platform_build/tools/releasetools/test_build_image.py

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#
# Copyright (C) 2017 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.
#
import filecmp
import math
import os.path
import random
import unittest
import common
from build_image import (
AVBCalcMinPartitionSize, BLOCK_SIZE, BuildImageError, CheckHeadroom,
RunCommand, SetUpInDirAndFsConfig)
class BuildImageTest(unittest.TestCase):
# Available: 1000 blocks.
EXT4FS_OUTPUT = (
"Created filesystem with 2777/129024 inodes and 515099/516099 blocks")
def setUp(self):
# To test AVBCalcMinPartitionSize(), by using 200MB to 2GB image size.
# - 51200 = 200MB * 1024 * 1024 / 4096
# - 524288 = 2GB * 1024 * 1024 * 1024 / 4096
self._image_sizes = [BLOCK_SIZE * random.randint(51200, 524288) + offset
for offset in range(BLOCK_SIZE)]
def tearDown(self):
common.Cleanup()
def test_CheckHeadroom_SizeUnderLimit(self):
# Required headroom: 1000 blocks.
prop_dict = {
'fs_type' : 'ext4',
'partition_headroom' : '4096000',
'mount_point' : 'system',
}
CheckHeadroom(self.EXT4FS_OUTPUT, prop_dict)
def test_CheckHeadroom_InsufficientHeadroom(self):
# Required headroom: 1001 blocks.
prop_dict = {
'fs_type' : 'ext4',
'partition_headroom' : '4100096',
'mount_point' : 'system',
}
self.assertRaises(
BuildImageError, CheckHeadroom, self.EXT4FS_OUTPUT, prop_dict)
def test_CheckHeadroom_WrongFsType(self):
prop_dict = {
'fs_type' : 'f2fs',
'partition_headroom' : '4100096',
'mount_point' : 'system',
}
self.assertRaises(
AssertionError, CheckHeadroom, self.EXT4FS_OUTPUT, prop_dict)
def test_CheckHeadroom_MissingProperties(self):
prop_dict = {
'fs_type' : 'ext4',
'partition_headroom' : '4100096',
}
self.assertRaises(
AssertionError, CheckHeadroom, self.EXT4FS_OUTPUT, prop_dict)
prop_dict = {
'fs_type' : 'ext4',
'mount_point' : 'system',
}
self.assertRaises(
AssertionError, CheckHeadroom, self.EXT4FS_OUTPUT, prop_dict)
def test_CheckHeadroom_WithMke2fsOutput(self):
"""Tests the result parsing from actual call to mke2fs."""
input_dir = common.MakeTempDir()
output_image = common.MakeTempFile(suffix='.img')
command = ['mkuserimg_mke2fs', input_dir, output_image, 'ext4',
'/system', '409600', '-j', '0']
ext4fs_output, exit_code = RunCommand(command)
self.assertEqual(0, exit_code)
prop_dict = {
'fs_type' : 'ext4',
'partition_headroom' : '40960',
'mount_point' : 'system',
}
CheckHeadroom(ext4fs_output, prop_dict)
prop_dict = {
'fs_type' : 'ext4',
'partition_headroom' : '413696',
'mount_point' : 'system',
}
self.assertRaises(BuildImageError, CheckHeadroom, ext4fs_output, prop_dict)
def test_SetUpInDirAndFsConfig_SystemRootImageTrue_NonSystem(self):
prop_dict = {
'fs_config': 'fs-config',
'mount_point': 'vendor',
'system_root_image': 'true',
}
in_dir, fs_config = SetUpInDirAndFsConfig('/path/to/in_dir', prop_dict)
self.assertEqual('/path/to/in_dir', in_dir)
self.assertEqual('fs-config', fs_config)
self.assertEqual('vendor', prop_dict['mount_point'])
@staticmethod
def _gen_fs_config(partition):
fs_config = common.MakeTempFile(suffix='.txt')
with open(fs_config, 'w') as fs_config_fp:
fs_config_fp.write('fs-config-{}\n'.format(partition))
return fs_config
def test_SetUpInDirAndFsConfig(self):
root_dir = common.MakeTempDir()
with open(os.path.join(root_dir, 'init'), 'w') as init_fp:
init_fp.write('init')
origin_in = common.MakeTempDir()
with open(os.path.join(origin_in, 'file'), 'w') as in_fp:
in_fp.write('system-file')
os.symlink('../etc', os.path.join(origin_in, 'symlink'))
fs_config_system = self._gen_fs_config('system')
prop_dict = {
'fs_config': fs_config_system,
'mount_point': 'system',
'root_dir': root_dir,
}
in_dir, fs_config = SetUpInDirAndFsConfig(origin_in, prop_dict)
self.assertTrue(filecmp.cmp(
os.path.join(in_dir, 'init'), os.path.join(root_dir, 'init')))
self.assertTrue(filecmp.cmp(
os.path.join(in_dir, 'system', 'file'),
os.path.join(origin_in, 'file')))
self.assertTrue(os.path.islink(os.path.join(in_dir, 'system', 'symlink')))
self.assertTrue(filecmp.cmp(fs_config_system, fs_config))
self.assertEqual('/', prop_dict['mount_point'])
def test_SetUpInDirAndFsConfig_WithRootFsConfig(self):
root_dir = common.MakeTempDir()
with open(os.path.join(root_dir, 'init'), 'w') as init_fp:
init_fp.write('init')
origin_in = common.MakeTempDir()
with open(os.path.join(origin_in, 'file'), 'w') as in_fp:
in_fp.write('system-file')
os.symlink('../etc', os.path.join(origin_in, 'symlink'))
fs_config_system = self._gen_fs_config('system')
fs_config_root = self._gen_fs_config('root')
prop_dict = {
'fs_config': fs_config_system,
'mount_point': 'system',
'root_dir': root_dir,
'root_fs_config': fs_config_root,
}
in_dir, fs_config = SetUpInDirAndFsConfig(origin_in, prop_dict)
self.assertTrue(filecmp.cmp(
os.path.join(in_dir, 'init'), os.path.join(root_dir, 'init')))
self.assertTrue(filecmp.cmp(
os.path.join(in_dir, 'system', 'file'),
os.path.join(origin_in, 'file')))
self.assertTrue(os.path.islink(os.path.join(in_dir, 'system', 'symlink')))
with open(fs_config) as fs_config_fp:
fs_config_data = fs_config_fp.readlines()
self.assertIn('fs-config-system\n', fs_config_data)
self.assertIn('fs-config-root\n', fs_config_data)
self.assertEqual('/', prop_dict['mount_point'])
def test_AVBCalcMinPartitionSize_LinearFooterSize(self):
"""Tests with footer size which is linear to partition size."""
for image_size in self._image_sizes:
for ratio in 0.95, 0.56, 0.22:
expected_size = common.RoundUpTo4K(int(math.ceil(image_size / ratio)))
self.assertEqual(
expected_size,
AVBCalcMinPartitionSize(image_size, lambda x: int(x * ratio)))
def test_AVBCalcMinPartitionSize_SlowerGrowthFooterSize(self):
"""Tests with footer size which grows slower than partition size."""
def _SizeCalculator(partition_size):
"""Footer size is the power of 0.95 of partition size."""
# Minus footer size to return max image size.
return partition_size - int(math.pow(partition_size, 0.95))
for image_size in self._image_sizes:
min_partition_size = AVBCalcMinPartitionSize(image_size, _SizeCalculator)
# Checks min_partition_size can accommodate image_size.
self.assertGreaterEqual(
_SizeCalculator(min_partition_size),
image_size)
# Checks min_partition_size (round to BLOCK_SIZE) is the minimum.
self.assertLess(
_SizeCalculator(min_partition_size - BLOCK_SIZE),
image_size)
def test_AVBCalcMinPartitionSize_FasterGrowthFooterSize(self):
"""Tests with footer size which grows faster than partition size."""
def _SizeCalculator(partition_size):
"""Max image size is the power of 0.95 of partition size."""
# Max image size grows less than partition size, which means
# footer size grows faster than partition size.
return int(math.pow(partition_size, 0.95))
for image_size in self._image_sizes:
min_partition_size = AVBCalcMinPartitionSize(image_size, _SizeCalculator)
# Checks min_partition_size can accommodate image_size.
self.assertGreaterEqual(
_SizeCalculator(min_partition_size),
image_size)
# Checks min_partition_size (round to BLOCK_SIZE) is the minimum.
self.assertLess(
_SizeCalculator(min_partition_size - BLOCK_SIZE),
image_size)