Internet-Draft | OAuth Identity and Authorization Chainin | December 2024 |
Schwenkschuster, et al. | Expires 23 June 2025 | [Page] |
This specification defines a mechanism to preserve identity and authorization information across trust domains that use the OAuth 2.0 Framework.¶
This note is to be removed before publishing as an RFC.¶
Discussion of this document takes place on the Web Authorization Protocol Working Group mailing list (oauth@ietf.org), which is archived at https://mailarchive.ietf.org/arch/browse/oauth/.¶
Source for this draft and an issue tracker can be found at https://github.com/oauth-wg/oauth-identity-chaining.¶
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Applications often require access to resources that are distributed across multiple trust domains where each trust domain has its own OAuth 2.0 authorization server. As a result, developers are often faced with the situation that a protected resource is located in a different trust domain and thus protected by a different authorization server. A request may transverse multiple resource servers in multiple trust domains before completing. All protected resources involved in such a request need to know on whose behalf the request was originally initiated (i.e. the user), what authorization was granted and optionally which other resource servers were called prior to making an authorization decision. This information needs to be preserved, even when a request crosses one or more trust domains. This document refers to this as "chaining" and defines a mechanism for preserving identity and authorization information across domains using a combination of OAuth 2.0 Token Exchange [RFC8693] and JSON Web Token (JWT) Profile for OAuth 2.0 Client Authentication and Authorization Grants [RFC7523].¶
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "NOT RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in BCP 14 [RFC2119] [RFC8174] when, and only when, they appear in all capitals, as shown here.¶
To be added.¶
Authorization Servers SHOULD follow the OAuth 2.0 Security Best Current Practice [I-D.ietf-oauth-security-topics] for client authentication.¶
This sections outlines some use cases where the identity and authorization chaining described in this document can be applied. The use cases described are not exhaustive, but are representative of the type of use cases enabled by this specification. Other use cases may also be supported by this specification.¶
A user attempts to access a service that is implemented as a number of on-premise and cloud-based microservices. Both the on-premise and cloud-based services are segmented by multiple trust boundaries that span one or more on-premise or cloud service environments. Every microservice can apply an authorization policy that takes the context of the original user, as well as intermediary microservices into account, irrespective of where the microservices are running and even when a microservice in one trust domain calls another service in another trust domain.¶
A continuous integration system needs to access external resources, for example to upload an artifact or to run tests. These resources are protected by different authorization servers. The identity information of the build, for example metadata such as commit hashes or repository, should be preserved and carried across the domain boundary. This not just prevents maintaining credentials it also allows fine grained access control at the resource.¶
A home devices company provides a "Camera API" to enable access to home cameras. Partner companies use this Camera API to integrate the camera feeds into their security dashboards. Using OAuth between the partner and the Camera API, a partner can request the feed from a home camera to be displayed in their dashboard. The user has an account with the camera provider. The user may be logged in to view the partner provided dashboard, or they may authorize emergency access to the camera. The home devices company must be able to independently verify that the request originated and was authorized by a user who is authorized to view the feed of the requested home camera.¶
A user that authenticated to an enterprise Identity Provider (IdP) does not have to sign-in to multiple SaaS applications if the SaaS applications are configured to trust the enteprise IdP. It is possible to extend this SSO relationship to API access by allowing the Client to contact the enterprise IdP and exchange the identity assertion (ID Token or SAML Token) that it previously received from the enteprise IdP for an authorization grant. The authorization grant can be used to obtain an access token from the SaaS application's authorization server, provided that a trust relationship has been established between the enterprise IdP which issues the authorization grant and the SaaS authorization server. As a result SaaS servers that trust the enterprise IdP do not require the user to complete an interactive delegated OAuth 2.0 flow to obtain an access token to access the SaaS provider's APIs.¶
This section contains two examples, demonstrating how this specification may be used in different environments with specific requirements. The first example shows the resource server acting as the client and the second example shows the authorization server acting as the client.¶
Resources servers may act as clients if the following is true:¶
Authorization Server B is reachable by the resource server by network and is able to perform the appropriate client authentication (if required).¶
The resource server has the ability to determine the authorization server of the protected resource outside its trust domain.¶
The flow would look like this:¶
The flow contains the following steps:¶
(A) The resource server of domain A needs to access protected resource in Domain B. It requires an access token to do so which it does not possess. In this example [I-D.ietf-oauth-resource-metadata] is used to receive information about the authorization server which protects the resource in domain B. This step MAY be skipped if discovery is not needed and other means of discovery MAY be used. The protected resource returns its metadata along with the authorization server information.¶
(B) Now, after the resource server has identified the authorization server for Domain B, the resource server requests a JWT authorization grant for the authorization server in Domain B from its own authorization server (Domain A). This happens via the token exchange protocol.¶
(C) If successful, the authorization server returns a JWT authorization grant to the resource server.¶
(D) The resource server presents the JWT authorization grant to the authorization server of Domain B.¶
(E) The authorization server of Domain B uses claims from the JWT authorization grant to identify the user and its access. If access is granted an access token is returned.¶
(F) The resource server uses the access token to access the protected resource at Domain B.¶
The editors would like to thank Joe Jubinski, Justin Richer, Aaron Parecki, Dean H. Saxe, and others (please let us know, if you've been mistakenly omitted) for their valuable input, feedback and general support of this work.¶
[[ To be removed from the final specification ]] -latest * Added two more use cases * Editorial updates¶
-02¶
remove recommendation to not use RFC8693's requested_token_type¶
Corrected discrepancy between alphabetic numbering of the diagram and text in the resource acting as client example¶
-01¶
limit the authorization grant format to RFC7523 JWT¶
minor example fixes¶
editorial fixes¶
added Aaron Parecki to acknowledgements¶
renamed section headers to be more explicit¶
use more specific term "JWT authorization grant"¶
changed name to "OAuth Identity and Authorization Chaining Across Domains"¶
move use cases to appendix and add continuous integration use case¶
-00¶
initial working group version (previously draft-schwenkschuster-oauth-identity-chaining)¶