# Copyright 2010 Jacob Kaplan-Moss # Copyright 2011 OpenStack Foundation # All Rights Reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); you may # not use this file except in compliance with the License. You may obtain # a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, WITHOUT # WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the # License for the specific language governing permissions and limitations # under the License. """ Base utilities to build API operation managers and objects on top of. """ import abc import contextlib import copy import hashlib import os import threading from oslo_utils import reflection from oslo_utils import strutils import requests import six from novaclient import exceptions from novaclient import utils def getid(obj): """Get object's ID or object. Abstracts the common pattern of allowing both an object or an object's ID as a parameter when dealing with relationships. """ return getattr(obj, 'id', obj) # TODO(aababilov): call run_hooks() in HookableMixin's child classes class HookableMixin(object): """Mixin so classes can register and run hooks.""" _hooks_map = {} @classmethod def add_hook(cls, hook_type, hook_func): """Add a new hook of specified type. :param cls: class that registers hooks :param hook_type: hook type, e.g., '__pre_parse_args__' :param hook_func: hook function """ if hook_type not in cls._hooks_map: cls._hooks_map[hook_type] = [] cls._hooks_map[hook_type].append(hook_func) @classmethod def run_hooks(cls, hook_type, *args, **kwargs): """Run all hooks of specified type. :param cls: class that registers hooks :param hook_type: hook type, e.g., '__pre_parse_args__' :param args: args to be passed to every hook function :param kwargs: kwargs to be passed to every hook function """ hook_funcs = cls._hooks_map.get(hook_type) or [] for hook_func in hook_funcs: hook_func(*args, **kwargs) class RequestIdMixin(object): """Wrapper class to expose x-openstack-request-id to the caller. """ def request_ids_setup(self): self.x_openstack_request_ids = [] @property def request_ids(self): return self.x_openstack_request_ids def append_request_ids(self, resp): """Add request_ids as an attribute to the object :param resp: Response object or list of Response objects """ if isinstance(resp, list): # Add list of request_ids if response is of type list. for resp_obj in resp: self._append_request_id(resp_obj) elif resp is not None: # Add request_ids if response contains single object. self._append_request_id(resp) def _append_request_id(self, resp): if isinstance(resp, requests.Response): # Extract 'x-openstack-request-id' from headers if # response is a Response object. request_id = (resp.headers.get('x-openstack-request-id') or resp.headers.get('x-compute-request-id')) else: # If resp is of type string or None. request_id = resp if request_id not in self.x_openstack_request_ids: self.x_openstack_request_ids.append(request_id) class Resource(RequestIdMixin): """Base class for OpenStack resources (tenant, user, etc.). This is pretty much just a bag for attributes. """ HUMAN_ID = False NAME_ATTR = 'name' def __init__(self, manager, info, loaded=False, resp=None): """Populate and bind to a manager. :param manager: BaseManager object :param info: dictionary representing resource attributes :param loaded: prevent lazy-loading if set to True :param resp: Response or list of Response objects """ self.manager = manager self._info = info self._add_details(info) self._loaded = loaded self.request_ids_setup() self.append_request_ids(resp) def __repr__(self): reprkeys = sorted(k for k in self.__dict__.keys() if k[0] != '_' and k not in ['manager', 'x_openstack_request_ids']) info = ", ".join("%s=%s" % (k, getattr(self, k)) for k in reprkeys) return "<%s %s>" % (self.__class__.__name__, info) @property def api_version(self): return self.manager.api_version @property def human_id(self): """Human-readable ID which can be used for bash completion. """ if self.HUMAN_ID: name = getattr(self, self.NAME_ATTR, None) if name is not None: return strutils.to_slug(name) return None def _add_details(self, info): for (k, v) in info.items(): try: setattr(self, k, v) self._info[k] = v except AttributeError: # In this case we already defined the attribute on the class pass def __getattr__(self, k): if k not in self.__dict__: # NOTE(bcwaldon): disallow lazy-loading if already loaded once if not self.is_loaded(): self.get() return self.__getattr__(k) raise AttributeError(k) else: return self.__dict__[k] def get(self): """Support for lazy loading details. Some clients, such as novaclient have the option to lazy load the details, details which can be loaded with this function. """ # set_loaded() first ... so if we have to bail, we know we tried. self.set_loaded(True) if not hasattr(self.manager, 'get'): return new = self.manager.get(self.id) if new: self._add_details(new._info) # The 'request_ids' attribute has been added, # so store the request id to it instead of _info self.append_request_ids(new.request_ids) def __eq__(self, other): if not isinstance(other, Resource): return NotImplemented # two resources of different types are not equal if not isinstance(other, self.__class__): return False if hasattr(self, 'id') and hasattr(other, 'id'): return self.id == other.id return self._info == other._info def __ne__(self, other): # Using not of '==' implementation because the not of # __eq__, when it returns NotImplemented, is returning False. return not self == other def is_loaded(self): return self._loaded def set_loaded(self, val): self._loaded = val def set_info(self, key, value): self._info[key] = value def to_dict(self): return copy.deepcopy(self._info) class Manager(HookableMixin): """Manager for API service. Managers interact with a particular type of API (servers, flavors, images, etc.) and provide CRUD operations for them. """ resource_class = None cache_lock = threading.RLock() def __init__(self, api): self.api = api @property def client(self): return self.api.client @property def api_version(self): return self.api.api_version def _list(self, url, response_key, obj_class=None, body=None, filters=None): if filters: url = utils.get_url_with_filter(url, filters) if body: resp, body = self.api.client.post(url, body=body) else: resp, body = self.api.client.get(url) if obj_class is None: obj_class = self.resource_class data = body[response_key] # NOTE(ja): keystone returns values as list as {'values': [ ... ]} # unlike other services which just return the list... if isinstance(data, dict): try: data = data['values'] except KeyError: pass with self.completion_cache('human_id', obj_class, mode="w"): with self.completion_cache('uuid', obj_class, mode="w"): items = [obj_class(self, res, loaded=True) for res in data if res] return ListWithMeta(items, resp) @contextlib.contextmanager def alternate_service_type(self, default, allowed_types=()): original_service_type = self.api.client.service_type if original_service_type in allowed_types: yield else: self.api.client.service_type = default try: yield finally: self.api.client.service_type = original_service_type @contextlib.contextmanager def completion_cache(self, cache_type, obj_class, mode): """The completion cache for bash autocompletion. The completion cache store items that can be used for bash autocompletion, like UUIDs or human-friendly IDs. A resource listing will clear and repopulate the cache. A resource create will append to the cache. Delete is not handled because listings are assumed to be performed often enough to keep the cache reasonably up-to-date. """ # NOTE(wryan): This lock protects read and write access to the # completion caches with self.cache_lock: base_dir = utils.env('NOVACLIENT_UUID_CACHE_DIR', default="~/.novaclient") # NOTE(sirp): Keep separate UUID caches for each username + # endpoint pair username = utils.env('OS_USERNAME', 'NOVA_USERNAME') url = utils.env('OS_URL', 'NOVA_URL') uniqifier = hashlib.sha256(username.encode('utf-8') + url.encode('utf-8')).hexdigest() cache_dir = os.path.expanduser(os.path.join(base_dir, uniqifier)) try: os.makedirs(cache_dir, 0o755) except OSError: # NOTE(kiall): This is typically either permission denied while # attempting to create the directory, or the # directory already exists. Either way, don't # fail. pass resource = obj_class.__name__.lower() filename = "%s-%s-cache" % (resource, cache_type.replace('_', '-')) path = os.path.join(cache_dir, filename) cache_attr = "_%s_cache" % cache_type try: setattr(self, cache_attr, open(path, mode)) except IOError: # NOTE(kiall): This is typically a permission denied while # attempting to write the cache file. pass try: yield finally: cache = getattr(self, cache_attr, None) if cache: cache.close() delattr(self, cache_attr) def write_to_completion_cache(self, cache_type, val): cache = getattr(self, "_%s_cache" % cache_type, None) if cache: cache.write("%s\n" % val) def _get(self, url, response_key, filters=None): if filters: url = utils.get_url_with_filter(url, filters) resp, body = self.api.client.get(url) if response_key is not None: content = body[response_key] else: content = body return self.resource_class(self, content, loaded=True, resp=resp) def _create(self, url, body, response_key, return_raw=False, obj_class=None, **kwargs): self.run_hooks('modify_body_for_create', body, **kwargs) resp, body = self.api.client.post(url, body=body) if return_raw: return self.convert_into_with_meta(body[response_key], resp) if obj_class is None: obj_class = self.resource_class with self.completion_cache('human_id', obj_class, mode="a"): with self.completion_cache('uuid', obj_class, mode="a"): return obj_class(self, body[response_key], resp=resp) def _delete(self, url): resp, body = self.api.client.delete(url) return self.convert_into_with_meta(body, resp) def _update(self, url, body, response_key=None, **kwargs): self.run_hooks('modify_body_for_update', body, **kwargs) resp, body = self.api.client.put(url, body=body) if body: if response_key: return self.resource_class(self, body[response_key], resp=resp) else: return self.resource_class(self, body, resp=resp) else: return StrWithMeta(body, resp) def convert_into_with_meta(self, item, resp): if isinstance(item, six.string_types): if six.PY2 and isinstance(item, six.text_type): return UnicodeWithMeta(item, resp) else: return StrWithMeta(item, resp) elif isinstance(item, six.binary_type): return BytesWithMeta(item, resp) elif isinstance(item, list): return ListWithMeta(item, resp) elif isinstance(item, tuple): return TupleWithMeta(item, resp) elif item is None: return TupleWithMeta((), resp) else: return DictWithMeta(item, resp) @six.add_metaclass(abc.ABCMeta) class ManagerWithFind(Manager): """Like a `Manager`, but with additional `find()`/`findall()` methods.""" @abc.abstractmethod def list(self): pass def find(self, **kwargs): """Find a single item with attributes matching ``**kwargs``.""" matches = self.findall(**kwargs) num_matches = len(matches) if num_matches == 0: msg = "No %s matching %s." % (self.resource_class.__name__, kwargs) raise exceptions.NotFound(404, msg) elif num_matches > 1: raise exceptions.NoUniqueMatch else: matches[0].append_request_ids(matches.request_ids) return matches[0] def findall(self, **kwargs): """Find all items with attributes matching ``**kwargs``.""" found = ListWithMeta([], None) searches = kwargs.items() detailed = True list_kwargs = {} list_argspec = reflection.get_callable_args(self.list) if 'detailed' in list_argspec: detailed = ("human_id" not in kwargs and "name" not in kwargs and "display_name" not in kwargs) list_kwargs['detailed'] = detailed if 'is_public' in list_argspec and 'is_public' in kwargs: is_public = kwargs['is_public'] list_kwargs['is_public'] = is_public if is_public is None: tmp_kwargs = kwargs.copy() del tmp_kwargs['is_public'] searches = tmp_kwargs.items() if 'search_opts' in list_argspec: # pass search_opts in to do server side based filtering. # TODO(jogo) not all search_opts support regex, find way to # identify when to use regex and when to use string matching. # volumes does not support regex while servers does. So when # doing findall on servers some client side filtering is still # needed. if "human_id" in kwargs: list_kwargs['search_opts'] = {"name": kwargs["human_id"]} elif "name" in kwargs: list_kwargs['search_opts'] = {"name": kwargs["name"]} elif "display_name" in kwargs: list_kwargs['search_opts'] = {"name": kwargs["display_name"]} if "all_tenants" in kwargs: all_tenants = kwargs['all_tenants'] list_kwargs['search_opts']['all_tenants'] = all_tenants searches = [(k, v) for k, v in searches if k != 'all_tenants'] if "deleted" in kwargs: deleted = kwargs['deleted'] list_kwargs['search_opts']['deleted'] = deleted searches = [(k, v) for k, v in searches if k != 'deleted'] listing = self.list(**list_kwargs) found.append_request_ids(listing.request_ids) for obj in listing: try: if all(getattr(obj, attr) == value for (attr, value) in searches): if detailed: found.append(obj) else: detail = self.get(obj.id) found.append(detail) found.append_request_ids(detail.request_ids) except AttributeError: continue return found class BootingManagerWithFind(ManagerWithFind): """Like a `ManagerWithFind`, but has the ability to boot servers.""" def _parse_block_device_mapping(self, block_device_mapping): """Parses legacy block device mapping.""" # FIXME(andreykurilin): make it work with block device mapping v2 bdm = [] for device_name, mapping in block_device_mapping.items(): # # The mapping is in the format: # :[]:[]:[] # bdm_dict = {'device_name': device_name} mapping_parts = mapping.split(':') source_id = mapping_parts[0] if len(mapping_parts) == 1: bdm_dict['volume_id'] = source_id elif len(mapping_parts) > 1: source_type = mapping_parts[1] if source_type.startswith('snap'): bdm_dict['snapshot_id'] = source_id else: bdm_dict['volume_id'] = source_id if len(mapping_parts) > 2 and mapping_parts[2]: bdm_dict['volume_size'] = str(int(mapping_parts[2])) if len(mapping_parts) > 3: bdm_dict['delete_on_termination'] = mapping_parts[3] bdm.append(bdm_dict) return bdm class ListWithMeta(list, RequestIdMixin): def __init__(self, values, resp): super(ListWithMeta, self).__init__(values) self.request_ids_setup() self.append_request_ids(resp) class DictWithMeta(dict, RequestIdMixin): def __init__(self, values, resp): super(DictWithMeta, self).__init__(values) self.request_ids_setup() self.append_request_ids(resp) class TupleWithMeta(tuple, RequestIdMixin): def __new__(cls, values, resp): return super(TupleWithMeta, cls).__new__(cls, values) def __init__(self, values, resp): self.request_ids_setup() self.append_request_ids(resp) class StrWithMeta(str, RequestIdMixin): def __new__(cls, value, resp): return super(StrWithMeta, cls).__new__(cls, value) def __init__(self, values, resp): self.request_ids_setup() self.append_request_ids(resp) class BytesWithMeta(six.binary_type, RequestIdMixin): def __new__(cls, value, resp): return super(BytesWithMeta, cls).__new__(cls, value) def __init__(self, values, resp): self.request_ids_setup() self.append_request_ids(resp) if six.PY2: class UnicodeWithMeta(six.text_type, RequestIdMixin): def __new__(cls, value, resp): return super(UnicodeWithMeta, cls).__new__(cls, value) def __init__(self, values, resp): self.request_ids_setup() self.append_request_ids(resp)