vmware-nsx/neutron/api/extensions.py
Pradeep Kilambi 79525eedb6 Set the log level to debug for loading extensions
Setting the log level to debug instead of info
for load extension file.

Change-Id: Ia2322a5d62381f15b4bf4e0bb7120813be985786
2014-04-07 17:55:31 -04:00

687 lines
26 KiB
Python

# Copyright 2011 OpenStack Foundation.
# Copyright 2011 Justin Santa Barbara
# 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.
from abc import ABCMeta
import imp
import itertools
import os
from oslo.config import cfg
import routes
import six
import webob.dec
import webob.exc
from neutron.api.v2 import attributes
from neutron.common import exceptions
import neutron.extensions
from neutron.manager import NeutronManager
from neutron.openstack.common import log as logging
from neutron import policy
from neutron import wsgi
LOG = logging.getLogger(__name__)
@six.add_metaclass(ABCMeta)
class PluginInterface(object):
@classmethod
def __subclasshook__(cls, klass):
"""Checking plugin class.
The __subclasshook__ method is a class method
that will be called every time a class is tested
using issubclass(klass, PluginInterface).
In that case, it will check that every method
marked with the abstractmethod decorator is
provided by the plugin class.
"""
for method in cls.__abstractmethods__:
if any(method in base.__dict__ for base in klass.__mro__):
continue
return NotImplemented
return True
class ExtensionDescriptor(object):
"""Base class that defines the contract for extensions.
Note that you don't have to derive from this class to have a valid
extension; it is purely a convenience.
"""
def get_name(self):
"""The name of the extension.
e.g. 'Fox In Socks'
"""
raise NotImplementedError()
def get_alias(self):
"""The alias for the extension.
e.g. 'FOXNSOX'
"""
raise NotImplementedError()
def get_description(self):
"""Friendly description for the extension.
e.g. 'The Fox In Socks Extension'
"""
raise NotImplementedError()
def get_namespace(self):
"""The XML namespace for the extension.
e.g. 'http://www.fox.in.socks/api/ext/pie/v1.0'
"""
raise NotImplementedError()
def get_updated(self):
"""The timestamp when the extension was last updated.
e.g. '2011-01-22T13:25:27-06:00'
"""
# NOTE(justinsb): Not sure of the purpose of this is, vs the XML NS
raise NotImplementedError()
def get_resources(self):
"""List of extensions.ResourceExtension extension objects.
Resources define new nouns, and are accessible through URLs.
"""
resources = []
return resources
def get_actions(self):
"""List of extensions.ActionExtension extension objects.
Actions are verbs callable from the API.
"""
actions = []
return actions
def get_request_extensions(self):
"""List of extensions.RequestException extension objects.
Request extensions are used to handle custom request data.
"""
request_exts = []
return request_exts
def get_extended_resources(self, version):
"""Retrieve extended resources or attributes for core resources.
Extended attributes are implemented by a core plugin similarly
to the attributes defined in the core, and can appear in
request and response messages. Their names are scoped with the
extension's prefix. The core API version is passed to this
function, which must return a
map[<resource_name>][<attribute_name>][<attribute_property>]
specifying the extended resource attribute properties required
by that API version.
Extension can add resources and their attr definitions too.
The returned map can be integrated into RESOURCE_ATTRIBUTE_MAP.
"""
return {}
def get_plugin_interface(self):
"""Returns an abstract class which defines contract for the plugin.
The abstract class should inherit from extesnions.PluginInterface,
Methods in this abstract class should be decorated as abstractmethod
"""
return None
def update_attributes_map(self, extended_attributes,
extension_attrs_map=None):
"""Update attributes map for this extension.
This is default method for extending an extension's attributes map.
An extension can use this method and supplying its own resource
attribute map in extension_attrs_map argument to extend all its
attributes that needs to be extended.
If an extension does not implement update_attributes_map, the method
does nothing and just return.
"""
if not extension_attrs_map:
return
for resource, attrs in extension_attrs_map.iteritems():
extended_attrs = extended_attributes.get(resource)
if extended_attrs:
attrs.update(extended_attrs)
def get_alias_namespace_compatibility_map(self):
"""Returns mappings between extension aliases and XML namespaces.
The mappings are XML namespaces that should, for backward compatibility
reasons, be added to the XML serialization of extended attributes.
This allows an established extended attribute to be provided by
another extension than the original one while keeping its old alias
in the name.
:return: A dictionary of extension_aliases and namespace strings.
"""
return {}
class ActionExtensionController(wsgi.Controller):
def __init__(self, application):
self.application = application
self.action_handlers = {}
def add_action(self, action_name, handler):
self.action_handlers[action_name] = handler
def action(self, request, id):
input_dict = self._deserialize(request.body,
request.get_content_type())
for action_name, handler in self.action_handlers.iteritems():
if action_name in input_dict:
return handler(input_dict, request, id)
# no action handler found (bump to downstream application)
response = self.application
return response
class RequestExtensionController(wsgi.Controller):
def __init__(self, application):
self.application = application
self.handlers = []
def add_handler(self, handler):
self.handlers.append(handler)
def process(self, request, *args, **kwargs):
res = request.get_response(self.application)
# currently request handlers are un-ordered
for handler in self.handlers:
response = handler(request, res)
return response
class ExtensionController(wsgi.Controller):
def __init__(self, extension_manager):
self.extension_manager = extension_manager
def _translate(self, ext):
ext_data = {}
ext_data['name'] = ext.get_name()
ext_data['alias'] = ext.get_alias()
ext_data['description'] = ext.get_description()
ext_data['namespace'] = ext.get_namespace()
ext_data['updated'] = ext.get_updated()
ext_data['links'] = [] # TODO(dprince): implement extension links
return ext_data
def index(self, request):
extensions = []
for _alias, ext in self.extension_manager.extensions.iteritems():
extensions.append(self._translate(ext))
return dict(extensions=extensions)
def show(self, request, id):
# NOTE(dprince): the extensions alias is used as the 'id' for show
ext = self.extension_manager.extensions.get(id, None)
if not ext:
raise webob.exc.HTTPNotFound(
_("Extension with alias %s does not exist") % id)
return dict(extension=self._translate(ext))
def delete(self, request, id):
msg = _('Resource not found.')
raise webob.exc.HTTPNotFound(msg)
def create(self, request):
msg = _('Resource not found.')
raise webob.exc.HTTPNotFound(msg)
class ExtensionMiddleware(wsgi.Middleware):
"""Extensions middleware for WSGI."""
def __init__(self, application,
ext_mgr=None):
self.ext_mgr = (ext_mgr
or ExtensionManager(get_extensions_path()))
mapper = routes.Mapper()
# extended resources
for resource in self.ext_mgr.get_resources():
path_prefix = resource.path_prefix
if resource.parent:
path_prefix = (resource.path_prefix +
"/%s/{%s_id}" %
(resource.parent["collection_name"],
resource.parent["member_name"]))
LOG.debug(_('Extended resource: %s'),
resource.collection)
for action, method in resource.collection_actions.iteritems():
conditions = dict(method=[method])
path = "/%s/%s" % (resource.collection, action)
with mapper.submapper(controller=resource.controller,
action=action,
path_prefix=path_prefix,
conditions=conditions) as submap:
submap.connect(path)
submap.connect("%s.:(format)" % path)
mapper.resource(resource.collection, resource.collection,
controller=resource.controller,
member=resource.member_actions,
parent_resource=resource.parent,
path_prefix=path_prefix)
# extended actions
action_controllers = self._action_ext_controllers(application,
self.ext_mgr, mapper)
for action in self.ext_mgr.get_actions():
LOG.debug(_('Extended action: %s'), action.action_name)
controller = action_controllers[action.collection]
controller.add_action(action.action_name, action.handler)
# extended requests
req_controllers = self._request_ext_controllers(application,
self.ext_mgr, mapper)
for request_ext in self.ext_mgr.get_request_extensions():
LOG.debug(_('Extended request: %s'), request_ext.key)
controller = req_controllers[request_ext.key]
controller.add_handler(request_ext.handler)
self._router = routes.middleware.RoutesMiddleware(self._dispatch,
mapper)
super(ExtensionMiddleware, self).__init__(application)
@classmethod
def factory(cls, global_config, **local_config):
"""Paste factory."""
def _factory(app):
return cls(app, global_config, **local_config)
return _factory
def _action_ext_controllers(self, application, ext_mgr, mapper):
"""Return a dict of ActionExtensionController-s by collection."""
action_controllers = {}
for action in ext_mgr.get_actions():
if action.collection not in action_controllers.keys():
controller = ActionExtensionController(application)
mapper.connect("/%s/:(id)/action.:(format)" %
action.collection,
action='action',
controller=controller,
conditions=dict(method=['POST']))
mapper.connect("/%s/:(id)/action" % action.collection,
action='action',
controller=controller,
conditions=dict(method=['POST']))
action_controllers[action.collection] = controller
return action_controllers
def _request_ext_controllers(self, application, ext_mgr, mapper):
"""Returns a dict of RequestExtensionController-s by collection."""
request_ext_controllers = {}
for req_ext in ext_mgr.get_request_extensions():
if req_ext.key not in request_ext_controllers.keys():
controller = RequestExtensionController(application)
mapper.connect(req_ext.url_route + '.:(format)',
action='process',
controller=controller,
conditions=req_ext.conditions)
mapper.connect(req_ext.url_route,
action='process',
controller=controller,
conditions=req_ext.conditions)
request_ext_controllers[req_ext.key] = controller
return request_ext_controllers
@webob.dec.wsgify(RequestClass=wsgi.Request)
def __call__(self, req):
"""Route the incoming request with router."""
req.environ['extended.app'] = self.application
return self._router
@staticmethod
@webob.dec.wsgify(RequestClass=wsgi.Request)
def _dispatch(req):
"""Dispatch the request.
Returns the routed WSGI app's response or defers to the extended
application.
"""
match = req.environ['wsgiorg.routing_args'][1]
if not match:
return req.environ['extended.app']
app = match['controller']
return app
def plugin_aware_extension_middleware_factory(global_config, **local_config):
"""Paste factory."""
def _factory(app):
ext_mgr = PluginAwareExtensionManager.get_instance()
return ExtensionMiddleware(app, ext_mgr=ext_mgr)
return _factory
class ExtensionManager(object):
"""Load extensions from the configured extension path.
See tests/unit/extensions/foxinsocks.py for an
example extension implementation.
"""
def __init__(self, path):
LOG.info(_('Initializing extension manager.'))
self.path = path
self.extensions = {}
self._load_all_extensions()
policy.reset()
def get_resources(self):
"""Returns a list of ResourceExtension objects."""
resources = []
resources.append(ResourceExtension('extensions',
ExtensionController(self)))
for ext in self.extensions.itervalues():
try:
resources.extend(ext.get_resources())
except AttributeError:
# NOTE(dprince): Extension aren't required to have resource
# extensions
pass
return resources
def get_actions(self):
"""Returns a list of ActionExtension objects."""
actions = []
for ext in self.extensions.itervalues():
try:
actions.extend(ext.get_actions())
except AttributeError:
# NOTE(dprince): Extension aren't required to have action
# extensions
pass
return actions
def get_request_extensions(self):
"""Returns a list of RequestExtension objects."""
request_exts = []
for ext in self.extensions.itervalues():
try:
request_exts.extend(ext.get_request_extensions())
except AttributeError:
# NOTE(dprince): Extension aren't required to have request
# extensions
pass
return request_exts
def extend_resources(self, version, attr_map):
"""Extend resources with additional resources or attributes.
:param: attr_map, the existing mapping from resource name to
attrs definition.
After this function, we will extend the attr_map if an extension
wants to extend this map.
"""
update_exts = []
processed_exts = set()
exts_to_process = self.extensions.copy()
# Iterate until there are unprocessed extensions or if no progress
# is made in a whole iteration
while exts_to_process:
processed_ext_count = len(processed_exts)
for ext_name, ext in exts_to_process.items():
if not hasattr(ext, 'get_extended_resources'):
del exts_to_process[ext_name]
continue
if hasattr(ext, 'update_attributes_map'):
update_exts.append(ext)
if hasattr(ext, 'get_required_extensions'):
# Process extension only if all required extensions
# have been processed already
required_exts_set = set(ext.get_required_extensions())
if required_exts_set - processed_exts:
continue
try:
extended_attrs = ext.get_extended_resources(version)
for resource, resource_attrs in extended_attrs.iteritems():
if attr_map.get(resource, None):
attr_map[resource].update(resource_attrs)
else:
attr_map[resource] = resource_attrs
if extended_attrs:
attributes.EXT_NSES[ext.get_alias()] = (
ext.get_namespace())
except AttributeError:
LOG.exception(_("Error fetching extended attributes for "
"extension '%s'"), ext.get_name())
try:
comp_map = ext.get_alias_namespace_compatibility_map()
attributes.EXT_NSES_BC.update(comp_map)
except AttributeError:
LOG.info(_("Extension '%s' provides no backward "
"compatibility map for extended attributes"),
ext.get_name())
processed_exts.add(ext_name)
del exts_to_process[ext_name]
if len(processed_exts) == processed_ext_count:
# Exit loop as no progress was made
break
if exts_to_process:
# NOTE(salv-orlando): Consider whether this error should be fatal
LOG.error(_("It was impossible to process the following "
"extensions: %s because of missing requirements."),
','.join(exts_to_process.keys()))
# Extending extensions' attributes map.
for ext in update_exts:
ext.update_attributes_map(attr_map)
def _check_extension(self, extension):
"""Checks for required methods in extension objects."""
try:
LOG.debug(_('Ext name: %s'), extension.get_name())
LOG.debug(_('Ext alias: %s'), extension.get_alias())
LOG.debug(_('Ext description: %s'), extension.get_description())
LOG.debug(_('Ext namespace: %s'), extension.get_namespace())
LOG.debug(_('Ext updated: %s'), extension.get_updated())
except AttributeError as ex:
LOG.exception(_("Exception loading extension: %s"), unicode(ex))
return False
if hasattr(extension, 'check_env'):
try:
extension.check_env()
except exceptions.InvalidExtensionEnv as ex:
LOG.warn(_("Exception loading extension: %s"), unicode(ex))
return False
return True
def _load_all_extensions(self):
"""Load extensions from the configured path.
The extension name is constructed from the module_name. If your
extension module is named widgets.py, the extension class within that
module should be 'Widgets'.
See tests/unit/extensions/foxinsocks.py for an example extension
implementation.
"""
for path in self.path.split(':'):
if os.path.exists(path):
self._load_all_extensions_from_path(path)
else:
LOG.error(_("Extension path '%s' doesn't exist!"), path)
def _load_all_extensions_from_path(self, path):
# Sorting the extension list makes the order in which they
# are loaded predictable across a cluster of load-balanced
# Neutron Servers
for f in sorted(os.listdir(path)):
try:
LOG.debug(_('Loading extension file: %s'), f)
mod_name, file_ext = os.path.splitext(os.path.split(f)[-1])
ext_path = os.path.join(path, f)
if file_ext.lower() == '.py' and not mod_name.startswith('_'):
mod = imp.load_source(mod_name, ext_path)
ext_name = mod_name[0].upper() + mod_name[1:]
new_ext_class = getattr(mod, ext_name, None)
if not new_ext_class:
LOG.warn(_('Did not find expected name '
'"%(ext_name)s" in %(file)s'),
{'ext_name': ext_name,
'file': ext_path})
continue
new_ext = new_ext_class()
self.add_extension(new_ext)
except Exception as exception:
LOG.warn(_("Extension file %(f)s wasn't loaded due to "
"%(exception)s"), {'f': f, 'exception': exception})
def add_extension(self, ext):
# Do nothing if the extension doesn't check out
if not self._check_extension(ext):
return
alias = ext.get_alias()
LOG.info(_('Loaded extension: %s'), alias)
if alias in self.extensions:
raise exceptions.DuplicatedExtension(alias=alias)
self.extensions[alias] = ext
class PluginAwareExtensionManager(ExtensionManager):
_instance = None
def __init__(self, path, plugins):
self.plugins = plugins
super(PluginAwareExtensionManager, self).__init__(path)
self.check_if_plugin_extensions_loaded()
def _check_extension(self, extension):
"""Check if an extension is supported by any plugin."""
extension_is_valid = super(PluginAwareExtensionManager,
self)._check_extension(extension)
return (extension_is_valid and
self._plugins_support(extension) and
self._plugins_implement_interface(extension))
def _plugins_support(self, extension):
alias = extension.get_alias()
supports_extension = any((hasattr(plugin,
"supported_extension_aliases") and
alias in plugin.supported_extension_aliases)
for plugin in self.plugins.values())
if not supports_extension:
LOG.warn(_("Extension %s not supported by any of loaded plugins"),
alias)
return supports_extension
def _plugins_implement_interface(self, extension):
if(not hasattr(extension, "get_plugin_interface") or
extension.get_plugin_interface() is None):
return True
for plugin in self.plugins.values():
if isinstance(plugin, extension.get_plugin_interface()):
return True
LOG.warn(_("Loaded plugins do not implement extension %s interface"),
extension.get_alias())
return False
@classmethod
def get_instance(cls):
if cls._instance is None:
cls._instance = cls(get_extensions_path(),
NeutronManager.get_service_plugins())
return cls._instance
def check_if_plugin_extensions_loaded(self):
"""Check if an extension supported by a plugin has been loaded."""
plugin_extensions = set(itertools.chain.from_iterable([
getattr(plugin, "supported_extension_aliases", [])
for plugin in self.plugins.values()]))
missing_aliases = plugin_extensions - set(self.extensions)
if missing_aliases:
raise exceptions.ExtensionsNotFound(
extensions=list(missing_aliases))
class RequestExtension(object):
"""Extend requests and responses of core Neutron OpenStack API controllers.
Provide a way to add data to responses and handle custom request data
that is sent to core Neutron OpenStack API controllers.
"""
def __init__(self, method, url_route, handler):
self.url_route = url_route
self.handler = handler
self.conditions = dict(method=[method])
self.key = "%s-%s" % (method, url_route)
class ActionExtension(object):
"""Add custom actions to core Neutron OpenStack API controllers."""
def __init__(self, collection, action_name, handler):
self.collection = collection
self.action_name = action_name
self.handler = handler
class ResourceExtension(object):
"""Add top level resources to the OpenStack API in Neutron."""
def __init__(self, collection, controller, parent=None, path_prefix="",
collection_actions={}, member_actions={}, attr_map={}):
self.collection = collection
self.controller = controller
self.parent = parent
self.collection_actions = collection_actions
self.member_actions = member_actions
self.path_prefix = path_prefix
self.attr_map = attr_map
# Returns the extension paths from a config entry and the __path__
# of neutron.extensions
def get_extensions_path():
paths = ':'.join(neutron.extensions.__path__)
if cfg.CONF.api_extensions_path:
paths = ':'.join([cfg.CONF.api_extensions_path, paths])
return paths
def append_api_extensions_path(paths):
paths = [cfg.CONF.api_extensions_path] + paths
cfg.CONF.set_override('api_extensions_path',
':'.join([p for p in paths if p]))