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#
# Copyright 2017 Ettus Research, a National Instruments Company
#
# SPDX-License-Identifier: GPL-3.0-or-later
#
"""
EEPROM management code
"""
import struct
import zlib
from builtins import zip
from builtins import object
EEPROM_DEFAULT_HEADER = struct.Struct("!I I")
class MboardEEPROM(object):
"""
Given a nvmem path, read out EEPROM values from the motherboard's EEPROM.
The format of data in the EEPROM must follow the following standard:
- 4 bytes magic. This will always be the same value; checking this value is
a sanity check for if the read was successful.
- 4 bytes version. This is the version of the EEPROM format.
The following bytes are version-dependent:
Version 1:
- 4x4 bytes mcu_flags -> throw them away
- 2 bytes hw_pid
- 2 bytes hw_rev (starting at 0)
- 8 bytes serial number (zero-terminated string of 7 characters)
- 6 bytes MAC address for eth0
- 2 bytes padding
- 6 bytes MAC address for eth1
- 2 bytes padding
- 6 bytes MAC address for eth2
- 2 bytes padding
- 4 bytes CRC
Version 2: (FWIW MPM doesn't care about the extra bytes)
- 4x4 bytes mcu_flags -> throw them away
- 2 bytes hw_pid
- 2 bytes hw_rev (starting at 0)
- 8 bytes serial number (zero-terminated string of 7 characters)
- 6 bytes MAC address for eth0
- 2 bytes Devicetree compatible -> throw them away
- 6 bytes MAC address for eth1
- 2 bytes EC compatible -> throw them away
- 6 bytes MAC address for eth2
- 2 bytes padding
- 4 bytes CRC
MAC addresses are ignored here; they are read elsewhere. If we really need
to know the MAC address of an interface, we can fish it out the raw data,
or ask the system.
"""
# Create one of these for every version of the EEPROM format:
eeprom_header_format = (
None, # For laziness, we start at version 1 and thus index 0 stays empty
"!I I 16s H H 7s 1x 24s I", # Version 1
"!I I 16s H H 7s 1x 24s I", # Version 2 (Ignore the extra fields, it doesn't matter to MPM)
)
eeprom_header_keys = (
None, # For laziness, we start at version 1 and thus index 0 stays empty
('magic', 'eeprom_version', 'mcu_flags', 'pid', 'rev', 'serial', 'mac_addresses', 'CRC'), # Version 1
('magic', 'eeprom_version', 'mcu_flags', 'pid', 'rev', 'serial', 'mac_addresses', 'CRC') # Version 2 (Ignore the extra fields, it doesn't matter to MPM)
)
class DboardEEPROM(object):
"""
Given a nvmem path, read out EEPROM values from the daughterboard's EEPROM.
The format of data in the EEPROM must follow the following standard:
- 4 bytes magic. This will always be the same value; checking this value is
a sanity check for if the read was successful.
- 4 bytes version. This is the version of the EEPROM format.
The following bytes are version-dependent:
Version 1:
- 2 bytes hw_pid
- 2 bytes hw_rev (starting at 0)
- 8 bytes serial number (zero-terminated string of 7 characters)
- 4 bytes CRC
Version 2:
- 2 bytes hw_pid
- 1 byte hw_rev (starting at 0)
- 1 byte dt_compat (starting at 0, MPM can ignore that)
- 8 bytes serial number (zero-terminated string of 7 characters)
- 4 bytes CRC
MAC addresses are ignored here; they are read elsewhere. If we really need
to know the MAC address of an interface, we can fish it out the raw data,
or ask the system.
"""
# Create one of these for every version of the EEPROM format:
eeprom_header_format = (
None, # For laziness, we start at version 1 and thus index 0 stays empty
"!I I H H 7s 1x I", # Version 1
"!I I H B 1x 7s 1x I", # Version 2
)
eeprom_header_keys = (
None, # For laziness, we start at version 1 and thus index 0 stays empty
('magic', 'eeprom_version', 'pid', 'rev', 'serial', 'CRC'), # Version 1
('magic', 'eeprom_version', 'pid', 'rev', 'serial', 'CRC'), # Version 2 (Ignore the extra field, it doesn't matter to MPM)
)
def read_eeprom(
nvmem_path,
offset,
eeprom_header_format,
eeprom_header_keys,
expected_magic,
max_size=None
):
"""
Read the EEPROM located at nvmem_path and return a tuple (header, data)
Header is already parsed in the common header fields
Data contains the full eeprom data structure
nvmem_path -- Path to readable file (typically something in sysfs)
eeprom_header_format -- List of header formats, by version
eeprom_header_keys -- List of keys for the entries in the EEPROM
expected_magic -- The magic value that is expected
max_size -- Max number of bytes to be read. If omitted, will read the full file.
"""
assert len(eeprom_header_format) == len(eeprom_header_keys)
def _parse_eeprom_data(
data,
version,
):
"""
Parses the raw 'data' according to the version.
This also parses the CRC and assumes CRC is the last 4 bytes of each data.
Returns a dictionary.
"""
eeprom_parser = struct.Struct(eeprom_header_format[version])
eeprom_parser_no_crc = struct.Struct(eeprom_header_format[version][0:-1])
eeprom_keys = eeprom_header_keys[version]
parsed_data = eeprom_parser.unpack_from(data)
read_crc = parsed_data[-1]
rawdata_without_crc = eeprom_parser_no_crc.pack(*(parsed_data[0:-1]))
expected_crc = zlib.crc32(rawdata_without_crc) & 0xffffffff
if read_crc != expected_crc:
raise RuntimeError(
"Received incorrect CRC."\
"Read: {:08X} Expected: {:08X}".format(
read_crc, expected_crc))
return dict(list(zip(eeprom_keys, parsed_data)))
# Dawaj, dawaj
max_size = max_size or -1
with open(nvmem_path, "rb") as nvmem_file:
data = nvmem_file.read(max_size)[offset:]
eeprom_magic, eeprom_version = EEPROM_DEFAULT_HEADER.unpack_from(data)
if eeprom_magic != expected_magic:
raise RuntimeError(
"Received incorrect EEPROM magic. " \
"Read: {:08X} Expected: {:08X}".format(
eeprom_magic, expected_magic))
if eeprom_version >= len(eeprom_header_format):
raise RuntimeError("Unexpected EEPROM version: `{}'".format(eeprom_version))
return (_parse_eeprom_data(data, eeprom_version), data)
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