scripts/ta_bin_to_c.py - optee-os-mtk - Git at Google

 #!/usr/bin/env python3
 # SPDX-License-Identifier: BSD-2-Clause
 #
 # Copyright (c) 2017, Linaro Limited
 #

 import argparse
 import array
 import os
 import re
 import uuid
 import zlib


 def get_args():

     parser = argparse.ArgumentParser(
         description='Converts a Trusted '
         'Application ELF file into a C source file, ready for '
         'inclusion in the TEE binary as an "early TA".')

     parser.add_argument('--out', required=True,
                         help='Name of the output C file')

     parser.add_argument(
         '--ta',
         required=True,
         help='Path to the TA binary. File name has to be: <uuid>.* '
         'such as: 8aaaf200-2450-11e4-abe2-0002a5d5c51b.stripped.elf')

     parser.add_argument(
         '--compress',
         dest="compress",
         action="store_true",
         help='Compress the TA using the DEFLATE '
         'algorithm')

     return parser.parse_args()


 def main():

     args = get_args()

     ta_uuid = uuid.UUID(re.sub(r'\..*', '', os.path.basename(args.ta)))

     with open(args.ta, 'rb') as ta:
         bytes = ta.read()
         uncompressed_size = len(bytes)
         if args.compress:
             bytes = zlib.compress(bytes)
         size = len(bytes)

     f = open(args.out, 'w')
     f.write('/* Generated from ' + args.ta + ' by ' +
             os.path.basename(__file__) + ' */\n\n')
     f.write('#include <compiler.h>\n')
     f.write('#include <kernel/early_ta.h>\n\n')
     f.write('__extension__ const struct early_ta __early_ta_' +
             ta_uuid.hex +
             '\n__early_ta __aligned(__alignof__(struct early_ta)) = {\n')
     f.write('\t.uuid = {\n')
     f.write('\t\t.timeLow = 0x{:08x},\n'.format(ta_uuid.time_low))
     f.write('\t\t.timeMid = 0x{:04x},\n'.format(ta_uuid.time_mid))
     f.write('\t\t.timeHiAndVersion = ' +
             '0x{:04x},\n'.format(ta_uuid.time_hi_version))
     f.write('\t\t.clockSeqAndNode = {\n')
     csn = '{0:02x}{1:02x}{2:012x}'.format(ta_uuid.clock_seq_hi_variant,
                                           ta_uuid.clock_seq_low, ta_uuid.node)
     f.write('\t\t\t')
     f.write(', '.join('0x' + csn[i:i + 2] for i in range(0, len(csn), 2)))
     f.write('\n\t\t},\n\t},\n')
     f.write('\t.size = {:d},\n'.format(size))
     if args.compress:
         f.write('\t.uncompressed_size = '
                 '{:d},\n'.format(uncompressed_size))
     f.write('\t.ta = {\n')
     i = 0
     while i < size:
         if i % 8 == 0:
             f.write('\t\t')
         f.write(hex(bytes[i]) + ',')
         i = i + 1
         if i % 8 == 0 or i == size:
             f.write('\n')
         else:
             f.write(' ')
     f.write('\t},\n')
     f.write('};\n')
     f.close()


 if __name__ == "__main__":
     main()
	#!/usr/bin/env python3
	# SPDX-License-Identifier: BSD-2-Clause
	#
	# Copyright (c) 2017, Linaro Limited
	#

	import argparse
	import array
	import os
	import re
	import uuid
	import zlib


	def get_args():

	parser = argparse.ArgumentParser(
	description='Converts a Trusted '
	'Application ELF file into a C source file, ready for '
	'inclusion in the TEE binary as an "early TA".')

	parser.add_argument('--out', required=True,
	help='Name of the output C file')

	parser.add_argument(
	'--ta',
	required=True,
	help='Path to the TA binary. File name has to be: <uuid>.* '
	'such as: 8aaaf200-2450-11e4-abe2-0002a5d5c51b.stripped.elf')

	parser.add_argument(
	'--compress',
	dest="compress",
	action="store_true",
	help='Compress the TA using the DEFLATE '
	'algorithm')

	return parser.parse_args()


	def main():

	args = get_args()

	ta_uuid = uuid.UUID(re.sub(r'\..*', '', os.path.basename(args.ta)))

	with open(args.ta, 'rb') as ta:
	bytes = ta.read()
	uncompressed_size = len(bytes)
	if args.compress:
	bytes = zlib.compress(bytes)
	size = len(bytes)

	f = open(args.out, 'w')
	f.write('/* Generated from ' + args.ta + ' by ' +
	os.path.basename(__file__) + ' */\n\n')
	f.write('#include <compiler.h>\n')
	f.write('#include <kernel/early_ta.h>\n\n')
	f.write('__extension__ const struct early_ta __early_ta_' +
	ta_uuid.hex +
	'\n__early_ta __aligned(__alignof__(struct early_ta)) = {\n')
	f.write('\t.uuid = {\n')
	f.write('\t\t.timeLow = 0x{:08x},\n'.format(ta_uuid.time_low))
	f.write('\t\t.timeMid = 0x{:04x},\n'.format(ta_uuid.time_mid))
	f.write('\t\t.timeHiAndVersion = ' +
	'0x{:04x},\n'.format(ta_uuid.time_hi_version))
	f.write('\t\t.clockSeqAndNode = {\n')
	csn = '{0:02x}{1:02x}{2:012x}'.format(ta_uuid.clock_seq_hi_variant,
	ta_uuid.clock_seq_low, ta_uuid.node)
	f.write('\t\t\t')
	f.write(', '.join('0x' + csn[i:i + 2] for i in range(0, len(csn), 2)))
	f.write('\n\t\t},\n\t},\n')
	f.write('\t.size = {:d},\n'.format(size))
	if args.compress:
	f.write('\t.uncompressed_size = '
	'{:d},\n'.format(uncompressed_size))
	f.write('\t.ta = {\n')
	i = 0
	while i < size:
	if i % 8 == 0:
	f.write('\t\t')
	f.write(hex(bytes[i]) + ',')
	i = i + 1
	if i % 8 == 0 or i == size:
	f.write('\n')
	else:
	f.write(' ')
	f.write('\t},\n')
	f.write('};\n')
	f.close()


	if __name__ == "__main__":
	main()