# vim: tabstop=4 shiftwidth=4 softtabstop=4 # # Copyright 2011, Nicira Networks, Inc. # 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. """ Utility methods for working with WSGI servers """ import json import logging import sys import datetime from xml.dom import minidom import eventlet import eventlet.wsgi eventlet.patcher.monkey_patch(all=False, socket=True) import routes import routes.middleware import webob.dec import webob.exc from quantum import utils from quantum.common import exceptions as exception LOG = logging.getLogger('quantum.common.wsgi') class WritableLogger(object): """A thin wrapper that responds to `write` and logs.""" def __init__(self, logger, level=logging.DEBUG): self.logger = logger self.level = level def write(self, msg): self.logger.log(self.level, msg.strip("\n")) def run_server(application, port): """Run a WSGI server with the given application.""" sock = eventlet.listen(('0.0.0.0', port)) eventlet.wsgi.server(sock, application) class Server(object): """Server class to manage multiple WSGI sockets and applications.""" def __init__(self, threads=1000): self.pool = eventlet.GreenPool(threads) def start(self, application, port, host='0.0.0.0', backlog=128): """Run a WSGI server with the given application.""" socket = eventlet.listen((host, port), backlog=backlog) self.pool.spawn_n(self._run, application, socket) def wait(self): """Wait until all servers have completed running.""" try: self.pool.waitall() except KeyboardInterrupt: pass def _run(self, application, socket): """Start a WSGI server in a new green thread.""" logger = logging.getLogger('eventlet.wsgi.server') eventlet.wsgi.server(socket, application, custom_pool=self.pool, log=WritableLogger(logger)) class Middleware(object): """ Base WSGI middleware wrapper. These classes require an application to be initialized that will be called next. By default the middleware will simply call its wrapped app, or you can override __call__ to customize its behavior. """ def __init__(self, application): self.application = application def process_request(self, req): """ Called on each request. If this returns None, the next application down the stack will be executed. If it returns a response then that response will be returned and execution will stop here. """ return None def process_response(self, response): """Do whatever you'd like to the response.""" return response @webob.dec.wsgify def __call__(self, req): response = self.process_request(req) if response: return response response = req.get_response(self.application) return self.process_response(response) class Request(webob.Request): def best_match_content_type(self): """Determine the most acceptable content-type. Based on the query extension then the Accept header. """ parts = self.path.rsplit('.', 1) LOG.debug("Request parts:%s", parts) if len(parts) > 1: format = parts[1] if format in ['json', 'xml']: return 'application/{0}'.format(parts[1]) ctypes = ['application/json', 'application/xml'] bm = self.accept.best_match(ctypes) LOG.debug("BM:%s", bm) return bm or 'application/json' def get_content_type(self): allowed_types = ("application/xml", "application/json") if not "Content-Type" in self.headers: msg = _("Missing Content-Type") LOG.debug(msg) raise webob.exc.HTTPBadRequest(msg) type = self.content_type if type in allowed_types: return type LOG.debug(_("Wrong Content-Type: %s") % type) raise webob.exc.HTTPBadRequest("Invalid content type") class Application(object): """Base WSGI application wrapper. Subclasses need to implement __call__.""" @classmethod def factory(cls, global_config, **local_config): """Used for paste app factories in paste.deploy config files. Any local configuration (that is, values under the [app:APPNAME] section of the paste config) will be passed into the `__init__` method as kwargs. A hypothetical configuration would look like: [app:wadl] latest_version = 1.3 paste.app_factory = nova.api.fancy_api:Wadl.factory which would result in a call to the `Wadl` class as import quantum.api.fancy_api fancy_api.Wadl(latest_version='1.3') You could of course re-implement the `factory` method in subclasses, but using the kwarg passing it shouldn't be necessary. """ return cls(**local_config) def __call__(self, environ, start_response): r"""Subclasses will probably want to implement __call__ like this: @webob.dec.wsgify(RequestClass=Request) def __call__(self, req): # Any of the following objects work as responses: # Option 1: simple string res = 'message\n' # Option 2: a nicely formatted HTTP exception page res = exc.HTTPForbidden(detail='Nice try') # Option 3: a webob Response object (in case you need to play with # headers, or you want to be treated like an iterable, or or or) res = Response(); res.app_iter = open('somefile') # Option 4: any wsgi app to be run next res = self.application # Option 5: you can get a Response object for a wsgi app, too, to # play with headers etc res = req.get_response(self.application) # You can then just return your response... return res # ... or set req.response and return None. req.response = res See the end of http://pythonpaste.org/webob/modules/dec.html for more info. """ raise NotImplementedError(_('You must implement __call__')) class Debug(Middleware): """ Helper class that can be inserted into any WSGI application chain to get information about the request and response. """ @webob.dec.wsgify def __call__(self, req): print ("*" * 40) + " REQUEST ENVIRON" for key, value in req.environ.items(): print key, "=", value print resp = req.get_response(self.application) print ("*" * 40) + " RESPONSE HEADERS" for (key, value) in resp.headers.iteritems(): print key, "=", value print resp.app_iter = self.print_generator(resp.app_iter) return resp @staticmethod def print_generator(app_iter): """ Iterator that prints the contents of a wrapper string iterator when iterated. """ print ("*" * 40) + " BODY" for part in app_iter: sys.stdout.write(part) sys.stdout.flush() yield part print class Router(object): """ WSGI middleware that maps incoming requests to WSGI apps. """ @classmethod def factory(cls, global_config, **local_config): """ Returns an instance of the WSGI Router class """ return cls() def __init__(self, mapper): """ Create a router for the given routes.Mapper. Each route in `mapper` must specify a 'controller', which is a WSGI app to call. You'll probably want to specify an 'action' as well and have your controller be a wsgi.Controller, who will route the request to the action method. Examples: mapper = routes.Mapper() sc = ServerController() # Explicit mapping of one route to a controller+action mapper.connect(None, "/svrlist", controller=sc, action="list") # Actions are all implicitly defined mapper.resource("network", "networks", controller=nc) # Pointing to an arbitrary WSGI app. You can specify the # {path_info:.*} parameter so the target app can be handed just that # section of the URL. mapper.connect(None, "/v1.0/{path_info:.*}", controller=BlogApp()) """ self.map = mapper self._router = routes.middleware.RoutesMiddleware(self._dispatch, self.map) @webob.dec.wsgify def __call__(self, req): """ Route the incoming request to a controller based on self.map. If no match, return a 404. """ return self._router @staticmethod @webob.dec.wsgify def _dispatch(req): """ Called by self._router after matching the incoming request to a route and putting the information into req.environ. Either returns 404 or the routed WSGI app's response. """ match = req.environ['wsgiorg.routing_args'][1] if not match: return webob.exc.HTTPNotFound() app = match['controller'] return app class Controller(object): """WSGI app that dispatched to methods. WSGI app that reads routing information supplied by RoutesMiddleware and calls the requested action method upon itself. All action methods must, in addition to their normal parameters, accept a 'req' argument which is the incoming wsgi.Request. They raise a webob.exc exception, or return a dict which will be serialized by requested content type. """ @webob.dec.wsgify(RequestClass=Request) def __call__(self, req): """ Call the method specified in req.environ by RoutesMiddleware. """ LOG.debug("HERE - wsgi.Controller.__call__") arg_dict = req.environ['wsgiorg.routing_args'][1] action = arg_dict['action'] method = getattr(self, action) del arg_dict['controller'] del arg_dict['action'] if 'format' in arg_dict: del arg_dict['format'] arg_dict['request'] = req result = method(**arg_dict) if type(result) is dict: content_type = req.best_match_content_type() LOG.debug("Content type:%s", content_type) LOG.debug("Result:%s", result) default_xmlns = self.get_default_xmlns(req) body = self._serialize(result, content_type, default_xmlns) response = webob.Response() response.headers['Content-Type'] = content_type response.body = body msg_dict = dict(url=req.url, status=response.status_int) msg = _("%(url)s returned with HTTP %(status)d") % msg_dict LOG.debug(msg) return response else: return result def _serialize(self, data, content_type, default_xmlns): """Serialize the given dict to the provided content_type. Uses self._serialization_metadata if it exists, which is a dict mapping MIME types to information needed to serialize to that type. """ _metadata = getattr(type(self), '_serialization_metadata', {}) serializer = Serializer(_metadata, default_xmlns) try: return serializer.serialize(data, content_type) except exception.InvalidContentType: raise webob.exc.HTTPNotAcceptable() def _deserialize(self, data, content_type): """Deserialize the request body to the specefied content type. Uses self._serialization_metadata if it exists, which is a dict mapping MIME types to information needed to serialize to that type. """ _metadata = getattr(type(self), '_serialization_metadata', {}) serializer = Serializer(_metadata) return serializer.deserialize(data, content_type) def get_default_xmlns(self, req): """Provide the XML namespace to use if none is otherwise specified.""" return None class Serializer(object): """Serializes and deserializes dictionaries to certain MIME types.""" def __init__(self, metadata=None, default_xmlns=None): """Create a serializer based on the given WSGI environment. 'metadata' is an optional dict mapping MIME types to information needed to serialize a dictionary to that type. """ self.metadata = metadata or {} self.default_xmlns = default_xmlns def _get_serialize_handler(self, content_type): handlers = { 'application/json': self._to_json, 'application/xml': self._to_xml, } try: return handlers[content_type] except Exception: raise exception.InvalidContentType(content_type=content_type) def serialize(self, data, content_type): """Serialize a dictionary into the specified content type.""" return self._get_serialize_handler(content_type)(data) def deserialize(self, datastring, content_type): """Deserialize a string to a dictionary. The string must be in the format of a supported MIME type. """ return self.get_deserialize_handler(content_type)(datastring) def get_deserialize_handler(self, content_type): handlers = { 'application/json': self._from_json, 'application/xml': self._from_xml, } try: return handlers[content_type] except Exception: raise exception.InvalidContentType(content_type=content_type) def _from_json(self, datastring): return utils.loads(datastring) def _from_xml(self, datastring): xmldata = self.metadata.get('application/xml', {}) plurals = set(xmldata.get('plurals', {})) node = minidom.parseString(datastring).childNodes[0] return {node.nodeName: self._from_xml_node(node, plurals)} def _from_xml_node(self, node, listnames): """Convert a minidom node to a simple Python type. listnames is a collection of names of XML nodes 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 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 _to_json(self, data): return utils.dumps(data) def _to_xml(self, data): metadata = self.metadata.get('application/xml', {}) # We expect data to contain a single key which is the XML root. root_key = data.keys()[0] doc = minidom.Document() node = self._to_xml_node(doc, metadata, root_key, data[root_key]) xmlns = node.getAttribute('xmlns') if not xmlns and self.default_xmlns: node.setAttribute('xmlns', self.default_xmlns) return node.toprettyxml(indent=' ') 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) LOG.debug("DATA:%s", data) if type(data) is list: LOG.debug("TYPE IS 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) elif type(data) is dict: LOG.debug("TYPE IS DICT") collections = metadata.get('dict_collections', {}) if nodename in collections: metadata = collections[nodename] for k, v in 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 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 LOG.debug("TYPE IS ATOM:%s", data) node = doc.createTextNode(str(data)) result.appendChild(node) return result