def test_sector_write(self):
"""
Test write on a sector mode device
"""
region = self.get_default_region()
self.plib.disable_namespace(region=region)
self.plib.destroy_namespace(region=region)
self.plib.create_namespace(region=region,
mode='sector',
sector_size='512')
self.disk = '/dev/%s' % self.plib.run_ndctl_list_val(
self.plib.run_ndctl_list("-N -r %s" % region)[0], 'blockdev')
size = self.plib.run_ndctl_list_val(
self.plib.run_ndctl_list("-N -r %s" % region)[0], 'size')
self.part = partition.Partition(self.disk)
self.part.mkfs(fstype='xfs',
args='-b size=%s -s size=512' % memory.get_page_size())
mnt_path = self.params.get('mnt_point', default='/pmemS')
if not os.path.exists(mnt_path):
os.makedirs(mnt_path)
self.part.mount(mountpoint=mnt_path)
self.log.info("Test will run on %s", mnt_path)
fio_job = self.params.get('fio_job', default='sector-fio.job')
cmd = '%s --directory %s --filename mmap-pmem --size %s %s' % (
self.build_fio(), mnt_path, size // 2, self.get_data(fio_job))
if process.system(cmd, ignore_status=True):
self.fail("FIO mmap workload on fsdax failed")
def setUp(self):
smm = SoftwareManager()
self.nr_pages = self.params.get('nr_pages', default=None)
self.in_err = self.params.get('induce_err', default=0)
self.back_file = self.params.get('back_file', default="/dev/zero")
self.file_type = self.params.get('file_type', default="block")
self.failure = self.params.get('failure', default=False)
if not self.nr_pages:
memsize = int(memory.meminfo.MemFree.b * 0.9)
self.nr_pages = memsize // memory.get_page_size()
deps = ['gcc', 'make']
if self.file_type == 'nvdimm':
deps.extend(['ndctl'])
if distro.detect().name == 'rhel':
deps.extend(['daxctl'])
for package in deps:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
if self.file_type == 'nvdimm':
self.back_file = self.setup_nvdimm()
for file_name in ['mprotect.c', 'Makefile']:
self.copyutil(file_name)
build.make(self.teststmpdir)
def setUp(self):
smm = SoftwareManager()
dist = distro.detect()
memsize = int(memory.freememtotal() * 1024 * 0.2)
self.nr_pages = self.params.get('nr_pages',
default=memsize /
memory.get_page_size())
self.map_type = self.params.get('map_type', default='private')
if len(memory.numa_nodes()) < 2:
self.cancel('Test requires two numa nodes to run')
pkgs = ['gcc', 'make']
if dist.name == "Ubuntu":
pkgs.extend(['libpthread-stubs0-dev', 'libnuma-dev'])
elif dist.name in ["centos", "rhel", "fedora"]:
pkgs.extend(['numactl-devel'])
else:
pkgs.extend(['libnuma-devel'])
for package in pkgs:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
for file_name in ['util.c', 'numa_test.c', 'Makefile']:
self.copyutil(file_name)
build.make(self.teststmpdir)
def test_map_sync(self):
"""
Test MAP_SYNC flag with sample mmap write
"""
region = self.get_default_region()
self.plib.create_namespace(region=region, mode='fsdax')
self.disk = '/dev/%s' % self.plib.run_ndctl_list_val(
self.plib.run_ndctl_list("-N -r %s" % region)[0], 'blockdev')
mnt_path = self.params.get('mnt_point', default='/pmem_map')
self.part = partition.Partition(self.disk,
mountpoint=mnt_path,
mount_options='dax')
self.part.mkfs(fstype='xfs',
args='-b size=%s -s size=512 %s' %
(memory.get_page_size(), self.reflink))
if not os.path.exists(mnt_path):
os.makedirs(mnt_path)
self.part.mount()
self.log.info("Testing MAP_SYNC on %s", mnt_path)
src_file = os.path.join(self.teststmpdir, 'map_sync.c')
shutil.copyfile(self.get_data('map_sync.c'), src_file)
process.system('gcc %s -o map_sync' % src_file)
process.system('fallocate -l 64k %s/new_file' % mnt_path)
if process.system('./map_sync %s/new_file' % mnt_path,
ignore_status=True):
self.fail('Write with MAP_SYNC flag failed')
def test_write_infoblock_size_unaligned(self):
"""
Test write_infoblock with align size
"""
if not self.plib.check_ndctl_subcmd("write-infoblock"):
self.cancel("Binary does not support write-infoblock")
region = self.get_default_region()
self.plib.disable_namespace(region=region)
self.plib.destroy_namespace(region=region)
self.plib.create_namespace(region=region, mode='devdax')
ns_name = self.plib.run_ndctl_list_val(
self.plib.run_ndctl_list("-N -r %s" % region)[0], 'dev')
size = self.plib.run_ndctl_list_val(
self.plib.run_ndctl_list("-N -r %s" % region)[0], 'size')
self.plib.disable_namespace(namespace=ns_name)
align = memory.get_page_size()
size = size - align
self.write_read_infoblock(ns_name, size=size, align=align)
try:
self.plib.enable_namespace(namespace=ns_name)
except pmem.PMemException:
self.log.info("Failed as expected")
else:
self.log.info(self.plib.run_ndctl_list())
self.fail("Enabling namespace must have failed")
def setUp(self):
smm = SoftwareManager()
dist = distro.detect()
memsize = int(memory.meminfo.MemFree.b * 0.2)
self.nr_pages = self.params.get('nr_pages',
default=memsize /
memory.get_page_size())
self.map_type = self.params.get('map_type', default='private')
self.hpage = self.params.get('h_page', default=False)
nodes = memory.numa_nodes_with_memory()
if len(nodes) < 2:
self.cancel('Test requires two numa nodes to run.'
'Node list with memory: %s' % nodes)
pkgs = ['gcc', 'make']
hp_check = 0
if self.hpage:
hp_size = memory.get_huge_page_size()
for node in nodes:
genio.write_file(
'/sys/devices/system/node/node%s/hugepages/hu'
'gepages-%skB/nr_hugepages' % (node, str(hp_size)),
str(self.nr_pages))
for node in nodes:
hp_check += int(
genio.read_file(
'/sys/devices/system/node/node%s/hugepages/hugepages-%skB'
'/nr_hugepages' % (node, str(hp_size))).strip())
if hp_check < self.nr_pages:
self.cancel('Not enough pages to be configured on nodes')
if dist.name == "Ubuntu":
pkgs.extend(
['libpthread-stubs0-dev', 'libnuma-dev', 'libhugetlbfs-dev'])
elif dist.name in ["centos", "rhel", "fedora"]:
pkgs.extend(['numactl-devel', 'libhugetlbfs-devel'])
elif dist.name == "SuSE":
pkgs.extend(['libnuma-devel'])
if dist.version >= 15:
pkgs.extend(['libhugetlbfs-devel'])
else:
pkgs.extend(['libhugetlbfs-libhugetlb-devel'])
for package in pkgs:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
for file_name in [
'util.c', 'numa_test.c', 'softoffline.c', 'bench_movepages.c',
'Makefile'
]:
self.copyutil(file_name)
build.make(self.teststmpdir)
def setUp(self):
smm = SoftwareManager()
dist = distro.detect()
memsize = int(memory.freememtotal() * 1024 * 0.2)
self.nr_pages = self.params.get(
'nr_pages', default=memsize / memory.get_page_size())
self.map_type = self.params.get('map_type', default='private')
self.hpage = self.params.get('h_page', default=False)
nodes = memory.numa_nodes_with_memory()
if len(nodes) < 2:
self.cancel('Test requires two numa nodes to run.'
'Node list with memory: %s' % nodes)
pkgs = ['gcc', 'make']
hp_check = 0
if self.hpage:
hp_size = memory.get_huge_page_size()
for node in nodes:
genio.write_file('/sys/devices/system/node/node%s/hugepages/hu'
'gepages-%skB/nr_hugepages' %
(node, str(hp_size)), str(self.nr_pages))
for node in nodes:
hp_check += int(genio.read_file(
'/sys/devices/system/node/node%s/hugepages/hugepages-%skB'
'/nr_hugepages' % (node, str(hp_size))).strip())
if hp_check < self.nr_pages:
self.cancel('Not enough pages to be configured on nodes')
if dist.name == "Ubuntu":
pkgs.extend(['libpthread-stubs0-dev',
'libnuma-dev', 'libhugetlbfs-dev'])
elif dist.name in ["centos", "rhel", "fedora"]:
pkgs.extend(['numactl-devel', 'libhugetlbfs-devel'])
elif dist.name == "SuSE":
pkgs.extend(['libnuma-devel'])
if dist.version >= 15:
pkgs.extend(['libhugetlbfs-devel'])
else:
pkgs.extend(['libhugetlbfs-libhugetlb-devel'])
for package in pkgs:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
for file_name in ['util.c', 'numa_test.c', 'Makefile']:
self.copyutil(file_name)
build.make(self.teststmpdir)
def setUp(self):
smm = SoftwareManager()
memsize = int(memory.freememtotal() * 1024 * 0.9)
self.nr_pages = self.params.get('nr_pages', default=None)
self.in_err = self.params.get('induce_err', default=0)
self.failure = self.params.get('failure', default=False)
if not self.nr_pages:
self.nr_pages = memsize / memory.get_page_size()
for package in ['gcc', 'make']:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
for file_name in ['mprotect.c', 'Makefile']:
self.copyutil(file_name)
build.make(self.teststmpdir)
def setUp(self):
smm = SoftwareManager()
memsize = int(memory.meminfo.MemFree.b * 0.1)
self.nr_pages = self.params.get('nr_pages', default=None)
self.offline = self.params.get('offline', default='s')
self.touch = self.params.get('touch', default=True)
if not self.nr_pages:
self.nr_pages = int(memsize / memory.get_page_size())
for package in ['gcc', 'make']:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
for file_name in ['ksm_poison.c', 'Makefile']:
self.copyutil(file_name)
build.make(self.teststmpdir)
def setUp(self):
smm = SoftwareManager()
memsize = int(memory.meminfo.MemFree.b * 0.1)
self.nr_pages = self.params.get('nr_pages', default=None)
self.offline = self.params.get('offline', default='s')
self.touch = self.params.get('touch', default=True)
if not self.nr_pages:
self.nr_pages = int(memsize / memory.get_page_size())
for package in ['gcc', 'make']:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
for file_name in ['ksm_poison.c', 'Makefile']:
self.copyutil(file_name)
build.make(self.teststmpdir)
def setUp(self):
smm = SoftwareManager()
memsize = int(memory.freememtotal() * 1024 * 0.9)
self.nr_pages = self.params.get('nr_pages', default=None)
self.in_err = self.params.get('induce_err', default=0)
self.failure = self.params.get('failure', default=False)
if not self.nr_pages:
self.nr_pages = memsize / memory.get_page_size()
for package in ['gcc', 'make']:
if not smm.check_installed(package) and not smm.install(package):
self.cancel('%s is needed for the test to be run' % package)
for file_name in ['mprotect.c', 'Makefile']:
self.copyutil(file_name)
build.make(self.teststmpdir)
def test_namespace_unaligned(self):
"""
Test namespace
"""
self.plib.enable_region()
# Use an default unaligned pagesize and make sure it fails
align_size = memory.get_page_size()
size = (64 * 1024 * 1024) + align_size
regions = self.plib.run_ndctl_list('-R')
for val in regions:
region = self.plib.run_ndctl_list_val(val, 'dev')
self.plib.disable_namespace(region=region)
self.plib.destroy_namespace(region=region)
try:
self.plib.create_namespace(
region=region, size=size, align=align_size)
except pmem.PMemException:
self.log.info("Unaligned namespace creation failed"
"as expected")
else:
self.fail("Unaligned namespace creation must have failed! ")
# Test Inspired basically from
# https://github.com/autotest/tp-qemu/blob/master/generic/tests/trans_hugepage.py
#
# Copyright: 2017 IBM
# Author: Santhosh G <*****@*****.**>
import os
from avocado import Test
from avocado import main
from avocado import skipIf, skipUnless
from avocado.utils import process
from avocado.utils import memory
from avocado.core import data_dir
from avocado.utils.partition import Partition
PAGESIZE = '4096' in str(memory.get_page_size())
class Thp(Test):
'''
The test enables THP and stress the system using dd load
and verifies whether THP has been allocated for usage or not
:avocado: tags=memory,privileged,hugepage
'''
@skipIf(PAGESIZE, "No THP support for kernel with 4K PAGESIZE")
@skipUnless('Hugepagesize' in dict(memory.meminfo),
"Hugepagesize not defined in kernel.")
def setUp(self):
'''
Sets all the reqd parameter and also
def run(test, params, env):
"""
Test virsh migrate command.
"""
def set_feature(vmxml, feature, value):
"""
Set guest features for PPC
:param state: the htm status
:param vmxml: guest xml
"""
features_xml = vm_xml.VMFeaturesXML()
if feature == 'hpt':
features_xml.hpt_resizing = value
elif feature == 'htm':
features_xml.htm = value
vmxml.features = features_xml
vmxml.sync()
def trigger_hpt_resize(session):
"""
Check the HPT order file and dmesg
:param session: the session to guest
:raise: test.fail if required message is not found
"""
hpt_order_path = "/sys/kernel/debug/powerpc/hpt_order"
hpt_order = session.cmd_output('cat %s' % hpt_order_path).strip()
hpt_order = int(hpt_order)
logging.info('Current hpt_order is %d', hpt_order)
hpt_order += 1
cmd = 'echo %d > %s' % (hpt_order, hpt_order_path)
cmd_result = session.cmd_status_output(cmd)
result = process.CmdResult(stderr=cmd_result[1],
stdout=cmd_result[1],
exit_status=cmd_result[0])
libvirt.check_exit_status(result)
dmesg = session.cmd('dmesg')
dmesg_content = params.get('dmesg_content').split('|')
for content in dmesg_content:
if content % hpt_order not in dmesg:
test.fail("'%s' is missing in dmesg" % (content % hpt_order))
else:
logging.info("'%s' is found in dmesg", content % hpt_order)
def check_qemu_cmd_line(content, err_ignore=False):
"""
Check the specified content in the qemu command line
:param content: the desired string to search
:param err_ignore: True to return False when fail
False to raise exception when fail
:return: True if exist, False otherwise
"""
cmd = 'ps -ef|grep qemu|grep -v grep'
qemu_line = results_stdout_52lts(process.run(cmd, shell=True))
if content not in qemu_line:
if err_ignore:
return False
else:
test.fail("Expected '%s' was not found in "
"qemu command line" % content)
return True
def check_vm_network_accessed(session=None):
"""
The operations to the VM need to be done before or after
migration happens
:param session: The session object to the host
:raise: test.error when ping fails
"""
# Confirm local/remote VM can be accessed through network.
logging.info("Check VM network connectivity")
s_ping, _ = utils_test.ping(vm.get_address(),
count=10,
timeout=20,
output_func=logging.debug,
session=session)
if s_ping != 0:
if session:
session.close()
test.fail("%s did not respond after %d sec." % (vm.name, 20))
def check_virsh_command_and_option(command, option=None):
"""
Check if virsh command exists
:param command: the command to be checked
:param option: the command option to be checked
"""
msg = "This version of libvirt does not support "
if not virsh.has_help_command(command):
test.cancel(msg + "virsh command '%s'" % command)
if option and not virsh.has_command_help_match(command, option):
test.cancel(msg + "virsh command '%s' with option '%s'" %
(command, option))
def add_ctrls(vm_xml, dev_type="pci", dev_index="0", dev_model="pci-root"):
"""
Add multiple devices
:param dev_type: the type of the device to be added
:param dev_index: the maximum index of the device to be added
:param dev_model: the model of the device to be added
"""
for inx in range(0, int(dev_index) + 1):
newcontroller = Controller("controller")
newcontroller.type = dev_type
newcontroller.index = inx
newcontroller.model = dev_model
logging.debug("New device is added:\n%s", newcontroller)
vm_xml.add_device(newcontroller)
vm_xml.sync()
def do_migration(vm, dest_uri, options, extra):
"""
Execute the migration with given parameters
:param vm: the guest to be migrated
:param dest_uri: the destination uri for migration
:param options: options next to 'migrate' command
:param extra: options in the end of the migrate command line
:return: CmdResult object
"""
logging.info("Sleeping 10 seconds before migration")
time.sleep(10)
# Migrate the guest.
migration_res = vm.migrate(dest_uri, options, extra, **virsh_args)
logging.info("Migration out: %s",
results_stdout_52lts(migration_res).strip())
logging.info("Migration error: %s",
results_stderr_52lts(migration_res).strip())
if int(migration_res.exit_status) != 0:
logging.error("Migration failed for %s.", vm_name)
return migration_res
if vm.is_alive(): # vm.connect_uri was updated
logging.info("VM is alive on destination %s.", dest_uri)
else:
test.fail("VM is not alive on destination %s" % dest_uri)
# Throws exception if console shows panic message
vm.verify_kernel_crash()
return migration_res
def cleanup_libvirtd_log(log_file):
"""
Remove existing libvirtd log file on source and target host.
:param log_file: log file with absolute path
"""
if os.path.exists(log_file):
logging.debug("Delete local libvirt log file '%s'", log_file)
os.remove(log_file)
cmd = "rm -f %s" % log_file
logging.debug("Delete remote libvirt log file '%s'", log_file)
run_remote_cmd(cmd)
def cleanup_dest(vm):
"""
Clean up the destination host environment
when doing the uni-direction migration.
:param vm: the guest to be cleaned up
"""
logging.info("Cleaning up VMs on %s", vm.connect_uri)
try:
if virsh.domain_exists(vm.name, uri=vm.connect_uri):
vm_state = vm.state()
if vm_state == "paused":
vm.resume()
elif vm_state == "shut off":
vm.start()
vm.destroy(gracefully=False)
if vm.is_persistent():
vm.undefine()
except Exception as detail:
logging.error("Cleaning up destination failed.\n%s", detail)
def run_remote_cmd(cmd):
"""
A function to run a command on remote host.
:param cmd: the command to be executed
:return: CmdResult object
"""
remote_runner = remote.RemoteRunner(host=server_ip,
username=server_user,
password=server_pwd)
cmdResult = remote_runner.run(cmd, ignore_status=True)
if cmdResult.exit_status:
test.fail("Failed to run '%s' on remote: %s" %
(cmd, results_stderr_52lts(cmdResult).strip()))
return cmdResult
def run_stress_in_vm():
"""
The function to load stress in VM
"""
stress_args = params.get(
"stress_args", "--cpu 8 --io 4 "
"--vm 2 --vm-bytes 128M "
"--timeout 20s")
try:
vm_session.cmd('stress %s' % stress_args)
except Exception as detail:
logging.debug(detail)
def check_timeout_postcopy(params):
"""
Check the vm state on target host after timeout
when --postcopy and --timeout-postcopy are used.
The vm state is expected as running.
:param params: the parameters used
"""
timeout = int(params.get("timeout_postcopy", 10))
time.sleep(timeout + 1)
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
vm_state = results_stdout_52lts(
remote_virsh_session.domstate(vm_name)).strip()
if vm_state != "running":
remote_virsh_session.close_session()
test.fail(
"After timeout '%s' seconds, "
"the vm state on target host should "
"be 'running', but '%s' found", timeout, vm_state)
remote_virsh_session.close_session()
def get_usable_compress_cache(pagesize):
"""
Get a number which is bigger than pagesize and is power of two.
:param pagesize: the given integer
:return: an integer satisfying the criteria
"""
def calculate(num):
result = num & (num - 1)
return (result == 0)
item = pagesize
found = False
while (not found):
item += 1
found = calculate(item)
logging.debug(
"%d is smallest one that is bigger than '%s' and "
"is power of 2", item, pagesize)
return item
check_parameters(test, params)
# Params for NFS shared storage
shared_storage = params.get("migrate_shared_storage", "")
if shared_storage == "":
default_guest_asset = defaults.get_default_guest_os_info()['asset']
default_guest_asset = "%s.qcow2" % default_guest_asset
shared_storage = os.path.join(params.get("nfs_mount_dir"),
default_guest_asset)
logging.debug("shared_storage:%s", shared_storage)
# params for migration connection
params["virsh_migrate_desturi"] = libvirt_vm.complete_uri(
params.get("migrate_dest_host"))
# Params to update disk using shared storage
params["disk_type"] = "file"
params["disk_source_protocol"] = "netfs"
params["mnt_path_name"] = params.get("nfs_mount_dir")
# Local variables
virsh_args = {"ignore_status": True, "debug": True}
server_ip = params.get("server_ip")
server_user = params.get("server_user", "root")
server_pwd = params.get("server_pwd")
extra = params.get("virsh_migrate_extra")
options = params.get("virsh_migrate_options")
src_uri = params.get("virsh_migrate_connect_uri")
dest_uri = params.get("virsh_migrate_desturi")
log_file = params.get("libvirt_log", "/var/log/libvirt/libvirtd.log")
check_complete_job = "yes" == params.get("check_complete_job", "no")
config_libvirtd = "yes" == params.get("config_libvirtd", "no")
contrl_index = params.get("new_contrl_index", None)
grep_str_remote_log = params.get("grep_str_remote_log", "")
grep_str_local_log = params.get("grep_str_local_log", "")
stress_in_vm = "yes" == params.get("stress_in_vm", "no")
remote_virsh_dargs = {
'remote_ip': server_ip,
'remote_user': server_user,
'remote_pwd': server_pwd,
'unprivileged_user': None,
'ssh_remote_auth': True
}
hpt_resize = params.get("hpt_resize", None)
htm_state = params.get("htm_state", None)
qemu_check = params.get("qemu_check", None)
xml_check_after_mig = params.get("guest_xml_check_after_mig", None)
arch = platform.machine()
if any([hpt_resize, contrl_index, htm_state]) and 'ppc64' not in arch:
test.cancel("The case is PPC only.")
# For TLS
tls_recovery = params.get("tls_auto_recovery", "yes")
# qemu config
qemu_conf_dict = None
# libvirtd config
libvirtd_conf_dict = None
remote_virsh_session = None
vm = None
vm_session = None
libvirtd_conf = None
qemu_conf = None
mig_result = None
test_exception = None
is_TestError = False
is_TestFail = False
is_TestSkip = False
asynch_migration = False
# Objects to be cleaned up in the end
objs_list = []
tls_obj = None
# Local variables
vm_name = params.get("migrate_main_vm")
vm = env.get_vm(vm_name)
vm.verify_alive()
# For safety reasons, we'd better back up xmlfile.
new_xml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
orig_config_xml = new_xml.copy()
if not orig_config_xml:
test.error("Backing up xmlfile failed.")
try:
# Change VM xml in below part
if contrl_index:
new_xml.remove_all_device_by_type('controller')
logging.debug("After removing controllers, current XML:\n%s\n",
new_xml)
add_ctrls(new_xml, dev_index=contrl_index)
if extra.count("--tls"):
qemu_conf_dict = {"migrate_tls_x509_verify": "1"}
# Setup TLS
tls_obj = TLSConnection(params)
if tls_recovery == "yes":
objs_list.append(tls_obj)
tls_obj.auto_recover = True
tls_obj.conn_setup()
# Setup qemu configure
logging.debug("Configure the qemu")
cleanup_libvirtd_log(log_file)
qemu_conf = libvirt.customize_libvirt_config(qemu_conf_dict,
config_type="qemu",
remote_host=True,
extra_params=params)
# Setup libvirtd
if config_libvirtd:
logging.debug("Configure the libvirtd")
cleanup_libvirtd_log(log_file)
libvirtd_conf_dict = setup_libvirtd_conf_dict(params)
libvirtd_conf = libvirt.customize_libvirt_config(
libvirtd_conf_dict, remote_host=True, extra_params=params)
if hpt_resize:
set_feature(new_xml, 'hpt', hpt_resize)
if htm_state:
set_feature(new_xml, 'htm', htm_state)
# Change the disk of the vm to shared disk and then start VM
libvirt.set_vm_disk(vm, params)
if not vm.is_alive():
vm.start()
logging.debug("Guest xml after starting:\n%s",
vm_xml.VMXML.new_from_dumpxml(vm_name))
if qemu_check:
check_content = qemu_check
if hpt_resize:
check_content = "%s%s" % (qemu_check, hpt_resize)
if htm_state:
check_content = "%s%s" % (qemu_check, htm_state)
check_qemu_cmd_line(check_content)
vm_session = vm.wait_for_login()
check_vm_network_accessed()
if hpt_resize and hpt_resize != 'disabled':
trigger_hpt_resize(vm_session)
if stress_in_vm:
pkg_name = 'stress'
logging.debug("Check if stress tool is installed")
pkg_mgr = utils_package.package_manager(vm_session, pkg_name)
if not pkg_mgr.is_installed(pkg_name):
logging.debug("Stress tool will be installed")
if not pkg_mgr.install():
test.error("Package '%s' installation fails" % pkg_name)
stress_thread = threading.Thread(target=run_stress_in_vm, args=())
stress_thread.start()
if extra.count("timeout-postcopy"):
asynch_migration = True
func_name = check_timeout_postcopy
if extra.count("comp-xbzrle-cache"):
cache = get_usable_compress_cache(memory.get_page_size())
extra = "%s %s" % (extra, cache)
# For --postcopy enable
postcopy_options = params.get("postcopy_options")
if postcopy_options and not extra.count(postcopy_options):
extra = "%s %s" % (extra, postcopy_options)
if not asynch_migration:
mig_result = do_migration(vm, dest_uri, options, extra)
else:
migration_test = libvirt.MigrationTest()
logging.debug("vm.connect_uri=%s", vm.connect_uri)
vms = [vm]
try:
migration_test.do_migration(vms,
None,
dest_uri,
'orderly',
options,
thread_timeout=900,
ignore_status=True,
func=func_name,
extra_opts=extra,
func_params=params)
mig_result = migration_test.ret
except exceptions.TestFail as fail_detail:
test.fail(fail_detail)
except exceptions.TestSkipError as skip_detail:
test.cancel(skip_detail)
except exceptions.TestError as error_detail:
test.error(error_detail)
except Exception as details:
mig_result = migration_test.ret
logging.error(details)
if int(mig_result.exit_status) != 0:
test.fail(results_stderr_52lts(mig_result).strip())
if check_complete_job:
search_str_domjobinfo = params.get("search_str_domjobinfo", None)
opts = "--completed"
args = vm_name + " " + opts
check_virsh_command_and_option("domjobinfo", opts)
jobinfo = results_stdout_52lts(
virsh.domjobinfo(args, debug=True,
ignore_status=True)).strip()
logging.debug("Local job info on completion:\n%s", jobinfo)
if extra.count("comp-xbzrle-cache") and search_str_domjobinfo:
search_str_domjobinfo = "%s %s" % (search_str_domjobinfo,
cache // 1024)
if search_str_domjobinfo:
if not re.search(search_str_domjobinfo, jobinfo):
test.fail("Fail to search '%s' on local:\n%s" %
(search_str_domjobinfo, jobinfo))
# Check remote host
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(
**remote_virsh_dargs)
jobinfo = results_stdout_52lts(
remote_virsh_session.domjobinfo(args,
debug=True,
ignore_status=True)).strip()
logging.debug("Remote job info on completion:\n%s", jobinfo)
if search_str_domjobinfo:
if not re.search(search_str_domjobinfo, jobinfo):
remote_virsh_session.close_session()
test.fail("Fail to search '%s' on remote:\n%s" %
(search_str_domjobinfo, jobinfo))
remote_virsh_session.close_session()
if grep_str_local_log:
cmd = "grep -E '%s' %s" % (grep_str_local_log, log_file)
cmdRes = process.run(cmd, shell=True, ignore_status=True)
if cmdRes.exit_status:
test.fail(results_stderr_52lts(cmdRes).strip())
if grep_str_remote_log:
cmd = "grep -E '%s' %s" % (grep_str_remote_log, log_file)
run_remote_cmd(cmd)
if xml_check_after_mig:
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(
**remote_virsh_dargs)
target_guest_dumpxml = results_stdout_52lts(
remote_virsh_session.dumpxml(vm_name,
debug=True,
ignore_status=True)).strip()
if hpt_resize:
check_str = hpt_resize
elif htm_state:
check_str = htm_state
if hpt_resize or htm_state:
xml_check_after_mig = "%s'%s'" % (xml_check_after_mig,
check_str)
if not re.search(xml_check_after_mig, target_guest_dumpxml):
remote_virsh_session.close_session()
test.fail("Fail to search '%s' in target guest XML:\n%s" %
(xml_check_after_mig, target_guest_dumpxml))
if contrl_index:
all_ctrls = re.findall(xml_check_after_mig,
target_guest_dumpxml)
if len(all_ctrls) != int(contrl_index) + 1:
remote_virsh_session.close_session()
test.fail(
"%s pci-root controllers are expected in guest XML, "
"but found %s" %
(int(contrl_index) + 1, len(all_ctrls)))
remote_virsh_session.close_session()
server_session = remote.wait_for_login('ssh', server_ip, '22',
server_user, server_pwd,
r"[\#\$]\s*$")
check_vm_network_accessed(server_session)
server_session.close()
except exceptions.TestFail as details:
is_TestFail = True
test_exception = details
except exceptions.TestSkipError as details:
is_TestSkip = True
test_exception = details
except exceptions.TestError as details:
is_TestError = True
test_exception = details
except Exception as details:
test_exception = details
finally:
logging.debug("Recover test environment")
try:
# Clean VM on destination
vm.connect_uri = dest_uri
cleanup_dest(vm)
vm.connect_uri = src_uri
logging.info("Recovery VM XML configration")
orig_config_xml.sync()
logging.debug("The current VM XML:\n%s",
orig_config_xml.xmltreefile)
if remote_virsh_session:
remote_virsh_session.close_session()
if extra.count("--tls"):
logging.debug("Recover the qemu configuration")
libvirt.customize_libvirt_config(None,
config_type="qemu",
remote_host=True,
extra_params=params,
is_recover=True,
config_object=qemu_conf)
if config_libvirtd:
logging.debug("Recover the libvirtd configuration")
libvirt.customize_libvirt_config(None,
remote_host=True,
extra_params=params,
is_recover=True,
config_object=libvirtd_conf)
logging.info("Remove local NFS image")
source_file = params.get("source_file")
libvirt.delete_local_disk("file", path=source_file)
if objs_list:
for obj in objs_list:
logging.debug("Clean up local objs")
del obj
except Exception as exception_detail:
if (not test_exception and not is_TestError and not is_TestFail
and not is_TestSkip):
raise exception_detail
else:
# if any of above exceptions has been raised, only print
# error log here to avoid of hiding the original issue
logging.error(exception_detail)
# Check result
if is_TestFail:
test.fail(test_exception)
if is_TestSkip:
test.cancel(test_exception)
if is_TestError:
test.error(test_exception)
if not test_exception:
logging.info("Case execution is done.")
else:
test.error(test_exception)
def test(self):
self.plib.enable_region()
regions = self.plib.run_ndctl_list('-R')
self.plib.destroy_namespace(force=True)
region = self.plib.run_ndctl_list_val(regions[0], 'dev')
split = self.params.get('split_ns', default=False)
if len(regions) == 1:
if self.plib.is_region_legacy(region):
self.cancel("Cannot create DM with single pmem device")
if not split:
self.cancel("Cannot run test without split option enabled")
if split:
if self.plib.is_region_legacy(region):
self.cancel("Cannot split pmem device on legacy hardware")
size_align = self.get_size_alignval()
self.log.info("Creating namespace with existing regions")
for reg_json in regions:
region = self.plib.run_ndctl_list_val(reg_json, 'dev')
slot_count = self.plib.get_slot_count(region)
reg_size = self.plib.run_ndctl_list_val(
self.plib.run_ndctl_list('-r %s' % region)[0], 'size')
namespace_size = reg_size // slot_count
# Now align the namespace size
namespace_size = (namespace_size //
size_align) * size_align
if namespace_size <= size_align:
self.log.warn("Skipping namespace size less than pagesize")
continue
for _ in range(0, slot_count):
self.plib.create_namespace(
region=region, size=namespace_size)
else:
self.log.info("Creating namespace with full size")
for reg_json in regions:
region = self.plib.run_ndctl_list_val(reg_json, 'dev')
self.plib.create_namespace(region=region)
devices = self.plib.run_ndctl_list('-N')
blk_cmd = ""
bdev = None
blk_size1 = 0
for cnt, dev in enumerate(devices):
bdev = self.plib.run_ndctl_list_val(dev, 'blockdev')
bdev = "/dev/%s" % bdev
blk_size2 = process.system_output(
"blockdev --getsz %s" % bdev).decode()
blk_cmd += ' %s %s linear %s 0 "\\\\n"' % (
blk_size1, blk_size2, bdev)
blk_size1 += int(blk_size2)
if cnt == len(devices) - 1:
break
dm_cmd = 'echo -e "%s" | dmsetup create linear-pmem' % blk_cmd
if process.system(dm_cmd, shell=True, sudo=True, ignore_status=True):
self.fail("Creating DM failed")
self.log.info("Running FIO on device-mapper")
dm_disk = "/dev/mapper/linear-pmem"
self.part = partition.Partition(dm_disk)
self.part.mkfs(fstype='xfs', args='-b size=%s -s size=512 -m reflink=0' %
memory.get_page_size())
mnt_path = self.params.get('mnt_point', default='/pmem')
if not os.path.exists(mnt_path):
os.makedirs(mnt_path)
self.part.mount(mountpoint=mnt_path, args='-o dax')
self.log.info("Test will run on %s", mnt_path)
fio_job = self.params.get('fio_job', default='ndctl-fio.job')
size = disk.freespace(mnt_path) * 0.9
cmd = '%s --directory %s --filename mmap-pmem --size %s %s' % (
self.build_fio(), mnt_path, size, self.get_data(fio_job))
if process.system(cmd, ignore_status=True):
self.fail("FIO mmap workload on fsdax failed")
def run(test, params, env):
"""
Test virsh migrate command.
"""
def set_feature(vmxml, feature, value):
"""
Set guest features for PPC
:param state: the htm status
:param vmxml: guest xml
"""
features_xml = vm_xml.VMFeaturesXML()
if feature == 'hpt':
hpt_xml = vm_xml.VMFeaturesHptXML()
hpt_xml.resizing = value
features_xml.hpt = hpt_xml
elif feature == 'htm':
features_xml.htm = value
vmxml.features = features_xml
vmxml.sync()
def trigger_hpt_resize(session):
"""
Check the HPT order file and dmesg
:param session: the session to guest
:raise: test.fail if required message is not found
"""
hpt_order_path = "/sys/kernel/debug/powerpc/hpt_order"
hpt_order = session.cmd_output('cat %s' % hpt_order_path).strip()
hpt_order = int(hpt_order)
logging.info('Current hpt_order is %d', hpt_order)
hpt_order += 1
cmd = 'echo %d > %s' % (hpt_order, hpt_order_path)
cmd_result = session.cmd_status_output(cmd)
result = process.CmdResult(stderr=cmd_result[1],
stdout=cmd_result[1],
exit_status=cmd_result[0])
libvirt.check_exit_status(result)
dmesg = session.cmd('dmesg')
dmesg_content = params.get('dmesg_content').split('|')
for content in dmesg_content:
if content % hpt_order not in dmesg:
test.fail("'%s' is missing in dmesg" % (content % hpt_order))
else:
logging.info("'%s' is found in dmesg", content % hpt_order)
def check_vm_network_accessed(session=None):
"""
The operations to the VM need to be done before or after
migration happens
:param session: The session object to the host
:raise: test.error when ping fails
"""
# Confirm local/remote VM can be accessed through network.
logging.info("Check VM network connectivity")
s_ping, _ = utils_test.ping(vm.get_address(),
count=10,
timeout=20,
output_func=logging.debug,
session=session)
if s_ping != 0:
if session:
session.close()
test.fail("%s did not respond after %d sec." % (vm.name, 20))
def check_virsh_command_and_option(command, option=None):
"""
Check if virsh command exists
:param command: the command to be checked
:param option: the command option to be checked
"""
msg = "This version of libvirt does not support "
if not virsh.has_help_command(command):
test.cancel(msg + "virsh command '%s'" % command)
if option and not virsh.has_command_help_match(command, option):
test.cancel(msg + "virsh command '%s' with option '%s'" % (command,
option))
def add_ctrls(vm_xml, dev_type="pci", dev_index="0", dev_model="pci-root"):
"""
Add multiple devices
:param dev_type: the type of the device to be added
:param dev_index: the maximum index of the device to be added
:param dev_model: the model of the device to be added
"""
for inx in range(0, int(dev_index) + 1):
newcontroller = Controller("controller")
newcontroller.type = dev_type
newcontroller.index = inx
newcontroller.model = dev_model
logging.debug("New device is added:\n%s", newcontroller)
vm_xml.add_device(newcontroller)
vm_xml.sync()
def do_migration(vm, dest_uri, options, extra):
"""
Execute the migration with given parameters
:param vm: the guest to be migrated
:param dest_uri: the destination uri for migration
:param options: options next to 'migrate' command
:param extra: options in the end of the migrate command line
:return: CmdResult object
"""
logging.info("Sleeping 10 seconds before migration")
time.sleep(10)
# Migrate the guest.
virsh_args.update({"ignore_status": True})
migration_res = vm.migrate(dest_uri, options, extra, **virsh_args)
if int(migration_res.exit_status) != 0:
logging.error("Migration failed for %s.", vm_name)
return migration_res
if vm.is_alive(): # vm.connect_uri was updated
logging.info("VM is alive on destination %s.", dest_uri)
else:
test.fail("VM is not alive on destination %s" % dest_uri)
# Throws exception if console shows panic message
vm.verify_kernel_crash()
return migration_res
def cleanup_libvirtd_log(log_file):
"""
Remove existing libvirtd log file on source and target host.
:param log_file: log file with absolute path
"""
if os.path.exists(log_file):
logging.debug("Delete local libvirt log file '%s'", log_file)
os.remove(log_file)
cmd = "rm -f %s" % log_file
logging.debug("Delete remote libvirt log file '%s'", log_file)
remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
def cleanup_dest(vm):
"""
Clean up the destination host environment
when doing the uni-direction migration.
:param vm: the guest to be cleaned up
"""
logging.info("Cleaning up VMs on %s", vm.connect_uri)
try:
if virsh.domain_exists(vm.name, uri=vm.connect_uri):
vm_state = vm.state()
if vm_state == "paused":
vm.resume()
elif vm_state == "shut off":
vm.start()
vm.destroy(gracefully=False)
if vm.is_persistent():
vm.undefine()
except Exception as detail:
logging.error("Cleaning up destination failed.\n%s", detail)
def run_stress_in_vm():
"""
The function to load stress in VM
"""
stress_args = params.get("stress_args", "--cpu 8 --io 4 "
"--vm 2 --vm-bytes 128M "
"--timeout 20s")
try:
vm_session.cmd('stress %s' % stress_args)
except Exception as detail:
logging.debug(detail)
def control_migrate_speed(to_speed=1, opts=""):
"""
Control migration duration
:param to_speed: the speed value in Mbps to be set for migration
:return int: the new migration speed after setting
"""
virsh_args.update({"ignore_status": False})
old_speed = virsh.migrate_getspeed(vm_name, extra=opts, **virsh_args)
logging.debug("Current migration speed is %s MiB/s\n", old_speed.stdout.strip())
logging.debug("Set migration speed to %d MiB/s\n", to_speed)
cmd_result = virsh.migrate_setspeed(vm_name, to_speed, extra=opts, **virsh_args)
actual_speed = virsh.migrate_getspeed(vm_name, extra=opts, **virsh_args)
logging.debug("New migration speed is %s MiB/s\n", actual_speed.stdout.strip())
return int(actual_speed.stdout.strip())
def check_setspeed(params):
"""
Set/get migration speed
:param params: the parameters used
:raise: test.fail if speed set does not take effect
"""
expected_value = int(params.get("migrate_speed", '41943040')) // (1024 * 1024)
actual_value = control_migrate_speed(to_speed=expected_value)
params.update({'compare_to_value': actual_value})
if actual_value != expected_value:
test.fail("Migration speed is expected to be '%d MiB/s', but '%d MiB/s' "
"found" % (expected_value, actual_value))
def check_domjobinfo(params, option=""):
"""
Check given item in domjobinfo of the guest is as expected
:param params: the parameters used
:param option: options for domjobinfo
:raise: test.fail if the value of given item is unexpected
"""
def search_jobinfo(jobinfo):
"""
Find value of given item in domjobinfo
:param jobinfo: cmdResult object
:raise: test.fail if not found
"""
for item in jobinfo.stdout.splitlines():
if item.count(jobinfo_item):
groups = re.findall(r'[0-9.]+', item.strip())
logging.debug("In '%s' search '%s'\n", item, groups[0])
if (math.fabs(float(groups[0]) - float(compare_to_value)) //
float(compare_to_value) > diff_rate):
test.fail("{} {} has too much difference from "
"{}".format(jobinfo_item,
groups[0],
compare_to_value))
break
jobinfo_item = params.get("jobinfo_item")
compare_to_value = params.get("compare_to_value")
logging.debug("compare_to_value:%s", compare_to_value)
diff_rate = float(params.get("diff_rate", "0"))
if not jobinfo_item or not compare_to_value:
return
vm_ref = '{}{}'.format(vm_name, option)
jobinfo = virsh.domjobinfo(vm_ref, **virsh_args)
search_jobinfo(jobinfo)
check_domjobinfo_remote = params.get("check_domjobinfo_remote")
if check_domjobinfo_remote:
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
jobinfo = remote_virsh_session.domjobinfo(vm_ref, **virsh_args)
search_jobinfo(jobinfo)
remote_virsh_session.close_session()
def search_jobinfo_output(jobinfo, items_to_check, postcopy_req=False):
"""
Check the results of domjobinfo
:param jobinfo: cmdResult object
:param items_to_check: expected value
:param postcopy_req: True for postcopy migration and False for precopy
:return: False if not found
"""
expected_value = copy.deepcopy(items_to_check)
logging.debug("The items_to_check is %s", expected_value)
for item in jobinfo.splitlines():
item_key = item.strip().split(':')[0]
if "all_items" in expected_value and len(item_key) > 0:
# "Time elapsed w/o network" and "Downtime w/o network"
# have a chance to be missing, it is normal
if item_key in ['Downtime w/o network', 'Time elapsed w/o network']:
continue
if expected_value["all_items"][0] == item_key:
del expected_value["all_items"][0]
else:
test.fail("The item '%s' should be '%s'" %
(item_key, expected_value["all_items"][0]))
if item_key in expected_value:
item_value = ':'.join(item.strip().split(':')[1:]).strip()
if item_value != expected_value.get(item_key):
test.fail("The value of {} is {} which is not "
"expected".format(item_key,
item_value))
else:
del expected_value[item_key]
if postcopy_req and item_key == "Postcopy requests":
if int(item.strip().split(':')[1]) <= 0:
test.fail("The value of Postcopy requests is incorrect")
# Check if all the items in expect_dict checked or not
if "all_items" in expected_value:
if len(expected_value["all_items"]) > 0:
test.fail("Missing item: {} from all_items"
.format(expected_value["all_items"]))
else:
del expected_value["all_items"]
if len(expected_value) != 0:
test.fail("Missing item: {}".format(expected_value))
def set_migratepostcopy():
"""
Switch to postcopy during migration
"""
res = virsh.migrate_postcopy(vm_name)
logging.debug("Command output: %s", res)
if not utils_misc.wait_for(
lambda: migration_test.check_vm_state(vm_name, "paused",
"post-copy"), 10):
test.fail("vm status is expected to 'paused (post-copy)'")
def check_domjobinfo_output(option="", is_mig_compelete=False):
"""
Check all items in domjobinfo of the guest on both remote and local
:param option: options for domjobinfo
:param is_mig_compelete: False for domjobinfo checking during migration,
True for domjobinfo checking after migration
:raise: test.fail if the value of given item is unexpected
"""
expected_list_during_mig = ["Job type", "Operation", "Time elapsed",
"Data processed", "Data remaining",
"Data total", "Memory processed",
"Memory remaining", "Memory total",
"Memory bandwidth", "Dirty rate", "Page size",
"Iteration", "Constant pages", "Normal pages",
"Normal data", "Expected downtime", "Setup time"]
if libvirt_version.version_compare(4, 10, 0):
expected_list_during_mig.insert(13, "Postcopy requests")
expected_list_after_mig_src = copy.deepcopy(expected_list_during_mig)
expected_list_after_mig_src[-2] = 'Total downtime'
expected_list_after_mig_dest = copy.deepcopy(expected_list_after_mig_src)
# Check version in remote
if not expected_list_after_mig_dest.count("Postcopy requests"):
remote_session = remote.remote_login("ssh", server_ip, "22", server_user,
server_pwd, "#")
if libvirt_version.version_compare(4, 10, 0, session=remote_session):
expected_list_after_mig_dest.insert(14, "Postcopy requests")
remote_session.close()
expect_dict = {"src_notdone": {"Job type": "Unbounded",
"Operation": "Outgoing migration",
"all_items": expected_list_during_mig},
"dest_notdone": {"error": "Operation not supported: mig"
"ration statistics are availab"
"le only on the source host"},
"src_done": {"Job type": "Completed",
"Operation": "Outgoing migration",
"all_items": expected_list_after_mig_src},
"dest_done": {"Job type": "Completed",
"Operation": "Incoming migration",
"all_items": expected_list_after_mig_dest}}
pc_opt = False
if postcopy_options:
pc_opt = True
if is_mig_compelete:
expect_dict["dest_done"].clear()
expect_dict["dest_done"]["Job type"] = "None"
else:
set_migratepostcopy()
vm_ref = '{}{}'.format(vm_name, option)
src_jobinfo = virsh.domjobinfo(vm_ref, **virsh_args)
cmd = "virsh domjobinfo {} {}".format(vm_name, option)
dest_jobinfo = remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
if not is_mig_compelete:
search_jobinfo_output(src_jobinfo.stdout, expect_dict["src_notdone"],
postcopy_req=pc_opt)
search_jobinfo_output(dest_jobinfo.stderr, expect_dict["dest_notdone"])
else:
search_jobinfo_output(src_jobinfo.stdout, expect_dict["src_done"])
search_jobinfo_output(dest_jobinfo.stdout, expect_dict["dest_done"])
def check_maxdowntime(params):
"""
Set/get migration maxdowntime
:param params: the parameters used
:raise: test.fail if maxdowntime set does not take effect
"""
expected_value = int(float(params.get("migrate_maxdowntime", '0.3')) * 1000)
virsh_args.update({"ignore_status": False})
old_value = int(virsh.migrate_getmaxdowntime(vm_name).stdout.strip())
logging.debug("Current migration maxdowntime is %d ms", old_value)
logging.debug("Set migration maxdowntime to %d ms", expected_value)
virsh.migrate_setmaxdowntime(vm_name, expected_value, **virsh_args)
actual_value = int(virsh.migrate_getmaxdowntime(vm_name).stdout.strip())
logging.debug("New migration maxdowntime is %d ms", actual_value)
if actual_value != expected_value:
test.fail("Migration maxdowntime is expected to be '%d ms', but '%d ms' "
"found" % (expected_value, actual_value))
params.update({'compare_to_value': actual_value})
def run_time(init_time=2):
"""
Compare the duration of func to an expected one
:param init_time: Expected run time
:raise: test.fail if func takes more than init_time(second)
"""
def check_time(func):
def wrapper(*args, **kwargs):
start = time.time()
result = func(*args, **kwargs)
duration = time.time() - start
if duration > init_time:
test.fail("It takes too long to check {}. The duration is "
"{}s which should be less than {}s"
.format(func.__doc__, duration, init_time))
return result
return wrapper
return check_time
def run_domstats(vm_name):
"""
Run domstats and domstate during migration in source and destination
:param vm_name: VM name
:raise: test.fail if domstats does not return in 2s
or domstate is incorrect
"""
@run_time()
def check_source_stats(vm_name):
"""domstats in source"""
vm_stats = virsh.domstats(vm_name)
logging.debug("domstats in source: {}".format(vm_stats))
@run_time()
def check_dest_stats(vm_name):
"""domstats in target"""
cmd = "virsh domstats {}".format(vm_name)
dest_stats = remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
logging.debug("domstats in destination: {}".format(dest_stats))
expected_remote_state = "paused"
expected_source_state = ["paused", "running"]
if postcopy_options:
set_migratepostcopy()
expected_remote_state = "running"
expected_source_state = ["paused"]
check_source_stats(vm_name)
vm_stat = virsh.domstate(vm_name, ignore_status=False)
if ((not len(vm_stat.stdout.split())) or
vm_stat.stdout.split()[0] not in expected_source_state):
test.fail("Incorrect VM stat on source machine: {}"
.format(vm_stat.stdout))
check_dest_stats(vm_name)
cmd = "virsh domstate {}".format(vm_name)
remote_vm_state = remote.run_remote_cmd(cmd, cmd_parms,
runner_on_target,
ignore_status=False)
if ((not len(remote_vm_state.stdout.split())) or
remote_vm_state.stdout.split()[0] != expected_remote_state):
test.fail("Incorrect VM stat on destination machine: {}"
.format(remote_vm_state.stdout))
else:
logging.debug("vm stat on destination: {}".format(remote_vm_state))
if postcopy_options:
vm_stat = virsh.domstate(vm_name, ignore_status=False)
if ((not len(vm_stat.stdout.split())) or
vm_stat.stdout.split()[0] != "paused"):
test.fail("Incorrect VM stat on source machine: {}"
.format(vm_stat.stdout))
def kill_qemu_target():
"""
Kill qemu process on target host during Finish Phase of migration
:raise: test.fail if domstate is not "post-copy failed" after
qemu killed
"""
if not vm.is_qemu():
test.cancel("This case is qemu guest only.")
set_migratepostcopy()
emulator = new_xml.get_devices('emulator')[0]
logging.debug("emulator is %s", emulator.path)
cmd = 'pkill -9 {}'.format(os.path.basename(emulator.path))
runner_on_target.run(cmd)
if not utils_misc.wait_for(
lambda: migration_test.check_vm_state(vm_name, "paused",
"post-copy failed"), 60):
test.fail("vm status is expected to 'paused (post-copy failed)'")
def do_actions_during_migrate(params):
"""
The entry point to execute action list during migration
:param params: the parameters used
"""
actions_during_migration = params.get("actions_during_migration")
if not actions_during_migration:
return
for action in actions_during_migration.split(","):
if action == 'setspeed':
check_setspeed(params)
elif action == 'domjobinfo':
check_domjobinfo(params)
elif action == 'setmaxdowntime':
check_maxdowntime(params)
elif action == 'converge':
check_converge(params)
elif action == 'domjobinfo_output_all':
check_domjobinfo_output()
elif action == 'checkdomstats':
run_domstats(vm_name)
elif action == 'killqemutarget':
kill_qemu_target()
time.sleep(3)
def attach_channel_xml():
"""
Create channel xml and attach it to guest configuration
"""
# Check if pty channel exists already
for elem in new_xml.devices.by_device_tag('channel'):
if elem.type_name == channel_type_name:
logging.debug("{0} channel already exists in guest. "
"No need to add new one".format(channel_type_name))
return
params = {'channel_type_name': channel_type_name,
'target_type': target_type,
'target_name': target_name}
channel_xml = libvirt.create_channel_xml(params)
virsh.attach_device(domain_opt=vm_name, file_opt=channel_xml.xml,
flagstr="--config", ignore_status=False)
logging.debug("New VMXML with channel:\n%s", virsh.dumpxml(vm_name))
def check_timeout_postcopy(params):
"""
Check the vm state on target host after timeout
when --postcopy and --timeout-postcopy are used.
The vm state is expected as running.
:param params: the parameters used
"""
timeout = int(params.get("timeout_postcopy", 10))
time.sleep(timeout + 1)
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
vm_state = results_stdout_52lts(remote_virsh_session.domstate(vm_name)).strip()
if vm_state != "running":
remote_virsh_session.close_session()
test.fail("After timeout '%s' seconds, "
"the vm state on target host should "
"be 'running', but '%s' found" % (timeout, vm_state))
remote_virsh_session.close_session()
def check_converge(params):
"""
Handle option '--auto-converge --auto-converge-initial
--auto-converge-increment '.
'Auto converge throttle' in domjobinfo should start with
the initial value and increase with correct increment
and max value is 99.
:param params: The parameters used
:raise: exceptions.TestFail when unexpected or no throttle
is found
"""
initial = int(params.get("initial", 20))
increment = int(params.get("increment", 10))
max_converge = int(params.get("max_converge", 99))
allow_throttle_list = [initial + count * increment
for count in range(0, (100 - initial) // increment + 1)
if (initial + count * increment) < 100]
allow_throttle_list.append(max_converge)
logging.debug("The allowed 'Auto converge throttle' value "
"is %s", allow_throttle_list)
throttle = 0
jobtype = "None"
while throttle < 100:
cmd_result = virsh.domjobinfo(vm_name, debug=True,
ignore_status=True)
if cmd_result.exit_status:
logging.debug(cmd_result.stderr)
# Check if migration is completed
if "domain is not running" in cmd_result.stderr:
args = vm_name + " --completed"
cmd_result = virsh.domjobinfo(args, debug=True,
ignore_status=True)
if cmd_result.exit_status:
test.error("Failed to get domjobinfo and domjobinfo "
"--completed: %s" % cmd_result.stderr)
else:
test.error("Failed to get domjobinfo: %s" % cmd_result.stderr)
jobinfo = cmd_result.stdout
for line in jobinfo.splitlines():
key = line.split(':')[0]
if key.count("Job type"):
jobtype = line.split(':')[-1].strip()
elif key.count("Auto converge throttle"):
throttle = int(line.split(':')[-1].strip())
logging.debug("Auto converge throttle:%s", str(throttle))
if throttle and throttle not in allow_throttle_list:
test.fail("Invalid auto converge throttle "
"value '%s'" % throttle)
if throttle == 99:
logging.debug("'Auto converge throttle' reaches maximum "
"allowed value 99")
break
if jobtype == "None" or jobtype == "Completed":
logging.debug("Jobtype:%s", jobtype)
if not throttle:
test.fail("'Auto converge throttle' is "
"not found in the domjobinfo")
break
time.sleep(5)
def get_usable_compress_cache(pagesize):
"""
Get a number which is bigger than pagesize and is power of two.
:param pagesize: the given integer
:return: an integer satisfying the criteria
"""
def calculate(num):
result = num & (num - 1)
return (result == 0)
item = pagesize
found = False
while (not found):
item += 1
found = calculate(item)
logging.debug("%d is smallest one that is bigger than '%s' and "
"is power of 2", item, pagesize)
return item
def update_config_file(config_type, new_conf, remote_host=True,
params=None):
"""
Update the specified configuration file with dict
:param config_type: Like libvirtd, qemu
:param new_conf: The str including new configuration
:param remote_host: True to also update in remote host
:param params: The dict including parameters to connect remote host
:return: utils_config.LibvirtConfigCommon object
"""
logging.debug("Update configuration file")
cleanup_libvirtd_log(log_file)
config_dict = eval(new_conf)
updated_conf = libvirt.customize_libvirt_config(config_dict,
config_type=config_type,
remote_host=remote_host,
extra_params=params)
return updated_conf
def check_migration_res(result):
"""
Check if the migration result is as expected
:param result: the output of migration
:raise: test.fail if test is failed
"""
logging.info("Migration out: %s", results_stdout_52lts(result).strip())
logging.info("Migration error: %s", results_stderr_52lts(result).strip())
if status_error: # Migration should fail
if err_msg: # Special error messages are expected
if not re.search(err_msg, results_stderr_52lts(result).strip()):
test.fail("Can not find the expected patterns '%s' in "
"output '%s'" % (err_msg,
results_stderr_52lts(result).strip()))
else:
logging.debug("It is the expected error message")
else:
if int(result.exit_status) != 0:
logging.debug("Migration failure is expected result")
else:
test.fail("Migration success is unexpected result")
else:
if int(result.exit_status) != 0:
test.fail(results_stderr_52lts(result).strip())
check_parameters(test, params)
# Params for NFS shared storage
shared_storage = params.get("migrate_shared_storage", "")
if shared_storage == "":
default_guest_asset = defaults.get_default_guest_os_info()['asset']
default_guest_asset = "%s.qcow2" % default_guest_asset
shared_storage = os.path.join(params.get("nfs_mount_dir"),
default_guest_asset)
logging.debug("shared_storage:%s", shared_storage)
# params for migration connection
params["virsh_migrate_desturi"] = libvirt_vm.complete_uri(
params.get("migrate_dest_host"))
# Params to update disk using shared storage
params["disk_type"] = "file"
params["disk_source_protocol"] = "netfs"
params["mnt_path_name"] = params.get("nfs_mount_dir")
# Local variables
virsh_args = {"debug": True}
virsh_opt = params.get("virsh_opt", "")
server_ip = params.get("server_ip")
server_user = params.get("server_user", "root")
server_pwd = params.get("server_pwd")
extra = params.get("virsh_migrate_extra")
options = params.get("virsh_migrate_options")
src_uri = params.get("virsh_migrate_connect_uri")
dest_uri = params.get("virsh_migrate_desturi")
log_file = params.get("libvirt_log", "/var/log/libvirt/libvirtd.log")
check_complete_job = "yes" == params.get("check_complete_job", "no")
check_domjobinfo_results = "yes" == params.get("check_domjobinfo_results")
contrl_index = params.get("new_contrl_index", None)
asynch_migration = "yes" == params.get("asynch_migrate", "no")
grep_str_remote_log = params.get("grep_str_remote_log", "")
grep_str_local_log = params.get("grep_str_local_log", "")
disable_verify_peer = "yes" == params.get("disable_verify_peer", "no")
status_error = "yes" == params.get("status_error", "no")
stress_in_vm = "yes" == params.get("stress_in_vm", "no")
low_speed = params.get("low_speed", None)
remote_virsh_dargs = {'remote_ip': server_ip, 'remote_user': server_user,
'remote_pwd': server_pwd, 'unprivileged_user': None,
'ssh_remote_auth': True}
cmd_parms = {'server_ip': server_ip, 'server_user': server_user,
'server_pwd': server_pwd}
hpt_resize = params.get("hpt_resize", None)
htm_state = params.get("htm_state", None)
# For pty channel test
add_channel = "yes" == params.get("add_channel", "no")
channel_type_name = params.get("channel_type_name", None)
target_type = params.get("target_type", None)
target_name = params.get("target_name", None)
cmd_run_in_remote_guest = params.get("cmd_run_in_remote_guest", None)
cmd_run_in_remote_guest_1 = params.get("cmd_run_in_remote_guest_1", None)
cmd_run_in_remote_host = params.get("cmd_run_in_remote_host", None)
cmd_run_in_remote_host_1 = params.get("cmd_run_in_remote_host_1", None)
cmd_run_in_remote_host_2 = params.get("cmd_run_in_remote_host_2", None)
# For qemu command line checking
qemu_check = params.get("qemu_check", None)
xml_check_after_mig = params.get("guest_xml_check_after_mig", None)
# params for cache matrix test
cache = params.get("cache")
remove_cache = "yes" == params.get("remove_cache", "no")
err_msg = params.get("err_msg")
arch = platform.machine()
if any([hpt_resize, contrl_index, htm_state]) and 'ppc64' not in arch:
test.cancel("The case is PPC only.")
# For TLS
tls_recovery = params.get("tls_auto_recovery", "yes")
# qemu config
qemu_conf_dict = None
# libvirtd config
libvirtd_conf_dict = None
# remote shell session
remote_session = None
remote_virsh_session = None
vm = None
vm_session = None
libvirtd_conf = None
qemu_conf = None
mig_result = None
test_exception = None
is_TestError = False
is_TestFail = False
is_TestSkip = False
# Objects to be cleaned up in the end
objs_list = []
tls_obj = None
# Local variables
vm_name = params.get("migrate_main_vm")
vm = env.get_vm(vm_name)
vm.verify_alive()
# For safety reasons, we'd better back up xmlfile.
new_xml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
orig_config_xml = new_xml.copy()
if not orig_config_xml:
test.error("Backing up xmlfile failed.")
try:
# Create a remote runner for later use
runner_on_target = remote.RemoteRunner(host=server_ip,
username=server_user,
password=server_pwd)
# Change the configuration files if needed before starting guest
# For qemu.conf
if extra.count("--tls"):
# Setup TLS
tls_obj = TLSConnection(params)
if tls_recovery == "yes":
objs_list.append(tls_obj)
tls_obj.auto_recover = True
tls_obj.conn_setup()
# Setup qemu.conf
qemu_conf_dict = params.get("qemu_conf_dict")
if qemu_conf_dict:
qemu_conf = update_config_file('qemu',
qemu_conf_dict,
params=params)
# Setup libvirtd
libvirtd_conf_dict = params.get("libvirtd_conf_dict")
if libvirtd_conf_dict:
libvirtd_conf = update_config_file('libvirtd',
libvirtd_conf_dict,
params=params)
# Prepare required guest xml before starting guest
if contrl_index:
new_xml.remove_all_device_by_type('controller')
logging.debug("After removing controllers, current XML:\n%s\n", new_xml)
add_ctrls(new_xml, dev_index=contrl_index)
if add_channel:
attach_channel_xml()
if hpt_resize:
set_feature(new_xml, 'hpt', hpt_resize)
if htm_state:
set_feature(new_xml, 'htm', htm_state)
if cache:
params["driver_cache"] = cache
if remove_cache:
params["enable_cache"] = "no"
# Change the disk of the vm to shared disk and then start VM
libvirt.set_vm_disk(vm, params)
if not vm.is_alive():
vm.start()
logging.debug("Guest xml after starting:\n%s", vm_xml.VMXML.new_from_dumpxml(vm_name))
# Check qemu command line after guest is started
if qemu_check:
check_content = qemu_check
if hpt_resize:
check_content = "%s%s" % (qemu_check, hpt_resize)
if htm_state:
check_content = "%s%s" % (qemu_check, htm_state)
libvirt.check_qemu_cmd_line(check_content)
# Check local guest network connection before migration
vm_session = vm.wait_for_login()
check_vm_network_accessed()
# Preparation for the running guest before migration
if hpt_resize and hpt_resize != 'disabled':
trigger_hpt_resize(vm_session)
if stress_in_vm:
pkg_name = 'stress'
logging.debug("Check if stress tool is installed")
pkg_mgr = utils_package.package_manager(vm_session, pkg_name)
if not pkg_mgr.is_installed(pkg_name):
logging.debug("Stress tool will be installed")
if not pkg_mgr.install():
test.error("Package '%s' installation fails" % pkg_name)
stress_thread = threading.Thread(target=run_stress_in_vm,
args=())
stress_thread.start()
if extra.count("timeout-postcopy"):
func_name = check_timeout_postcopy
if params.get("actions_during_migration"):
func_name = do_actions_during_migrate
if extra.count("comp-xbzrle-cache"):
cache = get_usable_compress_cache(memory.get_page_size())
extra = "%s %s" % (extra, cache)
# For --postcopy enable
postcopy_options = params.get("postcopy_options")
if postcopy_options:
extra = "%s %s" % (extra, postcopy_options)
if low_speed:
control_migrate_speed(int(low_speed))
if postcopy_options and libvirt_version.version_compare(5, 0, 0):
control_migrate_speed(int(low_speed), opts=postcopy_options)
# Execute migration process
if not asynch_migration:
mig_result = do_migration(vm, dest_uri, options, extra)
else:
migration_test = libvirt.MigrationTest()
logging.debug("vm.connect_uri=%s", vm.connect_uri)
vms = [vm]
try:
migration_test.do_migration(vms, None, dest_uri, 'orderly',
options, thread_timeout=900,
ignore_status=True, virsh_opt=virsh_opt,
func=func_name, extra_opts=extra,
func_params=params)
mig_result = migration_test.ret
except exceptions.TestFail as fail_detail:
test.fail(fail_detail)
except exceptions.TestSkipError as skip_detail:
test.cancel(skip_detail)
except exceptions.TestError as error_detail:
test.error(error_detail)
except Exception as details:
mig_result = migration_test.ret
logging.error(details)
check_migration_res(mig_result)
if add_channel:
# Get the channel device source path of remote guest
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
file_path = tempfile.mktemp(dir=data_dir.get_tmp_dir())
remote_virsh_session.dumpxml(vm_name, to_file=file_path,
debug=True,
ignore_status=True)
local_vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name)
local_vmxml.xmltreefile = xml_utils.XMLTreeFile(file_path)
for elem in local_vmxml.devices.by_device_tag('channel'):
logging.debug("Found channel device {}".format(elem))
if elem.type_name == channel_type_name:
host_source = elem.source.get('path')
logging.debug("Remote guest uses {} for channel device".format(host_source))
break
remote_virsh_session.close_session()
if not host_source:
test.fail("Can not find source for %s channel on remote host" % channel_type_name)
# Prepare to wait for message on remote host from the channel
cmd_result = remote.run_remote_cmd(cmd_run_in_remote_host % host_source,
cmd_parms,
runner_on_target)
# Send message from remote guest to the channel file
remote_vm_obj = utils_test.RemoteVMManager(cmd_parms)
vm_ip = vm.get_address()
vm_pwd = params.get("password")
remote_vm_obj.setup_ssh_auth(vm_ip, vm_pwd)
cmd_result = remote_vm_obj.run_command(vm_ip, cmd_run_in_remote_guest_1)
remote_vm_obj.run_command(vm_ip, cmd_run_in_remote_guest % results_stdout_52lts(cmd_result).strip())
logging.debug("Sending message is done")
# Check message on remote host from the channel
remote.run_remote_cmd(cmd_run_in_remote_host_1, cmd_parms, runner_on_target)
logging.debug("Receiving message is done")
remote.run_remote_cmd(cmd_run_in_remote_host_2, cmd_parms, runner_on_target)
if check_complete_job:
opts = " --completed"
check_virsh_command_and_option("domjobinfo", opts)
if extra.count("comp-xbzrle-cache"):
params.update({'compare_to_value': cache // 1024})
check_domjobinfo(params, option=opts)
if check_domjobinfo_results:
check_domjobinfo_output(option=opts, is_mig_compelete=True)
if grep_str_local_log:
cmd = "grep -E '%s' %s" % (grep_str_local_log, log_file)
cmdRes = process.run(cmd, shell=True, ignore_status=True)
if cmdRes.exit_status:
test.fail(results_stderr_52lts(cmdRes).strip())
if grep_str_remote_log:
cmd = "grep -E '%s' %s" % (grep_str_remote_log, log_file)
remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
if xml_check_after_mig:
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
target_guest_dumpxml = results_stdout_52lts(
remote_virsh_session.dumpxml(vm_name,
debug=True,
ignore_status=True)).strip()
if hpt_resize:
check_str = hpt_resize
elif htm_state:
check_str = htm_state
if hpt_resize or htm_state:
xml_check_after_mig = "%s'%s'" % (xml_check_after_mig, check_str)
if not re.search(xml_check_after_mig, target_guest_dumpxml):
remote_virsh_session.close_session()
test.fail("Fail to search '%s' in target guest XML:\n%s"
% (xml_check_after_mig, target_guest_dumpxml))
if contrl_index:
all_ctrls = re.findall(xml_check_after_mig, target_guest_dumpxml)
if len(all_ctrls) != int(contrl_index) + 1:
remote_virsh_session.close_session()
test.fail("%s pci-root controllers are expected in guest XML, "
"but found %s" % (int(contrl_index) + 1, len(all_ctrls)))
remote_virsh_session.close_session()
if int(mig_result.exit_status) == 0:
server_session = remote.wait_for_login('ssh', server_ip, '22',
server_user, server_pwd,
r"[\#\$]\s*$")
check_vm_network_accessed(server_session)
server_session.close()
except exceptions.TestFail as details:
is_TestFail = True
test_exception = details
except exceptions.TestSkipError as details:
is_TestSkip = True
test_exception = details
except exceptions.TestError as details:
is_TestError = True
test_exception = details
except Exception as details:
test_exception = details
finally:
logging.debug("Recover test environment")
try:
# Clean VM on destination
vm.connect_uri = dest_uri
cleanup_dest(vm)
vm.connect_uri = src_uri
logging.info("Recovery VM XML configration")
orig_config_xml.sync()
logging.debug("The current VM XML:\n%s", orig_config_xml.xmltreefile)
if remote_virsh_session:
remote_virsh_session.close_session()
if remote_session:
remote_session.close()
# Delete files on target
# Killing qemu process on target may lead a problem like
# qemu process becomes a zombie process whose ppid is 1.
# As a workaround, have to remove the files under
# /var/run/libvirt/qemu to make libvirt work.
if vm.is_qemu():
dest_pid_files = os.path.join("/var/run/libvirt/qemu",
vm_name + '*')
cmd = "rm -f %s" % dest_pid_files
logging.debug("Delete remote pid files '%s'", dest_pid_files)
remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
if extra.count("--tls") and not disable_verify_peer:
logging.debug("Recover the qemu configuration")
libvirt.customize_libvirt_config(None,
config_type="qemu",
remote_host=True,
extra_params=params,
is_recover=True,
config_object=qemu_conf)
for update_conf in [libvirtd_conf, qemu_conf]:
if update_conf:
logging.debug("Recover the configurations")
libvirt.customize_libvirt_config(None,
remote_host=True,
extra_params=params,
is_recover=True,
config_object=update_conf)
logging.info("Remove local NFS image")
source_file = params.get("source_file")
libvirt.delete_local_disk("file", path=source_file)
if objs_list:
for obj in objs_list:
logging.debug("Clean up local objs")
del obj
except Exception as exception_detail:
if (not test_exception and not is_TestError and
not is_TestFail and not is_TestSkip):
raise exception_detail
else:
# if any of above exceptions has been raised, only print
# error log here to avoid of hiding the original issue
logging.error(exception_detail)
# Check result
if is_TestFail:
test.fail(test_exception)
if is_TestSkip:
test.cancel(test_exception)
if is_TestError:
test.error(test_exception)
if not test_exception:
logging.info("Case execution is done.")
else:
test.error(test_exception)
def run(test, params, env):
"""
Test virsh migrate command.
"""
def set_feature(vmxml, feature, value):
"""
Set guest features for PPC
:param state: the htm status
:param vmxml: guest xml
"""
features_xml = vm_xml.VMFeaturesXML()
if feature == 'hpt':
features_xml.hpt_resizing = value
elif feature == 'htm':
features_xml.htm = value
vmxml.features = features_xml
vmxml.sync()
def trigger_hpt_resize(session):
"""
Check the HPT order file and dmesg
:param session: the session to guest
:raise: test.fail if required message is not found
"""
hpt_order_path = "/sys/kernel/debug/powerpc/hpt_order"
hpt_order = session.cmd_output('cat %s' % hpt_order_path).strip()
hpt_order = int(hpt_order)
logging.info('Current hpt_order is %d', hpt_order)
hpt_order += 1
cmd = 'echo %d > %s' % (hpt_order, hpt_order_path)
cmd_result = session.cmd_status_output(cmd)
result = process.CmdResult(stderr=cmd_result[1],
stdout=cmd_result[1],
exit_status=cmd_result[0])
libvirt.check_exit_status(result)
dmesg = session.cmd('dmesg')
dmesg_content = params.get('dmesg_content').split('|')
for content in dmesg_content:
if content % hpt_order not in dmesg:
test.fail("'%s' is missing in dmesg" % (content % hpt_order))
else:
logging.info("'%s' is found in dmesg", content % hpt_order)
def check_vm_network_accessed(session=None):
"""
The operations to the VM need to be done before or after
migration happens
:param session: The session object to the host
:raise: test.error when ping fails
"""
# Confirm local/remote VM can be accessed through network.
logging.info("Check VM network connectivity")
s_ping, _ = utils_test.ping(vm.get_address(),
count=10,
timeout=20,
output_func=logging.debug,
session=session)
if s_ping != 0:
if session:
session.close()
test.fail("%s did not respond after %d sec." % (vm.name, 20))
def check_virsh_command_and_option(command, option=None):
"""
Check if virsh command exists
:param command: the command to be checked
:param option: the command option to be checked
"""
msg = "This version of libvirt does not support "
if not virsh.has_help_command(command):
test.cancel(msg + "virsh command '%s'" % command)
if option and not virsh.has_command_help_match(command, option):
test.cancel(msg + "virsh command '%s' with option '%s'" %
(command, option))
def add_ctrls(vm_xml, dev_type="pci", dev_index="0", dev_model="pci-root"):
"""
Add multiple devices
:param dev_type: the type of the device to be added
:param dev_index: the maximum index of the device to be added
:param dev_model: the model of the device to be added
"""
for inx in range(0, int(dev_index) + 1):
newcontroller = Controller("controller")
newcontroller.type = dev_type
newcontroller.index = inx
newcontroller.model = dev_model
logging.debug("New device is added:\n%s", newcontroller)
vm_xml.add_device(newcontroller)
vm_xml.sync()
def do_migration(vm, dest_uri, options, extra):
"""
Execute the migration with given parameters
:param vm: the guest to be migrated
:param dest_uri: the destination uri for migration
:param options: options next to 'migrate' command
:param extra: options in the end of the migrate command line
:return: CmdResult object
"""
logging.info("Sleeping 10 seconds before migration")
time.sleep(10)
# Migrate the guest.
virsh_args.update({"ignore_status": True})
migration_res = vm.migrate(dest_uri, options, extra, **virsh_args)
if int(migration_res.exit_status) != 0:
logging.error("Migration failed for %s.", vm_name)
return migration_res
if vm.is_alive(): # vm.connect_uri was updated
logging.info("VM is alive on destination %s.", dest_uri)
else:
test.fail("VM is not alive on destination %s" % dest_uri)
# Throws exception if console shows panic message
vm.verify_kernel_crash()
return migration_res
def cleanup_libvirtd_log(log_file):
"""
Remove existing libvirtd log file on source and target host.
:param log_file: log file with absolute path
"""
if os.path.exists(log_file):
logging.debug("Delete local libvirt log file '%s'", log_file)
os.remove(log_file)
cmd = "rm -f %s" % log_file
logging.debug("Delete remote libvirt log file '%s'", log_file)
cmd_parms = {
'server_ip': server_ip,
'server_user': server_user,
'server_pwd': server_pwd
}
remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
def cleanup_dest(vm):
"""
Clean up the destination host environment
when doing the uni-direction migration.
:param vm: the guest to be cleaned up
"""
logging.info("Cleaning up VMs on %s", vm.connect_uri)
try:
if virsh.domain_exists(vm.name, uri=vm.connect_uri):
vm_state = vm.state()
if vm_state == "paused":
vm.resume()
elif vm_state == "shut off":
vm.start()
vm.destroy(gracefully=False)
if vm.is_persistent():
vm.undefine()
except Exception as detail:
logging.error("Cleaning up destination failed.\n%s", detail)
def run_stress_in_vm():
"""
The function to load stress in VM
"""
stress_args = params.get(
"stress_args", "--cpu 8 --io 4 "
"--vm 2 --vm-bytes 128M "
"--timeout 20s")
try:
vm_session.cmd('stress %s' % stress_args)
except Exception as detail:
logging.debug(detail)
def control_migrate_speed(to_speed=1):
"""
Control migration duration
:param to_speed: the speed value in Mbps to be set for migration
:return int: the new migration speed after setting
"""
virsh_args.update({"ignore_status": False})
old_speed = virsh.migrate_getspeed(vm_name, **virsh_args)
logging.debug("Current migration speed is %s MiB/s\n",
old_speed.stdout.strip())
logging.debug("Set migration speed to %d MiB/s\n", to_speed)
cmd_result = virsh.migrate_setspeed(vm_name, to_speed, "",
**virsh_args)
actual_speed = virsh.migrate_getspeed(vm_name, **virsh_args)
logging.debug("New migration speed is %s MiB/s\n",
actual_speed.stdout.strip())
return int(actual_speed.stdout.strip())
def check_setspeed(params):
"""
Set/get migration speed
:param params: the parameters used
:raise: test.fail if speed set does not take effect
"""
expected_value = int(params.get("migrate_speed",
'41943040')) // (1024 * 1024)
actual_value = control_migrate_speed(to_speed=expected_value)
params.update({'compare_to_value': actual_value})
if actual_value != expected_value:
test.fail(
"Migration speed is expected to be '%d MiB/s', but '%d MiB/s' "
"found" % (expected_value, actual_value))
def check_domjobinfo(params, option=""):
"""
Check given item in domjobinfo of the guest is as expected
:param params: the parameters used
:param option: options for domjobinfo
:raise: test.fail if the value of given item is unexpected
"""
def search_jobinfo(jobinfo):
"""
Find value of given item in domjobinfo
:param jobinfo: cmdResult object
:raise: test.fail if not found
"""
for item in jobinfo.stdout.splitlines():
if item.count(jobinfo_item):
groups = re.findall(r'[0-9.]+', item.strip())
logging.debug("In '%s' search '%s'\n", item, groups[0])
if (math.fabs(float(groups[0]) - float(compare_to_value))
// float(compare_to_value) > diff_rate):
test.fail("{} {} has too much difference from "
"{}".format(jobinfo_item, groups[0],
compare_to_value))
break
jobinfo_item = params.get("jobinfo_item")
compare_to_value = params.get("compare_to_value")
logging.debug("compare_to_value:%s", compare_to_value)
diff_rate = float(params.get("diff_rate", "0"))
if not jobinfo_item or not compare_to_value:
return
vm_ref = '{}{}'.format(vm_name, option)
jobinfo = virsh.domjobinfo(vm_ref, **virsh_args)
search_jobinfo(jobinfo)
check_domjobinfo_remote = params.get("check_domjobinfo_remote")
if check_domjobinfo_remote:
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
jobinfo = remote_virsh_session.domjobinfo(vm_ref, **virsh_args)
search_jobinfo(jobinfo)
remote_virsh_session.close_session()
def check_maxdowntime(params):
"""
Set/get migration maxdowntime
:param params: the parameters used
:raise: test.fail if maxdowntime set does not take effect
"""
expected_value = int(
float(params.get("migrate_maxdowntime", '0.3')) * 1000)
virsh_args.update({"ignore_status": False})
old_value = int(virsh.migrate_getmaxdowntime(vm_name).stdout.strip())
logging.debug("Current migration maxdowntime is %d ms", old_value)
logging.debug("Set migration maxdowntime to %d ms", expected_value)
virsh.migrate_setmaxdowntime(vm_name, expected_value, **virsh_args)
actual_value = int(
virsh.migrate_getmaxdowntime(vm_name).stdout.strip())
logging.debug("New migration maxdowntime is %d ms", actual_value)
if actual_value != expected_value:
test.fail(
"Migration maxdowntime is expected to be '%d ms', but '%d ms' "
"found" % (expected_value, actual_value))
params.update({'compare_to_value': actual_value})
def do_actions_during_migrate(params):
"""
The entry point to execute action list during migration
:param params: the parameters used
"""
actions_during_migration = params.get("actions_during_migration")
if not actions_during_migration:
return
for action in actions_during_migration.split(","):
if action == 'setspeed':
check_setspeed(params)
elif action == 'domjobinfo':
check_domjobinfo(params)
elif action == 'setmaxdowntime':
check_maxdowntime(params)
time.sleep(3)
def attach_channel_xml():
"""
Create channel xml and attach it to guest configuration
"""
# Check if pty channel exists already
for elem in new_xml.devices.by_device_tag('channel'):
if elem.type_name == channel_type_name:
logging.debug(
"{0} channel already exists in guest. "
"No need to add new one".format(channel_type_name))
return
params = {
'channel_type_name': channel_type_name,
'target_type': target_type,
'target_name': target_name
}
channel_xml = libvirt.create_channel_xml(params)
virsh.attach_device(domain_opt=vm_name,
file_opt=channel_xml.xml,
flagstr="--config",
ignore_status=False)
logging.debug("New VMXML with channel:\n%s", virsh.dumpxml(vm_name))
def check_timeout_postcopy(params):
"""
Check the vm state on target host after timeout
when --postcopy and --timeout-postcopy are used.
The vm state is expected as running.
:param params: the parameters used
"""
timeout = int(params.get("timeout_postcopy", 10))
time.sleep(timeout + 1)
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
vm_state = results_stdout_52lts(
remote_virsh_session.domstate(vm_name)).strip()
if vm_state != "running":
remote_virsh_session.close_session()
test.fail(
"After timeout '%s' seconds, "
"the vm state on target host should "
"be 'running', but '%s' found", timeout, vm_state)
remote_virsh_session.close_session()
def get_usable_compress_cache(pagesize):
"""
Get a number which is bigger than pagesize and is power of two.
:param pagesize: the given integer
:return: an integer satisfying the criteria
"""
def calculate(num):
result = num & (num - 1)
return (result == 0)
item = pagesize
found = False
while (not found):
item += 1
found = calculate(item)
logging.debug(
"%d is smallest one that is bigger than '%s' and "
"is power of 2", item, pagesize)
return item
def check_migration_res(result):
"""
Check if the migration result is as expected
:param result: the output of migration
:raise: test.fail if test is failed
"""
logging.info("Migration out: %s", results_stdout_52lts(result).strip())
logging.info("Migration error: %s",
results_stderr_52lts(result).strip())
if status_error: # Migration should fail
if err_msg: # Special error messages are expected
if not re.search(err_msg,
results_stderr_52lts(result).strip()):
test.fail("Can not find the expected patterns '%s' in "
"output '%s'" %
(err_msg, results_stderr_52lts(result).strip()))
else:
logging.debug("It is the expected error message")
else:
if int(result.exit_status) != 0:
logging.debug("Migration failure is expected result")
else:
test.fail("Migration success is unexpected result")
else:
if int(result.exit_status) != 0:
test.fail(results_stderr_52lts(result).strip())
check_parameters(test, params)
# Params for NFS shared storage
shared_storage = params.get("migrate_shared_storage", "")
if shared_storage == "":
default_guest_asset = defaults.get_default_guest_os_info()['asset']
default_guest_asset = "%s.qcow2" % default_guest_asset
shared_storage = os.path.join(params.get("nfs_mount_dir"),
default_guest_asset)
logging.debug("shared_storage:%s", shared_storage)
# params for migration connection
params["virsh_migrate_desturi"] = libvirt_vm.complete_uri(
params.get("migrate_dest_host"))
# Params to update disk using shared storage
params["disk_type"] = "file"
params["disk_source_protocol"] = "netfs"
params["mnt_path_name"] = params.get("nfs_mount_dir")
# Local variables
virsh_args = {"debug": True}
virsh_opt = params.get("virsh_opt", "")
server_ip = params.get("server_ip")
server_user = params.get("server_user", "root")
server_pwd = params.get("server_pwd")
extra = params.get("virsh_migrate_extra")
options = params.get("virsh_migrate_options")
src_uri = params.get("virsh_migrate_connect_uri")
dest_uri = params.get("virsh_migrate_desturi")
log_file = params.get("libvirt_log", "/var/log/libvirt/libvirtd.log")
check_complete_job = "yes" == params.get("check_complete_job", "no")
config_libvirtd = "yes" == params.get("config_libvirtd", "no")
contrl_index = params.get("new_contrl_index", None)
asynch_migration = "yes" == params.get("asynch_migrate", "no")
grep_str_remote_log = params.get("grep_str_remote_log", "")
grep_str_local_log = params.get("grep_str_local_log", "")
disable_verify_peer = "yes" == params.get("disable_verify_peer", "no")
status_error = "yes" == params.get("status_error", "no")
stress_in_vm = "yes" == params.get("stress_in_vm", "no")
low_speed = params.get("low_speed", None)
remote_virsh_dargs = {
'remote_ip': server_ip,
'remote_user': server_user,
'remote_pwd': server_pwd,
'unprivileged_user': None,
'ssh_remote_auth': True
}
hpt_resize = params.get("hpt_resize", None)
htm_state = params.get("htm_state", None)
# For pty channel test
add_channel = "yes" == params.get("add_channel", "no")
channel_type_name = params.get("channel_type_name", None)
target_type = params.get("target_type", None)
target_name = params.get("target_name", None)
cmd_run_in_remote_guest = params.get("cmd_run_in_remote_guest", None)
cmd_run_in_remote_guest_1 = params.get("cmd_run_in_remote_guest_1", None)
cmd_run_in_remote_host = params.get("cmd_run_in_remote_host", None)
cmd_run_in_remote_host_1 = params.get("cmd_run_in_remote_host_1", None)
cmd_run_in_remote_host_2 = params.get("cmd_run_in_remote_host_2", None)
# For qemu command line checking
qemu_check = params.get("qemu_check", None)
xml_check_after_mig = params.get("guest_xml_check_after_mig", None)
# params for cache matrix test
cache = params.get("cache")
remove_cache = "yes" == params.get("remove_cache", "no")
err_msg = params.get("err_msg")
arch = platform.machine()
if any([hpt_resize, contrl_index, htm_state]) and 'ppc64' not in arch:
test.cancel("The case is PPC only.")
# For TLS
tls_recovery = params.get("tls_auto_recovery", "yes")
# qemu config
qemu_conf_dict = None
# libvirtd config
libvirtd_conf_dict = None
remote_virsh_session = None
vm = None
vm_session = None
libvirtd_conf = None
qemu_conf = None
mig_result = None
test_exception = None
is_TestError = False
is_TestFail = False
is_TestSkip = False
# Objects to be cleaned up in the end
objs_list = []
tls_obj = None
# Local variables
vm_name = params.get("migrate_main_vm")
vm = env.get_vm(vm_name)
vm.verify_alive()
# For safety reasons, we'd better back up xmlfile.
new_xml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
orig_config_xml = new_xml.copy()
if not orig_config_xml:
test.error("Backing up xmlfile failed.")
try:
# Create a remote runner for later use
runner_on_target = remote.RemoteRunner(host=server_ip,
username=server_user,
password=server_pwd)
# Change the configuration files if needed before starting guest
# For qemu.conf
if extra.count("--tls"):
# Setup TLS
tls_obj = TLSConnection(params)
if tls_recovery == "yes":
objs_list.append(tls_obj)
tls_obj.auto_recover = True
tls_obj.conn_setup()
if not disable_verify_peer:
qemu_conf_dict = {"migrate_tls_x509_verify": "1"}
# Setup qemu configure
logging.debug("Configure the qemu")
cleanup_libvirtd_log(log_file)
qemu_conf = libvirt.customize_libvirt_config(
qemu_conf_dict,
config_type="qemu",
remote_host=True,
extra_params=params)
# Setup libvirtd
if config_libvirtd:
logging.debug("Configure the libvirtd")
cleanup_libvirtd_log(log_file)
libvirtd_conf_dict = setup_libvirtd_conf_dict(params)
libvirtd_conf = libvirt.customize_libvirt_config(
libvirtd_conf_dict, remote_host=True, extra_params=params)
# Prepare required guest xml before starting guest
if contrl_index:
new_xml.remove_all_device_by_type('controller')
logging.debug("After removing controllers, current XML:\n%s\n",
new_xml)
add_ctrls(new_xml, dev_index=contrl_index)
if add_channel:
attach_channel_xml()
if hpt_resize:
set_feature(new_xml, 'hpt', hpt_resize)
if htm_state:
set_feature(new_xml, 'htm', htm_state)
if cache:
params["driver_cache"] = cache
if remove_cache:
params["enable_cache"] = "no"
# Change the disk of the vm to shared disk and then start VM
libvirt.set_vm_disk(vm, params)
if not vm.is_alive():
vm.start()
logging.debug("Guest xml after starting:\n%s",
vm_xml.VMXML.new_from_dumpxml(vm_name))
# Check qemu command line after guest is started
if qemu_check:
check_content = qemu_check
if hpt_resize:
check_content = "%s%s" % (qemu_check, hpt_resize)
if htm_state:
check_content = "%s%s" % (qemu_check, htm_state)
libvirt.check_qemu_cmd_line(check_content)
# Check local guest network connection before migration
vm_session = vm.wait_for_login()
check_vm_network_accessed()
# Preparation for the running guest before migration
if hpt_resize and hpt_resize != 'disabled':
trigger_hpt_resize(vm_session)
if low_speed:
control_migrate_speed(int(low_speed))
if stress_in_vm:
pkg_name = 'stress'
logging.debug("Check if stress tool is installed")
pkg_mgr = utils_package.package_manager(vm_session, pkg_name)
if not pkg_mgr.is_installed(pkg_name):
logging.debug("Stress tool will be installed")
if not pkg_mgr.install():
test.error("Package '%s' installation fails" % pkg_name)
stress_thread = threading.Thread(target=run_stress_in_vm, args=())
stress_thread.start()
if extra.count("timeout-postcopy"):
func_name = check_timeout_postcopy
if params.get("actions_during_migration"):
func_name = do_actions_during_migrate
if extra.count("comp-xbzrle-cache"):
cache = get_usable_compress_cache(memory.get_page_size())
extra = "%s %s" % (extra, cache)
# For --postcopy enable
postcopy_options = params.get("postcopy_options")
if postcopy_options:
extra = "%s %s" % (extra, postcopy_options)
# Execute migration process
if not asynch_migration:
mig_result = do_migration(vm, dest_uri, options, extra)
else:
migration_test = libvirt.MigrationTest()
logging.debug("vm.connect_uri=%s", vm.connect_uri)
vms = [vm]
try:
migration_test.do_migration(vms,
None,
dest_uri,
'orderly',
options,
thread_timeout=900,
ignore_status=True,
virsh_opt=virsh_opt,
func=func_name,
extra_opts=extra,
func_params=params)
mig_result = migration_test.ret
except exceptions.TestFail as fail_detail:
test.fail(fail_detail)
except exceptions.TestSkipError as skip_detail:
test.cancel(skip_detail)
except exceptions.TestError as error_detail:
test.error(error_detail)
except Exception as details:
mig_result = migration_test.ret
logging.error(details)
check_migration_res(mig_result)
if add_channel:
# Get the channel device source path of remote guest
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(
**remote_virsh_dargs)
file_path = tempfile.mktemp(dir=data_dir.get_tmp_dir())
remote_virsh_session.dumpxml(vm_name,
to_file=file_path,
debug=True,
ignore_status=True)
local_vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name)
local_vmxml.xmltreefile = xml_utils.XMLTreeFile(file_path)
for elem in local_vmxml.devices.by_device_tag('channel'):
logging.debug("Found channel device {}".format(elem))
if elem.type_name == channel_type_name:
host_source = elem.source.get('path')
logging.debug(
"Remote guest uses {} for channel device".format(
host_source))
break
remote_virsh_session.close_session()
if not host_source:
test.fail("Can not find source for %s channel on remote host" %
channel_type_name)
# Prepare to wait for message on remote host from the channel
cmd_parms = {
'server_ip': server_ip,
'server_user': server_user,
'server_pwd': server_pwd
}
cmd_result = remote.run_remote_cmd(
cmd_run_in_remote_host % host_source, cmd_parms,
runner_on_target)
# Send message from remote guest to the channel file
remote_vm_obj = utils_test.RemoteVMManager(cmd_parms)
vm_ip = vm.get_address()
vm_pwd = params.get("password")
remote_vm_obj.setup_ssh_auth(vm_ip, vm_pwd)
cmd_result = remote_vm_obj.run_command(vm_ip,
cmd_run_in_remote_guest_1)
remote_vm_obj.run_command(
vm_ip, cmd_run_in_remote_guest %
results_stdout_52lts(cmd_result).strip())
logging.debug("Sending message is done")
# Check message on remote host from the channel
remote.run_remote_cmd(cmd_run_in_remote_host_1, cmd_parms,
runner_on_target)
logging.debug("Receiving message is done")
remote.run_remote_cmd(cmd_run_in_remote_host_2, cmd_parms,
runner_on_target)
if check_complete_job:
opts = " --completed"
check_virsh_command_and_option("domjobinfo", opts)
if extra.count("comp-xbzrle-cache"):
params.update({'compare_to_value': cache // 1024})
check_domjobinfo(params, option=opts)
if grep_str_local_log:
cmd = "grep -E '%s' %s" % (grep_str_local_log, log_file)
cmdRes = process.run(cmd, shell=True, ignore_status=True)
if cmdRes.exit_status:
test.fail(results_stderr_52lts(cmdRes).strip())
if grep_str_remote_log:
cmd = "grep -E '%s' %s" % (grep_str_remote_log, log_file)
cmd_parms = {
'server_ip': server_ip,
'server_user': server_user,
'server_pwd': server_pwd
}
remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
if xml_check_after_mig:
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(
**remote_virsh_dargs)
target_guest_dumpxml = results_stdout_52lts(
remote_virsh_session.dumpxml(vm_name,
debug=True,
ignore_status=True)).strip()
if hpt_resize:
check_str = hpt_resize
elif htm_state:
check_str = htm_state
if hpt_resize or htm_state:
xml_check_after_mig = "%s'%s'" % (xml_check_after_mig,
check_str)
if not re.search(xml_check_after_mig, target_guest_dumpxml):
remote_virsh_session.close_session()
test.fail("Fail to search '%s' in target guest XML:\n%s" %
(xml_check_after_mig, target_guest_dumpxml))
if contrl_index:
all_ctrls = re.findall(xml_check_after_mig,
target_guest_dumpxml)
if len(all_ctrls) != int(contrl_index) + 1:
remote_virsh_session.close_session()
test.fail(
"%s pci-root controllers are expected in guest XML, "
"but found %s" %
(int(contrl_index) + 1, len(all_ctrls)))
remote_virsh_session.close_session()
if int(mig_result.exit_status) == 0:
server_session = remote.wait_for_login('ssh', server_ip, '22',
server_user, server_pwd,
r"[\#\$]\s*$")
check_vm_network_accessed(server_session)
server_session.close()
except exceptions.TestFail as details:
is_TestFail = True
test_exception = details
except exceptions.TestSkipError as details:
is_TestSkip = True
test_exception = details
except exceptions.TestError as details:
is_TestError = True
test_exception = details
except Exception as details:
test_exception = details
finally:
logging.debug("Recover test environment")
try:
# Clean VM on destination
vm.connect_uri = dest_uri
cleanup_dest(vm)
vm.connect_uri = src_uri
logging.info("Recovery VM XML configration")
orig_config_xml.sync()
logging.debug("The current VM XML:\n%s",
orig_config_xml.xmltreefile)
if remote_virsh_session:
remote_virsh_session.close_session()
if extra.count("--tls") and not disable_verify_peer:
logging.debug("Recover the qemu configuration")
libvirt.customize_libvirt_config(None,
config_type="qemu",
remote_host=True,
extra_params=params,
is_recover=True,
config_object=qemu_conf)
if config_libvirtd:
logging.debug("Recover the libvirtd configuration")
libvirt.customize_libvirt_config(None,
remote_host=True,
extra_params=params,
is_recover=True,
config_object=libvirtd_conf)
logging.info("Remove local NFS image")
source_file = params.get("source_file")
libvirt.delete_local_disk("file", path=source_file)
if objs_list:
for obj in objs_list:
logging.debug("Clean up local objs")
del obj
except Exception as exception_detail:
if (not test_exception and not is_TestError and not is_TestFail
and not is_TestSkip):
raise exception_detail
else:
# if any of above exceptions has been raised, only print
# error log here to avoid of hiding the original issue
logging.error(exception_detail)
# Check result
if is_TestFail:
test.fail(test_exception)
if is_TestSkip:
test.cancel(test_exception)
if is_TestError:
test.error(test_exception)
if not test_exception:
logging.info("Case execution is done.")
else:
test.error(test_exception)
def run(test, params, env):
def check_vm_network_accessed():
"""
The operations to the VM need to be done before migration happens
"""
# 1. Confirm local VM can be accessed through network.
logging.info("Check local VM network connectivity before migrating")
s_ping, o_ping = utils_test.ping(vm.get_address(),
count=10,
timeout=20)
logging.info(o_ping)
if s_ping != 0:
test.error("%s did not respond after %d sec." % (vm.name, 20))
def check_virsh_command_and_option(command, option=None):
"""
Check if virsh command exists
:param command: the command to be checked
:param option: the command option to be checked
"""
msg = "This version of libvirt does not support "
if not virsh.has_help_command(command):
test.cancel(msg + "virsh command '%s'" % command)
if option and not virsh.has_command_help_match(command, option):
test.cancel(msg + "virsh command '%s' with option '%s'" %
(command, option))
def do_migration(vm, dest_uri, options, extra):
"""
Execute the migration with given parameters
:param vm: the guest to be migrated
:param dest_uri: the destination uri for migration
:param options: options next to 'migrate' command
:param extra: options in the end of the migrate command line
:return: CmdResult object
"""
logging.info("Sleeping 10 seconds before migration")
time.sleep(10)
# Migrate the guest.
migration_res = vm.migrate(dest_uri, options, extra, **virsh_args)
logging.info("Migration out: %s",
results_stdout_52lts(migration_res).strip())
logging.info("Migration error: %s",
results_stderr_52lts(migration_res).strip())
if int(migration_res.exit_status) != 0:
logging.error("Migration failed for %s.", vm_name)
return migration_res
if vm.is_alive(): # vm.connect_uri was updated
logging.info("VM is alive on destination %s.", dest_uri)
else:
test.fail("VM is not alive on destination %s" % dest_uri)
# Throws exception if console shows panic message
vm.verify_kernel_crash()
return migration_res
def cleanup_libvirtd_log(log_file):
"""
Remove existing libvirtd log file on source and target host.
:param log_file: log file with absolute path
"""
if os.path.exists(log_file):
logging.debug("Delete local libvirt log file '%s'", log_file)
os.remove(log_file)
cmd = "rm -f %s" % log_file
logging.debug("Delete remote libvirt log file '%s'", log_file)
run_remote_cmd(cmd)
def cleanup_dest(vm):
"""
Clean up the destination host environment
when doing the uni-direction migration.
:param vm: the guest to be cleaned up
"""
logging.info("Cleaning up VMs on %s", vm.connect_uri)
try:
if virsh.domain_exists(vm.name, uri=vm.connect_uri):
vm_state = vm.state()
if vm_state == "paused":
vm.resume()
elif vm_state == "shut off":
vm.start()
vm.destroy(gracefully=False)
if vm.is_persistent():
vm.undefine()
except Exception as detail:
logging.error("Cleaning up destination failed.\n%s", detail)
def run_remote_cmd(cmd):
"""
A function to run a command on remote host.
:param cmd: the command to be executed
:return: CmdResult object
"""
remote_runner = remote.RemoteRunner(host=server_ip,
username=server_user,
password=server_pwd)
cmdResult = remote_runner.run(cmd, ignore_status=True)
if cmdResult.exit_status:
test.fail("Failed to run '%s' on remote: %s" %
(cmd, results_stderr_52lts(cmdResult).strip()))
return cmdResult
def run_stress_in_vm():
"""
The function to load stress in VM
"""
stress_args = params.get(
"stress_args", "--cpu 8 --io 4 "
"--vm 2 --vm-bytes 128M "
"--timeout 20s")
try:
vm_session.cmd('stress %s' % stress_args)
except Exception as detail:
logging.debug(detail)
def check_timeout_postcopy(params):
"""
Check the vm state on target host after timeout
when --postcopy and --timeout-postcopy are used.
The vm state is expected as running.
:param params: the parameters used
"""
timeout = int(params.get("timeout_postcopy", 10))
time.sleep(timeout + 1)
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
vm_state = results_stdout_52lts(
remote_virsh_session.domstate(vm_name)).strip()
if vm_state != "running":
remote_virsh_session.close_session()
test.fail(
"After timeout '%s' seconds, "
"the vm state on target host should "
"be 'running', but '%s' found", timeout, vm_state)
remote_virsh_session.close_session()
def get_usable_compress_cache(pagesize):
"""
Get a number which is bigger than pagesize and is power of two.
:param pagesize: the given integer
:return: an integer satisfying the criteria
"""
def calculate(num):
result = num & (num - 1)
return (result == 0)
item = pagesize
found = False
while (not found):
item += 1
found = calculate(item)
logging.debug(
"%d is smallest one that is bigger than '%s' and "
"is power of 2", item, pagesize)
return item
check_parameters(test, params)
# Params for NFS shared storage
shared_storage = params.get("migrate_shared_storage", "")
if shared_storage == "":
default_guest_asset = defaults.get_default_guest_os_info()['asset']
default_guest_asset = "%s.qcow2" % default_guest_asset
shared_storage = os.path.join(params.get("nfs_mount_dir"),
default_guest_asset)
logging.debug("shared_storage:%s", shared_storage)
# params for migration connection
params["virsh_migrate_desturi"] = libvirt_vm.complete_uri(
params.get("migrate_dest_host"))
# Params to update disk using shared storage
params["disk_type"] = "file"
params["disk_source_protocol"] = "netfs"
params["mnt_path_name"] = params.get("nfs_mount_dir")
# Local variables
virsh_args = {"ignore_status": True, "debug": True}
server_ip = params.get("server_ip")
server_user = params.get("server_user", "root")
server_pwd = params.get("server_pwd")
extra = params.get("virsh_migrate_extra")
options = params.get("virsh_migrate_options")
src_uri = params.get("virsh_migrate_connect_uri")
dest_uri = params.get("virsh_migrate_desturi")
log_file = params.get("libvirt_log", "/var/log/libvirt/libvirtd.log")
check_complete_job = "yes" == params.get("check_complete_job", "no")
config_libvirtd = "yes" == params.get("config_libvirtd", "no")
grep_str_remote_log = params.get("grep_str_remote_log", "")
grep_str_local_log = params.get("grep_str_local_log", "")
stress_in_vm = "yes" == params.get("stress_in_vm", "no")
remote_virsh_dargs = {
'remote_ip': server_ip,
'remote_user': server_user,
'remote_pwd': server_pwd,
'unprivileged_user': None,
'ssh_remote_auth': True
}
# For TLS
tls_recovery = params.get("tls_auto_recovery", "yes")
# qemu config
qemu_conf_dict = None
# libvirtd config
libvirtd_conf_dict = None
remote_virsh_session = None
vm = None
vm_session = None
libvirtd_conf = None
qemu_conf = None
mig_result = None
test_exception = None
is_TestError = False
is_TestFail = False
is_TestSkip = False
asynch_migration = False
# Objects to be cleaned up in the end
objs_list = []
tls_obj = None
# Local variables
vm_name = params.get("migrate_main_vm")
vm = env.get_vm(vm_name)
vm.verify_alive()
# For safety reasons, we'd better back up xmlfile.
orig_config_xml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
if not orig_config_xml:
test.error("Backing up xmlfile failed.")
try:
# Change the disk of the vm to shared disk
libvirt.set_vm_disk(vm, params)
if extra.count("--tls"):
qemu_conf_dict = {"migrate_tls_x509_verify": "1"}
# Setup TLS
tls_obj = TLSConnection(params)
if tls_recovery == "yes":
objs_list.append(tls_obj)
tls_obj.auto_recover = True
tls_obj.conn_setup()
# Setup qemu configure
logging.debug("Configure the qemu")
cleanup_libvirtd_log(log_file)
qemu_conf = libvirt.customize_libvirt_config(qemu_conf_dict,
config_type="qemu",
remote_host=True,
extra_params=params)
# Setup libvirtd
if config_libvirtd:
logging.debug("Configure the libvirtd")
cleanup_libvirtd_log(log_file)
libvirtd_conf_dict = setup_libvirtd_conf_dict(params)
libvirtd_conf = libvirt.customize_libvirt_config(
libvirtd_conf_dict, remote_host=True, extra_params=params)
if not vm.is_alive():
vm.start()
vm_session = vm.wait_for_login()
check_vm_network_accessed()
if stress_in_vm:
pkg_name = 'stress'
logging.debug("Check if stress tool is installed")
pkg_mgr = utils_package.package_manager(vm_session, pkg_name)
if not pkg_mgr.is_installed(pkg_name):
logging.debug("Stress tool will be installed")
if not pkg_mgr.install():
test.error("Package '%s' installation fails" % pkg_name)
stress_thread = threading.Thread(target=run_stress_in_vm, args=())
stress_thread.start()
if extra.count("timeout-postcopy"):
asynch_migration = True
func_name = check_timeout_postcopy
if extra.count("comp-xbzrle-cache"):
cache = get_usable_compress_cache(memory.get_page_size())
extra = "%s %s" % (extra, cache)
# For --postcopy enable
postcopy_options = params.get("postcopy_options")
if postcopy_options and not extra.count(postcopy_options):
extra = "%s %s" % (extra, postcopy_options)
if not asynch_migration:
mig_result = do_migration(vm, dest_uri, options, extra)
else:
migration_test = libvirt.MigrationTest()
logging.debug("vm.connect_uri=%s", vm.connect_uri)
vms = [vm]
try:
migration_test.do_migration(vms,
None,
dest_uri,
'orderly',
options,
thread_timeout=900,
ignore_status=True,
func=func_name,
extra_opts=extra,
func_params=params)
mig_result = migration_test.ret
except exceptions.TestFail as fail_detail:
test.fail(fail_detail)
except exceptions.TestSkipError as skip_detail:
test.cancel(skip_detail)
except exceptions.TestError as error_detail:
test.error(error_detail)
except Exception as details:
mig_result = migration_test.ret
logging.error(details)
if int(mig_result.exit_status) != 0:
test.fail(results_stderr_52lts(mig_result).strip())
if check_complete_job:
search_str_domjobinfo = params.get("search_str_domjobinfo", None)
opts = "--completed"
args = vm_name + " " + opts
check_virsh_command_and_option("domjobinfo", opts)
jobinfo = results_stdout_52lts(
virsh.domjobinfo(args, debug=True,
ignore_status=True)).strip()
logging.debug("Local job info on completion:\n%s", jobinfo)
if extra.count("comp-xbzrle-cache") and search_str_domjobinfo:
search_str_domjobinfo = "%s %s" % (search_str_domjobinfo,
cache // 1024)
if search_str_domjobinfo:
if not re.search(search_str_domjobinfo, jobinfo):
test.fail("Fail to search '%s' on local:\n%s" %
(search_str_domjobinfo, jobinfo))
# Check remote host
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
jobinfo = results_stdout_52lts(
remote_virsh_session.domjobinfo(args,
debug=True,
ignore_status=True)).strip()
logging.debug("Remote job info on completion:\n%s", jobinfo)
if search_str_domjobinfo:
if not re.search(search_str_domjobinfo, jobinfo):
remote_virsh_session.close_session()
test.fail("Fail to search '%s' on remote:\n%s" %
(search_str_domjobinfo, jobinfo))
remote_virsh_session.close_session()
if grep_str_local_log:
cmd = "grep -E '%s' %s" % (grep_str_local_log, log_file)
cmdRes = process.run(cmd, shell=True, ignore_status=True)
if cmdRes.exit_status:
test.fail(results_stderr_52lts(cmdRes).strip())
if grep_str_remote_log:
cmd = "grep -E '%s' %s" % (grep_str_remote_log, log_file)
run_remote_cmd(cmd)
except exceptions.TestFail as details:
is_TestFail = True
test_exception = details
except exceptions.TestSkipError as details:
is_TestSkip = True
test_exception = details
except exceptions.TestError as details:
is_TestError = True
test_exception = details
except Exception as details:
test_exception = details
finally:
logging.debug("Recover test environment")
try:
# Clean VM on destination
vm.connect_uri = dest_uri
cleanup_dest(vm)
vm.connect_uri = src_uri
logging.info("Recovery VM XML configration")
orig_config_xml.sync()
logging.debug("The current VM XML:\n%s",
orig_config_xml.xmltreefile)
if remote_virsh_session:
remote_virsh_session.close_session()
if extra.count("--tls"):
logging.debug("Recover the qemu configuration")
libvirt.customize_libvirt_config(None,
config_type="qemu",
remote_host=True,
extra_params=params,
is_recover=True,
config_object=qemu_conf)
if config_libvirtd:
logging.debug("Recover the libvirtd configuration")
libvirt.customize_libvirt_config(None,
remote_host=True,
extra_params=params,
is_recover=True,
config_object=libvirtd_conf)
logging.info("Remove local NFS image")
source_file = params.get("source_file")
libvirt.delete_local_disk("file", path=source_file)
if objs_list:
for obj in objs_list:
logging.debug("Clean up local objs")
del obj
except Exception as exception_detail:
if (not test_exception and not is_TestError and not is_TestFail
and not is_TestSkip):
raise exception_detail
else:
# if any of above exceptions has been raised, only print
# error log here to avoid of hiding the original issue
logging.error(exception_detail)
# Check result
if is_TestFail:
test.fail(test_exception)
if is_TestSkip:
test.cancel(test_exception)
if is_TestError:
test.error(test_exception)
if not test_exception:
logging.info("Case execution is done.")
else:
test.error(test_exception)
def run(test, params, env):
"""
Test virsh migrate command.
"""
def set_feature(vmxml, feature, value):
"""
Set guest features for PPC
:param state: the htm status
:param vmxml: guest xml
"""
features_xml = vm_xml.VMFeaturesXML()
if feature == 'hpt':
features_xml.hpt_resizing = value
elif feature == 'htm':
features_xml.htm = value
vmxml.features = features_xml
vmxml.sync()
def trigger_hpt_resize(session):
"""
Check the HPT order file and dmesg
:param session: the session to guest
:raise: test.fail if required message is not found
"""
hpt_order_path = "/sys/kernel/debug/powerpc/hpt_order"
hpt_order = session.cmd_output('cat %s' % hpt_order_path).strip()
hpt_order = int(hpt_order)
logging.info('Current hpt_order is %d', hpt_order)
hpt_order += 1
cmd = 'echo %d > %s' % (hpt_order, hpt_order_path)
cmd_result = session.cmd_status_output(cmd)
result = process.CmdResult(stderr=cmd_result[1],
stdout=cmd_result[1],
exit_status=cmd_result[0])
libvirt.check_exit_status(result)
dmesg = session.cmd('dmesg')
dmesg_content = params.get('dmesg_content').split('|')
for content in dmesg_content:
if content % hpt_order not in dmesg:
test.fail("'%s' is missing in dmesg" % (content % hpt_order))
else:
logging.info("'%s' is found in dmesg", content % hpt_order)
def check_vm_network_accessed(session=None):
"""
The operations to the VM need to be done before or after
migration happens
:param session: The session object to the host
:raise: test.error when ping fails
"""
# Confirm local/remote VM can be accessed through network.
logging.info("Check VM network connectivity")
s_ping, _ = utils_test.ping(vm.get_address(),
count=10,
timeout=20,
output_func=logging.debug,
session=session)
if s_ping != 0:
if session:
session.close()
test.fail("%s did not respond after %d sec." % (vm.name, 20))
def check_virsh_command_and_option(command, option=None):
"""
Check if virsh command exists
:param command: the command to be checked
:param option: the command option to be checked
"""
msg = "This version of libvirt does not support "
if not virsh.has_help_command(command):
test.cancel(msg + "virsh command '%s'" % command)
if option and not virsh.has_command_help_match(command, option):
test.cancel(msg + "virsh command '%s' with option '%s'" % (command,
option))
def add_ctrls(vm_xml, dev_type="pci", dev_index="0", dev_model="pci-root"):
"""
Add multiple devices
:param dev_type: the type of the device to be added
:param dev_index: the maximum index of the device to be added
:param dev_model: the model of the device to be added
"""
for inx in range(0, int(dev_index) + 1):
newcontroller = Controller("controller")
newcontroller.type = dev_type
newcontroller.index = inx
newcontroller.model = dev_model
logging.debug("New device is added:\n%s", newcontroller)
vm_xml.add_device(newcontroller)
vm_xml.sync()
def do_migration(vm, dest_uri, options, extra):
"""
Execute the migration with given parameters
:param vm: the guest to be migrated
:param dest_uri: the destination uri for migration
:param options: options next to 'migrate' command
:param extra: options in the end of the migrate command line
:return: CmdResult object
"""
logging.info("Sleeping 10 seconds before migration")
time.sleep(10)
# Migrate the guest.
virsh_args.update({"ignore_status": True})
migration_res = vm.migrate(dest_uri, options, extra, **virsh_args)
if int(migration_res.exit_status) != 0:
logging.error("Migration failed for %s.", vm_name)
return migration_res
if vm.is_alive(): # vm.connect_uri was updated
logging.info("VM is alive on destination %s.", dest_uri)
else:
test.fail("VM is not alive on destination %s" % dest_uri)
# Throws exception if console shows panic message
vm.verify_kernel_crash()
return migration_res
def cleanup_libvirtd_log(log_file):
"""
Remove existing libvirtd log file on source and target host.
:param log_file: log file with absolute path
"""
if os.path.exists(log_file):
logging.debug("Delete local libvirt log file '%s'", log_file)
os.remove(log_file)
cmd = "rm -f %s" % log_file
logging.debug("Delete remote libvirt log file '%s'", log_file)
cmd_parms = {'server_ip': server_ip, 'server_user': server_user, 'server_pwd': server_pwd}
remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
def cleanup_dest(vm):
"""
Clean up the destination host environment
when doing the uni-direction migration.
:param vm: the guest to be cleaned up
"""
logging.info("Cleaning up VMs on %s", vm.connect_uri)
try:
if virsh.domain_exists(vm.name, uri=vm.connect_uri):
vm_state = vm.state()
if vm_state == "paused":
vm.resume()
elif vm_state == "shut off":
vm.start()
vm.destroy(gracefully=False)
if vm.is_persistent():
vm.undefine()
except Exception as detail:
logging.error("Cleaning up destination failed.\n%s", detail)
def run_stress_in_vm():
"""
The function to load stress in VM
"""
stress_args = params.get("stress_args", "--cpu 8 --io 4 "
"--vm 2 --vm-bytes 128M "
"--timeout 20s")
try:
vm_session.cmd('stress %s' % stress_args)
except Exception as detail:
logging.debug(detail)
def control_migrate_speed(to_speed=1):
"""
Control migration duration
:param to_speed: the speed value in Mbps to be set for migration
:return int: the new migration speed after setting
"""
virsh_args.update({"ignore_status": False})
old_speed = virsh.migrate_getspeed(vm_name, **virsh_args)
logging.debug("Current migration speed is %s MiB/s\n", old_speed.stdout.strip())
logging.debug("Set migration speed to %d MiB/s\n", to_speed)
cmd_result = virsh.migrate_setspeed(vm_name, to_speed, "", **virsh_args)
actual_speed = virsh.migrate_getspeed(vm_name, **virsh_args)
logging.debug("New migration speed is %s MiB/s\n", actual_speed.stdout.strip())
return int(actual_speed.stdout.strip())
def check_setspeed(params):
"""
Set/get migration speed
:param params: the parameters used
:raise: test.fail if speed set does not take effect
"""
expected_value = int(params.get("migrate_speed", '41943040')) // (1024 * 1024)
actual_value = control_migrate_speed(to_speed=expected_value)
params.update({'compare_to_value': actual_value})
if actual_value != expected_value:
test.fail("Migration speed is expected to be '%d MiB/s', but '%d MiB/s' "
"found" % (expected_value, actual_value))
def check_domjobinfo(params, option=""):
"""
Check given item in domjobinfo of the guest is as expected
:param params: the parameters used
:param option: options for domjobinfo
:raise: test.fail if the value of given item is unexpected
"""
def search_jobinfo(jobinfo):
"""
Find value of given item in domjobinfo
:param jobinfo: cmdResult object
:raise: test.fail if not found
"""
for item in jobinfo.stdout.splitlines():
if item.count(jobinfo_item):
groups = re.findall(r'[0-9.]+', item.strip())
logging.debug("In '%s' search '%s'\n", item, groups[0])
if (math.fabs(float(groups[0]) - float(compare_to_value)) //
float(compare_to_value) > diff_rate):
test.fail("{} {} has too much difference from "
"{}".format(jobinfo_item,
groups[0],
compare_to_value))
break
jobinfo_item = params.get("jobinfo_item")
compare_to_value = params.get("compare_to_value")
logging.debug("compare_to_value:%s", compare_to_value)
diff_rate = float(params.get("diff_rate", "0"))
if not jobinfo_item or not compare_to_value:
return
vm_ref = '{}{}'.format(vm_name, option)
jobinfo = virsh.domjobinfo(vm_ref, **virsh_args)
search_jobinfo(jobinfo)
check_domjobinfo_remote = params.get("check_domjobinfo_remote")
if check_domjobinfo_remote:
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
jobinfo = remote_virsh_session.domjobinfo(vm_ref, **virsh_args)
search_jobinfo(jobinfo)
remote_virsh_session.close_session()
def check_maxdowntime(params):
"""
Set/get migration maxdowntime
:param params: the parameters used
:raise: test.fail if maxdowntime set does not take effect
"""
expected_value = int(float(params.get("migrate_maxdowntime", '0.3')) * 1000)
virsh_args.update({"ignore_status": False})
old_value = int(virsh.migrate_getmaxdowntime(vm_name).stdout.strip())
logging.debug("Current migration maxdowntime is %d ms", old_value)
logging.debug("Set migration maxdowntime to %d ms", expected_value)
virsh.migrate_setmaxdowntime(vm_name, expected_value, **virsh_args)
actual_value = int(virsh.migrate_getmaxdowntime(vm_name).stdout.strip())
logging.debug("New migration maxdowntime is %d ms", actual_value)
if actual_value != expected_value:
test.fail("Migration maxdowntime is expected to be '%d ms', but '%d ms' "
"found" % (expected_value, actual_value))
params.update({'compare_to_value': actual_value})
def do_actions_during_migrate(params):
"""
The entry point to execute action list during migration
:param params: the parameters used
"""
actions_during_migration = params.get("actions_during_migration")
if not actions_during_migration:
return
for action in actions_during_migration.split(","):
if action == 'setspeed':
check_setspeed(params)
elif action == 'domjobinfo':
check_domjobinfo(params)
elif action == 'setmaxdowntime':
check_maxdowntime(params)
time.sleep(3)
def attach_channel_xml():
"""
Create channel xml and attach it to guest configuration
"""
# Check if pty channel exists already
for elem in new_xml.devices.by_device_tag('channel'):
if elem.type_name == channel_type_name:
logging.debug("{0} channel already exists in guest. "
"No need to add new one".format(channel_type_name))
return
params = {'channel_type_name': channel_type_name,
'target_type': target_type,
'target_name': target_name}
channel_xml = libvirt.create_channel_xml(params)
virsh.attach_device(domain_opt=vm_name, file_opt=channel_xml.xml,
flagstr="--config", ignore_status=False)
logging.debug("New VMXML with channel:\n%s", virsh.dumpxml(vm_name))
def check_timeout_postcopy(params):
"""
Check the vm state on target host after timeout
when --postcopy and --timeout-postcopy are used.
The vm state is expected as running.
:param params: the parameters used
"""
timeout = int(params.get("timeout_postcopy", 10))
time.sleep(timeout + 1)
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
vm_state = results_stdout_52lts(remote_virsh_session.domstate(vm_name)).strip()
if vm_state != "running":
remote_virsh_session.close_session()
test.fail("After timeout '%s' seconds, "
"the vm state on target host should "
"be 'running', but '%s' found",
timeout, vm_state)
remote_virsh_session.close_session()
def get_usable_compress_cache(pagesize):
"""
Get a number which is bigger than pagesize and is power of two.
:param pagesize: the given integer
:return: an integer satisfying the criteria
"""
def calculate(num):
result = num & (num - 1)
return (result == 0)
item = pagesize
found = False
while (not found):
item += 1
found = calculate(item)
logging.debug("%d is smallest one that is bigger than '%s' and "
"is power of 2", item, pagesize)
return item
def check_migration_res(result):
"""
Check if the migration result is as expected
:param result: the output of migration
:raise: test.fail if test is failed
"""
logging.info("Migration out: %s", results_stdout_52lts(result).strip())
logging.info("Migration error: %s", results_stderr_52lts(result).strip())
if status_error: # Migration should fail
if err_msg: # Special error messages are expected
if not re.search(err_msg, results_stderr_52lts(result).strip()):
test.fail("Can not find the expected patterns '%s' in "
"output '%s'" % (err_msg,
results_stderr_52lts(result).strip()))
else:
logging.debug("It is the expected error message")
else:
if int(result.exit_status) != 0:
logging.debug("Migration failure is expected result")
else:
test.fail("Migration success is unexpected result")
else:
if int(result.exit_status) != 0:
test.fail(results_stderr_52lts(result).strip())
check_parameters(test, params)
# Params for NFS shared storage
shared_storage = params.get("migrate_shared_storage", "")
if shared_storage == "":
default_guest_asset = defaults.get_default_guest_os_info()['asset']
default_guest_asset = "%s.qcow2" % default_guest_asset
shared_storage = os.path.join(params.get("nfs_mount_dir"),
default_guest_asset)
logging.debug("shared_storage:%s", shared_storage)
# params for migration connection
params["virsh_migrate_desturi"] = libvirt_vm.complete_uri(
params.get("migrate_dest_host"))
# Params to update disk using shared storage
params["disk_type"] = "file"
params["disk_source_protocol"] = "netfs"
params["mnt_path_name"] = params.get("nfs_mount_dir")
# Local variables
virsh_args = {"debug": True}
virsh_opt = params.get("virsh_opt", "")
server_ip = params.get("server_ip")
server_user = params.get("server_user", "root")
server_pwd = params.get("server_pwd")
extra = params.get("virsh_migrate_extra")
options = params.get("virsh_migrate_options")
src_uri = params.get("virsh_migrate_connect_uri")
dest_uri = params.get("virsh_migrate_desturi")
log_file = params.get("libvirt_log", "/var/log/libvirt/libvirtd.log")
check_complete_job = "yes" == params.get("check_complete_job", "no")
config_libvirtd = "yes" == params.get("config_libvirtd", "no")
contrl_index = params.get("new_contrl_index", None)
asynch_migration = "yes" == params.get("asynch_migrate", "no")
grep_str_remote_log = params.get("grep_str_remote_log", "")
grep_str_local_log = params.get("grep_str_local_log", "")
disable_verify_peer = "yes" == params.get("disable_verify_peer", "no")
status_error = "yes" == params.get("status_error", "no")
stress_in_vm = "yes" == params.get("stress_in_vm", "no")
low_speed = params.get("low_speed", None)
remote_virsh_dargs = {'remote_ip': server_ip, 'remote_user': server_user,
'remote_pwd': server_pwd, 'unprivileged_user': None,
'ssh_remote_auth': True}
hpt_resize = params.get("hpt_resize", None)
htm_state = params.get("htm_state", None)
# For pty channel test
add_channel = "yes" == params.get("add_channel", "no")
channel_type_name = params.get("channel_type_name", None)
target_type = params.get("target_type", None)
target_name = params.get("target_name", None)
cmd_run_in_remote_guest = params.get("cmd_run_in_remote_guest", None)
cmd_run_in_remote_guest_1 = params.get("cmd_run_in_remote_guest_1", None)
cmd_run_in_remote_host = params.get("cmd_run_in_remote_host", None)
cmd_run_in_remote_host_1 = params.get("cmd_run_in_remote_host_1", None)
cmd_run_in_remote_host_2 = params.get("cmd_run_in_remote_host_2", None)
# For qemu command line checking
qemu_check = params.get("qemu_check", None)
xml_check_after_mig = params.get("guest_xml_check_after_mig", None)
# params for cache matrix test
cache = params.get("cache")
remove_cache = "yes" == params.get("remove_cache", "no")
err_msg = params.get("err_msg")
arch = platform.machine()
if any([hpt_resize, contrl_index, htm_state]) and 'ppc64' not in arch:
test.cancel("The case is PPC only.")
# For TLS
tls_recovery = params.get("tls_auto_recovery", "yes")
# qemu config
qemu_conf_dict = None
# libvirtd config
libvirtd_conf_dict = None
remote_virsh_session = None
vm = None
vm_session = None
libvirtd_conf = None
qemu_conf = None
mig_result = None
test_exception = None
is_TestError = False
is_TestFail = False
is_TestSkip = False
# Objects to be cleaned up in the end
objs_list = []
tls_obj = None
# Local variables
vm_name = params.get("migrate_main_vm")
vm = env.get_vm(vm_name)
vm.verify_alive()
# For safety reasons, we'd better back up xmlfile.
new_xml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
orig_config_xml = new_xml.copy()
if not orig_config_xml:
test.error("Backing up xmlfile failed.")
try:
# Create a remote runner for later use
runner_on_target = remote.RemoteRunner(host=server_ip,
username=server_user,
password=server_pwd)
# Change the configuration files if needed before starting guest
# For qemu.conf
if extra.count("--tls"):
# Setup TLS
tls_obj = TLSConnection(params)
if tls_recovery == "yes":
objs_list.append(tls_obj)
tls_obj.auto_recover = True
tls_obj.conn_setup()
if not disable_verify_peer:
qemu_conf_dict = {"migrate_tls_x509_verify": "1"}
# Setup qemu configure
logging.debug("Configure the qemu")
cleanup_libvirtd_log(log_file)
qemu_conf = libvirt.customize_libvirt_config(qemu_conf_dict,
config_type="qemu",
remote_host=True,
extra_params=params)
# Setup libvirtd
if config_libvirtd:
logging.debug("Configure the libvirtd")
cleanup_libvirtd_log(log_file)
libvirtd_conf_dict = setup_libvirtd_conf_dict(params)
libvirtd_conf = libvirt.customize_libvirt_config(libvirtd_conf_dict,
remote_host=True,
extra_params=params)
# Prepare required guest xml before starting guest
if contrl_index:
new_xml.remove_all_device_by_type('controller')
logging.debug("After removing controllers, current XML:\n%s\n", new_xml)
add_ctrls(new_xml, dev_index=contrl_index)
if add_channel:
attach_channel_xml()
if hpt_resize:
set_feature(new_xml, 'hpt', hpt_resize)
if htm_state:
set_feature(new_xml, 'htm', htm_state)
if cache:
params["driver_cache"] = cache
if remove_cache:
params["enable_cache"] = "no"
# Change the disk of the vm to shared disk and then start VM
libvirt.set_vm_disk(vm, params)
if not vm.is_alive():
vm.start()
logging.debug("Guest xml after starting:\n%s", vm_xml.VMXML.new_from_dumpxml(vm_name))
# Check qemu command line after guest is started
if qemu_check:
check_content = qemu_check
if hpt_resize:
check_content = "%s%s" % (qemu_check, hpt_resize)
if htm_state:
check_content = "%s%s" % (qemu_check, htm_state)
libvirt.check_qemu_cmd_line(check_content)
# Check local guest network connection before migration
vm_session = vm.wait_for_login()
check_vm_network_accessed()
# Preparation for the running guest before migration
if hpt_resize and hpt_resize != 'disabled':
trigger_hpt_resize(vm_session)
if low_speed:
control_migrate_speed(int(low_speed))
if stress_in_vm:
pkg_name = 'stress'
logging.debug("Check if stress tool is installed")
pkg_mgr = utils_package.package_manager(vm_session, pkg_name)
if not pkg_mgr.is_installed(pkg_name):
logging.debug("Stress tool will be installed")
if not pkg_mgr.install():
test.error("Package '%s' installation fails" % pkg_name)
stress_thread = threading.Thread(target=run_stress_in_vm,
args=())
stress_thread.start()
if extra.count("timeout-postcopy"):
func_name = check_timeout_postcopy
if params.get("actions_during_migration"):
func_name = do_actions_during_migrate
if extra.count("comp-xbzrle-cache"):
cache = get_usable_compress_cache(memory.get_page_size())
extra = "%s %s" % (extra, cache)
# For --postcopy enable
postcopy_options = params.get("postcopy_options")
if postcopy_options:
extra = "%s %s" % (extra, postcopy_options)
# Execute migration process
if not asynch_migration:
mig_result = do_migration(vm, dest_uri, options, extra)
else:
migration_test = libvirt.MigrationTest()
logging.debug("vm.connect_uri=%s", vm.connect_uri)
vms = [vm]
try:
migration_test.do_migration(vms, None, dest_uri, 'orderly',
options, thread_timeout=900,
ignore_status=True, virsh_opt=virsh_opt,
func=func_name, extra_opts=extra,
func_params=params)
mig_result = migration_test.ret
except exceptions.TestFail as fail_detail:
test.fail(fail_detail)
except exceptions.TestSkipError as skip_detail:
test.cancel(skip_detail)
except exceptions.TestError as error_detail:
test.error(error_detail)
except Exception as details:
mig_result = migration_test.ret
logging.error(details)
check_migration_res(mig_result)
if add_channel:
# Get the channel device source path of remote guest
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
file_path = tempfile.mktemp(dir=data_dir.get_tmp_dir())
remote_virsh_session.dumpxml(vm_name, to_file=file_path,
debug=True,
ignore_status=True)
local_vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name)
local_vmxml.xmltreefile = xml_utils.XMLTreeFile(file_path)
for elem in local_vmxml.devices.by_device_tag('channel'):
logging.debug("Found channel device {}".format(elem))
if elem.type_name == channel_type_name:
host_source = elem.source.get('path')
logging.debug("Remote guest uses {} for channel device".format(host_source))
break
remote_virsh_session.close_session()
if not host_source:
test.fail("Can not find source for %s channel on remote host" % channel_type_name)
# Prepare to wait for message on remote host from the channel
cmd_parms = {'server_ip': server_ip, 'server_user': server_user, 'server_pwd': server_pwd}
cmd_result = remote.run_remote_cmd(cmd_run_in_remote_host % host_source,
cmd_parms,
runner_on_target)
# Send message from remote guest to the channel file
remote_vm_obj = utils_test.RemoteVMManager(cmd_parms)
vm_ip = vm.get_address()
vm_pwd = params.get("password")
remote_vm_obj.setup_ssh_auth(vm_ip, vm_pwd)
cmd_result = remote_vm_obj.run_command(vm_ip, cmd_run_in_remote_guest_1)
remote_vm_obj.run_command(vm_ip, cmd_run_in_remote_guest % results_stdout_52lts(cmd_result).strip())
logging.debug("Sending message is done")
# Check message on remote host from the channel
remote.run_remote_cmd(cmd_run_in_remote_host_1, cmd_parms, runner_on_target)
logging.debug("Receiving message is done")
remote.run_remote_cmd(cmd_run_in_remote_host_2, cmd_parms, runner_on_target)
if check_complete_job:
opts = " --completed"
check_virsh_command_and_option("domjobinfo", opts)
if extra.count("comp-xbzrle-cache"):
params.update({'compare_to_value': cache // 1024})
check_domjobinfo(params, option=opts)
if grep_str_local_log:
cmd = "grep -E '%s' %s" % (grep_str_local_log, log_file)
cmdRes = process.run(cmd, shell=True, ignore_status=True)
if cmdRes.exit_status:
test.fail(results_stderr_52lts(cmdRes).strip())
if grep_str_remote_log:
cmd = "grep -E '%s' %s" % (grep_str_remote_log, log_file)
cmd_parms = {'server_ip': server_ip, 'server_user': server_user, 'server_pwd': server_pwd}
remote.run_remote_cmd(cmd, cmd_parms, runner_on_target)
if xml_check_after_mig:
if not remote_virsh_session:
remote_virsh_session = virsh.VirshPersistent(**remote_virsh_dargs)
target_guest_dumpxml = results_stdout_52lts(
remote_virsh_session.dumpxml(vm_name,
debug=True,
ignore_status=True)).strip()
if hpt_resize:
check_str = hpt_resize
elif htm_state:
check_str = htm_state
if hpt_resize or htm_state:
xml_check_after_mig = "%s'%s'" % (xml_check_after_mig, check_str)
if not re.search(xml_check_after_mig, target_guest_dumpxml):
remote_virsh_session.close_session()
test.fail("Fail to search '%s' in target guest XML:\n%s"
% (xml_check_after_mig, target_guest_dumpxml))
if contrl_index:
all_ctrls = re.findall(xml_check_after_mig, target_guest_dumpxml)
if len(all_ctrls) != int(contrl_index) + 1:
remote_virsh_session.close_session()
test.fail("%s pci-root controllers are expected in guest XML, "
"but found %s" % (int(contrl_index) + 1, len(all_ctrls)))
remote_virsh_session.close_session()
if int(mig_result.exit_status) == 0:
server_session = remote.wait_for_login('ssh', server_ip, '22',
server_user, server_pwd,
r"[\#\$]\s*$")
check_vm_network_accessed(server_session)
server_session.close()
except exceptions.TestFail as details:
is_TestFail = True
test_exception = details
except exceptions.TestSkipError as details:
is_TestSkip = True
test_exception = details
except exceptions.TestError as details:
is_TestError = True
test_exception = details
except Exception as details:
test_exception = details
finally:
logging.debug("Recover test environment")
try:
# Clean VM on destination
vm.connect_uri = dest_uri
cleanup_dest(vm)
vm.connect_uri = src_uri
logging.info("Recovery VM XML configration")
orig_config_xml.sync()
logging.debug("The current VM XML:\n%s", orig_config_xml.xmltreefile)
if remote_virsh_session:
remote_virsh_session.close_session()
if extra.count("--tls") and not disable_verify_peer:
logging.debug("Recover the qemu configuration")
libvirt.customize_libvirt_config(None,
config_type="qemu",
remote_host=True,
extra_params=params,
is_recover=True,
config_object=qemu_conf)
if config_libvirtd:
logging.debug("Recover the libvirtd configuration")
libvirt.customize_libvirt_config(None,
remote_host=True,
extra_params=params,
is_recover=True,
config_object=libvirtd_conf)
logging.info("Remove local NFS image")
source_file = params.get("source_file")
libvirt.delete_local_disk("file", path=source_file)
if objs_list:
for obj in objs_list:
logging.debug("Clean up local objs")
del obj
except Exception as exception_detail:
if (not test_exception and not is_TestError and
not is_TestFail and not is_TestSkip):
raise exception_detail
else:
# if any of above exceptions has been raised, only print
# error log here to avoid of hiding the original issue
logging.error(exception_detail)
# Check result
if is_TestFail:
test.fail(test_exception)
if is_TestSkip:
test.cancel(test_exception)
if is_TestError:
test.error(test_exception)
if not test_exception:
logging.info("Case execution is done.")
else:
test.error(test_exception)
# https://github.com/autotest/tp-qemu/blob/master/generic/tests/trans_hugepage_swapping.py
#
# Copyright: 2017 IBM
# Author: Santhosh G <*****@*****.**>
import os
from avocado import Test
from avocado import main
from avocado import skipIf
from avocado.utils import process
from avocado.utils import memory
from avocado.core import data_dir
from avocado.utils.partition import Partition
PAGESIZE = '4096' in str(memory.get_page_size())
class Thp_Swapping(Test):
'''
The test fills out the total avl memory and tries to swap the thp out.
:avocado: tags=memory,privileged
'''
@skipIf(PAGESIZE, "No THP support for kernel with 4K PAGESIZE")
def setUp(self):
'''
Sets the Required params for dd and mounts the tmpfs dir
'''