diff --git a/swh/objstorage/multiplexer/multiplexer_objstorage.py b/swh/objstorage/multiplexer/multiplexer_objstorage.py
index 008fd59..dd6188b 100644
--- a/swh/objstorage/multiplexer/multiplexer_objstorage.py
+++ b/swh/objstorage/multiplexer/multiplexer_objstorage.py
@@ -1,321 +1,322 @@
 # Copyright (C) 2015-2020  The Software Heritage developers
 # See the AUTHORS file at the top-level directory of this distribution
 # License: GNU General Public License version 3, or any later version
 # See top-level LICENSE file for more information
 
 import queue
 import random
 import threading
 
 from swh.objstorage.exc import ObjNotFoundError
 from swh.objstorage.objstorage import ObjStorage
 
 
 class ObjStorageThread(threading.Thread):
     def __init__(self, storage):
         super().__init__(daemon=True)
         self.storage = storage
         self.commands = queue.Queue()
 
     def run(self):
         while True:
             try:
                 mailbox, command, args, kwargs = self.commands.get(True, 0.05)
             except queue.Empty:
                 continue
 
             try:
                 ret = getattr(self.storage, command)(*args, **kwargs)
             except Exception as exc:
                 self.queue_result(mailbox, "exception", exc)
             else:
                 self.queue_result(mailbox, "result", ret)
 
     def queue_command(self, command, *args, mailbox=None, **kwargs):
         """Enqueue a new command to be processed by the thread.
 
         Args:
           command (str): one of the method names for the underlying storage.
           mailbox (queue.Queue): explicit mailbox if the calling thread wants
             to override it.
           args, kwargs: arguments for the command.
-        Returns: queue.Queue
-          The mailbox you can read the response from
+
+        Returns:
+          queue.Queue: The mailbox you can read the response from
         """
         if not mailbox:
             mailbox = queue.Queue()
         self.commands.put((mailbox, command, args, kwargs))
         return mailbox
 
     def queue_result(self, mailbox, result_type, result):
         """Enqueue a new result in the mailbox
 
         This also provides a reference to the storage, which can be useful when
         an exceptional condition arises.
 
         Args:
           mailbox (queue.Queue): the mailbox to which we need to enqueue the
             result
           result_type (str): one of 'result', 'exception'
           result: the result to pass back to the calling thread
         """
         mailbox.put(
             {"type": result_type, "result": result,}
         )
 
     @staticmethod
     def get_result_from_mailbox(mailbox, *args, **kwargs):
         """Unpack the result from the mailbox.
 
-        Arguments:
+        Args:
           mailbox (queue.Queue): A mailbox to unpack a result from
           args: positional arguments to :func:`mailbox.get`
           kwargs: keyword arguments to :func:`mailbox.get`
 
         Returns:
           the next result unpacked from the queue
 
         Raises:
           either the exception we got back from the underlying storage,
-          or :exc:`queue.Empty` if :func:`mailbox.get` raises that.
+            or :exc:`queue.Empty` if :func:`mailbox.get` raises that.
         """
 
         result = mailbox.get(*args, **kwargs)
         if result["type"] == "exception":
             raise result["result"] from None
         else:
             return result["result"]
 
     @staticmethod
     def collect_results(mailbox, num_results):
         """Collect num_results from the mailbox"""
         collected = 0
         ret = []
         while collected < num_results:
             try:
                 ret.append(
                     ObjStorageThread.get_result_from_mailbox(mailbox, True, 0.05)
                 )
             except queue.Empty:
                 continue
             collected += 1
         return ret
 
     def __getattr__(self, attr):
         def call(*args, **kwargs):
             mailbox = self.queue_command(attr, *args, **kwargs)
             return self.get_result_from_mailbox(mailbox)
 
         return call
 
     def __contains__(self, *args, **kwargs):
         mailbox = self.queue_command("__contains__", *args, **kwargs)
         return self.get_result_from_mailbox(mailbox)
 
 
 class MultiplexerObjStorage(ObjStorage):
     """Implementation of ObjStorage that distributes between multiple
     storages.
 
     The multiplexer object storage allows an input to be demultiplexed
     among multiple storages that will or will not accept it by
     themselves (see .filter package).
 
     As the ids can be different, no pre-computed ids should be
     submitted.  Also, there are no guarantees that the returned ids
     can be used directly into the storages that the multiplexer
     manage.
 
     Use case examples follow.
 
     Example 1::
 
         storage_v1 = filter.read_only(PathSlicingObjStorage('/dir1',
                                                             '0:2/2:4/4:6'))
         storage_v2 = PathSlicingObjStorage('/dir2', '0:1/0:5')
         storage = MultiplexerObjStorage([storage_v1, storage_v2])
 
     When using 'storage', all the new contents will only be added to the v2
     storage, while it will be retrievable from both.
 
     Example 2::
 
         storage_v1 = filter.id_regex(
             PathSlicingObjStorage('/dir1', '0:2/2:4/4:6'),
             r'[^012].*'
         )
         storage_v2 = filter.if_regex(
             PathSlicingObjStorage('/dir2', '0:1/0:5'),
             r'[012]/*'
         )
         storage = MultiplexerObjStorage([storage_v1, storage_v2])
 
     When using this storage, the contents with a sha1 starting with 0, 1 or 2
     will be redirected (read AND write) to the storage_v2, while the others
     will be redirected to the storage_v1.  If a content starting with 0, 1 or 2
     is present in the storage_v1, it would be ignored anyway.
 
     """
 
     def __init__(self, storages, **kwargs):
         super().__init__(**kwargs)
         self.storages = storages
         self.storage_threads = [ObjStorageThread(storage) for storage in storages]
         for thread in self.storage_threads:
             thread.start()
 
     def wrap_call(self, threads, call, *args, **kwargs):
         threads = list(threads)
         mailbox = queue.Queue()
         for thread in threads:
             thread.queue_command(call, *args, mailbox=mailbox, **kwargs)
 
         return ObjStorageThread.collect_results(mailbox, len(threads))
 
     def get_read_threads(self, obj_id=None):
         yield from self.storage_threads
 
     def get_write_threads(self, obj_id=None):
         yield from self.storage_threads
 
     def check_config(self, *, check_write):
         """Check whether the object storage is properly configured.
 
         Args:
             check_write (bool): if True, check if writes to the object storage
             can succeed.
 
         Returns:
             True if the configuration check worked, an exception if it didn't.
         """
         return all(
             self.wrap_call(
                 self.storage_threads, "check_config", check_write=check_write
             )
         )
 
     def __contains__(self, obj_id):
         """Indicate if the given object is present in the storage.
 
         Args:
             obj_id (bytes): object identifier.
 
         Returns:
             True if and only if the object is present in the current object
             storage.
 
         """
         for storage in self.get_read_threads(obj_id):
             if obj_id in storage:
                 return True
         return False
 
     def __iter__(self):
         def obj_iterator():
             for storage in self.storages:
                 yield from storage
 
         return obj_iterator()
 
     def add(self, content, obj_id=None, check_presence=True):
         """ Add a new object to the object storage.
 
         If the adding step works in all the storages that accept this content,
         this is a success. Otherwise, the full adding step is an error even if
         it succeed in some of the storages.
 
         Args:
             content: content of the object to be added to the storage.
             obj_id: checksum of [bytes] using [ID_HASH_ALGO] algorithm. When
                 given, obj_id will be trusted to match the bytes. If missing,
                 obj_id will be computed on the fly.
             check_presence: indicate if the presence of the content should be
                 verified before adding the file.
 
         Returns:
             an id of the object into the storage. As the write-storages are
             always readable as well, any id will be valid to retrieve a
             content.
         """
         results = self.wrap_call(
             self.get_write_threads(obj_id),
             "add",
             content,
             obj_id=obj_id,
             check_presence=check_presence,
         )
 
         for result in results:
             if not result:
                 continue
             return result
 
     def add_batch(self, contents, check_presence=True):
         """Add a batch of new objects to the object storage.
 
         """
         write_threads = list(self.get_write_threads())
         results = self.wrap_call(
             write_threads, "add_batch", contents, check_presence=check_presence,
         )
 
         summed = {"object:add": 0, "object:add:bytes": 0}
         for result in results:
             summed["object:add"] += result["object:add"]
             summed["object:add:bytes"] += result["object:add:bytes"]
 
         return {
             "object:add": summed["object:add"] // len(results),
             "object:add:bytes": summed["object:add:bytes"] // len(results),
         }
 
     def restore(self, content, obj_id=None):
         return self.wrap_call(
             self.get_write_threads(obj_id), "restore", content, obj_id=obj_id,
         ).pop()
 
     def get(self, obj_id):
         for storage in self.get_read_threads(obj_id):
             try:
                 return storage.get(obj_id)
             except ObjNotFoundError:
                 continue
         # If no storage contains this content, raise the error
         raise ObjNotFoundError(obj_id)
 
     def check(self, obj_id):
         nb_present = 0
         for storage in self.get_read_threads(obj_id):
             try:
                 storage.check(obj_id)
             except ObjNotFoundError:
                 continue
             else:
                 nb_present += 1
         # If there is an Error because of a corrupted file, then let it pass.
 
         # Raise the ObjNotFoundError only if the content couldn't be found in
         # all the storages.
         if nb_present == 0:
             raise ObjNotFoundError(obj_id)
 
     def delete(self, obj_id):
         super().delete(obj_id)  # Check delete permission
         return all(self.wrap_call(self.get_write_threads(obj_id), "delete", obj_id))
 
     def get_random(self, batch_size):
         storages_set = [storage for storage in self.storages if len(storage) > 0]
         if len(storages_set) <= 0:
             return []
 
         while storages_set:
             storage = random.choice(storages_set)
             try:
                 return storage.get_random(batch_size)
             except NotImplementedError:
                 storages_set.remove(storage)
         # There is no storage that allow the get_random operation
         raise NotImplementedError(
             "There is no storage implementation into the multiplexer that "
             "support the 'get_random' operation"
         )