# Copyright (C) 2015-2016 Red Hat, Inc. All rights reserved. # # This copyrighted material is made available to anyone wishing to use, # modify, copy, or redistribute it subject to the terms and conditions # of the GNU General Public License v.2. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . import sys import threading import traceback import dbus import os import copy from . import cfg from .utils import log_debug, pv_obj_path_generate, log_error from .automatedproperties import AutomatedProperties # noinspection PyPep8Naming class ObjectManager(AutomatedProperties): """ Implements the org.freedesktop.DBus.ObjectManager interface """ def __init__(self, object_path, interface): super(ObjectManager, self).__init__(object_path, interface) self.set_interface(interface) self._ap_o_path = object_path self._objects = {} self._id_to_object_path = {} self.rlock = threading.RLock() @staticmethod def _get_managed_objects(obj): with obj.rlock: rc = {} try: for k, v in list(obj._objects.items()): path, props = v[0].emit_data() rc[path] = props except Exception: traceback.print_exc(file=sys.stdout) sys.exit(1) return rc @dbus.service.method( dbus_interface="org.freedesktop.DBus.ObjectManager", out_signature='a{oa{sa{sv}}}', async_callbacks=('cb', 'cbe')) def GetManagedObjects(self, cb, cbe): r = cfg.create_request_entry(-1, ObjectManager._get_managed_objects, (self, ), cb, cbe, False) cfg.worker_q.put(r) def locked(self): """ If some external code need to run across a number of different calls into ObjectManager while blocking others they can use this method to lock others out. :return: """ return ObjectManagerLock(self.rlock) @dbus.service.signal( dbus_interface="org.freedesktop.DBus.ObjectManager", signature='oa{sa{sv}}') def InterfacesAdded(self, object_path, int_name_prop_dict): log_debug( ('SIGNAL: InterfacesAdded(%s, %s)' % (str(object_path), str(int_name_prop_dict)))) @dbus.service.signal( dbus_interface="org.freedesktop.DBus.ObjectManager", signature='oas') def InterfacesRemoved(self, object_path, interface_list): log_debug(('SIGNAL: InterfacesRemoved(%s, %s)' % (str(object_path), str(interface_list)))) def validate_lookups(self): with self.rlock: tmp_lookups = copy.deepcopy(self._id_to_object_path) # iterate over all we know, removing from the copy. If all is well # we will have zero items left over for path, md in self._objects.items(): obj, lvm_id, uuid = md if lvm_id: assert path == tmp_lookups[lvm_id] del tmp_lookups[lvm_id] if uuid: assert path == tmp_lookups[uuid] del tmp_lookups[uuid] rc = len(tmp_lookups) if rc: # Error condition log_error("_id_to_object_path has extraneous lookups!") for key, path in tmp_lookups.items(): log_error("Key= %s, path= %s" % (key, path)) return rc def _lookup_add(self, obj, path, lvm_id, uuid): """ Store information about what we added to the caches so that we can remove it cleanly :param obj: The dbus object we are storing :param lvm_id: The lvm id for the asset :param uuid: The uuid for the asset :return: """ # Note: Only called internally, lock implied # We could have a temp entry from the forward creation of a path self._lookup_remove(path) self._objects[path] = (obj, lvm_id, uuid) # Make sure we have one or the other assert lvm_id or uuid if lvm_id: self._id_to_object_path[lvm_id] = path if uuid: self._id_to_object_path[uuid] = path def _lookup_remove(self, obj_path): # Note: Only called internally, lock implied if obj_path in self._objects: (obj, lvm_id, uuid) = self._objects[obj_path] if lvm_id in self._id_to_object_path: del self._id_to_object_path[lvm_id] if uuid in self._id_to_object_path: del self._id_to_object_path[uuid] del self._objects[obj_path] def lookup_update(self, dbus_obj, new_uuid, new_lvm_id): with self.rlock: obj_path = dbus_obj.dbus_object_path() self._lookup_remove(obj_path) self._lookup_add( dbus_obj, obj_path, new_lvm_id, new_uuid) def object_paths_by_type(self, o_type): with self.rlock: rc = {} for k, v in list(self._objects.items()): if isinstance(v[0], o_type): rc[k] = True return rc def register_object(self, dbus_object, emit_signal=False): """ Given a dbus object add it to the collection :param dbus_object: Dbus object to register :param emit_signal: If true emit a signal for interfaces added """ with self.rlock: path, props = dbus_object.emit_data() # print('Registering object path %s for %s' % # (path, dbus_object.lvm_id)) # We want fast access to the object by a number of different ways # so we use multiple hashs with different keys self._lookup_add(dbus_object, path, dbus_object.lvm_id, dbus_object.Uuid) if emit_signal: self.InterfacesAdded(path, props) def remove_object(self, dbus_object, emit_signal=False): """ Given a dbus object, remove it from the collection and remove it from the dbus framework as well :param dbus_object: Dbus object to remove :param emit_signal: If true emit the interfaces removed signal """ with self.rlock: # Store off the object path and the interface first path = dbus_object.dbus_object_path() interfaces = dbus_object.interface() # print 'UN-Registering object path %s for %s' % \ # (path, dbus_object.lvm_id) self._lookup_remove(path) # Remove from dbus library dbus_object.remove_from_connection(cfg.bus, path) # Optionally emit a signal if emit_signal: self.InterfacesRemoved(path, interfaces) def get_object_by_path(self, path): """ Given a dbus path return the object registered for it :param path: The dbus path :return: The object """ with self.rlock: if path in self._objects: return self._objects[path][0] return None def get_object_by_uuid_lvm_id(self, uuid, lvm_id): with self.rlock: return self.get_object_by_path( self.get_object_path_by_uuid_lvm_id(uuid, lvm_id)) def get_object_by_lvm_id(self, lvm_id): """ Given an lvm identifier, return the object registered for it :param lvm_id: The lvm identifier """ with self.rlock: lookup_rc = self._id_lookup(lvm_id) if lookup_rc: return self.get_object_by_path(lookup_rc) return None def get_object_path_by_lvm_id(self, lvm_id): """ Given an lvm identifier, return the object path for it :param lvm_id: The lvm identifier :return: Object path or '/' if not found """ with self.rlock: lookup_rc = self._id_lookup(lvm_id) if lookup_rc: return lookup_rc return '/' def _uuid_verify(self, path, uuid, lvm_id): """ Ensure uuid is present for a successful lvm_id lookup NOTE: Internal call, assumes under object manager lock :param path: Path to object we looked up :param uuid: lvm uuid to verify :param lvm_id: lvm_id used to find object :return: None """ # This gets called when we found an object based on lvm_id, ensure # uuid is correct too, as they can change. There is no durable # non-changeable name in lvm if lvm_id != uuid: if uuid and uuid not in self._id_to_object_path: obj = self.get_object_by_path(path) self._lookup_add(obj, path, lvm_id, uuid) def _lvm_id_verify(self, path, uuid, lvm_id): """ Ensure lvm_id is present for a successful uuid lookup NOTE: Internal call, assumes under object manager lock :param path: Path to object we looked up :param uuid: uuid used to find object :param lvm_id: lvm_id to verify :return: None """ # This gets called when we found an object based on uuid, ensure # lvm_id is correct too, as they can change. There is no durable # non-changeable name in lvm if lvm_id != uuid: if lvm_id and lvm_id not in self._id_to_object_path: obj = self.get_object_by_path(path) self._lookup_add(obj, path, lvm_id, uuid) def _id_lookup(self, the_id): path = None if the_id: # The _id_to_object_path contains hash keys for everything, so # uuid and lvm_id if the_id in self._id_to_object_path: path = self._id_to_object_path[the_id] else: if "/" in the_id: if the_id.startswith('/'): # We could have a pv device path lookup that failed, # lets try canonical form and try again. canonical = os.path.realpath(the_id) if canonical in self._id_to_object_path: path = self._id_to_object_path[canonical] else: vg, lv = the_id.split("/", 1) int_lvm_id = vg + "/" + ("[%s]" % lv) if int_lvm_id in self._id_to_object_path: path = self._id_to_object_path[int_lvm_id] return path def get_object_path_by_uuid_lvm_id(self, uuid, lvm_id, path_create=None): """ For a given lvm asset return the dbus object path registered for it. This method first looks up by uuid and then by lvm_id. You can search by just one by setting uuid == lvm_id (uuid or lvm_id). If the object is not found and path_create is a not None, the path_create function will be called to create a new object path and register it with the object manager for the specified uuid & lvm_id. Note: If path create is not None, uuid and lvm_id cannot be equal :param uuid: The uuid for the lvm object we are searching for :param lvm_id: The lvm name (eg. pv device path, vg name, lv full name) :param path_create: If not None, create the path using this function if we fail to find the object by uuid or lvm_id. :returns None if lvm asset not found and path_create == None otherwise a valid dbus object path """ with self.rlock: assert lvm_id assert uuid if path_create: assert uuid != lvm_id # Check for Manager.LookUpByLvmId query, we cannot # check/verify/update the uuid and lvm_id lookups so don't! if uuid == lvm_id: path = self._id_lookup(lvm_id) else: # We have a uuid and a lvm_id we can do sanity checks to ensure # that they are consistent # If a PV is missing it's device path is '[unknown]' or some # other text derivation of unknown. When we find that a PV is # missing we will clear out the lvm_id as it's likely not unique # and thus not useful and potentially harmful for lookups. if path_create == pv_obj_path_generate and \ cfg.db.pv_missing(uuid): lvm_id = None # Lets check for the uuid first path = self._id_lookup(uuid) if path: # Verify the lvm_id is sane self._lvm_id_verify(path, uuid, lvm_id) else: # Unable to find by UUID, lets lookup by lvm_id path = self._id_lookup(lvm_id) if path: # Verify the uuid is sane self._uuid_verify(path, uuid, lvm_id) else: # We have exhausted all lookups, let's create if we can if path_create: path = path_create() self._lookup_add(None, path, lvm_id, uuid) # print('get_object_path_by_lvm_id(%s, %s, %s, %s: return %s' % # (uuid, lvm_id, str(path_create), str(gen_new), path)) return path class ObjectManagerLock(object): """ The sole purpose of this class is to allow other code the ability to lock the object manager using a `with` statement, eg. with cfg.om.locked(): # Do stuff with object manager This will ensure that the lock is always released (assuming this is done correctly) """ def __init__(self, recursive_lock): self._lock = recursive_lock def __enter__(self): # Acquire lock self._lock.acquire() # noinspection PyUnusedLocal def __exit__(self, e_type, e_value, e_traceback): # Release lock self._lock.release() self._lock = None