SATOSA Frontend based on idpyoidc by Identity Python (previously identity python oidcop).
Endpoints:
- provider discovery
- jwks uri
- authorization
- token
- userinfo
- registration
- registration_read endpoint
- introspection endpoint
- token exchange
- satosa
- mongodb, see Satosa-Saml2Spid mongo example.
pip install satosa_oidcopAnyone can migrate its oidcop configuration, from flask_op or django-oidc-op
or whatever, in SATOSA and without any particular efforts. Looking at the
example configuration we see that
config.op.server_info have a standard SATOSA configuration with the only
addition of the following customizations, needed in SATOSA for interoperational
needs. These are:
- autentication
authentication:
user:
acr: urn:oasis:names:tc:SAML:2.0:ac:classes:InternetProtocolPassword
class: satosa.frontends.oidcop.user_authn.SatosaAuthnMethod- userinfo
userinfo:
class: satosa.frontends.oidcop.user_info.SatosaOidcUserInfoauthentication inherits oidcop.user_authn.user.UserAuthnMethod
and overloads two methods involved in user authentication and verification.
These tasks are handled by SATOSA in its authentication backends.
userinfo inherits oidcop.user_info.UserInfo and proposes a way to store
the claims of the users when they comes from the backend. The claims are stored
in the session database (actually mongodb) and then they will be fetched during
userinfo endpoint (and also token endpoint, for having them optionally
in id_token claims).
oidcop SSO and cookies were not have been implemented because SATOSA does not support logout, because of this they are quite useless at this moment.
MongoDB is the storage, here
some brief descriptions for a demo setup. The interface to SATOSA oidcop
storage is satosa.frontends.oidcop.storage.base.SatosaOidcStorage and it has
three methods:
- get_client_by_id(self, client_id:str, expired:bool = True)
- store_session_to_db(self, session_manager, **kwargs)
- load_session_from_db(self, req_args, http_headers, session_manager, **kwargs)
satosa.frontends.oidcop.storage.mongo.Mongodb overloads them to have I/O
operations on mongodb.
The client configuration can also include the subject_type key,
with permitted values being public and pairwise. If absent, the default is
to choose public. This has been driven by backwards compatibility
with existing behaviour: oidcop (session_manager.create_session)
defaults to public.
For user privacy, we strongly recommend selecting pairwise for
new deployments, unless public is absolutely needed
(for linking users across related but distinct services).
Satosa-Saml2Spid is a custom Satosa configuration to deal with many SAML2 and OIDC Relying parties and many eduGain and SPID Identity Provider.
Feel free to open issues and pull requests, we build communities!
At this time the storage logic is based on oidcop session_manager load/dump/flush methods. Each time a request is handled by an endpoint, the oidcop session manager loads the definition from the storage, only which one are strictly related to the request will be loaded in the in memory storage of oidcop.
- unit tests
- pytest mongo mock
- test response_type = "code id_token token" (hybrid flow)
- auto prune expired sessions with mongodb index (auto prune, mongo index)
- token refresh
- DPoP support
Before you run the tests mind that you've to start a local mongod instance, e.g. with:
sudo docker run \
--rm \
-e ALLOW_EMPTY_PASSWORD=yes \
-e MONGODB_ENABLE_JOURNAL=false \
-p 27017:27017 \
--name mongodb \
bitnami/mongodb:latestIf you like you can use mongo-express as a management UI over the local mongo instance:
sudo docker run \
-e ME_CONFIG_MONGODB_SERVER=$MONGOHOST-OR-DOCKER-BRIDGE-LIKE-172.17.0.1 \
-p 8081:8081 \
mongo-expressThen run the tests:
pip install pytest pytest-cov
pytest --cov=satosa_oidcop -v --cov-report term --cov-fail-under=95 tests/- Giuseppe De Marco @ Università della Calabria
- Roland Hedberg
- Andrea Ranaldi @ ISPRA Ambiente
- Pavel Břoušek @ CESNET
- Identity Python Community