qemu-e2k/tests/avocado/tuxrun_baselines.py
Alex Bennée 267fe57c23 tests: add tuxrun baseline test to avocado
The TuxRun project (www.tuxrun.org) uses QEMU to run tests on a wide
variety of kernel configurations on wide range of our emulated
platforms. They publish a known good set of images at:

  https://storage.tuxboot.com/

to help with bisecting regressions in either the kernel, firmware or
QEMU itself. The tests are pretty lightweight as they contain just a
kernel with a minimal rootfs which boots a lot faster than most of the
distros. In time they might be persuaded to version their known good
baselines and we can then enable proper checksums.

For a couple of tests we currently skip:

  - mips64, a regression against previous stable release
  - sh4, very unstable with intermittent oops

Total run time: 340s (default) -> 890s (debug)

Overall coverage rate (tested targets + disabled tests):
  lines......: 16.1% (126894 of 789848 lines)
  functions..: 20.6% (15954 of 77489 functions)
  branches...: 9.3% (40727 of 439365 branches)

Signed-off-by: Alex Bennée <alex.bennee@linaro.org>
Cc: Anders Roxell <anders.roxell@linaro.org>
Acked-by: Thomas Huth <thuth@redhat.com>
Reviewed-by: Philippe Mathieu-Daudé <philmd@linaro.org>
Message-Id: <20230228190653.1602033-11-alex.bennee@linaro.org>
2023-03-01 10:31:52 +00:00

424 lines
13 KiB
Python

# Functional test that boots known good tuxboot images the same way
# that tuxrun (www.tuxrun.org) does. This tool is used by things like
# the LKFT project to run regression tests on kernels.
#
# Copyright (c) 2023 Linaro Ltd.
#
# Author:
# Alex Bennée <alex.bennee@linaro.org>
#
# SPDX-License-Identifier: GPL-2.0-or-later
import os
import time
from avocado import skip, skipIf
from avocado_qemu import QemuSystemTest
from avocado_qemu import exec_command, exec_command_and_wait_for_pattern
from avocado_qemu import wait_for_console_pattern
from avocado.utils import process
from avocado.utils.path import find_command
class TuxRunBaselineTest(QemuSystemTest):
"""
:avocado: tags=accel:tcg
"""
KERNEL_COMMON_COMMAND_LINE = 'printk.time=0'
# Tests are ~10-40s, allow for --debug/--enable-gcov overhead
timeout = 100
def get_tag(self, tagname, default=None):
"""
Get the metadata tag or return the default.
"""
utag = self._get_unique_tag_val(tagname)
print(f"{tagname}/{default} -> {utag}")
if utag:
return utag
return default
def setUp(self):
super().setUp()
# We need zstd for all the tuxrun tests
# See https://github.com/avocado-framework/avocado/issues/5609
zstd = find_command('zstd', False)
if zstd is False:
self.cancel('Could not find "zstd", which is required to '
'decompress rootfs')
self.zstd = zstd
# Process the TuxRun specific tags, most machines work with
# reasonable defaults but we sometimes need to tweak the
# config. To avoid open coding everything we store all these
# details in the metadata for each test.
# The tuxboot tag matches the root directory
self.tuxboot = self.get_tag('tuxboot')
# Most Linux's use ttyS0 for their serial port
self.console = self.get_tag('console', "ttyS0")
# Does the machine shutdown QEMU nicely on "halt"
self.shutdown = self.get_tag('shutdown')
# The name of the kernel Image file
self.image = self.get_tag('image', "Image")
# The block device drive type
self.drive = self.get_tag('drive', "virtio-blk-device")
self.root = self.get_tag('root', "vda")
# Occasionally we need extra devices to hook things up
self.extradev = self.get_tag('extradev')
def wait_for_console_pattern(self, success_message, vm=None):
wait_for_console_pattern(self, success_message,
failure_message='Kernel panic - not syncing',
vm=vm)
def fetch_tuxrun_assets(self, dt=None):
"""
Fetch the TuxBoot assets. They are stored in a standard way so we
use the per-test tags to fetch details.
"""
base_url = f"https://storage.tuxboot.com/{self.tuxboot}/"
kernel_image = self.fetch_asset(base_url + self.image)
disk_image_zst = self.fetch_asset(base_url + "rootfs.ext4.zst")
cmd = f"{self.zstd} -d {disk_image_zst} -o {self.workdir}/rootfs.ext4"
process.run(cmd)
if dt:
dtb = self.fetch_asset(base_url + dt)
else:
dtb = None
return (kernel_image, self.workdir + "/rootfs.ext4", dtb)
def prepare_run(self, kernel, disk, dtb=None, console_index=0):
"""
Setup to run and add the common parameters to the system
"""
self.vm.set_console(console_index=console_index)
# all block devices are raw ext4's
blockdev = "driver=raw,file.driver=file," \
+ f"file.filename={disk},node-name=hd0"
kcmd_line = self.KERNEL_COMMON_COMMAND_LINE
kcmd_line += f" root=/dev/{self.root}"
kcmd_line += f" console={self.console}"
self.vm.add_args('-kernel', kernel,
'-append', kcmd_line,
'-blockdev', blockdev)
# Sometimes we need extra devices attached
if self.extradev:
self.vm.add_args('-device', self.extradev)
# Some machines already define a drive device
if self.drive != "none":
self.vm.add_args('-device',
f"{self.drive},drive=hd0")
# Some machines need an explicit DTB
if dtb:
self.vm.add_args('-dtb', dtb)
def run_tuxtest_tests(self, haltmsg):
"""
Wait for the system to boot up, wait for the login prompt and
then do a few things on the console. Trigger a shutdown and
wait to exit cleanly.
"""
self.wait_for_console_pattern("Welcome to TuxTest")
time.sleep(0.2)
exec_command(self, 'root')
time.sleep(0.2)
exec_command(self, 'cat /proc/interrupts')
time.sleep(0.1)
exec_command(self, 'cat /proc/self/maps')
time.sleep(0.1)
exec_command(self, 'uname -a')
time.sleep(0.1)
exec_command_and_wait_for_pattern(self, 'halt', haltmsg)
# Wait for VM to shut down gracefully if it can
if self.shutdown == "nowait":
self.vm.shutdown()
else:
self.vm.wait()
def common_tuxrun(self, dt=None, haltmsg="reboot: System halted",
console_index=0):
"""
Common path for LKFT tests. Unless we need to do something
special with the command line we can process most things using
the tag metadata.
"""
(kernel, disk, dtb) = self.fetch_tuxrun_assets(dt)
self.prepare_run(kernel, disk, dtb, console_index)
self.vm.launch()
self.run_tuxtest_tests(haltmsg)
#
# The tests themselves. The configuration is derived from how
# tuxrun invokes qemu (with minor tweaks like using -blockdev
# consistently). The tuxrun equivalent is something like:
#
# tuxrun --device qemu-{ARCH} \
# --kernel https://storage.tuxboot.com/{TUXBOOT}/{IMAGE}
#
def test_arm64(self):
"""
:avocado: tags=arch:aarch64
:avocado: tags=cpu:cortex-a57
:avocado: tags=machine:virt
:avocado: tags=tuxboot:arm64
:avocado: tags=console:ttyAMA0
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_arm64be(self):
"""
:avocado: tags=arch:aarch64
:avocado: tags=cpu:cortex-a57
:avocado: tags=endian:big
:avocado: tags=machine:virt
:avocado: tags=tuxboot:arm64be
:avocado: tags=console:ttyAMA0
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_armv5(self):
"""
:avocado: tags=arch:arm
:avocado: tags=cpu:arm926
:avocado: tags=machine:versatilepb
:avocado: tags=tuxboot:armv5
:avocado: tags=image:zImage
:avocado: tags=drive:virtio-blk-pci
:avocado: tags=console:ttyAMA0
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun(dt="versatile-pb.dtb")
def test_armv7(self):
"""
:avocado: tags=arch:arm
:avocado: tags=cpu:cortex-a15
:avocado: tags=machine:virt
:avocado: tags=tuxboot:armv7
:avocado: tags=image:zImage
:avocado: tags=console:ttyAMA0
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_armv7be(self):
"""
:avocado: tags=arch:arm
:avocado: tags=cpu:cortex-a15
:avocado: tags=endian:big
:avocado: tags=machine:virt
:avocado: tags=tuxboot:armv7be
:avocado: tags=image:zImage
:avocado: tags=console:ttyAMA0
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_i386(self):
"""
:avocado: tags=arch:i386
:avocado: tags=cpu:coreduo
:avocado: tags=machine:q35
:avocado: tags=tuxboot:i386
:avocado: tags=image:bzImage
:avocado: tags=drive:virtio-blk-pci
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_mips32(self):
"""
:avocado: tags=arch:mips
:avocado: tags=machine:malta
:avocado: tags=cpu:mips32r6-generic
:avocado: tags=endian:big
:avocado: tags=tuxboot:mips32
:avocado: tags=image:vmlinux
:avocado: tags=drive:driver=ide-hd,bus=ide.0,unit=0
:avocado: tags=root:sda
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_mips32el(self):
"""
:avocado: tags=arch:mipsel
:avocado: tags=machine:malta
:avocado: tags=cpu:mips32r6-generic
:avocado: tags=tuxboot:mips32el
:avocado: tags=image:vmlinux
:avocado: tags=drive:driver=ide-hd,bus=ide.0,unit=0
:avocado: tags=root:sda
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
@skip("QEMU currently broken") # regression against stable QEMU
def test_mips64(self):
"""
:avocado: tags=arch:mips64
:avocado: tags=machine:malta
:avocado: tags=tuxboot:mips64
:avocado: tags=endian:big
:avocado: tags=image:vmlinux
:avocado: tags=drive:driver=ide-hd,bus=ide.0,unit=0
:avocado: tags=root:sda
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_mips64el(self):
"""
:avocado: tags=arch:mips64el
:avocado: tags=machine:malta
:avocado: tags=tuxboot:mips64el
:avocado: tags=image:vmlinux
:avocado: tags=drive:driver=ide-hd,bus=ide.0,unit=0
:avocado: tags=root:sda
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_ppc32(self):
"""
:avocado: tags=arch:ppc
:avocado: tags=machine:ppce500
:avocado: tags=cpu:e500mc
:avocado: tags=tuxboot:ppc32
:avocado: tags=image:uImage
:avocado: tags=drive:virtio-blk-pci
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_ppc64(self):
"""
:avocado: tags=arch:ppc64
:avocado: tags=machine:pseries
:avocado: tags=cpu:POWER8
:avocado: tags=endian:big
:avocado: tags=console:hvc0
:avocado: tags=tuxboot:ppc64
:avocado: tags=image:vmlinux
:avocado: tags=extradev:driver=spapr-vscsi
:avocado: tags=drive:scsi-hd
:avocado: tags=root:sda
"""
self.common_tuxrun()
def test_ppc64le(self):
"""
:avocado: tags=arch:ppc64
:avocado: tags=machine:pseries
:avocado: tags=cpu:POWER8
:avocado: tags=console:hvc0
:avocado: tags=tuxboot:ppc64le
:avocado: tags=image:vmlinux
:avocado: tags=extradev:driver=spapr-vscsi
:avocado: tags=drive:scsi-hd
:avocado: tags=root:sda
"""
self.common_tuxrun()
def test_riscv32(self):
"""
:avocado: tags=arch:riscv32
:avocado: tags=machine:virt
:avocado: tags=tuxboot:riscv32
"""
self.common_tuxrun()
def test_riscv64(self):
"""
:avocado: tags=arch:riscv64
:avocado: tags=machine:virt
:avocado: tags=tuxboot:riscv64
"""
self.common_tuxrun()
def test_s390(self):
"""
:avocado: tags=arch:s390x
:avocado: tags=endian:big
:avocado: tags=tuxboot:s390
:avocado: tags=image:bzImage
:avocado: tags=drive:virtio-blk-ccw
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun(haltmsg="Requesting system halt")
# Note: some segfaults caused by unaligned userspace access
@skipIf(os.getenv('GITLAB_CI'), 'Skipping unstable test on GitLab')
def test_sh4(self):
"""
:avocado: tags=arch:sh4
:avocado: tags=machine:r2d
:avocado: tags=cpu:sh7785
:avocado: tags=tuxboot:sh4
:avocado: tags=image:zImage
:avocado: tags=root:sda
:avocado: tags=drive:driver=ide-hd,bus=ide.0,unit=0
:avocado: tags=console:ttySC1
"""
# The test is currently too unstable to do much in userspace
# so we skip common_tuxrun and do a minimal boot and shutdown.
(kernel, disk, dtb) = self.fetch_tuxrun_assets()
# the console comes on the second serial port
self.prepare_run(kernel, disk, console_index=1)
self.vm.launch()
self.wait_for_console_pattern("Welcome to TuxTest")
time.sleep(0.1)
exec_command(self, 'root')
time.sleep(0.1)
exec_command_and_wait_for_pattern(self, 'halt',
"reboot: System halted")
def test_sparc64(self):
"""
:avocado: tags=arch:sparc64
:avocado: tags=tuxboot:sparc64
:avocado: tags=image:vmlinux
:avocado: tags=root:sda
:avocado: tags=drive:driver=ide-hd,bus=ide.0,unit=0
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()
def test_x86_64(self):
"""
:avocado: tags=arch:x86_64
:avocado: tags=machine:q35
:avocado: tags=cpu:Nehalem
:avocado: tags=tuxboot:x86_64
:avocado: tags=image:bzImage
:avocado: tags=root:sda
:avocado: tags=drive:driver=ide-hd,bus=ide.0,unit=0
:avocado: tags=shutdown:nowait
"""
self.common_tuxrun()