def test_big_nid_map_scalable(self): """check big nid mapping is scalable.""" model = Model() model.parse("nid_map: nodes=foo[1-9999] nids=bar[1-9999]@tcp") before = time.time() NidMap.fromlist(model.get("nid_map")) self.assertTrue(time.time() - before < 0.5)
def test_big_nid_map_scalable(self): """check big nid mapping is scalable.""" model = Model() model.parse("nid_map: nodes=foo[1-9999] nids=bar[1-9999]@tcp") before = time.time() NidMap.fromlist(model.get('nid_map')) self.assertTrue(time.time() - before < .5)
def test_match_device_error(self): model = Model() model.parse("""fs_name: nids nid_map: nodes=foo[7] nids=foo[7]@tcp mgt: node=(\<badregexp>""") candidate = [ {'node': 'foo7', 'dev': '/dev/sda'} ] self.assertRaises(ModelFileValueError, model.get('mgt')[0].match_device, candidate)
def test_match_device_missing_prop(self): """check missing property does not match in match_device()""" model = Model() model.parse("""fs_name: nids nid_map: nodes=foo[7] nids=foo[7]@tcp mgt: node=foo7 network=tcp""") candidate = [{'node': 'foo7', 'dev': '/dev/sda'}] self.assertEqual(len(model.get('mgt')[0].match_device(candidate)), 0)
def test_match_device_error(self): model = Model() model.parse("""fs_name: nids nid_map: nodes=foo[7] nids=foo[7]@tcp mgt: node=(\<badregexp>""") candidate = [{'node': 'foo7', 'dev': '/dev/sda'}] self.assertRaises(ModelFileValueError, model.get('mgt')[0].match_device, candidate)
def test_match_device_missing_prop(self): """check missing property does not match in match_device()""" model = Model() model.parse("""fs_name: nids nid_map: nodes=foo[7] nids=foo[7]@tcp mgt: node=foo7 network=tcp""") candidate = [ {'node': 'foo7', 'dev': '/dev/sda'} ] self.assertEqual(len(model.get('mgt')[0].match_device(candidate)), 0)
def test_match_device_simple_pattern(self): """check different values do not match in match_device()""" candidate = [{'node': 'foo7', 'dev': '/dev/sda'}] model = Model() model.parse( textwrap.dedent("""fs_name: match nid_map: nodes=foo8 nids=foo8@tcp mgt: node=foo8""")) self.assertEqual(len(model.get('mgt')[0].match_device(candidate)), 0)
def test_several_spaces(self): model = Model() model.parse("""fs_name: spaces nid_map: nodes=foo[7] nids=foo[7]@tcp mgt: node=foo7 """) self.assertEqual(model.get('fs_name'), 'spaces') self.assertEqual(len(model.elements('nid_map')), 1) self.assertEqual(model.elements('nid_map')[0].as_dict(), { 'nodes': 'foo[7]', 'nids': 'foo[7]@tcp' })
def test_match_device_ignore_index(self): """test match_device() does not try to match index property""" model = Model() model.parse("""fs_name: nids nid_map: nodes=foo[7] nids=foo[7]@tcp ost: node=foo7 index=0""") candidate = [ {'node': 'foo7', 'dev': '/dev/sda'} ] matched = model.get('ost')[0].match_device(candidate) self.assertEqual(len(matched), 1) self.assertEqual(matched[0].get('dev'), '/dev/sda')
def test_match_device_ignore_index(self): """test match_device() does not try to match index property""" model = Model() model.parse("""fs_name: nids nid_map: nodes=foo[7] nids=foo[7]@tcp ost: node=foo7 index=0""") candidate = [{'node': 'foo7', 'dev': '/dev/sda'}] matched = model.get('ost')[0].match_device(candidate) self.assertEqual(len(matched), 1) self.assertEqual(matched[0].get('dev'), '/dev/sda')
def test_several_spaces(self): model = Model() model.parse("""fs_name: spaces nid_map: nodes=foo[7] nids=foo[7]@tcp mgt: node=foo7 """) self.assertEqual(model.get('fs_name'), 'spaces') self.assertEqual(len(model.elements('nid_map')), 1) self.assertEqual( model.elements('nid_map')[0].as_dict(), { 'nodes': 'foo[7]', 'nids': 'foo[7]@tcp' })
def test_match_device_list_values(self): """check various list content do not match in match_device()""" # Different value count candidate = [{'node': 'foo7', 'ha_node': ['foo8'], 'dev': '/dev/sda'}] model = Model() model.parse( textwrap.dedent("""fs_name: nids nid_map: nodes=foo[7-10] nids=foo[7-10]@tcp mgt: node=foo7 ha_node=foo8 ha_node=foo9""")) self.assertEqual(len(model.get('mgt')[0].match_device(candidate)), 0) # Different list values candidate = [{ 'node': 'foo7', 'ha_node': ['foo7', 'foo8'], 'dev': '/dev/sda' }] model = Model() model.parse( textwrap.dedent("""fs_name: nids nid_map: nodes=foo[7-10] nids=foo[7-10]@tcp mgt: node=foo7 ha_node=foo8 ha_node=foo9""")) self.assertEqual(len(model.get('mgt')[0].match_device(candidate)), 0)
class FileSystem(object): """ Lustre File System Configuration class. """ def __init__(self, filename): self.backend = None self.xmf_path = None self.model = Model() try: self.model.load(filename) except IOError: raise ModelFileIOError("Could not read %s" % filename) # Set nodes to nids mapping using the NidMap helper class self.nid_map = NidMap.fromlist(self.get('nid_map')) # Initialize the tuning model to None if no special tuning configuration # is provided self.tuning_model = TuningModel() @property def fs_name(self): return self.get('fs_name') def get(self, key, default=None): """Return the Model value pointed by `key'""" return self.model.get(key, default) @classmethod def _cache_path(cls, fsname): """Build and check a cache file path from filesystem name.""" fs_conf_dir = os.path.expandvars(Globals().get_conf_dir()) if not os.path.exists(fs_conf_dir): raise ConfigException("Cache directory does not exist '%s'" % fs_conf_dir) return "%s/%s.xmf" % (os.path.normpath(fs_conf_dir), fsname) @classmethod def create_from_model(cls, lmf, update_mode=False): """Save to cache.""" fsmodel = FileSystem(lmf) # xmf_path could be set later if setup_target_devices do not need it fsmodel.xmf_path = cls._cache_path(fsmodel.fs_name) fsmodel.setup_target_devices(update_mode=update_mode) # Save XMF fsmodel.model.save(fsmodel.xmf_path, "# Shine Lustre file system config file for %s" % \ fsmodel.fs_name) # Reload from content saved previously return cls.load_from_fsname(fsmodel.fs_name) @classmethod def load_from_fsname(cls, fsname): """Load from cache.""" conf_file = cls._cache_path(fsname) fsconf = FileSystem(conf_file) fsconf.xmf_path = conf_file return fsconf def _start_backend(self): """ Load and start backend subsystem once """ if not self.backend: # Start the selected config backend system. self.backend = BackendRegistry().selected() if self.backend: self.backend.start() return self.backend def setup_target_devices(self, update_mode=False): """ Generate the eXtended Model File XMF """ self._start_backend() # We have to setup the possible targets, which are: MGT, MDT and OST. for target in ['mgt', 'mdt', 'ost']: # So, first, look for which ones are defined in model if target not in self.model: continue # Lustre supports up to FFFF targets per type. indexes = range(0, 65535) if self.backend: # Returns a list of TargetDevices fs_name = None if update_mode == True: fs_name = self.fs_name candidates = self.backend.get_target_devices( target, fs_name=fs_name, update_mode=update_mode) # Save the model target selection target_models = copy.copy(self.model.get(target)) # Reduce entropy from backend. # (node, dev) should point to a unique device, so this should # be enough for sorting. This is not perfect but enough to have # a very low entropy in result order. candidates.sort(key=lambda x: (x.get('node'), x.get('dev'))) # Delete it (to be replaced... see below) self.model.elements(target).clear() try: # Remove already used index from candidate list. for target_model in target_models: if 'index' in target_model: idx = target_model.get('index') # List raises ValueError and we need to know the # missing indexes here, so we had this hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Iterates on each Model.Target for target_model in target_models: # Do not try to match external components if target_model.get('mode') == 'external': self.model.elements(target).parse( str(target_model)) continue result = target_model.match_device(candidates) if len(result) == 0: raise ConfigDeviceNotFoundError(target_model) for matching in result: candidates.remove(matching) # If an index was specified, set it. if 'index' in target_model: matching.add_index(target_model.get('index')) target_model.elements('index').clear() # Manage index, mandatoy in XMF files if not matching.has_index(): matching.add_index(indexes[0]) idx = matching.index() # List raises ValueError and we need to know # the missing indexes here, so we had this # hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Copy properties from model # which do not exist in backend. matching.add_active(target_model.get('active')) # `matching' is a TargetDevice, we want to add it # to the underlying Model object. The current way # to do this to create a configuration line string # (performed by TargetDevice.getline()) and then # call Model.parse(). # TODO: add methods to Model/ModelDevice to avoid # the use of temporary configuration string line. self.model.elements(target).parse( matching.getline()) except KeyError, error: raise ConfigInvalidFileSystem(self, \ "Index %s for %s used twice." % \ (str(error), target)) # Support for backend None else: try: # Remove already used indexes from candidate list. for params in self.model.elements(target): if 'index' in params: idx = params.get('index') # List raises ValueError and we need to know the # missing indexes here, so we had this hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Manage index for params in self.model.elements(target): if 'index' not in params: params.add('index', str(indexes[0])) indexes.remove(indexes[0]) except KeyError, error: raise ConfigInvalidFileSystem(self, \ "Index %s for %s used twice." % \ (str(error), target))
def testDefaultValues(self): """test defaults values""" m = Model() self.assertEqual(m.get("stripe_size"), 1048576) self.assertEqual(m.get("stripe_count"), 1) self.assertEqual(m.get("quota_type"), "ug")
class FileSystem(object): """ Lustre File System Configuration class. """ def __init__(self, filename): self.backend = None self.xmf_path = None self.model = Model() try: self.model.load(filename) except IOError: raise ModelFileIOError("Could not read %s" % filename) # Set nodes to nids mapping using the NidMap helper class self.nid_map = NidMap.fromlist(self.get('nid_map')) # Initialize the tuning model to None if no special tuning configuration # is provided self.tuning_model = TuningModel() @property def fs_name(self): return self.get('fs_name') def get(self, key, default=None): """Return the Model value pointed by `key'""" return self.model.get(key, default) @classmethod def _cache_path(cls, fsname): """Build and check a cache file path from filesystem name.""" fs_conf_dir = os.path.expandvars(Globals().get_conf_dir()) if not os.path.exists(fs_conf_dir): raise ConfigException("Cache directory does not exist '%s'" % fs_conf_dir) return "%s/%s.xmf" % (os.path.normpath(fs_conf_dir), fsname) @classmethod def create_from_model(cls, lmf, update_mode=False): """Save to cache.""" fsmodel = FileSystem(lmf) # xmf_path could be set later if setup_target_devices do not need it fsmodel.xmf_path = cls._cache_path(fsmodel.fs_name) fsmodel.setup_target_devices(update_mode=update_mode) # Save XMF fsmodel.model.save(fsmodel.xmf_path, "# Shine Lustre file system config file for %s" % \ fsmodel.fs_name) # Reload from content saved previously return cls.load_from_fsname(fsmodel.fs_name) @classmethod def load_from_fsname(cls, fsname): """Load from cache.""" conf_file = cls._cache_path(fsname) fsconf = FileSystem(conf_file) fsconf.xmf_path = conf_file return fsconf def _start_backend(self): """ Load and start backend subsystem once """ if not self.backend: # Start the selected config backend system. self.backend = BackendRegistry().selected() if self.backend: self.backend.start() return self.backend def setup_target_devices(self, update_mode=False): """ Generate the eXtended Model File XMF """ self._start_backend() # We have to setup the possible targets, which are: MGT, MDT and OST. for target in [ 'mgt', 'mdt', 'ost' ]: # So, first, look for which ones are defined in model if target not in self.model: continue # Lustre supports up to FFFF targets per type. indexes = range(0, 65535) if self.backend: # Returns a list of TargetDevices fs_name = None if update_mode == True: fs_name = self.fs_name candidates = self.backend.get_target_devices(target, fs_name=fs_name, update_mode=update_mode) # Save the model target selection target_models = copy.copy(self.model.get(target)) # Reduce entropy from backend. # (node, dev) should point to a unique device, so this should # be enough for sorting. This is not perfect but enough to have # a very low entropy in result order. candidates.sort(key=lambda x: (x.get('node'), x.get('dev'))) # Delete it (to be replaced... see below) self.model.elements(target).clear() try: # Remove already used index from candidate list. for target_model in target_models: if 'index' in target_model: idx = target_model.get('index') # List raises ValueError and we need to know the # missing indexes here, so we had this hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Iterates on each Model.Target for target_model in target_models: # Do not try to match external components if target_model.get('mode') == 'external': self.model.elements(target).parse(str(target_model)) continue result = target_model.match_device(candidates) if len(result) == 0: raise ConfigDeviceNotFoundError(target_model) for matching in result: candidates.remove(matching) # If an index was specified, set it. if 'index' in target_model: matching.add_index(target_model.get('index')) target_model.elements('index').clear() # Manage index, mandatoy in XMF files if not matching.has_index(): matching.add_index(indexes[0]) idx = matching.index() # List raises ValueError and we need to know # the missing indexes here, so we had this # hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Copy properties from model # which do not exist in backend. matching.add_active(target_model.get('active')) # `matching' is a TargetDevice, we want to add it # to the underlying Model object. The current way # to do this to create a configuration line string # (performed by TargetDevice.getline()) and then # call Model.parse(). # TODO: add methods to Model/ModelDevice to avoid # the use of temporary configuration string line. self.model.elements(target).parse( matching.getline()) except KeyError, error: raise ConfigInvalidFileSystem(self, \ "Index %s for %s used twice." % \ (str(error), target)) # Support for backend None else: try: # Remove already used indexes from candidate list. for params in self.model.elements(target): if 'index' in params: idx = params.get('index') # List raises ValueError and we need to know the # missing indexes here, so we had this hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Manage index for params in self.model.elements(target): if 'index' not in params: params.add('index', str(indexes[0])) indexes.remove(indexes[0]) except KeyError, error: raise ConfigInvalidFileSystem(self, \ "Index %s for %s used twice." % \ (str(error), target))
class FileSystem(object): """ Lustre File System Configuration class. """ def __init__(self, filename): self.backend = None self.xmf_path = None self.model = Model() try: self.model.load(filename) except IOError: raise ModelFileIOError("Could not read %s" % filename) # Model expands nid_map automatically, just iterate other them self.nid_map = {} for elem in self.get('nid_map'): self.nid_map.setdefault(elem['nodes'], []).append(elem['nids']) # Initialize the tuning model to None if no special tuning configuration # is provided self.tuning_model = TuningModel() @property def fs_name(self): return self.get('fs_name') def get(self, key, default=None): """Return the Model value pointed by `key'""" return self.model.get(key, default) @classmethod def _cache_path(cls, fsname): """Build and check a cache file path from filesystem name.""" fs_conf_dir = os.path.expandvars(Globals().get_conf_dir()) if not os.path.exists(fs_conf_dir): raise ConfigException("Cache directory does not exist '%s'" % fs_conf_dir) return "%s/%s.xmf" % (os.path.normpath(fs_conf_dir), fsname) @classmethod def create_from_model(cls, lmf, update_mode=False): """Save to cache.""" fsmodel = FileSystem(lmf) # xmf_path could be set later if setup_target_devices do not need it fsmodel.xmf_path = cls._cache_path(fsmodel.fs_name) fsmodel.setup_target_devices(update_mode=update_mode) # Save XMF fsmodel.model.save(fsmodel.xmf_path, "# Shine Lustre file system config file for %s" % \ fsmodel.fs_name) # Reload from content saved previously return cls.load_from_fsname(fsmodel.fs_name) @classmethod def load_from_fsname(cls, fsname): """Load from cache.""" conf_file = cls._cache_path(fsname) fsconf = FileSystem(conf_file) fsconf.xmf_path = conf_file return fsconf def _start_backend(self): """ Load and start backend subsystem once """ if not self.backend: # Start the selected config backend system. self.backend = BackendRegistry().selected() if self.backend: self.backend.start() return self.backend def setup_target_devices(self, update_mode=False): """ Generate the eXtended Model File XMF """ self._start_backend() # We have to setup the possible targets, which are: MGT, MDT and OST. for target in ['mgt', 'mdt', 'ost']: # So, first, look for which ones are defined in model if target not in self.model: continue # Lustre supports up to FFFF targets per type. indexes = list(range(0, 65535)) if self.backend: # Returns a list of TargetDevices fs_name = None if update_mode == True: fs_name = self.fs_name candidates = self.backend.get_target_devices( target, fs_name=fs_name, update_mode=update_mode) # Save the model target selection target_models = copy.copy(self.model.get(target)) # Reduce entropy from backend. # (node, dev) should point to a unique device, so this should # be enough for sorting. This is not perfect but enough to have # a very low entropy in result order. candidates.sort(key=lambda x: (x.get('node'), x.get('dev'))) # Delete it (to be replaced... see below) self.model.elements(target).clear() try: # Remove already used index from candidate list. for target_model in target_models: if 'index' in target_model: idx = target_model.get('index') # List raises ValueError and we need to know the # missing indexes here, so we had this hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Iterates on each Model.Target for target_model in target_models: # Do not try to match external components if target_model.get('mode') == 'external': self.model.elements(target).parse( str(target_model)) continue result = target_model.match_device(candidates) if len(result) == 0: raise ConfigDeviceNotFoundError(target_model) for matching in result: candidates.remove(matching) # If an index was specified, set it. if 'index' in target_model: matching.add_index(target_model.get('index')) target_model.elements('index').clear() # Manage index, mandatoy in XMF files if not matching.has_index(): matching.add_index(indexes[0]) idx = matching.index() # List raises ValueError and we need to know # the missing indexes here, so we had this # hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Copy properties from model # which do not exist in backend. matching.add_active(target_model.get('active')) # `matching' is a TargetDevice, we want to add it # to the underlying Model object. The current way # to do this to create a configuration line string # (performed by TargetDevice.getline()) and then # call Model.parse(). # TODO: add methods to Model/ModelDevice to avoid # the use of temporary configuration string line. self.model.elements(target).parse( matching.getline()) except KeyError as error: raise ConfigInvalidFileSystem(self, \ "Index %s for %s used twice." % \ (str(error), target)) # Support for backend None else: try: # Remove already used indexes from candidate list. for params in self.model.elements(target): if 'index' in params: idx = params.get('index') # List raises ValueError and we need to know the # missing indexes here, so we had this hack. if idx not in indexes: raise KeyError(idx) indexes.remove(idx) # Manage index for params in self.model.elements(target): if 'index' not in params: params.add('index', str(indexes[0])) indexes.remove(indexes[0]) except KeyError as error: raise ConfigInvalidFileSystem(self, \ "Index %s for %s used twice." % \ (str(error), target)) self._check_coherency() def _check_coherency(self): """Verify that the declared components make a coherent filesystem.""" model = self.model # If we have a target or a client, we need a MGT if (('client' in model or 'mdt' in model or 'ost' in model) \ and not ('mgt' in model)): raise ConfigInvalidFileSystem(self, "A MGS must be declared.") # We should have both MDT and OST or neither if ('mdt' in model) ^ ('ost' in model): raise ConfigInvalidFileSystem( self, "You must declare both MDT and OST or neither.") def compare(self, otherfs): """ Compare the FileSystem model with another FileSystem and return a dictionnary describing the needed actions. """ actions = {} added, changed, removed = self.model.diff(otherfs.model) anyset = set(changed.keys()) | set(added.keys()) \ | set(removed.keys()) # Read-only keys: fs_name readonly = set(['fs_name']) if readonly & anyset: raise ConfigException("%s could not be changed" % ", ".join(readonly & anyset)) # Need to reformat targets reformatkeys = set([ 'mgt_mkfs_options', 'mdt_mkfs_options', 'ost_mkfs_options', 'mgt_format_params', 'mdt_format_params', 'ost_format_params' ]) if reformatkeys & anyset: actions['reformat'] = True # Need a tunefs.lustre tunefskeys = set([ 'quota', 'quota_type', 'quota_bunit', 'quota_iunit', 'quota_btune', 'quota_itune', 'stripe_size', 'stripe_count' ]) if tunefskeys & anyset: actions['tunefs'] = True # Need a writeconf writeconfkeys = set(['nid_map']) if writeconfkeys & anyset: hosts = set() for content in (added, changed, removed): hosts |= set([ elem.get('nodes') for elem in content.elements('nid_map') ]) for tag in ('mgt', 'mdt', 'ost'): for tgt in self.model.get(tag, []): if tgt.get('node') in hosts: # Note: Target removal could also set this flag. actions['writeconf'] = True break # Need to unmount then remount clients remountkeys = set(['mount_options', 'mount_path', 'subdir']) if remountkeys & anyset: actions['copyconf'] = True # Could be improved if doing this only on clients without specific # path or options. if self.model.get('client'): actions['unmount'] = [ Clients(cli) for cli in self.model.get('client') ] if otherfs.model.get('client'): actions['mount'] = [ Clients(cli) for cli in otherfs.model.get('client') ] # Need to restart targets restartkeys = set([ 'mgt_mount_path', 'mdt_mount_path', 'ost_mount_path', 'mgt_mount_options', 'mdt_mount_options', 'ost_mount_options' ]) if restartkeys & anyset: actions['restart'] = True # Only need to update cache file copykeys = set(['description']) if copykeys & anyset: actions['copyconf'] = True # Clients have changed if 'client' in removed: actions.setdefault('unmount', []) actions['unmount'] += [ Clients(elem) for elem in removed.elements('client') ] if 'client' in added: actions.setdefault('mount', []) actions['mount'] += [ Clients(elem) for elem in added.elements('client') ] if 'client' in changed: for elem in changed.elements('client'): actions.setdefault('unmount', []).append(Clients(elem.old)) actions.setdefault('mount', []).append(Clients(elem)) # Router has changed if 'router' in removed: actions.setdefault('stop', []).extend( [Routers(elem) for elem in removed.elements('router')]) if 'router' in added: actions.setdefault('start', []).extend( [Routers(elem) for elem in added.elements('router')]) assert 'router' not in changed, 'Router change is not supported' # Some targets have changed for tgt in ['mgt', 'mdt', 'ost']: if tgt in removed: actions['writeconf'] = True actions.setdefault('stop', []).extend( [Target(tgt, elem) for elem in removed.elements(tgt)]) actions.setdefault('remove', []).extend( [Target(tgt, elem) for elem in removed.elements(tgt)]) if tgt in added: actions.setdefault('format', []).extend( [Target(tgt, elem) for elem in added.elements(tgt)]) actions.setdefault('start', []).extend( [Target(tgt, elem) for elem in added.elements(tgt)]) if tgt in changed: for elem in changed.elements(tgt): if set(['ha_node', 'network', 'node', 'dev']) & \ elem.chgkeys: actions.setdefault('stop', []).append(Target(tgt, elem.old)) actions.setdefault('start', []).append(Target(tgt, elem)) if set(['ha_node', 'network', 'node']) & elem.chgkeys: actions['writeconf'] = True if set(['tag', 'group']) & elem.chgkeys: actions['copyconf'] = True if 'active' in elem.chgkeys: actions['tune'] = True if 'jdev' in elem.chgkeys: raise ConfigException("'jdev' change is not supported") # If some actions is required, we need to update config files. if len(actions) > 0: actions['copyconf'] = True return actions def get_nid(self, node): try: return self.nid_map[node] except KeyError: raise ConfigException("Cannot get NID for %s, aborting. Please " "verify `nid_map' configuration." % node) def close(self): if self.backend: self.backend.stop() self.backend = None def register(self): """ This function aims to register the file system configuration to the backend. """ if self._start_backend(): return self.backend.register_fs(self) def unregister(self): """ This function aims to remove a file system configuration from the backend. """ result = 0 if self._start_backend(): result = self.backend.unregister_fs(self) # XMF file could have been already deleted if this is a local # filesystem if os.path.exists(self.xmf_path) and not result: os.unlink(self.xmf_path) return result def register_target(self, target): """ Set the specified target as 'in use'. This target could not be use anymore for other filesystems. """ if self._start_backend(): return self.backend.register_target(self, target) def unregister_target(self, target): """ Set the specified target as available in the backend. This target could be now reuse. """ if self._start_backend(): return self.backend.unregister_target(self, target)
def testDefaultValues(self): """test defaults values""" m = Model() self.assertEqual(m.get('stripe_size'), 1048576) self.assertEqual(m.get('stripe_count'), 1) self.assertEqual(m.get('quota_type'), 'ug')