0c9040dec9
* [sonic_platform.sfp] support get_transceiver_dom_threshold_info_dict * [platform/sfp]qsfp threshold and beautify code 1. qsfp threshold: tx power 2. beautify code, removing some magic numbers 3. optimize get_present by only reading one byte.
1612 lines
72 KiB
Python
1612 lines
72 KiB
Python
#!/usr/bin/env python
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#############################################################################
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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 FANs status which are available in the platform
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#
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#############################################################################
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try:
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import os
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import subprocess
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import time
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from sonic_platform_base.sfp_base import SfpBase
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from sonic_platform_base.sonic_eeprom import eeprom_dts
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from sonic_platform_base.sonic_sfp.sff8472 import sff8472InterfaceId
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from sonic_platform_base.sonic_sfp.sff8472 import sff8472Dom
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from sonic_platform_base.sonic_sfp.sff8436 import sff8436InterfaceId
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from sonic_platform_base.sonic_sfp.sff8436 import sff8436Dom
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from sonic_platform_base.sonic_sfp.inf8628 import inf8628InterfaceId
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from sonic_daemon_base.daemon_base import Logger
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from python_sdk_api.sxd_api import *
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from python_sdk_api.sx_api import *
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except ImportError as e:
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raise ImportError (str(e) + "- required module not found")
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# definitions of the offset and width for values in XCVR info eeprom
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XCVR_INTFACE_BULK_OFFSET = 0
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XCVR_INTFACE_BULK_WIDTH_QSFP = 20
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XCVR_INTFACE_BULK_WIDTH_SFP = 21
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XCVR_TYPE_OFFSET = 0
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XCVR_TYPE_WIDTH = 1
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XCVR_EXT_TYPE_OFFSET = 1
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XCVR_EXT_TYPE_WIDTH = 1
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XCVR_CONNECTOR_OFFSET = 2
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XCVR_CONNECTOR_WIDTH = 1
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XCVR_COMPLIANCE_CODE_OFFSET = 3
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XCVR_COMPLIANCE_CODE_WIDTH = 8
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XCVR_ENCODING_OFFSET = 11
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XCVR_ENCODING_WIDTH = 1
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XCVR_NBR_OFFSET = 12
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XCVR_NBR_WIDTH = 1
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XCVR_EXT_RATE_SEL_OFFSET = 13
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XCVR_EXT_RATE_SEL_WIDTH = 1
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XCVR_CABLE_LENGTH_OFFSET = 14
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XCVR_CABLE_LENGTH_WIDTH_QSFP = 5
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XCVR_CABLE_LENGTH_WIDTH_SFP = 6
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XCVR_VENDOR_NAME_OFFSET = 20
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XCVR_VENDOR_NAME_WIDTH = 16
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XCVR_VENDOR_OUI_OFFSET = 37
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XCVR_VENDOR_OUI_WIDTH = 3
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XCVR_VENDOR_PN_OFFSET = 40
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XCVR_VENDOR_PN_WIDTH = 16
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XCVR_HW_REV_OFFSET = 56
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XCVR_HW_REV_WIDTH_OSFP = 2
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XCVR_HW_REV_WIDTH_QSFP = 2
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XCVR_HW_REV_WIDTH_SFP = 4
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XCVR_VENDOR_SN_OFFSET = 68
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XCVR_VENDOR_SN_WIDTH = 16
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XCVR_VENDOR_DATE_OFFSET = 84
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XCVR_VENDOR_DATE_WIDTH = 8
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XCVR_DOM_CAPABILITY_OFFSET = 92
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XCVR_DOM_CAPABILITY_WIDTH = 2
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# to improve performance we retrieve all eeprom data via a single ethtool command
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# in function get_transceiver_info and get_transceiver_bulk_status
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# XCVR_INTERFACE_DATA_SIZE stands for the max size to be read
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# this variable is only used by get_transceiver_info.
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# please be noted that each time some new value added to the function
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# we should make sure that it falls into the area
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# [XCVR_INTERFACE_DATA_START, XCVR_INTERFACE_DATA_SIZE] or
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# adjust XCVR_INTERFACE_MAX_SIZE to contain the new data
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# It's same for [QSFP_DOM_BULK_DATA_START, QSFP_DOM_BULK_DATA_SIZE] and
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# [SFP_DOM_BULK_DATA_START, SFP_DOM_BULK_DATA_SIZE] which are used by
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# get_transceiver_bulk_status
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XCVR_INTERFACE_DATA_START = 0
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XCVR_INTERFACE_DATA_SIZE = 92
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SFP_MODULE_ADDRA2_OFFSET = 256
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SFP_MODULE_THRESHOLD_OFFSET = 0
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SFP_MODULE_THRESHOLD_WIDTH = 56
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QSFP_DOM_BULK_DATA_START = 22
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QSFP_DOM_BULK_DATA_SIZE = 36
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SFP_DOM_BULK_DATA_START = 96
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SFP_DOM_BULK_DATA_SIZE = 10
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# definitions of the offset for values in OSFP info eeprom
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OSFP_TYPE_OFFSET = 0
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OSFP_VENDOR_NAME_OFFSET = 129
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OSFP_VENDOR_PN_OFFSET = 148
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OSFP_HW_REV_OFFSET = 164
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OSFP_VENDOR_SN_OFFSET = 166
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#definitions of the offset and width for values in DOM info eeprom
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QSFP_DOM_REV_OFFSET = 1
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QSFP_DOM_REV_WIDTH = 1
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QSFP_TEMPE_OFFSET = 22
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QSFP_TEMPE_WIDTH = 2
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QSFP_VOLT_OFFSET = 26
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QSFP_VOLT_WIDTH = 2
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QSFP_VERSION_COMPLIANCE_OFFSET = 1
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QSFP_VERSION_COMPLIANCE_WIDTH = 2
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QSFP_CHANNL_MON_OFFSET = 34
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QSFP_CHANNL_MON_WIDTH = 16
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QSFP_CHANNL_MON_WITH_TX_POWER_WIDTH = 24
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QSFP_CHANNL_DISABLE_STATUS_OFFSET = 86
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QSFP_CHANNL_DISABLE_STATUS_WIDTH = 1
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QSFP_CHANNL_RX_LOS_STATUS_OFFSET = 3
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QSFP_CHANNL_RX_LOS_STATUS_WIDTH = 1
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QSFP_CHANNL_TX_FAULT_STATUS_OFFSET = 4
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QSFP_CHANNL_TX_FAULT_STATUS_WIDTH = 1
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QSFP_CONTROL_OFFSET = 86
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QSFP_CONTROL_WIDTH = 8
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QSFP_MODULE_MONITOR_OFFSET = 0
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QSFP_MODULE_MONITOR_WIDTH = 9
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QSFP_POWEROVERRIDE_OFFSET = 93
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QSFP_POWEROVERRIDE_WIDTH = 1
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QSFP_POWEROVERRIDE_BIT = 0
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QSFP_POWERSET_BIT = 1
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QSFP_OPTION_VALUE_OFFSET = 192
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QSFP_OPTION_VALUE_WIDTH = 4
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QSFP_MODULE_UPPER_PAGE3_START = 384
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QSFP_MODULE_THRESHOLD_OFFSET = 128
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QSFP_MODULE_THRESHOLD_WIDTH = 24
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QSFP_CHANNL_THRESHOLD_OFFSET = 176
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QSFP_CHANNL_THRESHOLD_WIDTH = 24
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SFP_TEMPE_OFFSET = 96
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SFP_TEMPE_WIDTH = 2
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SFP_VOLT_OFFSET = 98
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SFP_VOLT_WIDTH = 2
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SFP_CHANNL_MON_OFFSET = 100
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SFP_CHANNL_MON_WIDTH = 6
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SFP_CHANNL_STATUS_OFFSET = 110
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SFP_CHANNL_STATUS_WIDTH = 1
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qsfp_cable_length_tup = ('Length(km)', 'Length OM3(2m)',
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'Length OM2(m)', 'Length OM1(m)',
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'Length Cable Assembly(m)')
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sfp_cable_length_tup = ('LengthSMFkm-UnitsOfKm', 'LengthSMF(UnitsOf100m)',
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'Length50um(UnitsOf10m)', 'Length62.5um(UnitsOfm)',
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'LengthCable(UnitsOfm)', 'LengthOM3(UnitsOf10m)')
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sfp_compliance_code_tup = ('10GEthernetComplianceCode', 'InfinibandComplianceCode',
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'ESCONComplianceCodes', 'SONETComplianceCodes',
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'EthernetComplianceCodes','FibreChannelLinkLength',
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'FibreChannelTechnology', 'SFP+CableTechnology',
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'FibreChannelTransmissionMedia','FibreChannelSpeed')
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qsfp_compliance_code_tup = ('10/40G Ethernet Compliance Code', 'SONET Compliance codes',
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'SAS/SATA compliance codes', 'Gigabit Ethernet Compliant codes',
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'Fibre Channel link length/Transmitter Technology',
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'Fibre Channel transmission media', 'Fibre Channel Speed')
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SFP_PATH = "/var/run/hw-management/qsfp/"
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SFP_TYPE = "SFP"
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QSFP_TYPE = "QSFP"
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OSFP_TYPE = "OSFP"
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#variables for sdk
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REGISTER_NUM = 1
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DEVICE_ID = 1
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SWITCH_ID = 0
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SX_PORT_ATTR_ARR_SIZE = 64
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PMAOS_ASE = 1
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PMAOS_EE = 1
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PMAOS_E = 2
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PMAOS_RST = 0
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PMAOS_ENABLE = 1
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PMAOS_DISABLE = 2
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PMMP_LPMODE_BIT = 8
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MCION_TX_DISABLE_BIT = 1
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#on page 0
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#i2c address 0x50
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MCIA_ADDR_TX_CHANNEL_DISABLE = 86
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MCIA_ADDR_POWER_OVERRIDE = 93
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#power set bit
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MCIA_ADDR_POWER_OVERRIDE_PS_BIT = 1
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#power override bit
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MCIA_ADDR_POWER_OVERRIDE_POR_BIT = 0
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#on page 0
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#i2c address 0x51
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MCIA_ADDR_TX_DISABLE = 110
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MCIA_ADDR_TX_DISABLE_BIT = 6
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PORT_TYPE_NVE = 8
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PORT_TYPE_OFFSET = 28
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PORT_TYPE_MASK = 0xF0000000
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NVE_MASK = PORT_TYPE_MASK & (PORT_TYPE_NVE << PORT_TYPE_OFFSET)
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# Global logger class instance
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logger = Logger()
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class SFP(SfpBase):
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"""Platform-specific SFP class"""
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def __init__(self, sfp_index, sfp_type):
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self.index = sfp_index + 1
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self.sfp_eeprom_path = "qsfp{}".format(self.index)
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self.sfp_status_path = "qsfp{}_status".format(self.index)
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self.sfp_type = sfp_type
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self.dom_tx_disable_supported = False
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self._dom_capability_detect()
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self.sdk_handle = None
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self.sdk_index = sfp_index
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#SDK initializing stuff
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def _initialize_sdk_handle(self):
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"""
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reference: device\mellanox\<sku>\pulgins\sfpreset.py
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"""
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rc, self.sdk_handle = sx_api_open(None)
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if (rc != SX_STATUS_SUCCESS):
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logger.log_warning("Failed to open api handle, please check whether SDK is running.")
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self.sdk_handle = None
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self.mypid = os.getpid()
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def _open_sdk(self):
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if self.sdk_handle is None:
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self._initialize_sdk_handle()
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rc = sxd_access_reg_init(self.mypid, None, 0)
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if rc != 0:
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logger.log_warning("Failed to initializing register access, please check that SDK is running.")
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return False
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return True
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def _close_sdk(self):
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rc = sxd_access_reg_deinit()
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if rc != 0:
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logger.log_warning("Failed to deinitializing register access.")
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#no further actions here
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def _init_sx_meta_data(self):
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meta = sxd_reg_meta_t()
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meta.dev_id = DEVICE_ID
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meta.swid = SWITCH_ID
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return meta
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def get_presence(self):
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"""
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Retrieves the presence of the device
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Returns:
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bool: True if device is present, False if not
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"""
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presence = False
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ethtool_cmd = "ethtool -m sfp{} hex on offset 0 length 1 2>/dev/null".format(self.index)
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try:
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proc = subprocess.Popen(ethtool_cmd, stdout=subprocess.PIPE, shell=True, stderr=subprocess.STDOUT)
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stdout = proc.communicate()[0]
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proc.wait()
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result = stdout.rstrip('\n')
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if result != '':
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presence = True
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except OSError, e:
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raise OSError("Cannot detect sfp")
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return presence
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# Read out any bytes from any offset
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def _read_eeprom_specific_bytes(self, offset, num_bytes):
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eeprom_raw = []
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ethtool_cmd = "ethtool -m sfp{} hex on offset {} length {}".format(self.index, offset, num_bytes)
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try:
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output = subprocess.check_output(ethtool_cmd, shell=True)
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output_lines = output.splitlines()
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first_line_raw = output_lines[0]
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if "Offset" in first_line_raw:
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for line in output_lines[2:]:
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line_split = line.split()
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eeprom_raw = eeprom_raw + line_split[1:]
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except subprocess.CalledProcessError as e:
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return None
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return eeprom_raw
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def _dom_capability_detect(self):
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if not self.get_presence():
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self.dom_supported = False
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self.dom_temp_supported = False
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self.dom_volt_supported = False
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self.dom_rx_power_supported = False
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self.dom_tx_power_supported = False
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self.calibration = 0
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return
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if self.sfp_type == "QSFP":
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self.calibration = 1
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sfpi_obj = sff8436InterfaceId()
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if sfpi_obj is None:
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self.dom_supported = False
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offset = 128
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# QSFP capability byte parse, through this byte can know whether it support tx_power or not.
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# TODO: in the future when decided to migrate to support SFF-8636 instead of SFF-8436,
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# need to add more code for determining the capability and version compliance
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# in SFF-8636 dom capability definitions evolving with the versions.
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qsfp_dom_capability_raw = self._read_eeprom_specific_bytes((offset + XCVR_DOM_CAPABILITY_OFFSET), XCVR_DOM_CAPABILITY_WIDTH)
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if qsfp_dom_capability_raw is not None:
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qsfp_version_compliance_raw = self._read_eeprom_specific_bytes(QSFP_VERSION_COMPLIANCE_OFFSET, QSFP_VERSION_COMPLIANCE_WIDTH)
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qsfp_version_compliance = int(qsfp_version_compliance_raw[0], 16)
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dom_capability = sfpi_obj.parse_qsfp_dom_capability(qsfp_dom_capability_raw, 0)
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if qsfp_version_compliance >= 0x08:
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self.dom_temp_supported = dom_capability['data']['Temp_support']['value'] == 'On'
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self.dom_volt_supported = dom_capability['data']['Voltage_support']['value'] == 'On'
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self.dom_rx_power_supported = dom_capability['data']['Rx_power_support']['value'] == 'On'
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self.dom_tx_power_supported = dom_capability['data']['Tx_power_support']['value'] == 'On'
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else:
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self.dom_temp_supported = True
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self.dom_volt_supported = True
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self.dom_rx_power_supported = dom_capability['data']['Rx_power_support']['value'] == 'On'
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self.dom_tx_power_supported = True
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self.dom_supported = True
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self.calibration = 1
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sfpd_obj = sff8436Dom()
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if sfpd_obj is None:
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return None
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qsfp_option_value_raw = self._read_eeprom_specific_bytes(QSFP_OPTION_VALUE_OFFSET, QSFP_OPTION_VALUE_WIDTH)
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if qsfp_option_value_raw is not None:
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optional_capability = sfpd_obj.parse_option_params(qsfp_option_value_raw, 0)
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self.dom_tx_disable_supported = optional_capability['data']['TxDisable']['value'] == 'On'
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dom_status_indicator = sfpd_obj.parse_dom_status_indicator(qsfp_version_compliance_raw, 1)
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self.qsfp_page3_available = dom_status_indicator['data']['FlatMem']['value'] == 'Off'
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else:
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self.dom_supported = False
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self.dom_temp_supported = False
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self.dom_volt_supported = False
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self.dom_rx_power_supported = False
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self.dom_tx_power_supported = False
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self.calibration = 0
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self.qsfp_page3_available = False
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elif self.sfp_type == "SFP":
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sfpi_obj = sff8472InterfaceId()
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if sfpi_obj is None:
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return None
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sfp_dom_capability_raw = self._read_eeprom_specific_bytes(XCVR_DOM_CAPABILITY_OFFSET, XCVR_DOM_CAPABILITY_WIDTH)
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if sfp_dom_capability_raw is not None:
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sfp_dom_capability = int(sfp_dom_capability_raw[0], 16)
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self.dom_supported = (sfp_dom_capability & 0x40 != 0)
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if self.dom_supported:
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self.dom_temp_supported = True
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self.dom_volt_supported = True
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self.dom_rx_power_supported = True
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self.dom_tx_power_supported = True
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if sfp_dom_capability & 0x20 != 0:
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self.calibration = 1
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elif sfp_dom_capability & 0x10 != 0:
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self.calibration = 2
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else:
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self.calibration = 0
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else:
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self.dom_temp_supported = False
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self.dom_volt_supported = False
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self.dom_rx_power_supported = False
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self.dom_tx_power_supported = False
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self.calibration = 0
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self.dom_tx_disable_supported = (int(sfp_dom_capability_raw[1], 16) & 0x40 != 0)
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else:
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self.dom_supported = False
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self.dom_temp_supported = False
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self.dom_volt_supported = False
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self.dom_rx_power_supported = False
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self.dom_tx_power_supported = False
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def _convert_string_to_num(self, value_str):
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if "-inf" in value_str:
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return 'N/A'
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elif "Unknown" in value_str:
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return 'N/A'
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elif 'dBm' in value_str:
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t_str = value_str.rstrip('dBm')
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return float(t_str)
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elif 'mA' in value_str:
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t_str = value_str.rstrip('mA')
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return float(t_str)
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elif 'C' in value_str:
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t_str = value_str.rstrip('C')
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return float(t_str)
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elif 'Volts' in value_str:
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t_str = value_str.rstrip('Volts')
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return float(t_str)
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else:
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return 'N/A'
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def get_transceiver_info(self):
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"""
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Retrieves transceiver info of this SFP
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Returns:
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A dict which contains following keys/values :
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========================================================================
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keys |Value Format |Information
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---------------------------|---------------|----------------------------
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type |1*255VCHAR |type of SFP
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hardwarerev |1*255VCHAR |hardware version of SFP
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serialnum |1*255VCHAR |serial number of the SFP
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manufacturename |1*255VCHAR |SFP vendor name
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modelname |1*255VCHAR |SFP model name
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Connector |1*255VCHAR |connector information
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encoding |1*255VCHAR |encoding information
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ext_identifier |1*255VCHAR |extend identifier
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ext_rateselect_compliance |1*255VCHAR |extended rateSelect compliance
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cable_length |INT |cable length in m
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mominal_bit_rate |INT |nominal bit rate by 100Mbs
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specification_compliance |1*255VCHAR |specification compliance
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vendor_date |1*255VCHAR |vendor date
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vendor_oui |1*255VCHAR |vendor OUI
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========================================================================
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"""
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transceiver_info_dict = {}
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compliance_code_dict = {}
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# ToDo: OSFP tranceiver info parsing not fully supported.
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# in inf8628.py lack of some memory map definition
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# will be implemented when the inf8628 memory map ready
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if self.sfp_type == OSFP_TYPE:
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offset = 0
|
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vendor_rev_width = XCVR_HW_REV_WIDTH_OSFP
|
|
|
|
sfpi_obj = inf8628InterfaceId()
|
|
if sfpi_obj is None:
|
|
return None
|
|
|
|
sfp_type_raw = self._read_eeprom_specific_bytes((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((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((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((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((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']
|
|
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 self.sfp_type == QSFP_TYPE:
|
|
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(offset + XCVR_INTERFACE_DATA_START, XCVR_INTERFACE_DATA_SIZE)
|
|
if sfp_interface_bulk_raw is None:
|
|
return None
|
|
|
|
start = XCVR_INTFACE_BULK_OFFSET - XCVR_INTERFACE_DATA_START
|
|
end = start + interface_info_bulk_width
|
|
sfp_interface_bulk_data = sfpi_obj.parse_sfp_info_bulk(sfp_interface_bulk_raw[start : end], 0)
|
|
|
|
start = XCVR_VENDOR_NAME_OFFSET - XCVR_INTERFACE_DATA_START
|
|
end = start + XCVR_VENDOR_NAME_WIDTH
|
|
sfp_vendor_name_data = sfpi_obj.parse_vendor_name(sfp_interface_bulk_raw[start : end], 0)
|
|
|
|
start = XCVR_VENDOR_PN_OFFSET - XCVR_INTERFACE_DATA_START
|
|
end = start + XCVR_VENDOR_PN_WIDTH
|
|
sfp_vendor_pn_data = sfpi_obj.parse_vendor_pn(sfp_interface_bulk_raw[start : end], 0)
|
|
|
|
start = XCVR_HW_REV_OFFSET - XCVR_INTERFACE_DATA_START
|
|
end = start + vendor_rev_width
|
|
sfp_vendor_rev_data = sfpi_obj.parse_vendor_rev(sfp_interface_bulk_raw[start : end], 0)
|
|
|
|
start = XCVR_VENDOR_SN_OFFSET - XCVR_INTERFACE_DATA_START
|
|
end = start + XCVR_VENDOR_SN_WIDTH
|
|
sfp_vendor_sn_data = sfpi_obj.parse_vendor_sn(sfp_interface_bulk_raw[start : end], 0)
|
|
|
|
start = XCVR_VENDOR_OUI_OFFSET - XCVR_INTERFACE_DATA_START
|
|
end = start + XCVR_VENDOR_OUI_WIDTH
|
|
sfp_vendor_oui_data = sfpi_obj.parse_vendor_oui(sfp_interface_bulk_raw[start : end], 0)
|
|
|
|
start = XCVR_VENDOR_DATE_OFFSET - XCVR_INTERFACE_DATA_START
|
|
end = start + XCVR_VENDOR_DATE_WIDTH
|
|
sfp_vendor_date_data = sfpi_obj.parse_vendor_date(sfp_interface_bulk_raw[start : end], 0)
|
|
|
|
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 self.sfp_type == QSFP_TYPE:
|
|
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_bulk_status(self):
|
|
"""
|
|
Retrieves transceiver bulk status of this SFP
|
|
|
|
Returns:
|
|
A dict which contains following keys/values :
|
|
========================================================================
|
|
keys |Value Format |Information
|
|
---------------------------|---------------|----------------------------
|
|
RX LOS |BOOLEAN |RX lost-of-signal status,
|
|
| |True if has RX los, False if not.
|
|
TX FAULT |BOOLEAN |TX fault status,
|
|
| |True if has TX fault, False if not.
|
|
Reset status |BOOLEAN |reset status,
|
|
| |True if SFP in reset, False if not.
|
|
LP mode |BOOLEAN |low power mode status,
|
|
| |True in lp mode, False if not.
|
|
TX disable |BOOLEAN |TX disable status,
|
|
| |True TX disabled, False if not.
|
|
TX disabled channel |HEX |disabled TX channles in hex,
|
|
| |bits 0 to 3 represent channel 0
|
|
| |to channel 3.
|
|
Temperature |INT |module temperature in Celsius
|
|
Voltage |INT |supply voltage in mV
|
|
TX bias |INT |TX Bias Current in mA
|
|
RX power |INT |received optical power in mW
|
|
TX power |INT |TX output power in mW
|
|
========================================================================
|
|
"""
|
|
transceiver_dom_info_dict = {}
|
|
|
|
dom_info_dict_keys = ['temperature', 'voltage',
|
|
'rx1power', 'rx2power',
|
|
'rx3power', 'rx4power',
|
|
'tx1bias', 'tx2bias',
|
|
'tx3bias', 'tx4bias',
|
|
'tx1power', 'tx2power',
|
|
'tx3power', 'tx4power'
|
|
]
|
|
transceiver_dom_info_dict = dict.fromkeys(dom_info_dict_keys, 'N/A')
|
|
|
|
if self.sfp_type == OSFP_TYPE:
|
|
pass
|
|
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
if not self.dom_supported:
|
|
return transceiver_dom_info_dict
|
|
|
|
offset = 0
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return transceiver_dom_info_dict
|
|
|
|
dom_data_raw = self._read_eeprom_specific_bytes((offset + QSFP_DOM_BULK_DATA_START), QSFP_DOM_BULK_DATA_SIZE)
|
|
if dom_data_raw is None:
|
|
return transceiver_dom_info_dict
|
|
|
|
if self.dom_temp_supported:
|
|
start = QSFP_TEMPE_OFFSET - QSFP_DOM_BULK_DATA_START
|
|
end = start + QSFP_TEMPE_WIDTH
|
|
dom_temperature_data = sfpd_obj.parse_temperature(dom_data_raw[start : end], 0)
|
|
temp = self._convert_string_to_num(dom_temperature_data['data']['Temperature']['value'])
|
|
if temp is not None:
|
|
transceiver_dom_info_dict['temperature'] = temp
|
|
|
|
if self.dom_volt_supported:
|
|
start = QSFP_VOLT_OFFSET - QSFP_DOM_BULK_DATA_START
|
|
end = start + QSFP_VOLT_WIDTH
|
|
dom_voltage_data = sfpd_obj.parse_voltage(dom_data_raw[start : end], 0)
|
|
volt = self._convert_string_to_num(dom_voltage_data['data']['Vcc']['value'])
|
|
if volt is not None:
|
|
transceiver_dom_info_dict['voltage'] = volt
|
|
|
|
start = QSFP_CHANNL_MON_OFFSET - QSFP_DOM_BULK_DATA_START
|
|
end = start + QSFP_CHANNL_MON_WITH_TX_POWER_WIDTH
|
|
dom_channel_monitor_data = sfpd_obj.parse_channel_monitor_params_with_tx_power(dom_data_raw[start : end], 0)
|
|
|
|
if self.dom_tx_power_supported:
|
|
transceiver_dom_info_dict['tx1power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['TX1Power']['value'])
|
|
transceiver_dom_info_dict['tx2power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['TX2Power']['value'])
|
|
transceiver_dom_info_dict['tx3power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['TX3Power']['value'])
|
|
transceiver_dom_info_dict['tx4power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['TX4Power']['value'])
|
|
|
|
if self.dom_rx_power_supported:
|
|
transceiver_dom_info_dict['rx1power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['RX1Power']['value'])
|
|
transceiver_dom_info_dict['rx2power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['RX2Power']['value'])
|
|
transceiver_dom_info_dict['rx3power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['RX3Power']['value'])
|
|
transceiver_dom_info_dict['rx4power'] = self._convert_string_to_num(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:
|
|
if not self.dom_supported:
|
|
return transceiver_dom_info_dict
|
|
|
|
offset = 256
|
|
sfpd_obj = sff8472Dom()
|
|
if sfpd_obj is None:
|
|
return transceiver_dom_info_dict
|
|
sfpd_obj._calibration_type = self.calibration
|
|
|
|
dom_data_raw = self._read_eeprom_specific_bytes((offset + SFP_DOM_BULK_DATA_START), SFP_DOM_BULK_DATA_SIZE)
|
|
|
|
start = SFP_TEMPE_OFFSET - SFP_DOM_BULK_DATA_START
|
|
end = start + SFP_TEMPE_WIDTH
|
|
dom_temperature_data = sfpd_obj.parse_temperature(dom_data_raw[start: end], 0)
|
|
|
|
start = SFP_VOLT_OFFSET - SFP_DOM_BULK_DATA_START
|
|
end = start + SFP_VOLT_WIDTH
|
|
dom_voltage_data = sfpd_obj.parse_voltage(dom_data_raw[start: end], 0)
|
|
|
|
start = SFP_CHANNL_MON_OFFSET - SFP_DOM_BULK_DATA_START
|
|
end = start + SFP_CHANNL_MON_WIDTH
|
|
dom_channel_monitor_data = sfpd_obj.parse_channel_monitor_params(dom_data_raw[start: end], 0)
|
|
|
|
transceiver_dom_info_dict['temperature'] = self._convert_string_to_num(dom_temperature_data['data']['Temperature']['value'])
|
|
transceiver_dom_info_dict['voltage'] = self._convert_string_to_num(dom_voltage_data['data']['Vcc']['value'])
|
|
transceiver_dom_info_dict['rx1power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['RXPower']['value'])
|
|
transceiver_dom_info_dict['tx1bias'] = self._convert_string_to_num(dom_channel_monitor_data['data']['TXBias']['value'])
|
|
transceiver_dom_info_dict['tx1power'] = self._convert_string_to_num(dom_channel_monitor_data['data']['TXPower']['value'])
|
|
|
|
return transceiver_dom_info_dict
|
|
|
|
|
|
def get_transceiver_threshold_info(self):
|
|
"""
|
|
Retrieves transceiver threshold info of this SFP
|
|
|
|
Returns:
|
|
A dict which contains following keys/values :
|
|
========================================================================
|
|
keys |Value Format |Information
|
|
---------------------------|---------------|----------------------------
|
|
temphighalarm |FLOAT |High Alarm Threshold value of temperature in Celsius.
|
|
templowalarm |FLOAT |Low Alarm Threshold value of temperature in Celsius.
|
|
temphighwarning |FLOAT |High Warning Threshold value of temperature in Celsius.
|
|
templowwarning |FLOAT |Low Warning Threshold value of temperature in Celsius.
|
|
vcchighalarm |FLOAT |High Alarm Threshold value of supply voltage in mV.
|
|
vcclowalarm |FLOAT |Low Alarm Threshold value of supply voltage in mV.
|
|
vcchighwarning |FLOAT |High Warning Threshold value of supply voltage in mV.
|
|
vcclowwarning |FLOAT |Low Warning Threshold value of supply voltage in mV.
|
|
rxpowerhighalarm |FLOAT |High Alarm Threshold value of received power in dBm.
|
|
rxpowerlowalarm |FLOAT |Low Alarm Threshold value of received power in dBm.
|
|
rxpowerhighwarning |FLOAT |High Warning Threshold value of received power in dBm.
|
|
rxpowerlowwarning |FLOAT |Low Warning Threshold value of received power in dBm.
|
|
txpowerhighalarm |FLOAT |High Alarm Threshold value of transmit power in dBm.
|
|
txpowerlowalarm |FLOAT |Low Alarm Threshold value of transmit power in dBm.
|
|
txpowerhighwarning |FLOAT |High Warning Threshold value of transmit power in dBm.
|
|
txpowerlowwarning |FLOAT |Low Warning Threshold value of transmit power in dBm.
|
|
txbiashighalarm |FLOAT |High Alarm Threshold value of tx Bias Current in mA.
|
|
txbiaslowalarm |FLOAT |Low Alarm Threshold value of tx Bias Current in mA.
|
|
txbiashighwarning |FLOAT |High Warning Threshold value of tx Bias Current in mA.
|
|
txbiaslowwarning |FLOAT |Low Warning Threshold value of tx Bias Current in mA.
|
|
========================================================================
|
|
"""
|
|
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 self.sfp_type == OSFP_TYPE:
|
|
pass
|
|
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
if not self.dom_supported or not self.qsfp_page3_available:
|
|
return transceiver_dom_threshold_info_dict
|
|
|
|
# Dom Threshold data starts from offset 384
|
|
# Revert offset back to 0 once data is retrieved
|
|
offset = QSFP_MODULE_UPPER_PAGE3_START
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return transceiver_dom_threshold_info_dict
|
|
|
|
dom_module_threshold_raw = self._read_eeprom_specific_bytes((offset + QSFP_MODULE_THRESHOLD_OFFSET), QSFP_MODULE_THRESHOLD_WIDTH)
|
|
if dom_module_threshold_raw is None:
|
|
return transceiver_dom_threshold_info_dict
|
|
|
|
dom_module_threshold_data = sfpd_obj.parse_module_threshold_values(dom_module_threshold_raw, 0)
|
|
|
|
dom_channel_threshold_raw = self._read_eeprom_specific_bytes((offset + QSFP_CHANNL_THRESHOLD_OFFSET),
|
|
QSFP_CHANNL_THRESHOLD_WIDTH)
|
|
if dom_channel_threshold_raw is None:
|
|
return transceiver_dom_threshold_info_dict
|
|
dom_channel_threshold_data = sfpd_obj.parse_channel_threshold_values(dom_channel_threshold_raw, 0)
|
|
|
|
# Threshold Data
|
|
transceiver_dom_threshold_info_dict['temphighalarm'] = dom_module_threshold_data['data']['TempHighAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['temphighwarning'] = dom_module_threshold_data['data']['TempHighWarning']['value']
|
|
transceiver_dom_threshold_info_dict['templowalarm'] = dom_module_threshold_data['data']['TempLowAlarm']['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']['VccHighAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['vcchighwarning'] = dom_module_threshold_data['data']['VccHighWarning']['value']
|
|
transceiver_dom_threshold_info_dict['vcclowalarm'] = dom_module_threshold_data['data']['VccLowAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['vcclowwarning'] = dom_module_threshold_data['data']['VccLowWarning']['value']
|
|
transceiver_dom_threshold_info_dict['rxpowerhighalarm'] = dom_channel_threshold_data['data']['RxPowerHighAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['rxpowerhighwarning'] = dom_channel_threshold_data['data']['RxPowerHighWarning']['value']
|
|
transceiver_dom_threshold_info_dict['rxpowerlowalarm'] = dom_channel_threshold_data['data']['RxPowerLowAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['rxpowerlowwarning'] = dom_channel_threshold_data['data']['RxPowerLowWarning']['value']
|
|
transceiver_dom_threshold_info_dict['txbiashighalarm'] = dom_channel_threshold_data['data']['TxBiasHighAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['txbiashighwarning'] = dom_channel_threshold_data['data']['TxBiasHighWarning']['value']
|
|
transceiver_dom_threshold_info_dict['txbiaslowalarm'] = dom_channel_threshold_data['data']['TxBiasLowAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['txbiaslowwarning'] = dom_channel_threshold_data['data']['TxBiasLowWarning']['value']
|
|
transceiver_dom_threshold_info_dict['txpowerhighalarm'] = dom_channel_threshold_data['data']['TxPowerHighAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['txpowerhighwarning'] = dom_channel_threshold_data['data']['TxPowerHighWarning']['value']
|
|
transceiver_dom_threshold_info_dict['txpowerlowalarm'] = dom_channel_threshold_data['data']['TxPowerLowAlarm']['value']
|
|
transceiver_dom_threshold_info_dict['txpowerlowwarning'] = dom_channel_threshold_data['data']['TxPowerLowWarning']['value']
|
|
|
|
else:
|
|
offset = SFP_MODULE_ADDRA2_OFFSET
|
|
|
|
if not self.dom_supported:
|
|
return transceiver_dom_threshold_info_dict
|
|
|
|
sfpd_obj = sff8472Dom(None, self.calibration)
|
|
if sfpd_obj is None:
|
|
return transceiver_dom_threshold_info_dict
|
|
|
|
dom_module_threshold_raw = self._read_eeprom_specific_bytes((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
|
|
|
|
|
|
def get_reset_status(self):
|
|
"""
|
|
Retrieves the reset status of SFP
|
|
|
|
Returns:
|
|
A Boolean, True if reset enabled, False if disabled
|
|
|
|
for QSFP, originally I would like to make use of Initialization complete flag bit
|
|
which is at Page a0 offset 6 bit 0 to test whether reset is complete.
|
|
However as unit testing was carried out I find this approach may fail because:
|
|
1. we make use of ethtool to read data on I2C bus rather than to read directly
|
|
2. ethtool is unable to access I2C during QSFP module being reset
|
|
In other words, whenever the flag is able to be retrived, the value is always be 1
|
|
As a result, it doesn't make sense to retrieve that flag. Just treat successfully
|
|
retrieving data as "data ready".
|
|
for SFP it seems that there is not flag indicating whether reset succeed. However,
|
|
we can also do it in the way for QSFP.
|
|
"""
|
|
if not self.dom_supported:
|
|
return False
|
|
|
|
if self.sfp_type == OSFP_TYPE:
|
|
return False
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
sfpd_obj = sff8436Dom()
|
|
dom_module_monitor_raw = self._read_eeprom_specific_bytes((offset + QSFP_MODULE_MONITOR_OFFSET), QSFP_MODULE_MONITOR_WIDTH)
|
|
|
|
if dom_module_monitor_raw is not None:
|
|
return True
|
|
else:
|
|
return False
|
|
elif self.sfp_type == SFP_TYPE:
|
|
offset = 0
|
|
sfpd_obj = sff8472Dom()
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + SFP_CHANNL_STATUS_OFFSET), SFP_CHANNL_STATUS_WIDTH)
|
|
|
|
if dom_channel_monitor_raw is not None:
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
|
|
def get_rx_los(self):
|
|
"""
|
|
Retrieves the RX LOS (lost-of-signal) status of SFP
|
|
|
|
Returns:
|
|
A Boolean, True if SFP has RX LOS, False if not.
|
|
Note : RX LOS status is latched until a call to get_rx_los or a reset.
|
|
"""
|
|
if not self.dom_supported:
|
|
return None
|
|
|
|
rx_los_list = []
|
|
if self.sfp_type == OSFP_TYPE:
|
|
return None
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + QSFP_CHANNL_RX_LOS_STATUS_OFFSET), QSFP_CHANNL_RX_LOS_STATUS_WIDTH)
|
|
if dom_channel_monitor_raw is not None:
|
|
rx_los_data = int(dom_channel_monitor_raw[0], 16)
|
|
rx_los_list.append(rx_los_data & 0x01 != 0)
|
|
rx_los_list.append(rx_los_data & 0x02 != 0)
|
|
rx_los_list.append(rx_los_data & 0x04 != 0)
|
|
rx_los_list.append(rx_los_data & 0x08 != 0)
|
|
else:
|
|
offset = 256
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + SFP_CHANNL_STATUS_OFFSET), SFP_CHANNL_STATUS_WIDTH)
|
|
if dom_channel_monitor_raw is not None:
|
|
rx_los_data = int(dom_channel_monitor_raw[0], 16)
|
|
rx_los_list.append(rx_los_data & 0x02 != 0)
|
|
else:
|
|
return None
|
|
return rx_los_list
|
|
|
|
|
|
def get_tx_fault(self):
|
|
"""
|
|
Retrieves the TX fault status of SFP
|
|
|
|
Returns:
|
|
A Boolean, True if SFP has TX fault, False if not
|
|
Note : TX fault status is lached until a call to get_tx_fault or a reset.
|
|
"""
|
|
if not self.dom_supported:
|
|
return None
|
|
|
|
tx_fault_list = []
|
|
if self.sfp_type == OSFP_TYPE:
|
|
return None
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + QSFP_CHANNL_TX_FAULT_STATUS_OFFSET), QSFP_CHANNL_TX_FAULT_STATUS_WIDTH)
|
|
if dom_channel_monitor_raw is not None:
|
|
tx_fault_data = int(dom_channel_monitor_raw[0], 16)
|
|
tx_fault_list.append(tx_fault_data & 0x01 != 0)
|
|
tx_fault_list.append(tx_fault_data & 0x02 != 0)
|
|
tx_fault_list.append(tx_fault_data & 0x04 != 0)
|
|
tx_fault_list.append(tx_fault_data & 0x08 != 0)
|
|
else:
|
|
offset = 256
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + SFP_CHANNL_STATUS_OFFSET), SFP_CHANNL_STATUS_WIDTH)
|
|
if dom_channel_monitor_raw is not None:
|
|
tx_fault_data = int(dom_channel_monitor_raw[0], 16)
|
|
tx_fault_list.append(tx_fault_data & 0x04 != 0)
|
|
else:
|
|
return None
|
|
return tx_fault_list
|
|
|
|
|
|
def get_tx_disable(self):
|
|
"""
|
|
Retrieves the tx_disable status of this SFP
|
|
|
|
Returns:
|
|
A Boolean, True if tx_disable is enabled, False if disabled
|
|
|
|
for QSFP, the disable states of each channel which are the lower 4 bits in byte 85 page a0
|
|
for SFP, the TX Disable State and Soft TX Disable Select is ORed as the tx_disable status returned
|
|
These two bits are bit 7 & 6 in byte 110 page a2 respectively
|
|
"""
|
|
if not self.dom_supported:
|
|
return None
|
|
|
|
tx_disable_list = []
|
|
if self.sfp_type == OSFP_TYPE:
|
|
return None
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + QSFP_CHANNL_DISABLE_STATUS_OFFSET), QSFP_CHANNL_DISABLE_STATUS_WIDTH)
|
|
if dom_channel_monitor_raw is not None:
|
|
tx_disable_data = int(dom_channel_monitor_raw[0], 16)
|
|
tx_disable_list.append(tx_disable_data & 0x01 != 0)
|
|
tx_disable_list.append(tx_disable_data & 0x02 != 0)
|
|
tx_disable_list.append(tx_disable_data & 0x04 != 0)
|
|
tx_disable_list.append(tx_disable_data & 0x08 != 0)
|
|
else:
|
|
offset = 256
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + SFP_CHANNL_STATUS_OFFSET), SFP_CHANNL_STATUS_WIDTH)
|
|
if dom_channel_monitor_raw is not None:
|
|
tx_disable_data = int(dom_channel_monitor_raw[0], 16)
|
|
tx_disable_list.append(tx_disable_data & 0xC0 != 0)
|
|
else:
|
|
return None
|
|
return tx_disable_list
|
|
|
|
|
|
def get_tx_disable_channel(self):
|
|
"""
|
|
Retrieves the TX disabled channels in this SFP
|
|
|
|
Returns:
|
|
A hex of 4 bits (bit 0 to bit 3 as channel 0 to channel 3) to represent
|
|
TX channels which have been disabled in this SFP.
|
|
As an example, a returned value of 0x5 indicates that channel 0
|
|
and channel 2 have been disabled.
|
|
"""
|
|
tx_disable_list = self.get_tx_disable()
|
|
if tx_disable_list is None:
|
|
return 0
|
|
tx_disabled = 0
|
|
for i in range(len(tx_disable_list)):
|
|
if tx_disable_list[i]:
|
|
tx_disabled |= 1 << i
|
|
return tx_disabled
|
|
|
|
|
|
def get_lpmode(self):
|
|
"""
|
|
Retrieves the lpmode (low power mode) status of this SFP
|
|
|
|
Returns:
|
|
A Boolean, True if lpmode is enabled, False if disabled
|
|
"""
|
|
if self.sfp_type == QSFP_TYPE:
|
|
if self._open_sdk():
|
|
# Get MCION
|
|
mcion = ku_mcion_reg()
|
|
mcion.module = self.sdk_index
|
|
meta = self._init_sx_meta_data()
|
|
meta.access_cmd = SXD_ACCESS_CMD_GET
|
|
|
|
rc = sxd_access_reg_mcion(mcion, meta, REGISTER_NUM, None, None)
|
|
self._close_sdk()
|
|
|
|
if rc != SXD_STATUS_SUCCESS:
|
|
logger.log_warning("sxd_access_reg_mcion getting failed, rc = %d" % rc)
|
|
return None
|
|
|
|
# Get low power mode status
|
|
lpm_mask = 1 << 8
|
|
lpm_status = (lpm_mask & mcion.module_status_bits) != 0
|
|
|
|
return lpm_status
|
|
else:
|
|
return NotImplementedError
|
|
|
|
|
|
def get_power_override(self):
|
|
"""
|
|
Retrieves the power-override status of this SFP
|
|
|
|
Returns:
|
|
A Boolean, True if power-override is enabled, False if disabled
|
|
"""
|
|
if self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return False
|
|
|
|
dom_control_raw = self._read_eeprom_specific_bytes((offset + QSFP_CONTROL_OFFSET), QSFP_CONTROL_WIDTH)
|
|
if dom_control_raw is not None:
|
|
dom_control_data = sfpd_obj.parse_control_bytes(dom_control_raw, 0)
|
|
return ('On' == dom_control_data['data']['PowerOverride'])
|
|
else:
|
|
return NotImplementedError
|
|
|
|
|
|
def get_temperature(self):
|
|
"""
|
|
Retrieves the temperature of this SFP
|
|
|
|
Returns:
|
|
An integer number of current temperature in Celsius
|
|
"""
|
|
if not self.dom_supported:
|
|
return None
|
|
if self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
offset_xcvr = 128
|
|
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
if self.dom_temp_supported:
|
|
dom_temperature_raw = self._read_eeprom_specific_bytes((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)
|
|
temp = self._convert_string_to_num(dom_temperature_data['data']['Temperature']['value'])
|
|
return temp
|
|
else:
|
|
return None
|
|
else:
|
|
return None
|
|
else:
|
|
offset = 256
|
|
sfpd_obj = sff8472Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
sfpd_obj._calibration_type = 1
|
|
|
|
dom_temperature_raw = self._read_eeprom_specific_bytes((offset + SFP_TEMPE_OFFSET), SFP_TEMPE_WIDTH)
|
|
if dom_temperature_raw is not None:
|
|
dom_temperature_data = sfpd_obj.parse_temperature(dom_temperature_raw, 0)
|
|
temp = self._convert_string_to_num(dom_temperature_data['data']['Temperature']['value'])
|
|
return temp
|
|
else:
|
|
return None
|
|
|
|
|
|
def get_voltage(self):
|
|
"""
|
|
Retrieves the supply voltage of this SFP
|
|
|
|
Returns:
|
|
An integer number of supply voltage in mV
|
|
"""
|
|
if not self.dom_supported:
|
|
return None
|
|
if self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
offset_xcvr = 128
|
|
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
if self.dom_volt_supported:
|
|
dom_voltage_raw = self._read_eeprom_specific_bytes((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)
|
|
voltage = self._convert_string_to_num(dom_voltage_data['data']['Vcc']['value'])
|
|
return voltage
|
|
else:
|
|
return None
|
|
return None
|
|
else:
|
|
offset = 256
|
|
|
|
sfpd_obj = sff8472Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
sfpd_obj._calibration_type = self.calibration
|
|
|
|
dom_voltage_raw = self._read_eeprom_specific_bytes((offset + SFP_VOLT_OFFSET), SFP_VOLT_WIDTH)
|
|
if dom_voltage_raw is not None:
|
|
dom_voltage_data = sfpd_obj.parse_voltage(dom_voltage_raw, 0)
|
|
voltage = self._convert_string_to_num(dom_voltage_data['data']['Vcc']['value'])
|
|
return voltage
|
|
else:
|
|
return None
|
|
|
|
|
|
def get_tx_bias(self):
|
|
"""
|
|
Retrieves the TX bias current of this SFP
|
|
|
|
Returns:
|
|
A list of four integer numbers, representing TX bias in mA
|
|
for channel 0 to channel 4.
|
|
Ex. ['110.09', '111.12', '108.21', '112.09']
|
|
"""
|
|
tx_bias_list = []
|
|
if self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
offset_xcvr = 128
|
|
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((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)
|
|
tx_bias_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX1Bias']['value']))
|
|
tx_bias_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX2Bias']['value']))
|
|
tx_bias_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX3Bias']['value']))
|
|
tx_bias_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX4Bias']['value']))
|
|
else:
|
|
offset = 256
|
|
|
|
sfpd_obj = sff8472Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
sfpd_obj._calibration_type = self.calibration
|
|
|
|
if self.dom_supported:
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + SFP_CHANNL_MON_OFFSET), SFP_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)
|
|
tx_bias_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TXBias']['value']))
|
|
else:
|
|
return None
|
|
else:
|
|
return None
|
|
|
|
return tx_bias_list
|
|
|
|
|
|
def get_rx_power(self):
|
|
"""
|
|
Retrieves the received optical power for this SFP
|
|
|
|
Returns:
|
|
A list of four integer numbers, representing received optical
|
|
power in mW for channel 0 to channel 4.
|
|
Ex. ['1.77', '1.71', '1.68', '1.70']
|
|
"""
|
|
rx_power_list = []
|
|
if self.sfp_type == OSFP_TYPE:
|
|
# OSFP not supported on our platform yet.
|
|
return None
|
|
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
offset_xcvr = 128
|
|
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
if self.dom_rx_power_supported:
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((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)
|
|
rx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['RX1Power']['value']))
|
|
rx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['RX2Power']['value']))
|
|
rx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['RX3Power']['value']))
|
|
rx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['RX4Power']['value']))
|
|
else:
|
|
return None
|
|
else:
|
|
return None
|
|
else:
|
|
offset = 256
|
|
|
|
sfpd_obj = sff8472Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
if self.dom_supported:
|
|
sfpd_obj._calibration_type = self.calibration
|
|
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + SFP_CHANNL_MON_OFFSET), SFP_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)
|
|
rx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['RXPower']['value']))
|
|
else:
|
|
return None
|
|
else:
|
|
return None
|
|
return rx_power_list
|
|
|
|
|
|
def get_tx_power(self):
|
|
"""
|
|
Retrieves the TX power of this SFP
|
|
|
|
Returns:
|
|
A list of four integer numbers, representing TX power in mW
|
|
for channel 0 to channel 4.
|
|
Ex. ['1.86', '1.86', '1.86', '1.86']
|
|
"""
|
|
tx_power_list = []
|
|
if self.sfp_type == OSFP_TYPE:
|
|
# OSFP not supported on our platform yet.
|
|
return None
|
|
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
offset = 0
|
|
offset_xcvr = 128
|
|
|
|
sfpd_obj = sff8436Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
if self.dom_tx_power_supported:
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((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)
|
|
tx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX1Power']['value']))
|
|
tx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX2Power']['value']))
|
|
tx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX3Power']['value']))
|
|
tx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TX4Power']['value']))
|
|
else:
|
|
return None
|
|
else:
|
|
return None
|
|
else:
|
|
offset = 256
|
|
sfpd_obj = sff8472Dom()
|
|
if sfpd_obj is None:
|
|
return None
|
|
|
|
if self.dom_supported:
|
|
sfpd_obj._calibration_type = self.calibration
|
|
|
|
dom_channel_monitor_raw = self._read_eeprom_specific_bytes((offset + SFP_CHANNL_MON_OFFSET), SFP_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)
|
|
tx_power_list.append(self._convert_string_to_num(dom_channel_monitor_data['data']['TXPower']['value']))
|
|
else:
|
|
return None
|
|
else:
|
|
return None
|
|
return tx_power_list
|
|
|
|
|
|
def reset(self):
|
|
"""
|
|
Reset SFP and return all user module settings to their default state.
|
|
|
|
Returns:
|
|
A boolean, True if successful, False if not
|
|
|
|
refer plugins/sfpreset.py
|
|
"""
|
|
handle = self._open_sdk()
|
|
if handle is None:
|
|
return False
|
|
|
|
# Get PMAOS
|
|
pmaos = ku_pmaos_reg()
|
|
pmaos.module = self.sdk_index
|
|
meta = self._init_sx_meta_data()
|
|
meta.access_cmd = SXD_ACCESS_CMD_GET
|
|
|
|
rc = sxd_access_reg_pmaos(pmaos, meta, REGISTER_NUM, None, None)
|
|
if rc != SXD_STATUS_SUCCESS:
|
|
logger.log_warning("sxd_access_reg_pmaos getting failed, rc = %d" % rc)
|
|
self._close_sdk()
|
|
return None
|
|
|
|
# Reset SFP
|
|
pmaos.rst = 1
|
|
meta.access_cmd = SXD_ACCESS_CMD_SET
|
|
rc = sxd_access_reg_pmaos(pmaos, meta, REGISTER_NUM, None, None)
|
|
if rc != SXD_STATUS_SUCCESS:
|
|
logger.log_warning("sxd_access_reg_pmaos setting failed, rc = %d" % rc)
|
|
|
|
self._close_sdk()
|
|
return rc == SXD_STATUS_SUCCESS
|
|
|
|
|
|
def _write_i2c_via_mcia(self, page, i2caddr, address, data, mask):
|
|
handle = self._open_sdk()
|
|
if handle is None:
|
|
return False
|
|
|
|
mcia = ku_mcia_reg()
|
|
|
|
meta = self._init_sx_meta_data()
|
|
meta.access_cmd = SXD_ACCESS_CMD_GET
|
|
|
|
mcia.module = self.sdk_index
|
|
mcia.page_number = page
|
|
mcia.i2c_device_address = i2caddr
|
|
mcia.device_address = address
|
|
mcia.size = 1
|
|
rc = sxd_access_reg_mcia(mcia, meta, REGISTER_NUM, None, None)
|
|
if rc != SXD_STATUS_SUCCESS:
|
|
logger.log_warning("sxd_access_reg_mcia getting failed, rc = %d" % rc)
|
|
self._close_sdk()
|
|
return False
|
|
|
|
original_data = (mcia.dword_0 >> 24) & 0x000000FF
|
|
updated_data = original_data & (~mask)
|
|
updated_data |= (data & mask)
|
|
|
|
mcia.dword_0 = (updated_data << 24) & 0xFF000000
|
|
meta.access_cmd = SXD_ACCESS_CMD_SET
|
|
rc = sxd_access_reg_mcia(mcia, meta, REGISTER_NUM, None, None)
|
|
if rc != SXD_STATUS_SUCCESS:
|
|
logger.log_warning("sxd_access_reg_mcia setting failed, rc = %d" % rc)
|
|
|
|
self._close_sdk()
|
|
return rc == SXD_STATUS_SUCCESS
|
|
|
|
|
|
def tx_disable(self, tx_disable):
|
|
"""
|
|
Disable SFP TX for all channels
|
|
|
|
Args:
|
|
tx_disable : A Boolean, True to enable tx_disable mode, False to disable
|
|
tx_disable mode.
|
|
|
|
Returns:
|
|
A boolean, True if tx_disable is set successfully, False if not
|
|
|
|
for SFP, make use of bit 6 of byte at (offset 110, a2h (i2c addr 0x51)) to disable/enable tx
|
|
for QSFP, set all channels to disable/enable tx
|
|
"""
|
|
if self.sfp_type == SFP_TYPE:
|
|
if self.dom_tx_disable_supported:
|
|
handle = self._open_sdk()
|
|
if handle is None:
|
|
return False
|
|
|
|
tx_disable_mask = 1 << MCIA_ADDR_TX_DISABLE_BIT
|
|
if tx_disable:
|
|
tx_disable_bit = tx_disable_mask
|
|
else:
|
|
tx_disable_bit = 0
|
|
|
|
return self._write_i2c_via_mcia(2, 0x51, MCIA_ADDR_TX_DISABLE, tx_disable_bit, tx_disable_mask)
|
|
else:
|
|
return False
|
|
elif self.sfp_type == QSFP_TYPE:
|
|
if self.dom_tx_disable_supported:
|
|
channel_mask = 0x0f
|
|
if tx_disable:
|
|
disable_flag = channel_mask
|
|
else:
|
|
disable_flag = 0
|
|
|
|
return self._write_i2c_via_mcia(0, 0x50, MCIA_ADDR_TX_CHANNEL_DISABLE, disable_flag, channel_mask)
|
|
else:
|
|
return False
|
|
else:
|
|
return NotImplementedError
|
|
|
|
|
|
def tx_disable_channel(self, channel, disable):
|
|
"""
|
|
Sets the tx_disable for specified SFP channels
|
|
|
|
Args:
|
|
channel : A hex of 4 bits (bit 0 to bit 3) which represent channel 0 to 3,
|
|
e.g. 0x5 for channel 0 and channel 2.
|
|
disable : A boolean, True to disable TX channels specified in channel,
|
|
False to enable
|
|
|
|
Returns:
|
|
A boolean, True if successful, False if not
|
|
|
|
QSFP: page a0, address 86, lower 4 bits
|
|
"""
|
|
if self.sfp_type == QSFP_TYPE:
|
|
if self.dom_tx_disable_supported:
|
|
channel_mask = 1 << channel
|
|
if disable:
|
|
disable_flag = channel_mask
|
|
else:
|
|
disable_flag = 0
|
|
|
|
return self._write_i2c_via_mcia(0, 0x50, MCIA_ADDR_TX_CHANNEL_DISABLE, disable_flag, channel_mask)
|
|
else:
|
|
return False
|
|
else:
|
|
return NotImplementedError
|
|
|
|
|
|
def is_nve(self, port):
|
|
return (port & NVE_MASK) != 0
|
|
|
|
|
|
def is_port_admin_status_up(self, log_port):
|
|
oper_state_p = new_sx_port_oper_state_t_p()
|
|
admin_state_p = new_sx_port_admin_state_t_p()
|
|
module_state_p = new_sx_port_module_state_t_p()
|
|
rc = sx_api_port_state_get(self.sdk_handle, log_port, oper_state_p, admin_state_p, module_state_p)
|
|
assert rc == SXD_STATUS_SUCCESS, "sx_api_port_state_get failed, rc = %d" % rc
|
|
|
|
admin_state = sx_port_admin_state_t_p_value(admin_state_p)
|
|
if admin_state == SX_PORT_ADMIN_STATUS_UP:
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
|
|
def set_port_admin_status_by_log_port(self, log_port, admin_status):
|
|
rc = sx_api_port_state_set(self.sdk_handle, log_port, admin_status)
|
|
assert rc == SX_STATUS_SUCCESS, "sx_api_port_state_set failed, rc = %d" % rc
|
|
|
|
|
|
# Get all the ports related to the sfp, if port admin status is up, put it to list
|
|
def get_log_ports(self):
|
|
port_attributes_list = new_sx_port_attributes_t_arr(SX_PORT_ATTR_ARR_SIZE)
|
|
port_cnt_p = new_uint32_t_p()
|
|
uint32_t_p_assign(port_cnt_p, SX_PORT_ATTR_ARR_SIZE)
|
|
|
|
rc = sx_api_port_device_get(self.sdk_handle, DEVICE_ID , SWITCH_ID, port_attributes_list, port_cnt_p)
|
|
assert rc == SX_STATUS_SUCCESS, "sx_api_port_device_get failed, rc = %d" % rc
|
|
|
|
port_cnt = uint32_t_p_value(port_cnt_p)
|
|
log_port_list = []
|
|
for i in range(0, port_cnt):
|
|
port_attributes = sx_port_attributes_t_arr_getitem(port_attributes_list, i)
|
|
if self.is_nve(int(port_attributes.log_port)) == False \
|
|
and port_attributes.port_mapping.module_port == self.sdk_index \
|
|
and self.is_port_admin_status_up(port_attributes.log_port):
|
|
log_port_list.append(port_attributes.log_port)
|
|
|
|
return log_port_list
|
|
|
|
|
|
def _set_sfp_admin_status_raw(self, admin_status):
|
|
# Get PMAOS
|
|
pmaos = ku_pmaos_reg()
|
|
pmaos.module = self.sdk_index
|
|
meta = self._init_sx_meta_data()
|
|
meta.access_cmd = SXD_ACCESS_CMD_GET
|
|
rc = sxd_access_reg_pmaos(pmaos, meta, REGISTER_NUM, None, None)
|
|
assert rc == SXD_STATUS_SUCCESS, "sxd_access_reg_pmaos failed, rc = %d" % rc
|
|
|
|
# Set admin status to PMAOS
|
|
pmaos.ase = PMAOS_ASE
|
|
pmaos.ee = PMAOS_EE
|
|
pmaos.e = PMAOS_E
|
|
pmaos.rst = PMAOS_RST
|
|
if admin_status == SX_PORT_ADMIN_STATUS_DOWN:
|
|
pmaos.admin_status = PMAOS_DISABLE
|
|
else:
|
|
pmaos.admin_status = PMAOS_ENABLE
|
|
|
|
meta.access_cmd = SXD_ACCESS_CMD_SET
|
|
rc = sxd_access_reg_pmaos(pmaos, meta, REGISTER_NUM, None, None)
|
|
assert rc == SXD_STATUS_SUCCESS, "sxd_access_reg_pmaos failed, rc = %d" % rc
|
|
|
|
|
|
def _set_lpmode_raw(self, lpmode):
|
|
# Get PMMP
|
|
pmmp = ku_pmmp_reg()
|
|
pmmp.module = self.sdk_index
|
|
meta = self._init_sx_meta_data()
|
|
meta.access_cmd = SXD_ACCESS_CMD_GET
|
|
rc = sxd_access_reg_pmmp(pmmp, meta, REGISTER_NUM, None, None)
|
|
assert rc == SXD_STATUS_SUCCESS, "sxd_access_reg_pmmp failed, rc = %d" % rc
|
|
|
|
# Set low power mode status
|
|
lpm_mask = 1 << PMMP_LPMODE_BIT
|
|
if lpmode:
|
|
pmmp.eeprom_override = pmmp.eeprom_override | lpm_mask
|
|
else:
|
|
pmmp.eeprom_override = pmmp.eeprom_override & (~lpm_mask)
|
|
|
|
meta.access_cmd = SXD_ACCESS_CMD_SET
|
|
rc = sxd_access_reg_pmmp(pmmp, meta, REGISTER_NUM, None, None)
|
|
|
|
return rc
|
|
|
|
|
|
def set_lpmode(self, lpmode):
|
|
"""
|
|
Sets the lpmode (low power mode) of SFP
|
|
|
|
Args:
|
|
lpmode: A Boolean, True to enable lpmode, False to disable it
|
|
Note : lpmode can be overridden by set_power_override
|
|
|
|
Returns:
|
|
A boolean, True if lpmode is set successfully, False if not
|
|
"""
|
|
handle = self._open_sdk()
|
|
if handle is None:
|
|
return False
|
|
try:
|
|
log_port_list = self.get_log_ports()
|
|
for log_port in log_port_list:
|
|
self.set_port_admin_status_by_log_port(log_port, SX_PORT_ADMIN_STATUS_DOWN)
|
|
self._set_sfp_admin_status_raw(SX_PORT_ADMIN_STATUS_DOWN)
|
|
|
|
result = self._set_lpmode_raw(lpmode)
|
|
|
|
self._set_sfp_admin_status_raw(SX_PORT_ADMIN_STATUS_UP)
|
|
for log_port in log_port_list:
|
|
self.set_port_admin_status_by_log_port(log_port, SX_PORT_ADMIN_STATUS_DOWN)
|
|
|
|
return result == SXD_STATUS_SUCCESS
|
|
except:
|
|
logger.log_warning("set_lpmode failed due to some SDK failure")
|
|
self._close_sdk()
|
|
return False
|
|
|
|
|
|
def set_power_override(self, power_override, power_set):
|
|
"""
|
|
Sets SFP power level using power_override and power_set
|
|
|
|
Args:
|
|
power_override :
|
|
A Boolean, True to override set_lpmode and use power_set
|
|
to control SFP power, False to disable SFP power control
|
|
through power_override/power_set and use set_lpmode
|
|
to control SFP power.
|
|
power_set :
|
|
Only valid when power_override is True.
|
|
A Boolean, True to set SFP to low power mode, False to set
|
|
SFP to high power mode.
|
|
|
|
Returns:
|
|
A boolean, True if power-override and power_set are set successfully,
|
|
False if not
|
|
"""
|
|
if self.sfp_type == QSFP_TYPE:
|
|
power_override_bit = 0
|
|
if power_override:
|
|
power_override_bit |= 1 << MCIA_ADDR_POWER_OVERRIDE_POR_BIT
|
|
power_set_bit = 0
|
|
if power_set:
|
|
power_set_bit |= 1 << MCIA_ADDR_POWER_OVERRIDE_PS_BIT
|
|
power_override_mask = 1 << MCIA_ADDR_POWER_OVERRIDE_PS_BIT | 1 << MCIA_ADDR_POWER_OVERRIDE_POR_BIT
|
|
|
|
return self._write_i2c_via_mcia(0, 0x50, MCIA_ADDR_POWER_OVERRIDE, power_set_bit|power_override_bit, power_override_mask)
|
|
else:
|
|
return NotImplementedError
|