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Version:
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# vim: tabstop=4 shiftwidth=4 softtabstop=4
# Copyright (c) 2013 TrilioData, Inc.
# All Rights Reserved.
import inspect
import math
import time
import webob
import six
from workloadmgr import exception
from workloadmgr.openstack.common import jsonutils
from workloadmgr.openstack.common import log as logging
from workloadmgr import utils
from workloadmgr import wsgi
import defusedxml.ElementTree as etree
from xml.etree.ElementTree import tostring
from defusedxml import minidom
from xml.parsers import expat
XMLNS_V1 = "http://docs.openstack.org/workloadmgr/api/v1"
XMLNS_ATOM = "http://www.w3.org/2005/Atom"
LOG = logging.getLogger(__name__)
# The vendor content types should serialize identically to the non-vendor
# content types. So to avoid littering the code with both options, we
# map the vendor to the other when looking up the type
_CONTENT_TYPE_MAP = {
"application/vnd.openstack.workloadmgr+json": "application/json",
"application/vnd.openstack.workloadmgr+xml": "application/xml",
}
SUPPORTED_CONTENT_TYPES = (
"application/json",
"application/vnd.openstack.workloadmgr+json",
"application/xml",
"application/vnd.openstack.workloadmgr+xml",
)
_MEDIA_TYPE_MAP = {
"application/vnd.openstack.workloadmgr+json": "json",
"application/json": "json",
"application/vnd.openstack.workloadmgr+xml": "xml",
"application/xml": "xml",
"application/atom+xml": "atom",
}
class Request(webob.Request):
"""Add some OpenStack API-specific logic to the base webob.Request."""
def best_match_content_type(self):
"""Determine the requested response content-type."""
if "workloadmgr.best_content_type" not in self.environ:
# Calculate the best MIME type
content_type = None
# Check URL path suffix
parts = self.path.rsplit(".", 1)
if len(parts) > 1:
possible_type = "application/" + parts[1]
if possible_type in SUPPORTED_CONTENT_TYPES:
content_type = possible_type
if not content_type:
content_type = self.accept.best_match(SUPPORTED_CONTENT_TYPES)
self.environ["workloadmgr.best_content_type"] = (
content_type or "application/json"
)
return self.environ["workloadmgr.best_content_type"]
def get_content_type(self):
"""Determine content type of the request body.
Does not do any body introspection, only checks header
"""
if "Content-Type" not in self.headers:
return None
allowed_types = SUPPORTED_CONTENT_TYPES
content_type = self.content_type
if content_type not in allowed_types:
raise exception.InvalidContentType(content_type=content_type)
return content_type
class ActionDispatcher(object):
"""Maps method name to local methods through action name."""
def dispatch(self, *args, **kwargs):
"""Find and call local method."""
action = kwargs.pop("action", "default")
action_method = getattr(self, str(action), self.default)
return action_method(*args, **kwargs)
def default(self, data):
raise NotImplementedError()
class TextDeserializer(ActionDispatcher):
"""Default request body deserialization"""
def deserialize(self, datastring, action="default"):
return self.dispatch(datastring, action=action)
def default(self, datastring):
return {}
class JSONDeserializer(TextDeserializer):
def _from_json(self, datastring):
try:
return jsonutils.loads(datastring)
except ValueError:
msg = _("cannot understand JSON")
raise exception.MalformedRequestBody(reason=msg)
def default(self, datastring):
return {"body": self._from_json(datastring)}
class XMLDeserializer(TextDeserializer):
def __init__(self, metadata=None):
"""
:param metadata: information needed to deserialize xml into
a dictionary.
"""
super(XMLDeserializer, self).__init__()
self.metadata = metadata or {}
def _from_xml(self, datastring):
plurals = set(self.metadata.get("plurals", {}))
try:
node = utils.safe_minidom_parse_string(datastring).childNodes[0]
return {node.nodeName: self._from_xml_node(node, plurals)}
except expat.ExpatError:
msg = _("cannot understand XML")
raise exception.MalformedRequestBody(reason=msg)
def _from_xml_node(self, node, listnames):
"""Convert a minidom node to a simple Python type.
:param listnames: list of XML node names whose subnodes should
be considered list items.
"""
if len(node.childNodes) == 1 and node.childNodes[0].nodeType == 3:
return node.childNodes[0].nodeValue
elif node.nodeName in listnames:
return [self._from_xml_node(n, listnames) for n in node.childNodes]
else:
result = dict()
for attr in list(node.attributes.keys()):
result[attr] = node.attributes[attr].nodeValue
for child in node.childNodes:
if child.nodeType != node.TEXT_NODE:
result[child.nodeName] = self._from_xml_node(child, listnames)
return result
def find_first_child_named(self, parent, name):
"""Search a nodes children for the first child with a given name"""
for node in parent.childNodes:
if node.nodeName == name:
return node
return None
def find_children_named(self, parent, name):
"""Return all of a nodes children who have the given name"""
for node in parent.childNodes:
if node.nodeName == name:
yield node
def extract_text(self, node):
"""Get the text field contained by the given node"""
if len(node.childNodes) == 1:
child = node.childNodes[0]
if child.nodeType == child.TEXT_NODE:
return child.nodeValue
return ""
def find_attribute_or_element(self, parent, name):
"""Get an attribute value; fallback to an element if not found"""
if parent.hasAttribute(name):
return parent.getAttribute(name)
node = self.find_first_child_named(parent, name)
if node:
return self.extract_text(node)
return None
def default(self, datastring):
return {"body": self._from_xml(datastring)}
class MetadataXMLDeserializer(XMLDeserializer):
def extract_metadata(self, metadata_node):
"""Marshal the metadata attribute of a parsed request"""
metadata = {}
if metadata_node is not None:
for meta_node in self.find_children_named(metadata_node, "meta"):
key = meta_node.getAttribute("key")
metadata[key] = self.extract_text(meta_node)
return metadata
class DictSerializer(ActionDispatcher):
"""Default request body serialization"""
def serialize(self, data, action="default"):
return self.dispatch(data, action=action)
def default(self, data):
return ""
class JSONDictSerializer(DictSerializer):
"""Default JSON request body serialization"""
def default(self, data):
return jsonutils.dumps(data)
class XMLDictSerializer(DictSerializer):
def __init__(self, metadata=None, xmlns=None):
"""
:param metadata: information needed to deserialize xml into
a dictionary.
:param xmlns: XML namespace to include with serialized xml
"""
super(XMLDictSerializer, self).__init__()
self.metadata = metadata or {}
self.xmlns = xmlns
def default(self, data):
# We expect data to contain a single key which is the XML root.
root_key = list(data.keys())[0]
doc = minidom.Document()
node = self._to_xml_node(doc, self.metadata, root_key, data[root_key])
return self.to_xml_string(node)
def to_xml_string(self, node, has_atom=False):
self._add_xmlns(node, has_atom)
return node.toxml("UTF-8")
# NOTE (ameade): the has_atom should be removed after all of the
# xml serializers and view builders have been updated to the current
# spec that required all responses include the xmlns:atom, the has_atom
# flag is to prevent current tests from breaking
def _add_xmlns(self, node, has_atom=False):
if self.xmlns is not None:
node.setAttribute("xmlns", self.xmlns)
if has_atom:
node.setAttribute("xmlns:atom", "http://www.w3.org/2005/Atom")
def _to_xml_node(self, doc, metadata, nodename, data):
"""Recursive method to convert data members to XML nodes."""
result = doc.createElement(nodename)
# Set the xml namespace if one is specified
# TODO(justinsb): We could also use prefixes on the keys
xmlns = metadata.get("xmlns", None)
if xmlns:
result.setAttribute("xmlns", xmlns)
# TODO(bcwaldon): accomplish this without a type-check
if isinstance(data, list):
collections = metadata.get("list_collections", {})
if nodename in collections:
metadata = collections[nodename]
for item in data:
node = doc.createElement(metadata["item_name"])
node.setAttribute(metadata["item_key"], str(item))
result.appendChild(node)
return result
singular = metadata.get("plurals", {}).get(nodename, None)
if singular is None:
if nodename.endswith("s"):
singular = nodename[:-1]
else:
singular = "item"
for item in data:
node = self._to_xml_node(doc, metadata, singular, item)
result.appendChild(node)
# TODO(bcwaldon): accomplish this without a type-check
elif isinstance(data, dict):
collections = metadata.get("dict_collections", {})
if nodename in collections:
metadata = collections[nodename]
for k, v in list(data.items()):
node = doc.createElement(metadata["item_name"])
node.setAttribute(metadata["item_key"], str(k))
text = doc.createTextNode(str(v))
node.appendChild(text)
result.appendChild(node)
return result
attrs = metadata.get("attributes", {}).get(nodename, {})
for k, v in list(data.items()):
if k in attrs:
result.setAttribute(k, str(v))
else:
node = self._to_xml_node(doc, metadata, k, v)
result.appendChild(node)
else:
# Type is atom
node = doc.createTextNode(str(data))
result.appendChild(node)
return result
def _create_link_nodes(self, xml_doc, links):
link_nodes = []
for link in links:
link_node = xml_doc.createElement("atom:link")
link_node.setAttribute("rel", link["rel"])
link_node.setAttribute("href", link["href"])
if "type" in link:
link_node.setAttribute("type", link["type"])
link_nodes.append(link_node)
return link_nodes
def _to_xml(self, root):
"""Convert the xml object to an xml string."""
return tostring(root, encoding="UTF-8", xml_declaration=True)
def serializers(**serializers):
"""Attaches serializers to a method.
This decorator associates a dictionary of serializers with a
method. Note that the function attributes are directly
manipulated; the method is not wrapped.
"""
def decorator(func):
if not hasattr(func, "wsgi_serializers"):
func.wsgi_serializers = {}
func.wsgi_serializers.update(serializers)
return func
return decorator
def deserializers(**deserializers):
"""Attaches deserializers to a method.
This decorator associates a dictionary of deserializers with a
method. Note that the function attributes are directly
manipulated; the method is not wrapped.
"""
def decorator(func):
if not hasattr(func, "wsgi_deserializers"):
func.wsgi_deserializers = {}
func.wsgi_deserializers.update(deserializers)
return func
return decorator
def response(code):
"""Attaches response code to a method.
This decorator associates a response code with a method. Note
that the function attributes are directly manipulated; the method
is not wrapped.
"""
def decorator(func):
func.wsgi_code = code
return func
return decorator
class ResponseObject(object):
"""Bundles a response object with appropriate serializers.
Object that app methods may return in order to bind alternate
serializers with a response object to be serialized. Its use is
optional.
"""
def __init__(self, obj, code=None, **serializers):
"""Binds serializers with an object.
Takes keyword arguments akin to the @serializer() decorator
for specifying serializers. Serializers specified will be
given preference over default serializers or method-specific
serializers on return.
"""
self.obj = obj
self.serializers = serializers
self._default_code = 200
self._code = code
self._headers = {}
self.serializer = None
self.media_type = None
def __getitem__(self, key):
"""Retrieves a header with the given name."""
return self._headers[key.lower()]
def __setitem__(self, key, value):
"""Sets a header with the given name to the given value."""
self._headers[key.lower()] = value
def __delitem__(self, key):
"""Deletes the header with the given name."""
del self._headers[key.lower()]
def _bind_method_serializers(self, meth_serializers):
"""Binds method serializers with the response object.
Binds the method serializers with the response object.
Serializers specified to the constructor will take precedence
over serializers specified to this method.
:param meth_serializers: A dictionary with keys mapping to
response types and values containing
serializer objects.
"""
# We can't use update because that would be the wrong
# precedence
for mtype, serializer in list(meth_serializers.items()):
self.serializers.setdefault(mtype, serializer)
def get_serializer(self, content_type, default_serializers=None):
"""Returns the serializer for the wrapped object.
Returns the serializer for the wrapped object subject to the
indicated content type. If no serializer matching the content
type is attached, an appropriate serializer drawn from the
default serializers will be used. If no appropriate
serializer is available, raises InvalidContentType.
"""
default_serializers = default_serializers or {}
try:
mtype = _MEDIA_TYPE_MAP.get(content_type, content_type)
if mtype in self.serializers:
return mtype, self.serializers[mtype]
else:
return mtype, default_serializers[mtype]
except (KeyError, TypeError):
raise exception.InvalidContentType(content_type=content_type)
def preserialize(self, content_type, default_serializers=None):
"""Prepares the serializer that will be used to serialize.
Determines the serializer that will be used and prepares an
instance of it for later call. This allows the serializer to
be accessed by extensions for, e.g., template extension.
"""
mtype, serializer = self.get_serializer(content_type, default_serializers)
self.media_type = mtype
self.serializer = serializer()
def attach(self, **kwargs):
"""Attach slave templates to serializers."""
if self.media_type in kwargs:
self.serializer.attach(kwargs[self.media_type])
def serialize(self, request, content_type, default_serializers=None):
"""Serializes the wrapped object.
Utility method for serializing the wrapped object. Returns a
webob.Response object.
"""
if self.serializer:
serializer = self.serializer
else:
_mtype, _serializer = self.get_serializer(content_type, default_serializers)
serializer = _serializer()
response = webob.Response()
response.status_int = self.code
for hdr, value in self._headers.items():
response.headers[hdr] = six.text_type(value)
response.headers["Content-Type"] = six.text_type(content_type)
if self.obj is not None:
body = serializer.serialize(self.obj)
if isinstance(body, six.text_type):
body = body.encode("utf-8")
response.body = body
return response
@property
def code(self):
"""Retrieve the response status."""
return self._code or self._default_code
@property
def headers(self):
"""Retrieve the headers."""
return self._headers.copy()
def action_peek_json(body):
"""Determine action to invoke."""
try:
decoded = jsonutils.loads(body)
except ValueError:
msg = _("cannot understand JSON")
raise exception.MalformedRequestBody(reason=msg)
# Make sure there's exactly one key...
if len(decoded) != 1:
msg = _("too many body keys")
raise exception.MalformedRequestBody(reason=msg)
# Return the action and the decoded body...
return list(decoded.keys())[0]
def action_peek_xml(body):
"""Determine action to invoke."""
dom = utils.safe_minidom_parse_string(body)
action_node = dom.childNodes[0]
return action_node.tagName
class ResourceExceptionHandler(object):
"""Context manager to handle Resource exceptions.
Used when processing exceptions generated by API implementation
methods (or their extensions). Converts most exceptions to Fault
exceptions, with the appropriate logging.
"""
def __enter__(self):
return None
def __exit__(self, ex_type, ex_value, ex_traceback):
if not ex_value:
return True
if isinstance(ex_value, exception.NotAuthorized):
msg = str(ex_value)
raise Fault(webob.exc.HTTPForbidden(explanation=msg))
elif isinstance(ex_value, exception.Invalid):
raise Fault(
exception.ConvertedException(
code=ex_value.code, explanation=str(ex_value)
)
)
elif isinstance(ex_value, TypeError):
exc_info = (ex_type, ex_value, ex_traceback)
LOG.error(
_("Exception handling resource: %s") % ex_value, exc_info=exc_info
)
raise Fault(webob.exc.HTTPBadRequest())
elif isinstance(ex_value, Fault):
LOG.info(_("Fault thrown: %s"), str(ex_value))
raise ex_value
elif isinstance(ex_value, webob.exc.HTTPException):
LOG.info(_("HTTP exception thrown: %s"), str(ex_value))
raise Fault(ex_value)
# We didn't handle the exception
return False
class Resource(wsgi.Application):
"""WSGI app that handles (de)serialization and controller dispatch.
WSGI app that reads routing information supplied by RoutesMiddleware
and calls the requested action method upon its controller. All
controller action methods must accept a 'req' argument, which is the
incoming wsgi.Request. If the operation is a PUT or POST, the controller
method must also accept a 'body' argument (the deserialized request body).
They may raise a webob.exc exception or return a dict, which will be
serialized by requested content type.
Exceptions derived from webob.exc.HTTPException will be automatically
wrapped in Fault() to provide API friendly error responses.
"""
def __init__(self, controller, action_peek=None, **deserializers):
"""
:param controller: object that implement methods created by routes lib
:param action_peek: dictionary of routines for peeking into an action
request body to determine the desired action
"""
self.controller = controller
default_deserializers = dict(xml=XMLDeserializer, json=JSONDeserializer)
default_deserializers.update(deserializers)
self.default_deserializers = default_deserializers
self.default_serializers = dict(xml=XMLDictSerializer, json=JSONDictSerializer)
self.action_peek = dict(xml=action_peek_xml, json=action_peek_json)
self.action_peek.update(action_peek or {})
# Copy over the actions dictionary
self.wsgi_actions = {}
if controller:
self.register_actions(controller)
# Save a mapping of extensions
self.wsgi_extensions = {}
self.wsgi_action_extensions = {}
def register_actions(self, controller):
"""Registers controller actions with this resource."""
actions = getattr(controller, "wsgi_actions", {})
for key, method_name in list(actions.items()):
self.wsgi_actions[key] = getattr(controller, method_name)
def register_extensions(self, controller):
"""Registers controller extensions with this resource."""
extensions = getattr(controller, "wsgi_extensions", [])
for method_name, action_name in extensions:
# Look up the extending method
extension = getattr(controller, method_name)
if action_name:
# Extending an action...
if action_name not in self.wsgi_action_extensions:
self.wsgi_action_extensions[action_name] = []
self.wsgi_action_extensions[action_name].append(extension)
else:
# Extending a regular method
if method_name not in self.wsgi_extensions:
self.wsgi_extensions[method_name] = []
self.wsgi_extensions[method_name].append(extension)
def get_action_args(self, request_environment):
"""Parse dictionary created by routes library."""
# NOTE(Vek): Check for get_action_args() override in the
# controller
if hasattr(self.controller, "get_action_args"):
return self.controller.get_action_args(request_environment)
try:
args = request_environment["wsgiorg.routing_args"][1].copy()
except (KeyError, IndexError, AttributeError):
return {}
try:
del args["controller"]
except KeyError:
pass
try:
del args["format"]
except KeyError:
pass
return args
def get_body(self, request):
try:
content_type = request.get_content_type()
except exception.InvalidContentType:
LOG.debug(_("Unrecognized Content-Type provided in request"))
return None, ""
if not content_type:
LOG.debug(_("No Content-Type provided in request"))
return None, ""
if len(request.body) <= 0:
LOG.debug(_("Empty body provided in request"))
return None, ""
return content_type, request.body
def deserialize(self, meth, content_type, body):
meth_deserializers = getattr(meth, "wsgi_deserializers", {})
try:
mtype = _MEDIA_TYPE_MAP.get(content_type, content_type)
if mtype in meth_deserializers:
deserializer = meth_deserializers[mtype]
else:
deserializer = self.default_deserializers[mtype]
except (KeyError, TypeError):
raise exception.InvalidContentType(content_type=content_type)
return deserializer().deserialize(body)
def pre_process_extensions(self, extensions, request, action_args):
# List of callables for post-processing extensions
post = []
for ext in extensions:
if inspect.isgeneratorfunction(ext):
response = None
# If it's a generator function, the part before the
# yield is the preprocessing stage
try:
with ResourceExceptionHandler():
gen = ext(req=request, **action_args)
response = next(gen)
except Fault as ex:
response = ex
# We had a response...
if response:
return response, []
# No response, queue up generator for post-processing
post.append(gen)
else:
# Regular functions only perform post-processing
post.append(ext)
# Run post-processing in the reverse order
return None, reversed(post)
def post_process_extensions(self, extensions, resp_obj, request, action_args):
for ext in extensions:
response = None
if inspect.isgenerator(ext):
# If it's a generator, run the second half of
# processing
try:
with ResourceExceptionHandler():
response = ext.send(resp_obj)
except StopIteration:
# Normal exit of generator
continue
except Fault as ex:
response = ex
else:
# Regular functions get post-processing...
try:
with ResourceExceptionHandler():
response = ext(req=request, resp_obj=resp_obj, **action_args)
except Fault as ex:
response = ex
# We had a response...
if response:
return response
return None
@webob.dec.wsgify(RequestClass=Request)
def __call__(self, request):
"""WSGI method that controls (de)serialization and method dispatch."""
if not request.method.lower() in ("options"):
LOG.info(
"%(method)s %(url)s" % {"method": request.method, "url": request.url}
)
# Identify the action, its arguments, and the requested
# content type
action_args = self.get_action_args(request.environ)
action = action_args.pop("action", None)
content_type, body = self.get_body(request)
accept = request.best_match_content_type()
# NOTE(Vek): Splitting the function up this way allows for
# auditing by external tools that wrap the existing
# function. If we try to audit __call__(), we can
# run into troubles due to the @webob.dec.wsgify()
# decorator.
return self._process_stack(
request, action, action_args, content_type, body, accept
)
def _process_stack(self, request, action, action_args, content_type, body, accept):
"""Implement the processing stack."""
# Get the implementing method
try:
meth, extensions = self.get_method(request, action, content_type, body)
except (AttributeError, TypeError):
return Fault(webob.exc.HTTPNotFound())
except KeyError as ex:
msg = _("There is no such action: %s") % ex.args[0]
return Fault(webob.exc.HTTPBadRequest(explanation=msg))
except exception.MalformedRequestBody:
msg = _("Malformed request body")
return Fault(webob.exc.HTTPBadRequest(explanation=msg))
# Now, deserialize the request body...
try:
if content_type:
contents = self.deserialize(meth, content_type, body)
else:
contents = {}
except exception.InvalidContentType:
msg = _("Unsupported Content-Type")
return Fault(webob.exc.HTTPBadRequest(explanation=msg))
except exception.MalformedRequestBody:
msg = _("Malformed request body")
return Fault(webob.exc.HTTPBadRequest(explanation=msg))
# Update the action args
action_args.update(contents)
project_id = action_args.pop("project_id", None)
context = request.environ.get("workloadmgr.context")
if context and project_id and (project_id != context.project_id):
msg = _("Malformed request url")
return Fault(webob.exc.HTTPBadRequest(explanation=msg))
# Run pre-processing extensions
response, post = self.pre_process_extensions(extensions, request, action_args)
if not response:
try:
with ResourceExceptionHandler():
action_result = self.dispatch(meth, request, action_args)
except Fault as ex:
response = ex
if not response:
# No exceptions; convert action_result into a
# ResponseObject
resp_obj = None
if isinstance(action_result, dict) or action_result is None:
resp_obj = ResponseObject(action_result)
elif isinstance(action_result, ResponseObject):
resp_obj = action_result
else:
response = action_result
# Run post-processing extensions
if resp_obj:
_set_request_id_header(request, resp_obj)
# Do a preserialize to set up the response object
serializers = getattr(meth, "wsgi_serializers", {})
resp_obj._bind_method_serializers(serializers)
if hasattr(meth, "wsgi_code"):
resp_obj._default_code = meth.wsgi_code
resp_obj.preserialize(accept, self.default_serializers)
# Process post-processing extensions
response = self.post_process_extensions(
post, resp_obj, request, action_args
)
if resp_obj and not response:
response = resp_obj.serialize(request, accept, self.default_serializers)
try:
msg_dict = dict(url=request.url, status=response.status_int)
msg = _("%(url)s returned with HTTP %(status)d") % msg_dict
except AttributeError as e:
msg_dict = dict(url=request.url, e=e)
msg = _("%(url)s returned a fault: %(e)s") % msg_dict
LOG.debug(msg)
return response
def get_method(self, request, action, content_type, body):
"""Look up the action-specific method and its extensions."""
# Look up the method
try:
if not self.controller:
meth = getattr(self, action)
else:
meth = getattr(self.controller, action)
except AttributeError:
if not self.wsgi_actions or action not in ["action", "create", "delete"]:
# Propagate the error
raise
else:
return meth, self.wsgi_extensions.get(action, [])
if action == "action":
# OK, it's an action; figure out which action...
mtype = _MEDIA_TYPE_MAP.get(content_type)
action_name = self.action_peek[mtype](body)
LOG.debug("Action body: %s" % body)
else:
action_name = action
# Look up the action method
return (
self.wsgi_actions[action_name],
self.wsgi_action_extensions.get(action_name, []),
)
def dispatch(self, method, request, action_args):
"""Dispatch a call to the action-specific method."""
return method(req=request, **action_args)
def action(name):
"""Mark a function as an action.
The given name will be taken as the action key in the body.
This is also overloaded to allow extensions to provide
non-extending definitions of create and delete operations.
"""
def decorator(func):
func.wsgi_action = name
return func
return decorator
def extends(*args, **kwargs):
"""Indicate a function extends an operation.
Can be used as either::
@extends
def index(...):
pass
or as::
@extends(action='resize')
def _action_resize(...):
pass
"""
def decorator(func):
# Store enough information to find what we're extending
func.wsgi_extends = (func.__name__, kwargs.get("action"))
return func
# If we have positional arguments, call the decorator
if args:
return decorator(*args)
# OK, return the decorator instead
return decorator
class ControllerMetaclass(type):
"""Controller metaclass.
This metaclass automates the task of assembling a dictionary
mapping action keys to method names.
"""
def __new__(mcs, name, bases, cls_dict):
"""Adds the wsgi_actions dictionary to the class."""
# Find all actions
actions = {}
extensions = []
# start with wsgi actions from base classes
for base in bases:
actions.update(getattr(base, "wsgi_actions", {}))
for key, value in list(cls_dict.items()):
if not callable(value):
continue
if getattr(value, "wsgi_action", None):
actions[value.wsgi_action] = key
elif getattr(value, "wsgi_extends", None):
extensions.append(value.wsgi_extends)
# Add the actions and extensions to the class dict
cls_dict["wsgi_actions"] = actions
cls_dict["wsgi_extensions"] = extensions
return super(ControllerMetaclass, mcs).__new__(mcs, name, bases, cls_dict)
class Controller(object, metaclass=ControllerMetaclass):
"""Default controller."""
_view_builder_class = None
def __init__(self, view_builder=None):
"""Initialize controller with a view builder instance."""
if view_builder:
self._view_builder = view_builder
elif self._view_builder_class:
self._view_builder = self._view_builder_class()
else:
self._view_builder = None
@staticmethod
def is_valid_body(body, entity_name):
if not (body and entity_name in body):
return False
def is_dict(d):
try:
d.get(None)
return True
except AttributeError:
return False
if not is_dict(body[entity_name]):
return False
return True
class Fault(webob.exc.HTTPException):
"""Wrap webob.exc.HTTPException to provide API friendly response."""
_fault_names = {
400: "badRequest",
401: "unauthorized",
403: "forbidden",
404: "itemNotFound",
405: "badMethod",
409: "conflictingRequest",
413: "overLimit",
415: "badMediaType",
501: "notImplemented",
503: "serviceUnavailable",
}
def __init__(self, exception):
"""Create a Fault for the given webob.exc.exception."""
self.wrapped_exc = exception
self.status_int = exception.status_int
@webob.dec.wsgify(RequestClass=Request)
def __call__(self, req):
"""Generate a WSGI response based on the exception passed to ctor."""
# Replace the body with fault details.
code = self.wrapped_exc.status_int
fault_name = self._fault_names.get(code, "Error")
fault_data = {
fault_name: {"code": code, "message": self.wrapped_exc.explanation}
}
if code == 413:
retry = self.wrapped_exc.headers["Retry-After"]
fault_data[fault_name]["retryAfter"] = retry
# 'code' is an attribute on the fault tag itself
metadata = {"attributes": {fault_name: "code"}}
xml_serializer = XMLDictSerializer(metadata, XMLNS_V1)
content_type = req.best_match_content_type()
serializer = {
"application/xml": xml_serializer,
"application/json": JSONDictSerializer(),
}[content_type]
body = serializer.serialize(fault_data)
if isinstance(body, six.text_type):
body = body.encode("utf-8")
self.wrapped_exc.body = body
self.wrapped_exc.content_type = content_type
_set_request_id_header(req, self.wrapped_exc.headers)
return self.wrapped_exc
def __str__(self):
return self.wrapped_exc.__str__()
def _set_request_id_header(req, headers):
context = req.environ.get("workloadmgr.context")
if context:
headers["x-compute-request-id"] = context.request_id
class OverLimitFault(webob.exc.HTTPException):
"""
Rate-limited request response.
"""
def __init__(self, message, details, retry_time):
"""
Initialize new `OverLimitFault` with relevant information.
"""
hdrs = OverLimitFault._retry_after(retry_time)
self.wrapped_exc = webob.exc.HTTPRequestEntityTooLarge(headers=hdrs)
self.content = {
"overLimitFault": {
"code": self.wrapped_exc.status_int,
"message": message,
"details": details,
},
}
@staticmethod
def _retry_after(retry_time):
delay = int(math.ceil(retry_time - time.time()))
retry_after = delay if delay > 0 else 0
headers = {"Retry-After": "%d" % retry_after}
return headers
@webob.dec.wsgify(RequestClass=Request)
def __call__(self, request):
"""
Return the wrapped exception with a serialized body conforming to our
error format.
"""
content_type = request.best_match_content_type()
metadata = {"attributes": {"overLimitFault": "code"}}
xml_serializer = XMLDictSerializer(metadata, XMLNS_V1)
serializer = {
"application/xml": xml_serializer,
"application/json": JSONDictSerializer(),
}[content_type]
content = serializer.serialize(self.content)
self.wrapped_exc.body = content
return self.wrapped_exc