apiclient/discovery.py - platform/external/python/google-api-python-client - Gitiles

 # Copyright (C) 2010 Google Inc.
 #
 # 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.

 """Client for discovery based APIs

 A client library for Google's discovery based APIs.
 """

 __author__ = 'jcgregorio@google.com (Joe Gregorio)'
 __all__ = [
     'build', 'build_from_document'
     ]

 import copy
 import httplib2
 import logging
 import os
 import re
 import uritemplate
 import urllib
 import urlparse
 import mimeparse
 import mimetypes

 try:
     from urlparse import parse_qsl
 except ImportError:
     from cgi import parse_qsl

 from anyjson import simplejson
 from email.mime.multipart import MIMEMultipart
 from email.mime.nonmultipart import MIMENonMultipart
 from errors import HttpError
 from errors import InvalidJsonError
 from errors import MediaUploadSizeError
 from errors import UnacceptableMimeTypeError
 from errors import UnknownLinkType
 from http import HttpRequest
 from model import JsonModel

 URITEMPLATE = re.compile('{[^}]*}')
 VARNAME = re.compile('[a-zA-Z0-9_-]+')
 DISCOVERY_URI = ('https://www.googleapis.com/discovery/v1/apis/'
   '{api}/{apiVersion}/rest')
 DEFAULT_METHOD_DOC = 'A description of how to use this function'

 # Query parameters that work, but don't appear in discovery
 STACK_QUERY_PARAMETERS = ['trace', 'fields', 'pp', 'prettyPrint', 'userIp',
   'userip', 'strict']

 RESERVED_WORDS = ['and', 'assert', 'break', 'class', 'continue', 'def', 'del',
                   'elif', 'else', 'except', 'exec', 'finally', 'for', 'from',
                   'global', 'if', 'import', 'in', 'is', 'lambda', 'not', 'or',
                   'pass', 'print', 'raise', 'return', 'try', 'while' ]


 def _fix_method_name(name):
   if name in RESERVED_WORDS:
     return name + '_'
   else:
     return name

 def _write_headers(self):
   # Utility no-op method for multipart media handling
   pass


 def key2param(key):
   """Converts key names into parameter names.

   For example, converting "max-results" -> "max_results"
   """
   result = []
   key = list(key)
   if not key[0].isalpha():
     result.append('x')
   for c in key:
     if c.isalnum():
       result.append(c)
     else:
       result.append('_')

   return ''.join(result)


 def build(serviceName, version,
           http=None,
           discoveryServiceUrl=DISCOVERY_URI,
           developerKey=None,
           model=None,
           requestBuilder=HttpRequest):
   """Construct a Resource for interacting with an API.

   Construct a Resource object for interacting with
   an API. The serviceName and version are the
   names from the Discovery service.

   Args:
     serviceName: string, name of the service
     version: string, the version of the service
     discoveryServiceUrl: string, a URI Template that points to
       the location of the discovery service. It should have two
       parameters {api} and {apiVersion} that when filled in
       produce an absolute URI to the discovery document for
       that service.
     developerKey: string, key obtained
       from https://code.google.com/apis/console
     model: apiclient.Model, converts to and from the wire format
     requestBuilder: apiclient.http.HttpRequest, encapsulator for
       an HTTP request

   Returns:
     A Resource object with methods for interacting with
     the service.
   """
   params = {
       'api': serviceName,
       'apiVersion': version
       }

   if http is None:
     http = httplib2.Http()
   requested_url = uritemplate.expand(discoveryServiceUrl, params)
   logging.info('URL being requested: %s' % requested_url)
   resp, content = http.request(requested_url)
   if resp.status > 400:
     raise HttpError(resp, content, requested_url)
   try:
     service = simplejson.loads(content)
   except ValueError, e:
     logging.error('Failed to parse as JSON: ' + content)
     raise InvalidJsonError()

   fn = os.path.join(os.path.dirname(__file__), 'contrib',
       serviceName, 'future.json')
   try:
     f = file(fn, 'r')
     future = f.read()
     f.close()
   except IOError:
     future = None

   return build_from_document(content, discoveryServiceUrl, future,
       http, developerKey, model, requestBuilder)


 def build_from_document(
     service,
     base,
     future=None,
     http=None,
     developerKey=None,
     model=None,
     requestBuilder=HttpRequest):
   """Create a Resource for interacting with an API.

   Same as `build()`, but constructs the Resource object
   from a discovery document that is it given, as opposed to
   retrieving one over HTTP.

   Args:
     service: string, discovery document
     base: string, base URI for all HTTP requests, usually the discovery URI
     future: string, discovery document with future capabilities
     auth_discovery: dict, information about the authentication the API supports
     http: httplib2.Http, An instance of httplib2.Http or something that acts
       like it that HTTP requests will be made through.
     developerKey: string, Key for controlling API usage, generated
       from the API Console.
     model: Model class instance that serializes and
       de-serializes requests and responses.
     requestBuilder: Takes an http request and packages it up to be executed.

   Returns:
     A Resource object with methods for interacting with
     the service.
   """

   service = simplejson.loads(service)
   base = urlparse.urljoin(base, service['basePath'])
   if future:
     future = simplejson.loads(future)
     auth_discovery = future.get('auth', {})
   else:
     future = {}
     auth_discovery = {}
   schema = service.get('schemas', {})

   if model is None:
     features = service.get('features', [])
     model = JsonModel('dataWrapper' in features)
   resource = createResource(http, base, model, requestBuilder, developerKey,
                        service, future, schema)

   def auth_method():
     """Discovery information about the authentication the API uses."""
     return auth_discovery

   setattr(resource, 'auth_discovery', auth_method)

   return resource


 def _cast(value, schema_type):
   """Convert value to a string based on JSON Schema type.

   See http://tools.ietf.org/html/draft-zyp-json-schema-03 for more details on
   JSON Schema.

   Args:
     value: any, the value to convert
     schema_type: string, the type that value should be interpreted as

   Returns:
     A string representation of 'value' based on the schema_type.
   """
   if schema_type == 'string':
     if type(value) == type('') or type(value) == type(u''):
       return value
     else:
       return str(value)
   elif schema_type == 'integer':
     return str(int(value))
   elif schema_type == 'number':
     return str(float(value))
   elif schema_type == 'boolean':
     return str(bool(value)).lower()
   else:
     if type(value) == type('') or type(value) == type(u''):
       return value
     else:
       return str(value)

 MULTIPLIERS = {
     "KB": 2 ** 10,
     "MB": 2 ** 20,
     "GB": 2 ** 30,
     "TB": 2 ** 40,
     }

 def _media_size_to_long(maxSize):
   """Convert a string media size, such as 10GB or 3TB into an integer."""
   if len(maxSize) < 2:
     return 0
   units = maxSize[-2:].upper()
   multiplier = MULTIPLIERS.get(units, 0)
   if multiplier:
     return int(maxSize[:-2]) * multiplier
   else:
     return int(maxSize)


 def createResource(http, baseUrl, model, requestBuilder,
                    developerKey, resourceDesc, futureDesc, schema):

   class Resource(object):
     """A class for interacting with a resource."""

     def __init__(self):
       self._http = http
       self._baseUrl = baseUrl
       self._model = model
       self._developerKey = developerKey
       self._requestBuilder = requestBuilder

   def createMethod(theclass, methodName, methodDesc, futureDesc):
     methodName = _fix_method_name(methodName)
     pathUrl = methodDesc['path']
     httpMethod = methodDesc['httpMethod']
     methodId = methodDesc['id']

     mediaPathUrl = None
     accept = []
     maxSize = 0
     if 'mediaUpload' in methodDesc:
       mediaUpload = methodDesc['mediaUpload']
       mediaPathUrl = mediaUpload['protocols']['simple']['path']
       accept = mediaUpload['accept']
       maxSize = _media_size_to_long(mediaUpload.get('maxSize', ''))

     if 'parameters' not in methodDesc:
       methodDesc['parameters'] = {}
     for name in STACK_QUERY_PARAMETERS:
       methodDesc['parameters'][name] = {
           'type': 'string',
           'location': 'query'
           }

     if httpMethod in ['PUT', 'POST', 'PATCH']:
       methodDesc['parameters']['body'] = {
           'description': 'The request body.',
           'type': 'object',
           'required': True,
           }
       if 'mediaUpload' in methodDesc:
         methodDesc['parameters']['media_body'] = {
             'description': 'The filename of the media request body.',
             'type': 'string',
             'required': False,
             }
         methodDesc['parameters']['body']['required'] = False

     argmap = {} # Map from method parameter name to query parameter name
     required_params = [] # Required parameters
     repeated_params = [] # Repeated parameters
     pattern_params = {}  # Parameters that must match a regex
     query_params = [] # Parameters that will be used in the query string
     path_params = {} # Parameters that will be used in the base URL
     param_type = {} # The type of the parameter
     enum_params = {} # Allowable enumeration values for each parameter


     if 'parameters' in methodDesc:
       for arg, desc in methodDesc['parameters'].iteritems():
         param = key2param(arg)
         argmap[param] = arg

         if desc.get('pattern', ''):
           pattern_params[param] = desc['pattern']
         if desc.get('enum', ''):
           enum_params[param] = desc['enum']
         if desc.get('required', False):
           required_params.append(param)
         if desc.get('repeated', False):
           repeated_params.append(param)
         if desc.get('location') == 'query':
           query_params.append(param)
         if desc.get('location') == 'path':
           path_params[param] = param
         param_type[param] = desc.get('type', 'string')

     for match in URITEMPLATE.finditer(pathUrl):
       for namematch in VARNAME.finditer(match.group(0)):
         name = key2param(namematch.group(0))
         path_params[name] = name
         if name in query_params:
           query_params.remove(name)

     def method(self, **kwargs):
       for name in kwargs.iterkeys():
         if name not in argmap:
           raise TypeError('Got an unexpected keyword argument "%s"' % name)

       for name in required_params:
         if name not in kwargs:
           raise TypeError('Missing required parameter "%s"' % name)

       for name, regex in pattern_params.iteritems():
         if name in kwargs:
           if re.match(regex, kwargs[name]) is None:
             raise TypeError(
                 'Parameter "%s" value "%s" does not match the pattern "%s"' %
                 (name, kwargs[name], regex))

       for name, enums in enum_params.iteritems():
         if name in kwargs:
           if kwargs[name] not in enums:
             raise TypeError(
                 'Parameter "%s" value "%s" is not an allowed value in "%s"' %
                 (name, kwargs[name], str(enums)))

       actual_query_params = {}
       actual_path_params = {}
       for key, value in kwargs.iteritems():
         to_type = param_type.get(key, 'string')
         # For repeated parameters we cast each member of the list.
         if key in repeated_params and type(value) == type([]):
           cast_value = [_cast(x, to_type) for x in value]
         else:
           cast_value = _cast(value, to_type)
         if key in query_params:
           actual_query_params[argmap[key]] = cast_value
         if key in path_params:
           actual_path_params[argmap[key]] = cast_value
       body_value = kwargs.get('body', None)
       media_filename = kwargs.get('media_body', None)

       if self._developerKey:
         actual_query_params['key'] = self._developerKey

       headers = {}
       headers, params, query, body = self._model.request(headers,
           actual_path_params, actual_query_params, body_value)

       expanded_url = uritemplate.expand(pathUrl, params)
       url = urlparse.urljoin(self._baseUrl, expanded_url + query)

       if media_filename:
         (media_mime_type, encoding) = mimetypes.guess_type(media_filename)
         if media_mime_type is None:
           raise UnknownFileType(media_filename)
         if not mimeparse.best_match([media_mime_type], ','.join(accept)):
           raise UnacceptableMimeTypeError(media_mime_type)

         # Check the maxSize
         if maxSize > 0 and os.path.getsize(media_filename) > maxSize:
           raise MediaUploadSizeError(media_filename)

         # Use the media path uri for media uploads
         expanded_url = uritemplate.expand(mediaPathUrl, params)
         url = urlparse.urljoin(self._baseUrl, expanded_url + query)

         if body is None:
           headers['content-type'] = media_mime_type
           # make the body the contents of the file
           f = file(media_filename, 'rb')
           body = f.read()
           f.close()
         else:
           msgRoot = MIMEMultipart('related')
           # msgRoot should not write out it's own headers
           setattr(msgRoot, '_write_headers', lambda self: None)

           # attach the body as one part
           msg = MIMENonMultipart(*headers['content-type'].split('/'))
           msg.set_payload(body)
           msgRoot.attach(msg)

           # attach the media as the second part
           msg = MIMENonMultipart(*media_mime_type.split('/'))
           msg['Content-Transfer-Encoding'] = 'binary'

           f = file(media_filename, 'rb')
           msg.set_payload(f.read())
           f.close()
           msgRoot.attach(msg)

           body = msgRoot.as_string()

           # must appear after the call to as_string() to get the right boundary
           headers['content-type'] = ('multipart/related; '
                                      'boundary="%s"') % msgRoot.get_boundary()

       logging.info('URL being requested: %s' % url)
       return self._requestBuilder(self._http,
                                   self._model.response,
                                   url,
                                   method=httpMethod,
                                   body=body,
                                   headers=headers,
                                   methodId=methodId)

     docs = [methodDesc.get('description', DEFAULT_METHOD_DOC), '\n\n']
     if len(argmap) > 0:
       docs.append('Args:\n')
     for arg in argmap.iterkeys():
       if arg in STACK_QUERY_PARAMETERS:
         continue
       repeated = ''
       if arg in repeated_params:
         repeated = ' (repeated)'
       required = ''
       if arg in required_params:
         required = ' (required)'
       paramdesc = methodDesc['parameters'][argmap[arg]]
       paramdoc = paramdesc.get('description', 'A parameter')
       paramtype = paramdesc.get('type', 'string')
       docs.append('  %s: %s, %s%s%s\n' % (arg, paramtype, paramdoc, required,
                                           repeated))
       enum = paramdesc.get('enum', [])
       enumDesc = paramdesc.get('enumDescriptions', [])
       if enum and enumDesc:
         docs.append('    Allowed values\n')
         for (name, desc) in zip(enum, enumDesc):
           docs.append('      %s - %s\n' % (name, desc))

     setattr(method, '__doc__', ''.join(docs))
     setattr(theclass, methodName, method)

   # This is a legacy method, as only Buzz and Moderator use the future.json
   # functionality for generating _next methods. It will be kept around as long
   # as those API versions are around, but no new APIs should depend upon it.
   def createNextMethodFromFuture(theclass, methodName, methodDesc, futureDesc):
     methodName = _fix_method_name(methodName)
     methodId = methodDesc['id'] + '.next'

     def methodNext(self, previous):
       """
       Takes a single argument, 'body', which is the results
       from the last call, and returns the next set of items
       in the collection.

       Returns None if there are no more items in
       the collection.
       """
       if futureDesc['type'] != 'uri':
         raise UnknownLinkType(futureDesc['type'])

       try:
         p = previous
         for key in futureDesc['location']:
           p = p[key]
         url = p
       except (KeyError, TypeError):
         return None

       if self._developerKey:
         parsed = list(urlparse.urlparse(url))
         q = parse_qsl(parsed[4])
         q.append(('key', self._developerKey))
         parsed[4] = urllib.urlencode(q)
         url = urlparse.urlunparse(parsed)

       headers = {}
       headers, params, query, body = self._model.request(headers, {}, {}, None)

       logging.info('URL being requested: %s' % url)
       resp, content = self._http.request(url, method='GET', headers=headers)

       return self._requestBuilder(self._http,
                                   self._model.response,
                                   url,
                                   method='GET',
                                   headers=headers,
                                   methodId=methodId)

     setattr(theclass, methodName, methodNext)


   def createNextMethod(theclass, methodName, methodDesc, futureDesc):
     methodName = _fix_method_name(methodName)
     methodId = methodDesc['id'] + '.next'

     def methodNext(self, previous_request, previous_response):
       """Retrieves the next page of results.

       Args:
         previous_request: The request for the previous page.
         previous_response: The response from the request for the previous page.

       Returns:
         A request object that you can call 'execute()' on to request the next
         page. Returns None if there are no more items in the collection.
       """
       # Retrieve nextPageToken from previous_response
       # Use as pageToken in previous_request to create new request.

       if 'nextPageToken' not in previous_response:
         return None

       request = copy.copy(previous_request)

       pageToken = previous_response['nextPageToken']
       parsed = list(urlparse.urlparse(request.uri))
       q = parse_qsl(parsed[4])

       # Find and remove old 'pageToken' value from URI
       newq = [(key, value) for (key, value) in q if key != 'pageToken']
       newq.append(('pageToken', pageToken))
       parsed[4] = urllib.urlencode(newq)
       uri = urlparse.urlunparse(parsed)

       request.uri = uri

       logging.info('URL being requested: %s' % uri)

       return request

     setattr(theclass, methodName, methodNext)


   # Add basic methods to Resource
   if 'methods' in resourceDesc:
     for methodName, methodDesc in resourceDesc['methods'].iteritems():
       if futureDesc:
         future = futureDesc['methods'].get(methodName, {})
       else:
         future = None
       createMethod(Resource, methodName, methodDesc, future)

   # Add in nested resources
   if 'resources' in resourceDesc:

     def createResourceMethod(theclass, methodName, methodDesc, futureDesc):
       methodName = _fix_method_name(methodName)

       def methodResource(self):
         return createResource(self._http, self._baseUrl, self._model,
                               self._requestBuilder, self._developerKey,
                               methodDesc, futureDesc, schema)

       setattr(methodResource, '__doc__', 'A collection resource.')
       setattr(methodResource, '__is_resource__', True)
       setattr(theclass, methodName, methodResource)

     for methodName, methodDesc in resourceDesc['resources'].iteritems():
       if futureDesc and 'resources' in futureDesc:
         future = futureDesc['resources'].get(methodName, {})
       else:
         future = {}
       createResourceMethod(Resource, methodName, methodDesc, future)

   # Add <m>_next() methods to Resource
   if futureDesc and 'methods' in futureDesc:
     for methodName, methodDesc in futureDesc['methods'].iteritems():
       if 'next' in methodDesc and methodName in resourceDesc['methods']:
         createNextMethodFromFuture(Resource, methodName + '_next',
                          resourceDesc['methods'][methodName],
                          methodDesc['next'])
   # Add _next() methods
   # Look for response bodies in schema that contain nextPageToken, and methods
   # that take a pageToken parameter.
   if 'methods' in resourceDesc:
     for methodName, methodDesc in resourceDesc['methods'].iteritems():
       if 'response' in methodDesc:
         responseSchema = methodDesc['response']
         if '$ref' in responseSchema:
           responseSchema = schema[responseSchema['$ref']]
         hasNextPageToken = 'nextPageToken' in responseSchema.get('properties',
                                                                  {})
         hasPageToken = 'pageToken' in methodDesc.get('parameters', {})
         if hasNextPageToken and hasPageToken:
           createNextMethod(Resource, methodName + '_next',
                            resourceDesc['methods'][methodName],
                            methodName)

   return Resource()
	# Copyright (C) 2010 Google Inc.
	#
	# 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.

	"""Client for discovery based APIs

	A client library for Google's discovery based APIs.
	"""

	__author__ = 'jcgregorio@google.com (Joe Gregorio)'
	__all__ = [
	'build', 'build_from_document'
	]

	import copy
	import httplib2
	import logging
	import os
	import re
	import uritemplate
	import urllib
	import urlparse
	import mimeparse
	import mimetypes

	try:
	from urlparse import parse_qsl
	except ImportError:
	from cgi import parse_qsl

	from anyjson import simplejson
	from email.mime.multipart import MIMEMultipart
	from email.mime.nonmultipart import MIMENonMultipart
	from errors import HttpError
	from errors import InvalidJsonError
	from errors import MediaUploadSizeError
	from errors import UnacceptableMimeTypeError
	from errors import UnknownLinkType
	from http import HttpRequest
	from model import JsonModel

	URITEMPLATE = re.compile('{[^}]*}')
	VARNAME = re.compile('[a-zA-Z0-9_-]+')
	DISCOVERY_URI = ('https://www.googleapis.com/discovery/v1/apis/'
	'{api}/{apiVersion}/rest')
	DEFAULT_METHOD_DOC = 'A description of how to use this function'

	# Query parameters that work, but don't appear in discovery
	STACK_QUERY_PARAMETERS = ['trace', 'fields', 'pp', 'prettyPrint', 'userIp',
	'userip', 'strict']

	RESERVED_WORDS = ['and', 'assert', 'break', 'class', 'continue', 'def', 'del',
	'elif', 'else', 'except', 'exec', 'finally', 'for', 'from',
	'global', 'if', 'import', 'in', 'is', 'lambda', 'not', 'or',
	'pass', 'print', 'raise', 'return', 'try', 'while' ]


	def _fix_method_name(name):
	if name in RESERVED_WORDS:
	return name + '_'
	else:
	return name

	def _write_headers(self):
	# Utility no-op method for multipart media handling
	pass


	def key2param(key):
	"""Converts key names into parameter names.

	For example, converting "max-results" -> "max_results"
	"""
	result = []
	key = list(key)
	if not key[0].isalpha():
	result.append('x')
	for c in key:
	if c.isalnum():
	result.append(c)
	else:
	result.append('_')

	return ''.join(result)


	def build(serviceName, version,
	http=None,
	discoveryServiceUrl=DISCOVERY_URI,
	developerKey=None,
	model=None,
	requestBuilder=HttpRequest):
	"""Construct a Resource for interacting with an API.

	Construct a Resource object for interacting with
	an API. The serviceName and version are the
	names from the Discovery service.

	Args:
	serviceName: string, name of the service
	version: string, the version of the service
	discoveryServiceUrl: string, a URI Template that points to
	the location of the discovery service. It should have two
	parameters {api} and {apiVersion} that when filled in
	produce an absolute URI to the discovery document for
	that service.
	developerKey: string, key obtained
	from https://code.google.com/apis/console
	model: apiclient.Model, converts to and from the wire format
	requestBuilder: apiclient.http.HttpRequest, encapsulator for
	an HTTP request

	Returns:
	A Resource object with methods for interacting with
	the service.
	"""
	params = {
	'api': serviceName,
	'apiVersion': version
	}

	if http is None:
	http = httplib2.Http()
	requested_url = uritemplate.expand(discoveryServiceUrl, params)
	logging.info('URL being requested: %s' % requested_url)
	resp, content = http.request(requested_url)
	if resp.status > 400:
	raise HttpError(resp, content, requested_url)
	try:
	service = simplejson.loads(content)
	except ValueError, e:
	logging.error('Failed to parse as JSON: ' + content)
	raise InvalidJsonError()

	fn = os.path.join(os.path.dirname(__file__), 'contrib',
	serviceName, 'future.json')
	try:
	f = file(fn, 'r')
	future = f.read()
	f.close()
	except IOError:
	future = None

	return build_from_document(content, discoveryServiceUrl, future,
	http, developerKey, model, requestBuilder)


	def build_from_document(
	service,
	base,
	future=None,
	http=None,
	developerKey=None,
	model=None,
	requestBuilder=HttpRequest):
	"""Create a Resource for interacting with an API.

	Same as `build()`, but constructs the Resource object
	from a discovery document that is it given, as opposed to
	retrieving one over HTTP.

	Args:
	service: string, discovery document
	base: string, base URI for all HTTP requests, usually the discovery URI
	future: string, discovery document with future capabilities
	auth_discovery: dict, information about the authentication the API supports
	http: httplib2.Http, An instance of httplib2.Http or something that acts
	like it that HTTP requests will be made through.
	developerKey: string, Key for controlling API usage, generated
	from the API Console.
	model: Model class instance that serializes and
	de-serializes requests and responses.
	requestBuilder: Takes an http request and packages it up to be executed.

	Returns:
	A Resource object with methods for interacting with
	the service.
	"""

	service = simplejson.loads(service)
	base = urlparse.urljoin(base, service['basePath'])
	if future:
	future = simplejson.loads(future)
	auth_discovery = future.get('auth', {})
	else:
	future = {}
	auth_discovery = {}
	schema = service.get('schemas', {})

	if model is None:
	features = service.get('features', [])
	model = JsonModel('dataWrapper' in features)
	resource = createResource(http, base, model, requestBuilder, developerKey,
	service, future, schema)

	def auth_method():
	"""Discovery information about the authentication the API uses."""
	return auth_discovery

	setattr(resource, 'auth_discovery', auth_method)

	return resource


	def _cast(value, schema_type):
	"""Convert value to a string based on JSON Schema type.

	See http://tools.ietf.org/html/draft-zyp-json-schema-03 for more details on
	JSON Schema.

	Args:
	value: any, the value to convert
	schema_type: string, the type that value should be interpreted as

	Returns:
	A string representation of 'value' based on the schema_type.
	"""
	if schema_type == 'string':
	if type(value) == type('') or type(value) == type(u''):
	return value
	else:
	return str(value)
	elif schema_type == 'integer':
	return str(int(value))
	elif schema_type == 'number':
	return str(float(value))
	elif schema_type == 'boolean':
	return str(bool(value)).lower()
	else:
	if type(value) == type('') or type(value) == type(u''):
	return value
	else:
	return str(value)

	MULTIPLIERS = {
	"KB": 2 ** 10,
	"MB": 2 ** 20,
	"GB": 2 ** 30,
	"TB": 2 ** 40,
	}

	def _media_size_to_long(maxSize):
	"""Convert a string media size, such as 10GB or 3TB into an integer."""
	if len(maxSize) < 2:
	return 0
	units = maxSize[-2:].upper()
	multiplier = MULTIPLIERS.get(units, 0)
	if multiplier:
	return int(maxSize[:-2]) * multiplier
	else:
	return int(maxSize)


	def createResource(http, baseUrl, model, requestBuilder,
	developerKey, resourceDesc, futureDesc, schema):

	class Resource(object):
	"""A class for interacting with a resource."""

	def __init__(self):
	self._http = http
	self._baseUrl = baseUrl
	self._model = model
	self._developerKey = developerKey
	self._requestBuilder = requestBuilder

	def createMethod(theclass, methodName, methodDesc, futureDesc):
	methodName = _fix_method_name(methodName)
	pathUrl = methodDesc['path']
	httpMethod = methodDesc['httpMethod']
	methodId = methodDesc['id']

	mediaPathUrl = None
	accept = []
	maxSize = 0
	if 'mediaUpload' in methodDesc:
	mediaUpload = methodDesc['mediaUpload']
	mediaPathUrl = mediaUpload['protocols']['simple']['path']
	accept = mediaUpload['accept']
	maxSize = _media_size_to_long(mediaUpload.get('maxSize', ''))

	if 'parameters' not in methodDesc:
	methodDesc['parameters'] = {}
	for name in STACK_QUERY_PARAMETERS:
	methodDesc['parameters'][name] = {
	'type': 'string',
	'location': 'query'
	}

	if httpMethod in ['PUT', 'POST', 'PATCH']:
	methodDesc['parameters']['body'] = {
	'description': 'The request body.',
	'type': 'object',
	'required': True,
	}
	if 'mediaUpload' in methodDesc:
	methodDesc['parameters']['media_body'] = {
	'description': 'The filename of the media request body.',
	'type': 'string',
	'required': False,
	}
	methodDesc['parameters']['body']['required'] = False

	argmap = {} # Map from method parameter name to query parameter name
	required_params = [] # Required parameters
	repeated_params = [] # Repeated parameters
	pattern_params = {} # Parameters that must match a regex
	query_params = [] # Parameters that will be used in the query string
	path_params = {} # Parameters that will be used in the base URL
	param_type = {} # The type of the parameter
	enum_params = {} # Allowable enumeration values for each parameter


	if 'parameters' in methodDesc:
	for arg, desc in methodDesc['parameters'].iteritems():
	param = key2param(arg)
	argmap[param] = arg

	if desc.get('pattern', ''):
	pattern_params[param] = desc['pattern']
	if desc.get('enum', ''):
	enum_params[param] = desc['enum']
	if desc.get('required', False):
	required_params.append(param)
	if desc.get('repeated', False):
	repeated_params.append(param)
	if desc.get('location') == 'query':
	query_params.append(param)
	if desc.get('location') == 'path':
	path_params[param] = param
	param_type[param] = desc.get('type', 'string')

	for match in URITEMPLATE.finditer(pathUrl):
	for namematch in VARNAME.finditer(match.group(0)):
	name = key2param(namematch.group(0))
	path_params[name] = name
	if name in query_params:
	query_params.remove(name)

	def method(self, **kwargs):
	for name in kwargs.iterkeys():
	if name not in argmap:
	raise TypeError('Got an unexpected keyword argument "%s"' % name)

	for name in required_params:
	if name not in kwargs:
	raise TypeError('Missing required parameter "%s"' % name)

	for name, regex in pattern_params.iteritems():
	if name in kwargs:
	if re.match(regex, kwargs[name]) is None:
	raise TypeError(
	'Parameter "%s" value "%s" does not match the pattern "%s"' %
	(name, kwargs[name], regex))

	for name, enums in enum_params.iteritems():
	if name in kwargs:
	if kwargs[name] not in enums:
	raise TypeError(
	'Parameter "%s" value "%s" is not an allowed value in "%s"' %
	(name, kwargs[name], str(enums)))

	actual_query_params = {}
	actual_path_params = {}
	for key, value in kwargs.iteritems():
	to_type = param_type.get(key, 'string')
	# For repeated parameters we cast each member of the list.
	if key in repeated_params and type(value) == type([]):
	cast_value = [_cast(x, to_type) for x in value]
	else:
	cast_value = _cast(value, to_type)
	if key in query_params:
	actual_query_params[argmap[key]] = cast_value
	if key in path_params:
	actual_path_params[argmap[key]] = cast_value
	body_value = kwargs.get('body', None)
	media_filename = kwargs.get('media_body', None)

	if self._developerKey:
	actual_query_params['key'] = self._developerKey

	headers = {}
	headers, params, query, body = self._model.request(headers,
	actual_path_params, actual_query_params, body_value)

	expanded_url = uritemplate.expand(pathUrl, params)
	url = urlparse.urljoin(self._baseUrl, expanded_url + query)

	if media_filename:
	(media_mime_type, encoding) = mimetypes.guess_type(media_filename)
	if media_mime_type is None:
	raise UnknownFileType(media_filename)
	if not mimeparse.best_match([media_mime_type], ','.join(accept)):
	raise UnacceptableMimeTypeError(media_mime_type)

	# Check the maxSize
	if maxSize > 0 and os.path.getsize(media_filename) > maxSize:
	raise MediaUploadSizeError(media_filename)

	# Use the media path uri for media uploads
	expanded_url = uritemplate.expand(mediaPathUrl, params)
	url = urlparse.urljoin(self._baseUrl, expanded_url + query)

	if body is None:
	headers['content-type'] = media_mime_type
	# make the body the contents of the file
	f = file(media_filename, 'rb')
	body = f.read()
	f.close()
	else:
	msgRoot = MIMEMultipart('related')
	# msgRoot should not write out it's own headers
	setattr(msgRoot, '_write_headers', lambda self: None)

	# attach the body as one part
	msg = MIMENonMultipart(*headers['content-type'].split('/'))
	msg.set_payload(body)
	msgRoot.attach(msg)

	# attach the media as the second part
	msg = MIMENonMultipart(*media_mime_type.split('/'))
	msg['Content-Transfer-Encoding'] = 'binary'

	f = file(media_filename, 'rb')
	msg.set_payload(f.read())
	f.close()
	msgRoot.attach(msg)

	body = msgRoot.as_string()

	# must appear after the call to as_string() to get the right boundary
	headers['content-type'] = ('multipart/related; '
	'boundary="%s"') % msgRoot.get_boundary()

	logging.info('URL being requested: %s' % url)
	return self._requestBuilder(self._http,
	self._model.response,
	url,
	method=httpMethod,
	body=body,
	headers=headers,
	methodId=methodId)

	docs = [methodDesc.get('description', DEFAULT_METHOD_DOC), '\n\n']
	if len(argmap) > 0:
	docs.append('Args:\n')
	for arg in argmap.iterkeys():
	if arg in STACK_QUERY_PARAMETERS:
	continue
	repeated = ''
	if arg in repeated_params:
	repeated = ' (repeated)'
	required = ''
	if arg in required_params:
	required = ' (required)'
	paramdesc = methodDesc['parameters'][argmap[arg]]
	paramdoc = paramdesc.get('description', 'A parameter')
	paramtype = paramdesc.get('type', 'string')
	docs.append(' %s: %s, %s%s%s\n' % (arg, paramtype, paramdoc, required,
	repeated))
	enum = paramdesc.get('enum', [])
	enumDesc = paramdesc.get('enumDescriptions', [])
	if enum and enumDesc:
	docs.append(' Allowed values\n')
	for (name, desc) in zip(enum, enumDesc):
	docs.append(' %s - %s\n' % (name, desc))

	setattr(method, '__doc__', ''.join(docs))
	setattr(theclass, methodName, method)

	# This is a legacy method, as only Buzz and Moderator use the future.json
	# functionality for generating _next methods. It will be kept around as long
	# as those API versions are around, but no new APIs should depend upon it.
	def createNextMethodFromFuture(theclass, methodName, methodDesc, futureDesc):
	methodName = _fix_method_name(methodName)
	methodId = methodDesc['id'] + '.next'

	def methodNext(self, previous):
	"""
	Takes a single argument, 'body', which is the results
	from the last call, and returns the next set of items
	in the collection.

	Returns None if there are no more items in
	the collection.
	"""
	if futureDesc['type'] != 'uri':
	raise UnknownLinkType(futureDesc['type'])

	try:
	p = previous
	for key in futureDesc['location']:
	p = p[key]
	url = p
	except (KeyError, TypeError):
	return None

	if self._developerKey:
	parsed = list(urlparse.urlparse(url))
	q = parse_qsl(parsed[4])
	q.append(('key', self._developerKey))
	parsed[4] = urllib.urlencode(q)
	url = urlparse.urlunparse(parsed)

	headers = {}
	headers, params, query, body = self._model.request(headers, {}, {}, None)

	logging.info('URL being requested: %s' % url)
	resp, content = self._http.request(url, method='GET', headers=headers)

	return self._requestBuilder(self._http,
	self._model.response,
	url,
	method='GET',
	headers=headers,
	methodId=methodId)

	setattr(theclass, methodName, methodNext)


	def createNextMethod(theclass, methodName, methodDesc, futureDesc):
	methodName = _fix_method_name(methodName)
	methodId = methodDesc['id'] + '.next'

	def methodNext(self, previous_request, previous_response):
	"""Retrieves the next page of results.

	Args:
	previous_request: The request for the previous page.
	previous_response: The response from the request for the previous page.

	Returns:
	A request object that you can call 'execute()' on to request the next
	page. Returns None if there are no more items in the collection.
	"""
	# Retrieve nextPageToken from previous_response
	# Use as pageToken in previous_request to create new request.

	if 'nextPageToken' not in previous_response:
	return None

	request = copy.copy(previous_request)

	pageToken = previous_response['nextPageToken']
	parsed = list(urlparse.urlparse(request.uri))
	q = parse_qsl(parsed[4])

	# Find and remove old 'pageToken' value from URI
	newq = [(key, value) for (key, value) in q if key != 'pageToken']
	newq.append(('pageToken', pageToken))
	parsed[4] = urllib.urlencode(newq)
	uri = urlparse.urlunparse(parsed)

	request.uri = uri

	logging.info('URL being requested: %s' % uri)

	return request

	setattr(theclass, methodName, methodNext)


	# Add basic methods to Resource
	if 'methods' in resourceDesc:
	for methodName, methodDesc in resourceDesc['methods'].iteritems():
	if futureDesc:
	future = futureDesc['methods'].get(methodName, {})
	else:
	future = None
	createMethod(Resource, methodName, methodDesc, future)

	# Add in nested resources
	if 'resources' in resourceDesc:

	def createResourceMethod(theclass, methodName, methodDesc, futureDesc):
	methodName = _fix_method_name(methodName)

	def methodResource(self):
	return createResource(self._http, self._baseUrl, self._model,
	self._requestBuilder, self._developerKey,
	methodDesc, futureDesc, schema)

	setattr(methodResource, '__doc__', 'A collection resource.')
	setattr(methodResource, '__is_resource__', True)
	setattr(theclass, methodName, methodResource)

	for methodName, methodDesc in resourceDesc['resources'].iteritems():
	if futureDesc and 'resources' in futureDesc:
	future = futureDesc['resources'].get(methodName, {})
	else:
	future = {}
	createResourceMethod(Resource, methodName, methodDesc, future)

	# Add <m>_next() methods to Resource
	if futureDesc and 'methods' in futureDesc:
	for methodName, methodDesc in futureDesc['methods'].iteritems():
	if 'next' in methodDesc and methodName in resourceDesc['methods']:
	createNextMethodFromFuture(Resource, methodName + '_next',
	resourceDesc['methods'][methodName],
	methodDesc['next'])
	# Add _next() methods
	# Look for response bodies in schema that contain nextPageToken, and methods
	# that take a pageToken parameter.
	if 'methods' in resourceDesc:
	for methodName, methodDesc in resourceDesc['methods'].iteritems():
	if 'response' in methodDesc:
	responseSchema = methodDesc['response']
	if '$ref' in responseSchema:
	responseSchema = schema[responseSchema['$ref']]
	hasNextPageToken = 'nextPageToken' in responseSchema.get('properties',
	{})
	hasPageToken = 'pageToken' in methodDesc.get('parameters', {})
	if hasNextPageToken and hasPageToken:
	createNextMethod(Resource, methodName + '_next',
	resourceDesc['methods'][methodName],
	methodName)

	return Resource()