def check_pool(pool_name, pool_type, checkpoint, expect_value="", expect_error=False): """ Check the pool after autostart it :param pool_name: Name of the pool. :param pool_type: Type of the pool. :param checkpoint: Which part for checking. :param expect_value: Expected value. :param expect_error: Boolen value, expect command success or fail """ libvirt_pool = libvirt_storage.StoragePool() virsh.pool_list(option="--all", debug=True) if checkpoint == 'State': actual_value = libvirt_pool.pool_state(pool_name) if checkpoint == 'Autostart': actual_value = libvirt_pool.pool_autostart(pool_name) if actual_value != expect_value: if not expect_error: if checkpoint == 'State' and pool_type in ("dir", "scsi"): debug_msg = "Dir pool should be always active when libvirtd restart. " debug_msg += "See https://bugzilla.redhat.com/show_bug.cgi?id=1238610" logging.debug(debug_msg) else: test.fail("Pool %s isn't %s as expected" % (checkpoint, expect_value)) else: logging.debug("Pool %s is %s as expected", checkpoint, actual_value)
def run(test, params, env): ''' Test the command virsh pool-create-as (1) Call virsh pool-create-as (2) Call virsh -c remote_uri pool-create-as (3) Call virsh pool-create-as with an unexpected option ''' # Run test case if not params.has_key('pool_name') or not params.has_key('pool_target'): logging.error("Please give a 'name' and 'target'") pool_options = params.get('pool_options', '') pool_name = params.get('pool_name') pool_type = params.get('pool_type') pool_target = params.get('pool_target') if not os.path.isdir(pool_target): if os.path.isfile(pool_target): logging.error('<target> must be a directory') else: os.makedirs(pool_target) logging.info('Creating a %s type pool %s', pool_type, pool_name) status = virsh.pool_create_as(pool_name, pool_type, pool_target, extra=pool_options, uri=virsh.canonical_uri()) # Check status_error status_error = params.get('status_error') if status_error == 'yes': if status: raise error.TestFail("%d not a expected command return value" % status) else: logging.info("It's an expected error") elif status_error == 'no': result = virsh.pool_info(pool_name, uri=virsh.canonical_uri()) if result.exit_status: raise error.TestFail('Failed to check pool information') else: logging.info('Pool %s is running', pool_name) if not status: raise error.TestFail('%d not a expected command return value' % status) else: logging.info('Succeed to create pool %s', pool_name) # Clean up libvirt_pool = libvirt_storage.StoragePool() if libvirt_pool.pool_exists(pool_name): libvirt_pool.delete_pool(pool_name)
def check_actived_pool(pool_name): """ Check if pool_name exist in active pool list """ sp = libvirt_storage.StoragePool() if not sp.pool_exists(pool_name): raise error.TestFail("Can't find pool %s" % pool_name) if not sp.is_pool_active(pool_name): raise error.TestFail("Pool %s is not active." % pool_name) logging.debug("Find active pool %s", pool_name) return True
def setUp(self): # To avoid not installed libvirt packages self.bogus_virsh = FakeVirshFactory() # Use defined virsh methods needed in this unittest self.bogus_virsh.__super_set__('pool_list', self._pool_list) self.bogus_virsh.__super_set__('pool_info', self._pool_info) self.bogus_virsh.__super_set__('pool_define_as', self._pool_define_as) self.bogus_virsh.__super_set__('pool_build', self._pool_build) self.bogus_virsh.__super_set__('pool_start', self._pool_start) self.bogus_virsh.__super_set__('pool_destroy', self._pool_destroy) self.bogus_virsh.__super_set__('pool_undefine', self._pool_undefine) self.bogus_virsh.__super_set__('pool_autostart', self._pool_autostart) self.sp = libvirt_storage.StoragePool(virsh_instance=self.bogus_virsh)
def cleanup_pool(pool_name, pool_target): """ Destroys, undefines and delete the pool target """ if not libvirt_storage.StoragePool().delete_pool(pool_name): raise error.TestFail("Delete pool %s failed." % pool_name) try: logging.debug("Deleting the pool target: %s directory", pool_target) shutil.rmtree(pool_target) except OSError, detail: raise error.TestFail("Failed to delete the pool target directory" "%s:\n %s" % (pool_target, detail))
def setUp(self): # To avoid not installed libvirt packages self.bogus_virsh = virsh.Virsh(virsh_exec=virsh.VIRSH_EXEC, uri='qemu:///system', debug=True, ignore_status=True) # Use defined virsh methods above self.bogus_virsh.super_set('pool_list', self._pool_list) self.bogus_virsh.super_set('pool_info', self._pool_info) self.bogus_virsh.super_set('pool_define_as', self._pool_define_as) self.bogus_virsh.super_set('pool_build', self._pool_build) self.bogus_virsh.super_set('pool_start', self._pool_start) self.bogus_virsh.super_set('pool_destroy', self._pool_destroy) self.bogus_virsh.super_set('pool_undefine', self._pool_undefine) self.bogus_virsh.super_set('pool_autostart', self._pool_autostart) self.sp = libvirt_storage.StoragePool(virsh_instance=self.bogus_virsh)
def cleanup_pool(self, pool_name, pool_type, pool_target, emulated_image, source_name=None): """ Delete vols, destroy the created pool and restore the env """ sp = libvirt_storage.StoragePool() try: if sp.pool_exists(pool_name): pv = libvirt_storage.PoolVolume(pool_name) if pool_type in ["dir", "netfs", "logical", "disk"]: vols = pv.list_volumes() for vol in vols: # Ignore failed deletion here for deleting pool pv.delete_volume(vol) if not sp.delete_pool(pool_name): raise error.TestFail("Delete pool %s failed" % pool_name) finally: if pool_type == "netfs": nfs_server_dir = self.params.get("nfs_server_dir", "nfs-server") nfs_path = os.path.join(self.tmpdir, nfs_server_dir) setup_or_cleanup_nfs(is_setup=False, mount_dir=nfs_path) if os.path.exists(nfs_path): shutil.rmtree(nfs_path) if pool_type == "logical": cmd = "pvs |grep vg_logical|awk '{print $1}'" pv = utils.system_output(cmd) # Cleanup logical volume anyway utils.run("vgremove -f vg_logical", ignore_status=True) utils.run("pvremove %s" % pv, ignore_status=True) # These types used iscsi device if pool_type in ["logical", "iscsi", "fs", "disk", "scsi"]: setup_or_cleanup_iscsi(is_setup=False, emulated_image=emulated_image) if pool_type in ["dir", "fs", "netfs"]: pool_target = os.path.join(self.tmpdir, pool_target) if os.path.exists(pool_target): shutil.rmtree(pool_target) if pool_type == "gluster": setup_or_cleanup_gluster(False, source_name)
def pool_rename(name, new_name, uuid=None, virsh_instance=base.virsh): """ Rename a pool from pool XML. :param name: Original pool name. :param new_name: new name of pool. :param uuid: new pool uuid, if None libvirt will generate automatically. :return: True/False or raise LibvirtXMLError """ pool_ins = libvirt_storage.StoragePool() if not pool_ins.is_pool_persistent(name): logging.error("Cannot rename for transient pool") return False start_pool = False if pool_ins.is_pool_active(name): start_pool = True poolxml = PoolXML.new_from_dumpxml(name, virsh_instance) backup = poolxml.copy() def _cleanup(details=""): # cleanup if rename failed backup.pool_define() if start_pool: pool_ins.start_pool(name) raise xcepts.LibvirtXMLError("%s" % details) if not pool_ins.delete_pool(name): _cleanup(details="Delete pool %s failed" % name) # Alter the XML poolxml.name = new_name if uuid is None: del poolxml.uuid else: poolxml.uuid = uuid # Re-define XML to libvirt logging.debug("Rename pool: %s to %s.", name, new_name) if not poolxml.pool_define(): logging.info("Pool xml: %s" % poolxml.get('xml')) _cleanup(details="Define pool %s failed" % new_name) if start_pool: pool_ins.start_pool(new_name) return True
def pool_rename(name, new_name, uuid=None, virsh_instance=base.virsh): """ Rename a pool from pool XML. :param name: Original pool name. :param new_name: new name of pool. :param uuid: new pool uuid, if None libvirt will generate automatically. :return: """ pool_ins = libvirt_storage.StoragePool() if not pool_ins.is_pool_persistent(name): logging.error("Cannot rename for transient pool") return False start_pool = False if pool_ins.is_pool_active(name): virsh_instance.pool_destroy(name) start_pool = True poolxml = PoolXML.new_from_dumpxml(name, virsh_instance) backup = poolxml.copy() if not pool_ins.delete_pool(name): del poolxml raise xcepts.LibvirtXMLError( "Error occur while deleting pool: %s" % name) # Alter the XML poolxml.name = new_name if uuid is None: del poolxml.uuid else: poolxml.uuid = uuid # Re-define XML to libvirt logging.debug("Rename pool: %s to %s.", name, new_name) # error message for failed define error_msg = "Error reported while defining pool:\n" try: if not poolxml.pool_define(): raise xcepts.LibvirtXMLError(error_msg + "%s" % poolxml.get('xml')) except error.CmdError, detail: del poolxml # Allow exceptions thrown here since state will be undefined backup.pool_define() raise xcepts.LibvirtXMLError(error_msg + "%s" % detail)
def define_start_pool(pool_name, pool_type, pool_target): """ To define a pool """ if 'dir' in pool_type: if not os.path.isdir(pool_target): os.makedirs(pool_target) result = utlv.define_pool(pool_name, pool_type, pool_target) if result.exit_status != 0: raise error.TestFail("Command virsh pool-define-as" " failed:\n%s" % result.stderr.strip()) else: logging.debug("%s type pool: %s defined successfully", pool_type, pool_name) sp = libvirt_storage.StoragePool() if not sp.start_pool(pool_name): raise error.TestFail("Start pool %s failed." % pool_name) else: raise error.TestNAError("pool type %s has not yet been" " supported in the test" % pool_type) return True
def run(test, params, env): """ Test virsh vol-create and vol-create-as command to cover the following matrix: pool_type = [dir, fs, netfs] volume_format = [raw, bochs, cloop, cow, dmg, iso, qcow, qcow2, qed, vmdk, vpc] pool_type = [disk] volume_format = [none, linux, fat16, fat32, linux-swap, linux-lvm, linux-raid, extended] pool_type = [logical] volume_format = [none] pool_type = [iscsi, scsi] Not supported with format type TODO: pool_type = [rbd, glusterfs] Reference: http://www.libvirt.org/storage.html """ src_pool_type = params.get("src_pool_type") src_pool_target = params.get("src_pool_target") src_pool_format = params.get("src_pool_format", "") pool_vol_num = int(params.get("src_pool_vol_num", '1')) src_emulated_image = params.get("src_emulated_image") extra_option = params.get("extra_option", "") prefix_vol_name = params.get("vol_name", "vol_create_test") vol_format = params.get("vol_format", "raw") vol_capacity = params.get("vol_capacity", 1048576) vol_allocation = params.get("vol_allocation", 1048576) image_size = params.get("emulate_image_size", "1G") lazy_refcounts = "yes" == params.get("lazy_refcounts") status_error = "yes" == params.get("status_error", "no") by_xml = "yes" == params.get("create_vol_by_xml", "yes") incomplete_target = "yes" == params.get("incomplete_target", "no") luks_encrypted = "luks" == params.get("encryption_method") encryption_secret_type = params.get("encryption_secret_type", "passphrase") virsh_readonly_mode = 'yes' == params.get("virsh_readonly", "no") if not libvirt_version.version_compare(1, 0, 0): if "--prealloc-metadata" in extra_option: test.cancel("metadata preallocation not supported in" " current libvirt version.") if incomplete_target: test.cancel("It does not support generate target path" "in current libvirt version.") pool_type = ['dir', 'disk', 'fs', 'logical', 'netfs', 'iscsi', 'scsi'] if src_pool_type not in pool_type: test.cancel("pool type %s not in supported type list: %s" % (src_pool_type, pool_type)) # libvirt acl polkit related params if not libvirt_version.version_compare(1, 1, 1): if params.get('setup_libvirt_polkit') == 'yes': test.cancel("API acl test not supported in current" " libvirt version.") uri = params.get("virsh_uri") unprivileged_user = params.get('unprivileged_user') if unprivileged_user: if unprivileged_user.count('EXAMPLE'): unprivileged_user = '******' # Stop multipathd to avoid start pool fail(For fs like pool, the new add # disk may in use by device-mapper, so start pool will report disk already # mounted error). multipathd = service.Factory.create_service("multipathd") multipathd_status = multipathd.status() if multipathd_status: multipathd.stop() # Set volume xml attribute dictionary, extract all params start with 'vol_' # which are for setting volume xml, except 'lazy_refcounts'. vol_arg = {} for key in params.keys(): if key.startswith('vol_'): if key[4:] in ['capacity', 'allocation', 'owner', 'group']: vol_arg[key[4:]] = int(params[key]) else: vol_arg[key[4:]] = params[key] vol_arg['lazy_refcounts'] = lazy_refcounts def create_luks_secret(vol_path): """ Create secret for luks encryption :param vol_path. volume path. :return: secret id if create successfully. """ sec_xml = secret_xml.SecretXML("no", "yes") sec_xml.description = "volume secret" sec_xml.usage = 'volume' sec_xml.volume = vol_path sec_xml.xmltreefile.write() ret = virsh.secret_define(sec_xml.xml) utlv.check_exit_status(ret) # Get secret uuid. try: encryption_uuid = re.findall(r".+\S+(\ +\S+)\ +.+\S+", ret.stdout.strip())[0].lstrip() except IndexError as detail: test.error("Fail to get newly created secret uuid") logging.debug("Secret uuid %s", encryption_uuid) # Set secret value. encoding = locale.getpreferredencoding() secret_string = base64.b64encode( 'redhat'.encode(encoding)).decode(encoding) ret = virsh.secret_set_value(encryption_uuid, secret_string) utlv.check_exit_status(ret) return encryption_uuid def post_process_vol(ori_vol_path): """ Create or disactive a volume without libvirt :param ori_vol_path: Full path of an original volume :retur: Volume name for checking """ process_vol_name = params.get("process_vol_name", "process_vol") process_vol_options = params.get("process_vol_options", "") process_vol_capacity = params.get("process_vol_capacity", vol_capacity) process_vol_cmd = "" unsupport_err = "Unsupport do '%s %s' in this test" % ( process_vol_by, process_vol_type) if process_vol_by == "lvcreate": process_vol_cmd = "lvcreate -L %s " % process_vol_capacity if process_vol_type == "thin": if not process_vol_options: process_vol_options = "-T " process_vol_cmd += "%s " % process_vol_options processthin_pool_name = params.get("processthin_pool_name", "thinpool") processthin_vol_name = params.get("processthin_vol_name", "thinvol") process_vol_capacity = params.get("process_vol_capacity", "1G") os.path.dirname(ori_vol_path) process_vol_cmd += "%s/%s " % (os.path.dirname(ori_vol_path), processthin_pool_name) process_vol_cmd += "-V %s " % process_vol_capacity process_vol_cmd += "-n %s " % processthin_vol_name process_vol_name = processthin_vol_name elif process_vol_type == "snapshot": if not process_vol_options: process_vol_options = "-s " process_vol_cmd += "%s " % process_vol_options process_vol_cmd += "-n %s " % process_vol_name process_vol_cmd += "%s " % (ori_vol_path) else: logging.error(unsupport_err) return elif process_vol_by == "qemu-img" and process_vol_type == "create": process_vol_cmd = "qemu-img create " process_vol_path = os.path.dirname(ori_vol_path) + "/" process_vol_path += process_vol_name process_vol_cmd += "%s " % process_vol_options process_vol_cmd += "%s " % process_vol_path process_vol_cmd += "%s " % process_vol_capacity elif process_vol_by == "lvchange" and process_vol_type == "deactivate": process_vol_cmd = "lvchange %s " % ori_vol_path if not process_vol_options: process_vol_options = "-an" process_vol_cmd += process_vol_options else: logging.error(unsupport_err) return rst = process.run(process_vol_cmd, ignore_status=True, shell=True) if rst.exit_status: if "Snapshots of snapshots are not supported" in rst.stderr_text: logging.debug("%s is already a snapshot volume", ori_vol_path) process_vol_name = os.path.basename(ori_vol_path) else: logging.error(rst.stderr_text) return return process_vol_name def check_vol(pool_name, vol_name, expect_exist=True): """ Check volume vol_name in pool pool_name """ src_volumes = src_pv.list_volumes().keys() logging.debug("Current volumes in %s: %s", pool_name, src_volumes) if expect_exist: if vol_name not in src_volumes: test.fail("Can't find volume %s in pool %s" % (vol_name, pool_name)) # check format in volume xml volxml = libvirt_xml.VolXML() post_xml = volxml.new_from_vol_dumpxml(vol_name, pool_name) logging.debug("Volume %s XML: %s" % (vol_name, post_xml.xmltreefile)) if 'format' in post_xml.keys() and vol_format is not None: if post_xml.format != vol_format: test.fail("Volume format %s is not expected" % vol_format + " as defined.") else: if vol_name in src_volumes: test.fail("Find volume %s in pool %s, but expect not" % (vol_name, pool_name)) fmt_err0 = "Unknown file format '%s'" % vol_format fmt_err1 = "Formatting or formatting option not " fmt_err1 += "supported for file format '%s'" % vol_format fmt_err2 = "Driver '%s' does not support " % vol_format fmt_err2 += "image creation" fmt_err_list = [fmt_err0, fmt_err1, fmt_err2] skip_msg = "Volume format '%s' is not supported by qemu-img" % vol_format vol_path_list = [] secret_uuids = [] try: # Create the src pool src_pool_name = "virt-%s-pool" % src_pool_type pvt = utlv.PoolVolumeTest(test, params) pvt.pre_pool(src_pool_name, src_pool_type, src_pool_target, src_emulated_image, image_size=image_size, source_format=src_pool_format) src_pv = libvirt_storage.PoolVolume(src_pool_name) src_pool_uuid = libvirt_storage.StoragePool().pool_info( src_pool_name)['UUID'] # Print current pools for debugging logging.debug("Current pools:%s", libvirt_storage.StoragePool().list_pools()) # Create volumes by virsh in a loop while pool_vol_num > 0: # Set volume xml file vol_name = prefix_vol_name + "_%s" % pool_vol_num bad_vol_name = params.get("bad_vol_name", "") if bad_vol_name: vol_name = bad_vol_name pool_vol_num -= 1 # disk partition for new volume if src_pool_type == "disk": vol_name = utlv.new_disk_vol_name(src_pool_name) if vol_name is None: test.error("Fail to generate volume name") if by_xml: # According to BZ#1138523, we need inpect the right name # (disk partition) for new volume if src_pool_type == "disk": vol_name = utlv.new_disk_vol_name(src_pool_name) if vol_name is None: test.error("Fail to generate volume name") vol_arg['name'] = vol_name volxml = libvirt_xml.VolXML() newvol = volxml.new_vol(**vol_arg) if luks_encrypted: # For luks encrypted disk, add related xml in newvol luks_encryption_params = {} luks_encryption_params.update({"format": "luks"}) luks_secret_uuid = create_luks_secret( os.path.join(src_pool_target, vol_name)) secret_uuids.append(luks_secret_uuid) luks_encryption_params.update({ "secret": { "type": encryption_secret_type, "uuid": luks_secret_uuid } }) newvol.encryption = volxml.new_encryption( **luks_encryption_params) vol_xml = newvol['xml'] if params.get('setup_libvirt_polkit') == 'yes': process.run("chmod 666 %s" % vol_xml, ignore_status=True, shell=True) if luks_encrypted and libvirt_version.version_compare( 4, 5, 0): try: polkit = test_setup.LibvirtPolkitConfig(params) polkit_rules_path = polkit.polkit_rules_path with open(polkit_rules_path, 'r+') as f: rule = f.readlines() for index, v in enumerate(rule): if v.find("secret") >= 0: nextline = rule[index + 1] s = nextline.replace( "QEMU", "secret").replace( "pool_name", "secret_uuid").replace( "virt-dir-pool", "%s" % luks_secret_uuid) rule[index + 1] = s rule = ''.join(rule) with open(polkit_rules_path, 'w+') as f: f.write(rule) logging.debug(rule) polkit.polkitd.restart() except IOError as e: logging.error(e) # Run virsh_vol_create to create vol logging.debug("Create volume from XML: %s" % newvol.xmltreefile) cmd_result = virsh.vol_create( src_pool_name, vol_xml, extra_option, unprivileged_user=unprivileged_user, uri=uri, ignore_status=True, debug=True) else: # Run virsh_vol_create_as to create_vol pool_name = src_pool_name if params.get("create_vol_by_pool_uuid") == "yes": pool_name = src_pool_uuid cmd_result = virsh.vol_create_as( vol_name, pool_name, vol_capacity, vol_allocation, vol_format, extra_option, unprivileged_user=unprivileged_user, uri=uri, readonly=virsh_readonly_mode, ignore_status=True, debug=True) # Check result try: utlv.check_exit_status(cmd_result, status_error) check_vol(src_pool_name, vol_name, not status_error) if bad_vol_name: pattern = "volume name '%s' cannot contain '/'" % vol_name logging.debug("pattern: %s", pattern) if "\\" in pattern and by_xml: pattern = pattern.replace("\\", "\\\\") if re.search(pattern, cmd_result.stderr) is None: test.fail("vol-create failed with unexpected reason") if not status_error: vol_path = virsh.vol_path(vol_name, src_pool_name).stdout.strip() logging.debug("Full path of %s: %s", vol_name, vol_path) vol_path_list.append(vol_path) except exceptions.TestFail as detail: stderr = cmd_result.stderr if any(err in stderr for err in fmt_err_list): test.cancel(skip_msg) else: test.fail("Create volume fail:\n%s" % detail) # Post process vol by other programs process_vol_by = params.get("process_vol_by") process_vol_type = params.get("process_vol_type", "") expect_vol_exist = "yes" == params.get("expect_vol_exist", "yes") if process_vol_by and vol_path_list: process_vol = post_process_vol(vol_path_list[0]) if process_vol is not None: try: virsh.pool_refresh(src_pool_name, ignore_status=False) check_vol(src_pool_name, process_vol, expect_vol_exist) except (process.CmdError, exceptions.TestFail) as detail: if process_vol_type == "thin": logging.error(str(detail)) test.cancel("You may encounter bug BZ#1060287") else: test.fail("Fail to refresh pool:\n%s" % detail) else: test.fail("Post process volume failed") finally: # Cleanup # For old version lvm2(2.02.106 or early), deactivate volume group # (destroy libvirt logical pool) will fail if which has deactivated # lv snapshot, so before destroy the pool, we need activate it manually if src_pool_type == 'logical' and vol_path_list: vg_name = vol_path_list[0].split('/')[2] process.run("lvchange -ay %s" % vg_name, shell=True) try: pvt.cleanup_pool(src_pool_name, src_pool_type, src_pool_target, src_emulated_image) for secret_uuid in set(secret_uuids): virsh.secret_undefine(secret_uuid) except exceptions.TestFail as detail: logging.error(str(detail)) if multipathd_status: multipathd.start()
def run(test, params, env): """ Test command: virsh pool-define; pool-define-as; pool-start; vol-list pool; attach-device LUN to guest; mount the device; dd to the mounted device; unmount; pool-destroy; pool-undefine; Pre-requiste: Host needs to have a wwpn and wwnn of a vHBA which is zoned and mapped to SAN controller. """ pool_xml_f = params.get("pool_create_xml_file", "/PATH/TO/POOL.XML") pool_name = params.get("pool_create_name", "virt_test_pool_tmp") pre_def_pool = params.get("pre_def_pool", "no") define_pool = params.get("define_pool", "no") define_pool_as = params.get("define_pool_as", "no") pool_create_as = params.get("pool_create_as", "no") need_pool_build = params.get("need_pool_build", "no") need_vol_create = params.get("need_vol_create", "no") pool_type = params.get("pool_type", "dir") source_format = params.get("pool_src_format", "") source_name = params.get("pool_source_name", "") source_path = params.get("pool_source_path", "/") pool_target = params.get("pool_target", "pool_target") pool_adapter_type = params.get("pool_adapter_type", "") pool_adapter_parent = params.get("pool_adapter_parent", "") target_device = params.get("disk_target_dev", "sdc") pool_wwnn = params.get("pool_wwnn", "POOL_WWNN_EXAMPLE") pool_wwpn = params.get("pool_wwpn", "POOL_WWPN_EXAMPLE") vhba_wwnn = params.get("vhba_wwnn", "VHBA_WWNN_EXAMPLE") vhba_wwpn = params.get("vhba_wwpn", "VHBA_WWPN_EXAMPLE") volume_name = params.get("volume_name", "imagefrommapper.qcow2") volume_capacity = params.get("volume_capacity", '1G') allocation = params.get("allocation", '1G') vol_format = params.get("volume_format", 'raw') attach_method = params.get("attach_method", "hot") test_unit = None mount_disk = None pool_kwargs = {} pool_extra_args = "" emulated_image = "emulated-image" disk_xml = "" new_vhbas = [] source_dev = "" mpath_vol_path = "" old_mpath_conf = "" mpath_conf_path = "/etc/multipath.conf" original_mpath_conf_exist = os.path.exists(mpath_conf_path) if pool_type == "scsi": if ('EXAMPLE' in pool_wwnn) or ('EXAMPLE' in pool_wwpn): raise exceptions.TestSkipError( "No wwpn and wwnn provided for npiv scsi pool.") if pool_type == "logical": if ('EXAMPLE' in vhba_wwnn) or ('EXAMPLE' in vhba_wwpn): raise exceptions.TestSkipError( "No wwpn and wwnn provided for vhba.") online_hbas_list = utils_npiv.find_hbas("hba") logging.debug("The online hbas are: %s", online_hbas_list) old_mpath_conf = utils_npiv.prepare_multipath_conf(conf_path=mpath_conf_path, replace_existing=True) if not online_hbas_list: raise exceptions.TestSkipError( "Host doesn't have online hba cards") old_vhbas = utils_npiv.find_hbas("vhba") vm_name = params.get("main_vm") vm = env.get_vm(vm_name) vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name) vmxml_backup = vmxml.copy() if not vm.is_alive(): vm.start() libvirt_vm = lib_vm.VM(vm_name, vm.params, vm.root_dir, vm.address_cache) pool_ins = libvirt_storage.StoragePool() if pool_ins.pool_exists(pool_name): raise exceptions.TestFail("Pool %s already exist" % pool_name) if pool_type == "scsi": if define_pool == "yes": if pool_adapter_parent == "": pool_adapter_parent = online_hbas_list[0] pool_kwargs = {'source_path': source_path, 'source_name': source_name, 'source_format': source_format, 'pool_adapter_type': pool_adapter_type, 'pool_adapter_parent': pool_adapter_parent, 'pool_wwnn': pool_wwnn, 'pool_wwpn': pool_wwpn} elif pool_type == "logical": if (not vhba_wwnn) or (not vhba_wwpn): raise exceptions.TestFail("No wwnn/wwpn provided to create vHBA.") old_mpath_devs = utils_npiv.find_mpath_devs() new_vhba = utils_npiv.nodedev_create_from_xml({ "nodedev_parent": online_hbas_list[0], "scsi_wwnn": vhba_wwnn, "scsi_wwpn": vhba_wwpn}) utils_misc.wait_for( lambda: utils_npiv.is_vhbas_added(old_vhbas), timeout=_DELAY_TIME*2) if not new_vhba: raise exceptions.TestFail("vHBA not sucessfully generated.") new_vhbas.append(new_vhba) utils_misc.wait_for( lambda: utils_npiv.is_mpath_devs_added(old_mpath_devs), timeout=_DELAY_TIME*5) if not utils_npiv.is_mpath_devs_added(old_mpath_devs): raise exceptions.TestFail("mpath dev not generated.") cur_mpath_devs = utils_npiv.find_mpath_devs() new_mpath_devs = list(set(cur_mpath_devs).difference( set(old_mpath_devs))) logging.debug("The newly added mpath dev is: %s", new_mpath_devs) source_dev = "/dev/mapper/" + new_mpath_devs[0] logging.debug("We are going to use \"%s\" as our source device" " to create a logical pool", source_dev) try: cmd = "parted %s mklabel msdos -s" % source_dev cmd_result = process.run(cmd, shell=True) except Exception as e: raise exceptions.TestError("Error occurred when parted mklable") if define_pool_as == "yes": pool_extra_args = "" if source_dev: pool_extra_args = ' --source-dev %s' % source_dev elif pool_type == "mpath": if (not vhba_wwnn) or (not vhba_wwpn): raise exceptions.TestFail("No wwnn/wwpn provided to create vHBA.") old_mpath_devs = utils_npiv.find_mpath_devs() new_vhba = utils_npiv.nodedev_create_from_xml({ "nodedev_parent": online_hbas_list[0], "scsi_wwnn": vhba_wwnn, "scsi_wwpn": vhba_wwpn}) utils_misc.wait_for( lambda: utils_npiv.is_vhbas_added(old_vhbas), timeout=_DELAY_TIME*2) if not new_vhba: raise exceptions.TestFail("vHBA not sucessfully generated.") new_vhbas.append(new_vhba) utils_misc.wait_for( lambda: utils_npiv.is_mpath_devs_added(old_mpath_devs), timeout=_DELAY_TIME*2) if not utils_npiv.is_mpath_devs_added(old_mpath_devs): raise exceptions.TestFail("mpath dev not generated.") cur_mpath_devs = utils_npiv.find_mpath_devs() new_mpath_devs = list(set(cur_mpath_devs).difference( set(old_mpath_devs))) logging.debug("The newly added mpath dev is: %s", new_mpath_devs) mpath_vol_path = "/dev/mapper/" + new_mpath_devs[0] try: cmd = "parted %s mklabel msdos -s" % mpath_vol_path cmd_result = process.run(cmd, shell=True) except Exception as e: raise exceptions.TestError("Error occurred when parted mklable") if pre_def_pool == "yes": try: pvt = utlv.PoolVolumeTest(test, params) pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image, **pool_kwargs) utils_misc.wait_for( lambda: utils_npiv.is_vhbas_added(old_vhbas), _DELAY_TIME*2) virsh.pool_dumpxml(pool_name, to_file=pool_xml_f) virsh.pool_destroy(pool_name) except Exception as e: pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image, **pool_kwargs) raise exceptions.TestError( "Error occurred when prepare pool xml:\n %s" % e) if os.path.exists(pool_xml_f): with open(pool_xml_f, 'r') as f: logging.debug("Create pool from file: %s", f.read()) try: # define/create/start the pool if (pre_def_pool == "yes") and (define_pool == "yes"): pool_define_status = virsh.pool_define(pool_xml_f, ignore_status=True, debug=True) utlv.check_exit_status(pool_define_status) if define_pool_as == "yes": pool_define_as_status = virsh.pool_define_as( pool_name, pool_type, pool_target, pool_extra_args, ignore_status=True, debug=True ) utlv.check_exit_status(pool_define_as_status) if pool_create_as == "yes": if pool_type != "scsi": raise exceptions.TestSkipError("pool-create-as only needs to " "be covered by scsi pool for " "NPIV test.") cmd = "virsh pool-create-as %s %s \ --adapter-wwnn %s --adapter-wwpn %s \ --adapter-parent %s --target %s"\ % (pool_name, pool_type, pool_wwnn, pool_wwpn, online_hbas_list[0], pool_target) cmd_status = process.system(cmd, verbose=True) if cmd_status: raise exceptions.TestFail("pool-create-as scsi pool failed.") if need_pool_build == "yes": pool_build_status = virsh.pool_build(pool_name, "--overwrite") utlv.check_exit_status(pool_build_status) pool_ins = libvirt_storage.StoragePool() if not pool_ins.pool_exists(pool_name): raise exceptions.TestFail("define or create pool failed.") else: if not pool_ins.is_pool_active(pool_name): pool_start_status = virsh.pool_start(pool_name) utlv.check_exit_status(pool_start_status) utlv.check_actived_pool(pool_name) pool_detail = libvirt_xml.PoolXML.get_pool_details(pool_name) logging.debug("Pool detail: %s", pool_detail) # create vol if required if need_vol_create == "yes": vol_create_as_status = virsh.vol_create_as( volume_name, pool_name, volume_capacity, allocation, vol_format, "", debug=True ) utlv.check_exit_status(vol_create_as_status) virsh.pool_refresh(pool_name) vol_list = utlv.get_vol_list(pool_name, vol_check=True, timeout=_DELAY_TIME*3) logging.debug('Volume list is: %s' % vol_list) # use test_unit to save the first vol in pool if pool_type == "mpath": cmd = "virsh vol-list %s | grep \"%s\" |\ awk '{FS=\" \"} {print $1}'" % (pool_name, mpath_vol_path) cmd_result = process.run(cmd, shell=True) status = cmd_result.exit_status output = cmd_result.stdout_text.strip() if cmd_result.exit_status: raise exceptions.TestFail("vol-list pool %s failed", pool_name) if not output: raise exceptions.TestFail("Newly added mpath dev not in pool.") test_unit = output logging.info( "Using %s to attach to a guest", test_unit) else: test_unit = list(vol_list.keys())[0] logging.info( "Using the first volume %s to attach to a guest", test_unit) vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name) session = vm.wait_for_login() output = session.cmd_status_output('lsblk') logging.debug("%s", output[1]) old_count = vmxml.get_disk_count(vm_name) bf_disks = libvirt_vm.get_disks() # prepare disk xml which will be hot/cold attached to vm disk_params = {'type_name': 'volume', 'target_dev': target_device, 'target_bus': 'virtio', 'source_pool': pool_name, 'source_volume': test_unit, 'driver_type': vol_format} disk_xml = os.path.join(data_dir.get_tmp_dir(), 'disk_xml.xml') lun_disk_xml = utlv.create_disk_xml(disk_params) copyfile(lun_disk_xml, disk_xml) disk_xml_str = open(lun_disk_xml).read() logging.debug("The disk xml is: %s", disk_xml_str) # hot attach disk xml to vm if attach_method == "hot": copyfile(lun_disk_xml, disk_xml) dev_attach_status = virsh.attach_device(vm_name, disk_xml, debug=True) # Pool/vol virtual disk is not supported by mpath pool yet. if dev_attach_status.exit_status and pool_type == "mpath": raise exceptions.TestSkipError("mpath pool vol is not " "supported in virtual disk yet," "the error message is: %s", dev_attach_status.stderr) session.close() utlv.check_exit_status(dev_attach_status) # cold attach disk xml to vm elif attach_method == "cold": if vm.is_alive(): vm.destroy(gracefully=False) new_disk = disk.Disk() new_disk.xml = disk_xml_str vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name) vmxml.devices = vmxml.devices.append(new_disk) vmxml.sync() logging.debug(vmxml) try: vm.start() except virt_vm.VMStartError as e: logging.debug(e) if pool_type == "mpath": raise exceptions.TestSkipError("'mpath' pools for backing " "'volume' disks isn't " "supported for now") else: raise exceptions.TestFail("Failed to start vm") session = vm.wait_for_login() else: pass # checking attached disk in vm logging.info("Checking disk availability in domain") if not vmxml.get_disk_count(vm_name): raise exceptions.TestFail("No disk in domain %s." % vm_name) new_count = vmxml.get_disk_count(vm_name) if new_count <= old_count: raise exceptions.TestFail( "Failed to attach disk %s" % lun_disk_xml) logging.debug("Disks before attach: %s", bf_disks) af_disks = libvirt_vm.get_disks() logging.debug("Disks after attach: %s", af_disks) mount_disk = "".join(list(set(bf_disks) ^ set(af_disks))) if not mount_disk: raise exceptions.TestFail("Can not get attached device in vm.") logging.debug("Attached device in vm:%s", mount_disk) logging.debug("Creating file system for %s", mount_disk) output = session.cmd_status_output( 'echo yes | mkfs.ext4 %s' % mount_disk) logging.debug("%s", output[1]) if mount_disk: mount_success = mount_and_dd(session, mount_disk) if not mount_success: raise exceptions.TestFail("Mount failed") else: raise exceptions.TestFail("Partition not available for disk") logging.debug("Unmounting disk") session.cmd_status_output('umount %s' % mount_disk) output = session.cmd_status_output('mount') logging.debug("%s", output[1]) mount_success = mount_and_dd(session, mount_disk) if not mount_success: raise exceptions.TestFail("Mount failed") logging.debug("Unmounting disk") session.cmd_status_output('umount %s' % mount_disk) session.close() # detach disk from vm dev_detach_status = virsh.detach_device(vm_name, disk_xml, debug=True) utlv.check_exit_status(dev_detach_status) finally: vm.destroy(gracefully=False) vmxml_backup.sync() logging.debug('Destroying pool %s', pool_name) virsh.pool_destroy(pool_name) logging.debug('Undefining pool %s', pool_name) virsh.pool_undefine(pool_name) if os.path.exists(pool_xml_f): os.remove(pool_xml_f) if os.path.exists(disk_xml): data_dir.clean_tmp_files() logging.debug("Cleanup disk xml") if pre_def_pool == "yes": # Do not apply cleanup_pool for logical pool, logical pool will # be cleaned below pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image, **pool_kwargs) if (test_unit and (need_vol_create == "yes" and (pre_def_pool == "no")) and (pool_type == "logical")): process.system('lvremove -f %s/%s' % (pool_name, test_unit), verbose=True) process.system('vgremove -f %s' % pool_name, verbose=True) process.system('pvremove -f %s' % source_dev, verbose=True) if new_vhbas: utils_npiv.vhbas_cleanup(new_vhbas) # Restart multipathd, this is to avoid bz1399075 if source_dev: utils_misc.wait_for(lambda: utils_npiv.restart_multipathd(source_dev), _DELAY_TIME*5, 0.0, 5.0) elif mpath_vol_path: utils_misc.wait_for(lambda: utils_npiv.restart_multipathd(mpath_vol_path), _DELAY_TIME*5, 0.0, 5.0) else: utils_npiv.restart_multipathd() if old_mpath_conf: utils_npiv.prepare_multipath_conf(conf_path=mpath_conf_path, conf_content=old_mpath_conf, replace_existing=True) if not original_mpath_conf_exist and os.path.exists(mpath_conf_path): os.remove(mpath_conf_path)
def run(test, params, env): """ Test command: virsh pool-edit. Edit the XML configuration for a storage pool('dir' type as default). 1) Edit pool by different methods. 2) Check the edit result and cleanup env. """ pool_ref = params.get("pool_ref", "name") pool_name = params.get("pool_name", "default") pool_uuid = params.get("pool_uuid", "") pool_exist = "yes" == params.get("pool_exist", "yes") status_error = "yes" == params.get("status_error", "no") pool_type = params.get("pool_type", "dir") pool_target = os.path.join(data_dir.get_tmp_dir(), params.get("pool_target", "pool_target")) source_name = params.get("pool_source_name", "gluster-vol1") source_path = params.get("pool_source_path", "/") emulated_image = params.get("emulated_image", "emulated-image-disk") edit_target = params.get("edit_target", "target_path") if not libvirt_version.version_compare(1, 0, 0): if pool_type == "gluster": raise error.TestNAError("Gluster pool is not supported in current" " libvirt version.") redefine_pool_flag = False pool = pool_name if pool_ref == "uuid": pool = pool_uuid poolxml = pool_xml.PoolXML() libvirt_pool = libvirt_storage.StoragePool() poolvolune_test = libvirt.PoolVolumeTest(test, params) check_pool_name = pool_name new_path = "" try: if pool_exist and not status_error: if libvirt_pool.pool_exists(pool_name): logging.debug("Find pool '%s' to edit.", pool_name) redefine_pool_flag = True else: logging.debug("Define pool '%s' as it not exist", pool_name) if pool_type == "gluster": poolvolune_test.pre_pool(pool_name, pool_type, pool_target, emulated_image, source_name=source_name, source_path=source_path) else: poolvolune_test.pre_pool(pool_name, pool_type, pool_target, emulated_image) if not pool_uuid and pool_ref == "uuid": pool = libvirt_pool.get_pool_uuid(pool_name) poolxml.xml = pool_xml.PoolXML().new_from_dumpxml(pool_name).xml logging.debug("Before edit pool:") poolxml.debug_xml() expect_value = "" # Test: Edit target path if edit_target == "pool_target_path": edit_cmd = [] new_path = os.path.join(data_dir.get_tmp_dir(), "new_path") os.mkdir(new_path) edit_cmd.append(":%s/<path>.*</<path>" + new_path.replace('/', '\/') + "<") pool_target = new_path expect_value = new_path # Test: Edit disk pool format type: elif edit_target == "pool_format_type": edit_cmd = [] new_format_type = params.get("pool_format", "dos") edit_cmd.append(":%s/<format type=.*\/>/<format type='" + new_format_type + "'\/>/") expect_value = new_format_type # Test: Refine(Delete uuid, edit pool name and target path) elif edit_target == "pool_redefine": edit_cmd = [] new_pool_name = params.get("new_pool_name", "new_edit_pool") edit_cmd.append(":g/<uuid>/d") new_path = os.path.join(data_dir.get_tmp_dir(), "new_pool") os.mkdir(new_path) edit_cmd.append(":%s/<path>.*</<path>" + new_path.replace('/', '\/') + "<") edit_cmd.append(":%s/<name>" + pool_name + "</<name>" + new_pool_name + "<") pool_target = new_path check_pool_name = new_pool_name else: raise error.TestNAError("No edit method for %s" % edit_target) # run test and check the result logging.info("pool=%s", pool) edit_pool(pool, edit_cmd) if libvirt_pool.is_pool_active(pool_name): libvirt_pool.destroy_pool(pool_name) if not libvirt_pool.start_pool(check_pool_name): raise error.TestFail("Fail to start pool after edit it.") if not check_pool(check_pool_name, edit_target, expect_value): raise error.TestFail("Edit pool fail") elif not pool_exist and not status_error: raise error.TestFail( "Conflict condition: pool not exist and expect " "pool edit succeed.") else: # negative test output = virsh.pool_edit(pool) if output.exit_status: logging.info("Fail to do pool edit as expect: %s", output.stderr.strip()) else: redefine_pool_flag = True raise error.TestFail("Expect fail but do pool edit succeed.") finally: for pool in [pool_name, check_pool_name]: if libvirt_pool.pool_exists(pool): poolvolune_test.cleanup_pool(check_pool_name, pool_type, pool_target, emulated_image, source_name=source_name) if redefine_pool_flag: try: # poolxml could be empty if error happened when define pool poolxml.pool_define() finally: logging.error("Recover pool %s failed", pool_name) if os.path.exists(new_path): os.rmdir(new_path)
def run(test, params, env): """ Test the virsh pool commands with acl, initiate a pool then do following operations. (1) Undefine a given type pool (2) Define the pool from xml (3) Build given type pool (4) Start pool (5) Destroy pool (6) Refresh pool after start it (7) Run vol-list with the pool (9) Delete pool For negative cases, redo failed step to make the case run continue. Run cleanup at last restore env. """ # Initialize the variables pool_name = params.get("pool_name", "temp_pool_1") pool_type = params.get("pool_type", "dir") pool_target = params.get("pool_target", "") # The file for dumped pool xml pool_xml = os.path.join(test.tmpdir, "pool.xml.tmp") if os.path.dirname(pool_target) is "": pool_target = os.path.join(test.tmpdir, pool_target) vol_name = params.get("vol_name", "temp_vol_1") # Use pool name as VG name vg_name = pool_name vol_path = os.path.join(pool_target, vol_name) define_acl = "yes" == params.get("define_acl", "no") undefine_acl = "yes" == params.get("undefine_acl", "no") start_acl = "yes" == params.get("start_acl", "no") destroy_acl = "yes" == params.get("destroy_acl", "no") build_acl = "yes" == params.get("build_acl", "no") delete_acl = "yes" == params.get("delete_acl", "no") refresh_acl = "yes" == params.get("refresh_acl", "no") vol_list_acl = "yes" == params.get("vol_list_acl", "no") src_pool_error = "yes" == params.get("src_pool_error", "no") define_error = "yes" == params.get("define_error", "no") undefine_error = "yes" == params.get("undefine_error", "no") start_error = "yes" == params.get("start_error", "no") destroy_error = "yes" == params.get("destroy_error", "no") build_error = "yes" == params.get("build_error", "no") delete_error = "yes" == params.get("delete_error", "no") refresh_error = "yes" == params.get("refresh_error", "no") vol_list_error = "yes" == params.get("vol_list_error", "no") # Clean up flags: # cleanup_env[0] for nfs, cleanup_env[1] for iscsi, cleanup_env[2] for lvm cleanup_env = [False, False, False] # libvirt acl related params uri = params.get("virsh_uri") unprivileged_user = params.get('unprivileged_user') if unprivileged_user: if unprivileged_user.count('EXAMPLE'): unprivileged_user = '******' if not libvirt_version.version_compare(1, 1, 1): if params.get('setup_libvirt_polkit') == 'yes': raise error.TestNAError("API acl test not supported in current" + " libvirt version.") acl_dargs = { 'uri': uri, 'unprivileged_user': unprivileged_user, 'debug': True } def check_exit_status(result, expect_error=False): """ Check the exit status of virsh commands. :param result: Virsh command result object :param expect_error: Boolean value, expect command success or fail """ if not expect_error: if result.exit_status != 0: raise error.TestFail(result.stderr) else: logging.debug("Command output:\n%s", result.stdout.strip()) elif expect_error and result.exit_status == 0: raise error.TestFail("Expect fail, but run successfully.") def check_pool_list(pool_name, option="--all", expect_error=False): """ Check pool by running pool-list command with given option. :param pool_name: Name of the pool :param option: option for pool-list command :param expect_error: Boolean value, expect command success or fail """ found = False # Get the list stored in a variable result = virsh.pool_list(option, ignore_status=True) check_exit_status(result, False) output = re.findall(r"(\S+)\ +(\S+)\ +(\S+)[\ +\n]", str(result.stdout)) for item in output: if pool_name in item[0]: found = True break if found: logging.debug("Find pool '%s' in pool list.", pool_name) else: logging.debug("Not find pool %s in pool list.", pool_name) if expect_error and found: raise error.TestFail("Unexpect pool '%s' exist." % pool_name) if not expect_error and not found: raise error.TestFail("Expect pool '%s' doesn't exist." % pool_name) # Run Testcase try: _pool = libvirt_storage.StoragePool() # Init a pool for test result = utils_test.libvirt.define_pool(pool_name, pool_type, pool_target, cleanup_env) check_exit_status(result, src_pool_error) option = "--inactive --type %s" % pool_type check_pool_list(pool_name, option) xml = virsh.pool_dumpxml(pool_name, to_file=pool_xml) logging.debug("Pool '%s' XML:\n%s", pool_name, xml) # Step (1) # Undefine pool if undefine_acl: result = virsh.pool_undefine(pool_name, **acl_dargs) else: result = virsh.pool_undefine(pool_name, ignore_status=True) check_exit_status(result, undefine_error) if undefine_error: check_pool_list(pool_name, "--all", False) # Redo under negative case to keep case continue result = virsh.pool_undefine(pool_name, ignore_status=True) check_exit_status(result) check_pool_list(pool_name, "--all", True) else: check_pool_list(pool_name, "--all", True) # Step (2) # Define pool from XML file if define_acl: result = virsh.pool_define(pool_xml, **acl_dargs) else: result = virsh.pool_define(pool_xml) check_exit_status(result, define_error) if define_error: # Redo under negative case to keep case continue result = virsh.pool_define(pool_xml) check_exit_status(result) # Step (3) # Buid pool, this step may fail for 'disk' and 'logical' types pool if pool_type not in ["disk", "logical"]: option = "" # Options --overwrite and --no-overwrite can only be used to # build a filesystem pool, but it will fail for now # if pool_type == "fs": # option = '--overwrite' if build_acl: result = virsh.pool_build(pool_name, option, **acl_dargs) else: result = virsh.pool_build(pool_name, option, ignore_status=True) check_exit_status(result, build_error) if build_error: # Redo under negative case to keep case continue result = virsh.pool_build(pool_name, option, ignore_status=True) check_exit_status(result) # Step (4) # Pool start if start_acl: result = virsh.pool_start(pool_name, **acl_dargs) else: result = virsh.pool_start(pool_name, ignore_status=True) check_exit_status(result, start_error) if start_error: # Redo under negative case to keep case continue result = virsh.pool_start(pool_name, ignore_status=True) check_exit_status(result) option = "--persistent --type %s" % pool_type check_pool_list(pool_name, option) # Step (5) # Pool destroy if destroy_acl: result = virsh.pool_destroy(pool_name, **acl_dargs) else: result = virsh.pool_destroy(pool_name) if result: if destroy_error: raise error.TestFail("Expect fail, but run successfully.") else: if not destroy_error: raise error.TestFail("Pool %s destroy failed, not expected." % pool_name) else: # Redo under negative case to keep case continue if virsh.pool_destroy(pool_name): logging.debug("Pool %s destroyed.", pool_name) else: raise error.TestFail("Destroy pool % failed." % pool_name) # Step (6) # Pool refresh for 'dir' type pool # Pool start result = virsh.pool_start(pool_name, ignore_status=True) check_exit_status(result) if pool_type == "dir": os.mknod(vol_path) if refresh_acl: result = virsh.pool_refresh(pool_name, **acl_dargs) else: result = virsh.pool_refresh(pool_name) check_exit_status(result, refresh_error) # Step (7) # Pool vol-list if vol_list_acl: result = virsh.vol_list(pool_name, **acl_dargs) else: result = virsh.vol_list(pool_name) check_exit_status(result, vol_list_error) # Step (8) # Pool delete for 'dir' type pool if virsh.pool_destroy(pool_name): logging.debug("Pool %s destroyed.", pool_name) else: raise error.TestFail("Destroy pool % failed." % pool_name) if pool_type == "dir": if os.path.exists(vol_path): os.remove(vol_path) if delete_acl: result = virsh.pool_delete(pool_name, **acl_dargs) else: result = virsh.pool_delete(pool_name, ignore_status=True) check_exit_status(result, delete_error) option = "--inactive --type %s" % pool_type check_pool_list(pool_name, option) if not delete_error: if os.path.exists(pool_target): raise error.TestFail("The target path '%s' still exist." % pool_target) result = virsh.pool_undefine(pool_name, ignore_status=True) check_exit_status(result) check_pool_list(pool_name, "--all", True) finally: # Clean up if os.path.exists(pool_xml): os.remove(pool_xml) if not _pool.delete_pool(pool_name): logging.error("Can't delete pool: %s", pool_name) if cleanup_env[2]: cmd = "pvs |grep %s |awk '{print $1}'" % vg_name pv_name = utils.system_output(cmd) lv_utils.vg_remove(vg_name) utils.run("pvremove %s" % pv_name) if cleanup_env[1]: utils_test.libvirt.setup_or_cleanup_iscsi(False) if cleanup_env[0]: utils_test.libvirt.setup_or_cleanup_nfs(False)
def create_pool(): """ Define and start a pool. """ sp = libvirt_storage.StoragePool() if create_by_xml: p_xml = pool_xml.PoolXML(pool_type=pool_type) p_xml.name = pool_name s_xml = pool_xml.SourceXML() s_xml.vg_name = disk_src_pool source_host = [] for (host_name, host_port) in zip(disk_src_host.split(), disk_src_port.split()): source_host.append({'name': host_name, 'port': host_port}) s_xml.hosts = source_host if auth_type: s_xml.auth_type = auth_type if auth_user: s_xml.auth_username = auth_user if auth_usage: s_xml.secret_usage = auth_usage p_xml.source = s_xml logging.debug("Pool xml: %s", p_xml) p_xml.xmltreefile.write() ret = virsh.pool_define(p_xml.xml, **virsh_dargs) libvirt.check_exit_status(ret) ret = virsh.pool_build(pool_name, **virsh_dargs) libvirt.check_exit_status(ret) ret = virsh.pool_start(pool_name, **virsh_dargs) libvirt.check_exit_status(ret) else: auth_opt = "" if client_name and client_key: auth_opt = ( "--auth-type %s --auth-username %s --secret-usage '%s'" % (auth_type, auth_user, auth_usage)) if not sp.define_rbd_pool( pool_name, mon_host, disk_src_pool, extra=auth_opt): test.fail("Failed to define storage pool") if not sp.build_pool(pool_name): test.fail("Failed to build storage pool") if not sp.start_pool(pool_name): test.fail("Failed to start storage pool") # Check pool operation ret = virsh.pool_refresh(pool_name, **virsh_dargs) libvirt.check_exit_status(ret) ret = virsh.pool_uuid(pool_name, **virsh_dargs) libvirt.check_exit_status(ret) # pool-info pool_info = sp.pool_info(pool_name) if pool_info["Autostart"] != 'no': test.fail("Failed to check pool information") # pool-autostart if not sp.set_pool_autostart(pool_name): test.fail("Failed to set pool autostart") pool_info = sp.pool_info(pool_name) if pool_info["Autostart"] != 'yes': test.fail("Failed to check pool information") # pool-autostart --disable if not sp.set_pool_autostart(pool_name, "--disable"): test.fail("Failed to set pool autostart") # If port is not pre-configured, port value should not be hardcoded in pool information. if "yes" == params.get("rbd_port", "no"): if 'port' in virsh.pool_dumpxml(pool_name): test.fail("port attribute should not be in pool information") # find-storage-pool-sources-as if "yes" == params.get("find_storage_pool_sources_as", "no"): ret = virsh.find_storage_pool_sources_as("rbd", mon_host) libvirt.check_result(ret, skip_if=unsupported_err)
def run(test, params, env): """ Test virsh vol-create-from command to cover the following matrix: pool = [source, destination] pool_type = [dir, disk, fs, logical, netfs, iscsi, scsi] volume_format = [raw, qcow2, qed] Note, both 'iscsi' and 'scsi' type pools don't support create volume by virsh, so which can't be destination pools. And for disk pool, it can't create volume with specified format. """ src_pool_type = params.get("src_pool_type") src_pool_target = params.get("src_pool_target") src_emulated_image = params.get("src_emulated_image") src_vol_format = params.get("src_vol_format") dest_pool_type = params.get("dest_pool_type") dest_pool_target = params.get("dest_pool_target") dest_emulated_image = params.get("dest_emulated_image") dest_vol_format = params.get("dest_vol_format") prealloc_option = params.get("prealloc_option") status_error = params.get("status_error", "no") if not libvirt_version.version_compare(1, 0, 0): if "--prealloc-metadata" in prealloc_option: test.cancel("metadata preallocation not supported in" " current libvirt version.") vol_file = "" try: # Create the src/dest pool src_pool_name = "virt-%s-pool" % src_pool_type dest_pool_name = "virt-%s-pool" % dest_pool_type pvt = utlv.PoolVolumeTest(test, params) pvt.pre_pool(src_pool_name, src_pool_type, src_pool_target, src_emulated_image, image_size="40M", pre_disk_vol=["1M"]) if src_pool_type != dest_pool_type: pvt.pre_pool(dest_pool_name, dest_pool_type, dest_pool_target, dest_emulated_image, image_size="100M", pre_disk_vol=["1M"]) # Print current pools for debugging logging.debug("Current pools:%s", libvirt_storage.StoragePool().list_pools()) # Create the src vol # 8M is the minimal size for logical volume(PPC) # 4M is the minimal size for logical volume(x86) vol_size = params.get("image_volume_size", "16777216") if src_pool_type in ["dir", "logical", "netfs", "fs"]: src_vol_name = "src_vol" pvt.pre_vol(vol_name=src_vol_name, vol_format=src_vol_format, capacity=vol_size, allocation=None, pool_name=src_pool_name) else: src_vol_name = list(utlv.get_vol_list(src_pool_name).keys())[0] # Prepare vol xml file dest_vol_name = "dest_vol" # According to BZ#1138523, we need inpect the right name # (disk partition) for new volume if dest_pool_type == "disk": dest_vol_name = utlv.new_disk_vol_name(dest_pool_name) if dest_vol_name is None: test.error("Fail to generate volume name") if dest_pool_type == "disk": dest_vol_format = "" prealloc_option = "" vol_xml = """ <volume> <name>%s</name> <capacity unit='bytes'>%s</capacity> <target> <format type='%s'/> </target> </volume> """ % (dest_vol_name, vol_size, dest_vol_format) logging.debug("Prepare the volume xml: %s", vol_xml) vol_file = os.path.join(test.tmpdir, "dest_vol.xml") with open(vol_file, 'w') as xml_object: xml_object.write(vol_xml) # iSCSI and SCSI type pool can't create vols via virsh if dest_pool_type in ["iscsi", "scsi"]: test.fail("Unsupport create vol for %s type pool" % dest_pool_type) # Metadata preallocation is not supported for block volumes if dest_pool_type in ["disk", "logical"]: prealloc_option = "" # Run run_virsh_vol_create_from to create dest vol cmd_result = virsh.vol_create_from(dest_pool_name, vol_file, src_vol_name, src_pool_name, prealloc_option, ignore_status=True, debug=True) status = cmd_result.exit_status # Check result if status_error == "no": if status == 0: dest_pv = libvirt_storage.PoolVolume(dest_pool_name) dest_volumes = list(dest_pv.list_volumes().keys()) logging.debug("Current volumes in %s: %s", dest_pool_name, dest_volumes) if dest_vol_name not in dest_volumes: test.fail("Can't find volume: % from pool: %s" % (dest_vol_name, dest_pool_name)) else: test.fail(cmd_result.stderr) else: if status: logging.debug("Expect error: %s", cmd_result.stderr) else: test.fail("Expect fail, but run successfully!") finally: # Cleanup: both src and dest should be removed try: pvt.cleanup_pool(src_pool_name, src_pool_type, src_pool_target, src_emulated_image) except exceptions.TestFail as detail: logging.error(str(detail)) if src_pool_type != dest_pool_type: pvt.cleanup_pool(dest_pool_name, dest_pool_type, dest_pool_target, dest_emulated_image) if os.path.isfile(vol_file): os.remove(vol_file)
def run(test, params, env): """ Test command: virsh pool-define;pool-start;vol-list pool; attach-device LUN to guest; mount the device, dd; unmount; reboot guest; mount the device, dd again; pool-destroy; pool-undefine; Create a libvirt npiv pool from an XML file. The test needs to have a wwpn and wwnn of a vhba in host which is zoned & mapped to a SAN controller. Pre-requiste: Host needs to have a wwpn and wwnn of a vHBA which is zoned and mapped to SAN controller. """ pool_xml_f = params.get("pool_create_xml_file", "/PATH/TO/POOL.XML") pool_name = params.get("pool_create_name", "virt_test_pool_tmp") pre_def_pool = "yes" == params.get("pre_def_pool", "no") pool_type = params.get("pool_type", "dir") source_format = params.get("pool_src_format", "") source_name = params.get("pool_source_name", "") source_path = params.get("pool_source_path", "/") pool_target = params.get("pool_target", "pool_target") pool_adapter_type = params.get("pool_adapter_type", "") pool_adapter_parent = params.get("pool_adapter_parent", "") target_device = params.get("pool_target_device", "sdc") pool_wwnn = params.get("pool_wwnn", "WWNN_EXAMPLE") pool_wwpn = params.get("pool_wwpn", "WWPN_EXAMPLE") test_unit = None mount_disk = None if 'EXAMPLE' in pool_wwnn or 'EXAMPLE' in pool_wwpn: raise exceptions.TestSkipError("Please provide proper WWPN/WWNN") vm_name = params.get("main_vm") vm = env.get_vm(vm_name) if not vm.is_alive(): vm.start() vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name) vmxml_backup = vmxml.copy() libvirt_vm = lib_vm.VM(vm_name, vm.params, vm.root_dir, vm.address_cache) pool_ins = libvirt_storage.StoragePool() if pre_def_pool and pool_ins.pool_exists(pool_name): raise exceptions.TestFail("Pool %s already exist" % pool_name) online_hbas_list = nodedev.find_hbas("hba") logging.debug("The online hbas are: %s", online_hbas_list) # if no online hba cards on host test fails if not online_hbas_list: raise exceptions.TestSkipError("Host doesn't have online hba cards") else: if pool_adapter_parent == "": pool_adapter_parent = online_hbas_list[0] kwargs = { 'source_path': source_path, 'source_name': source_name, 'source_format': source_format, 'pool_adapter_type': pool_adapter_type, 'pool_adapter_parent': pool_adapter_parent, 'pool_wwnn': pool_wwnn, 'pool_wwpn': pool_wwpn } pvt = utlv.PoolVolumeTest(test, params) emulated_image = "emulated-image" old_vhbas = nodedev.find_hbas("vhba") try: pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image, **kwargs) utils_misc.wait_for(lambda: nodedev.is_vhbas_added(old_vhbas), _DELAY_TIME) virsh.pool_dumpxml(pool_name, to_file=pool_xml_f) virsh.pool_destroy(pool_name) except Exception, e: pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image, **kwargs) raise exceptions.TestError( "Error occurred when prepare pool xml:\n %s" % e)
def run(test, params, env): """ Test command: virsh pool-edit. Edit the XML configuration for a storage pool('dir' type as default). 1) Edit pool by different methods. 2) Check the edit result and cleanup env. """ pool_ref = params.get("pool_ref", "name") pool_name = params.get("pool_name", "default") pool_uuid = params.get("pool_uuid", "") status_error = "yes" == params.get("status_error", "no") pool_type = params.get("pool_type", "dir") pool_target = os.path.join(data_dir.get_tmp_dir(), params.get("pool_target", "pool_target")) emulated_image = params.get("emulated_image", "emulated-image-disk") edit_target = params.get("edit_target", "target_path") pool = pool_name if pool_ref == "uuid": pool = pool_uuid poolxml = pool_xml.PoolXML() libvirt_pool = libvirt_storage.StoragePool() poolvolune_test = libvirt.PoolVolumeTest(test, params) check_pool_name = pool_name new_path = "" try: if not status_error: # Always prepare a pool for testing poolvolune_test.pre_pool(pool_name, pool_type, pool_target, emulated_image) if not pool_uuid and pool_ref == "uuid": pool = libvirt_pool.get_pool_uuid(pool_name) poolxml.xml = pool_xml.PoolXML().new_from_dumpxml(pool_name).xml logging.debug("Before edit pool:") poolxml.debug_xml() expect_value = "" # Test: Edit target path if edit_target == "pool_target_path": edit_cmd = [] new_path = os.path.join(data_dir.get_tmp_dir(), "new_path") os.mkdir(new_path) edit_cmd.append(":%s/<path>.*</<path>" + new_path.replace('/', '\/') + "<") pool_target = new_path expect_value = new_path # Test: Edit disk pool format type: elif edit_target == "pool_format_type": edit_cmd = [] new_format_type = params.get("pool_format", "gpt") edit_cmd.append(":%s/<format type=.*\/>/<format type='" + new_format_type + "'\/>/") expect_value = new_format_type # Test: Refine(Delete uuid, edit pool name and target path) elif edit_target == "pool_redefine": edit_cmd = [] new_pool_name = params.get("new_pool_name", "new_edit_pool") edit_cmd.append(":g/<uuid>/d") new_path = os.path.join(data_dir.get_tmp_dir(), "new_pool") os.mkdir(new_path) edit_cmd.append(":%s/<path>.*</<path>" + new_path.replace('/', '\/') + "<") edit_cmd.append(":%s/<name>" + pool_name + "</<name>" + new_pool_name + "<") pool_target = new_path check_pool_name = new_pool_name else: test.cancel("No edit method for %s" % edit_target) # run test and check the result edit_pool(test, pool, edit_cmd) if libvirt_pool.is_pool_active(pool_name): libvirt_pool.destroy_pool(pool_name) # After change the source format, we have to rebuild the pool to # overwrite the disk partition table if edit_target == "pool_format_type": libvirt_pool.build_pool(pool_name, '--overwrite', debug=True) if not libvirt_pool.start_pool(check_pool_name): test.fail("Fail to start pool after edit it") if not check_pool(check_pool_name, edit_target, expect_value): test.fail("Edit pool check fail") else: # negative test result = virsh.pool_edit(pool) libvirt.check_exit_status(result, status_error) finally: for pool in [pool_name, check_pool_name]: if libvirt_pool.pool_exists(pool): poolvolune_test.cleanup_pool(check_pool_name, pool_type, pool_target, emulated_image) if os.path.exists(new_path): os.rmdir(new_path)
def run(test, params, env): """ Test disk encryption option. 1.Prepare backend storage (blkdev/iscsi/gluster/ceph) 2.Use luks format to encrypt the backend storage 3.Prepare a disk xml indicating to the backend storage with valid/invalid luks password 4.Start VM with disk hot/cold plugged 5.Check some disk operations in VM 6.Check backend storage is still in luks format 7.Recover test environment """ vm_name = params.get("main_vm") vm = env.get_vm(vm_name) virsh_dargs = {'debug': True, 'ignore_status': True} def encrypt_dev(device, params): """ Encrypt device with luks format :param device: Storage deivce to be encrypted. :param params: From the dict to get encryption password. """ password = params.get("luks_encrypt_passwd", "password") size = params.get("luks_size", "500M") cmd = ( "qemu-img create -f luks " "--object secret,id=sec0,data=`printf '%s' | base64`,format=base64 " "-o key-secret=sec0 %s %s" % (password, device, size)) if process.system(cmd, shell=True): test.fail("Can't create a luks encrypted img by qemu-img") def check_dev_format(device, fmt="luks"): """ Check if device is in luks format :param device: Storage deivce to be checked. :param fmt: Expected disk format. :return: If device's format equals to fmt, return True, else return False. """ cmd_result = process.run("qemu-img" + ' -h', ignore_status=True, shell=True, verbose=False) if b'-U' in cmd_result.stdout: cmd = ("qemu-img info -U %s| grep -i 'file format' " "| grep -i %s" % (device, fmt)) else: cmd = ("qemu-img info %s| grep -i 'file format' " "| grep -i %s" % (device, fmt)) cmd_result = process.run(cmd, ignore_status=True, shell=True) if cmd_result.exit_status: test.fail("device %s is not in %s format. err is: %s" % (device, fmt, cmd_result.stderr)) 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 def create_vol(p_name, target_encrypt_params, vol_params): """ Create volume. :param p_name: Pool name. :param target_encrypt_params: encrypt parameters in dict. :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.encryption = volxml.new_encryption(**target_encrypt_params) v_xml.xmltreefile.write() ret = virsh.vol_create(p_name, v_xml.xml, **virsh_dargs) libvirt.check_exit_status(ret) def get_secret_list(): """ Get secret list. :return secret list """ logging.info("Get secret list ...") secret_list_result = virsh.secret_list() secret_list = secret_list_result.stdout.strip().splitlines() # First two lines contain table header followed by entries # for each secret, such as: # # UUID Usage # -------------------------------------------------------------------------------- # b4e8f6d3-100c-4e71-9f91-069f89742273 ceph client.libvirt secret secret_list = secret_list[2:] result = [] # If secret list is empty. if secret_list: for line in secret_list: # Split on whitespace, assume 1 column linesplit = line.split(None, 1) result.append(linesplit[0]) return result # 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 options. storage_size = params.get("storage_size", "1G") enable_auth = "yes" == params.get("enable_auth") # Luks encryption info, luks_encrypt_passwd is the password used to encrypt # luks image, and luks_secret_passwd is the password set to luks secret, you # can set a wrong password to luks_secret_passwd for negative tests luks_encrypt_passwd = params.get("luks_encrypt_passwd", "password") luks_secret_passwd = params.get("luks_secret_passwd", "password") # Backend storage auth info use_auth_usage = "yes" == params.get("use_auth_usage") if use_auth_usage: use_auth_uuid = False else: use_auth_uuid = "yes" == params.get("use_auth_uuid", "yes") auth_sec_usage_type = params.get("auth_sec_usage_type", "iscsi") auth_sec_usage_target = params.get("auth_sec_usage_target", "libvirtiscsi") 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") encryption_in_source = "yes" == params.get("encryption_in_source", "no") auth_in_source = "yes" == params.get("auth_in_source", "no") auth_sec_uuid = "" luks_sec_uuid = "" disk_auth_dict = {} disk_encryption_dict = {} pvt = None duplicated_encryption = "yes" == params.get("duplicated_encryption", "no") if ((encryption_in_source or auth_in_source) and not libvirt_version.version_compare(3, 9, 0)): test.cancel("Cannot put <encryption> or <auth> inside disk <source> " "in this libvirt version.") # Start VM and get all partions 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: # Clean up dirty secrets in test environments if there are. dirty_secret_list = get_secret_list() if dirty_secret_list: for dirty_secret_uuid in dirty_secret_list: virsh.secret_undefine(dirty_secret_uuid) # Create secret luks_sec_uuid = libvirt.create_secret(params) logging.debug("A secret created with uuid = '%s'", luks_sec_uuid) ret = virsh.secret_set_value(luks_sec_uuid, luks_secret_passwd, encode=True, debug=True) libvirt.check_exit_status(ret) # Setup backend storage if 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": if enable_auth: 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, 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 if use_auth_uuid: disk_auth_dict = { "auth_user": chap_user, "secret_type": auth_sec_usage_type, "secret_uuid": auth_sec_uuid } elif use_auth_usage: disk_auth_dict = { "auth_user": chap_user, "secret_type": auth_sec_usage_type, "secret_usage": auth_sec_usage_target } else: iscsi_target, lun_num = libvirt.setup_or_cleanup_iscsi( is_setup=True, is_login=False, image_size=storage_size, portal_ip=iscsi_host) 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) 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: # 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) else: device_source = "rbd:%s:mon_host=%s" % (ceph_disk_name, ceph_mon_ip) 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) 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) nfs_mount_dir = os.path.join(tmp_dir, pool_target) device_source = nfs_mount_dir + image_name 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 } vol_encryption_params = {} vol_encryption_params.update({"format": "luks"}) vol_encryption_params.update( {"secret": { "type": "passphrase", "uuid": luks_sec_uuid }}) 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_encryption_params, 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 else: test.cancel("Only iscsi/gluster/rbd/nfs can be tested for now.") logging.debug("device source is: %s", device_source) if backend_storage_type != "dir": encrypt_dev(device_source, params) # 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) if auth_in_source: disk_source.auth = disk_xml.new_auth(**disk_auth_dict) else: disk_xml.auth = disk_xml.new_auth(**disk_auth_dict) disk_encryption_dict = { "encryption": "luks", "secret": { "type": "passphrase", "uuid": luks_sec_uuid } } disk_encryption = disk_xml.new_encryption(**disk_encryption_dict) if encryption_in_source: disk_source.encryption = disk_encryption else: disk_xml.encryption = disk_encryption if duplicated_encryption: disk_xml.encryption = disk_encryption 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)) if hotplug_disk: result = virsh.attach_device(vm_name, disk_xml.xml, ignore_status=True, debug=True) libvirt.check_exit_status(result, status_error) if check_partitions and not status_error: if not check_in_vm(device_target, old_parts): test.fail("Check disk partitions in VM failed") check_dev_format(device_source) finally: # Recover VM. if vm.is_alive(): vm.destroy(gracefully=False) vmxml_backup.sync("--snapshots-metadata") # 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) # 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)
def run(test, params, env): """ Test command: virsh vol-resize Resize the capacity of the given volume (default bytes). 1. Define and start a given type pool. 2. Create a volume in the pool. 3. Do vol-resize. 4. Check the volume info. 5. Delete the volume and pool. TODO: Add volume shrink test after libvirt uptream support it. """ pool_name = params.get("pool_name") pool_type = params.get("pool_type") pool_target = params.get("pool_target") emulated_image = params.get("emulated_image") emulated_image_size = params.get("emulated_image_size") vol_name = params.get("vol_name") vol_format = params.get("vol_format") vol_capacity = params.get("vol_capacity") vol_new_capacity = params.get("vol_new_capacity") resize_option = params.get("resize_option", "") check_vol_size = "yes" == params.get("check_vol_size", "yes") status_error = "yes" == params.get("status_error", "no") b_luks_encrypt = "luks" == params.get("encryption_method") encryption_password = params.get("encryption_password", "redhat") secret_uuids = [] if not libvirt_version.version_compare(1, 0, 0): if "--allocate" in resize_option: test.cancel("'--allocate' flag is not supported in" " current libvirt version.") # libvirt acl polkit related params uri = params.get("virsh_uri") unpri_user = params.get('unprivileged_user') if unpri_user: if unpri_user.count('EXAMPLE'): unpri_user = '******' if not libvirt_version.version_compare(1, 1, 1): if params.get('setup_libvirt_polkit') == 'yes': test.cancel("API acl test not supported in current" " libvirt version.") libv_pvt = libvirt.PoolVolumeTest(test, params) try: libv_pool = libvirt_storage.StoragePool() # Raise error if given name pool already exist if libv_pool.pool_exists(pool_name): test.error("Pool '%s' already exist", pool_name) else: # Create a new pool libv_pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image, image_size=emulated_image_size) pool_info = libv_pool.pool_info(pool_name) for key in pool_info: logging.debug("Pool info: %s = %s", key, pool_info[key]) # Deal with vol_new_capacity, '--capacity' only accpet integer if vol_new_capacity == "pool_available": pool_avai = pool_info["Available"].split() vol_new_capacity = pool_avai[0].split('.')[0] + pool_avai[1] if vol_new_capacity == "pool_capacity": pool_capa = pool_info["Capacity"].split() vol_new_capacity = pool_capa[0].split('.')[0] + pool_capa[1] # Create a volume if b_luks_encrypt: luks_sec_uuid = create_luks_secret( os.path.join(pool_target, vol_name), test) secret_uuids.append(luks_sec_uuid) set_secret_value(encryption_password, luks_sec_uuid) create_luks_vol(vol_name, luks_sec_uuid, params, test) else: libv_pvt.pre_vol(vol_name=vol_name, vol_format=vol_format, capacity=vol_capacity, allocation=None, pool_name=pool_name) libv_vol = libvirt_storage.PoolVolume(pool_name) check_vol_info(libv_vol, vol_name, test) # The volume size may not accurate as we expect after resize, such as: # 1) vol_new_capacity = 1b with --delta option, the volume size will not # change; run # 2) vol_new_capacity = 1KB with --delta option, the volume size will # increase 1024 not 1000 # So we can disable volume size check after resize if check_vol_size: vol_path = libv_vol.list_volumes()[vol_name] expect_info = get_expect_info(vol_new_capacity, vol_path, test, resize_option) logging.debug("Expect volume info: %s", expect_info) else: expect_info = {} # Run vol-resize result = virsh.vol_resize(vol_name, vol_new_capacity, pool_name, resize_option, uri=uri, unprivileged_user=unpri_user, debug=True) if not status_error: if result.exit_status != 0: test.fail(result.stdout.strip() + result.stderr.strip()) else: if check_vol_info(libv_vol, vol_name, test, expect_info): logging.debug("Volume %s resize check pass.", vol_name) else: test.fail("Volume %s resize check fail." % vol_name) elif result.exit_status == 0: test.fail("Expect resize fail but run successfully.") finally: # Clean up try: libv_pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image) for secret_uuid in set(secret_uuids): virsh.secret_undefine(secret_uuid) except exceptions.TestFail as detail: logging.error(str(detail))
def run(test, params, env): """ Test the virsh pool commands (1) Define a given type pool (2) List pool with '--inactive --type' options (3) Dumpxml for the pool (4) Undefine the pool (5) Define pool by using the XML file in step (3) (6) Build the pool(except 'disk' type pool For 'fs' type pool, cover --overwrite and --no-overwrite options (7) Start the pool (8) List pool with '--persistent --type' options (9) Mark pool autostart (10) List pool with '--autostart --type' options (11) Restart libvirtd and list pool with '--autostart --persistent' options (12) Destroy the pool (13) Unmark pool autostart (14) Repeat step (11) (15) Start the pool (16) Get pool info (17) Get pool uuid by name (18) Get pool name by uuid (19) Refresh the pool For 'dir' type pool, touch a file under target path and refresh again to make the new file show in vol-list. (20) Check pool 'Capacity', 'Allocation' and 'Available' Create a over size vol in pool(expect fail), then check these values (21) Undefine the pool, and this should fail as pool is still active (22) Destroy the pool (23) Delete pool for 'dir' type pool. After the command, the pool object will still exist but target path will be deleted (24) Undefine the pool """ # Initialize the variables pool_name = params.get("pool_name", "temp_pool_1") pool_type = params.get("pool_type", "dir") pool_target = params.get("pool_target", "") source_format = params.get("source_format", "") source_name = params.get("pool_source_name", "gluster-vol1") source_path = params.get("pool_source_path", "/") # The file for dumped pool xml pool_xml = os.path.join(test.tmpdir, "pool.xml.tmp") if os.path.dirname(pool_target) is "": pool_target = os.path.join(test.tmpdir, pool_target) vol_name = params.get("vol_name", "temp_vol_1") # Use pool name as VG name status_error = "yes" == params.get("status_error", "no") vol_path = os.path.join(pool_target, vol_name) ip_protocal = params.get('ip_protocal', 'ipv4') if not libvirt_version.version_compare(1, 0, 0): if pool_type == "gluster": raise error.TestNAError("Gluster pool is not supported in current" " libvirt version.") def check_pool_list(pool_name, option="--all", expect_error=False): """ Check pool by running pool-list command with given option. :param pool_name: Name of the pool :param option: option for pool-list command :param expect_error: Boolean value, expect command success or fail """ found = False # Get the list stored in a variable result = virsh.pool_list(option, ignore_status=True) utlv.check_exit_status(result, False) output = re.findall(r"(\S+)\ +(\S+)\ +(\S+)[\ +\n]", str(result.stdout)) for item in output: if pool_name in item[0]: found = True break if found: logging.debug("Find pool '%s' in pool list.", pool_name) else: logging.debug("Not find pool %s in pool list.", pool_name) if expect_error and found: raise error.TestFail("Unexpect pool '%s' exist." % pool_name) if not expect_error and not found: raise error.TestFail("Expect pool '%s' doesn't exist." % pool_name) def check_vol_list(vol_name, pool_name): """ Check volume from the list :param vol_name: Name of the volume :param pool_name: Name of the pool """ found = False # Get the volume list stored in a variable result = virsh.vol_list(pool_name, ignore_status=True) utlv.check_exit_status(result) output = re.findall(r"(\S+)\ +(\S+)[\ +\n]", str(result.stdout)) for item in output: if vol_name in item[0]: found = True break if found: logging.debug("Find volume '%s' in pool '%s'.", vol_name, pool_name) else: raise error.TestFail("Not find volume '%s' in pool '%s'." % (vol_name, pool_name)) def is_in_range(actual, expected, error_percent): deviation = 100 - (100 * (float(actual) / float(expected))) logging.debug("Deviation: %0.2f%%", float(deviation)) return float(deviation) <= float(error_percent) def check_pool_info(pool_info, check_point, value): """ Check the pool name, uuid, etc. :param pool_info: A dict include pool's information :param key: Key of pool info dict, available value: Name, UUID, State Persistent, Autostart, Capacity, Allocation, Available :param value: Expect value of pool_info[key] """ if pool_info is None: raise error.TestFail("Pool info dictionary is needed.") val_tup = ('Capacity', 'Allocation', 'Available') if check_point in val_tup and float(value.split()[0]): # As from bytes to GiB, could cause deviation, and it should not # exceed 1 percent. if is_in_range(float(pool_info[check_point].split()[0]), float(value.split()[0]), 1): logging.debug("Pool '%s' is '%s'.", check_point, value) else: raise error.TestFail("Pool '%s' isn't '%s'." % (check_point, value)) else: if pool_info[check_point] == value: logging.debug("Pool '%s' is '%s'.", check_point, value) else: raise error.TestFail("Pool '%s' isn't '%s'." % (check_point, value)) # Stop multipathd to avoid start pool fail(For fs like pool, the new add # disk may in use by device-mapper, so start pool will report disk already # mounted error). multipathd = service.Factory.create_service("multipathd") multipathd_status = multipathd.status() if multipathd_status: multipathd.stop() # Run Testcase pvt = utlv.PoolVolumeTest(test, params) emulated_image = "emulated-image" kwargs = { 'image_size': '1G', 'pre_disk_vol': ['1M'], 'source_name': source_name, 'source_path': source_path, 'source_format': source_format, 'persistent': True, 'ip_protocal': ip_protocal } try: _pool = libvirt_storage.StoragePool() # Step (1) # Pool define pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image, **kwargs) # Step (2) # Pool list option = "--inactive --type %s" % pool_type check_pool_list(pool_name, option) # Step (3) # Pool dumpxml xml = virsh.pool_dumpxml(pool_name, to_file=pool_xml) logging.debug("Pool '%s' XML:\n%s", pool_name, xml) # Step (4) # Undefine pool result = virsh.pool_undefine(pool_name, ignore_status=True) utlv.check_exit_status(result) check_pool_list(pool_name, "--all", True) # Step (5) # Define pool from XML file result = virsh.pool_define(pool_xml) utlv.check_exit_status(result, status_error) # Step (6) # Buid pool, this step may fail for 'disk' and 'logical' types pool if pool_type not in ["disk", "logical"]: option = "" # Options --overwrite and --no-overwrite can only be used to # build a filesystem pool, but it will fail for now # if pool_type == "fs": # option = '--overwrite' result = virsh.pool_build(pool_name, option, ignore_status=True) utlv.check_exit_status(result) # Step (7) # Pool start result = virsh.pool_start(pool_name, ignore_status=True) utlv.check_exit_status(result) # Step (8) # Pool list option = "--persistent --type %s" % pool_type check_pool_list(pool_name, option) # Step (9) # Pool autostart result = virsh.pool_autostart(pool_name, ignore_status=True) utlv.check_exit_status(result) # Step (10) # Pool list option = "--autostart --type %s" % pool_type check_pool_list(pool_name, option) # Step (11) # Restart libvirtd and check the autostart pool utils_libvirtd.libvirtd_restart() option = "--autostart --persistent" check_pool_list(pool_name, option) # Step (12) # Pool destroy if virsh.pool_destroy(pool_name): logging.debug("Pool %s destroyed.", pool_name) else: raise error.TestFail("Destroy pool % failed." % pool_name) # Step (13) # Pool autostart disable result = virsh.pool_autostart(pool_name, "--disable", ignore_status=True) utlv.check_exit_status(result) # Step (14) # Repeat step (11) utils_libvirtd.libvirtd_restart() option = "--autostart" check_pool_list(pool_name, option, True) # Step (15) # Pool start # When libvirtd starts up, it'll check to see if any of the storage # pools have been activated externally. If so, then it'll mark the # pool as active. This is independent of autostart. # So a directory based storage pool is thus pretty much always active, # and so as the SCSI pool. if pool_type not in ["dir", 'scsi']: result = virsh.pool_start(pool_name, ignore_status=True) utlv.check_exit_status(result) # Step (16) # Pool info pool_info = _pool.pool_info(pool_name) logging.debug("Pool '%s' info:\n%s", pool_name, pool_info) # Step (17) # Pool UUID result = virsh.pool_uuid(pool_info["Name"], ignore_status=True) utlv.check_exit_status(result) check_pool_info(pool_info, "UUID", result.stdout.strip()) # Step (18) # Pool Name result = virsh.pool_name(pool_info["UUID"], ignore_status=True) utlv.check_exit_status(result) check_pool_info(pool_info, "Name", result.stdout.strip()) # Step (19) # Pool refresh for 'dir' type pool if pool_type == "dir": os.mknod(vol_path) result = virsh.pool_refresh(pool_name) utlv.check_exit_status(result) check_vol_list(vol_name, pool_name) # Step (20) # Create an over size vol in pool(expect fail), then check pool: # 'Capacity', 'Allocation' and 'Available' # For NFS type pool, there's a bug(BZ#1077068) about allocate volume, # and glusterfs pool not support create volume, so not test them if pool_type != "netfs": vol_capacity = "10000G" vol_allocation = "10000G" result = virsh.vol_create_as("oversize_vol", pool_name, vol_capacity, vol_allocation, "raw") utlv.check_exit_status(result, True) new_info = _pool.pool_info(pool_name) check_pool_info(pool_info, "Capacity", new_info['Capacity']) check_pool_info(pool_info, "Allocation", new_info['Allocation']) check_pool_info(pool_info, "Available", new_info['Available']) # Step (21) # Undefine pool, this should fail as the pool is active result = virsh.pool_undefine(pool_name, ignore_status=True) utlv.check_exit_status(result, expect_error=True) check_pool_list(pool_name, "", False) # Step (22) # Pool destroy if virsh.pool_destroy(pool_name): logging.debug("Pool %s destroyed.", pool_name) else: raise error.TestFail("Destroy pool % failed." % pool_name) # Step (23) # Pool delete for 'dir' type pool if pool_type == "dir": for f in os.listdir(pool_target): os.remove(os.path.join(pool_target, f)) result = virsh.pool_delete(pool_name, ignore_status=True) utlv.check_exit_status(result) option = "--inactive --type %s" % pool_type check_pool_list(pool_name, option) if os.path.exists(pool_target): raise error.TestFail("The target path '%s' still exist." % pool_target) result = virsh.pool_start(pool_name, ignore_status=True) utlv.check_exit_status(result, True) # Step (24) # Pool undefine result = virsh.pool_undefine(pool_name, ignore_status=True) utlv.check_exit_status(result) check_pool_list(pool_name, "--all", True) finally: # Clean up try: pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image, **kwargs) except error.TestFail, detail: logging.error(str(detail)) if multipathd_status: multipathd.start() if os.path.exists(pool_xml): os.remove(pool_xml)
def run(test, params, env): """ Test storage pool and volumes with applications such as: install vms, attached to vms... """ pool_type = params.get("pool_type") pool_name = "test_%s_app" % pool_type pool_target = params.get("pool_target") emulated_img = params.get("emulated_image", "emulated-image") volume_count = int(params.get("volume_count", 1)) volume_size = params.get("volume_size", "1G") emulated_size = "%sG" % (volume_count * int(volume_size[:-1]) + 1) application = params.get("application", "install") disk_target = params.get("disk_target", "vdb") test_message = params.get("test_message", "") vm_name = params.get("main_vm", "avocado-vt-vm1") block_device = params.get("block_device", "/DEV/EXAMPLE") if application == "install": cdrom_path = os.path.join(data_dir.get_data_dir(), params.get("cdrom_cd1")) if not os.path.exists(cdrom_path): raise error.TestNAError("Can't find installation cdrom:%s" % cdrom_path) # Get a nonexist domain name vm_name = "vol_install_test" try: pvtest = utlv.PoolVolumeTest(test, params) pvtest.pre_pool(pool_name, pool_type, pool_target, emulated_img, image_size=emulated_size, pre_disk_vol=[volume_size], device_name=block_device) logging.debug("Current pools:\n%s", libvirt_storage.StoragePool().list_pools()) new_pool = libvirt_storage.PoolVolume(pool_name) if pool_type == "disk": volumes = new_pool.list_volumes() logging.debug("Current volumes:%s", volumes) else: volumes = create_volumes(new_pool, volume_count, volume_size) if application == "attach": vm = env.get_vm(vm_name) session = vm.wait_for_login() virsh.attach_disk(vm_name, volumes.values()[volume_count - 1], disk_target) vm_attach_device = "/dev/%s" % disk_target if session.cmd_status("which parted"): # No parted command, check device only if session.cmd_status("ls %s" % vm_attach_device): raise error.TestFail("Didn't find attached device:%s" % vm_attach_device) return # Test if attached disk can be used normally utlv.mk_part(vm_attach_device, session=session) session.cmd("mkfs.ext4 %s1" % vm_attach_device) session.cmd("mount %s1 /mnt" % vm_attach_device) session.cmd("echo %s > /mnt/test" % test_message) output = session.cmd_output("cat /mnt/test").strip() if output != test_message: raise error.TestFail("%s cannot be used normally!" % vm_attach_device) elif application == "install": # Get a nonexist domain name anyway while virsh.domain_exists(vm_name): vm_name += "_test" # Prepare installation parameters params["main_vm"] = vm_name vm = env.create_vm("libvirt", None, vm_name, params, test.bindir) env.register_vm(vm_name, vm) params["image_name"] = volumes.values()[volume_count - 1] params["image_format"] = "raw" params['force_create_image'] = "yes" params['remove_image'] = "yes" params['shutdown_cleanly'] = "yes" params['shutdown_cleanly_timeout'] = 120 params['guest_port_unattended_install'] = 12323 params['inactivity_watcher'] = "error" params['inactivity_treshold'] = 1800 params['image_verify_bootable'] = "no" params['unattended_delivery_method'] = "cdrom" params['drive_index_unattended'] = 1 params['drive_index_cd1'] = 2 params['boot_once'] = "d" params['medium'] = "cdrom" params['wait_no_ack'] = "yes" params['image_raw_device'] = "yes" params['backup_image_before_testing'] = "no" params['kernel_params'] = ("ks=cdrom nicdelay=60 " "console=ttyS0,115200 console=tty0") params['cdroms'] = "unattended cd1" params['redirs'] += " unattended_install" selinux_mode = None try: selinux_mode = utils_selinux.get_status() utils_selinux.set_status("permissive") try: unattended_install.run(test, params, env) except process.CmdError, detail: raise error.TestFail("Guest install failed:%s" % detail) finally: if selinux_mode is not None: utils_selinux.set_status(selinux_mode) env.unregister_vm(vm_name) finally: try: if application == "install": if virsh.domain_exists(vm_name): virsh.remove_domain(vm_name) elif application == "attach": virsh.detach_disk(vm_name, disk_target) finally: pvtest.cleanup_pool(pool_name, pool_type, pool_target, emulated_img, device_name=block_device)
def run(test, params, env): """ This test cover two volume commands: vol-clone and vol-wipe. 1. Create a given type pool. 2. Create a given format volume in the pool. 3. Clone the new create volume. 4. Wipe the new clone volume. 5. Delete the volume and pool. """ pool_name = params.get("pool_name") pool_type = params.get("pool_type") pool_target = params.get("pool_target") if not os.path.dirname(pool_target): pool_target = os.path.join(data_dir.get_tmp_dir(), pool_target) emulated_image = params.get("emulated_image") emulated_image_size = params.get("emulated_image_size") vol_name = params.get("vol_name") new_vol_name = params.get("new_vol_name") vol_capability = params.get("vol_capability") vol_allocation = params.get("vol_allocation") vol_format = params.get("vol_format") clone_option = params.get("clone_option", "") wipe_algorithms = params.get("wipe_algorithms") b_luks_encrypted = "luks" == params.get("encryption_method") encryption_password = params.get("encryption_password", "redhat") secret_uuids = [] wipe_old_vol = False with_clusterSize = "yes" == params.get("with_clusterSize") vol_clusterSize = params.get("vol_clusterSize", "64") vol_clusterSize_unit = params.get("vol_clusterSize_unit") libvirt_version.is_libvirt_feature_supported(params) if virsh.has_command_help_match("vol-clone", "--prealloc-metadata") is None: if "prealloc-metadata" in clone_option: test.cancel("Option --prealloc-metadata " "is not supported.") clone_status_error = "yes" == params.get("clone_status_error", "no") wipe_status_error = "yes" == params.get("wipe_status_error", "no") setup_libvirt_polkit = "yes" == params.get("setup_libvirt_polkit") # libvirt acl polkit related params uri = params.get("virsh_uri") unpri_user = params.get('unprivileged_user') if unpri_user: if unpri_user.count('EXAMPLE'): unpri_user = '******' if not libvirt_version.version_compare(1, 1, 1): if setup_libvirt_polkit: test.cancel("API acl test not supported in current" " libvirt version.") # Using algorithms other than zero need scrub installed. try: utils_path.find_command('scrub') except utils_path.CmdNotFoundError: logging.warning("Can't locate scrub binary, only 'zero' algorithm " "is used.") valid_algorithms = ["zero"] else: valid_algorithms = [ "zero", "nnsa", "dod", "bsi", "gutmann", "schneier", "pfitzner7", "pfitzner33", "random" ] # Choose an algorithm randomly if wipe_algorithms: alg = random.choice(wipe_algorithms.split()) else: alg = random.choice(valid_algorithms) libvirt_pvt = utlv.PoolVolumeTest(test, params) libvirt_pool = libvirt_storage.StoragePool() if libvirt_pool.pool_exists(pool_name): test.error("Pool '%s' already exist" % pool_name) try: # Create a new pool disk_vol = [] if pool_type == 'disk': disk_vol.append(params.get("pre_vol", '10M')) libvirt_pvt.pre_pool(pool_name=pool_name, pool_type=pool_type, pool_target=pool_target, emulated_image=emulated_image, image_size=emulated_image_size, pre_disk_vol=disk_vol) libvirt_vol = libvirt_storage.PoolVolume(pool_name) # Create a new volume if vol_format in ['raw', 'qcow2', 'qed', 'vmdk']: if (b_luks_encrypted and vol_format in ['raw', 'qcow2']): if not libvirt_version.version_compare(2, 0, 0): test.cancel("LUKS is not supported in current" " libvirt version") if vol_format == "qcow2" and not libvirt_version.version_compare( 6, 10, 0): test.cancel("Qcow2 format with luks encryption is not" " supported in current libvirt version") luks_sec_uuid = create_luks_secret( os.path.join(pool_target, vol_name), encryption_password, test) secret_uuids.append(luks_sec_uuid) vol_arg = {} vol_arg['name'] = vol_name vol_arg['capacity'] = int(vol_capability) vol_arg['allocation'] = int(vol_allocation) vol_arg['format'] = vol_format if with_clusterSize: vol_arg['clusterSize'] = int(vol_clusterSize) vol_arg['clusterSize_unit'] = vol_clusterSize_unit create_luks_vol(pool_name, vol_name, luks_sec_uuid, vol_arg) else: libvirt_pvt.pre_vol(vol_name=vol_name, vol_format=vol_format, capacity=vol_capability, allocation=None, pool_name=pool_name) elif vol_format == 'partition': vol_name = list(utlv.get_vol_list(pool_name).keys())[0] logging.debug("Find partition %s in disk pool", vol_name) elif vol_format == 'sparse': # Create a sparse file in pool sparse_file = pool_target + '/' + vol_name cmd = "dd if=/dev/zero of=" + sparse_file cmd += " bs=1 count=0 seek=" + vol_capability process.run(cmd, ignore_status=True, shell=True) else: test.error("Unknown volume format %s" % vol_format) # Refresh the pool virsh.pool_refresh(pool_name, debug=True) vol_info = libvirt_vol.volume_info(vol_name) if not vol_info: test.error("Fail to get info of volume %s" % vol_name) for key in vol_info: logging.debug("Original volume info: %s = %s", key, vol_info[key]) # Metadata preallocation is not support for block volume if vol_info["Type"] == "block" and clone_option.count( "prealloc-metadata"): clone_status_error = True if b_luks_encrypted: wipe_old_vol = True if pool_type == "disk": new_vol_name = utlv.new_disk_vol_name(pool_name) if new_vol_name is None: test.error("Fail to generate volume name") # update polkit rule as the volume name changed if setup_libvirt_polkit: vol_pat = r"lookup\('vol_name'\) == ('\S+')" new_value = "lookup('vol_name') == '%s'" % new_vol_name utlv.update_polkit_rule(params, vol_pat, new_value) bad_cloned_vol_name = params.get("bad_cloned_vol_name", "") if bad_cloned_vol_name: new_vol_name = bad_cloned_vol_name # Clone volume clone_result = virsh.vol_clone(vol_name, new_vol_name, pool_name, clone_option, debug=True) if not clone_status_error: if clone_result.exit_status != 0: test.fail("Clone volume fail:\n%s" % clone_result.stderr.strip()) else: vol_info = libvirt_vol.volume_info(new_vol_name) for key in vol_info: logging.debug("Cloned volume info: %s = %s", key, vol_info[key]) logging.debug("Clone volume successfully.") # Wipe the new clone volume if alg: logging.debug("Wiping volume by '%s' algorithm", alg) wipe_result = virsh.vol_wipe(new_vol_name, pool_name, alg, unprivileged_user=unpri_user, uri=uri, debug=True) unsupported_err = [ "Unsupported algorithm", "no such pattern sequence" ] if not wipe_status_error: if wipe_result.exit_status != 0: if any(err in wipe_result.stderr for err in unsupported_err): test.cancel(wipe_result.stderr) test.fail("Wipe volume fail:\n%s" % clone_result.stdout.strip()) else: virsh_vol_info = libvirt_vol.volume_info(new_vol_name) for key in virsh_vol_info: logging.debug("Wiped volume info(virsh): %s = %s", key, virsh_vol_info[key]) vol_path = virsh.vol_path(new_vol_name, pool_name).stdout.strip() qemu_vol_info = utils_misc.get_image_info(vol_path) for key in qemu_vol_info: logging.debug("Wiped volume info(qemu): %s = %s", key, qemu_vol_info[key]) if qemu_vol_info['format'] != 'raw': test.fail("Expect wiped volume " "format is raw") elif wipe_status_error and wipe_result.exit_status == 0: test.fail("Expect wipe volume fail, but run" " successfully.") elif clone_status_error and clone_result.exit_status == 0: test.fail("Expect clone volume fail, but run" " successfully.") if wipe_old_vol: # Wipe the old volume if alg: logging.debug("Wiping volume by '%s' algorithm", alg) wipe_result = virsh.vol_wipe(vol_name, pool_name, alg, unprivileged_user=unpri_user, uri=uri, debug=True) unsupported_err = [ "Unsupported algorithm", "no such pattern sequence" ] if not wipe_status_error: if wipe_result.exit_status != 0: if any(err in wipe_result.stderr for err in unsupported_err): test.cancel(wipe_result.stderr) test.fail("Wipe volume fail:\n%s" % clone_result.stdout.strip()) else: virsh_vol_info = libvirt_vol.volume_info(vol_name) for key in virsh_vol_info: logging.debug("Wiped volume info(virsh): %s = %s", key, virsh_vol_info[key]) vol_path = virsh.vol_path(vol_name, pool_name).stdout.strip() qemu_vol_info = utils_misc.get_image_info(vol_path) for key in qemu_vol_info: logging.debug("Wiped volume info(qemu): %s = %s", key, qemu_vol_info[key]) if qemu_vol_info['format'] != 'raw': test.fail("Expect wiped volume " "format is raw") elif wipe_status_error and wipe_result.exit_status == 0: test.fail("Expect wipe volume fail, but run" " successfully.") if bad_cloned_vol_name: pattern = "volume name '%s' cannot contain '/'" % new_vol_name if re.search(pattern, clone_result.stderr) is None: test.fail("vol-clone failed with unexpected reason") finally: # Clean up try: libvirt_pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image) for secret_uuid in set(secret_uuids): virsh.secret_undefine(secret_uuid) except exceptions.TestFail as detail: logging.error(str(detail))
def run(test, params, env): """ Test pool command:virsh pool_autostart 1) Define a given type pool 2) Mark pool as autostart 3) Restart libvirtd and check pool 4) Destroy the pool 5) Unmark pool as autostart 6) Repeate step(3) """ # Initialize the variables pool_name = params.get("pool_name", "temp_pool_1") pool_type = params.get("pool_type", "dir") pool_target = params.get("pool_target", "") source_format = params.get("source_format", "") source_name = params.get("pool_source_name", "gluster-vol1") source_path = params.get("pool_source_path", "/") ip_protocal = params.get("ip_protocal", "ipv4") pool_ref = params.get("pool_ref", "name") pool_uuid = params.get("pool_uuid", "") invalid_source_path = params.get("invalid_source_path", "") status_error = "yes" == params.get("status_error", "no") readonly_mode = "yes" == params.get("readonly_mode", "no") pre_def_pool = "yes" == params.get("pre_def_pool", "yes") disk_type = params.get("disk_type", "") vg_name = params.get("vg_name", "") lv_name = params.get("lv_name", "") update_policy = params.get("update_policy") # Readonly mode ro_flag = False if readonly_mode: logging.debug("Readonly mode test") ro_flag = True if pool_target is "": pool_target = os.path.join(test.tmpdir, pool_target) # The file for dumped pool xml p_xml = os.path.join(test.tmpdir, "pool.xml.tmp") if not libvirt_version.version_compare(1, 0, 0): if pool_type == "gluster": test.cancel("Gluster pool is not supported in current" " libvirt version.") pool_ins = libvirt_storage.StoragePool() if pool_ins.pool_exists(pool_name): test.fail("Pool %s already exist" % pool_name) def check_pool(pool_name, pool_type, checkpoint, expect_value="", expect_error=False): """ Check the pool after autostart it :param pool_name: Name of the pool. :param pool_type: Type of the pool. :param checkpoint: Which part for checking. :param expect_value: Expected value. :param expect_error: Boolen value, expect command success or fail """ libvirt_pool = libvirt_storage.StoragePool() virsh.pool_list(option="--all", debug=True) if checkpoint == 'State': actual_value = libvirt_pool.pool_state(pool_name) if checkpoint == 'Autostart': actual_value = libvirt_pool.pool_autostart(pool_name) if actual_value != expect_value: if not expect_error: if checkpoint == 'State' and pool_type in ("dir", "scsi"): debug_msg = "Dir pool should be always active when libvirtd restart. " debug_msg += "See https://bugzilla.redhat.com/show_bug.cgi?id=1238610" logging.debug(debug_msg) else: test.fail("Pool %s isn't %s as expected" % (checkpoint, expect_value)) else: logging.debug("Pool %s is %s as expected", checkpoint, actual_value) def change_source_path(new_path, update_policy="set"): n_poolxml = pool_xml.PoolXML() n_poolxml = n_poolxml.new_from_dumpxml(pool_name) s_xml = n_poolxml.get_source() s_xml.device_path = new_path if update_policy == "set": n_poolxml.set_source(s_xml) elif update_policy == "add": n_poolxml.add_source("device", {"path": new_path}) else: test.error("Unsupported policy type") logging.debug("After change_source_path:\n%s" % open(n_poolxml.xml).read()) return n_poolxml # Run Testcase pvt = utlv.PoolVolumeTest(test, params) kwargs = { 'image_size': '1G', 'pre_disk_vol': ['100M'], 'source_name': source_name, 'source_path': source_path, 'source_format': source_format, 'persistent': True, 'ip_protocal': ip_protocal, 'emulated_image': "emulated-image", 'pool_target': pool_target } params.update(kwargs) pool = pool_name clean_mount = False new_device = None try: if pre_def_pool: # Step(1) # Pool define pvt.pre_pool(**params) # Remove the partition for disk pool # For sometimes the partition will cause pool start failed if pool_type == "disk": virsh.pool_build(pool_name, "--overwrite", debug=True) # Get pool uuid: if pool_ref == "uuid" and not pool_uuid: pool = pool_ins.get_pool_uuid(pool_name) # Setup logical block device # Change pool source path # Undefine pool # Define pool with new xml # Start pool if update_policy: new_device = utlv.setup_or_cleanup_iscsi(True) lv_utils.vg_create(vg_name, new_device) new_device = utlv.create_local_disk(disk_type, size="0.5", vgname=vg_name, lvname=lv_name) new_path = new_device if invalid_source_path: new_path = invalid_source_path if pool_type == "fs": utlv.mkfs(new_device, source_format) n_poolxml = change_source_path(new_path, update_policy) p_xml = n_poolxml.xml if not virsh.pool_undefine(pool_name): test.fail("Undefine pool %s failed" % pool_name) if not virsh.pool_define(p_xml): test.fail("Define pool %s from %s failed" % (pool_name, p_xml)) logging.debug("Start pool %s" % pool_name) result = virsh.pool_start(pool_name, ignore_status=True, debug=True) utlv.check_exit_status(result, status_error) # Mount a valid fs to pool target if pool_type == "fs": source_list = [] mnt_cmd = "" pool_target = n_poolxml.target_path if invalid_source_path: source_list.append(new_device) else: s_devices = n_poolxml.xmltreefile.findall( "//source/device") for dev in s_devices: source_list.append(dev.get('path')) try: for src in source_list: mnt_cmd = "mount %s %s" % (src, pool_target) if not process.system(mnt_cmd, shell=True): clean_mount = True except process.CmdError: test.error("Failed to run %s" % mnt_cmd) # Step(2) # Pool autostart logging.debug("Try to mark pool %s as autostart" % pool_name) result = virsh.pool_autostart(pool, readonly=ro_flag, ignore_status=True, debug=True) if not pre_def_pool: utlv.check_exit_status(result, status_error) if not result.exit_status: check_pool(pool_name, pool_type, checkpoint='Autostart', expect_value="yes", expect_error=status_error) # Step(3) # Restart libvirtd and check pool status logging.info("Try to restart libvirtd") libvirtd = utils_libvirtd.Libvirtd() libvirtd.restart() check_pool(pool_name, pool_type, checkpoint="State", expect_value="active", expect_error=status_error) # Step(4) # Pool destroy if pool_ins.is_pool_active(pool_name): virsh.pool_destroy(pool_name) logging.debug("Pool %s destroyed" % pool_name) # Step(5) # Pool autostart disable logging.debug("Try to unmark pool %s as autostart" % pool_name) result = virsh.pool_autostart(pool, extra="--disable", debug=True, ignore_status=True) if not pre_def_pool: utlv.check_exit_status(result, status_error) if not result.exit_status: check_pool(pool_name, pool_type, checkpoint='Autostart', expect_value="no", expect_error=status_error) # Repeat step (3) logging.debug("Try to restart libvirtd") libvirtd = utils_libvirtd.Libvirtd() libvirtd.restart() check_pool(pool_name, pool_type, checkpoint='State', expect_value="inactive", expect_error=status_error) finally: # Clean up logging.debug("Try to clean up env") try: if clean_mount is True: for src in source_list: process.system("umount %s" % pool_target) if pre_def_pool: pvt.cleanup_pool(**params) if new_device: utlv.delete_local_disk(disk_type, vgname=vg_name, lvname=lv_name) lv_utils.vg_remove(vg_name) utlv.setup_or_cleanup_iscsi(False) if os.path.exists(p_xml): os.remove(p_xml) except exceptions.TestFail as details: libvirtd = utils_libvirtd.Libvirtd() libvirtd.restart() logging.error(str(details))
def run(test, params, env): """ Test command: virsh pool-define-as; pool-build; pool-start; vol-create-as; vol-list; attach-device; login; mount and dd; reboot; check persistence; detach-device; pool-destroy; pool-undefine; clear lv,vg and pv; Create a libvirt npiv pool from a vHBA's device mapper device and create a volume out of the newly created pool and attach it to a guest, mount it, reboot and check persistence after reboot. Pre-requisite : Host should have a vHBA associated with a mpath device """ pool_name = params.get("pool_create_name", "virt_test_pool_tmp") pool_type = params.get("pool_type", "dir") scsi_wwpn = params.get("scsi_wwpn", "WWPN_EXAMPLE") scsi_wwnn = params.get("scsi_wwnn", "WWNN_EXAMPLE") pool_target = params.get("pool_target", "pool_target") target_device = params.get("disk_target_dev", "vda") volume_name = params.get("volume_name", "imagefrommapper.qcow2") volume_capacity = params.get("volume_capacity", '1G') allocation = params.get("allocation", '1G') frmt = params.get("volume_format", 'qcow2') vm_name = params.get("main_vm") vm = env.get_vm(vm_name) mount_disk = None test_unit = None if 'EXAMPLE' in scsi_wwnn or 'EXAMPLE' in scsi_wwpn: raise exceptions.TestSkipError("Please provide proper WWPN/WWNN") if not vm.is_alive(): vm.start() pool_extra_args = "" libvirt_vm = lib_vm.VM(vm_name, vm.params, vm.root_dir, vm.address_cache) process.run("service multipathd restart", shell=True) online_hbas_list = nodedev.find_hbas("hba") first_online_hba = online_hbas_list[0] old_mpath_devs = nodedev.find_mpath_devs() logging.debug("the old mpath devs are: %s" % old_mpath_devs) new_vhbas = nodedev.nodedev_create_from_xml({ "nodedev_parent": first_online_hba, "scsi_wwnn": scsi_wwnn, "scsi_wwpn": scsi_wwpn }) logging.info("Newly created vHBA %s" % new_vhbas) process.run("service multipathd restart", shell=True) utils_misc.wait_for(lambda: nodedev.is_mpath_devs_added(old_mpath_devs), timeout=5) cur_mpath_devs = nodedev.find_mpath_devs() logging.debug("the current mpath devs are: %s" % cur_mpath_devs) new_mpath_devs = list(set(cur_mpath_devs).difference(set(old_mpath_devs))) logging.debug("newly added mpath devs are: %s" % new_mpath_devs) if not new_mpath_devs: raise exceptions.TestFail("No newly added mpath devices found, \ please check your FC settings") source_dev = os.path.join('/dev/mapper/', new_mpath_devs[0]) logging.debug("We are going to use \"%s\" as our source device" " to create a logical pool" % source_dev) cmd = "parted %s mklabel msdos -s" % source_dev cmd_result = process.run(cmd, shell=True) utlv.check_exit_status(cmd_result) if source_dev: pool_extra_args = ' --source-dev %s' % source_dev else: raise exceptions.TestFail( "The vHBA %s does not have any associated mpath device" % new_vhbas) pool_ins = libvirt_storage.StoragePool() if pool_ins.pool_exists(pool_name): raise exceptions.TestFail("Pool %s already exist" % pool_name) # if no online hba cards on host, mark case failed if not online_hbas_list: raise exceptions.TestSkipError("Host doesn't have online hba cards") try: cmd_result = virsh.pool_define_as(pool_name, pool_type, pool_target, pool_extra_args, ignore_status=True, debug=True) utlv.check_exit_status(cmd_result) cmd_result = virsh.pool_build(pool_name) utlv.check_exit_status(cmd_result) cmd_result = virsh.pool_start(pool_name) utlv.check_exit_status(cmd_result) utlv.check_actived_pool(pool_name) pool_detail = libvirt_xml.PoolXML.get_pool_details(pool_name) logging.debug("Pool detail: %s", pool_detail) cmd_result = virsh.vol_create_as(volume_name, pool_name, volume_capacity, allocation, frmt, "", debug=True) utlv.check_exit_status(cmd_result) vol_list = utlv.get_vol_list(pool_name, timeout=10) logging.debug('Volume list %s', vol_list) for unit in vol_list: test_unit = vol_list[unit] logging.debug(unit) disk_params = { 'type_name': "file", 'target_dev': target_device, 'target_bus': "virtio", 'source_file': test_unit, 'driver_name': "qemu", 'driver_type': "raw" } disk_xml = utlv.create_disk_xml(disk_params) session = vm.wait_for_login() bf_disks = libvirt_vm.get_disks() attach_success = virsh.attach_device(vm_name, disk_xml, debug=True) utlv.check_exit_status(attach_success) logging.debug("Disks before attach: %s", bf_disks) af_disks = libvirt_vm.get_disks() logging.debug("Disks after attach: %s", af_disks) mount_disk = "".join(list(set(bf_disks) ^ set(af_disks))) if not mount_disk: raise exceptions.TestFail("Can not get attached device in vm.") logging.debug("Attached device in vm:%s", mount_disk) output = session.cmd_status_output('lsblk', timeout=15) logging.debug("%s", output[1]) session.cmd_status_output('mkfs.ext4 %s' % mount_disk) if mount_disk: logging.info("%s", mount_disk) mount_success = mount_and_dd(session, mount_disk) if not mount_success: raise exceptions.TestFail("Can not find mounted device") session.close() virsh.reboot(vm_name, debug=True) session = vm.wait_for_login() output = session.cmd_status_output('mount') logging.debug("Mount output: %s", output[1]) if '/mnt' in output[1]: logging.debug("Mount Successful accross reboot") session.close() status = virsh.detach_device(vm_name, disk_xml, debug=True) utlv.check_exit_status(status) finally: vm.destroy(gracefully=False) logging.debug('Destroying pool %s', pool_name) virsh.pool_destroy(pool_name) logging.debug('Undefining pool %s', pool_name) virsh.pool_undefine(pool_name) if test_unit: process.system('lvremove -f %s' % test_unit, verbose=True) process.system('vgremove -f %s' % pool_name, verbose=True) process.system('pvremove -f %s' % source_dev, verbose=True) if new_vhbas: nodedev.vhbas_cleanup(new_vhbas.split()) process.run("service multipathd restart", shell=True)
def run(test, params, env): """ Test command: virsh vol-resize Resize the capacity of the given volume (default bytes). 1. Define and start a given type pool. 2. Create a volume in the pool. 3. Do vol-resize. 4. Check the volume info. 5. Delete the volume and pool. TODO: Add volume shrink test after libvirt uptream support it. """ pool_name = params.get("pool_name") pool_type = params.get("pool_type") pool_target = params.get("pool_target") emulated_image = params.get("emulated_image") emulated_image_size = params.get("emulated_image_size") vol_name = params.get("vol_name") vol_format = params.get("vol_format") vol_capacity = params.get("vol_capacity") vol_new_capacity = params.get("vol_new_capacity") resize_option = params.get("resize_option", "") check_vol_size = "yes" == params.get("check_vol_size", "yes") status_error = "yes" == params.get("status_error", "no") # libvirt acl polkit related params uri = params.get("virsh_uri") unpri_user = params.get('unprivileged_user') if unpri_user: if unpri_user.count('EXAMPLE'): unpri_user = '******' if not libvirt_version.version_compare(1, 1, 1): if params.get('setup_libvirt_polkit') == 'yes': raise error.TestNAError("API acl test not supported in current" + " libvirt version.") libv_pvt = libvirt.PoolVolumeTest(test, params) try: libv_pool = libvirt_storage.StoragePool() pool_rename_times = 0 # Rename pool if given name pool exist, the max rename times is 5 while libv_pool.pool_exists(pool_name) and pool_rename_times < 5: logging.debug("Pool '%s' already exist.", pool_name) pool_name = pool_name + "_t" logging.debug("Using a new name '%s' to define pool.", pool_name) pool_rename_times += 1 else: # Create a new pool libv_pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image, emulated_image_size) pool_info = libv_pool.pool_info(pool_name) for key in pool_info: logging.debug("Pool info: %s = %s", key, pool_info[key]) # Deal with vol_new_capacity, '--capacity' only accpet integer if vol_new_capacity == "pool_available": pool_avai = pool_info["Available"].split() vol_new_capacity = pool_avai[0].split('.')[0] + pool_avai[1] if vol_new_capacity == "pool_capacity": pool_capa = pool_info["Capacity"].split() vol_new_capacity = pool_capa[0].split('.')[0] + pool_capa[1] # Create a volume libv_pvt.pre_vol(vol_name=vol_name, vol_format=vol_format, capacity=vol_capacity, allocation=None, pool_name=pool_name) libv_vol = libvirt_storage.PoolVolume(pool_name) check_vol_info(libv_vol, vol_name) # The volume size may not accurate as we expect after resize, such as: # 1) vol_new_capacity = 1b with --delta option, the volume size will not # change; run # 2) vol_new_capacity = 1KB with --delta option, the volume size will # increase 1024 not 1000 # So we can disable volume size check after resize if check_vol_size: vol_path = libv_vol.list_volumes()[vol_name] expect_info = get_expect_info(vol_new_capacity, vol_path, resize_option) logging.debug("Expect volume info: %s", expect_info) else: expect_info = {} # Run vol-resize result = virsh.vol_resize(vol_name, vol_new_capacity, pool_name, resize_option, uri=uri, unprivileged_user=unpri_user, debug=True) if not status_error: if result.exit_status != 0: raise error.TestFail(result.stdout.strip()) else: if check_vol_info(libv_vol, vol_name, expect_info): logging.debug("Volume %s resize check pass.", vol_name) else: raise error.TestFail("Volume %s resize check fail." % vol_name) elif result.exit_status == 0: raise error.TestFail("Expect resize fail but run successfully.") finally: # Clean up try: libv_pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image) except error.TestFail, detail: logging.error(str(detail))
def run(test, params, env): """ 1. prepare a fc lun with one of following methods - create a scsi pool&vol - create a vhba 2. prepare the virtual disk xml, as one of following - source = /dev/disk/by-path - source = /dev/mapper/mpathX - source = pool&vol format 3. start a vm with above disk as vdb 4. create disk-only snapshot of vdb 5. check the snapshot-list and snapshot file's existence 6. mount vdb and touch file to it 7. revert the snapshot and check file's existence 8. delete snapshot 9. cleanup env. """ vm_name = params.get("main_vm", "avocado-vt-vm1") wwpn = params.get("wwpn", "WWPN_EXAMPLE") wwnn = params.get("wwnn", "WWNN_EXAMPLE") disk_device = params.get("disk_device", "disk") disk_type = params.get("disk_type", "file") disk_size = params.get("disk_size", "100M") device_target = params.get("device_target", "vdb") driver_name = params.get("driver_name", "qemu") driver_type = params.get("driver_type", "raw") target_bus = params.get("target_bus", "virtio") vd_format = params.get("vd_format", "") snapshot_dir = params.get("snapshot_dir", "/tmp") snapshot_name = params.get("snapshot_name", "s1") pool_name = params.get("pool_name", "") pool_target = params.get("pool_target", "/dev") snapshot_disk_only = "yes" == params.get("snapshot_disk_only", "no") new_vhbas = [] current_vhbas = [] new_vhba = [] path_to_blk = "" lun_sl = [] new_disk = "" pool_ins = None old_mpath_conf = "" mpath_conf_path = "/etc/multipath.conf" original_mpath_conf_exist = os.path.exists(mpath_conf_path) vm = env.get_vm(vm_name) online_hbas = utils_npiv.find_hbas("hba") if not online_hbas: raise exceptions.TestSkipError("There is no online hba cards.") old_mpath_conf = utils_npiv.prepare_multipath_conf( conf_path=mpath_conf_path, replace_existing=True) first_online_hba = online_hbas[0] old_vhbas = utils_npiv.find_hbas("vhba") if vm.is_dead(): vm.start() session = vm.wait_for_login() virt_vm = libvirt_vm.VM(vm_name, vm.params, vm.root_dir, vm.address_cache) old_disks = virt_vm.get_disks() if vm.is_alive(): vm.destroy(gracefully=False) if pool_name: pool_ins = libvirt_storage.StoragePool() vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name) vmxml_backup = vmxml.copy() try: # prepare a fc lun if vd_format in ['scsi_vol']: if pool_ins.pool_exists(pool_name): raise exceptions.TestFail("Pool %s already exist" % pool_name) prepare_scsi_pool(pool_name, wwnn, wwpn, first_online_hba, pool_target) utils_misc.wait_for(lambda: utils_npiv.is_vhbas_added(old_vhbas), timeout=_TIMEOUT) if not utils_npiv.is_vhbas_added(old_vhbas): raise exceptions.TestFail("vHBA not successfully created") current_vhbas = utils_npiv.find_hbas("vhba") new_vhba = list(set(current_vhbas).difference(set(old_vhbas)))[0] new_vhbas.append(new_vhba) new_vhba_scsibus = re.sub("\D", "", new_vhba) utils_misc.wait_for(lambda: get_blks_by_scsi(new_vhba_scsibus), timeout=_TIMEOUT) new_blks = get_blks_by_scsi(new_vhba_scsibus) if not new_blks: raise exceptions.TestFail( "block device not found with scsi_%s", new_vhba_scsibus) vol_list = utlv.get_vol_list(pool_name, vol_check=True, timeout=_TIMEOUT * 3) path_to_blk = list(vol_list.values())[0] elif vd_format in ['mpath', 'by_path']: old_mpath_devs = utils_npiv.find_mpath_devs() new_vhba = utils_npiv.nodedev_create_from_xml({ "nodedev_parent": first_online_hba, "scsi_wwnn": wwnn, "scsi_wwpn": wwpn }) utils_misc.wait_for(lambda: utils_npiv.is_vhbas_added(old_vhbas), timeout=_TIMEOUT * 2) if not new_vhba: raise exceptions.TestFail("vHBA not successfully generated.") new_vhbas.append(new_vhba) if vd_format == "mpath": utils_misc.wait_for( lambda: utils_npiv.is_mpath_devs_added(old_mpath_devs), timeout=_TIMEOUT * 5) if not utils_npiv.is_mpath_devs_added(old_mpath_devs): raise exceptions.TestFail("mpath dev not generated.") cur_mpath_devs = utils_npiv.find_mpath_devs() new_mpath_devs = list( set(cur_mpath_devs).difference(set(old_mpath_devs))) logging.debug("The newly added mpath dev is: %s", new_mpath_devs) path_to_blk = "/dev/mapper/" + new_mpath_devs[0] elif vd_format == "by_path": new_vhba_scsibus = re.sub("\D", "", new_vhba) utils_misc.wait_for(lambda: get_blks_by_scsi(new_vhba_scsibus), timeout=_TIMEOUT) new_blks = get_blks_by_scsi(new_vhba_scsibus) if not new_blks: raise exceptions.TestFail("blk dev not found with scsi_%s", new_vhba_scsibus) first_blk_dev = new_blks[0] utils_misc.wait_for(lambda: get_symbols_by_blk(first_blk_dev), timeout=_TIMEOUT) lun_sl = get_symbols_by_blk(first_blk_dev) if not lun_sl: raise exceptions.TestFail( "lun symbolic links not found in " "/dev/disk/by-path/ for %s" % first_blk_dev) lun_dev = lun_sl[0] path_to_blk = os.path.join(_BY_PATH_DIR, lun_dev) else: pass else: raise exceptions.TestSkipError("Not provided how to pass" "virtual disk to VM.") # create qcow2 file on the block device with specified size if path_to_blk: cmd = "qemu-img create -f qcow2 %s %s" % (path_to_blk, disk_size) try: process.run(cmd, shell=True) except process.cmdError as detail: raise exceptions.TestFail( "Fail to create qcow2 on blk dev: %s", detail) else: raise exceptions.TestFail("Don't have a valid path to blk dev.") # prepare disk xml if "vol" in vd_format: vol_list = utlv.get_vol_list(pool_name, vol_check=True, timeout=_TIMEOUT * 3) test_vol = list(vol_list.keys())[0] disk_params = { 'type_name': disk_type, 'target_dev': device_target, 'target_bus': target_bus, 'source_pool': pool_name, 'source_volume': test_vol, 'driver_type': driver_type } else: disk_params = { 'type_name': disk_type, 'device': disk_device, 'driver_name': driver_name, 'driver_type': driver_type, 'source_file': path_to_blk, 'target_dev': device_target, 'target_bus': target_bus } if vm.is_alive(): vm.destroy(gracefully=False) new_disk = disk.Disk() new_disk.xml = open(utlv.create_disk_xml(disk_params)).read() # start vm with the virtual disk vmxml.devices = vmxml.devices.append(new_disk) vmxml.sync() vm.start() session = vm.wait_for_login() cur_disks = virt_vm.get_disks() mount_disk = "".join(list(set(old_disks) ^ set(cur_disks))) # mkfs and mount disk in vm, create a file on that disk. if not mount_disk: logging.debug("old_disk: %s, new_disk: %s", old_disks, cur_disks) raise exceptions.TestFail("No new disk found in vm.") mkfs_and_mount(session, mount_disk) create_file_in_vm(session, "/mnt/before_snapshot.txt", "before") # virsh snapshot-create-as vm s --disk-only --diskspec vda,file=path if snapshot_disk_only: vm_blks = list(vm.get_disk_devices().keys()) options = "%s --disk-only" % snapshot_name for vm_blk in vm_blks: snapshot_file = snapshot_dir + "/" + vm_blk + "." + snapshot_name if os.path.exists(snapshot_file): os.remove(snapshot_file) options = options + " --diskspec %s,file=%s" % (vm_blk, snapshot_file) else: options = snapshot_name utlv.check_exit_status(virsh.snapshot_create_as(vm_name, options)) # check virsh snapshot-list logging.debug("Running: snapshot-list %s", vm_name) snapshot_list = virsh.snapshot_list(vm_name) logging.debug("snapshot list is: %s", snapshot_list) if not snapshot_list: raise exceptions.TestFail("snapshots not found after creation.") # snapshot-revert doesn't support external snapshot for now. so # only check this with internal snapshot. if not snapshot_disk_only: create_file_in_vm(session, "/mnt/after_snapshot.txt", "after") logging.debug("Running: snapshot-revert %s %s", vm_name, snapshot_name) utlv.check_exit_status( virsh.snapshot_revert(vm_name, snapshot_name)) session = vm.wait_for_login() file_existence, file_content = get_file_in_vm( session, "/mnt/after_snapshot.txt") logging.debug("file exist = %s, file content = %s", file_existence, file_content) if file_existence: raise exceptions.TestFail("The file created " "after snapshot still exists.") file_existence, file_content = get_file_in_vm( session, "/mnt/before_snapshot.txt") logging.debug("file eixst = %s, file content = %s", file_existence, file_content) if ((not file_existence) or (file_content.strip() != "before")): raise exceptions.TestFail("The file created " "before snapshot is lost.") # delete snapshots # if diskonly, delete --metadata and remove files # if not diskonly, delete snapshot if snapshot_disk_only: options = "--metadata" else: options = "" for snap in snapshot_list: logging.debug("deleting snapshot %s with options %s", snap, options) result = virsh.snapshot_delete(vm_name, snap, options) logging.debug("result of snapshot-delete: %s", result.stdout.strip()) if snapshot_disk_only: vm_blks = list(vm.get_disk_devices().keys()) for vm_blk in vm_blks: snapshot_file = snapshot_dir + "/" + vm_blk + "." + snap if os.path.exists(snapshot_file): os.remove(snapshot_file) snapshot_list = virsh.snapshot_list(vm_name) if snapshot_list: raise exceptions.TestFail("Snapshot not deleted: %s", snapshot_list) except Exception as detail: raise exceptions.TestFail("exception happens: %s", detail) finally: logging.debug("Start to clean up env...") vmxml_backup.sync() if pool_ins and pool_ins.pool_exists(pool_name): virsh.pool_destroy(pool_name) for new_vhba in new_vhbas: virsh.nodedev_destroy(new_vhba) utils_npiv.restart_multipathd() if old_mpath_conf: utils_npiv.prepare_multipath_conf(conf_path=mpath_conf_path, conf_content=old_mpath_conf, replace_existing=True) if not original_mpath_conf_exist and os.path.exists(mpath_conf_path): os.remove(mpath_conf_path)
def run(test, params, env): """ Test the virsh pool commands (1) Define a given type pool (2) List pool with '--inactive --type' options (3) Dumpxml for the pool (4) Undefine the pool (5) Define pool by using the XML file in step (3) (6) Build the pool(except 'disk' type pool For 'fs' type pool, cover --overwrite and --no-overwrite options (7) Start the pool (8) List pool with '--persistent --type' options (9) Mark pool autostart (10) List pool with '--autostart --type' options (11) Restart libvirtd and list pool with '--autostart --persistent' options (12) Destroy the pool (13) Unmark pool autostart (14) Repeat step (11) (15) Start the pool (16) Get pool info (17) Get pool uuid by name (18) Get pool name by uuid (19) Refresh the pool For 'dir' type pool, touch a file under target path and refresh again to make the new file show in vol-list. (20) Check pool 'Capacity', 'Allocation' and 'Available' Create a over size vol in pool(expect fail), then check these values (21) Undefine the pool, and this should fail as pool is still active (22) Destroy the pool (23) Delete pool for 'dir' type pool. After the command, the pool object will still exist but target path will be deleted (24) Undefine the pool """ # Initialize the variables pool_name = params.get("pool_name", "temp_pool_1") pool_type = params.get("pool_type", "dir") pool_target = params.get("pool_target", "") source_format = params.get("source_format", "") source_name = params.get("pool_source_name", "gluster-vol1") source_path = params.get("pool_source_path", "/") new_pool_name = params.get("new_pool_name", "") build_option = params.get("build_option", "") iscsi_initiator = params.get("iscsi_initiator", "") same_source_test = "yes" == params.get("same_source_test", "no") customize_initiator_iqn = "yes" == params.get("customize_initiator_iqn", "no") # The file for dumped pool xml poolxml = os.path.join(data_dir.get_tmp_dir(), "pool.xml.tmp") if os.path.dirname(pool_target) is "": pool_target = os.path.join(data_dir.get_tmp_dir(), pool_target) vol_name = params.get("volume_name", "temp_vol_1") # Use pool name as VG name status_error = "yes" == params.get("status_error", "no") vol_path = os.path.join(pool_target, vol_name) ip_protocal = params.get('ip_protocal', 'ipv4') if not libvirt_version.version_compare(1, 0, 0): if pool_type == "gluster": test.cancel("Gluster pool is not supported in current" " libvirt version.") if not libvirt_version.version_compare(4, 7, 0): if pool_type == "iscsi-direct": test.cancel("iSCSI-direct pool is not supported in current" "libvirt version.") def check_pool_list(pool_name, option="--all", expect_error=False): """ Check pool by running pool-list command with given option. :param pool_name: Name of the pool :param option: option for pool-list command :param expect_error: Boolean value, expect command success or fail """ found = False # Get the list stored in a variable result = virsh.pool_list(option, ignore_status=True) utlv.check_exit_status(result, False) output = re.findall(r"(\S+)\ +(\S+)\ +(\S+)", str(result.stdout.strip())) for item in output: if pool_name in item[0]: found = True break if found: logging.debug("Find pool '%s' in pool list.", pool_name) else: logging.debug("Not find pool %s in pool list.", pool_name) if expect_error and found: test.fail("Unexpect pool '%s' exist." % pool_name) if not expect_error and not found: test.fail("Expect pool '%s' doesn't exist." % pool_name) def check_vol_list(vol_name, pool_name): """ Check volume from the list :param vol_name: Name of the volume :param pool_name: Name of the pool """ found = False # Get the volume list stored in a variable result = virsh.vol_list(pool_name, ignore_status=True) utlv.check_exit_status(result) output = re.findall(r"(\S+)\ +(\S+)", str(result.stdout.strip())) for item in output: if vol_name in item[0]: found = True break if found: logging.debug("Find volume '%s' in pool '%s'.", vol_name, pool_name) else: test.fail("Not find volume '%s' in pool '%s'." % (vol_name, pool_name)) def is_in_range(actual, expected, error_percent): deviation = 100 - (100 * (float(actual) / float(expected))) logging.debug("Deviation: %0.2f%%", float(deviation)) return float(deviation) <= float(error_percent) def check_pool_info(pool_info, check_point, value): """ Check the pool name, uuid, etc. :param pool_info: A dict include pool's information :param key: Key of pool info dict, available value: Name, UUID, State Persistent, Autostart, Capacity, Allocation, Available :param value: Expect value of pool_info[key] """ if pool_info is None: test.fail("Pool info dictionary is needed.") val_tup = ('Capacity', 'Allocation', 'Available') if check_point in val_tup and float(value.split()[0]): # As from bytes to GiB, could cause deviation, and it should not # exceed 1 percent. if is_in_range(float(pool_info[check_point].split()[0]), float(value.split()[0]), 1): logging.debug("Pool '%s' is '%s'.", check_point, value) else: test.fail("Pool '%s' isn't '%s'." % (check_point, value)) else: if pool_info[check_point] == value: logging.debug("Pool '%s' is '%s'.", check_point, value) else: test.fail("Pool '%s' isn't '%s'." % (check_point, value)) # Stop multipathd to avoid start pool fail(For fs like pool, the new add # disk may in use by device-mapper, so start pool will report disk already # mounted error). multipathd = service.Factory.create_service("multipathd") multipathd_status = multipathd.status() if multipathd_status: multipathd.stop() # Run Testcase pvt = utlv.PoolVolumeTest(test, params) kwargs = { 'image_size': '1G', 'pre_disk_vol': ['100M'], 'source_name': source_name, 'source_path': source_path, 'source_format': source_format, 'persistent': True, 'ip_protocal': ip_protocal, 'emulated_image': "emulated-image", 'pool_target': pool_target, 'iscsi_initiator': iscsi_initiator } params.update(kwargs) try: _pool = libvirt_storage.StoragePool() # Step (1) # Pool define pvt.pre_pool(**params) # Step (2) # Pool list option = "--inactive --type %s" % pool_type check_pool_list(pool_name, option) # Step (3) # Pool dumpxml xml = virsh.pool_dumpxml(pool_name, to_file=poolxml) logging.debug("Pool '%s' XML:\n%s", pool_name, xml) # Update pool name if new_pool_name: if "/" in new_pool_name: new_pool_name = new_pool_name.replace("/", "\/") logging.debug(new_pool_name) p_xml = pool_xml.PoolXML.new_from_dumpxml(pool_name) p_xml.name = new_pool_name del p_xml.uuid poolxml = p_xml.xml logging.debug("XML after update pool name:\n%s" % p_xml) # Update host name if same_source_test: s_xml = p_xml.get_source() s_xml.host_name = "192.168.1.1" p_xml.set_source(s_xml) poolxml = p_xml.xml logging.debug("XML after update host name:\n%s" % p_xml) if customize_initiator_iqn: initiator_iqn = params.get("initiator_iqn", "iqn.2018-07.com.virttest:pool.target") p_xml = pool_xml.PoolXML.new_from_dumpxml(pool_name) s_node = p_xml.xmltreefile.find('/source') i_node = ET.SubElement(s_node, 'initiator') ET.SubElement(i_node, 'iqn', {'name': initiator_iqn}) p_xml.xmltreefile.write() poolxml = p_xml.xml logging.debug('XML after add Multi-IQN:\n%s' % p_xml) # Step (4) # Undefine pool if not same_source_test: result = virsh.pool_undefine(pool_name) utlv.check_exit_status(result) check_pool_list(pool_name, "--all", True) # Step (5) # Define pool from XML file result = virsh.pool_define(poolxml, debug=True) # Give error msg when exit status is not expected if "/" in new_pool_name and not result.exit_status: error_msg = "https://bugzilla.redhat.com/show_bug.cgi?id=639923 " error_msg += "is helpful for tracing this bug." logging.error(error_msg) if "." in new_pool_name and result.exit_status: error_msg = "https://bugzilla.redhat.com/show_bug.cgi?id=1333248 " error_msg += "is helpful for tracing this bug." logging.error(error_msg) if same_source_test and not result.exit_status: error_msg = "https://bugzilla.redhat.com/show_bug.cgi?id=1171984 " error_msg += "is helpful for tracing this bug." logging.error(error_msg) utlv.check_exit_status(result, status_error) if not result.exit_status: # Step (6) # Buid pool # '--overwrite/--no-overwrite' just for fs/disk/logiacl type pool # disk/fs pool: as prepare step already make label and create filesystem # for the disk, use '--overwrite' is necessary # logical_pool: build pool will fail if VG already exist, BZ#1373711 if new_pool_name: pool_name = new_pool_name if pool_type != "logical": result = virsh.pool_build(pool_name, build_option, ignore_status=True) utlv.check_exit_status(result) # Step (7) # Pool start result = virsh.pool_start(pool_name, debug=True, ignore_status=True) utlv.check_exit_status(result) # Step (8) # Pool list option = "--persistent --type %s" % pool_type check_pool_list(pool_name, option) # Step (9) # Pool autostart result = virsh.pool_autostart(pool_name, ignore_status=True) utlv.check_exit_status(result) # Step (10) # Pool list option = "--autostart --type %s" % pool_type check_pool_list(pool_name, option) # Step (11) # Restart libvirtd and check the autostart pool utils_libvirtd.libvirtd_restart() option = "--autostart --persistent" check_pool_list(pool_name, option) # Step (12) # Pool destroy if virsh.pool_destroy(pool_name): logging.debug("Pool %s destroyed.", pool_name) else: test.fail("Destroy pool % failed." % pool_name) # Step (13) # Pool autostart disable result = virsh.pool_autostart(pool_name, "--disable", ignore_status=True) utlv.check_exit_status(result) # Step (14) # Repeat step (11) utils_libvirtd.libvirtd_restart() option = "--autostart" check_pool_list(pool_name, option, True) # Step (15) # Pool start # When libvirtd starts up, it'll check to see if any of the storage # pools have been activated externally. If so, then it'll mark the # pool as active. This is independent of autostart. # So a directory based storage pool is thus pretty much always active, # and so as the SCSI pool. if pool_type not in ["dir", 'scsi']: result = virsh.pool_start(pool_name, ignore_status=True) utlv.check_exit_status(result) # Step (16) # Pool info pool_info = _pool.pool_info(pool_name) logging.debug("Pool '%s' info:\n%s", pool_name, pool_info) # Step (17) # Pool UUID result = virsh.pool_uuid(pool_info["Name"], ignore_status=True) utlv.check_exit_status(result) check_pool_info(pool_info, "UUID", result.stdout.strip()) # Step (18) # Pool Name result = virsh.pool_name(pool_info["UUID"], ignore_status=True) utlv.check_exit_status(result) check_pool_info(pool_info, "Name", result.stdout.strip()) # Step (19) # Pool refresh for 'dir' type pool if pool_type == "dir": os.mknod(vol_path) result = virsh.pool_refresh(pool_name) utlv.check_exit_status(result) check_vol_list(vol_name, pool_name) # Step (20) # Create an over size vol in pool(expect fail), then check pool: # 'Capacity', 'Allocation' and 'Available' # For NFS type pool, there's a bug(BZ#1077068) about allocate volume, # and glusterfs pool not support create volume, so not test them if pool_type != "netfs": vol_capacity = "10000G" vol_allocation = "10000G" result = virsh.vol_create_as("oversize_vol", pool_name, vol_capacity, vol_allocation, "raw") utlv.check_exit_status(result, True) new_info = _pool.pool_info(pool_name) check_items = ["Capacity", "Allocation", "Available"] for i in check_items: check_pool_info(pool_info, i, new_info[i]) # Step (21) # Undefine pool, this should fail as the pool is active result = virsh.pool_undefine(pool_name, ignore_status=True) utlv.check_exit_status(result, expect_error=True) check_pool_list(pool_name, "", False) # Step (22) # Pool destroy if virsh.pool_destroy(pool_name): logging.debug("Pool %s destroyed.", pool_name) else: test.fail("Destroy pool % failed." % pool_name) # Step (23) # Pool delete for 'dir' type pool if pool_type == "dir": for f in os.listdir(pool_target): os.remove(os.path.join(pool_target, f)) result = virsh.pool_delete(pool_name, ignore_status=True) utlv.check_exit_status(result) option = "--inactive --type %s" % pool_type check_pool_list(pool_name, option) if os.path.exists(pool_target): test.fail("The target path '%s' still exist." % pool_target) result = virsh.pool_start(pool_name, ignore_status=True) utlv.check_exit_status(result, True) # Step (24) # Pool undefine result = virsh.pool_undefine(pool_name, ignore_status=True) utlv.check_exit_status(result) check_pool_list(pool_name, "--all", True) finally: # Clean up try: pvt.cleanup_pool(**params) utlv.setup_or_cleanup_iscsi(False) except exceptions.TestFail as detail: logging.error(str(detail)) if multipathd_status: multipathd.start() if os.path.exists(poolxml): os.remove(poolxml)
def run(test, params, env): """ Test command: virsh pool-define;pool-start;vol-list pool; attach-device LUN to guest; mount the device, dd; unmount; reboot guest; mount the device, dd again; pool-destroy; pool-undefine; Create a libvirt npiv pool from an XML file. The test needs to have a wwpn and wwnn of a vhba in host which is zoned & mapped to a SAN controller. Pre-requiste: Host needs to have a wwpn and wwnn of a vHBA which is zoned and mapped to SAN controller. """ pool_xml_f = params.get("pool_create_xml_file", "/PATH/TO/POOL.XML") pool_name = params.get("pool_create_name", "virt_test_pool_tmp") pre_def_pool = "yes" == params.get("pre_def_pool", "no") pool_type = params.get("pool_type", "dir") source_format = params.get("pool_src_format", "") source_name = params.get("pool_source_name", "") source_path = params.get("pool_source_path", "/") pool_target = params.get("pool_target", "pool_target") pool_adapter_type = params.get("pool_adapter_type", "") pool_adapter_parent = params.get("pool_adapter_parent", "") target_device = params.get("pool_target_device", "sdc") pool_wwnn = params.get("pool_wwnn", "WWNN_EXAMPLE") pool_wwpn = params.get("pool_wwpn", "WWPN_EXAMPLE") test_unit = None mount_disk = None if 'EXAMPLE' in pool_wwnn or 'EXAMPLE' in pool_wwpn: raise exceptions.TestSkipError("Please provide proper WWPN/WWNN") vm_name = params.get("main_vm") vm = env.get_vm(vm_name) if not vm.is_alive(): vm.start() vmxml = vm_xml.VMXML.new_from_inactive_dumpxml(vm_name) vmxml_backup = vmxml.copy() libvirt_vm = lib_vm.VM(vm_name, vm.params, vm.root_dir, vm.address_cache) pool_ins = libvirt_storage.StoragePool() if pre_def_pool and pool_ins.pool_exists(pool_name): raise exceptions.TestFail("Pool %s already exist" % pool_name) online_hbas_list = nodedev.find_hbas("hba") logging.debug("The online hbas are: %s", online_hbas_list) # if no online hba cards on host test fails if not online_hbas_list: raise exceptions.TestSkipError("Host doesn't have online hba cards") else: if pool_adapter_parent == "": pool_adapter_parent = online_hbas_list[0] kwargs = {'source_path': source_path, 'source_name': source_name, 'source_format': source_format, 'pool_adapter_type': pool_adapter_type, 'pool_adapter_parent': pool_adapter_parent, 'pool_wwnn': pool_wwnn, 'pool_wwpn': pool_wwpn} pvt = utlv.PoolVolumeTest(test, params) emulated_image = "emulated-image" old_vhbas = nodedev.find_hbas("vhba") try: pvt.pre_pool(pool_name, pool_type, pool_target, emulated_image, **kwargs) utils_misc.wait_for( lambda: nodedev.is_vhbas_added(old_vhbas), _DELAY_TIME) virsh.pool_dumpxml(pool_name, to_file=pool_xml_f) virsh.pool_destroy(pool_name) except Exception as e: pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image, **kwargs) raise exceptions.TestError( "Error occurred when prepare pool xml:\n %s" % e) if os.path.exists(pool_xml_f): with open(pool_xml_f, 'r') as f: logging.debug("Create pool from file:\n %s", f.read()) try: cmd_result = virsh.pool_define(pool_xml_f, ignore_status=True, debug=True) utlv.check_exit_status(cmd_result) cmd_result = virsh.pool_start(pool_name) utlv.check_exit_status(cmd_result) utlv.check_actived_pool(pool_name) pool_detail = libvirt_xml.PoolXML.get_pool_details(pool_name) logging.debug("Pool detail: %s", pool_detail) vol_list = utlv.get_vol_list(pool_name, timeout=10) test_unit = list(vol_list.keys())[0] logging.info( "Using the first LUN unit %s to attach to a guest", test_unit) vmxml = vm_xml.VMXML.new_from_dumpxml(vm_name) session = vm.wait_for_login() output = session.cmd_status_output('lsblk') logging.debug("%s", output[1]) old_count = vmxml.get_disk_count(vm_name) bf_disks = libvirt_vm.get_disks() disk_params = {'type_name': 'volume', 'target_dev': target_device, 'target_bus': 'virtio', 'source_pool': pool_name, 'source_volume': test_unit, 'driver_type': 'raw'} disk_xml = os.path.join(data_dir.get_tmp_dir(), 'disk_xml.xml') lun_disk_xml = utlv.create_disk_xml(disk_params) copyfile(lun_disk_xml, disk_xml) attach_success = virsh.attach_device( vm_name, disk_xml, debug=True) utlv.check_exit_status(attach_success) virsh.reboot(vm_name, debug=True) logging.info("Checking disk availability in domain") if not vmxml.get_disk_count(vm_name): raise exceptions.TestFail("No disk in domain %s." % vm_name) new_count = vmxml.get_disk_count(vm_name) if new_count <= old_count: raise exceptions.TestFail( "Failed to attach disk %s" % lun_disk_xml) session = vm.wait_for_login() output = session.cmd_status_output('lsblk') logging.debug("%s", output[1]) logging.debug("Disks before attach: %s", bf_disks) af_disks = libvirt_vm.get_disks() logging.debug("Disks after attach: %s", af_disks) mount_disk = "".join(list(set(bf_disks) ^ set(af_disks))) if not mount_disk: raise exceptions.TestFail("Can not get attached device in vm.") logging.debug("Attached device in vm:%s", mount_disk) logging.debug("Creating file system for %s", mount_disk) output = session.cmd_status_output( 'echo yes | mkfs.ext4 %s' % mount_disk) logging.debug("%s", output[1]) if mount_disk: mount_success = mount_and_dd(session, mount_disk) if not mount_success: raise exceptions.TestFail("Mount failed") else: raise exceptions.TestFail("Partition not available for disk") logging.debug("Unmounting disk") session.cmd_status_output('umount %s' % mount_disk) virsh.reboot(vm_name, debug=True) session = vm.wait_for_login() output = session.cmd_status_output('mount') logging.debug("%s", output[1]) mount_success = mount_and_dd(session, mount_disk) if not mount_success: raise exceptions.TestFail("Mount failed") logging.debug("Unmounting disk") session.cmd_status_output('umount %s' % mount_disk) session.close() detach_status = virsh.detach_device(vm_name, disk_xml, debug=True) utlv.check_exit_status(detach_status) finally: vm.destroy(gracefully=False) vmxml_backup.sync() logging.debug('Destroying pool %s', pool_name) virsh.pool_destroy(pool_name) logging.debug('Undefining pool %s', pool_name) virsh.pool_undefine(pool_name) pvt.cleanup_pool(pool_name, pool_type, pool_target, emulated_image, **kwargs) if os.path.exists(pool_xml_f): os.remove(pool_xml_f) if os.path.exists(disk_xml): logging.debug("Cleanup disk xml") data_dir.clean_tmp_files()
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)