#!/usr/bin/env python
# -*- coding: utf-8 -*-
###############################################################################
# Copyright 2013 Kitware 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.
###############################################################################
import cgi
import cherrypy
import collections
import datetime
import json
import posixpath
import six
import sys
import traceback
from . import docs
from girder import events, logger, logprint
from girder.constants import SettingKey, TokenScope, SortDir
from girder.models.model_base import AccessException, GirderException, ValidationException
from girder.utility import toBool, config, JsonEncoder, optionalArgumentDecorator
from girder.utility.model_importer import ModelImporter
from six.moves import range, urllib
# Arbitrary buffer length for stream-reading request bodies
READ_BUFFER_LEN = 65536
[docs]def getUrlParts(url=None):
"""
Calls `urllib.parse.urlparse`_ on a URL.
:param url: A URL, or None to use the current request's URL.
:type url: str or None
:return: The URL's separate components.
:rtype: `urllib.parse.ParseResult`_
.. note:: This is compatible with both Python 2 and 3.
.. _urllib.parse.urlparse: https://docs.python.org/3/library/
urllib.parse.html#urllib.parse.urlparse
.. _urllib.parse.ParseResult: https://docs.python.org/3/library/
urllib.parse.html#urllib.parse.ParseResult
"""
url = url or cherrypy.url()
return urllib.parse.urlparse(url)
[docs]def getApiUrl(url=None, preferReferer=False):
"""
In a request thread, call this to get the path to the root of the REST API.
The returned path does *not* end in a forward slash.
:param url: URL from which to extract the base URL. If not specified, uses
the server root system setting. If that is not specified, uses `cherrypy.url()`
:param preferReferer: if no url is specified, this is true, and this is in
a cherrypy request that has a referer header that contains the api
string, use that referer as the url.
"""
apiStr = '/api/v1'
if not url:
if preferReferer and apiStr in cherrypy.request.headers.get('referer', ''):
url = cherrypy.request.headers['referer']
else:
root = ModelImporter.model('setting').get(SettingKey.SERVER_ROOT)
if root:
return posixpath.join(root, config.getConfig()['server']['api_root'].lstrip('/'))
url = url or cherrypy.url()
idx = url.find(apiStr)
if idx < 0:
raise GirderException('Could not determine API root in %s.' % url)
return url[:idx + len(apiStr)]
[docs]def iterBody(length=READ_BUFFER_LEN, strictLength=False):
"""
This is a generator that will read the request body a chunk at a time and
yield each chunk, abstracting details of the underlying HTTP server. This
function works regardless of whether the body was sent with a Content-Length
or using Transfer-Encoding: chunked, but the behavior is slightly different
in each case.
If `Content-Length` is provided, the `length` parameter is used to read the
body in chunks up to size `length`. This will block until end of stream or
the specified number of bytes is ready.
If `Transfer-Encoding: chunked` is used, the `length` parameter is ignored
by default, and the generator yields each chunk that is sent in the request
regardless of its length. However, if `strictLength` is set to True, it will
block until `length` bytes have been read or the end of the request.
:param length: Max buffer size to read per iteration if the request has a
known `Content-Length`.
:type length: int
:param strictLength: If the request is chunked, set this to True to block
until ``length`` bytes have been read or end-of-stream.
:type strictLength: bool
"""
if cherrypy.request.headers.get('Transfer-Encoding') == 'chunked':
while True:
if strictLength:
buf = cherrypy.request.rfile.read(length)
if not buf:
break
else:
cherrypy.request.rfile._fetch()
if cherrypy.request.rfile.closed:
break
buf = cherrypy.request.rfile.buffer
cherrypy.request.rfile.buffer = b''
yield buf
elif 'Content-Length' in cherrypy.request.headers:
while True:
buf = cherrypy.request.body.read(length)
if not buf:
break
yield buf
def _cacheAuthUser(fun):
"""
This decorator for getCurrentUser ensures that the authentication procedure
is only performed once per request, and is cached on the request for
subsequent calls to getCurrentUser().
"""
def inner(returnToken=False, *args, **kwargs):
if not returnToken and hasattr(cherrypy.request, 'girderUser'):
return cherrypy.request.girderUser
user = fun(returnToken, *args, **kwargs)
if isinstance(user, tuple):
setCurrentUser(user[0])
else:
setCurrentUser(user)
return user
return inner
def _cacheAuthToken(fun):
"""
This decorator for getCurrentToken ensures that the token lookup
is only performed once per request, and is cached on the request for
subsequent calls to getCurrentToken().
"""
def inner(*args, **kwargs):
if hasattr(cherrypy.request, 'girderToken'):
return cherrypy.request.girderToken
token = fun(*args, **kwargs)
setattr(cherrypy.request, 'girderToken', token)
return token
return inner
@_cacheAuthToken
def getCurrentToken(allowCookie=False):
"""
Returns the current valid token object that was passed via the token header
or parameter, or None if no valid token was passed.
:param allowCookie: Normally, authentication via cookie is disallowed to
protect against CSRF attacks. If you want to expose an endpoint that can
be authenticated with a token passed in the Cookie, set this to True.
This should only be used on read-only operations that will not make any
changes to data on the server, and only in cases where the user agent
behavior makes passing custom headers infeasible, such as downloading
data to disk in the browser.
:type allowCookie: bool
"""
tokenStr = None
if 'token' in cherrypy.request.params: # Token as a parameter
tokenStr = cherrypy.request.params.get('token')
elif 'Girder-Token' in cherrypy.request.headers:
tokenStr = cherrypy.request.headers['Girder-Token']
elif allowCookie and 'girderToken' in cherrypy.request.cookie:
tokenStr = cherrypy.request.cookie['girderToken'].value
if not tokenStr:
return None
return ModelImporter.model('token').load(tokenStr, force=True,
objectId=False)
@_cacheAuthUser
def getCurrentUser(returnToken=False):
"""
Returns the currently authenticated user based on the token header or
parameter.
:param returnToken: Whether we should return a tuple that also contains the
token.
:type returnToken: bool
:returns: the user document from the database, or None if the user is not
logged in or the token is invalid or expired. If
returnToken=True, returns a tuple of (user, token).
"""
event = events.trigger('auth.user.get')
if event.defaultPrevented and len(event.responses) > 0:
return event.responses[0]
token = getCurrentToken()
def retVal(user, token):
if returnToken:
return user, token
else:
return user
if (token is None or token['expires'] < datetime.datetime.utcnow() or
'userId' not in token):
return retVal(None, token)
else:
try:
ensureTokenScopes(token, getattr(
cherrypy.request, 'requiredScopes', TokenScope.USER_AUTH))
except AccessException:
return retVal(None, token)
user = ModelImporter.model('user').load(token['userId'], force=True)
return retVal(user, token)
[docs]def setCurrentUser(user):
"""
Explicitly set the user for the current request thread. This can be used
to enable specialized auth behavior on a per-request basis.
:param user: The user to set as the current user of this request.
:type user: dict or None
"""
cherrypy.request.girderUser = user
[docs]def requireAdmin(user, message=None):
"""
Calling this on a user will ensure that they have admin rights. If not,
raises an AccessException.
:param user: The user to check admin flag on.
:type user: dict.
:param message: The exception message.
:type message: str or None
:raises AccessException: If the user is not an administrator.
"""
if user is None or not user['admin']:
raise AccessException(message or 'Administrator access required.')
[docs]def getBodyJson(allowConstants=False):
"""
For requests that are expected to contain a JSON body, this returns the
parsed value, or raises a :class:`girder.api.rest.RestException` for
invalid JSON.
:param allowConstants: Whether the keywords Infinity, -Infinity, and NaN
should be allowed. These keywords are valid JavaScript and will parse
to the correct float values, but are not valid in strict JSON.
:type allowConstants: bool
"""
if allowConstants:
_parseConstants = None
else:
def _parseConstants(val):
raise RestException('Error: "%s" is not valid JSON.' % val)
text = cherrypy.request.body.read().decode('utf8')
try:
return json.loads(text, parse_constant=_parseConstants)
except ValueError:
raise RestException('Invalid JSON passed in request body.')
[docs]def getParamJson(name, params, default=None):
"""
For parameters that are expected to be specified as JSON, use
this to parse them, or raises a RestException if parsing fails.
:param name: The param name.
:type name: str
:param params: The dictionary of parameters.
:type params: dict
:param default: The default value if no such param was passed.
"""
if name not in params:
return default
try:
return json.loads(params[name])
except ValueError:
raise RestException('The %s parameter must be valid JSON.' % name)
[docs]class loadmodel(ModelImporter): # noqa: class name
"""
This is a decorator that can be used to load a model based on an ID param.
For access controlled models, it will check authorization for the current
user. The underlying function is called with a modified set of keyword
arguments that is transformed by the "map" parameter of this decorator.
Any additional kwargs will be passed to the underlying model's `load`.
:param map: Map of incoming parameter name to corresponding model arg name.
If None is passed, this will map the parameter named "id" to a kwarg
named the same as the "model" parameter.
:type map: dict or None
:param model: The model name, e.g. 'folder'
:type model: str
:param plugin: Plugin name, if loading a plugin model.
:type plugin: str
:param level: Access level, if this is an access controlled model.
:type level: AccessType
:param force: Force loading of the model (skip access check).
:type force: bool
:param exc: Whether an exception should be raised for a nonexistent
resource.
:type exc: bool
:param requiredFlags: Access flags that are required on the object being loaded.
:type requiredFlags: str or list/set/tuple of str or None
"""
def __init__(self, map=None, model=None, plugin='_core', level=None,
force=False, exc=True, requiredFlags=None, **kwargs):
if map is None:
self.map = {'id': model}
else:
self.map = map
self.level = level
self.force = force
self.modelName = model
self.plugin = plugin
self.exc = exc
self.kwargs = kwargs
self.requiredFlags = requiredFlags
def _getIdValue(self, kwargs, idParam):
if idParam in kwargs:
return kwargs.pop(idParam)
elif idParam in kwargs['params']:
return kwargs['params'].pop(idParam)
else:
raise RestException('No ID parameter passed: ' + idParam)
def __call__(self, fun):
@six.wraps(fun)
def wrapped(*args, **kwargs):
model = self.model(self.modelName, self.plugin)
for raw, converted in six.viewitems(self.map):
id = self._getIdValue(kwargs, raw)
if self.force:
kwargs[converted] = model.load(
id, force=True, **self.kwargs)
elif self.level is not None:
kwargs[converted] = model.load(
id=id, level=self.level, user=getCurrentUser(),
**self.kwargs)
else:
kwargs[converted] = model.load(id, **self.kwargs)
if kwargs[converted] is None and self.exc:
raise RestException(
'Invalid %s id (%s).' % (model.name, str(id)))
if self.requiredFlags:
model.requireAccessFlags(
kwargs[converted], user=getCurrentUser(), flags=self.requiredFlags)
return fun(*args, **kwargs)
return wrapped
class filtermodel(ModelImporter): # noqa: class name
def __init__(self, model, plugin='_core', addFields=None):
"""
This creates a decorator that will filter a model or list of models
returned by the wrapped function using the specified model's
``filter`` method. Filters the results for the user making the current
request (i.e. the value of ``getCurrentUser()``).
:param model: The model name.
:type model: str
:param plugin: The plugin name if this is a plugin model.
:type plugin: str
:param addFields: Extra fields (key names) that should be included in
the returned document(s), in addition to any in the model's normal
whitelist. Only affects top level fields.
:type addFields: `set, list, tuple, or None`
"""
self.modelName = model
self.plugin = plugin
self.addFields = addFields
def __call__(self, fun):
@six.wraps(fun)
def wrapped(*args, **kwargs):
val = fun(*args, **kwargs)
if val is None:
return None
user = getCurrentUser()
model = self.model(self.modelName, self.plugin)
if isinstance(val, (list, tuple)):
return [model.filter(m, user, self.addFields) for m in val]
elif isinstance(val, dict):
return model.filter(val, user, self.addFields)
else:
raise Exception(
'Cannot call filtermodel on return type: %s.' % type(val))
return wrapped
[docs]def setRawResponse(val=True):
"""
Normally, non-streaming responses go through a serialization process in
accordance with the "Accept" request header. Endpoints that wish to return
a raw response without using a streaming response should call this, or use
its bound version on the ``Resource`` class, or add the ``rawResponse``
decorator on the REST route handler function.
:param val: Whether the return value should be sent raw.
:type val: bool
"""
cherrypy.request.girderRawResponse = val
[docs]def rawResponse(fun):
"""
This is a decorator that can be placed on REST route handlers, and is
equivalent to calling ``setRawResponse()`` in the handler body.
"""
@six.wraps(fun)
def wrapped(*args, **kwargs):
setRawResponse()
return fun(*args, **kwargs)
return wrapped
def _createResponse(val):
"""
Helper that encodes the response according to the requested "Accepts"
header from the client. Currently supports "application/json" and
"text/html". If ``setRawResponse(True)`` was called on the current request
thread, this will simply return the response raw.
"""
if getattr(cherrypy.request, 'girderRawResponse', False) is True:
if isinstance(val, six.text_type):
# If we were given a non-encoded text response, we have
# to encode it, so we use UTF-8.
ctype = cherrypy.response.headers['Content-Type'].split(';', 1)
setResponseHeader('Content-Type', ctype[0] + ';charset=utf-8')
return val.encode('utf8')
return val
accepts = cherrypy.request.headers.elements('Accept')
for accept in accepts:
if accept.value == 'application/json':
break
elif accept.value == 'text/html': # pragma: no cover
# Pretty-print and HTML-ify the response for the browser
setResponseHeader('Content-Type', 'text/html')
resp = cgi.escape(json.dumps(
val, indent=4, sort_keys=True, allow_nan=False, separators=(',', ': '),
cls=JsonEncoder))
resp = resp.replace(' ', ' ').replace('\n', '<br />')
resp = '<div style="font-family:monospace;">%s</div>' % resp
return resp.encode('utf8')
# Default behavior will just be normal JSON output. Keep this
# outside of the loop body in case no Accept header is passed.
setResponseHeader('Content-Type', 'application/json')
return json.dumps(val, sort_keys=True, allow_nan=False,
cls=JsonEncoder).encode('utf8')
def _handleRestException(e):
# Handle all user-error exceptions from the REST layer
cherrypy.response.status = e.code
val = {'message': e.message, 'type': 'rest'}
if e.extra is not None:
val['extra'] = e.extra
return val
def _handleAccessException(e):
# Permission exceptions should throw a 401 or 403, depending
# on whether the user is logged in or not
if getCurrentUser() is None:
cherrypy.response.status = 401
else:
cherrypy.response.status = 403
logger.exception('403 Error')
val = {'message': e.message, 'type': 'access'}
if e.extra is not None:
val['extra'] = e.extra
return val
def _handleGirderException(e):
# Handle general Girder exceptions
logger.exception('500 Error')
cherrypy.response.status = 500
val = {'message': e.message, 'type': 'girder'}
if e.identifier is not None:
val['identifier'] = e.identifier
return val
def _handleValidationException(e):
cherrypy.response.status = 400
val = {'message': e.message, 'type': 'validation'}
if e.field is not None:
val['field'] = e.field
return val
[docs]def endpoint(fun):
"""
REST HTTP method endpoints should use this decorator. It converts the return
value of the underlying method to the appropriate output format and
sets the relevant response headers. It also handles RestExceptions,
which are 400-level exceptions in the REST endpoints, AccessExceptions
resulting from access denial, and also handles any unexpected errors
using 500 status and including a useful traceback in those cases.
If you want a streamed response, simply return a generator function
from the inner method.
"""
@six.wraps(fun)
def endpointDecorator(self, *args, **kwargs):
_setCommonCORSHeaders()
cherrypy.lib.caching.expires(0)
try:
val = fun(self, args, kwargs)
# If this is a partial response, we set the status appropriately
if 'Content-Range' in cherrypy.response.headers:
cherrypy.response.status = 206
if callable(val):
# If the endpoint returned anything callable (function,
# lambda, functools.partial), we assume it's a generator
# function for a streaming response.
cherrypy.response.stream = True
return val()
if isinstance(val, cherrypy.lib.file_generator):
# Don't do any post-processing of static files
return val
except RestException as e:
val = _handleRestException(e)
except AccessException as e:
val = _handleAccessException(e)
except GirderException as e:
val = _handleGirderException(e)
except ValidationException as e:
val = _handleValidationException(e)
except cherrypy.HTTPRedirect:
raise
except Exception:
# These are unexpected failures; send a 500 status
logger.exception('500 Error')
cherrypy.response.status = 500
t, value, tb = sys.exc_info()
val = {'message': '%s: %s' % (t.__name__, repr(value)),
'type': 'internal'}
curConfig = config.getConfig()
if curConfig['server']['mode'] != 'production':
# Unless we are in production mode, send a traceback too
val['trace'] = traceback.extract_tb(tb)
return _createResponse(val)
return endpointDecorator
[docs]def ensureTokenScopes(token, scope):
"""
Call this to validate a token scope for endpoints that require tokens
other than a user authentication token. Raises an AccessException if the
required scopes are not allowed by the given token.
:param token: The token object used in the request.
:type token: dict
:param scope: The required scope or set of scopes.
:type scope: `str or list of str`
"""
tokenModel = ModelImporter.model('token')
if tokenModel.hasScope(token, TokenScope.USER_AUTH):
return
if not tokenModel.hasScope(token, scope):
setCurrentUser(None)
if isinstance(scope, six.string_types):
scope = (scope,)
raise AccessException(
'Invalid token scope.\n'
'Required: %s.\n'
'Allowed: %s' % (
' '.join(scope), ' '.join(tokenModel.getAllowedScopes(token))))
def _setCommonCORSHeaders():
"""
Set CORS headers that should be passed back with either a preflight OPTIONS
or a simple CORS request. We set these headers anytime there is an Origin
header present since browsers will simply ignore them if the request is not
cross-origin.
"""
origin = cherrypy.request.headers.get('origin')
if not origin:
# If there is no origin header, this is not a cross origin request
return
allowed = ModelImporter.model('setting').get(SettingKey.CORS_ALLOW_ORIGIN)
if allowed:
setResponseHeader('Access-Control-Allow-Credentials', 'true')
allowed_list = [o.strip() for o in allowed.split(',')]
key = 'Access-Control-Allow-Origin'
if len(allowed_list) == 1:
setResponseHeader(key, allowed_list[0])
elif origin in allowed_list:
setResponseHeader(key, origin)
[docs]class RestException(Exception):
"""
Throw a RestException in the case of any sort of incorrect
request (i.e. user/client error). Login and permission failures
should set a 403 code; almost all other validation errors
should use status 400, which is the default.
"""
def __init__(self, message, code=400, extra=None):
self.code = code
self.extra = extra
self.message = message
Exception.__init__(self, message)
[docs]class Resource(ModelImporter):
"""
All REST resources should inherit from this class, which provides utilities
for adding resources/routes to the REST API.
"""
exposed = True
def __init__(self):
self._routes = collections.defaultdict(
lambda: collections.defaultdict(list))
def _ensureInit(self):
"""
Calls ``Resource.__init__`` if the subclass constructor did not already
do so.
In the past, Resource subclasses were not expected to call their
superclass constructor.
"""
if not hasattr(self, '_routes'):
Resource.__init__(self)
logprint.warning(
'WARNING: Resource subclass "%s" did not call '
'"Resource__init__()" from its constructor.' %
self.__class__.__name__)
[docs] def route(self, method, route, handler, nodoc=False, resource=None):
"""
Define a route for your REST resource.
:param method: The HTTP method, e.g. 'GET', 'POST', 'PUT', 'PATCH'
:type method: str
:param route: The route, as a list of path params relative to the
resource root. Elements of this list starting with ':' are assumed
to be wildcards.
:type route: tuple[str]
:param handler: The method to be called if the route and method are
matched by a request. Wildcards in the route will be expanded and
passed as kwargs with the same name as the wildcard identifier.
:type handler: function
:param nodoc: If your route intentionally provides no documentation,
set this to True to disable the warning on startup.
:type nodoc: bool
:param resource: The name of the resource at the root of this route.
"""
self._ensureInit()
# Insertion sort to maintain routes in required order.
nLengthRoutes = self._routes[method.lower()][len(route)]
for i in range(len(nLengthRoutes)):
if self._shouldInsertRoute(route, nLengthRoutes[i][0]):
nLengthRoutes.insert(i, (route, handler))
break
else:
nLengthRoutes.append((route, handler))
# Now handle the api doc if the handler has any attached
if resource is None and hasattr(self, 'resourceName'):
resource = self.resourceName
elif resource is None:
resource = handler.__module__.rsplit('.', 1)[-1]
if hasattr(handler, 'description'):
if handler.description is not None:
docs.addRouteDocs(
resource=resource, route=route, method=method,
info=handler.description.asDict(), handler=handler)
elif not nodoc:
routePath = '/'.join([resource] + list(route))
logprint.warning(
'WARNING: No description docs present for route %s %s' % (
method, routePath))
# Warn if there is no access decorator on the handler function
if not hasattr(handler, 'accessLevel'):
routePath = '/'.join([resource] + list(route))
logprint.warning(
'WARNING: No access level specified for route %s %s' % (
method, routePath))
if method.lower() not in ('head', 'get') \
and hasattr(handler, 'cookieAuth') \
and not (isinstance(handler.cookieAuth, tuple) and
handler.cookieAuth[1]):
routePath = '/'.join([resource] + list(route))
logprint.warning(
'WARNING: Cannot allow cookie authentication for '
'route %s %s without specifying "force=True"' % (
method, routePath))
[docs] def removeRoute(self, method, route, handler=None, resource=None):
"""
Remove a route from the handler and documentation.
:param method: The HTTP method, e.g. 'GET', 'POST', 'PUT'
:type method: str
:param route: The route, as a list of path params relative to the
resource root. Elements of this list starting with ':'
are assumed to be wildcards.
:type route: tuple[str]
:param handler: The method called for the route; this is necessary to
remove the documentation.
:type handler: function
:param resource: the name of the resource at the root of this route.
"""
self._ensureInit()
nLengthRoutes = self._routes[method.lower()][len(route)]
for i in range(len(nLengthRoutes)):
if nLengthRoutes[i][0] == route:
del nLengthRoutes[i]
break
# Remove the api doc
if resource is None and hasattr(self, 'resourceName'):
resource = self.resourceName
elif resource is None:
resource = handler.__module__.rsplit('.', 1)[-1]
if handler and getattr(handler, 'description', None) is not None:
docs.removeRouteDocs(
resource=resource, route=route, method=method,
info=handler.description.asDict(), handler=handler)
def _shouldInsertRoute(self, a, b):
"""
Return bool representing whether route a should go before b. Checks by
comparing each token in order and making sure routes with literals in
forward positions come before routes with wildcards in those positions.
"""
for i in range(len(a)):
if a[i][0] != ':' and b[i][0] == ':':
return True
return False
[docs] def handleRoute(self, method, path, params):
"""
Match the requested path to its corresponding route, and calls the
handler for that route with the appropriate kwargs. If no route
matches the path requested, throws a RestException.
This method fires two events for each request if a matching route is
found. The names of these events are derived from the route matched by
the request. As an example, if the user calls GET /api/v1/item/123,
the following two events would be fired:
``rest.get.item/:id.before``
would be fired prior to calling the default API function, and
``rest.get.item/:id.after``
would be fired after the route handler returns. The query params are
passed in the info of the before and after event handlers as
event.info['params'], and the matched route tokens are passed in
as dict items of event.info, so in the previous example event.info would
also contain an 'id' key with the value of 123. For endpoints with empty
sub-routes, the trailing slash is omitted from the event name, e.g.:
``rest.post.group.before``
.. note:: You will normally not need to call this method directly, as it
is called by the internals of this class during the routing process.
:param method: The HTTP method of the current request.
:type method: str
:param path: The path params of the request.
:type path: `list`
"""
if not self._routes:
raise Exception('No routes defined for resource')
method = method.lower()
for route, handler in self._routes[method][len(path)]:
kwargs = self._matchRoute(path, route)
if kwargs is False:
continue
cherrypy.request.requiredScopes = getattr(
handler, 'requiredScopes', None) or TokenScope.USER_AUTH
if hasattr(handler, 'cookieAuth'):
if isinstance(handler.cookieAuth, tuple):
cookieAuth, forceCookie = handler.cookieAuth
else:
# previously, cookieAuth was not set by a decorator, so the
# legacy way must be supported too
cookieAuth = handler.cookieAuth
forceCookie = False
if cookieAuth:
if forceCookie or method in ('head', 'get'):
# getCurrentToken will cache its output, so calling it
# once with allowCookie will make the parameter
# effectively permanent (for the request)
getCurrentToken(allowCookie=True)
kwargs['params'] = params
# Add before call for the API method. Listeners can return
# their own responses by calling preventDefault() and
# adding a response on the event.
if hasattr(self, 'resourceName'):
resource = self.resourceName
else:
resource = handler.__module__.rsplit('.', 1)[-1]
routeStr = '/'.join((resource, '/'.join(route))).rstrip('/')
eventPrefix = '.'.join(('rest', method, routeStr))
event = events.trigger('.'.join((eventPrefix, 'before')),
kwargs, pre=self._defaultAccess)
if event.defaultPrevented and len(event.responses) > 0:
val = event.responses[0]
else:
self._defaultAccess(handler)
val = handler(**kwargs)
# Fire the after-call event that has a chance to augment the
# return value of the API method that was called. You can
# reassign the return value completely by adding a response to
# the event and calling preventDefault() on it.
kwargs['returnVal'] = val
event = events.trigger('.'.join((eventPrefix, 'after')), kwargs)
if event.defaultPrevented and len(event.responses) > 0:
val = event.responses[0]
return val
raise RestException('No matching route for "%s %s"' % (
method.upper(), '/'.join(path)))
def _matchRoute(self, path, route):
"""
Helper function that attempts to match the requested path with a
given route specification. Returns False if the requested path does
not match the route. If it does match, this will return the dict of
kwargs that should be passed to the underlying handler, based on the
wildcard tokens of the route.
:param path: The requested path.
:type path: `list`
:param route: The route specification to match against.
:type route: `list`
"""
wildcards = {}
for i in range(0, len(route)):
if route[i][0] == ':': # Wildcard token
wildcards[route[i][1:]] = path[i]
elif route[i] != path[i]: # Exact match token
return False
return wildcards
[docs] def requireParams(self, required, provided=None):
"""
This method has two modes. In the first mode, this takes two
parameters, the first being a required parameter or list of
them, and the second the dictionary of parameters that were
passed. If the required parameter does not appear in the
passed parameters, a ValidationException is raised.
The second mode of operation takes only a single
parameter, which is a dict mapping required parameter names
to passed in values for those params. If the value is ``None``,
a ValidationException is raised. This mode works well in conjunction
with the ``autoDescribeRoute`` decorator, where the parameters are
not all contained in a single dictionary.
:param required: An iterable of required params, or if just one is
required, you can simply pass it as a string.
:type required: `list, tuple, or str`
:param provided: The list of provided parameters.
:type provided: dict
"""
if provided is None and isinstance(required, dict):
for name, val in six.viewitems(required):
if val is None:
raise RestException('Parameter "%s" is required.' % name)
else:
if isinstance(required, six.string_types):
required = (required,)
for param in required:
if provided is None or param not in provided:
raise RestException('Parameter "%s" is required.' % param)
[docs] def boolParam(self, key, params, default=None):
"""
Coerce a parameter value from a str to a bool.
:param key: The parameter key to test.
:type key: str
:param params: The request parameters.
:type params: dict
:param default: The default value if no key is passed.
:type default: bool or None
"""
if key not in params:
return default
return toBool(params[key])
[docs] def requireAdmin(self, user, message=None):
"""
Calling this on a user will ensure that they have admin rights.
If not, raises an AccessException.
:param user: The user to check admin flag on.
:type user: dict.
:param message: The exception message.
:type message: str or None
:raises AccessException: If the user is not an administrator.
"""
return requireAdmin(user, message)
[docs] def setRawResponse(self, *args, **kwargs):
"""
Bound alias for ``girder.api.rest.setRawResponse``.
"""
return setRawResponse(*args, **kwargs)
[docs] def getPagingParameters(self, params, defaultSortField=None, defaultSortDir=SortDir.ASCENDING):
"""
Pass the URL parameters into this function if the request is for a
list of resources that should be paginated. It will return a tuple of
the form (limit, offset, sort) whose values should be passed directly
into the model methods that are finding the resources. If the client
did not pass the parameters, this always uses the same defaults of
limit=50, offset=0, sort='name', sortdir=SortDir.ASCENDING=1.
:param params: The URL query parameters.
:type params: dict
:param defaultSortField: If the client did not pass a 'sort' parameter,
set this to choose a default sort field. If None, the results will
be returned unsorted.
:type defaultSortField: str or None
:param defaultSortDir: Sort direction.
:type defaultSortDir: girder.constants.SortDir
"""
offset = int(params.get('offset', 0))
limit = int(params.get('limit', 50))
sortdir = int(params.get('sortdir', defaultSortDir))
if 'sort' in params:
sort = [(params['sort'].strip(), sortdir)]
elif isinstance(defaultSortField, six.string_types):
sort = [(defaultSortField, sortdir)]
else:
sort = None
return limit, offset, sort
[docs] def ensureTokenScopes(self, scope):
"""
Ensure that the token passed to this request is authorized for the
designated scope or set of scopes. Raises an AccessException if not.
:param scope: A scope or set of scopes that is required.
:type scope: `str or list of str`
"""
ensureTokenScopes(getCurrentToken(), scope)
[docs] def getBodyJson(self):
"""
Bound wrapper for :func:`girder.api.rest.getBodyJson`.
"""
return getBodyJson()
[docs] def getParamJson(self, name, params, default=None):
"""
Bound wrapper for :func:`girder.api.rest.getParamJson`.
"""
return getParamJson(name, params, default)
[docs] def getCurrentToken(self):
"""
Returns the current valid token object that was passed via the token
header or parameter, or None if no valid token was passed.
"""
return getCurrentToken()
[docs] def getCurrentUser(self, returnToken=False):
"""
Returns the currently authenticated user based on the token header or
parameter.
:param returnToken: Whether we should return a tuple that also contains
the token.
:type returnToken: bool
:returns: The user document from the database, or None if the user
is not logged in or the token is invalid or expired.
If returnToken=True, returns a tuple of (user, token).
"""
return getCurrentUser(returnToken)
[docs] def sendAuthTokenCookie(self, user=None, scope=None, token=None, days=None):
"""
Helper method to send the authentication cookie
"""
setting = self.model('setting')
if days is None:
days = float(setting.get(SettingKey.COOKIE_LIFETIME))
if token is None:
token = self.model('token').createToken(user, days=days, scope=scope)
cookie = cherrypy.response.cookie
cookie['girderToken'] = str(token['_id'])
cookie['girderToken']['path'] = '/'
cookie['girderToken']['expires'] = int(days * 3600 * 24)
if setting.get(SettingKey.SECURE_COOKIE):
cookie['girderToken']['secure'] = True
return token
[docs] def deleteAuthTokenCookie(self):
"""
Helper method to kill the authentication cookie
"""
cookie = cherrypy.response.cookie
cookie['girderToken'] = ''
cookie['girderToken']['path'] = '/'
cookie['girderToken']['expires'] = 0
# This is NOT wrapped in an endpoint decorator; we don't want that behavior
def OPTIONS(self, *path, **param):
_setCommonCORSHeaders()
cherrypy.lib.caching.expires(0)
allowHeaders = self.model('setting').get(SettingKey.CORS_ALLOW_HEADERS)
allowMethods = self.model('setting').get(SettingKey.CORS_ALLOW_METHODS)\
or 'GET, POST, PUT, HEAD, DELETE'
setResponseHeader('Access-Control-Allow-Methods', allowMethods)
setResponseHeader('Access-Control-Allow-Headers', allowHeaders)
@endpoint
def DELETE(self, path, params):
# DELETE bodies are optional. Assume if we have a content-length, then
# there is a body that should be processed.
if 'Content-Length' in cherrypy.request.headers:
cherrypy.request.body.process()
params.update(cherrypy.request.params)
return self.handleRoute('DELETE', path, params)
@endpoint
def GET(self, path, params):
return self.handleRoute('GET', path, params)
@endpoint
def POST(self, path, params):
method = 'POST'
# When using a POST request, the method can be overridden and really be
# something else. There seem to be three different 'standards' on how
# to do this (see http://fandry.blogspot.com/2012/03/
# x-http-header-method-override-and-rest.html). We might as well
# support all three.
for key in ('X-HTTP-Method-Override', 'X-HTTP-Method',
'X-Method-Override'):
if key in cherrypy.request.headers:
method = cherrypy.request.headers[key]
return self.handleRoute(method, path, params)
@endpoint
def PUT(self, path, params):
return self.handleRoute('PUT', path, params)
@endpoint
def PATCH(self, path, params):
return self.handleRoute('PATCH', path, params)
@staticmethod
def _defaultAccess(handler, **kwargs):
"""
This is the pre-event handler callback for the events that are triggered
before default handling of a REST request. Since such an event handler
could accidentally circumvent the access level of the default handler,
we enforce that handlers of these event types must also specify their
own access level, or else default to the strictest level (admin) just
like the core route handlers. This allows plugins to potentially
override the default level, but makes sure they don't accidentally lower
the access level for a given route.
"""
if not hasattr(handler, 'accessLevel'):
requireAdmin(getCurrentUser())
# An instance of Resource that can be shared by boundHandlers for efficiency
_sharedContext = Resource()
@optionalArgumentDecorator
[docs]def boundHandler(fun, ctx=None):
"""
This decorator allows unbound functions to be conveniently added as route
handlers to existing :py:class:`girder.api.rest.Resource` instances.
With no arguments, this uses a shared, generic ``Resource`` instance as the
context. If you need a specific instance, pass that as the ``ctx`` arg, for
instance if you need to reference the resource name or any other properties
specific to a Resource subclass.
Plugins that add new routes to existing API resources are encouraged to use
this to gain access to bound convenience methods like ``self.model``,
``self.boolParam``, ``self.requireParams``, etc.
:param fun: A REST endpoint.
:type fun: callable
:param ctx: A Resource instance, to be bound to ``fun``.
:type ctx: Resource or None
"""
if ctx is None:
ctx = _sharedContext
elif not isinstance(ctx, Resource):
raise Exception('ctx in boundhandler must be an instance of Resource.')
@six.wraps(fun)
def wrapped(*args, **kwargs):
return fun(ctx, *args, **kwargs)
return wrapped