sonic-buildimage/device/juniper/x86_64-juniper_qfx5200-r0/plugins/qfx5200_eeprom_data.py
ciju-juniper d1940b2cf4
[Juniper] Re-organizing sonic_platform modules (#4448)
This patch set implements the following:
 - Fixes the conflicts in chassis.py / platform.py in sonic_platfrom
 - Consolidating the common library files in sonic_platform
 - Moving QFX5210 specific drivers to qfx5210/modules
 - Moving Juniper common fpga drivers to common/modules
 - Cleaning up the platform driver files
 - Bug fixes in QFX5210 platform monitor & initialiazation script
 - Fixing the bugs in QFX5210 eeprom parsing

Signed-off-by: Ciju Rajan K <crajank@juniper.net>
2020-04-21 02:25:51 -07:00

416 lines
15 KiB
Python

#!/usr/bin/env python
#
# Name: juniper_qfx5200_eepromconv.py version: 1.0
#
# Description: This file contains the code to store the contents of Main Board EEPROM and CPU Board EEPROM in file
#
# Copyright (c) 2020, Juniper Networks, Inc.
# All rights reserved.
#
# Notice and Disclaimer: This code is licensed to you under the GNU General
# Public License as published by the Free Software Foundation, version 3 or
# any later version. This code is not an official Juniper product. You can
# obtain a copy of the License at <https://www.gnu.org/licenses/>
#
# OSS License:
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation, either version 3 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
#
# Third-Party Code: This code may depend on other components under separate
# copyright notice and license terms. Your use of the source code for those
# components is subject to the terms and conditions of the respective license
# as noted in the Third-Party source code file.
import os
import commands
import binascii
from sonic_eeprom import eeprom_tlvinfo
def main():
eeprom_qfx5200 = Eeprom()
FAN0_TYPE="cat /sys/devices/pci0000:00/0000:00:1c.0/0000:0f:00.0/refpga-tmc.15/fan0_type"
try:
status,fan0_type=commands.getstatusoutput(FAN0_TYPE)
except Exception as e:
print "Error on refpga-tmc.15 fan0_type e:" + str(e)
return False
AFO = "1"
# creating the "/var/run/eeprom" file and storing values of CPU board EEPROM and MAIN Board EEPROM in this file.
eeprom_file = open ("/var/run/eeprom", "a+")
eeprom_file.write("\n")
if fan0_type == AFO:
eeprom_file.write("Fan Type=AFO\r\n")
else:
eeprom_file.write("Fan Type=AFI\r\n")
eeprom_file.write("\n")
# Write the contents of CPU Board EEPROM to file
eeprom_file.write("CPU board eeprom (0x51)\r\n")
eeprom_file.write("===============================\r\n")
eeprom_file.write("Product Name=%s\r\n" % eeprom_qfx5200.modelstr())
eeprom_file.write("Part Number=%s\r\n" % eeprom_qfx5200.part_number_str())
eeprom_file.write("Serial Number=%s\r\n" % eeprom_qfx5200.serial_number_str())
eeprom_file.write("MAC Address=%s\r\n" % eeprom_qfx5200.base_mac_address())
eeprom_file.write("Manufacture Date=%s\r\n" % eeprom_qfx5200.manuDate_str())
eeprom_file.write("Platform Name=%s\r\n" % eeprom_qfx5200.platform_str())
eeprom_file.write("Number of MAC Addresses=%s\r\n" % eeprom_qfx5200.MACsize_str())
eeprom_file.write("Vendor Name=%s\r\n" % eeprom_qfx5200.vendor_name_str())
eeprom_file.write("Manufacture Name=%s\r\n" % eeprom_qfx5200.manufacture_name_str())
eeprom_dict = eeprom_qfx5200.system_eeprom_info()
key = '0x29'
if key in eeprom_dict.keys():
onie_version_str = eeprom_dict.get('0x29', None)
else:
onie_version_str = "N/A"
eeprom_file.write("ONIE Version=%s\r\n" % onie_version_str)
vendor_value_formatted, vendor_value_hexvalue = eeprom_qfx5200.vendor_ext_str()
eeprom_hex = '/etc/init.d/eeprom_qfx5200_hex'
with open(eeprom_hex, 'wb+') as Hexfile:
Hexfile.write(vendor_value_hexvalue)
# Assembly ID
ASMID_str = "0D83"
with open(eeprom_hex, 'rb+') as AsmID_Hexfile:
AsmID_Hexfile.seek(24, 0)
AsmID_Hexfile.write(ASMID_str)
AsmID_Hexfile.seek(0, 0)
vendorext_read = AsmID_Hexfile.read(58)
vendorext=""
vendorext += "0x" + vendorext_read[0:2]
for i in range(2,58,2):
vendorext += " 0x" + vendorext_read[i:i+2]
eeprom_file.write("Vendor Extension=%s\r\n" % str(vendorext))
with open(eeprom_hex, 'rb') as eeprom_hexfile:
eeprom_hexfile.seek(0, 0)
IANA_position_read = eeprom_hexfile.read(8)
IANA_write = binascii.unhexlify(IANA_position_read)
eeprom_file.write("\t")
eeprom_file.write("IANA=0x%s\r\n" % IANA_write)
eeprom_hexfile.seek(8, 0)
AssemblyPartRev_position_read = eeprom_hexfile.read(16)
AssemblyPartRev_write = binascii.unhexlify(AssemblyPartRev_position_read)
eeprom_file.write("\t")
eeprom_file.write("Assembly Part Number Revision=0x%s\r\n" % AssemblyPartRev_write)
eeprom_hexfile.seek(24, 0)
AssemblyID_write = eeprom_hexfile.read(4)
eeprom_file.write("\t")
eeprom_file.write("Assembly ID=0x%s\r\n" % AssemblyID_write)
eeprom_hexfile.seek(28, 0)
HWMajorRev_write = eeprom_hexfile.read(2)
eeprom_file.write("\t")
eeprom_file.write("HW Major Revision=0x%s\r\n" % HWMajorRev_write)
eeprom_hexfile.seek(30, 0)
HWMinorRev_write = eeprom_hexfile.read(2)
eeprom_file.write("\t")
eeprom_file.write("HW Minor Revision=0x%s\r\n" % HWMinorRev_write)
eeprom_hexfile.seek(32, 0)
Deviation_write = eeprom_hexfile.read(10)
eeprom_file.write("\t")
eeprom_file.write("Deviation=0x%s\r\n" % Deviation_write)
eeprom_hexfile.seek(52, 0)
JEDC_write = eeprom_hexfile.read(4)
eeprom_file.write("\t")
eeprom_file.write("JEDC=0x%s\r\n" % JEDC_write)
eeprom_hexfile.seek(56, 0)
EEPROM_version_write = eeprom_hexfile.read(2)
eeprom_file.write("\t")
eeprom_file.write("EEPROM version=0x%s\r\n" % EEPROM_version_write)
crc_str = eeprom_dict.get('0xFE', None)
eeprom_file.write("CRC=%s\r\n" % crc_str)
eeprom_file.write("\n")
eeprom_file.write("\n")
eeprom_file.write("Main board eeprom (0x57)\r\n")
eeprom_file.write("===============================\r\n")
MainEepromCreate = 'sudo echo 24c02 0x57 > /sys/bus/i2c/devices/i2c-0/new_device'
# Write the contents of Main Board EEPROM to file
try:
os.system(MainEepromCreate)
except OSError:
print 'Error: Execution of "%s" failed', MainEepromCreate
return False
MainEepromFileCmd = 'cat /sys/bus/i2c/devices/i2c-0/0-0057/eeprom > /etc/init.d/MainEeprom_qfx5200_ascii'
try:
os.system(MainEepromFileCmd)
except OSError:
print 'Error: Execution of "%s" failed', MainEepromFileCmd
return False
maineeprom_ascii = '/etc/init.d/MainEeprom_qfx5200_ascii'
# Read file contents in Hex format
with open(maineeprom_ascii, 'rb') as Hexformat:
content = Hexformat.read()
Hexformatoutput = binascii.hexlify(content)
eeprom_hex = '/etc/init.d/MainEeprom_qfx5200_hex'
#Write contents of CPU EEPROM to new file in hexa format
with open(eeprom_hex, 'wb+') as Hexfile:
Hexfile.write(Hexformatoutput)
with open(eeprom_hex, 'rb') as eeprom_hexfile:
eeprom_hexfile.seek(8, 0)
AssemblyID_read = eeprom_hexfile.read(4)
eeprom_file.write("Assembly ID=0x%s\r\n" % AssemblyID_read)
eeprom_hexfile.seek(12, 0)
MajorHWRev_read = eeprom_hexfile.read(2)
eeprom_file.write("Assembly Major Revision=0x%s\r\n" % str(MajorHWRev_read))
eeprom_hexfile.seek(14, 0)
MinorHWRev_read = eeprom_hexfile.read(2)
eeprom_file.write("Assembly Minor Revision=0x%s\r\n" % str(MinorHWRev_read))
eeprom_hexfile.seek(24, 0)
AssemblyPNRev_read = eeprom_hexfile.read(16)
AssemblyPNRev_write = binascii.unhexlify(AssemblyPNRev_read)
eeprom_file.write("Assembly Part Number Revision=0x%s\r\n" % str(AssemblyPNRev_write))
eeprom_hexfile.seek(40, 0)
AssemblyPN_read = eeprom_hexfile.read(24)
AssemblyPN_write = binascii.unhexlify(AssemblyPN_read)
eeprom_file.write("Assembly Part Number=%s\r\n" % str(AssemblyPN_write))
eeprom_hexfile.seek(64, 0)
AssemblySN_read = eeprom_hexfile.read(24)
AssemblySN_write = binascii.unhexlify(AssemblySN_read)
eeprom_file.write("Assembly Serial Number=%s\r\n" % str(AssemblySN_write))
eeprom_hexfile.seek(90, 0)
AssemblyMFGDate_read = eeprom_hexfile.read(8)
eeprom_file.write("Manufacture Date=%s\r\n" % str(AssemblyMFGDate_read))
eeprom_hexfile.seek(138, 0)
CLEICode_read = eeprom_hexfile.read(20)
CLEI_name = binascii.unhexlify(CLEICode_read)
eeprom_file.write("CLEI Code=%s\r\n" % str(CLEI_name))
eeprom_hexfile.seek(158, 0)
FRUModelNumber_read = eeprom_hexfile.read(46)
FRUModelNumber_write = binascii.unhexlify(FRUModelNumber_read)
eeprom_file.write("FRU Model Number=%s\r\n" % str(FRUModelNumber_write))
eeprom_hexfile.seek(204, 0)
FRUModelMajorNumber_read = eeprom_hexfile.read(2)
eeprom_file.write("FRU Model Major Number=0x%s\r\n" % str(FRUModelMajorNumber_read))
eeprom_hexfile.seek(206, 0)
FRUModelMinorNumber_read = eeprom_hexfile.read(4)
eeprom_file.write("FRU Model Minor Number=0x%s\r\n" % str(FRUModelMinorNumber_read))
eeprom_hexfile.seek(210, 0)
Deviation_read = eeprom_hexfile.read(10)
eeprom_file.write("Deviation=0x%s\r\n" % str(Deviation_read))
eeprom_hexfile.seek(232, 0)
SerialNumber_read = eeprom_hexfile.read(24)
SerialNumber_write = binascii.unhexlify(SerialNumber_read)
eeprom_file.write("Chassis Serial Number=%s\r\n" % str(SerialNumber_write))
eeprom_file.close()
return True
class Eeprom(eeprom_tlvinfo.TlvInfoDecoder):
def __init__(self):
self.__eeprom_path = "/sys/class/i2c-adapter/i2c-0/0-0051/eeprom"
super(Eeprom, self).__init__(self.__eeprom_path, 0, '', True)
self.__eeprom_tlv_dict = dict()
try:
self.__eeprom_data = self.read_eeprom()
except:
self.__eeprom_data = "N/A"
raise RuntimeError("Eeprom is not Programmed")
else:
eeprom = self.__eeprom_data
if not self.is_valid_tlvinfo_header(eeprom):
return
total_length = (ord(eeprom[9]) << 8) | ord(eeprom[10])
tlv_index = self._TLV_INFO_HDR_LEN
tlv_end = self._TLV_INFO_HDR_LEN + total_length
while (tlv_index + 2) < len(eeprom) and tlv_index < tlv_end:
if not self.is_valid_tlv(eeprom[tlv_index:]):
break
tlv = eeprom[tlv_index:tlv_index + 2
+ ord(eeprom[tlv_index + 1])]
code = "0x%02X" % (ord(tlv[0]))
if ord(tlv[0]) == self._TLV_CODE_VENDOR_EXT:
value = str((ord(tlv[2]) << 24) | (ord(tlv[3]) << 16) |
(ord(tlv[4]) << 8) | ord(tlv[5]))
value += str(tlv[6:6 + ord(tlv[1])])
else:
name, value = self.decoder(None, tlv)
self.__eeprom_tlv_dict[code] = value
if ord(eeprom[tlv_index]) == self._TLV_CODE_CRC_32:
break
tlv_index += ord(eeprom[tlv_index+1]) + 2
def serial_number_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_SERIAL_NUMBER)
if not is_valid:
return "N/A"
return results[2]
def base_mac_address(self):
(is_valid, t) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_MAC_BASE)
if not is_valid or t[1] != 6:
return super(eeprom_tlvinfo.TlvInfoDecoder, self).switchaddrstr(self.__eeprom_data)
return ":".join([binascii.b2a_hex(T) for T in t[2]])
def modelstr(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_PRODUCT_NAME)
if not is_valid:
return "N/A"
return results[2]
def part_number_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_PART_NUMBER)
if not is_valid:
return "N/A"
return results[2]
def serial_tag_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_SERVICE_TAG)
if not is_valid:
return "N/A"
return results[2]
def revision_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_DEVICE_VERSION)
if not is_valid:
return "N/A"
return results[2]
def manuDate_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_MANUF_DATE)
if not is_valid:
return "N/A"
return results[2]
def platform_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_PLATFORM_NAME)
if not is_valid:
return "N/A"
return results[2]
def MACsize_str(self):
(is_valid, t) = self.get_tlv_field(self.__eeprom_data, self._TLV_CODE_MAC_SIZE)
if not is_valid:
return "N/A"
return str((ord(t[2][0]) << 8) | ord(t[2][1]))
def vendor_name_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_VENDOR_NAME)
if not is_valid:
return "N/A"
return results[2]
def manufacture_name_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_MANUF_NAME)
if not is_valid:
return "N/A"
return results[2]
def onie_version_str(self):
value = ""
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_ONIE_VERSION)
if not is_valid:
return "N/A"
for c in results[2:2 + ord(results[1])]:
value += "0x%02X " % (ord(c),)
return value
def vendor_ext_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_VENDOR_EXT)
if not is_valid:
return "N/A"
vendor_value_formatted = ''.join( [ " 0x" + "%02X " % ord( x ) for x in results[2] ] ).strip()
vendor_value_hexvalue = ''.join( ["%02X" % ord( x ) for x in results[2] ] ).strip()
return vendor_value_formatted, vendor_value_hexvalue
def crc_str(self):
(is_valid, results) = self.get_tlv_field(
self.__eeprom_data, self._TLV_CODE_CRC_32)
if not is_valid:
return "N/A"
def system_eeprom_info(self):
"""
Returns a dictionary, where keys are the type code defined in
ONIE EEPROM format and values are their corresponding values
found in the system EEPROM.
"""
return self.__eeprom_tlv_dict
if __name__ == "__main__":
main()