power']['value']
transceiver_dom_info_dict['rx4power'] = dom_channel_monitor_data['data']['RX4Power']['value']
transceiver_dom_info_dict['tx1bias'] = dom_channel_monitor_data['data']['TX1Bias']['value']
transceiver_dom_info_dict['tx2bias'] = dom_channel_monitor_data['data']['TX2Bias']['value']
transceiver_dom_info_dict['tx3bias'] = dom_channel_monitor_data['data']['TX3Bias']['value']
transceiver_dom_info_dict['tx4bias'] = dom_channel_monitor_data['data']['TX4Bias']['value']
else:
offset = SFP_I2C_PAGE_SIZE
eeprom_raw = ['0'] * SFP_I2C_PAGE_SIZE
eeprom_raw[XCVR_DOM_CAPABILITY_OFFSET : XCVR_DOM_CAPABILITY_OFFSET + XCVR_DOM_CAPABILITY_WIDTH] = \
self._read_eeprom_specific_bytes_via_ethtool(port_num, XCVR_DOM_CAPABILITY_OFFSET, XCVR_DOM_CAPABILITY_WIDTH)
sfp_obj = sff8472InterfaceId()
calibration_type = sfp_obj._get_calibration_type(eeprom_raw)
dom_supported = (int(eeprom_raw[XCVR_DOM_CAPABILITY_OFFSET], 16) & XCVR_DOM_CAPABILITY_DOM_SUPPORT_BIT != 0)
if not dom_supported:
return transceiver_dom_info_dict
eeprom_domraw = self._read_eeprom_specific_bytes_via_ethtool(port_num, offset, SFP_I2C_PAGE_SIZE)
if eeprom_domraw is None:
return transceiver_dom_info_dict
sfpd_obj = sff8472Dom(None, calibration_type)
if sfpd_obj is None:
print "no sff8472Dom"
return None
dom_temperature_raw = eeprom_domraw[SFP_TEMPE_OFFSET:SFP_TEMPE_OFFSET+SFP_TEMPE_WIDTH]
dom_temperature_data = sfpd_obj.parse_temperature(dom_temperature_raw, 0)
dom_voltage_raw = eeprom_domraw[SFP_VOLT_OFFSET:SFP_VOLT_OFFSET+SFP_VOLT_WIDTH]
dom_voltage_data = sfpd_obj.parse_voltage(dom_voltage_raw, 0)
dom_channel_monitor_raw = eeprom_domraw[SFP_CHANNL_MON_OFFSET:SFP_CHANNL_MON_OFFSET+SFP_CHANNL_MON_WIDTH]
dom_channel_monitor_data = sfpd_obj.parse_channel_monitor_params(dom_channel_monitor_raw, 0)
transceiver_dom_info_dict['temperature'] = dom_temperature_data['data']['Temperature']['value']
transceiver_dom_info_dict['voltage'] = dom_voltage_data['data']['Vcc']['value']
transceiver_dom_info_dict['rx1power'] = dom_channel_monitor_data['data']['RXPower']['value']
transceiver_dom_info_dict['tx1bias'] = dom_channel_monitor_data['data']['TXBias']['value']
transceiver_dom_info_dict['tx1power'] = dom_channel_monitor_data['data']['TXPower']['value']
return transceiver_dom_info_dict
def get_transceiver_dom_threshold_info_dict(self, port_num):
transceiver_dom_threshold_info_dict = {}
dom_info_dict_keys = ['temphighalarm', 'temphighwarning',
'templowalarm', 'templowwarning',
'vcchighalarm', 'vcchighwarning',
'vcclowalarm', 'vcclowwarning',
'rxpowerhighalarm', 'rxpowerhighwarning',
'rxpowerlowalarm', 'rxpowerlowwarning',
'txpowerhighalarm', 'txpowerhighwarning',
'txpowerlowalarm', 'txpowerlowwarning',
'txbiashighalarm', 'txbiashighwarning',
'txbiaslowalarm', 'txbiaslowwarning'
]
transceiver_dom_threshold_info_dict = dict.fromkeys(dom_info_dict_keys, 'N/A')
if port_num in self.qsfp_ports:
# current we don't support qsfp since threshold data is on page 3 and the way to read this page is under discussion.
return transceiver_dom_threshold_info_dict
else:
offset = SFP_I2C_PAGE_SIZE
eeprom_raw = ['0'] * SFP_I2C_PAGE_SIZE
eeprom_raw[XCVR_DOM_CAPABILITY_OFFSET : XCVR_DOM_CAPABILITY_OFFSET + XCVR_DOM_CAPABILITY_WIDTH] = \
self._read_eeprom_specific_bytes_via_ethtool(port_num, XCVR_DOM_CAPABILITY_OFFSET, XCVR_DOM_CAPABILITY_WIDTH)
sfp_obj = sff8472InterfaceId()
calibration_type = sfp_obj._get_calibration_type(eeprom_raw)
dom_supported = (int(eeprom_raw[XCVR_DOM_CAPABILITY_OFFSET], 16) & XCVR_DOM_CAPABILITY_DOM_SUPPORT_BIT != 0)
if not dom_supported:
return transceiver_dom_threshold_info_dict
sfpd_obj = sff8472Dom(None, calibration_type)
if sfpd_obj is None:
return transceiver_dom_threshold_info_dict
dom_module_threshold_raw = self._read_eeprom_specific_bytes_via_ethtool(port_num,
(offset + SFP_MODULE_THRESHOLD_OFFSET),
SFP_MODULE_THRESHOLD_WIDTH)
if dom_module_threshold_raw is not None:
dom_module_threshold_data = sfpd_obj.parse_alarm_warning_threshold(dom_module_threshold_raw, 0)
else:
return transceiver_dom_threshold_info_dict
# Threshold Data
transceiver_dom_threshold_info_dict['temphighalarm'] = dom_module_threshold_data['data']['TempHighAlarm']['value']
transceiver_dom_threshold_info_dict['templowalarm'] = dom_module_threshold_data['data']['TempLowAlarm']['value']
transceiver_dom_threshold_info_dict['temphighwarning'] = dom_module_threshold_data['data']['TempHighWarning']['value']
transceiver_dom_threshold_info_dict['templowwarning'] = dom_module_threshold_data['data']['TempLowWarning']['value']
transceiver_dom_threshold_info_dict['vcchighalarm'] = dom_module_threshold_data['data']['VoltageHighAlarm']['value']
transceiver_dom_threshold_info_dict['vcclowalarm'] = dom_module_threshold_data['data']['VoltageLowAlarm']['value']
transceiver_dom_threshold_info_dict['vcchighwarning'] = dom_module_threshold_data['data']['VoltageHighWarning']['value']
transceiver_dom_threshold_info_dict['vcclowwarning'] = dom_module_threshold_data['data']['VoltageLowWarning']['value']
transceiver_dom_threshold_info_dict['txbiashighalarm'] = dom_module_threshold_data['data']['BiasHighAlarm']['value']
transceiver_dom_threshold_info_dict['txbiaslowalarm'] = dom_module_threshold_data['data']['BiasLowAlarm']['value']
transceiver_dom_threshold_info_dict['txbiashighwarning'] = dom_module_threshold_data['data']['BiasHighWarning']['value']
transceiver_dom_threshold_info_dict['txbiaslowwarning'] = dom_module_threshold_data['data']['BiasLowWarning']['value']
transceiver_dom_threshold_info_dict['txpowerhighalarm'] = dom_module_threshold_data['data']['TXPowerHighAlarm']['value']
transceiver_dom_threshold_info_dict['txpowerlowalarm'] = dom_module_threshold_data['data']['TXPowerLowAlarm']['value']
transceiver_dom_threshold_info_dict['txpowerhighwarning'] = dom_module_threshold_data['data']['TXPowerHighWarning']['value']
transceiver_dom_threshold_info_dict['txpowerlowwarning'] = dom_module_threshold_data['data']['TXPowerLowWarning']['value']
transceiver_dom_threshold_info_dict['rxpowerhighalarm'] = dom_module_threshold_data['data']['RXPowerHighAlarm']['value']
transceiver_dom_threshold_info_dict['rxpowerlowalarm'] = dom_module_threshold_data['data']['RXPowerLowAlarm']['value']
transceiver_dom_threshold_info_dict['rxpowerhighwarning'] = dom_module_threshold_data['data']['RXPowerHighWarning']['value']
transceiver_dom_threshold_info_dict['rxpowerlowwarning'] = dom_module_threshold_data['data']['RXPowerLowWarning']['value']
return transceiver_dom_threshold_info_dict