Example #1
0
    def setup_nbd_env(params):
        """
        Setup nbd test environment

        :param params: one dict to wrap up parameters
        """
        vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name)
        # Get server hostname.
        hostname = process.run('hostname',
                               ignore_status=False,
                               shell=True,
                               verbose=True).stdout_text.strip()
        # Setup backend storage
        nbd_server_host = hostname
        nbd_server_port = params.get("nbd_server_port", "10001")
        image_path = params.get("emulated_image",
                                "/var/lib/libvirt/images/nbdtest.img")
        enable_ga_agent = "yes" == params.get("enable_ga_agent", "no")

        # Create NbdExport object
        nbd = NbdExport(image_path,
                        image_format=device_format,
                        port=nbd_server_port)
        nbd.start_nbd_server()

        # Prepare disk source xml
        source_attrs_dict = {"protocol": "nbd", "tls": "%s" % "no"}

        disk_src_dict = {}
        disk_src_dict.update({"attrs": source_attrs_dict})
        disk_src_dict.update(
            {"hosts": [{
                "name": nbd_server_host,
                "port": nbd_server_port
            }]})

        network_disk = libvirt_disk.create_primitive_disk_xml(
            type_name, disk_device, device_target, device_bus, device_format,
            disk_src_dict, None)

        logging.debug("disk xml is:\n%s" % network_disk)
        # Sync VM xml.
        vmxml.add_device(network_disk)
        vmxml.sync()
        if enable_ga_agent:
            vm.prepare_guest_agent()
            vm.destroy(gracefully=False)
Example #2
0
def run(test, params, env):
    """
    Test nbd disk option.

    1.Prepare backend storage
    2.Use nbd to export the backend storage with or without TLS
    3.Prepare a disk xml indicating to the backend storage
    4.Start VM with disk hotplug/coldplug
    5.Start snapshot or save/restore operations on ndb disk
    6.Check some behaviours on VM
    7.Recover test environment
    """
    vm_name = params.get("main_vm")
    vm = env.get_vm(vm_name)
    virsh_dargs = {'debug': True, 'ignore_status': False}

    def check_disk_save_restore(save_file):
        """
        Check domain save and restore operation.

        :param save_file: the path to saved file
        """
        # Save the domain.
        ret = virsh.save(vm_name, save_file, **virsh_dargs)
        libvirt.check_exit_status(ret)

        # Restore the domain.
        ret = virsh.restore(save_file, **virsh_dargs)
        libvirt.check_exit_status(ret)

    def check_snapshot():
        """
        Check domain snapshot operations.
        """
        # Cleaup dirty data if exists
        if os.path.exists(snapshot_name1_file):
            os.remove(snapshot_name1_file)
        if os.path.exists(snapshot_name2_mem_file):
            os.remove(snapshot_name2_mem_file)
        if os.path.exists(snapshot_name2_disk_file):
            os.remove(snapshot_name2_disk_file)
        device_target = 'vda'
        snapshot_name1_option = "--diskspec %s,file=%s,snapshot=external --disk-only --atomic" % (
            device_target, snapshot_name1_file)
        ret = virsh.snapshot_create_as(vm_name,
                                       "%s %s" %
                                       (snapshot_name1, snapshot_name1_option),
                                       debug=True)
        libvirt.check_exit_status(ret)
        snap_lists = virsh.snapshot_list(vm_name, debug=True)
        if snapshot_name1 not in snap_lists:
            test.fail("Snapshot %s doesn't exist" % snapshot_name1)
        # Check file can be created after snapshot

        def _check_file_create(filename):
            """
            Check whether file with specified filename exists or not.

            :param filename: finename
            """
            try:
                session = vm.wait_for_login()
                if platform.platform().count('ppc64'):
                    time.sleep(10)
                cmd = ("echo" " teststring > /tmp/{0}".format(filename))
                status, output = session.cmd_status_output(cmd)
                if status != 0:
                    test.fail("Failed to touch one file on VM internal")
            except (remote.LoginError, virt_vm.VMError,
                    aexpect.ShellError) as e:
                logging.error(str(e))
                raise
            finally:
                if session:
                    session.close()

        _check_file_create("disk.txt")
        # Create memory snapshot.
        snapshot_name2_mem_option = "--memspec file=%s,snapshot=external" % (
            snapshot_name2_mem_file)
        snapshot_name2_disk_option = "--diskspec %s,file=%s,snapshot=external --atomic" % (
            device_target, snapshot_name2_disk_file)
        snapshot_name2_option = "%s %s" % (snapshot_name2_mem_option,
                                           snapshot_name2_disk_option)
        ret = virsh.snapshot_create_as(vm_name,
                                       "%s %s" %
                                       (snapshot_name2, snapshot_name2_option),
                                       debug=True)
        libvirt.check_exit_status(ret)
        snap_lists = virsh.snapshot_list(vm_name, debug=True)
        if snapshot_name2 not in snap_lists:
            test.fail("Snapshot: %s doesn't exist" % snapshot_name2)
        _check_file_create("mem.txt")

    def check_in_vm(target, old_parts):
        """
        Check mount/read/write disk in VM.

        :param target: Disk dev in VM.
        :param old_parts: Original disk partitions in VM.
        :return: True if check successfully.
        """
        try:
            session = vm.wait_for_login()
            if platform.platform().count('ppc64'):
                time.sleep(10)
            new_parts = utils_disk.get_parts_list(session)
            added_parts = list(set(new_parts).difference(set(old_parts)))
            logging.info("Added parts:%s", added_parts)
            if len(added_parts) != 1:
                logging.error("The number of new partitions is invalid in VM")
                return False
            else:
                added_part = added_parts[0]
            cmd = ("fdisk -l /dev/{0} && mkfs.ext4 -F /dev/{0} && "
                   "mkdir -p test && mount /dev/{0} test && echo"
                   " teststring > test/testfile && umount test".format(
                       added_part))
            status, output = session.cmd_status_output(cmd)
            logging.debug("Disk operation in VM:\nexit code:\n%s\noutput:\n%s",
                          status, output)
            return status == 0
        except (remote.LoginError, virt_vm.VMError, aexpect.ShellError) as e:
            logging.error(str(e))
            return False

    # Disk specific attributes.
    device = params.get("virt_disk_device", "disk")
    device_target = params.get("virt_disk_device_target", "vdb")
    device_format = params.get("virt_disk_device_format", "raw")
    device_type = params.get("virt_disk_device_type", "file")
    device_bus = params.get("virt_disk_device_bus", "virtio")
    backend_storage_type = params.get("backend_storage_type", "iscsi")
    image_path = params.get("emulated_image")
    # Get config parameters
    status_error = "yes" == params.get("status_error")
    define_error = "yes" == params.get("define_error")
    check_partitions = "yes" == params.get("virt_disk_check_partitions", "yes")
    hotplug_disk = "yes" == params.get("hotplug_disk", "no")
    tls_enabled = "yes" == params.get("enable_tls", "no")
    enable_private_key_encryption = "yes" == params.get(
        "enable_private_key_encryption", "no")
    private_key_encrypt_passphrase = params.get("private_key_password")
    domain_operation = params.get("domain_operation")
    secret_uuid = None

    # Get snapshot attributes.
    snapshot_name1 = params.get("snapshot_name1")
    snapshot_name1_file = params.get("snapshot_name1_file")
    snapshot_name2 = params.get("snapshot_name2")
    snapshot_name2_mem_file = params.get("snapshot_name2_mem_file")
    snapshot_name2_disk_file = params.get("snapshot_name2_disk_file")
    # Initialize one NbdExport object
    nbd = None

    # Start VM and get all partitions in VM.
    if vm.is_dead():
        vm.start()
    session = vm.wait_for_login()
    old_parts = utils_disk.get_parts_list(session)
    session.close()
    vm.destroy(gracefully=False)

    # Back up xml file.
    vmxml_backup = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)
    try:
        vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name)
        # Get server hostname.
        hostname = process.run('hostname',
                               ignore_status=False,
                               shell=True,
                               verbose=True).stdout_text.strip()
        # Setup backend storage
        nbd_server_host = hostname
        nbd_server_port = params.get("nbd_server_port")
        image_path = params.get("emulated_image",
                                "/var/lib/libvirt/images/nbdtest.img")
        export_name = params.get("export_name", None)
        deleteExisted = "yes" == params.get("deleteExisted", "yes")
        tls_bit = "no"
        if tls_enabled:
            tls_bit = "yes"

        # Create secret
        if enable_private_key_encryption:
            # this feature is enabled after libvirt 6.6.0
            if not libvirt_version.version_compare(6, 6, 0):
                test.cancel(
                    "current libvirt version doesn't support client private key encryption"
                )
            utils_secret.clean_up_secrets()
            private_key_sec_uuid = libvirt.create_secret(params)
            logging.debug("A secret created with uuid = '%s'",
                          private_key_sec_uuid)
            private_key_sec_passwd = params.get("private_key_password",
                                                "redhat")
            ret = virsh.secret_set_value(private_key_sec_uuid,
                                         private_key_sec_passwd,
                                         encode=True,
                                         use_file=True,
                                         debug=True)
            libvirt.check_exit_status(ret)
            secret_uuid = private_key_sec_uuid

        # Initialize special test environment config for snapshot operations.
        if domain_operation == "snap_shot":
            first_disk = vm.get_first_disk_devices()
            image_path = first_disk['source']
            device_target = 'vda'
            # Remove previous xml
            disks = vmxml.get_devices(device_type="disk")
            for disk_ in disks:
                if disk_.target['dev'] == device_target:
                    vmxml.del_device(disk_)
                    break

        # Create NbdExport object
        nbd = NbdExport(
            image_path,
            image_format=device_format,
            port=nbd_server_port,
            export_name=export_name,
            tls=tls_enabled,
            deleteExisted=deleteExisted,
            private_key_encrypt_passphrase=private_key_encrypt_passphrase,
            secret_uuid=secret_uuid)
        nbd.start_nbd_server()
        # Prepare disk source xml
        source_attrs_dict = {"protocol": "nbd", "tls": "%s" % tls_bit}
        if export_name:
            source_attrs_dict.update({"name": "%s" % export_name})
        disk_src_dict = {}
        disk_src_dict.update({"attrs": source_attrs_dict})
        disk_src_dict.update(
            {"hosts": [{
                "name": nbd_server_host,
                "port": nbd_server_port
            }]})

        # Add disk xml.
        disk_xml = Disk(type_name=device_type)
        disk_xml.device = device
        disk_xml.target = {"dev": device_target, "bus": device_bus}
        driver_dict = {"name": "qemu", "type": 'raw'}
        disk_xml.driver = driver_dict
        disk_source = disk_xml.new_disk_source(**disk_src_dict)
        disk_xml.source = disk_source
        logging.debug("new disk xml is: %s", disk_xml)
        # Sync VM xml
        if not hotplug_disk:
            vmxml.add_device(disk_xml)
        try:
            vmxml.sync()
            vm.start()
            vm.wait_for_login()
        except xcepts.LibvirtXMLError as xml_error:
            if not define_error:
                test.fail("Failed to define VM:\n%s" % str(xml_error))
        except virt_vm.VMStartError as details:
            # When use wrong password in disk xml for cold plug cases,
            # VM cannot be started
            if status_error and not hotplug_disk:
                logging.info("VM failed to start as expected: %s" %
                             str(details))
            else:
                test.fail("VM should start but failed: %s" % str(details))
        # Hotplug disk.
        if hotplug_disk:
            result = virsh.attach_device(vm_name,
                                         disk_xml.xml,
                                         ignore_status=True,
                                         debug=True)
            libvirt.check_exit_status(result, status_error)
        # Check save and restore operation and its result
        if domain_operation == 'save_restore':
            save_file = "/tmp/%s.save" % vm_name
            check_disk_save_restore(save_file)

        # Check attached nbd disk
        if check_partitions and not status_error:
            logging.debug("wait seconds for starting in checking vm part")
            time.sleep(2)
            if not check_in_vm(device_target, old_parts):
                test.fail("Check disk partitions in VM failed")
        # Check snapshot operation and its result
        if domain_operation == 'snap_shot':
            check_snapshot()

        # Unplug disk.
        if hotplug_disk:
            result = virsh.detach_device(vm_name,
                                         disk_xml.xml,
                                         ignore_status=True,
                                         debug=True,
                                         wait_for_event=True)
            libvirt.check_exit_status(result, status_error)
    finally:
        if enable_private_key_encryption:
            utils_secret.clean_up_secrets()
        # Clean up backend storage and TLS
        try:
            if nbd:
                nbd.cleanup()
            # Clean up snapshots if exist
            if domain_operation == 'snap_shot':
                snap_lists = virsh.snapshot_list(vm_name, debug=True)
                for snap_name in snap_lists:
                    virsh.snapshot_delete(vm_name,
                                          snap_name,
                                          "--metadata",
                                          debug=True,
                                          ignore_status=True)
                # Cleaup dirty data if exists
                if os.path.exists(snapshot_name1_file):
                    os.remove(snapshot_name1_file)
                if os.path.exists(snapshot_name2_mem_file):
                    os.remove(snapshot_name2_mem_file)
                if os.path.exists(snapshot_name2_disk_file):
                    os.remove(snapshot_name2_disk_file)
        except Exception as ndbEx:
            logging.info("Clean Up nbd failed: %s" % str(ndbEx))

        # Recover VM.
        if vm.is_alive():
            vm.destroy(gracefully=False)
        vmxml_backup.sync("--snapshots-metadata")
Example #3
0
def run(test, params, env):
    """
    Test virsh blockcopy --xml option.

    1.Prepare backend storage (file/block/iscsi/ceph/nbd)
    2.Start VM
    3.Prepare target xml
    4.Execute virsh blockcopy --xml command
    5.Check VM xml after operation accomplished
    6.Clean up test environment
    """
    vm_name = params.get("main_vm")
    vm = env.get_vm(vm_name)
    virsh_dargs = {'debug': True, 'ignore_status': True}
    ignore_check = False

    def check_blockcopy_xml(vm_name, source_image, ignore_check=False):
        """
        Check blockcopy xml in VM.

        :param vm_name: VM name
        :param source_image: source image name.
        :param ignore_check: default is False.
        """
        if ignore_check:
            return
        source_imge_list = []
        blklist = virsh.domblklist(vm_name).stdout_text.splitlines()
        for line in blklist:
            if line.strip().startswith(('hd', 'vd', 'sd', 'xvd')):
                source_imge_list.append(line.split()[-1])
        logging.debug('domblklist %s:\n%s', vm_name, source_imge_list)
        if not any(source_image in s for s in source_imge_list):
            test.fail("Cannot find expected source image: %s" % source_image)

    # Disk specific attributes.
    device = params.get("virt_disk_device", "disk")
    device_target = params.get("virt_disk_device_target", "vdd")
    device_format = params.get("virt_disk_device_format", "raw")
    device_type = params.get("virt_disk_device_type", "file")
    device_bus = params.get("virt_disk_device_bus", "virtio")
    backend_storage_type = params.get("backend_storage_type", "iscsi")
    blockcopy_option = params.get("blockcopy_option")

    # Backend storage auth info
    storage_size = params.get("storage_size", "1G")
    enable_auth = "yes" == params.get("enable_auth")
    use_auth_usage = "yes" == params.get("use_auth_usage")
    auth_sec_usage_type = params.get("auth_sec_usage_type", "iscsi")
    auth_sec_usage_target = params.get("auth_sec_usage_target", "libvirtiscsi")
    auth_sec_uuid = ""
    disk_auth_dict = {}
    size = "1"

    status_error = "yes" == params.get("status_error")
    define_error = "yes" == params.get("define_error")

    # Initialize one NbdExport object
    nbd = None
    img_file = os.path.join(data_dir.get_tmp_dir(), "%s_test.img" % vm_name)
    # Start VM and get all partitions in VM.
    if vm.is_dead():
        vm.start()
    session = vm.wait_for_login()
    old_parts = utils_disk.get_parts_list(session)
    session.close()
    vm.destroy(gracefully=False)

    # Back up xml file.
    vmxml_backup = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)

    # Additional disk images.
    disks_img = []
    try:
        # Clean up dirty secrets in test environments if there are.
        utils_secret.clean_up_secrets()
        # Setup backend storage
        if backend_storage_type == "file":
            image_filename = params.get("image_filename", "raw.img")
            disk_path = os.path.join(data_dir.get_tmp_dir(), image_filename)
            if blockcopy_option in ['reuse_external']:
                device_source = libvirt.create_local_disk(
                    backend_storage_type, disk_path, storage_size,
                    device_format)
            else:
                device_source = disk_path
            disks_img.append({
                "format": device_format,
                "source": disk_path,
                "path": disk_path
            })
            disk_src_dict = {
                'attrs': {
                    'file': device_source,
                    'type_name': 'file'
                }
            }
            checkout_device_source = image_filename
        elif backend_storage_type == "iscsi":
            iscsi_host = params.get("iscsi_host")
            iscsi_port = params.get("iscsi_port")
            if device_type == "block":
                device_source = libvirt.setup_or_cleanup_iscsi(is_setup=True)
                disk_src_dict = {'attrs': {'dev': device_source}}
                checkout_device_source = device_source
            elif device_type == "network":
                chap_user = params.get("chap_user", "redhat")
                chap_passwd = params.get("chap_passwd", "password")
                auth_sec_usage = params.get("auth_sec_usage", "libvirtiscsi")
                auth_sec_dict = {
                    "sec_usage": "iscsi",
                    "sec_target": auth_sec_usage
                }
                auth_sec_uuid = libvirt.create_secret(auth_sec_dict)
                # Set password of auth secret
                virsh.secret_set_value(auth_sec_uuid,
                                       chap_passwd,
                                       encode=True,
                                       debug=True)
                iscsi_target, lun_num = libvirt.setup_or_cleanup_iscsi(
                    is_setup=True,
                    is_login=False,
                    image_size=storage_size,
                    chap_user=chap_user,
                    chap_passwd=chap_passwd,
                    portal_ip=iscsi_host)
                # ISCSI auth attributes for disk xml
                disk_auth_dict = {
                    "auth_user": chap_user,
                    "secret_type": auth_sec_usage_type,
                    "secret_usage": auth_sec_usage_target
                }
                device_source = "iscsi://%s:%s/%s/%s" % (
                    iscsi_host, iscsi_port, iscsi_target, lun_num)
                disk_src_dict = {
                    "attrs": {
                        "protocol": "iscsi",
                        "name": "%s/%s" % (iscsi_target, lun_num)
                    },
                    "hosts": [{
                        "name": iscsi_host,
                        "port": iscsi_port
                    }]
                }
                checkout_device_source = 'emulated-iscsi'
        elif backend_storage_type == "ceph":
            ceph_host_ip = params.get("ceph_host_ip", "EXAMPLE_HOSTS")
            ceph_mon_ip = params.get("ceph_mon_ip", "EXAMPLE_MON_HOST")
            ceph_host_port = params.get("ceph_host_port", "EXAMPLE_PORTS")
            ceph_disk_name = params.get("ceph_disk_name",
                                        "EXAMPLE_SOURCE_NAME")
            ceph_client_name = params.get("ceph_client_name")
            ceph_client_key = params.get("ceph_client_key")
            ceph_auth_user = params.get("ceph_auth_user")
            ceph_auth_key = params.get("ceph_auth_key")
            enable_auth = "yes" == params.get("enable_auth")
            size = "0.15"

            key_file = os.path.join(data_dir.get_tmp_dir(), "ceph.key")
            key_opt = ""
            # Prepare a blank params to confirm whether it needs delete the configure at the end of the test
            ceph_cfg = ""
            if not utils_package.package_install(["ceph-common"]):
                test.error("Failed to install ceph-common")
            # Create config file if it doesn't exist
            ceph_cfg = ceph.create_config_file(ceph_mon_ip)
            # If enable auth, prepare a local file to save key
            if ceph_client_name and ceph_client_key:
                with open(key_file, 'w') as f:
                    f.write("[%s]\n\tkey = %s\n" %
                            (ceph_client_name, ceph_client_key))
                key_opt = "--keyring %s" % key_file
                auth_sec_dict = {
                    "sec_usage": auth_sec_usage_type,
                    "sec_name": "ceph_auth_secret"
                }
                auth_sec_uuid = libvirt.create_secret(auth_sec_dict)
                virsh.secret_set_value(auth_sec_uuid,
                                       ceph_auth_key,
                                       ignore_status=False,
                                       debug=True)
                disk_auth_dict = {
                    "auth_user": ceph_auth_user,
                    "secret_type": auth_sec_usage_type,
                    "secret_uuid": auth_sec_uuid
                }
            else:
                test.error("No ceph client name/key provided.")
            device_source = "rbd:%s:mon_host=%s:keyring=%s" % (
                ceph_disk_name, ceph_mon_ip, key_file)
            cmd = ("rbd -m {0} {1} info {2} && rbd -m {0} {1} rm "
                   "{2}".format(ceph_mon_ip, key_opt, ceph_disk_name))
            cmd_result = process.run(cmd, ignore_status=True, shell=True)
            logging.debug("pre clean up rbd disk if exists: %s", cmd_result)
            if blockcopy_option in ['reuse_external']:
                # Create an local image and make FS on it.
                libvirt.create_local_disk("file", img_file, storage_size,
                                          device_format)
                # Convert the image to remote storage
                disk_path = ("rbd:%s:mon_host=%s" %
                             (ceph_disk_name, ceph_mon_ip))
                if ceph_client_name and ceph_client_key:
                    disk_path += (":id=%s:key=%s" %
                                  (ceph_auth_user, ceph_auth_key))
                rbd_cmd = (
                    "rbd -m %s %s info %s 2> /dev/null|| qemu-img convert -O"
                    " %s %s %s" % (ceph_mon_ip, key_opt, ceph_disk_name,
                                   device_format, img_file, disk_path))
                process.run(rbd_cmd, ignore_status=False, shell=True)
            disk_src_dict = {
                "attrs": {
                    "protocol": "rbd",
                    "name": ceph_disk_name
                },
                "hosts": [{
                    "name": ceph_host_ip,
                    "port": ceph_host_port
                }]
            }
            checkout_device_source = ceph_disk_name
        elif backend_storage_type == "nbd":
            # Get server hostname.
            hostname = socket.gethostname().strip()
            # Setup backend storage
            nbd_server_host = hostname
            nbd_server_port = params.get("nbd_server_port")
            image_path = params.get("emulated_image",
                                    "/var/lib/libvirt/images/nbdtest.img")
            # Create NbdExport object
            nbd = NbdExport(image_path,
                            image_format=device_format,
                            port=nbd_server_port)
            nbd.start_nbd_server()
            # Prepare disk source xml
            source_attrs_dict = {"protocol": "nbd"}
            disk_src_dict = {}
            disk_src_dict.update({"attrs": source_attrs_dict})
            disk_src_dict.update({
                "hosts": [{
                    "name": nbd_server_host,
                    "port": nbd_server_port
                }]
            })
            device_source = "nbd://%s:%s/%s" % (nbd_server_host,
                                                nbd_server_port, image_path)
            checkout_device_source = image_path
            if blockcopy_option in ['pivot']:
                ignore_check = True

        logging.debug("device source is: %s", device_source)
        # Add disk xml.
        vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name)
        disk_xml = Disk(type_name=device_type)
        disk_xml.device = device
        disk_xml.target = {"dev": device_target, "bus": device_bus}
        driver_dict = {"name": "qemu", "type": device_format}
        disk_xml.driver = driver_dict
        disk_source = disk_xml.new_disk_source(**disk_src_dict)
        auth_in_source = True
        if disk_auth_dict:
            logging.debug("disk auth dict is: %s" % disk_auth_dict)
            disk_source.auth = disk_xml.new_auth(**disk_auth_dict)
        disk_xml.source = disk_source
        logging.debug("new disk xml is: %s", disk_xml)
        # Sync VM xml
        device_source_path = os.path.join(data_dir.get_tmp_dir(), "source.raw")
        tmp_device_source = libvirt.create_local_disk("file",
                                                      path=device_source_path,
                                                      size=size,
                                                      disk_format="raw")
        s_attach = virsh.attach_disk(vm_name,
                                     tmp_device_source,
                                     device_target,
                                     "--config",
                                     debug=True)
        libvirt.check_exit_status(s_attach)
        try:
            vm.start()
            vm.wait_for_login().close()
        except xcepts.LibvirtXMLError as xml_error:
            if not define_error:
                test.fail("Failed to define VM:\n%s", str(xml_error))
        except virt_vm.VMStartError as details:
            # VM cannot be started
            if status_error:
                logging.info("VM failed to start as expected: %s",
                             str(details))
            else:
                test.fail("VM should start but failed: %s" % str(details))
        # Additional operations before set block threshold
        options = params.get("options",
                             "--pivot --transient-job --verbose --wait")
        result = virsh.blockcopy(vm_name,
                                 device_target,
                                 "--xml %s" % disk_xml.xml,
                                 options=options,
                                 debug=True)
        libvirt.check_exit_status(result)
        check_source_image = None
        if blockcopy_option in ['pivot']:
            check_source_image = checkout_device_source
        else:
            check_source_image = tmp_device_source
        check_blockcopy_xml(vm_name, check_source_image, ignore_check)
    finally:
        # Delete snapshots.
        if virsh.domain_exists(vm_name):
            #To Delete snapshot, destroy vm first.
            if vm.is_alive():
                vm.destroy()
            libvirt.clean_up_snapshots(vm_name, domxml=vmxml_backup)

        vmxml_backup.sync("--snapshots-metadata")

        if os.path.exists(img_file):
            libvirt.delete_local_disk("file", img_file)
        for img in disks_img:
            if os.path.exists(img["path"]):
                libvirt.delete_local_disk("file", img["path"])
        # Clean up backend storage
        if backend_storage_type == "iscsi":
            libvirt.setup_or_cleanup_iscsi(is_setup=False)
        elif backend_storage_type == "ceph":
            # Remove ceph configure file if created.
            if ceph_cfg:
                os.remove(ceph_cfg)
            cmd = ("rbd -m {0} {1} info {2} && rbd -m {0} {1} rm "
                   "{2}".format(ceph_mon_ip, key_opt, ceph_disk_name))
            cmd_result = process.run(cmd, ignore_status=True, shell=True)
            logging.debug("result of rbd removal: %s", cmd_result.stdout_text)
            if os.path.exists(key_file):
                os.remove(key_file)
        elif backend_storage_type == "nbd":
            if nbd:
                try:
                    nbd.cleanup()
                except Exception as ndbEx:
                    logging.error("Clean Up nbd failed: %s" % str(ndbEx))
        # Clean up secrets
        if auth_sec_uuid:
            virsh.secret_undefine(auth_sec_uuid)
def run(test, params, env):
    """
    Test virsh domblkthreshold option.

    1.Prepare backend storage (file/luks/iscsi/gluster/ceph/nbd)
    2.Start VM
    3.Set domblkthreshold on target device in VM
    4.Trigger one threshold event
    5.Check threshold event is received as expected
    6.Clean up test environment
    """
    vm_name = params.get("main_vm")
    vm = env.get_vm(vm_name)
    virsh_dargs = {'debug': True, 'ignore_status': True}
    block_threshold_timeout = params.get("block_threshold_timeout", "120")
    event_type = params.get("event_type", "block-threshold")
    block_threshold_option = params.get("block_threshold_option", "--loop")

    def set_vm_block_domblkthreshold(vm_name, target_device, threshold, **dargs):
        """
        Set VM block threshold on specific target device.

        :param vm_name: VM name.
        :param target_device: target device in VM
        :param threshold: threshold value with specific unit such as 100M
        :param dargs: mutable parameter dict
        """
        ret = virsh.domblkthreshold(vm_name, target_device, threshold, **dargs)
        libvirt.check_exit_status(ret)

    def trigger_block_threshold_event(vm_domain, target):
        """
        Trigger block threshold event.

        :param vm_domain: VM name
        :param target: Disk dev in VM.
        """
        try:
            session = vm_domain.wait_for_login()
            time.sleep(10)
            cmd = ("fdisk -l /dev/{0} && mkfs.ext4 -F /dev/{0} && "
                   " mount /dev/{0} /mnt && "
                   " dd if=/dev/urandom of=/mnt/bigfile bs=1M count=101"
                   .format(target))
            status, output = session.cmd_status_output(cmd)
            if status:
                test.error("Failed to mount and fill data in VM: %s" % output)
        except (remote.LoginError, virt_vm.VMError, aexpect.ShellError) as e:
            logging.error(str(e))
            raise

    def check_threshold_event(vm_name, event_type, event_timeout, options, **dargs):
        """
        Check threshold event.

        :param vm_name: VM name
        :param event_type: event type.
        :param event_timeout: event timeout value
        :param options: event option
        :dargs: dynamic parameters.
        """
        ret = virsh.event(vm_name, event_type, event_timeout, options, **dargs)
        logging.debug(ret.stdout_text)
        libvirt.check_exit_status(ret)

    def create_vol(p_name, vol_params):
        """
        Create volume.

        :param p_name: Pool name.
        :param vol_params: Volume parameters dict.
        """
        # Clean up dirty volumes if pool has.
        pv = libvirt_storage.PoolVolume(p_name)
        vol_name_list = pv.list_volumes()
        for vol_name in vol_name_list:
            pv.delete_volume(vol_name)

        volxml = vol_xml.VolXML()
        v_xml = volxml.new_vol(**vol_params)
        v_xml.xmltreefile.write()

        ret = virsh.vol_create(p_name, v_xml.xml, **virsh_dargs)
        libvirt.check_exit_status(ret)

    def trigger_block_commit(vm_name, target, blockcommit_options, **virsh_dargs):
        """
        Trigger blockcommit.

        :param vm_name: VM name
        :param target: Disk dev in VM.
        :param blockcommit_options: blockcommit option
        :param virsh_dargs: additional parameters
        """
        result = virsh.blockcommit(vm_name, target,
                                   blockcommit_options, ignore_status=False, **virsh_dargs)

    def trigger_block_copy(vm_name, target, dest_path, blockcopy_options, **virsh_dargs):
        """
        Trigger blockcopy

        :param vm_name: string, VM name
        :param target: string, target disk
        :param dest_path: string, the path of copied disk
        :param blockcopy_options: string, some options applied
        :param virsh_dargs: additional options
        """
        result = virsh.blockcopy(vm_name, target, dest_path, blockcopy_options, **virsh_dargs)
        libvirt.check_exit_status(result)

    def trigger_mirror_threshold_event(vm_domain, target):
        """
        Trigger mirror mode block threshold event.

        :param vm_domain: VM name
        :param target: Disk target in VM.
        """
        try:
            session = vm_domain.wait_for_login()
            # Sleep 10 seconds to let wait for events thread start first in main thread
            time.sleep(10)
            cmd = ("dd if=/dev/urandom of=file bs=1G count=3")
            status, output = session.cmd_status_output(cmd)
            if status:
                test.error("Failed to fill data in VM target: %s with %s" % (target, output))
        except (remote.LoginError, virt_vm.VMError, aexpect.ShellError) as e:
            logging.error(str(e))
            raise
        except Exception as ex:
            raise

    def get_mirror_source_index(vm_name, dev_index=0):
        """
        Get mirror source index

        :param vm_name: VM name
        :param dev_index: Disk device index.
        :return mirror source index in integer
        """
        disk_list = vm_xml.VMXML.get_disk_source(vm_name)
        disk_mirror = disk_list[dev_index].find('mirror')
        if disk_mirror is None:
            test.fail("Failed to get disk mirror")
        disk_mirror_source = disk_mirror.find('source')
        return int(disk_mirror_source.get('index'))

    # Disk specific attributes.
    device = params.get("virt_disk_device", "disk")
    device_target = params.get("virt_disk_device_target", "vdd")
    device_format = params.get("virt_disk_device_format", "raw")
    device_type = params.get("virt_disk_device_type", "file")
    device_bus = params.get("virt_disk_device_bus", "virtio")
    backend_storage_type = params.get("backend_storage_type", "iscsi")

    # Backend storage auth info
    storage_size = params.get("storage_size", "1G")
    enable_auth = "yes" == params.get("enable_auth")
    use_auth_usage = "yes" == params.get("use_auth_usage")
    auth_sec_usage_type = params.get("auth_sec_usage_type", "iscsi")
    auth_sec_usage_target = params.get("auth_sec_usage_target", "libvirtiscsi")
    auth_sec_uuid = ""
    luks_sec_uuid = ""
    disk_auth_dict = {}
    disk_encryption_dict = {}

    status_error = "yes" == params.get("status_error")
    define_error = "yes" == params.get("define_error")

    mirror_mode_blockcommit = "yes" == params.get("mirror_mode_blockcommit", "no")
    mirror_mode_blockcopy = "yes" == params.get("mirror_mode_blockcopy", "no")
    default_snapshot_test = "yes" == params.get("default_snapshot_test", "no")
    block_threshold_value = params.get("block_threshold_value", "100M")
    snapshot_external_disks = []
    tmp_dir = data_dir.get_tmp_dir()
    dest_path = params.get("dest_path", "/var/lib/libvirt/images/newclone")

    pvt = None
    # Initialize one NbdExport object
    nbd = None
    img_file = os.path.join(data_dir.get_tmp_dir(),
                            "%s_test.img" % vm_name)
    if ((backend_storage_type == "luks") and
            not libvirt_version.version_compare(3, 9, 0)):
        test.cancel("Cannot support <encryption> inside disk in this libvirt version.")

    # Start VM and get all partitions in VM.
    if vm.is_dead():
        vm.start()
    session = vm.wait_for_login()
    old_parts = utils_disk.get_parts_list(session)
    session.close()
    vm.destroy(gracefully=False)

    # Back up xml file.
    vmxml_backup = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name)

    # Additional disk images.
    disks_img = []
    try:
        # Clean up dirty secrets in test environments if there are.
        utils_secret.clean_up_secrets()
        # Setup backend storage
        if backend_storage_type == "file":
            image_filename = params.get("image_filename", "raw.img")
            disk_path = os.path.join(data_dir.get_tmp_dir(), image_filename)
            device_source = libvirt.create_local_disk(backend_storage_type, disk_path, storage_size, device_format)
            disks_img.append({"format": device_format,
                              "source": disk_path, "path": disk_path})
            disk_src_dict = {'attrs': {'file': device_source,
                                       'type_name': 'file'}}
        # Setup backend storage
        elif backend_storage_type == "luks":
            luks_encrypt_passwd = params.get("luks_encrypt_passwd", "password")
            luks_secret_passwd = params.get("luks_secret_passwd", "password")
            # Create secret
            luks_sec_uuid = libvirt.create_secret(params)
            logging.debug("A secret created with uuid = '%s'", luks_sec_uuid)
            virsh.secret_set_value(luks_sec_uuid, luks_secret_passwd,
                                   encode=True, ignore_status=False, debug=True)
            image_filename = params.get("image_filename", "raw.img")
            device_source = os.path.join(data_dir.get_tmp_dir(), image_filename)

            disks_img.append({"format": device_format,
                              "source": device_source, "path": device_source})
            disk_src_dict = {'attrs': {'file': device_source,
                                       'type_name': 'file'}}
            disk_encryption_dict = {"encryption": "luks",
                                    "secret": {"type": "passphrase",
                                               "uuid": luks_sec_uuid}}

            cmd = ("qemu-img create -f luks "
                   "--object secret,id=sec0,data=`printf '%s' | base64`,format=base64 "
                   "-o key-secret=sec0 %s %s" % (luks_encrypt_passwd, device_source, storage_size))
            if process.system(cmd, shell=True):
                test.error("Can't create a luks encrypted img by qemu-img")
        elif backend_storage_type == "iscsi":
            iscsi_host = params.get("iscsi_host")
            iscsi_port = params.get("iscsi_port")
            if device_type == "block":
                device_source = libvirt.setup_or_cleanup_iscsi(is_setup=True)
                disk_src_dict = {'attrs': {'dev': device_source}}
            elif device_type == "network":
                chap_user = params.get("chap_user", "redhat")
                chap_passwd = params.get("chap_passwd", "password")
                auth_sec_usage = params.get("auth_sec_usage",
                                            "libvirtiscsi")
                auth_sec_dict = {"sec_usage": "iscsi",
                                 "sec_target": auth_sec_usage}
                auth_sec_uuid = libvirt.create_secret(auth_sec_dict)
                # Set password of auth secret (not luks encryption secret)
                virsh.secret_set_value(auth_sec_uuid, chap_passwd,
                                       encode=True, ignore_status=False, debug=True)
                iscsi_target, lun_num = libvirt.setup_or_cleanup_iscsi(
                    is_setup=True, is_login=False, image_size=storage_size,
                    chap_user=chap_user, chap_passwd=chap_passwd,
                    portal_ip=iscsi_host)
                # ISCSI auth attributes for disk xml
                disk_auth_dict = {"auth_user": chap_user,
                                  "secret_type": auth_sec_usage_type,
                                  "secret_usage": auth_sec_usage_target}
                device_source = "iscsi://%s:%s/%s/%s" % (iscsi_host, iscsi_port,
                                                         iscsi_target, lun_num)
                disk_src_dict = {"attrs": {"protocol": "iscsi",
                                           "name": "%s/%s" % (iscsi_target, lun_num)},
                                 "hosts": [{"name": iscsi_host, "port": iscsi_port}]}
        elif backend_storage_type == "gluster":
            gluster_vol_name = params.get("gluster_vol_name", "gluster_vol1")
            gluster_pool_name = params.get("gluster_pool_name", "gluster_pool1")
            gluster_img_name = params.get("gluster_img_name", "gluster1.img")
            gluster_host_ip = gluster.setup_or_cleanup_gluster(
                    is_setup=True,
                    vol_name=gluster_vol_name,
                    pool_name=gluster_pool_name,
                    **params)

            device_source = "gluster://%s/%s/%s" % (gluster_host_ip,
                                                    gluster_vol_name,
                                                    gluster_img_name)
            cmd = ("qemu-img create -f %s "
                   "%s %s" % (device_format, device_source, storage_size))
            if process.system(cmd, shell=True):
                test.error("Can't create a gluster type img by qemu-img")
            disk_src_dict = {"attrs": {"protocol": "gluster",
                                       "name": "%s/%s" % (gluster_vol_name,
                                                          gluster_img_name)},
                             "hosts":  [{"name": gluster_host_ip,
                                         "port": "24007"}]}
        elif backend_storage_type == "ceph":
            ceph_host_ip = params.get("ceph_host_ip", "EXAMPLE_HOSTS")
            ceph_mon_ip = params.get("ceph_mon_ip", "EXAMPLE_MON_HOST")
            ceph_host_port = params.get("ceph_host_port", "EXAMPLE_PORTS")
            ceph_disk_name = params.get("ceph_disk_name", "EXAMPLE_SOURCE_NAME")
            ceph_client_name = params.get("ceph_client_name")
            ceph_client_key = params.get("ceph_client_key")
            ceph_auth_user = params.get("ceph_auth_user")
            ceph_auth_key = params.get("ceph_auth_key")
            enable_auth = "yes" == params.get("enable_auth")

            key_file = os.path.join(data_dir.get_tmp_dir(), "ceph.key")
            key_opt = ""
            # Prepare a blank params to confirm if delete the configure at the end of the test
            ceph_cfg = ""
            if not utils_package.package_install(["ceph-common"]):
                test.error("Failed to install ceph-common")
            # Create config file if it doesn't exist
            ceph_cfg = ceph.create_config_file(ceph_mon_ip)
            # If enable auth, prepare a local file to save key
            if ceph_client_name and ceph_client_key:
                with open(key_file, 'w') as f:
                    f.write("[%s]\n\tkey = %s\n" %
                            (ceph_client_name, ceph_client_key))
                key_opt = "--keyring %s" % key_file
                auth_sec_dict = {"sec_usage": auth_sec_usage_type,
                                 "sec_name": "ceph_auth_secret"}
                auth_sec_uuid = libvirt.create_secret(auth_sec_dict)
                virsh.secret_set_value(auth_sec_uuid, ceph_auth_key,
                                       debug=True)
                disk_auth_dict = {"auth_user": ceph_auth_user,
                                  "secret_type": auth_sec_usage_type,
                                  "secret_uuid": auth_sec_uuid}
            else:
                test.error("No ceph client name/key provided.")
            device_source = "rbd:%s:mon_host=%s:keyring=%s" % (ceph_disk_name,
                                                               ceph_mon_ip,
                                                               key_file)
            cmd = ("rbd -m {0} {1} info {2} && rbd -m {0} {1} rm "
                   "{2}".format(ceph_mon_ip, key_opt, ceph_disk_name))
            cmd_result = process.run(cmd, ignore_status=True, shell=True)
            logging.debug("pre clean up rbd disk if exists: %s", cmd_result)
            # Create an local image and make FS on it.
            disk_cmd = ("qemu-img create -f %s %s %s" %
                        (device_format, img_file, storage_size))
            process.run(disk_cmd, ignore_status=False, shell=True)
            # Convert the image to remote storage
            disk_path = ("rbd:%s:mon_host=%s" %
                         (ceph_disk_name, ceph_mon_ip))
            if ceph_client_name and ceph_client_key:
                disk_path += (":id=%s:key=%s" %
                              (ceph_auth_user, ceph_auth_key))
            rbd_cmd = ("rbd -m %s %s info %s 2> /dev/null|| qemu-img convert -O"
                       " %s %s %s" % (ceph_mon_ip, key_opt, ceph_disk_name,
                                      device_format, img_file, disk_path))
            process.run(rbd_cmd, ignore_status=False, shell=True)
            disk_src_dict = {"attrs": {"protocol": "rbd",
                                       "name": ceph_disk_name},
                             "hosts":  [{"name": ceph_host_ip,
                                         "port": ceph_host_port}]}
        elif backend_storage_type == "nfs":
            pool_name = params.get("pool_name", "nfs_pool")
            pool_target = params.get("pool_target", "nfs_mount")
            pool_type = params.get("pool_type", "netfs")
            nfs_server_dir = params.get("nfs_server_dir", "nfs_server")
            emulated_image = params.get("emulated_image")
            image_name = params.get("nfs_image_name", "nfs.img")
            tmp_dir = data_dir.get_tmp_dir()
            pvt = libvirt.PoolVolumeTest(test, params)
            pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image)
            # Set virt_use_nfs
            virt_use_nfs = params.get("virt_use_nfs", "off")
            result = process.run("setsebool virt_use_nfs %s" % virt_use_nfs, shell=True)
            if result.exit_status:
                test.error("Failed to set virt_use_nfs value")

            nfs_mount_dir = os.path.join(tmp_dir, pool_target)
            device_source = nfs_mount_dir + image_name
            # Create one image on nfs server
            libvirt.create_local_disk("file", device_source, '1', "raw")
            disks_img.append({"format": device_format,
                              "source": device_source, "path": device_source})
            disk_src_dict = {'attrs': {'file': device_source,
                                       'type_name': 'file'}}
        # Create dir based pool,and then create one volume on it.
        elif backend_storage_type == "dir":
            pool_name = params.get("pool_name", "dir_pool")
            pool_target = params.get("pool_target")
            pool_type = params.get("pool_type")
            emulated_image = params.get("emulated_image")
            image_name = params.get("dir_image_name", "luks_1.img")
            # Create and start dir_based pool.
            pvt = libvirt.PoolVolumeTest(test, params)
            if not os.path.exists(pool_target):
                os.mkdir(pool_target)
            pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image)
            sp = libvirt_storage.StoragePool()
            if not sp.is_pool_active(pool_name):
                sp.set_pool_autostart(pool_name)
                sp.start_pool(pool_name)
            # Create one volume on the pool.
            volume_name = params.get("vol_name")
            volume_alloc = params.get("vol_alloc")
            volume_cap_unit = params.get("vol_cap_unit")
            volume_cap = params.get("vol_cap")
            volume_target_path = params.get("sec_volume")
            volume_target_format = params.get("target_format")
            volume_target_encypt = params.get("target_encypt", "")
            volume_target_label = params.get("target_label")
            vol_params = {"name": volume_name, "capacity": int(volume_cap),
                          "allocation": int(volume_alloc), "format":
                          volume_target_format, "path": volume_target_path,
                          "label": volume_target_label,
                          "capacity_unit": volume_cap_unit}
            try:
                # If Libvirt version is lower than 2.5.0
                # Creating luks encryption volume is not supported,so skip it.
                create_vol(pool_name, vol_params)
            except AssertionError as info:
                err_msgs = ("create: invalid option")
                if str(info).count(err_msgs):
                    test.cancel("Creating luks encryption volume "
                                "is not supported on this libvirt version")
                else:
                    test.error("Failed to create volume."
                               "Error: %s" % str(info))
            disk_src_dict = {'attrs': {'file': volume_target_path}}
            device_source = volume_target_path
        elif backend_storage_type == "nbd":
            # Get server hostname.
            hostname = process.run('hostname', ignore_status=False, shell=True, verbose=True).stdout_text.strip()
            # Setup backend storage
            nbd_server_host = hostname
            nbd_server_port = params.get("nbd_server_port")
            image_path = params.get("emulated_image", "/var/lib/libvirt/images/nbdtest.img")
            # Create NbdExport object
            nbd = NbdExport(image_path, image_format=device_format,
                            port=nbd_server_port)
            nbd.start_nbd_server()
            # Prepare disk source xml
            source_attrs_dict = {"protocol": "nbd"}
            disk_src_dict = {}
            disk_src_dict.update({"attrs": source_attrs_dict})
            disk_src_dict.update({"hosts": [{"name": nbd_server_host, "port": nbd_server_port}]})
            device_source = "nbd://%s:%s/%s" % (nbd_server_host,
                                                nbd_server_port,
                                                image_path)

        logging.debug("device source is: %s", device_source)

        # Add disk xml.
        vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name)
        disk_xml = Disk(type_name=device_type)
        disk_xml.device = device
        disk_xml.target = {"dev": device_target, "bus": device_bus}
        driver_dict = {"name": "qemu", "type": device_format}
        disk_xml.driver = driver_dict
        disk_source = disk_xml.new_disk_source(**disk_src_dict)
        if disk_auth_dict:
            logging.debug("disk auth dict is: %s" % disk_auth_dict)
            disk_xml.auth = disk_xml.new_auth(**disk_auth_dict)
        if disk_encryption_dict:
            disk_encryption_dict = {"encryption": "luks",
                                    "secret": {"type": "passphrase",
                                               "uuid": luks_sec_uuid}}
            disk_encryption = disk_xml.new_encryption(**disk_encryption_dict)

            disk_xml.encryption = disk_encryption
        disk_xml.source = disk_source
        logging.debug("new disk xml is: %s", disk_xml)
        # Sync VM xml except mirror_mode_blockcommit or mirror_mode_blockcopy
        if (not mirror_mode_blockcommit and not mirror_mode_blockcopy):
            vmxml.add_device(disk_xml)
        try:
            vmxml.sync()
            vm.start()
            vm.wait_for_login().close()
        except xcepts.LibvirtXMLError as xml_error:
            if not define_error:
                test.fail("Failed to define VM:\n%s", str(xml_error))
        except virt_vm.VMStartError as details:
            # When use wrong password in disk xml for cold plug cases,
            # VM cannot be started
            if status_error:
                logging.info("VM failed to start as expected: %s", str(details))
            else:
                test.fail("VM should start but failed: %s" % str(details))
        func_name = trigger_block_threshold_event
        # Additional operations before set block threshold
        if backend_storage_type == "file":
            logging.info("Create snapshot...")
            snap_opt = " %s --disk-only "
            snap_opt += "%s,snapshot=external,file=%s"
            if default_snapshot_test:
                for index in range(1, 5):
                    snapshot_name = "snapshot_%s" % index
                    snap_path = "%s/%s_%s.snap" % (tmp_dir, vm_name, index)
                    snapshot_external_disks.append(snap_path)
                    snap_option = snap_opt % (snapshot_name, device_target, snap_path)
                    virsh.snapshot_create_as(vm_name, snap_option,
                                             ignore_status=False, debug=True)

            if mirror_mode_blockcommit:
                if not libvirt_version.version_compare(6, 6, 0):
                    test.cancel("Set threshold for disk mirroring feature is not supported on current version")
                vmxml.del_device(disk_xml)
                virsh.snapshot_create_as(vm_name, "--disk-only --no-metadata",
                                         ignore_status=False, debug=True)
                # Do active blockcommit in background.
                blockcommit_options = "--active"
                mirror_blockcommit_thread = threading.Thread(target=trigger_block_commit,
                                                             args=(vm_name, 'vda', blockcommit_options,),
                                                             kwargs={'debug': True})
                mirror_blockcommit_thread.start()
                device_target = "vda[1]"
                func_name = trigger_mirror_threshold_event
            if mirror_mode_blockcopy:
                if not libvirt_version.version_compare(6, 6, 0):
                    test.cancel("Set threshold for disk mirroring feature is not supported on current version")
                # Do transient blockcopy in backgroud.
                blockcopy_options = "--transient-job "
                # Do cleanup
                if os.path.exists(dest_path):
                    libvirt.delete_local_disk("file", dest_path)
                mirror_blockcopy_thread = threading.Thread(target=trigger_block_copy,
                                                           args=(vm_name, 'vda', dest_path, blockcopy_options,),
                                                           kwargs={'debug': True})
                mirror_blockcopy_thread.start()
                mirror_blockcopy_thread.join(10)
                device_target = "vda[%d]" % get_mirror_source_index(vm_name)
                func_name = trigger_mirror_threshold_event
        set_vm_block_domblkthreshold(vm_name, device_target, block_threshold_value, **{"debug": True})
        cli_thread = threading.Thread(target=func_name,
                                      args=(vm, device_target))
        cli_thread.start()
        check_threshold_event(vm_name, event_type, block_threshold_timeout, block_threshold_option, **{"debug": True})
    finally:
        # Delete snapshots.
        if virsh.domain_exists(vm_name):
            #To delete snapshot, destroy VM first.
            if vm.is_alive():
                vm.destroy()
            libvirt.clean_up_snapshots(vm_name, domxml=vmxml_backup)

        vmxml_backup.sync("--snapshots-metadata")

        if os.path.exists(img_file):
            libvirt.delete_local_disk("file", img_file)
        for img in disks_img:
            if os.path.exists(img["path"]):
                libvirt.delete_local_disk("file", img["path"])

        for disk in snapshot_external_disks:
            libvirt.delete_local_disk('file', disk)

        if os.path.exists(dest_path):
            libvirt.delete_local_disk("file", dest_path)

        # Clean up backend storage
        if backend_storage_type == "iscsi":
            libvirt.setup_or_cleanup_iscsi(is_setup=False)
        elif backend_storage_type == "gluster":
            gluster.setup_or_cleanup_gluster(is_setup=False,
                                             vol_name=gluster_vol_name,
                                             pool_name=gluster_pool_name,
                                             **params)
        elif backend_storage_type == "ceph":
            # Remove ceph configure file if created.
            if ceph_cfg:
                os.remove(ceph_cfg)
            cmd = ("rbd -m {0} {1} info {2} && rbd -m {0} {1} rm "
                   "{2}".format(ceph_mon_ip, key_opt, ceph_disk_name))
            cmd_result = process.run(cmd, ignore_status=True, shell=True)
            logging.debug("result of rbd removal: %s", cmd_result)
            if os.path.exists(key_file):
                os.remove(key_file)
        elif backend_storage_type == "nfs":
            result = process.run("setsebool virt_use_nfs off",
                                 shell=True)
            if result.exit_status:
                logging.info("Failed to restore virt_use_nfs value")
        elif backend_storage_type == "nbd":
            if nbd:
                try:
                    nbd.cleanup()
                except Exception as ndbEx:
                    logging.info("Clean Up nbd failed: %s" % str(ndbEx))
        # Clean up secrets
        if auth_sec_uuid:
            virsh.secret_undefine(auth_sec_uuid)
        if luks_sec_uuid:
            virsh.secret_undefine(luks_sec_uuid)

        # Clean up pools
        if pvt:
            pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image)