util/apcb/apcb_v3_edit.py - mirrors/cros/chromiumos/third_party/coreboot - Git at Google

 #!/usr/bin/env python3

 # Script for editing APCB_V3 binaries, such as injecting SPDs.

 import sys
 import re
 import argparse
 from collections import namedtuple
 from struct import *
 import binascii
 import os

 # SPD_MAGIC matches the expected SPD header:
 # Byte 0 = 0x23 = 512 bytes total / 384 bytes used
 # Byte 1 = 0x11 = Revision 1.1
 # Byte 2 = 0x11 = LPDDR4X SDRAM
 #        = 0x13 = LP5 SDRAM
 # Byte 3 = 0x0E = Non-DIMM Solution
 LP4_SPD_MAGIC = bytes.fromhex('2311110E')
 LP5_SPD_MAGIC = bytes.fromhex('2311130E')
 EMPTY_SPD = b'\x00' * 512

 spd_ssp_struct_fmt = '??B?IIBBBxIIBBBx'
 spd_ssp_struct = namedtuple(
     'spd_ssp_struct', 'SpdValid, DimmPresent, \
                     PageAddress, NvDimmPresent, \
                     DramManufacturersIDCode, Address, \
                     SpdMuxPresent, MuxI2CAddress, MuxChannel, \
                     Technology, Package, SocketNumber, \
                     ChannelNumber, DimmNumber')

 apcb_v3_header_fmt = 'HHHHBBBBBBH'
 apcb_v3_header = namedtuple(
     'apcb_v3_header', 'GroupId, TypeId, SizeOfType, \
     InstanceId, ContextType, ContextFormat, UnitSize, \
     PriorityMask, KeySize, KeyPos, BoardMask')

 def parseargs():
     parser = argparse.ArgumentParser(description='Inject SPDs into APCB binaries')
     parser.add_argument(
         'apcb_in',
         type=str,
         help='APCB input file')
     parser.add_argument(
         'apcb_out',
         type=str,
         help='APCB output file')
     parser.add_argument(
         '--spd_sources',
         nargs='+',
         help='List of SPD sources')
     parser.add_argument(
         '--mem_type',
         type=str,
         default='lp4',
         help='Memory type [lp4|lp5]. Default = lp4')
     return parser.parse_args()


 def chksum(data):
     sum = 0
     for b in data[:16] + data[17:]:
         sum = (sum + b) & 0xff
     return (0x100 - sum) & 0xff


 def inject(orig, insert, offset):
     return b''.join([orig[:offset], insert, orig[offset + len(insert):]])


 def main():
     spd_magic = LP4_SPD_MAGIC

     args = parseargs()

     print(f'Reading input APCB from {args.apcb_in}')

     with open(args.apcb_in, 'rb') as f:
         apcb = f.read()

     orig_apcb_len = len(apcb)

     assert chksum(apcb) == apcb[16], f'ERROR: {args.apcb_in} checksum is invalid'

     print(f'Using SPD Sources = {args.spd_sources}')

     if args.mem_type == 'lp5':
         spd_magic = LP5_SPD_MAGIC

     spds = []
     for spd_source in args.spd_sources:
         with open(spd_source, 'rb') as f:
             spd_data = bytes.fromhex(re.sub(r'\s+', '', f.read().decode()))
         assert(len(spd_data) == 512), f'ERROR: {spd_source} not 512 bytes'
         spds.append(spd_data)

     spd_offset = 0
     instance = 0
     while True:
         spd_offset = apcb.find(spd_magic, spd_offset)
         if spd_offset < 0:
             print('No more SPD magic numbers in APCB')
             break

         spd_ssp_offset = spd_offset - calcsize(spd_ssp_struct_fmt)
         spd_ssp_bytes = apcb[spd_ssp_offset:spd_offset]
         spd_ssp = spd_ssp_struct._make(
             unpack(spd_ssp_struct_fmt, spd_ssp_bytes))

         assert spd_ssp.DimmNumber >= 0 and spd_ssp.DimmNumber <= 1, \
                 'ERROR: Unexpected dimm number found in APCB'
         assert spd_ssp.ChannelNumber >= 0 and spd_ssp.ChannelNumber <= 1, \
                 'ERROR: Unexpected channel number found in APCB'

         print(f'Found SPD instance {instance} with channel {spd_ssp.ChannelNumber} '
               f'and dimm {spd_ssp.DimmNumber} at offset {spd_offset}')

         # APCB V3 header is above first channel 0 entry
         if spd_ssp.ChannelNumber == 0:
             apcb_v3_header_offset = spd_ssp_offset - \
                 calcsize(apcb_v3_header_fmt) - 4
             apcb_v3_header_bytes = apcb[apcb_v3_header_offset:
                                         apcb_v3_header_offset + calcsize(apcb_v3_header_fmt)]
             apcb_v3 = apcb_v3_header._make(
                 unpack(apcb_v3_header_fmt, apcb_v3_header_bytes))
             apcb_v3 = apcb_v3._replace(BoardMask=(1 << instance))

         if instance < len(spds):
             print(f'Enabling channel {spd_ssp.ChannelNumber}, '
                   f'dimm {spd_ssp.DimmNumber} and injecting SPD')
             spd_ssp = spd_ssp._replace(SpdValid=True, DimmPresent=True)
             spd = spds[instance]
         else:
              print(f'Disabling channel {spd_ssp.ChannelNumber}, '
                    f'dimm {spd_ssp.DimmNumber} and clearing SPD')
              spd_ssp = spd_ssp._replace(SpdValid=False, DimmPresent=False)
              spd = EMPTY_SPD

         assert len(spd) == 512, f'ERROR: Expected SPD to be 512 bytes, got {len(spd)}'

         apcb = inject(apcb, pack(spd_ssp_struct_fmt, *spd_ssp), spd_ssp_offset)
         apcb = inject(apcb, spd, spd_offset)
         if spd_ssp.ChannelNumber == 0:
             apcb = inject(apcb, pack(apcb_v3_header_fmt, *apcb_v3), apcb_v3_header_offset)
         else:
             instance += 1

         spd_offset += 512

     assert instance >= len(spds), \
             f'ERROR: Not enough SPD slots in APCB, found {instance}, need {len(spds)}'

     print(f'Fixing checksum and writing to {args.apcb_out}')

     apcb = inject(apcb, bytes([chksum(apcb)]), 16)

     assert chksum(apcb) == apcb[16], 'ERROR: Final checksum is invalid'
     assert orig_apcb_len == len(apcb), \
                 'ERROR: The size of the APCB binary changed.'

     print(f'Writing {len(apcb)} bytes to {args.apcb_out}')

     with open(args.apcb_out, 'wb') as f:
         f.write(apcb)


 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3

	# Script for editing APCB_V3 binaries, such as injecting SPDs.

	import sys
	import re
	import argparse
	from collections import namedtuple
	from struct import *
	import binascii
	import os

	# SPD_MAGIC matches the expected SPD header:
	# Byte 0 = 0x23 = 512 bytes total / 384 bytes used
	# Byte 1 = 0x11 = Revision 1.1
	# Byte 2 = 0x11 = LPDDR4X SDRAM
	# = 0x13 = LP5 SDRAM
	# Byte 3 = 0x0E = Non-DIMM Solution
	LP4_SPD_MAGIC = bytes.fromhex('2311110E')
	LP5_SPD_MAGIC = bytes.fromhex('2311130E')
	EMPTY_SPD = b'\x00' * 512

	spd_ssp_struct_fmt = '??B?IIBBBxIIBBBx'
	spd_ssp_struct = namedtuple(
	'spd_ssp_struct', 'SpdValid, DimmPresent, \
	PageAddress, NvDimmPresent, \
	DramManufacturersIDCode, Address, \
	SpdMuxPresent, MuxI2CAddress, MuxChannel, \
	Technology, Package, SocketNumber, \
	ChannelNumber, DimmNumber')

	apcb_v3_header_fmt = 'HHHHBBBBBBH'
	apcb_v3_header = namedtuple(
	'apcb_v3_header', 'GroupId, TypeId, SizeOfType, \
	InstanceId, ContextType, ContextFormat, UnitSize, \
	PriorityMask, KeySize, KeyPos, BoardMask')

	def parseargs():
	parser = argparse.ArgumentParser(description='Inject SPDs into APCB binaries')
	parser.add_argument(
	'apcb_in',
	type=str,
	help='APCB input file')
	parser.add_argument(
	'apcb_out',
	type=str,
	help='APCB output file')
	parser.add_argument(
	'--spd_sources',
	nargs='+',
	help='List of SPD sources')
	parser.add_argument(
	'--mem_type',
	type=str,
	default='lp4',
	help='Memory type [lp4\|lp5]. Default = lp4')
	return parser.parse_args()


	def chksum(data):
	sum = 0
	for b in data[:16] + data[17:]:
	sum = (sum + b) & 0xff
	return (0x100 - sum) & 0xff


	def inject(orig, insert, offset):
	return b''.join([orig[:offset], insert, orig[offset + len(insert):]])


	def main():
	spd_magic = LP4_SPD_MAGIC

	args = parseargs()

	print(f'Reading input APCB from {args.apcb_in}')

	with open(args.apcb_in, 'rb') as f:
	apcb = f.read()

	orig_apcb_len = len(apcb)

	assert chksum(apcb) == apcb[16], f'ERROR: {args.apcb_in} checksum is invalid'

	print(f'Using SPD Sources = {args.spd_sources}')

	if args.mem_type == 'lp5':
	spd_magic = LP5_SPD_MAGIC

	spds = []
	for spd_source in args.spd_sources:
	with open(spd_source, 'rb') as f:
	spd_data = bytes.fromhex(re.sub(r'\s+', '', f.read().decode()))
	assert(len(spd_data) == 512), f'ERROR: {spd_source} not 512 bytes'
	spds.append(spd_data)

	spd_offset = 0
	instance = 0
	while True:
	spd_offset = apcb.find(spd_magic, spd_offset)
	if spd_offset < 0:
	print('No more SPD magic numbers in APCB')
	break

	spd_ssp_offset = spd_offset - calcsize(spd_ssp_struct_fmt)
	spd_ssp_bytes = apcb[spd_ssp_offset:spd_offset]
	spd_ssp = spd_ssp_struct._make(
	unpack(spd_ssp_struct_fmt, spd_ssp_bytes))

	assert spd_ssp.DimmNumber >= 0 and spd_ssp.DimmNumber <= 1, \
	'ERROR: Unexpected dimm number found in APCB'
	assert spd_ssp.ChannelNumber >= 0 and spd_ssp.ChannelNumber <= 1, \
	'ERROR: Unexpected channel number found in APCB'

	print(f'Found SPD instance {instance} with channel {spd_ssp.ChannelNumber} '
	f'and dimm {spd_ssp.DimmNumber} at offset {spd_offset}')

	# APCB V3 header is above first channel 0 entry
	if spd_ssp.ChannelNumber == 0:
	apcb_v3_header_offset = spd_ssp_offset - \
	calcsize(apcb_v3_header_fmt) - 4
	apcb_v3_header_bytes = apcb[apcb_v3_header_offset:
	apcb_v3_header_offset + calcsize(apcb_v3_header_fmt)]
	apcb_v3 = apcb_v3_header._make(
	unpack(apcb_v3_header_fmt, apcb_v3_header_bytes))
	apcb_v3 = apcb_v3._replace(BoardMask=(1 << instance))

	if instance < len(spds):
	print(f'Enabling channel {spd_ssp.ChannelNumber}, '
	f'dimm {spd_ssp.DimmNumber} and injecting SPD')
	spd_ssp = spd_ssp._replace(SpdValid=True, DimmPresent=True)
	spd = spds[instance]
	else:
	print(f'Disabling channel {spd_ssp.ChannelNumber}, '
	f'dimm {spd_ssp.DimmNumber} and clearing SPD')
	spd_ssp = spd_ssp._replace(SpdValid=False, DimmPresent=False)
	spd = EMPTY_SPD

	assert len(spd) == 512, f'ERROR: Expected SPD to be 512 bytes, got {len(spd)}'

	apcb = inject(apcb, pack(spd_ssp_struct_fmt, *spd_ssp), spd_ssp_offset)
	apcb = inject(apcb, spd, spd_offset)
	if spd_ssp.ChannelNumber == 0:
	apcb = inject(apcb, pack(apcb_v3_header_fmt, *apcb_v3), apcb_v3_header_offset)
	else:
	instance += 1

	spd_offset += 512

	assert instance >= len(spds), \
	f'ERROR: Not enough SPD slots in APCB, found {instance}, need {len(spds)}'

	print(f'Fixing checksum and writing to {args.apcb_out}')

	apcb = inject(apcb, bytes([chksum(apcb)]), 16)

	assert chksum(apcb) == apcb[16], 'ERROR: Final checksum is invalid'
	assert orig_apcb_len == len(apcb), \
	'ERROR: The size of the APCB binary changed.'

	print(f'Writing {len(apcb)} bytes to {args.apcb_out}')

	with open(args.apcb_out, 'wb') as f:
	f.write(apcb)


	if __name__ == "__main__":
	main()