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|
# Common utilities and Python wrappers for qemu-iotests
#
# Copyright (C) 2012 IBM Corp.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <http://www.gnu.org/licenses/>.
#
import atexit
from collections import OrderedDict
import faulthandler
import io
import json
import logging
import os
import re
import signal
import struct
import subprocess
import sys
import time
from typing import (Any, Callable, Dict, Iterable,
List, Optional, Sequence, Tuple, TypeVar)
import unittest
from contextlib import contextmanager
# pylint: disable=import-error, wrong-import-position
sys.path.append(os.path.join(os.path.dirname(__file__), '..', '..', 'python'))
from qemu import qtest
from qemu.qmp import QMPMessage
assert sys.version_info >= (3, 6)
# Use this logger for logging messages directly from the iotests module
logger = logging.getLogger('qemu.iotests')
logger.addHandler(logging.NullHandler())
# Use this logger for messages that ought to be used for diff output.
test_logger = logging.getLogger('qemu.iotests.diff_io')
faulthandler.enable()
# This will not work if arguments contain spaces but is necessary if we
# want to support the override options that ./check supports.
qemu_img_args = [os.environ.get('QEMU_IMG_PROG', 'qemu-img')]
if os.environ.get('QEMU_IMG_OPTIONS'):
qemu_img_args += os.environ['QEMU_IMG_OPTIONS'].strip().split(' ')
qemu_io_args = [os.environ.get('QEMU_IO_PROG', 'qemu-io')]
if os.environ.get('QEMU_IO_OPTIONS'):
qemu_io_args += os.environ['QEMU_IO_OPTIONS'].strip().split(' ')
qemu_io_args_no_fmt = [os.environ.get('QEMU_IO_PROG', 'qemu-io')]
if os.environ.get('QEMU_IO_OPTIONS_NO_FMT'):
qemu_io_args_no_fmt += \
os.environ['QEMU_IO_OPTIONS_NO_FMT'].strip().split(' ')
qemu_nbd_args = [os.environ.get('QEMU_NBD_PROG', 'qemu-nbd')]
if os.environ.get('QEMU_NBD_OPTIONS'):
qemu_nbd_args += os.environ['QEMU_NBD_OPTIONS'].strip().split(' ')
qemu_prog = os.environ.get('QEMU_PROG', 'qemu')
qemu_opts = os.environ.get('QEMU_OPTIONS', '').strip().split(' ')
imgfmt = os.environ.get('IMGFMT', 'raw')
imgproto = os.environ.get('IMGPROTO', 'file')
test_dir = os.environ.get('TEST_DIR')
sock_dir = os.environ.get('SOCK_DIR')
output_dir = os.environ.get('OUTPUT_DIR', '.')
cachemode = os.environ.get('CACHEMODE')
aiomode = os.environ.get('AIOMODE')
qemu_default_machine = os.environ.get('QEMU_DEFAULT_MACHINE')
socket_scm_helper = os.environ.get('SOCKET_SCM_HELPER', 'socket_scm_helper')
luks_default_secret_object = 'secret,id=keysec0,data=' + \
os.environ.get('IMGKEYSECRET', '')
luks_default_key_secret_opt = 'key-secret=keysec0'
def qemu_img_pipe_and_status(*args: str) -> Tuple[str, int]:
"""
Run qemu-img and return both its output and its exit code
"""
subp = subprocess.Popen(qemu_img_args + list(args),
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True)
output = subp.communicate()[0]
if subp.returncode < 0:
sys.stderr.write('qemu-img received signal %i: %s\n'
% (-subp.returncode,
' '.join(qemu_img_args + list(args))))
return (output, subp.returncode)
def qemu_img(*args: str) -> int:
'''Run qemu-img and return the exit code'''
return qemu_img_pipe_and_status(*args)[1]
def ordered_qmp(qmsg, conv_keys=True):
# Dictionaries are not ordered prior to 3.6, therefore:
if isinstance(qmsg, list):
return [ordered_qmp(atom) for atom in qmsg]
if isinstance(qmsg, dict):
od = OrderedDict()
for k, v in sorted(qmsg.items()):
if conv_keys:
k = k.replace('_', '-')
od[k] = ordered_qmp(v, conv_keys=False)
return od
return qmsg
def qemu_img_create(*args):
args = list(args)
# default luks support
if '-f' in args and args[args.index('-f') + 1] == 'luks':
if '-o' in args:
i = args.index('-o')
if 'key-secret' not in args[i + 1]:
args[i + 1].append(luks_default_key_secret_opt)
args.insert(i + 2, '--object')
args.insert(i + 3, luks_default_secret_object)
else:
args = ['-o', luks_default_key_secret_opt,
'--object', luks_default_secret_object] + args
args.insert(0, 'create')
return qemu_img(*args)
def qemu_img_measure(*args):
return json.loads(qemu_img_pipe("measure", "--output", "json", *args))
def qemu_img_check(*args):
return json.loads(qemu_img_pipe("check", "--output", "json", *args))
def qemu_img_verbose(*args):
'''Run qemu-img without suppressing its output and return the exit code'''
exitcode = subprocess.call(qemu_img_args + list(args))
if exitcode < 0:
sys.stderr.write('qemu-img received signal %i: %s\n'
% (-exitcode, ' '.join(qemu_img_args + list(args))))
return exitcode
def qemu_img_pipe(*args: str) -> str:
'''Run qemu-img and return its output'''
return qemu_img_pipe_and_status(*args)[0]
def qemu_img_log(*args):
result = qemu_img_pipe(*args)
log(result, filters=[filter_testfiles])
return result
def img_info_log(filename, filter_path=None, imgopts=False, extra_args=()):
args = ['info']
if imgopts:
args.append('--image-opts')
else:
args += ['-f', imgfmt]
args += extra_args
args.append(filename)
output = qemu_img_pipe(*args)
if not filter_path:
filter_path = filename
log(filter_img_info(output, filter_path))
def qemu_io(*args):
'''Run qemu-io and return the stdout data'''
args = qemu_io_args + list(args)
subp = subprocess.Popen(args, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True)
output = subp.communicate()[0]
if subp.returncode < 0:
sys.stderr.write('qemu-io received signal %i: %s\n'
% (-subp.returncode, ' '.join(args)))
return output
def qemu_io_log(*args):
result = qemu_io(*args)
log(result, filters=[filter_testfiles, filter_qemu_io])
return result
def qemu_io_silent(*args):
'''Run qemu-io and return the exit code, suppressing stdout'''
args = qemu_io_args + list(args)
exitcode = subprocess.call(args, stdout=open('/dev/null', 'w'))
if exitcode < 0:
sys.stderr.write('qemu-io received signal %i: %s\n' %
(-exitcode, ' '.join(args)))
return exitcode
def qemu_io_silent_check(*args):
'''Run qemu-io and return the true if subprocess returned 0'''
args = qemu_io_args + list(args)
exitcode = subprocess.call(args, stdout=open('/dev/null', 'w'),
stderr=subprocess.STDOUT)
return exitcode == 0
def get_virtio_scsi_device():
if qemu_default_machine == 's390-ccw-virtio':
return 'virtio-scsi-ccw'
return 'virtio-scsi-pci'
class QemuIoInteractive:
def __init__(self, *args):
self.args = qemu_io_args_no_fmt + list(args)
self._p = subprocess.Popen(self.args, stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True)
out = self._p.stdout.read(9)
if out != 'qemu-io> ':
# Most probably qemu-io just failed to start.
# Let's collect the whole output and exit.
out += self._p.stdout.read()
self._p.wait(timeout=1)
raise ValueError(out)
def close(self):
self._p.communicate('q\n')
def _read_output(self):
pattern = 'qemu-io> '
n = len(pattern)
pos = 0
s = []
while pos != n:
c = self._p.stdout.read(1)
# check unexpected EOF
assert c != ''
s.append(c)
if c == pattern[pos]:
pos += 1
else:
pos = 0
return ''.join(s[:-n])
def cmd(self, cmd):
# quit command is in close(), '\n' is added automatically
assert '\n' not in cmd
cmd = cmd.strip()
assert cmd not in ('q', 'quit')
self._p.stdin.write(cmd + '\n')
self._p.stdin.flush()
return self._read_output()
def qemu_nbd(*args):
'''Run qemu-nbd in daemon mode and return the parent's exit code'''
return subprocess.call(qemu_nbd_args + ['--fork'] + list(args))
def qemu_nbd_early_pipe(*args):
'''Run qemu-nbd in daemon mode and return both the parent's exit code
and its output in case of an error'''
subp = subprocess.Popen(qemu_nbd_args + ['--fork'] + list(args),
stdout=subprocess.PIPE,
universal_newlines=True)
output = subp.communicate()[0]
if subp.returncode < 0:
sys.stderr.write('qemu-nbd received signal %i: %s\n' %
(-subp.returncode,
' '.join(qemu_nbd_args + ['--fork'] + list(args))))
return subp.returncode, output if subp.returncode else ''
@contextmanager
def qemu_nbd_popen(*args):
'''Context manager running qemu-nbd within the context'''
pid_file = file_path("pid")
cmd = list(qemu_nbd_args)
cmd.extend(('--persistent', '--pid-file', pid_file))
cmd.extend(args)
log('Start NBD server')
p = subprocess.Popen(cmd)
try:
while not os.path.exists(pid_file):
if p.poll() is not None:
raise RuntimeError(
"qemu-nbd terminated with exit code {}: {}"
.format(p.returncode, ' '.join(cmd)))
time.sleep(0.01)
yield
finally:
log('Kill NBD server')
p.kill()
p.wait()
def compare_images(img1, img2, fmt1=imgfmt, fmt2=imgfmt):
'''Return True if two image files are identical'''
return qemu_img('compare', '-f', fmt1,
'-F', fmt2, img1, img2) == 0
def create_image(name, size):
'''Create a fully-allocated raw image with sector markers'''
file = open(name, 'wb')
i = 0
while i < size:
sector = struct.pack('>l504xl', i // 512, i // 512)
file.write(sector)
i = i + 512
file.close()
def image_size(img):
'''Return image's virtual size'''
r = qemu_img_pipe('info', '--output=json', '-f', imgfmt, img)
return json.loads(r)['virtual-size']
def is_str(val):
return isinstance(val, str)
test_dir_re = re.compile(r"%s" % test_dir)
def filter_test_dir(msg):
return test_dir_re.sub("TEST_DIR", msg)
win32_re = re.compile(r"\r")
def filter_win32(msg):
return win32_re.sub("", msg)
qemu_io_re = re.compile(r"[0-9]* ops; [0-9\/:. sec]* "
r"\([0-9\/.inf]* [EPTGMKiBbytes]*\/sec "
r"and [0-9\/.inf]* ops\/sec\)")
def filter_qemu_io(msg):
msg = filter_win32(msg)
return qemu_io_re.sub("X ops; XX:XX:XX.X "
"(XXX YYY/sec and XXX ops/sec)", msg)
chown_re = re.compile(r"chown [0-9]+:[0-9]+")
def filter_chown(msg):
return chown_re.sub("chown UID:GID", msg)
def filter_qmp_event(event):
'''Filter a QMP event dict'''
event = dict(event)
if 'timestamp' in event:
event['timestamp']['seconds'] = 'SECS'
event['timestamp']['microseconds'] = 'USECS'
return event
def filter_qmp(qmsg, filter_fn):
'''Given a string filter, filter a QMP object's values.
filter_fn takes a (key, value) pair.'''
# Iterate through either lists or dicts;
if isinstance(qmsg, list):
items = enumerate(qmsg)
else:
items = qmsg.items()
for k, v in items:
if isinstance(v, (dict, list)):
qmsg[k] = filter_qmp(v, filter_fn)
else:
qmsg[k] = filter_fn(k, v)
return qmsg
def filter_testfiles(msg):
pref1 = os.path.join(test_dir, "%s-" % (os.getpid()))
pref2 = os.path.join(sock_dir, "%s-" % (os.getpid()))
return msg.replace(pref1, 'TEST_DIR/PID-').replace(pref2, 'SOCK_DIR/PID-')
def filter_qmp_testfiles(qmsg):
def _filter(_key, value):
if is_str(value):
return filter_testfiles(value)
return value
return filter_qmp(qmsg, _filter)
def filter_generated_node_ids(msg):
return re.sub("#block[0-9]+", "NODE_NAME", msg)
def filter_img_info(output, filename):
lines = []
for line in output.split('\n'):
if 'disk size' in line or 'actual-size' in line:
continue
line = line.replace(filename, 'TEST_IMG')
line = filter_testfiles(line)
line = line.replace(imgfmt, 'IMGFMT')
line = re.sub('iters: [0-9]+', 'iters: XXX', line)
line = re.sub('uuid: [-a-f0-9]+',
'uuid: XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX',
line)
line = re.sub('cid: [0-9]+', 'cid: XXXXXXXXXX', line)
lines.append(line)
return '\n'.join(lines)
def filter_imgfmt(msg):
return msg.replace(imgfmt, 'IMGFMT')
def filter_qmp_imgfmt(qmsg):
def _filter(_key, value):
if is_str(value):
return filter_imgfmt(value)
return value
return filter_qmp(qmsg, _filter)
Msg = TypeVar('Msg', Dict[str, Any], List[Any], str)
def log(msg: Msg,
filters: Iterable[Callable[[Msg], Msg]] = (),
indent: Optional[int] = None) -> None:
"""
Logs either a string message or a JSON serializable message (like QMP).
If indent is provided, JSON serializable messages are pretty-printed.
"""
for flt in filters:
msg = flt(msg)
if isinstance(msg, (dict, list)):
# Don't sort if it's already sorted
do_sort = not isinstance(msg, OrderedDict)
test_logger.info(json.dumps(msg, sort_keys=do_sort, indent=indent))
else:
test_logger.info(msg)
class Timeout:
def __init__(self, seconds, errmsg="Timeout"):
self.seconds = seconds
self.errmsg = errmsg
def __enter__(self):
signal.signal(signal.SIGALRM, self.timeout)
signal.setitimer(signal.ITIMER_REAL, self.seconds)
return self
def __exit__(self, exc_type, value, traceback):
signal.setitimer(signal.ITIMER_REAL, 0)
return False
def timeout(self, signum, frame):
raise Exception(self.errmsg)
def file_pattern(name):
return "{0}-{1}".format(os.getpid(), name)
class FilePaths:
"""
FilePaths is an auto-generated filename that cleans itself up.
Use this context manager to generate filenames and ensure that the file
gets deleted::
with FilePaths(['test.img']) as img_path:
qemu_img('create', img_path, '1G')
# migration_sock_path is automatically deleted
"""
def __init__(self, names, base_dir=test_dir):
self.paths = []
for name in names:
self.paths.append(os.path.join(base_dir, file_pattern(name)))
def __enter__(self):
return self.paths
def __exit__(self, exc_type, exc_val, exc_tb):
try:
for path in self.paths:
os.remove(path)
except OSError:
pass
return False
class FilePath(FilePaths):
"""
FilePath is a specialization of FilePaths that takes a single filename.
"""
def __init__(self, name, base_dir=test_dir):
super(FilePath, self).__init__([name], base_dir)
def __enter__(self):
return self.paths[0]
def file_path_remover():
for path in reversed(file_path_remover.paths):
try:
os.remove(path)
except OSError:
pass
def file_path(*names, base_dir=test_dir):
''' Another way to get auto-generated filename that cleans itself up.
Use is as simple as:
img_a, img_b = file_path('a.img', 'b.img')
sock = file_path('socket')
'''
if not hasattr(file_path_remover, 'paths'):
file_path_remover.paths = []
atexit.register(file_path_remover)
paths = []
for name in names:
filename = file_pattern(name)
path = os.path.join(base_dir, filename)
file_path_remover.paths.append(path)
paths.append(path)
return paths[0] if len(paths) == 1 else paths
def remote_filename(path):
if imgproto == 'file':
return path
elif imgproto == 'ssh':
return "ssh://%s@127.0.0.1:22%s" % (os.environ.get('USER'), path)
else:
raise Exception("Protocol %s not supported" % (imgproto))
class VM(qtest.QEMUQtestMachine):
'''A QEMU VM'''
def __init__(self, path_suffix=''):
name = "qemu%s-%d" % (path_suffix, os.getpid())
super(VM, self).__init__(qemu_prog, qemu_opts, name=name,
test_dir=test_dir,
socket_scm_helper=socket_scm_helper,
sock_dir=sock_dir)
self._num_drives = 0
def add_object(self, opts):
self._args.append('-object')
self._args.append(opts)
return self
def add_device(self, opts):
self._args.append('-device')
self._args.append(opts)
return self
def add_drive_raw(self, opts):
self._args.append('-drive')
self._args.append(opts)
return self
def add_drive(self, path, opts='', interface='virtio', img_format=imgfmt):
'''Add a virtio-blk drive to the VM'''
options = ['if=%s' % interface,
'id=drive%d' % self._num_drives]
if path is not None:
options.append('file=%s' % path)
options.append('format=%s' % img_format)
options.append('cache=%s' % cachemode)
options.append('aio=%s' % aiomode)
if opts:
options.append(opts)
if img_format == 'luks' and 'key-secret' not in opts:
# default luks support
if luks_default_secret_object not in self._args:
self.add_object(luks_default_secret_object)
options.append(luks_default_key_secret_opt)
self._args.append('-drive')
self._args.append(','.join(options))
self._num_drives += 1
return self
def add_blockdev(self, opts):
self._args.append('-blockdev')
if isinstance(opts, str):
self._args.append(opts)
else:
self._args.append(','.join(opts))
return self
def add_incoming(self, addr):
self._args.append('-incoming')
self._args.append(addr)
return self
def hmp(self, command_line: str, use_log: bool = False) -> QMPMessage:
cmd = 'human-monitor-command'
kwargs = {'command-line': command_line}
if use_log:
return self.qmp_log(cmd, **kwargs)
else:
return self.qmp(cmd, **kwargs)
def pause_drive(self, drive: str, event: Optional[str] = None) -> None:
"""Pause drive r/w operations"""
if not event:
self.pause_drive(drive, "read_aio")
self.pause_drive(drive, "write_aio")
return
self.hmp(f'qemu-io {drive} "break {event} bp_{drive}"')
def resume_drive(self, drive: str) -> None:
"""Resume drive r/w operations"""
self.hmp(f'qemu-io {drive} "remove_break bp_{drive}"')
def hmp_qemu_io(self, drive: str, cmd: str,
use_log: bool = False) -> QMPMessage:
"""Write to a given drive using an HMP command"""
return self.hmp(f'qemu-io {drive} "{cmd}"', use_log=use_log)
def flatten_qmp_object(self, obj, output=None, basestr=''):
if output is None:
output = dict()
if isinstance(obj, list):
for i, item in enumerate(obj):
self.flatten_qmp_object(item, output, basestr + str(i) + '.')
elif isinstance(obj, dict):
for key in obj:
self.flatten_qmp_object(obj[key], output, basestr + key + '.')
else:
output[basestr[:-1]] = obj # Strip trailing '.'
return output
def qmp_to_opts(self, obj):
obj = self.flatten_qmp_object(obj)
output_list = list()
for key in obj:
output_list += [key + '=' + obj[key]]
return ','.join(output_list)
def get_qmp_events_filtered(self, wait=60.0):
result = []
for ev in self.get_qmp_events(wait=wait):
result.append(filter_qmp_event(ev))
return result
def qmp_log(self, cmd, filters=(), indent=None, **kwargs):
full_cmd = OrderedDict((
("execute", cmd),
("arguments", ordered_qmp(kwargs))
))
log(full_cmd, filters, indent=indent)
result = self.qmp(cmd, **kwargs)
log(result, filters, indent=indent)
return result
# Returns None on success, and an error string on failure
def run_job(self, job, auto_finalize=True, auto_dismiss=False,
pre_finalize=None, cancel=False, wait=60.0):
"""
run_job moves a job from creation through to dismissal.
:param job: String. ID of recently-launched job
:param auto_finalize: Bool. True if the job was launched with
auto_finalize. Defaults to True.
:param auto_dismiss: Bool. True if the job was launched with
auto_dismiss=True. Defaults to False.
:param pre_finalize: Callback. A callable that takes no arguments to be
invoked prior to issuing job-finalize, if any.
:param cancel: Bool. When true, cancels the job after the pre_finalize
callback.
:param wait: Float. Timeout value specifying how long to wait for any
event, in seconds. Defaults to 60.0.
"""
match_device = {'data': {'device': job}}
match_id = {'data': {'id': job}}
events = [
('BLOCK_JOB_COMPLETED', match_device),
('BLOCK_JOB_CANCELLED', match_device),
('BLOCK_JOB_ERROR', match_device),
('BLOCK_JOB_READY', match_device),
('BLOCK_JOB_PENDING', match_id),
('JOB_STATUS_CHANGE', match_id)
]
error = None
while True:
ev = filter_qmp_event(self.events_wait(events, timeout=wait))
if ev['event'] != 'JOB_STATUS_CHANGE':
log(ev)
continue
status = ev['data']['status']
if status == 'aborting':
result = self.qmp('query-jobs')
for j in result['return']:
if j['id'] == job:
error = j['error']
log('Job failed: %s' % (j['error']))
elif status == 'ready':
self.qmp_log('job-complete', id=job)
elif status == 'pending' and not auto_finalize:
if pre_finalize:
pre_finalize()
if cancel:
self.qmp_log('job-cancel', id=job)
else:
self.qmp_log('job-finalize', id=job)
elif status == 'concluded' and not auto_dismiss:
self.qmp_log('job-dismiss', id=job)
elif status == 'null':
return error
# Returns None on success, and an error string on failure
def blockdev_create(self, options, job_id='job0', filters=None):
if filters is None:
filters = [filter_qmp_testfiles]
result = self.qmp_log('blockdev-create', filters=filters,
job_id=job_id, options=options)
if 'return' in result:
assert result['return'] == {}
job_result = self.run_job(job_id)
else:
job_result = result['error']
log("")
return job_result
def enable_migration_events(self, name):
log('Enabling migration QMP events on %s...' % name)
log(self.qmp('migrate-set-capabilities', capabilities=[
{
'capability': 'events',
'state': True
}
]))
def wait_migration(self, expect_runstate: Optional[str]) -> bool:
while True:
event = self.event_wait('MIGRATION')
log(event, filters=[filter_qmp_event])
if event['data']['status'] in ('completed', 'failed'):
break
if event['data']['status'] == 'completed':
# The event may occur in finish-migrate, so wait for the expected
# post-migration runstate
runstate = None
while runstate != expect_runstate:
runstate = self.qmp('query-status')['return']['status']
return True
else:
return False
def node_info(self, node_name):
nodes = self.qmp('query-named-block-nodes')
for x in nodes['return']:
if x['node-name'] == node_name:
return x
return None
def query_bitmaps(self):
res = self.qmp("query-named-block-nodes")
return {device['node-name']: device['dirty-bitmaps']
for device in res['return'] if 'dirty-bitmaps' in device}
def get_bitmap(self, node_name, bitmap_name, recording=None, bitmaps=None):
"""
get a specific bitmap from the object returned by query_bitmaps.
:param recording: If specified, filter results by the specified value.
:param bitmaps: If specified, use it instead of call query_bitmaps()
"""
if bitmaps is None:
bitmaps = self.query_bitmaps()
for bitmap in bitmaps[node_name]:
if bitmap.get('name', '') == bitmap_name:
if recording is None or bitmap.get('recording') == recording:
return bitmap
return None
def check_bitmap_status(self, node_name, bitmap_name, fields):
ret = self.get_bitmap(node_name, bitmap_name)
return fields.items() <= ret.items()
def assert_block_path(self, root, path, expected_node, graph=None):
"""
Check whether the node under the given path in the block graph
is @expected_node.
@root is the node name of the node where the @path is rooted.
@path is a string that consists of child names separated by
slashes. It must begin with a slash.
Examples for @root + @path:
- root="qcow2-node", path="/backing/file"
- root="quorum-node", path="/children.2/file"
Hypothetically, @path could be empty, in which case it would
point to @root. However, in practice this case is not useful
and hence not allowed.
@expected_node may be None. (All elements of the path but the
leaf must still exist.)
@graph may be None or the result of an x-debug-query-block-graph
call that has already been performed.
"""
if graph is None:
graph = self.qmp('x-debug-query-block-graph')['return']
iter_path = iter(path.split('/'))
# Must start with a /
assert next(iter_path) == ''
node = next((node for node in graph['nodes'] if node['name'] == root),
None)
# An empty @path is not allowed, so the root node must be present
assert node is not None, 'Root node %s not found' % root
for child_name in iter_path:
assert node is not None, 'Cannot follow path %s%s' % (root, path)
try:
node_id = next(edge['child'] for edge in graph['edges']
if (edge['parent'] == node['id'] and
edge['name'] == child_name))
node = next(node for node in graph['nodes']
if node['id'] == node_id)
except StopIteration:
node = None
if node is None:
assert expected_node is None, \
'No node found under %s (but expected %s)' % \
(path, expected_node)
else:
assert node['name'] == expected_node, \
'Found node %s under %s (but expected %s)' % \
(node['name'], path, expected_node)
index_re = re.compile(r'([^\[]+)\[([^\]]+)\]')
class QMPTestCase(unittest.TestCase):
'''Abstract base class for QMP test cases'''
def __init__(self, *args, **kwargs):
super().__init__(*args, **kwargs)
# Many users of this class set a VM property we rely on heavily
# in the methods below.
self.vm = None
def dictpath(self, d, path):
'''Traverse a path in a nested dict'''
for component in path.split('/'):
m = index_re.match(component)
if m:
component, idx = m.groups()
idx = int(idx)
if not isinstance(d, dict) or component not in d:
self.fail(f'failed path traversal for "{path}" in "{d}"')
d = d[component]
if m:
if not isinstance(d, list):
self.fail(f'path component "{component}" in "{path}" '
f'is not a list in "{d}"')
try:
d = d[idx]
except IndexError:
self.fail(f'invalid index "{idx}" in path "{path}" '
f'in "{d}"')
return d
def assert_qmp_absent(self, d, path):
try:
result = self.dictpath(d, path)
except AssertionError:
return
self.fail('path "%s" has value "%s"' % (path, str(result)))
def assert_qmp(self, d, path, value):
'''Assert that the value for a specific path in a QMP dict
matches. When given a list of values, assert that any of
them matches.'''
result = self.dictpath(d, path)
# [] makes no sense as a list of valid values, so treat it as
# an actual single value.
if isinstance(value, list) and value != []:
for v in value:
if result == v:
return
self.fail('no match for "%s" in %s' % (str(result), str(value)))
else:
self.assertEqual(result, value,
'"%s" is "%s", expected "%s"'
% (path, str(result), str(value)))
def assert_no_active_block_jobs(self):
result = self.vm.qmp('query-block-jobs')
self.assert_qmp(result, 'return', [])
def assert_has_block_node(self, node_name=None, file_name=None):
"""Issue a query-named-block-nodes and assert node_name and/or
file_name is present in the result"""
def check_equal_or_none(a, b):
return a is None or b is None or a == b
assert node_name or file_name
result = self.vm.qmp('query-named-block-nodes')
for x in result["return"]:
if check_equal_or_none(x.get("node-name"), node_name) and \
check_equal_or_none(x.get("file"), file_name):
return
self.fail("Cannot find %s %s in result:\n%s" %
(node_name, file_name, result))
def assert_json_filename_equal(self, json_filename, reference):
'''Asserts that the given filename is a json: filename and that its
content is equal to the given reference object'''
self.assertEqual(json_filename[:5], 'json:')
self.assertEqual(
self.vm.flatten_qmp_object(json.loads(json_filename[5:])),
self.vm.flatten_qmp_object(reference)
)
def cancel_and_wait(self, drive='drive0', force=False,
resume=False, wait=60.0):
'''Cancel a block job and wait for it to finish, returning the event'''
result = self.vm.qmp('block-job-cancel', device=drive, force=force)
self.assert_qmp(result, 'return', {})
if resume:
self.vm.resume_drive(drive)
cancelled = False
result = None
while not cancelled:
for event in self.vm.get_qmp_events(wait=wait):
if event['event'] == 'BLOCK_JOB_COMPLETED' or \
event['event'] == 'BLOCK_JOB_CANCELLED':
self.assert_qmp(event, 'data/device', drive)
result = event
cancelled = True
elif event['event'] == 'JOB_STATUS_CHANGE':
self.assert_qmp(event, 'data/id', drive)
self.assert_no_active_block_jobs()
return result
def wait_until_completed(self, drive='drive0', check_offset=True,
wait=60.0, error=None):
'''Wait for a block job to finish, returning the event'''
while True:
for event in self.vm.get_qmp_events(wait=wait):
if event['event'] == 'BLOCK_JOB_COMPLETED':
self.assert_qmp(event, 'data/device', drive)
if error is None:
self.assert_qmp_absent(event, 'data/error')
if check_offset:
self.assert_qmp(event, 'data/offset',
event['data']['len'])
else:
self.assert_qmp(event, 'data/error', error)
self.assert_no_active_block_jobs()
return event
if event['event'] == 'JOB_STATUS_CHANGE':
self.assert_qmp(event, 'data/id', drive)
def wait_ready(self, drive='drive0'):
"""Wait until a BLOCK_JOB_READY event, and return the event."""
f = {'data': {'type': 'mirror', 'device': drive}}
return self.vm.event_wait(name='BLOCK_JOB_READY', match=f)
def wait_ready_and_cancel(self, drive='drive0'):
self.wait_ready(drive=drive)
event = self.cancel_and_wait(drive=drive)
self.assertEqual(event['event'], 'BLOCK_JOB_COMPLETED')
self.assert_qmp(event, 'data/type', 'mirror')
self.assert_qmp(event, 'data/offset', event['data']['len'])
def complete_and_wait(self, drive='drive0', wait_ready=True,
completion_error=None):
'''Complete a block job and wait for it to finish'''
if wait_ready:
self.wait_ready(drive=drive)
result = self.vm.qmp('block-job-complete', device=drive)
self.assert_qmp(result, 'return', {})
event = self.wait_until_completed(drive=drive, error=completion_error)
self.assert_qmp(event, 'data/type', 'mirror')
def pause_wait(self, job_id='job0'):
with Timeout(3, "Timeout waiting for job to pause"):
while True:
result = self.vm.qmp('query-block-jobs')
found = False
for job in result['return']:
if job['device'] == job_id:
found = True
if job['paused'] and not job['busy']:
return job
break
assert found
def pause_job(self, job_id='job0', wait=True):
result = self.vm.qmp('block-job-pause', device=job_id)
self.assert_qmp(result, 'return', {})
if wait:
return self.pause_wait(job_id)
return result
def case_skip(self, reason):
'''Skip this test case'''
case_notrun(reason)
self.skipTest(reason)
def notrun(reason):
'''Skip this test suite'''
# Each test in qemu-iotests has a number ("seq")
seq = os.path.basename(sys.argv[0])
open('%s/%s.notrun' % (output_dir, seq), 'w').write(reason + '\n')
logger.warning("%s not run: %s", seq, reason)
sys.exit(0)
def case_notrun(reason):
'''Mark this test case as not having been run (without actually
skipping it, that is left to the caller). See
QMPTestCase.case_skip() for a variant that actually skips the
current test case.'''
# Each test in qemu-iotests has a number ("seq")
seq = os.path.basename(sys.argv[0])
open('%s/%s.casenotrun' % (output_dir, seq), 'a').write(
' [case not run] ' + reason + '\n')
def _verify_image_format(supported_fmts: Sequence[str] = (),
unsupported_fmts: Sequence[str] = ()) -> None:
assert not (supported_fmts and unsupported_fmts)
if 'generic' in supported_fmts and \
os.environ.get('IMGFMT_GENERIC', 'true') == 'true':
# similar to
# _supported_fmt generic
# for bash tests
if imgfmt == 'luks':
verify_working_luks()
return
not_sup = supported_fmts and (imgfmt not in supported_fmts)
if not_sup or (imgfmt in unsupported_fmts):
notrun('not suitable for this image format: %s' % imgfmt)
if imgfmt == 'luks':
verify_working_luks()
def _verify_protocol(supported: Sequence[str] = (),
unsupported: Sequence[str] = ()) -> None:
assert not (supported and unsupported)
if 'generic' in supported:
return
not_sup = supported and (imgproto not in supported)
if not_sup or (imgproto in unsupported):
notrun('not suitable for this protocol: %s' % imgproto)
def _verify_platform(supported: Sequence[str] = (),
unsupported: Sequence[str] = ()) -> None:
if any((sys.platform.startswith(x) for x in unsupported)):
notrun('not suitable for this OS: %s' % sys.platform)
if supported:
if not any((sys.platform.startswith(x) for x in supported)):
notrun('not suitable for this OS: %s' % sys.platform)
def _verify_cache_mode(supported_cache_modes: Sequence[str] = ()) -> None:
if supported_cache_modes and (cachemode not in supported_cache_modes):
notrun('not suitable for this cache mode: %s' % cachemode)
def _verify_aio_mode(supported_aio_modes: Sequence[str] = ()) -> None:
if supported_aio_modes and (aiomode not in supported_aio_modes):
notrun('not suitable for this aio mode: %s' % aiomode)
def supports_quorum():
return 'quorum' in qemu_img_pipe('--help')
def verify_quorum():
'''Skip test suite if quorum support is not available'''
if not supports_quorum():
notrun('quorum support missing')
def has_working_luks() -> Tuple[bool, str]:
"""
Check whether our LUKS driver can actually create images
(this extends to LUKS encryption for qcow2).
If not, return the reason why.
"""
img_file = f'{test_dir}/luks-test.luks'
(output, status) = \
qemu_img_pipe_and_status('create', '-f', 'luks',
'--object', luks_default_secret_object,
'-o', luks_default_key_secret_opt,
'-o', 'iter-time=10',
img_file, '1G')
try:
os.remove(img_file)
except OSError:
pass
if status != 0:
reason = output
for line in output.splitlines():
if img_file + ':' in line:
reason = line.split(img_file + ':', 1)[1].strip()
break
return (False, reason)
else:
return (True, '')
def verify_working_luks():
"""
Skip test suite if LUKS does not work
"""
(working, reason) = has_working_luks()
if not working:
notrun(reason)
def qemu_pipe(*args):
"""
Run qemu with an option to print something and exit (e.g. a help option).
:return: QEMU's stdout output.
"""
args = [qemu_prog] + qemu_opts + list(args)
subp = subprocess.Popen(args, stdout=subprocess.PIPE,
stderr=subprocess.STDOUT,
universal_newlines=True)
output = subp.communicate()[0]
if subp.returncode < 0:
sys.stderr.write('qemu received signal %i: %s\n' %
(-subp.returncode, ' '.join(args)))
return output
def supported_formats(read_only=False):
'''Set 'read_only' to True to check ro-whitelist
Otherwise, rw-whitelist is checked'''
if not hasattr(supported_formats, "formats"):
supported_formats.formats = {}
if read_only not in supported_formats.formats:
format_message = qemu_pipe("-drive", "format=help")
line = 1 if read_only else 0
supported_formats.formats[read_only] = \
format_message.splitlines()[line].split(":")[1].split()
return supported_formats.formats[read_only]
def skip_if_unsupported(required_formats=(), read_only=False):
'''Skip Test Decorator
Runs the test if all the required formats are whitelisted'''
def skip_test_decorator(func):
def func_wrapper(test_case: QMPTestCase, *args: List[Any],
**kwargs: Dict[str, Any]) -> None:
if callable(required_formats):
fmts = required_formats(test_case)
else:
fmts = required_formats
usf_list = list(set(fmts) - set(supported_formats(read_only)))
if usf_list:
msg = f'{test_case}: formats {usf_list} are not whitelisted'
test_case.case_skip(msg)
else:
func(test_case, *args, **kwargs)
return func_wrapper
return skip_test_decorator
def skip_for_formats(formats: Sequence[str] = ()) \
-> Callable[[Callable[[QMPTestCase, List[Any], Dict[str, Any]], None]],
Callable[[QMPTestCase, List[Any], Dict[str, Any]], None]]:
'''Skip Test Decorator
Skips the test for the given formats'''
def skip_test_decorator(func):
def func_wrapper(test_case: QMPTestCase, *args: List[Any],
**kwargs: Dict[str, Any]) -> None:
if imgfmt in formats:
msg = f'{test_case}: Skipped for format {imgfmt}'
test_case.case_skip(msg)
else:
func(test_case, *args, **kwargs)
return func_wrapper
return skip_test_decorator
def skip_if_user_is_root(func):
'''Skip Test Decorator
Runs the test only without root permissions'''
def func_wrapper(*args, **kwargs):
if os.getuid() == 0:
case_notrun('{}: cannot be run as root'.format(args[0]))
return None
else:
return func(*args, **kwargs)
return func_wrapper
def execute_unittest(debug=False):
"""Executes unittests within the calling module."""
verbosity = 2 if debug else 1
if debug:
output = sys.stdout
else:
# We need to filter out the time taken from the output so that
# qemu-iotest can reliably diff the results against master output.
output = io.StringIO()
runner = unittest.TextTestRunner(stream=output, descriptions=True,
verbosity=verbosity)
try:
# unittest.main() will use sys.exit(); so expect a SystemExit
# exception
unittest.main(testRunner=runner)
finally:
# We need to filter out the time taken from the output so that
# qemu-iotest can reliably diff the results against master output.
if not debug:
out = output.getvalue()
out = re.sub(r'Ran (\d+) tests? in [\d.]+s', r'Ran \1 tests', out)
# Hide skipped tests from the reference output
out = re.sub(r'OK \(skipped=\d+\)', 'OK', out)
out_first_line, out_rest = out.split('\n', 1)
out = out_first_line.replace('s', '.') + '\n' + out_rest
sys.stderr.write(out)
def execute_setup_common(supported_fmts: Sequence[str] = (),
supported_platforms: Sequence[str] = (),
supported_cache_modes: Sequence[str] = (),
supported_aio_modes: Sequence[str] = (),
unsupported_fmts: Sequence[str] = (),
supported_protocols: Sequence[str] = (),
unsupported_protocols: Sequence[str] = ()) -> bool:
"""
Perform necessary setup for either script-style or unittest-style tests.
:return: Bool; Whether or not debug mode has been requested via the CLI.
"""
# Note: Python 3.6 and pylint do not like 'Collection' so use 'Sequence'.
# We are using TEST_DIR and QEMU_DEFAULT_MACHINE as proxies to
# indicate that we're not being run via "check". There may be
# other things set up by "check" that individual test cases rely
# on.
if test_dir is None or qemu_default_machine is None:
sys.stderr.write('Please run this test via the "check" script\n')
sys.exit(os.EX_USAGE)
debug = '-d' in sys.argv
if debug:
sys.argv.remove('-d')
logging.basicConfig(level=(logging.DEBUG if debug else logging.WARN))
_verify_image_format(supported_fmts, unsupported_fmts)
_verify_protocol(supported_protocols, unsupported_protocols)
_verify_platform(supported=supported_platforms)
_verify_cache_mode(supported_cache_modes)
_verify_aio_mode(supported_aio_modes)
return debug
def execute_test(*args, test_function=None, **kwargs):
"""Run either unittest or script-style tests."""
debug = execute_setup_common(*args, **kwargs)
if not test_function:
execute_unittest(debug)
else:
test_function()
def activate_logging():
"""Activate iotests.log() output to stdout for script-style tests."""
handler = logging.StreamHandler(stream=sys.stdout)
formatter = logging.Formatter('%(message)s')
handler.setFormatter(formatter)
test_logger.addHandler(handler)
test_logger.setLevel(logging.INFO)
test_logger.propagate = False
# This is called from script-style iotests without a single point of entry
def script_initialize(*args, **kwargs):
"""Initialize script-style tests without running any tests."""
activate_logging()
execute_setup_common(*args, **kwargs)
# This is called from script-style iotests with a single point of entry
def script_main(test_function, *args, **kwargs):
"""Run script-style tests outside of the unittest framework"""
activate_logging()
execute_test(*args, test_function=test_function, **kwargs)
# This is called from unittest style iotests
def main(*args, **kwargs):
"""Run tests using the unittest framework"""
execute_test(*args, **kwargs)
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