# SPDX-License-Identifier: GPL-2.0
"""
Unit-test runner
Provides a test_ut() function which is used by conftest.py to run each unit
test one at a time, as well setting up some files needed by the tests.
# Copyright (c) 2016, NVIDIA CORPORATION. All rights reserved.
"""
import collections
import getpass
import gzip
import os
import os.path
import pytest
import u_boot_utils
# pylint: disable=E0611
from tests import fs_helper
from test_android import test_abootimg
def mkdir_cond(dirname):
"""Create a directory if it doesn't already exist
Args:
dirname (str): Name of directory to create
"""
if not os.path.exists(dirname):
os.mkdir(dirname)
def setup_image(cons, mmc_dev, part_type, second_part=False):
"""Create a 20MB disk image with a single partition
Args:
cons (ConsoleBase): Console to use
mmc_dev (int): MMC device number to use, e.g. 1
part_type (int): Partition type, e.g. 0xc for FAT32
second_part (bool): True to contain a small second partition
Returns:
tuple:
str: Filename of MMC image
str: Directory name of 'mnt' directory
"""
fname = os.path.join(cons.config.source_dir, f'mmc{mmc_dev}.img')
mnt = os.path.join(cons.config.persistent_data_dir, 'mnt')
mkdir_cond(mnt)
spec = f'type={part_type:x}, size=18M, bootable'
if second_part:
spec += '\ntype=c'
u_boot_utils.run_and_log(cons, f'qemu-img create {fname} 20M')
u_boot_utils.run_and_log(cons, f'sudo sfdisk {fname}',
stdin=spec.encode('utf-8'))
return fname, mnt
def mount_image(cons, fname, mnt, fstype):
"""Create a filesystem and mount it on partition 1
Args:
cons (ConsoleBase): Console to use
fname (str): Filename of MMC image
mnt (str): Directory name of 'mnt' directory
fstype (str): Filesystem type ('vfat' or 'ext4')
Returns:
str: Name of loop device used
"""
out = u_boot_utils.run_and_log(cons, f'sudo losetup --show -f -P {fname}')
loop = out.strip()
part = f'{loop}p1'
u_boot_utils.run_and_log(cons, f'sudo mkfs.{fstype} {part}')
opts = ''
if fstype == 'vfat':
opts += f' -o uid={os.getuid()},gid={os.getgid()}'
u_boot_utils.run_and_log(cons, f'sudo mount -o loop {part} {mnt}{opts}')
u_boot_utils.run_and_log(cons, f'sudo chown {getpass.getuser()} {mnt}')
return loop
def copy_prepared_image(cons, mmc_dev, fname):
"""Use a prepared image since we cannot create one
Args:
cons (ConsoleBase): Console touse
mmc_dev (int): MMC device number
fname (str): Filename of MMC image
"""
infname = os.path.join(cons.config.source_dir,
f'test/py/tests/bootstd/mmc{mmc_dev}.img.xz')
u_boot_utils.run_and_log(cons, ['sh', '-c', f'xz -dc {infname} >{fname}'])
def setup_bootmenu_image(cons):
"""Create a 20MB disk image with a single ext4 partition
This is modelled on Armbian 22.08 Jammy
"""
mmc_dev = 4
fname, mnt = setup_image(cons, mmc_dev, 0x83)
loop = None
mounted = False
complete = False
try:
loop = mount_image(cons, fname, mnt, 'ext4')
mounted = True
script = '''# DO NOT EDIT THIS FILE
#
# Please edit /boot/armbianEnv.txt to set supported parameters
#
setenv load_addr "0x9000000"
setenv overlay_error "false"
# default values
setenv rootdev "/dev/mmcblk%dp1"
setenv verbosity "1"
setenv console "both"
setenv bootlogo "false"
setenv rootfstype "ext4"
setenv docker_optimizations "on"
setenv earlycon "off"
echo "Boot script loaded from ${devtype} ${devnum}"
if test -e ${devtype} ${devnum} ${prefix}armbianEnv.txt; then
load ${devtype} ${devnum} ${load_addr} ${prefix}armbianEnv.txt
env import -t ${load_addr} ${filesize}
fi
if test "${logo}" = "disabled"; then setenv logo "logo.nologo"; fi
if test "${console}" = "display" || test "${console}" = "both"; then setenv consoleargs "console=tty1"; fi
if test "${console}" = "serial" || test "${console}" = "both"; then setenv consoleargs "console=ttyS2,1500000 ${consoleargs}"; fi
if test "${earlycon}" = "on"; then setenv consoleargs "earlycon ${consoleargs}"; fi
if test "${bootlogo}" = "true"; then setenv consoleargs "bootsplash.bootfile=bootsplash.armbian ${consoleargs}"; fi
# get PARTUUID of first partition on SD/eMMC the boot script was loaded from
if test "${devtype}" = "mmc"; then part uuid mmc ${devnum}:1 partuuid; fi
setenv bootargs "root=${rootdev} rootwait rootfstype=${rootfstype} ${consoleargs} consoleblank=0 loglevel=${verbosity} ubootpart=${partuuid} usb-storage.quirks=${usbstoragequirks} ${extraargs} ${extraboardargs}"
if test "${docker_optimizations}" = "on"; then setenv bootargs "${bootargs} cgroup_enable=cpuset cgroup_memory=1 cgroup_enable=memory swapaccount=1"; fi
load ${devtype} ${devnum} ${ramdisk_addr_r} ${prefix}uInitrd
load ${devtype} ${devnum} ${kernel_addr_r} ${prefix}Image
load ${devtype} ${devnum} ${fdt_addr_r} ${prefix}dtb/${fdtfile}
fdt addr ${fdt_addr_r}
fdt resize 65536
for overlay_file in ${overlays}; do
if load ${devtype} ${devnum} ${load_addr} ${prefix}dtb/rockchip/overlay/${overlay_prefix}-${overlay_file}.dtbo; then
echo "Applying kernel provided DT overlay ${overlay_prefix}-${overlay_file}.dtbo"
fdt apply ${load_addr} || setenv overlay_error "true"
fi
done
for overlay_file in ${user_overlays}; do
if load ${devtype} ${devnum} ${load_addr} ${prefix}overlay-user/${overlay_file}.dtbo; then
echo "Applying user provided DT overlay ${overlay_file}.dtbo"
fdt apply ${load_addr} || setenv overlay_error "true"
fi
done
if test "${overlay_error}" = "true"; then
echo "Error applying DT overlays, restoring original DT"
load ${devtype} ${devnum} ${fdt_addr_r} ${prefix}dtb/${fdtfile}
else
if load ${devtype} ${devnum} ${load_addr} ${prefix}dtb/rockchip/overlay/${overlay_prefix}-fixup.scr; then
echo "Applying kernel provided DT fixup script (${overlay_prefix}-fixup.scr)"
source ${load_addr}
fi
if test -e ${devtype} ${devnum} ${prefix}fixup.scr; then
load ${devtype} ${devnum} ${load_addr} ${prefix}fixup.scr
echo "Applying user provided fixup script (fixup.scr)"
source ${load_addr}
fi
fi
booti ${kernel_addr_r} ${ramdisk_addr_r} ${fdt_addr_r}
# Recompile with:
# mkimage -C none -A arm -T script -d /boot/boot.cmd /boot/boot.scr
'''
bootdir = os.path.join(mnt, 'boot')
mkdir_cond(bootdir)
cmd_fname = os.path.join(bootdir, 'boot.cmd')
scr_fname = os.path.join(bootdir, 'boot.scr')
with open(cmd_fname, 'w', encoding='ascii') as outf:
print(script, file=outf)
infname = os.path.join(cons.config.source_dir,
'test/py/tests/bootstd/armbian.bmp.xz')
bmp_file = os.path.join(bootdir, 'boot.bmp')
u_boot_utils.run_and_log(
cons,
['sh', '-c', f'xz -dc {infname} >{bmp_file}'])
u_boot_utils.run_and_log(
cons, f'mkimage -C none -A arm -T script -d {cmd_fname} {scr_fname}')
kernel = 'vmlinuz-5.15.63-rockchip64'
target = os.path.join(bootdir, kernel)
with open(target, 'wb') as outf:
print('kernel', outf)
symlink = os.path.join(bootdir, 'Image')
if os.path.exists(symlink):
os.remove(symlink)
u_boot_utils.run_and_log(
cons, f'echo here {kernel} {symlink}')
os.symlink(kernel, symlink)
u_boot_utils.run_and_log(
cons, f'mkimage -C none -A arm -T script -d {cmd_fname} {scr_fname}')
complete = True
except ValueError as exc:
print(f'Falled to create image, failing back to prepared copy: {exc}')
finally:
if mounted:
u_boot_utils.run_and_log(cons, f'sudo umount --lazy {mnt}')
if loop:
u_boot_utils.run_and_log(cons, f'sudo losetup -d {loop}')
if not complete:
copy_prepared_image(cons, mmc_dev, fname)
def setup_bootflow_image(cons):
"""Create a 20MB disk image with a single FAT partition"""
mmc_dev = 1
fname, mnt = setup_image(cons, mmc_dev, 0xc, second_part=True)
loop = None
mounted = False
complete = False
try:
loop = mount_image(cons, fname, mnt, 'vfat')
mounted = True
vmlinux = 'vmlinuz-5.3.7-301.fc31.armv7hl'
initrd = 'initramfs-5.3.7-301.fc31.armv7hl.img'
dtbdir = 'dtb-5.3.7-301.fc31.armv7hl'
script = '''# extlinux.conf generated by appliance-creator
ui menu.c32
menu autoboot Welcome to Fedora-Workstation-armhfp-31-1.9. Automatic boot in # second{,s}. Press a key for options.
menu title Fedora-Workstation-armhfp-31-1.9 Boot Options.
menu hidden
timeout 20
totaltimeout 600
label Fedora-Workstation-armhfp-31-1.9 (5.3.7-301.fc31.armv7hl)
kernel /%s
append ro root=UUID=9732b35b-4cd5-458b-9b91-80f7047e0b8a rhgb quiet LANG=en_US.UTF-8 cma=192MB cma=256MB
fdtdir /%s/
initrd /%s''' % (vmlinux, dtbdir, initrd)
ext = os.path.join(mnt, 'extlinux')
mkdir_cond(ext)
conf = os.path.join(ext, 'extlinux.conf')
with open(conf, 'w', encoding='ascii') as fd:
print(script, file=fd)
inf = os.path.join(cons.config.persistent_data_dir, 'inf')
with open(inf, 'wb') as fd:
fd.write(gzip.compress(b'vmlinux'))
u_boot_utils.run_and_log(
cons, f'mkimage -f auto -d {inf} {os.path.join(mnt, vmlinux)}')
with open(os.path.join(mnt, initrd), 'w', encoding='ascii') as fd:
print('initrd', file=fd)
mkdir_cond(os.path.join(mnt, dtbdir))
dtb_file = os.path.join(mnt, f'{dtbdir}/sandbox.dtb')
u_boot_utils.run_and_log(
cons, f'dtc -o {dtb_file}', stdin=b'/dts-v1/; / {};')
complete = True
except ValueError as exc:
print(f'Falled to create image, failing back to prepared copy: {exc}')
finally:
if mounted:
u_boot_utils.run_and_log(cons, f'sudo umount --lazy {mnt}')
if loop:
u_boot_utils.run_and_log(cons, f'sudo losetup -d {loop}')
if not complete:
copy_prepared_image(cons, mmc_dev, fname)
def setup_cros_image(cons):
"""Create a 20MB disk image with ChromiumOS partitions"""
Partition = collections.namedtuple('part', 'start,size,name')
parts = {}
disk_data = None
def pack_kernel(cons, arch, kern, dummy):
"""Pack a kernel containing some fake data
Args:
cons (ConsoleBase): Console to use
arch (str): Architecture to use ('x86' or 'arm')
kern (str): Filename containing kernel
dummy (str): Dummy filename to use for config and bootloader
Return:
bytes: Packed-kernel data
"""
kern_part = os.path.join(cons.config.result_dir,
f'kern-part-{arch}.bin')
u_boot_utils.run_and_log(
cons,
f'futility vbutil_kernel --pack {kern_part} '
'--keyblock doc/chromium/files/devkeys/kernel.keyblock '
'--signprivate doc/chromium/files/devkeys/kernel_data_key.vbprivk '
f'--version 1 --config {dummy} --bootloader {dummy} '
f'--vmlinuz {kern}')
with open(kern_part, 'rb') as inf:
kern_part_data = inf.read()
return kern_part_data
def set_part_data(partnum, data):
"""Set the contents of a disk partition
This updates disk_data by putting data in the right place
Args:
partnum (int): Partition number to set
data (bytes): Data for that partition
"""
nonlocal disk_data
start = parts[partnum].start * sect_size
disk_data = disk_data[:start] + data + disk_data[start + len(data):]
mmc_dev = 5
fname = os.path.join(cons.config.source_dir, f'mmc{mmc_dev}.img')
u_boot_utils.run_and_log(cons, f'qemu-img create {fname} 20M')
#mnt = os.path.join(cons.config.persistent_data_dir, 'mnt')
#mkdir_cond(mnt)
u_boot_utils.run_and_log(cons, f'cgpt create {fname}')
uuid_state = 'ebd0a0a2-b9e5-4433-87c0-68b6b72699c7'
uuid_kern = 'fe3a2a5d-4f32-41a7-b725-accc3285a309'
uuid_root = '3cb8e202-3b7e-47dd-8a3c-7ff2a13cfcec'
uuid_rwfw = 'cab6e88e-abf3-4102-a07a-d4bb9be3c1d3'
uuid_reserved = '2e0a753d-9e48-43b0-8337-b15192cb1b5e'
uuid_efi = 'c12a7328-f81f-11d2-ba4b-00a0c93ec93b'
ptr = 40
# Number of sectors in 1MB
sect_size = 512
sect_1mb = (1 << 20) // sect_size
required_parts = [
{'num': 0xb, 'label':'RWFW', 'type': uuid_rwfw, 'size': '1'},
{'num': 6, 'label':'KERN_C', 'type': uuid_kern, 'size': '1'},
{'num': 7, 'label':'ROOT_C', 'type': uuid_root, 'size': '1'},
{'num': 9, 'label':'reserved', 'type': uuid_reserved, 'size': '1'},
{'num': 0xa, 'label':'reserved', 'type': uuid_reserved, 'size': '1'},
{'num': 2, 'label':'KERN_A', 'type': uuid_kern, 'size': '1M'},
{'num': 4, 'label':'KERN_B', 'type': uuid_kern, 'size': '1M'},
{'num': 8, 'label':'OEM', 'type': uuid_state, 'size': '1M'},
{'num': 0xc, 'label':'EFI-SYSTEM', 'type': uuid_efi, 'size': '1M'},
{'num': 5, 'label':'ROOT_B', 'type': uuid_root, 'size': '1'},
{'num': 3, 'label':'ROOT_A', 'type': uuid_root, 'size': '1'},
{'num': 1, 'label':'STATE', 'type': uuid_state, 'size': '1M'},
]
for part in required_parts:
size_str = part['size']
if 'M' in size_str:
size = int(size_str[:-1]) * sect_1mb
else:
size = int(size_str)
u_boot_utils.run_and_log(
cons,
f"cgpt add -i {part['num']} -b {ptr} -s {size} -t {part['type']} {fname}")
ptr += size
u_boot_utils.run_and_log(cons, f'cgpt boot -p {fname}')
out = u_boot_utils.run_and_log(cons, f'cgpt show -q {fname}')
# We expect something like this:
# 8239 2048 1 Basic data
# 45 2048 2 ChromeOS kernel
# 8238 1 3 ChromeOS rootfs
# 2093 2048 4 ChromeOS kernel
# 8237 1 5 ChromeOS rootfs
# 41 1 6 ChromeOS kernel
# 42 1 7 ChromeOS rootfs
# 4141 2048 8 Basic data
# 43 1 9 ChromeOS reserved
# 44 1 10 ChromeOS reserved
# 40 1 11 ChromeOS firmware
# 6189 2048 12 EFI System Partition
# Create a dict (indexed by partition number) containing the above info
for line in out.splitlines():
start, size, num, name = line.split(maxsplit=3)
parts[int(num)] = Partition(int(start), int(size), name)
dummy = os.path.join(cons.config.result_dir, 'dummy.txt')
with open(dummy, 'wb') as outf:
outf.write(b'dummy\n')
# For now we just use dummy kernels. This limits testing to just detecting
# a signed kernel. We could add support for the x86 data structures so that
# testing could cover getting the cmdline, setup.bin and other pieces.
kern = os.path.join(cons.config.result_dir, 'kern.bin')
with open(kern, 'wb') as outf:
outf.write(b'kernel\n')
with open(fname, 'rb') as inf:
disk_data = inf.read()
# put x86 kernel in partition 2 and arm one in partition 4
set_part_data(2, pack_kernel(cons, 'x86', kern, dummy))
set_part_data(4, pack_kernel(cons, 'arm', kern, dummy))
with open(fname, 'wb') as outf:
outf.write(disk_data)
return fname
def setup_android_image(cons):
"""Create a 20MB disk image with Android partitions"""
Partition = collections.namedtuple('part', 'start,size,name')
parts = {}
disk_data = None
def set_part_data(partnum, data):
"""Set the contents of a disk partition
This updates disk_data by putting data in the right place
Args:
partnum (int): Partition number to set
data (bytes): Data for that partition
"""
nonlocal disk_data
start = parts[partnum].start * sect_size
disk_data = disk_data[:start] + data + disk_data[start + len(data):]
mmc_dev = 7
fname = os.path.join(cons.config.source_dir, f'mmc{mmc_dev}.img')
u_boot_utils.run_and_log(cons, f'qemu-img create {fname} 20M')
u_boot_utils.run_and_log(cons, f'cgpt create {fname}')
ptr = 40
# Number of sectors in 1MB
sect_size = 512
sect_1mb = (1 << 20) // sect_size
required_parts = [
{'num': 1, 'label':'misc', 'size': '1M'},
{'num': 2, 'label':'boot_a', 'size': '4M'},
{'num': 3, 'label':'boot_b', 'size': '4M'},
{'num': 4, 'label':'vendor_boot_a', 'size': '4M'},
{'num': 5, 'label':'vendor_boot_b', 'size': '4M'},
]
for part in required_parts:
size_str = part['size']
if 'M' in size_str:
size = int(size_str[:-1]) * sect_1mb
else:
size = int(size_str)
u_boot_utils.run_and_log(
cons,
f"cgpt add -i {part['num']} -b {ptr} -s {size} -l {part['label']} -t basicdata {fname}")
ptr += size
u_boot_utils.run_and_log(cons, f'cgpt boot -p {fname}')
out = u_boot_utils.run_and_log(cons, f'cgpt show -q {fname}')
# Create a dict (indexed by partition number) containing the above info
for line in out.splitlines():
start, size, num, name = line.split(maxsplit=3)
parts[int(num)] = Partition(int(start), int(size), name)
with open(fname, 'rb') as inf:
disk_data = inf.read()
test_abootimg.AbootimgTestDiskImage(cons, 'bootv4.img', test_abootimg.boot_img_hex)
boot_img = os.path.join(cons.config.result_dir, 'bootv4.img')
with open(boot_img, 'rb') as inf:
set_part_data(2, inf.read())
test_abootimg.AbootimgTestDiskImage(cons, 'vendor_boot.img', test_abootimg.vboot_img_hex)
vendor_boot_img = os.path.join(cons.config.result_dir, 'vendor_boot.img')
with open(vendor_boot_img, 'rb') as inf:
set_part_data(4, inf.read())
with open(fname, 'wb') as outf:
outf.write(disk_data)
print(f'wrote to {fname}')
return fname
def setup_cedit_file(cons):
"""Set up a .dtb file for use with testing expo and configuration editor"""
infname = os.path.join(cons.config.source_dir,
'test/boot/files/expo_layout.dts')
inhname = os.path.join(cons.config.source_dir,
'test/boot/files/expo_ids.h')
expo_tool = os.path.join(cons.config.source_dir, 'tools/expo.py')
outfname = 'cedit.dtb'
u_boot_utils.run_and_log(
cons, f'{expo_tool} -e {inhname} -l {infname} -o {outfname}')
@pytest.mark.buildconfigspec('ut_dm')
def test_ut_dm_init(u_boot_console):
"""Initialize data for ut dm tests."""
fn = u_boot_console.config.source_dir + '/testflash.bin'
if not os.path.exists(fn):
data = b'this is a test'
data += b'\x00' * ((4 * 1024 * 1024) - len(data))
with open(fn, 'wb') as fh:
fh.write(data)
fn = u_boot_console.config.source_dir + '/spi.bin'
if not os.path.exists(fn):
data = b'\x00' * (2 * 1024 * 1024)
with open(fn, 'wb') as fh:
fh.write(data)
# Create a file with a single partition
fn = u_boot_console.config.source_dir + '/scsi.img'
if not os.path.exists(fn):
data = b'\x00' * (2 * 1024 * 1024)
with open(fn, 'wb') as fh:
fh.write(data)
u_boot_utils.run_and_log(
u_boot_console, f'sfdisk {fn}', stdin=b'type=83')
fs_helper.mk_fs(u_boot_console.config, 'ext2', 0x200000, '2MB')
fs_helper.mk_fs(u_boot_console.config, 'fat32', 0x100000, '1MB')
mmc_dev = 6
fn = os.path.join(u_boot_console.config.source_dir, f'mmc{mmc_dev}.img')
data = b'\x00' * (12 * 1024 * 1024)
with open(fn, 'wb') as fh:
fh.write(data)
@pytest.mark.buildconfigspec('cmd_bootflow')
@pytest.mark.buildconfigspec('sandbox')
def test_ut_dm_init_bootstd(u_boot_console):
"""Initialise data for bootflow tests"""
setup_bootflow_image(u_boot_console)
setup_bootmenu_image(u_boot_console)
setup_cedit_file(u_boot_console)
setup_cros_image(u_boot_console)
setup_android_image(u_boot_console)
# Restart so that the new mmc1.img is picked up
u_boot_console.restart_uboot()
def test_ut(u_boot_console, ut_subtest):
"""Execute a "ut" subtest.
The subtests are collected in function generate_ut_subtest() from linker
generated lists by applying a regular expression to the lines of file
u-boot.sym. The list entries are created using the C macro UNIT_TEST().
Strict naming conventions have to be followed to match the regular
expression. Use UNIT_TEST(foo_test_bar, _flags, foo_test) for a test bar in
test suite foo that can be executed via command 'ut foo bar' and is
implemented in C function foo_test_bar().
Args:
u_boot_console (ConsoleBase): U-Boot console
ut_subtest (str): test to be executed via command ut, e.g 'foo bar' to
execute command 'ut foo bar'
"""
if ut_subtest == 'hush hush_test_simple_dollar':
# ut hush hush_test_simple_dollar prints "Unknown command" on purpose.
with u_boot_console.disable_check('unknown_command'):
output = u_boot_console.run_command('ut ' + ut_subtest)
assert 'Unknown command \'quux\' - try \'help\'' in output
else:
output = u_boot_console.run_command('ut ' + ut_subtest)
assert output.endswith('Failures: 0')