platform_build/tools/releasetools/test_validate_target_files.py
Tao Bao 22632cc82c releasetools: Support verifying files with non-monotonic ranges.
Fixes: 79951650
Test: Run validate_target_files on target_files.zip with files in
      non-monotonic ranges.
Test: python -m unittest test_validate_target_files
Test: python3 -m unittest test_validate_target_files
Change-Id: I82571d3358598775de4cdeb5e64035689fea6487
2019-10-03 23:21:22 -07:00

331 lines
12 KiB
Python

#
# Copyright (C) 2018 The Android Open Source Project
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
"""Unittests for validate_target_files.py."""
import os
import os.path
import shutil
import zipfile
import common
import test_utils
from rangelib import RangeSet
from validate_target_files import (ValidateVerifiedBootImages,
ValidateFileConsistency)
from verity_utils import CreateVerityImageBuilder
class ValidateTargetFilesTest(test_utils.ReleaseToolsTestCase):
def setUp(self):
self.testdata_dir = test_utils.get_testdata_dir()
def _generate_boot_image(self, output_file):
kernel = common.MakeTempFile(prefix='kernel-')
with open(kernel, 'wb') as kernel_fp:
kernel_fp.write(os.urandom(10))
cmd = ['mkbootimg', '--kernel', kernel, '-o', output_file]
proc = common.Run(cmd)
stdoutdata, _ = proc.communicate()
self.assertEqual(
0, proc.returncode,
"Failed to run mkbootimg: {}".format(stdoutdata))
cmd = ['boot_signer', '/boot', output_file,
os.path.join(self.testdata_dir, 'testkey.pk8'),
os.path.join(self.testdata_dir, 'testkey.x509.pem'), output_file]
proc = common.Run(cmd)
stdoutdata, _ = proc.communicate()
self.assertEqual(
0, proc.returncode,
"Failed to sign boot image with boot_signer: {}".format(stdoutdata))
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateVerifiedBootImages_bootImage(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
boot_image = os.path.join(input_tmp, 'IMAGES', 'boot.img')
self._generate_boot_image(boot_image)
info_dict = {
'boot_signer' : 'true',
}
options = {
'verity_key' : os.path.join(self.testdata_dir, 'testkey.x509.pem'),
}
ValidateVerifiedBootImages(input_tmp, info_dict, options)
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateVerifiedBootImages_bootImage_wrongKey(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
boot_image = os.path.join(input_tmp, 'IMAGES', 'boot.img')
self._generate_boot_image(boot_image)
info_dict = {
'boot_signer' : 'true',
}
options = {
'verity_key' : os.path.join(self.testdata_dir, 'verity.x509.pem'),
}
self.assertRaises(
AssertionError, ValidateVerifiedBootImages, input_tmp, info_dict,
options)
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateVerifiedBootImages_bootImage_corrupted(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
boot_image = os.path.join(input_tmp, 'IMAGES', 'boot.img')
self._generate_boot_image(boot_image)
# Corrupt the late byte of the image.
with open(boot_image, 'r+b') as boot_fp:
boot_fp.seek(-1, os.SEEK_END)
last_byte = boot_fp.read(1)
last_byte = bytes([255 - ord(last_byte)])
boot_fp.seek(-1, os.SEEK_END)
boot_fp.write(last_byte)
info_dict = {
'boot_signer' : 'true',
}
options = {
'verity_key' : os.path.join(self.testdata_dir, 'testkey.x509.pem'),
}
self.assertRaises(
AssertionError, ValidateVerifiedBootImages, input_tmp, info_dict,
options)
def _generate_system_image(self, output_file, system_root=None,
file_map=None):
prop_dict = {
'partition_size': str(1024 * 1024),
'verity': 'true',
'verity_block_device': '/dev/block/system',
'verity_key' : os.path.join(self.testdata_dir, 'testkey'),
'verity_fec': "true",
'verity_signer_cmd': 'verity_signer',
}
verity_image_builder = CreateVerityImageBuilder(prop_dict)
image_size = verity_image_builder.CalculateMaxImageSize()
# Use an empty root directory.
if not system_root:
system_root = common.MakeTempDir()
cmd = ['mkuserimg_mke2fs', '-s', system_root, output_file, 'ext4',
'/system', str(image_size), '-j', '0']
if file_map:
cmd.extend(['-B', file_map])
proc = common.Run(cmd)
stdoutdata, _ = proc.communicate()
self.assertEqual(
0, proc.returncode,
"Failed to create system image with mkuserimg_mke2fs: {}".format(
stdoutdata))
# Append the verity metadata.
verity_image_builder.Build(output_file)
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateVerifiedBootImages_systemRootImage(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
system_image = os.path.join(input_tmp, 'IMAGES', 'system.img')
self._generate_system_image(system_image)
# Pack the verity key.
verity_key_mincrypt = os.path.join(input_tmp, 'ROOT', 'verity_key')
os.makedirs(os.path.dirname(verity_key_mincrypt))
shutil.copyfile(
os.path.join(self.testdata_dir, 'testkey_mincrypt'),
verity_key_mincrypt)
info_dict = {
'system_root_image' : 'true',
'verity' : 'true',
}
options = {
'verity_key' : os.path.join(self.testdata_dir, 'testkey.x509.pem'),
'verity_key_mincrypt' : verity_key_mincrypt,
}
ValidateVerifiedBootImages(input_tmp, info_dict, options)
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateVerifiedBootImages_nonSystemRootImage(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
system_image = os.path.join(input_tmp, 'IMAGES', 'system.img')
self._generate_system_image(system_image)
# Pack the verity key into the root dir in system.img.
verity_key_mincrypt = os.path.join(input_tmp, 'ROOT', 'verity_key')
os.makedirs(os.path.dirname(verity_key_mincrypt))
shutil.copyfile(
os.path.join(self.testdata_dir, 'testkey_mincrypt'),
verity_key_mincrypt)
# And a copy in ramdisk.
verity_key_ramdisk = os.path.join(
input_tmp, 'BOOT', 'RAMDISK', 'verity_key')
os.makedirs(os.path.dirname(verity_key_ramdisk))
shutil.copyfile(
os.path.join(self.testdata_dir, 'testkey_mincrypt'),
verity_key_ramdisk)
info_dict = {
'verity' : 'true',
}
options = {
'verity_key' : os.path.join(self.testdata_dir, 'testkey.x509.pem'),
'verity_key_mincrypt' : verity_key_mincrypt,
}
ValidateVerifiedBootImages(input_tmp, info_dict, options)
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateVerifiedBootImages_nonSystemRootImage_mismatchingKeys(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
system_image = os.path.join(input_tmp, 'IMAGES', 'system.img')
self._generate_system_image(system_image)
# Pack the verity key into the root dir in system.img.
verity_key_mincrypt = os.path.join(input_tmp, 'ROOT', 'verity_key')
os.makedirs(os.path.dirname(verity_key_mincrypt))
shutil.copyfile(
os.path.join(self.testdata_dir, 'testkey_mincrypt'),
verity_key_mincrypt)
# And an invalid copy in ramdisk.
verity_key_ramdisk = os.path.join(
input_tmp, 'BOOT', 'RAMDISK', 'verity_key')
os.makedirs(os.path.dirname(verity_key_ramdisk))
shutil.copyfile(
os.path.join(self.testdata_dir, 'verity_mincrypt'),
verity_key_ramdisk)
info_dict = {
'verity' : 'true',
}
options = {
'verity_key' : os.path.join(self.testdata_dir, 'testkey.x509.pem'),
'verity_key_mincrypt' : verity_key_mincrypt,
}
self.assertRaises(
AssertionError, ValidateVerifiedBootImages, input_tmp, info_dict,
options)
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateFileConsistency_incompleteRange(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
system_image = os.path.join(input_tmp, 'IMAGES', 'system.img')
system_root = os.path.join(input_tmp, "SYSTEM")
os.mkdir(system_root)
# Write test files that contain multiple blocks of zeros, and these zero
# blocks will be omitted by kernel. Each test file will occupy one block in
# the final system image.
with open(os.path.join(system_root, 'a'), 'w') as f:
f.write('aaa')
f.write('\0' * 4096 * 3)
with open(os.path.join(system_root, 'b'), 'w') as f:
f.write('bbb')
f.write('\0' * 4096 * 3)
raw_file_map = os.path.join(input_tmp, 'IMAGES', 'raw_system.map')
self._generate_system_image(system_image, system_root, raw_file_map)
# Parse the generated file map and update the block ranges for each file.
file_map_list = {}
image_ranges = RangeSet()
with open(raw_file_map) as f:
for line in f.readlines():
info = line.split()
self.assertEqual(2, len(info))
image_ranges = image_ranges.union(RangeSet(info[1]))
file_map_list[info[0]] = RangeSet(info[1])
# Add one unoccupied block as the shared block for all test files.
mock_shared_block = RangeSet("10-20").subtract(image_ranges).first(1)
with open(os.path.join(input_tmp, 'IMAGES', 'system.map'), 'w') as f:
for key in sorted(file_map_list.keys()):
line = '{} {}\n'.format(
key, file_map_list[key].union(mock_shared_block))
f.write(line)
# Prepare for the target zip file
input_file = common.MakeTempFile()
all_entries = ['SYSTEM/', 'SYSTEM/b', 'SYSTEM/a', 'IMAGES/',
'IMAGES/system.map', 'IMAGES/system.img']
with zipfile.ZipFile(input_file, 'w') as input_zip:
for name in all_entries:
input_zip.write(os.path.join(input_tmp, name), arcname=name)
# Expect the validation to pass and both files are skipped due to
# 'incomplete' block range.
with zipfile.ZipFile(input_file) as input_zip:
info_dict = {'extfs_sparse_flag': '-s'}
ValidateFileConsistency(input_zip, input_tmp, info_dict)
@test_utils.SkipIfExternalToolsUnavailable()
def test_ValidateFileConsistency_nonMonotonicRanges(self):
input_tmp = common.MakeTempDir()
os.mkdir(os.path.join(input_tmp, 'IMAGES'))
system_image = os.path.join(input_tmp, 'IMAGES', 'system.img')
system_root = os.path.join(input_tmp, "SYSTEM")
os.mkdir(system_root)
# Write the test file that contain three blocks of 'a', 'b', 'c'.
with open(os.path.join(system_root, 'abc'), 'w') as f:
f.write('a' * 4096 + 'b' * 4096 + 'c' * 4096)
raw_file_map = os.path.join(input_tmp, 'IMAGES', 'raw_system.map')
self._generate_system_image(system_image, system_root, raw_file_map)
# Parse the generated file map and manipulate the block ranges of 'abc' to
# be 'cba'.
file_map_list = {}
with open(raw_file_map) as f:
for line in f.readlines():
info = line.split()
self.assertEqual(2, len(info))
ranges = RangeSet(info[1])
self.assertTrue(ranges.monotonic)
blocks = reversed(list(ranges.next_item()))
file_map_list[info[0]] = ' '.join([str(block) for block in blocks])
# Update the contents of 'abc' to be 'cba'.
with open(os.path.join(system_root, 'abc'), 'w') as f:
f.write('c' * 4096 + 'b' * 4096 + 'a' * 4096)
# Update the system.map.
with open(os.path.join(input_tmp, 'IMAGES', 'system.map'), 'w') as f:
for key in sorted(file_map_list.keys()):
f.write('{} {}\n'.format(key, file_map_list[key]))
# Get the target zip file.
input_file = common.MakeTempFile()
all_entries = ['SYSTEM/', 'SYSTEM/abc', 'IMAGES/',
'IMAGES/system.map', 'IMAGES/system.img']
with zipfile.ZipFile(input_file, 'w') as input_zip:
for name in all_entries:
input_zip.write(os.path.join(input_tmp, name), arcname=name)
with zipfile.ZipFile(input_file) as input_zip:
info_dict = {'extfs_sparse_flag': '-s'}
ValidateFileConsistency(input_zip, input_tmp, info_dict)