# SPDX-License-Identifier: GPL-2.0+ # # Copyright (c) 2021 Alexandru Gagniuc """ Check hashes produced by mkimage against known values This test checks the correctness of mkimage's hashes. by comparing the mkimage output of a fixed data block with known good hashes. This test doesn't run the sandbox. It only checks the host tool 'mkimage' """ import os import pytest import u_boot_utils as util kernel_hashes = { "sha512" : "f18c1486a2c29f56360301576cdfce4dfd8e8e932d0ed8e239a1f314b8ae1d77b2a58cd7fe32e4075e69448e623ce53b0b6aa6ce5626d2c189a5beae29a68d93", "sha384" : "16e28976740048485d08d793d8bf043ebc7826baf2bc15feac72825ad67530ceb3d09e0deb6932c62a5a0e9f3936baf4", "sha256" : "2955c56bc1e5050c111ba6e089e0f5342bb47dedf77d87e3f429095feb98a7e5", "sha1" : "652383e1a6d946953e1f65092c9435f6452c2ab7", "md5" : "4879e5086e4c76128e525b5fe2af55f1", "crc32" : "32eddfdf", "crc16-ccitt" : "d4be" } class ReadonlyFitImage(object): """ Helper to manipulate a FIT image on disk """ def __init__(self, cons, file_name): self.fit = file_name self.cons = cons self.hashable_nodes = set() def __fdt_list(self, path): return util.run_and_log(self.cons, f'fdtget -l {self.fit} {path}') def __fdt_get(self, node, prop): val = util.run_and_log(self.cons, f'fdtget {self.fit} {node} {prop}') return val.rstrip('\n') def __fdt_get_sexadecimal(self, node, prop): numbers = util.run_and_log(self.cons, f'fdtget -tbx {self.fit} {node} {prop}') sexadecimal = '' for num in numbers.rstrip('\n').split(' '): sexadecimal += num.zfill(2) return sexadecimal def find_hashable_image_nodes(self): for node in self.__fdt_list('/images').split(): # We only have known hashes for the kernel node if 'kernel' not in node: continue self.hashable_nodes.add(f'/images/{node}') return self.hashable_nodes def verify_hashes(self): for image in self.hashable_nodes: algos = set() for node in self.__fdt_list(image).split(): if "hash-" not in node: continue raw_hash = self.__fdt_get_sexadecimal(f'{image}/{node}', 'value') algo = self.__fdt_get(f'{image}/{node}', 'algo') algos.add(algo) good_hash = kernel_hashes[algo] if good_hash != raw_hash: raise ValueError(f'{image} Borked hash: {algo}'); # Did we test all the hashes we set out to test? missing_algos = kernel_hashes.keys() - algos if (missing_algos): raise ValueError(f'Missing hashes from FIT: {missing_algos}') @pytest.mark.buildconfigspec('hash') @pytest.mark.requiredtool('dtc') @pytest.mark.requiredtool('fdtget') @pytest.mark.requiredtool('fdtput') def test_mkimage_hashes(u_boot_console): """ Test that hashes generated by mkimage are correct. """ def assemble_fit_image(dest_fit, its, destdir): dtc_args = f'-I dts -O dtb -i {destdir}' util.run_and_log(cons, [mkimage, '-D', dtc_args, '-f', its, dest_fit]) def dtc(dts): dtb = dts.replace('.dts', '.dtb') util.run_and_log(cons, f'dtc {datadir}/{dts} -O dtb -o {tempdir}/{dtb}') cons = u_boot_console mkimage = cons.config.build_dir + '/tools/mkimage' datadir = cons.config.source_dir + '/test/py/tests/vboot/' tempdir = os.path.join(cons.config.result_dir, 'hashes') os.makedirs(tempdir, exist_ok=True) fit_file = f'{tempdir}/test.fit' dtc('sandbox-kernel.dts') # Create a fake kernel image -- Avoid zeroes or crc16 will be zero with open(f'{tempdir}/test-kernel.bin', 'w') as fd: fd.write(500 * chr(0xa5)) assemble_fit_image(fit_file, f'{datadir}/hash-images.its', tempdir) fit = ReadonlyFitImage(cons, fit_file) nodes = fit.find_hashable_image_nodes() if len(nodes) == 0: raise ValueError('FIT image has no "/image" nodes with "hash-..."') fit.verify_hashes()