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c620ea45a7
Use a different temporary dir for each test, to allow them to run in parallel. Signed-off-by: Simon Glass <sjg@chromium.org>
113 lines
3.8 KiB
Python
113 lines
3.8 KiB
Python
# SPDX-License-Identifier: GPL-2.0+
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#
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# Copyright (c) 2020,2021 Alexandru Gagniuc <mr.nuke.me@gmail.com>
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"""
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Test ECDSA signing of FIT images
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This test uses mkimage to sign an existing FIT image with an ECDSA key. The
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signature is then extracted, and verified against pyCryptodome.
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This test doesn't run the sandbox. It only checks the host tool 'mkimage'
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"""
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import os
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import pytest
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import u_boot_utils as util
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from Cryptodome.Hash import SHA256
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from Cryptodome.PublicKey import ECC
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from Cryptodome.Signature import DSS
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class SignableFitImage(object):
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""" Helper to manipulate a FIT image on disk """
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def __init__(self, cons, file_name):
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self.fit = file_name
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self.cons = cons
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self.signable_nodes = set()
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def __fdt_list(self, path):
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return util.run_and_log(self.cons, f'fdtget -l {self.fit} {path}')
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def __fdt_set(self, node, **prop_value):
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for prop, value in prop_value.items():
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util.run_and_log(self.cons, f'fdtput -ts {self.fit} {node} {prop} {value}')
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def __fdt_get_binary(self, node, prop):
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numbers = util.run_and_log(self.cons, f'fdtget -tbi {self.fit} {node} {prop}')
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bignum = bytearray()
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for little_num in numbers.split():
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bignum.append(int(little_num))
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return bignum
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def find_signable_image_nodes(self):
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for node in self.__fdt_list('/images').split():
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image = f'/images/{node}'
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if 'signature' in self.__fdt_list(image):
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self.signable_nodes.add(image)
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return self.signable_nodes
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def change_signature_algo_to_ecdsa(self):
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for image in self.signable_nodes:
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self.__fdt_set(f'{image}/signature', algo='sha256,ecdsa256')
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def sign(self, mkimage, key_file):
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util.run_and_log(self.cons, [mkimage, '-F', self.fit, f'-G{key_file}'])
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def check_signatures(self, key):
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for image in self.signable_nodes:
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raw_sig = self.__fdt_get_binary(f'{image}/signature', 'value')
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raw_bin = self.__fdt_get_binary(image, 'data')
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sha = SHA256.new(raw_bin)
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verifier = DSS.new(key, 'fips-186-3')
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verifier.verify(sha, bytes(raw_sig))
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@pytest.mark.buildconfigspec('fit_signature')
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@pytest.mark.requiredtool('dtc')
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@pytest.mark.requiredtool('fdtget')
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@pytest.mark.requiredtool('fdtput')
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def test_fit_ecdsa(u_boot_console):
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""" Test that signatures generated by mkimage are legible. """
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def generate_ecdsa_key():
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return ECC.generate(curve='prime256v1')
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def assemble_fit_image(dest_fit, its, destdir):
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dtc_args = f'-I dts -O dtb -i {destdir}'
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util.run_and_log(cons, [mkimage, '-D', dtc_args, '-f', its, dest_fit])
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def dtc(dts):
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dtb = dts.replace('.dts', '.dtb')
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util.run_and_log(cons, f'dtc {datadir}/{dts} -O dtb -o {tempdir}/{dtb}')
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cons = u_boot_console
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mkimage = cons.config.build_dir + '/tools/mkimage'
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datadir = cons.config.source_dir + '/test/py/tests/vboot/'
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tempdir = os.path.join(cons.config.result_dir, 'ecdsa')
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os.makedirs(tempdir, exist_ok=True)
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key_file = f'{tempdir}/ecdsa-test-key.pem'
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fit_file = f'{tempdir}/test.fit'
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dtc('sandbox-kernel.dts')
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key = generate_ecdsa_key()
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# Create a fake kernel image -- zeroes will do just fine
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with open(f'{tempdir}/test-kernel.bin', 'w') as fd:
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fd.write(500 * chr(0))
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# invocations of mkimage expect to read the key from disk
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with open(key_file, 'w') as f:
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f.write(key.export_key(format='PEM'))
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assemble_fit_image(fit_file, f'{datadir}/sign-images-sha256.its', tempdir)
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fit = SignableFitImage(cons, fit_file)
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nodes = fit.find_signable_image_nodes()
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if len(nodes) == 0:
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raise ValueError('FIT image has no "/image" nodes with "signature"')
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fit.change_signature_algo_to_ecdsa()
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fit.sign(mkimage, key_file)
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fit.check_signatures(key)
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