diff --git a/swh/vault/cookers/base.py b/swh/vault/cookers/base.py
index f8eb1a6..7fc6d6b 100644
--- a/swh/vault/cookers/base.py
+++ b/swh/vault/cookers/base.py
@@ -1,227 +1,229 @@
 # Copyright (C) 2016-2017  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 abc
 import io
 import itertools
 import os
 import tarfile
 import tempfile
 
 from pathlib import Path
 
 from swh.core import config
 from swh.model import hashutil
 from swh.model.from_disk import mode_to_perms, DentryPerms
 from swh.storage import get_storage
 from swh.vault.api.client import RemoteVaultClient
 
 
+DEFAULT_CONFIG_PATH = 'vault/cooker'
 DEFAULT_CONFIG = {
     'storage': ('dict', {
         'cls': 'remote',
         'args': {
             'url': 'http://localhost:5002/',
         },
     }),
     'vault_url': ('str', 'http://localhost:5005/')
 }
 
 
 class BaseVaultCooker(metaclass=abc.ABCMeta):
     """Abstract base class for the vault's bundle creators
 
     This class describes a common API for the cookers.
 
     To define a new cooker, inherit from this class and override:
     - CACHE_TYPE_KEY: key to use for the bundle to reference in cache
     - def cook(): cook the object into a bundle
     """
     CACHE_TYPE_KEY = None
 
     def __init__(self, obj_type, obj_id):
         """Initialize the cooker.
 
         The type of the object represented by the id depends on the
         concrete class. Very likely, each type of bundle will have its
         own cooker class.
 
         Args:
             storage: the storage object
             cache: the cache where to store the bundle
             obj_id: id of the object to be cooked into a bundle.
         """
-        self.config = config.load_named_config('vault-cooker', DEFAULT_CONFIG)
+        self.config = config.load_named_config(DEFAULT_CONFIG_PATH,
+                                               DEFAULT_CONFIG)
         self.obj_type = obj_type
         self.obj_id = hashutil.hash_to_bytes(obj_id)
         self.backend = RemoteVaultClient(self.config['vault_url'])
         self.storage = get_storage(**self.config['storage'])
 
     @abc.abstractmethod
     def check_exists(self):
         """Checks that the requested object exists and can be cooked.
 
         Override this in the cooker implementation.
         """
         raise NotImplemented
 
     @abc.abstractmethod
     def prepare_bundle(self):
         """Implementation of the cooker. Yields chunks of the bundle bytes.
 
         Override this with the cooker implementation.
         """
         raise NotImplemented
 
     def cook(self):
         """Cook the requested object into a bundle
         """
         self.backend.set_status(self.obj_type, self.obj_id, 'pending')
         self.backend.set_progress(self.obj_type, self.obj_id, 'Processing...')
         content_iter = self.prepare_bundle()
 
         # TODO: use proper content streaming
         bundle = b''.join(content_iter)
         self.backend.put_bundle(self.CACHE_TYPE_KEY, self.obj_id, bundle)
 
         self.backend.set_status(self.obj_type, self.obj_id, 'done')
         self.backend.set_progress(self.obj_type, self.obj_id, None)
         self.backend.send_notif(self.obj_type, self.obj_id)
 
 
 SKIPPED_MESSAGE = (b'This content has not been retrieved in the '
                    b'Software Heritage archive due to its size.')
 
 HIDDEN_MESSAGE = (b'This content is hidden.')
 
 
 def get_filtered_file_content(storage, file_data):
     """Retrieve the file specified by file_data and apply filters for skipped
     and missing contents.
 
     Args:
         storage: the storage from which to retrieve the object
         file_data: file entry descriptor as returned by directory_ls()
 
     Returns:
         Bytes containing the specified content. The content will be replaced by
         a specific message to indicate that the content could not be retrieved
         (either due to privacy policy or because its size was too big for us to
         archive it).
     """
 
     assert file_data['type'] == 'file'
 
     if file_data['status'] == 'absent':
         return SKIPPED_MESSAGE
     elif file_data['status'] == 'hidden':
         return HIDDEN_MESSAGE
     else:
         return list(storage.content_get([file_data['sha1']]))[0]['data']
 
 
 def get_tar_bytes(path, arcname=None):
     path = Path(path)
     if not arcname:
         arcname = path.name
     tar_buffer = io.BytesIO()
     tar = tarfile.open(fileobj=tar_buffer, mode='w')
     tar.add(str(path), arcname=arcname)
     return tar_buffer.getbuffer()
 
 
 class DirectoryBuilder:
     """Creates a cooked directory from its sha1_git in the db.
 
     Warning: This is NOT a directly accessible cooker, but a low-level
     one that executes the manipulations.
 
     """
     def __init__(self, storage):
         self.storage = storage
 
     def get_directory_bytes(self, dir_id):
         # Create temporary folder to retrieve the files into.
         root = bytes(tempfile.mkdtemp(prefix='directory.',
                                       suffix='.cook'), 'utf8')
         self.build_directory(dir_id, root)
         # Use the created directory to make a bundle with the data as
         # a compressed directory.
         bundle_content = self._create_bundle_content(
             root,
             hashutil.hash_to_hex(dir_id))
         return bundle_content
 
     def build_directory(self, dir_id, root):
         # Retrieve data from the database.
         data = self.storage.directory_ls(dir_id, recursive=True)
 
         # Split into files and directory data.
         # TODO(seirl): also handle revision data.
         data1, data2 = itertools.tee(data, 2)
         dir_data = (entry['name'] for entry in data1 if entry['type'] == 'dir')
         file_data = (entry for entry in data2 if entry['type'] == 'file')
 
         # Recreate the directory's subtree and then the files into it.
         self._create_tree(root, dir_data)
         self._create_files(root, file_data)
 
     def _create_tree(self, root, directory_paths):
         """Create a directory tree from the given paths
 
         The tree is created from `root` and each given path in
         `directory_paths` will be created.
 
         """
         # Directories are sorted by depth so they are created in the
         # right order
         bsep = bytes(os.path.sep, 'utf8')
         dir_names = sorted(
             directory_paths,
             key=lambda x: len(x.split(bsep)))
         for dir_name in dir_names:
             os.makedirs(os.path.join(root, dir_name))
 
     def _create_files(self, root, file_datas):
         """Create the files according to their status.
 
         """
         # Then create the files
         for file_data in file_datas:
             path = os.path.join(root, file_data['name'])
             content = get_filtered_file_content(self.storage, file_data)
             self._create_file(path, content, file_data['perms'])
 
     def _create_file(self, path, content, mode=0o100644):
         """Create the given file and fill it with content.
 
         """
         perms = mode_to_perms(mode)
         if perms == DentryPerms.symlink:
             os.symlink(content, path)
         else:
             with open(path, 'wb') as f:
                 f.write(content)
             os.chmod(path, perms.value)
 
     def _get_file_content(self, obj_id):
         """Get the content of the given file.
 
         """
         content = list(self.storage.content_get([obj_id]))[0]['data']
         return content
 
     def _create_bundle_content(self, path, hex_dir_id):
         """Create a bundle from the given directory
 
         Args:
             path: location of the directory to package.
             hex_dir_id: hex representation of the directory id
 
         Returns:
             bytes that represent the compressed directory as a bundle.
 
         """
         return get_tar_bytes(path.decode(), hex_dir_id)