/usr/lib/plainbox-provider-checkbox/bin/virtualization is in plainbox-provider-checkbox 0.25-1.
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"""
Script to test virtualization functionality
Copyright (C) 2013, 2014 Canonical Ltd.
Authors
Jeff Marcom <jeff.marcom@canonical.com>
Daniel Manrique <roadmr@ubuntu.com>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License version 3,
as published by the Free Software Foundation.
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/>.
"""
from argparse import ArgumentParser
import configparser
from glob import glob
import os
import re
import logging
import lsb_release
import shlex
import signal
from subprocess import (
Popen,
PIPE,
CalledProcessError,
check_output,
call
)
import sys
import tempfile
import tarfile
import time
import urllib.request
DEFAULT_TIMEOUT = 500
class XENTest(object):
pass
# The "TAR" type is a tarball that contains both
# a disk image and a kernel binary. This is useful
# on architectures that don't (yet) have a bootloader
# in the disk image that we can chain to, and instead
# we need to have qemu load boot files externally
CLOUD_IMAGE_TYPE_TAR = 1
CLOUD_IMAGE_TYPE_DISK = 2
QEMU_DISK_TYPE_SD = 1
QEMU_DISK_TYPE_VIRTIO = 2
QEMU_DISK_TYPE_VIRTIO_BLK = 3
QEMU_ARCH_CONFIG = {
'arm64': {
'cloudimg_type': CLOUD_IMAGE_TYPE_TAR,
'cloudimg_arch': 'arm64',
'qemu_bin': 'qemu-system-aarch64',
'qemu_disk_type': QEMU_DISK_TYPE_VIRTIO_BLK,
'qemu_extra_args': [
'-cpu', 'host',
'-enable-kvm',
],
},
'armhf': {
'cloudimg_type': CLOUD_IMAGE_TYPE_TAR,
'cloudimg_arch': 'armhf',
'qemu_bin': 'qemu-system-arm',
'qemu_disk_type': QEMU_DISK_TYPE_VIRTIO_BLK,
'qemu_extra_args': [
'-machine', 'virt',
'-cpu', 'host',
'-enable-kvm',
'-serial', 'stdio',
],
},
'amd64': {
'cloudimg_type': CLOUD_IMAGE_TYPE_DISK,
'cloudimg_arch': 'i386',
'qemu_bin': 'qemu-system-x86_64',
'qemu_disk_type': QEMU_DISK_TYPE_VIRTIO,
'qemu_extra_args': [
'-machine', 'accel=kvm:tcg',
],
},
'i386': {
'cloudimg_type': CLOUD_IMAGE_TYPE_DISK,
'cloudimg_arch': 'i386',
'qemu_bin': 'qemu-system-x86_64',
'qemu_disk_type': QEMU_DISK_TYPE_VIRTIO,
'qemu_extra_args': [
'-machine', 'accel=kvm:tcg',
],
},
'ppc64el': {
'cloudimg_type': CLOUD_IMAGE_TYPE_DISK,
'cloudimg_arch': 'ppc64el',
'qemu_bin': 'qemu-system-ppc64',
'qemu_disk_type': QEMU_DISK_TYPE_VIRTIO,
'qemu_extra_args': [
'-machine', 'pseries',
],
},
}
class QemuRunner(object):
def __init__(self, arch):
self.arch = arch
self.config = QEMU_ARCH_CONFIG[arch]
self.drive_id = 0
# Parameters common to all architectures
self.params = [
self.config['qemu_bin'],
"-m", "256",
"-display", "none",
"-nographic",
"-net", "nic",
"-net", "user,net=10.0.0.0/8,host=10.0.0.1,hostfwd=tcp::2222-:22",
]
# If arch is arm64, add the machine type for gicv3, or default to old
# type
if self.arch == 'arm64':
if glob("/sys/firmware/devicetree/base/interrupt-controller@*/compatible"):
self.config['qemu_extra_args'].extend(
['-machine', 'virt,gic_version=3'])
else:
self.config['qemu_extra_args'].extend(['-machine', 'virt'])
# Add any architecture-specific parameters
if 'qemu_extra_args' in self.config:
self.params = self.params + self.config['qemu_extra_args']
self.append = []
if self.config['cloudimg_type'] == CLOUD_IMAGE_TYPE_TAR:
self.append = self.append + [
'console=ttyAMA0',
'earlyprintk=serial',
'ro',
'rootfstype=ext4',
'root=LABEL=cloudimg-rootfs',
'rootdelay=10',
]
def add_boot_files(self, kernel=None, initrd=None, dtb=None):
if kernel:
self.params = self.params + ['-kernel', kernel]
if initrd:
self.params = self.params + ['-initrd', initrd]
if dtb:
self.params = self.params + ['-dtb', dtb]
def add_drive(self, cloudimg):
drive = ["-drive"]
if self.config['qemu_disk_type'] == QEMU_DISK_TYPE_SD:
drive = drive + ["file=%s,if=sd,cache=writeback" % (cloudimg)]
elif self.config['qemu_disk_type'] == QEMU_DISK_TYPE_VIRTIO:
drive = drive + ["file=%s,if=virtio" % (cloudimg)]
elif self.config['qemu_disk_type'] == QEMU_DISK_TYPE_VIRTIO_BLK:
drive = drive + ["file=%s,if=none,id=disk.%d"
% (cloudimg, self.drive_id)]
drive = drive + ["-device", "virtio-blk-device,drive=disk.%d"
% (self.drive_id)]
self.params = self.params + drive
self.drive_id = self.drive_id + 1
def get_params(self):
params = self.params
if self.append:
params = params + ['-append', '"%s"' % (" ".join(self.append))]
return params
class KVMTest(object):
def __init__(self, image=None, timeout=500, debug_file=None):
self.image = image
self.timeout = timeout
self.debug_file = debug_file
self.arch = check_output(['dpkg', '--print-architecture'],
universal_newlines=True).strip()
self.qemu_config = QEMU_ARCH_CONFIG[self.arch]
def download_image(self):
"""
Downloads Cloud image for same release as host machine
"""
# Check Ubuntu release info. Example {quantal, precise}
release = lsb_release.get_lsb_information()["CODENAME"]
# Construct URL
cloud_url = "http://cloud-images.ubuntu.com"
if self.qemu_config['cloudimg_type'] == CLOUD_IMAGE_TYPE_TAR:
cloud_iso = "%s-server-cloudimg-%s.tar.gz" % (
release, self.qemu_config['cloudimg_arch'])
elif self.qemu_config['cloudimg_type'] == CLOUD_IMAGE_TYPE_DISK:
cloud_iso = "%s-server-cloudimg-%s-disk1.img" % (
release, self.qemu_config['cloudimg_arch'])
else:
logging.error("Unknown cloud image type")
return False
image_url = "/".join((
cloud_url, release, "current", cloud_iso))
logging.debug("Downloading {}, from {}".format(cloud_iso, cloud_url))
# Attempt download
try:
resp = urllib.request.urlretrieve(image_url, cloud_iso)
except (IOError,
OSError,
urllib.error.HTTPError,
urllib.error.URLError) as exception:
logging.error("Failed download of image from %s: %s",
image_url, exception)
return False
# Unpack img file from tar
if self.qemu_config['cloudimg_type'] == CLOUD_IMAGE_TYPE_TAR:
cloud_iso_tgz = tarfile.open(cloud_iso)
cloud_iso = cloud_iso.replace('tar.gz', 'img')
cloud_iso_tgz.extract(cloud_iso)
if not os.path.isfile(cloud_iso):
return False
return cloud_iso
def boot_image(self, data_disk):
"""
Attempts to boot the newly created qcow image using
the config data defined in config.iso
"""
logging.debug("Attempting boot for:{}".format(data_disk))
qemu = QemuRunner(self.arch)
# Assume that a tar type image is not self-bootable, so
# therefore requires explicit bootfiles (otherwise, why
# not just use the disk format directly?
if self.qemu_config['cloudimg_type'] == CLOUD_IMAGE_TYPE_TAR:
for dir in ['/boot', '/']:
kernel = os.path.join(dir, 'vmlinuz')
initrd = os.path.join(dir, 'initrd.img')
if os.path.isfile(kernel):
qemu.add_boot_files(kernel=kernel, initrd=initrd)
break
qemu.add_drive(data_disk)
# Should we attach the cloud config disk
if os.path.isfile("seed.iso"):
logging.debug("Attaching Cloud config disk")
qemu.add_drive("seed.iso")
params = qemu.get_params()
logging.debug("Using params:{}".format(" ".join(params)))
logging.info("Storing VM console output in {}".format(
os.path.realpath(self.debug_file)))
# Open VM STDERR/STDOUT log file for writing
try:
file = open(self.debug_file, 'w')
except IOError:
logging.error("Failed creating file:{}".format(self.debug_file))
return False
# Start Virtual machine
self.process = Popen(
params, stdin=PIPE, stderr=file, stdout=file,
universal_newlines=True, shell=False)
def create_cloud_disk(self):
"""
Generate Cloud meta data and creates an iso object
to be mounted as virtual device to instance during boot.
"""
user_data = """\
#cloud-config
runcmd:
- [ sh, -c, echo "========= CERTIFICATION TEST =========" ]
power_state:
mode: halt
message: Bye
timeout: 480
final_message: CERTIFICATION BOOT COMPLETE
"""
meta_data = """\
{ echo instance-id: iid-local01; echo local-hostname, certification; }
"""
for file in ['user-data', 'meta-data']:
logging.debug("Creating cloud %s", file)
with open(file, "wt") as data_file:
os.fchmod(data_file.fileno(), 0o777)
data_file.write(vars()[file.replace("-", "_")])
# Create Data ISO hosting user & meta cloud config data
try:
iso_build = check_output(
['genisoimage', '-output', 'seed.iso', '-volid',
'cidata', '-joliet', '-rock', 'user-data', 'meta-data'],
universal_newlines=True)
except CalledProcessError as exception:
logging.exception("Cloud data disk creation failed")
def start(self):
logging.debug('Starting KVM Test')
status = 1
# Create temp directory:
date = time.strftime("%b_%d_%Y_")
with tempfile.TemporaryDirectory("_kvm_test", date) as temp_dir:
os.chmod(temp_dir, 0o744)
os.chdir(temp_dir)
if not self.image:
logging.debug('No image specified, downloading one now.')
# Download cloud image
self.image = self.download_image()
if self.image and os.path.isfile(self.image):
if "cloud" in self.image:
# Will assume we need to supply cloud meta data
# for instance boot to be successful
self.create_cloud_disk()
# Boot Virtual Machine
instance = self.boot_image(self.image)
time.sleep(self.timeout)
# If running in console, reset console window to regain
# control from VM Serial I/0
if sys.stdout.isatty():
call('reset')
# Check to be sure VM boot was successful
with open(self.debug_file, 'r') as debug_file:
file_contents = debug_file.read()
if "CERTIFICATION BOOT COMPLETE" in file_contents:
if "END SSH HOST KEY KEYS" in file_contents:
print("Booted successfully", file=sys.stderr)
else:
print("Booted successfully (Previously "
"initalized VM)", file=sys.stderr)
status = 0
else:
print("E: KVM instance failed to boot",
file=sys.stderr)
print("Console output".center(72, "="),
file=sys.stderr)
with open(self.debug_file, 'r') as console_log:
print(console_log.read(), file=sys.stderr)
print("E: KVM instance failed to boot",
file=sys.stderr)
self.process.terminate()
elif not self.image:
print("Could not find downloaded image")
else:
print("Could not find: {}".format(self.image),
file=sys.stderr)
return status
def test_kvm(args):
print("Executing KVM Test", file=sys.stderr)
DEFAULT_CFG = "/etc/checkbox.d/virtualization.cfg"
image = ""
timeout = ""
# Configuration data can come from three sources.
# Lowest priority is the config file.
config_file = DEFAULT_CFG
config = configparser.SafeConfigParser()
try:
config.readfp(open(config_file))
except IOError:
logging.warn("No config file found")
else:
try:
timeout = config.getfloat("KVM", "timeout")
except ValueError:
logging.warning('Invalid or Empty timeout in config file. '
'Falling back to default')
except configparser.NoSectionError as e:
logging.exception(e)
try:
image = config.get("KVM", "image")
except configparser.NoSectionError:
logging.exception('Invalid or Empty image in config file.')
# Next in priority are environment variables.
if 'KVM_TIMEOUT' in os.environ:
try:
timeout = float(os.environ['KVM_TIMEOUT'])
except ValueError as err:
logging.warning("TIMEOUT env variable: %s" % err)
timeout = DEFAULT_TIMEOUT
if 'KVM_IMAGE' in os.environ:
image = os.environ['KVM_IMAGE']
# Finally, highest-priority are command line arguments.
if args.timeout:
timeout = args.timeout
elif not timeout:
timeout = DEFAULT_TIMEOUT
if args.image:
image = args.image
kvm_test = KVMTest(image, timeout, args.log_file)
result = kvm_test.start()
sys.exit(result)
def main():
parser = ArgumentParser(description="Virtualization Test")
subparsers = parser.add_subparsers()
# Main cli options
kvm_test_parser = subparsers.add_parser(
'kvm', help=("Run kvm virtualization test"))
# Sub test options
kvm_test_parser.add_argument(
'-i', '--image', type=str, default=None)
kvm_test_parser.add_argument(
'-t', '--timeout', type=int)
kvm_test_parser.add_argument(
'-l', '--log-file', default='virt_debug',
help="Location for debugging output log. Defaults to %(default)s.")
kvm_test_parser.add_argument('--debug', dest='log_level',
action="store_const", const=logging.DEBUG,
default=logging.INFO)
kvm_test_parser.set_defaults(func=test_kvm)
args = parser.parse_args()
try:
logging.basicConfig(level=args.log_level)
except AttributeError:
pass # avoids exception when trying to run without specifying 'kvm'
# to check if not len(sys.argv) > 1
if len(vars(args)) == 0:
parser.print_help()
return False
args.func(args)
if __name__ == "__main__":
main()
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