qemu/tests/avocado/avocado_qemu/__init__.py
Philippe Mathieu-Daudé 2283b627bc tests/avocado: Rename avocado_qemu.Test -> QemuSystemTest
To run user-mode emulation tests, we introduced the
avocado_qemu.QemuUserTest which inherits from avocado_qemu.QemuBaseTest.
System-mode emulation tests are based on the avocado_qemu.Test class,
which also inherits avocado_qemu.QemuBaseTest. To avoid confusion,
rename it as avocado_qemu.QemuSystemTest.

Suggested-by: Wainer dos Santos Moschetta <wainersm@redhat.com>
Reviewed-by: Willian Rampazzo <willianr@redhat.com>
Signed-off-by: Philippe Mathieu-Daudé <f4bug@amsat.org>
Message-Id: <20211105143416.148332-7-f4bug@amsat.org>
2021-11-08 17:00:22 +01:00

640 lines
24 KiB
Python

# Test class and utilities for functional tests
#
# Copyright (c) 2018 Red Hat, Inc.
#
# Author:
# Cleber Rosa <crosa@redhat.com>
#
# This work is licensed under the terms of the GNU GPL, version 2 or
# later. See the COPYING file in the top-level directory.
import logging
import os
import shutil
import subprocess
import sys
import tempfile
import time
import uuid
import avocado
from avocado.utils import cloudinit, datadrainer, network, process, ssh, vmimage
from avocado.utils.path import find_command
#: The QEMU build root directory. It may also be the source directory
#: if building from the source dir, but it's safer to use BUILD_DIR for
#: that purpose. Be aware that if this code is moved outside of a source
#: and build tree, it will not be accurate.
BUILD_DIR = os.path.dirname(os.path.dirname(os.path.dirname(os.path.dirname(__file__))))
if os.path.islink(os.path.dirname(os.path.dirname(__file__))):
# The link to the avocado tests dir in the source code directory
lnk = os.path.dirname(os.path.dirname(__file__))
#: The QEMU root source directory
SOURCE_DIR = os.path.dirname(os.path.dirname(os.readlink(lnk)))
else:
SOURCE_DIR = BUILD_DIR
sys.path.append(os.path.join(SOURCE_DIR, 'python'))
from qemu.machine import QEMUMachine
from qemu.utils import (get_info_usernet_hostfwd_port, kvm_available,
tcg_available)
def has_cmd(name, args=None):
"""
This function is for use in a @avocado.skipUnless decorator, e.g.:
@skipUnless(*has_cmd('sudo -n', ('sudo', '-n', 'true')))
def test_something_that_needs_sudo(self):
...
"""
if args is None:
args = ('which', name)
try:
_, stderr, exitcode = run_cmd(args)
except Exception as e:
exitcode = -1
stderr = str(e)
if exitcode != 0:
cmd_line = ' '.join(args)
err = f'{name} required, but "{cmd_line}" failed: {stderr.strip()}'
return (False, err)
else:
return (True, '')
def has_cmds(*cmds):
"""
This function is for use in a @avocado.skipUnless decorator and
allows checking for the availability of multiple commands, e.g.:
@skipUnless(*has_cmds(('cmd1', ('cmd1', '--some-parameter')),
'cmd2', 'cmd3'))
def test_something_that_needs_cmd1_and_cmd2(self):
...
"""
for cmd in cmds:
if isinstance(cmd, str):
cmd = (cmd,)
ok, errstr = has_cmd(*cmd)
if not ok:
return (False, errstr)
return (True, '')
def run_cmd(args):
subp = subprocess.Popen(args,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
universal_newlines=True)
stdout, stderr = subp.communicate()
ret = subp.returncode
return (stdout, stderr, ret)
def is_readable_executable_file(path):
return os.path.isfile(path) and os.access(path, os.R_OK | os.X_OK)
def pick_default_qemu_bin(bin_prefix='qemu-system-', arch=None):
"""
Picks the path of a QEMU binary, starting either in the current working
directory or in the source tree root directory.
:param arch: the arch to use when looking for a QEMU binary (the target
will match the arch given). If None (the default), arch
will be the current host system arch (as given by
:func:`os.uname`).
:type arch: str
:returns: the path to the default QEMU binary or None if one could not
be found
:rtype: str or None
"""
if arch is None:
arch = os.uname()[4]
# qemu binary path does not match arch for powerpc, handle it
if 'ppc64le' in arch:
arch = 'ppc64'
qemu_bin_relative_path = os.path.join(".", bin_prefix + arch)
if is_readable_executable_file(qemu_bin_relative_path):
return qemu_bin_relative_path
qemu_bin_from_bld_dir_path = os.path.join(BUILD_DIR,
qemu_bin_relative_path)
if is_readable_executable_file(qemu_bin_from_bld_dir_path):
return qemu_bin_from_bld_dir_path
return None
def _console_interaction(test, success_message, failure_message,
send_string, keep_sending=False, vm=None):
assert not keep_sending or send_string
if vm is None:
vm = test.vm
console = vm.console_socket.makefile(mode='rb', encoding='utf-8')
console_logger = logging.getLogger('console')
while True:
if send_string:
vm.console_socket.sendall(send_string.encode())
if not keep_sending:
send_string = None # send only once
try:
msg = console.readline().decode().strip()
except UnicodeDecodeError:
msg = None
if not msg:
continue
console_logger.debug(msg)
if success_message is None or success_message in msg:
break
if failure_message and failure_message in msg:
console.close()
fail = 'Failure message found in console: "%s". Expected: "%s"' % \
(failure_message, success_message)
test.fail(fail)
def interrupt_interactive_console_until_pattern(test, success_message,
failure_message=None,
interrupt_string='\r'):
"""
Keep sending a string to interrupt a console prompt, while logging the
console output. Typical use case is to break a boot loader prompt, such:
Press a key within 5 seconds to interrupt boot process.
5
4
3
2
1
Booting default image...
:param test: an Avocado test containing a VM that will have its console
read and probed for a success or failure message
:type test: :class:`avocado_qemu.QemuSystemTest`
:param success_message: if this message appears, test succeeds
:param failure_message: if this message appears, test fails
:param interrupt_string: a string to send to the console before trying
to read a new line
"""
_console_interaction(test, success_message, failure_message,
interrupt_string, True)
def wait_for_console_pattern(test, success_message, failure_message=None,
vm=None):
"""
Waits for messages to appear on the console, while logging the content
:param test: an Avocado test containing a VM that will have its console
read and probed for a success or failure message
:type test: :class:`avocado_qemu.QemuSystemTest`
:param success_message: if this message appears, test succeeds
:param failure_message: if this message appears, test fails
"""
_console_interaction(test, success_message, failure_message, None, vm=vm)
def exec_command(test, command):
"""
Send a command to a console (appending CRLF characters), while logging
the content.
:param test: an Avocado test containing a VM.
:type test: :class:`avocado_qemu.QemuSystemTest`
:param command: the command to send
:type command: str
"""
_console_interaction(test, None, None, command + '\r')
def exec_command_and_wait_for_pattern(test, command,
success_message, failure_message=None):
"""
Send a command to a console (appending CRLF characters), then wait
for success_message to appear on the console, while logging the.
content. Mark the test as failed if failure_message is found instead.
:param test: an Avocado test containing a VM that will have its console
read and probed for a success or failure message
:type test: :class:`avocado_qemu.QemuSystemTest`
:param command: the command to send
:param success_message: if this message appears, test succeeds
:param failure_message: if this message appears, test fails
"""
_console_interaction(test, success_message, failure_message, command + '\r')
class QemuBaseTest(avocado.Test):
def _get_unique_tag_val(self, tag_name):
"""
Gets a tag value, if unique for a key
"""
vals = self.tags.get(tag_name, [])
if len(vals) == 1:
return vals.pop()
return None
def setUp(self, bin_prefix):
self.arch = self.params.get('arch',
default=self._get_unique_tag_val('arch'))
self.cpu = self.params.get('cpu',
default=self._get_unique_tag_val('cpu'))
default_qemu_bin = pick_default_qemu_bin(bin_prefix, arch=self.arch)
self.qemu_bin = self.params.get('qemu_bin',
default=default_qemu_bin)
if self.qemu_bin is None:
self.cancel("No QEMU binary defined or found in the build tree")
def fetch_asset(self, name,
asset_hash=None, algorithm=None,
locations=None, expire=None,
find_only=False, cancel_on_missing=True):
return super().fetch_asset(name,
asset_hash=asset_hash,
algorithm=algorithm,
locations=locations,
expire=expire,
find_only=find_only,
cancel_on_missing=cancel_on_missing)
class QemuSystemTest(QemuBaseTest):
"""Facilitates system emulation tests."""
def setUp(self):
self._vms = {}
super().setUp('qemu-system-')
self.machine = self.params.get('machine',
default=self._get_unique_tag_val('machine'))
def require_accelerator(self, accelerator):
"""
Requires an accelerator to be available for the test to continue
It takes into account the currently set qemu binary.
If the check fails, the test is canceled. If the check itself
for the given accelerator is not available, the test is also
canceled.
:param accelerator: name of the accelerator, such as "kvm" or "tcg"
:type accelerator: str
"""
checker = {'tcg': tcg_available,
'kvm': kvm_available}.get(accelerator)
if checker is None:
self.cancel("Don't know how to check for the presence "
"of accelerator %s" % accelerator)
if not checker(qemu_bin=self.qemu_bin):
self.cancel("%s accelerator does not seem to be "
"available" % accelerator)
def _new_vm(self, name, *args):
self._sd = tempfile.TemporaryDirectory(prefix="avo_qemu_sock_")
vm = QEMUMachine(self.qemu_bin, base_temp_dir=self.workdir,
sock_dir=self._sd.name, log_dir=self.logdir)
self.log.debug('QEMUMachine "%s" created', name)
self.log.debug('QEMUMachine "%s" temp_dir: %s', name, vm.temp_dir)
self.log.debug('QEMUMachine "%s" log_dir: %s', name, vm.log_dir)
if args:
vm.add_args(*args)
return vm
@property
def vm(self):
return self.get_vm(name='default')
def get_vm(self, *args, name=None):
if not name:
name = str(uuid.uuid4())
if self._vms.get(name) is None:
self._vms[name] = self._new_vm(name, *args)
if self.cpu is not None:
self._vms[name].add_args('-cpu', self.cpu)
if self.machine is not None:
self._vms[name].set_machine(self.machine)
return self._vms[name]
def set_vm_arg(self, arg, value):
"""
Set an argument to list of extra arguments to be given to the QEMU
binary. If the argument already exists then its value is replaced.
:param arg: the QEMU argument, such as "-cpu" in "-cpu host"
:type arg: str
:param value: the argument value, such as "host" in "-cpu host"
:type value: str
"""
if not arg or not value:
return
if arg not in self.vm.args:
self.vm.args.extend([arg, value])
else:
idx = self.vm.args.index(arg) + 1
if idx < len(self.vm.args):
self.vm.args[idx] = value
else:
self.vm.args.append(value)
def tearDown(self):
for vm in self._vms.values():
vm.shutdown()
self._sd = None
super().tearDown()
class QemuUserTest(QemuBaseTest):
"""Facilitates user-mode emulation tests."""
def setUp(self):
self._ldpath = []
super().setUp('qemu-')
def add_ldpath(self, ldpath):
self._ldpath.append(os.path.abspath(ldpath))
def run(self, bin_path, args=[]):
qemu_args = " ".join(["-L %s" % ldpath for ldpath in self._ldpath])
bin_args = " ".join(args)
return process.run("%s %s %s %s" % (self.qemu_bin, qemu_args,
bin_path, bin_args))
class LinuxSSHMixIn:
"""Contains utility methods for interacting with a guest via SSH."""
def ssh_connect(self, username, credential, credential_is_key=True):
self.ssh_logger = logging.getLogger('ssh')
res = self.vm.command('human-monitor-command',
command_line='info usernet')
port = get_info_usernet_hostfwd_port(res)
self.assertIsNotNone(port)
self.assertGreater(port, 0)
self.log.debug('sshd listening on port: %d', port)
if credential_is_key:
self.ssh_session = ssh.Session('127.0.0.1', port=port,
user=username, key=credential)
else:
self.ssh_session = ssh.Session('127.0.0.1', port=port,
user=username, password=credential)
for i in range(10):
try:
self.ssh_session.connect()
return
except:
time.sleep(i)
self.fail('ssh connection timeout')
def ssh_command(self, command):
self.ssh_logger.info(command)
result = self.ssh_session.cmd(command)
stdout_lines = [line.rstrip() for line
in result.stdout_text.splitlines()]
for line in stdout_lines:
self.ssh_logger.info(line)
stderr_lines = [line.rstrip() for line
in result.stderr_text.splitlines()]
for line in stderr_lines:
self.ssh_logger.warning(line)
self.assertEqual(result.exit_status, 0,
f'Guest command failed: {command}')
return stdout_lines, stderr_lines
class LinuxDistro:
"""Represents a Linux distribution
Holds information of known distros.
"""
#: A collection of known distros and their respective image checksum
KNOWN_DISTROS = {
'fedora': {
'31': {
'x86_64':
{'checksum': ('e3c1b309d9203604922d6e255c2c5d09'
'8a309c2d46215d8fc026954f3c5c27a0'),
'pxeboot_url': ('https://archives.fedoraproject.org/'
'pub/archive/fedora/linux/releases/31/'
'Everything/x86_64/os/images/pxeboot/'),
'kernel_params': ('root=UUID=b1438b9b-2cab-4065-a99a-'
'08a96687f73c ro no_timer_check '
'net.ifnames=0 console=tty1 '
'console=ttyS0,115200n8'),
},
'aarch64':
{'checksum': ('1e18d9c0cf734940c4b5d5ec592facae'
'd2af0ad0329383d5639c997fdf16fe49'),
'pxeboot_url': 'https://archives.fedoraproject.org/'
'pub/archive/fedora/linux/releases/31/'
'Everything/aarch64/os/images/pxeboot/',
'kernel_params': ('root=UUID=b6950a44-9f3c-4076-a9c2-'
'355e8475b0a7 ro earlyprintk=pl011,0x9000000'
' ignore_loglevel no_timer_check'
' printk.time=1 rd_NO_PLYMOUTH'
' console=ttyAMA0'),
},
'ppc64':
{'checksum': ('7c3528b85a3df4b2306e892199a9e1e4'
'3f991c506f2cc390dc4efa2026ad2f58')},
's390x':
{'checksum': ('4caaab5a434fd4d1079149a072fdc789'
'1e354f834d355069ca982fdcaf5a122d')},
},
'32': {
'aarch64':
{'checksum': ('b367755c664a2d7a26955bbfff985855'
'adfa2ca15e908baf15b4b176d68d3967'),
'pxeboot_url': ('http://dl.fedoraproject.org/pub/fedora/linux/'
'releases/32/Server/aarch64/os/images/'
'pxeboot/'),
'kernel_params': ('root=UUID=3df75b65-be8d-4db4-8655-'
'14d95c0e90c5 ro no_timer_check net.ifnames=0'
' console=tty1 console=ttyS0,115200n8'),
},
},
'33': {
'aarch64':
{'checksum': ('e7f75cdfd523fe5ac2ca9eeece68edc1'
'a81f386a17f969c1d1c7c87031008a6b'),
'pxeboot_url': ('http://dl.fedoraproject.org/pub/fedora/linux/'
'releases/33/Server/aarch64/os/images/'
'pxeboot/'),
'kernel_params': ('root=UUID=d20b3ffa-6397-4a63-a734-'
'1126a0208f8a ro no_timer_check net.ifnames=0'
' console=tty1 console=ttyS0,115200n8'
' console=tty0'),
},
},
}
}
def __init__(self, name, version, arch):
self.name = name
self.version = version
self.arch = arch
try:
info = self.KNOWN_DISTROS.get(name).get(version).get(arch)
except AttributeError:
# Unknown distro
info = None
self._info = info or {}
@property
def checksum(self):
"""Gets the cloud-image file checksum"""
return self._info.get('checksum', None)
@checksum.setter
def checksum(self, value):
self._info['checksum'] = value
@property
def pxeboot_url(self):
"""Gets the repository url where pxeboot files can be found"""
return self._info.get('pxeboot_url', None)
@property
def default_kernel_params(self):
"""Gets the default kernel parameters"""
return self._info.get('kernel_params', None)
class LinuxTest(LinuxSSHMixIn, QemuSystemTest):
"""Facilitates having a cloud-image Linux based available.
For tests that indent to interact with guests, this is a better choice
to start with than the more vanilla `QemuSystemTest` class.
"""
timeout = 900
distro = None
username = 'root'
password = 'password'
def _set_distro(self):
distro_name = self.params.get(
'distro',
default=self._get_unique_tag_val('distro'))
if not distro_name:
distro_name = 'fedora'
distro_version = self.params.get(
'distro_version',
default=self._get_unique_tag_val('distro_version'))
if not distro_version:
distro_version = '31'
self.distro = LinuxDistro(distro_name, distro_version, self.arch)
# The distro checksum behaves differently than distro name and
# version. First, it does not respect a tag with the same
# name, given that it's not expected to be used for filtering
# (distro name versions are the natural choice). Second, the
# order of precedence is: parameter, attribute and then value
# from KNOWN_DISTROS.
distro_checksum = self.params.get('distro_checksum',
default=None)
if distro_checksum:
self.distro.checksum = distro_checksum
def setUp(self, ssh_pubkey=None, network_device_type='virtio-net'):
super().setUp()
self._set_distro()
self.vm.add_args('-smp', '2')
self.vm.add_args('-m', '1024')
# The following network device allows for SSH connections
self.vm.add_args('-netdev', 'user,id=vnet,hostfwd=:127.0.0.1:0-:22',
'-device', '%s,netdev=vnet' % network_device_type)
self.set_up_boot()
if ssh_pubkey is None:
ssh_pubkey, self.ssh_key = self.set_up_existing_ssh_keys()
self.set_up_cloudinit(ssh_pubkey)
def set_up_existing_ssh_keys(self):
ssh_public_key = os.path.join(SOURCE_DIR, 'tests', 'keys', 'id_rsa.pub')
source_private_key = os.path.join(SOURCE_DIR, 'tests', 'keys', 'id_rsa')
ssh_dir = os.path.join(self.workdir, '.ssh')
os.mkdir(ssh_dir, mode=0o700)
ssh_private_key = os.path.join(ssh_dir,
os.path.basename(source_private_key))
shutil.copyfile(source_private_key, ssh_private_key)
os.chmod(ssh_private_key, 0o600)
return (ssh_public_key, ssh_private_key)
def download_boot(self):
self.log.debug('Looking for and selecting a qemu-img binary to be '
'used to create the bootable snapshot image')
# If qemu-img has been built, use it, otherwise the system wide one
# will be used. If none is available, the test will cancel.
qemu_img = os.path.join(BUILD_DIR, 'qemu-img')
if not os.path.exists(qemu_img):
qemu_img = find_command('qemu-img', False)
if qemu_img is False:
self.cancel('Could not find "qemu-img", which is required to '
'create the bootable image')
vmimage.QEMU_IMG = qemu_img
self.log.info('Downloading/preparing boot image')
# Fedora 31 only provides ppc64le images
image_arch = self.arch
if self.distro.name == 'fedora':
if image_arch == 'ppc64':
image_arch = 'ppc64le'
try:
boot = vmimage.get(
self.distro.name, arch=image_arch, version=self.distro.version,
checksum=self.distro.checksum,
algorithm='sha256',
cache_dir=self.cache_dirs[0],
snapshot_dir=self.workdir)
except:
self.cancel('Failed to download/prepare boot image')
return boot.path
def prepare_cloudinit(self, ssh_pubkey=None):
self.log.info('Preparing cloudinit image')
try:
cloudinit_iso = os.path.join(self.workdir, 'cloudinit.iso')
self.phone_home_port = network.find_free_port()
pubkey_content = None
if ssh_pubkey:
with open(ssh_pubkey) as pubkey:
pubkey_content = pubkey.read()
cloudinit.iso(cloudinit_iso, self.name,
username=self.username,
password=self.password,
# QEMU's hard coded usermode router address
phone_home_host='10.0.2.2',
phone_home_port=self.phone_home_port,
authorized_key=pubkey_content)
except Exception:
self.cancel('Failed to prepare the cloudinit image')
return cloudinit_iso
def set_up_boot(self):
path = self.download_boot()
self.vm.add_args('-drive', 'file=%s' % path)
def set_up_cloudinit(self, ssh_pubkey=None):
cloudinit_iso = self.prepare_cloudinit(ssh_pubkey)
self.vm.add_args('-drive', 'file=%s,format=raw' % cloudinit_iso)
def launch_and_wait(self, set_up_ssh_connection=True):
self.vm.set_console()
self.vm.launch()
console_drainer = datadrainer.LineLogger(self.vm.console_socket.fileno(),
logger=self.log.getChild('console'))
console_drainer.start()
self.log.info('VM launched, waiting for boot confirmation from guest')
cloudinit.wait_for_phone_home(('0.0.0.0', self.phone_home_port), self.name)
if set_up_ssh_connection:
self.log.info('Setting up the SSH connection')
self.ssh_connect(self.username, self.ssh_key)