Publish-Subscribe Profile for Authentication and Authorization for Constrained Environments (ACE)

Internet-Draft	ACE Pub-sub Profile	September 2023
Palombini, et al.	Expires 16 March 2024	[Page]

Abstract

This document defines an application profile of the Authentication and Authorization for Constrained Environments (ACE) framework, to enable secure group communication in the Publish-Subscribe (pub/sub) architecture for the Constrained Application Protocol (CoAP) [draft-ietf-core-coap-pubsub], where Publishers and Subscribers communicate through a Broker. This profile relies on protocol-specific transport profiles of ACE to achieve communication security, server authentication, and proof-of-possession for a key owned by the Client and bound to an OAuth 2.0 Access Token. This document specifies the provisioning and enforcement of authorization information for Clients to act as Publishers and/or Subscribers, as well as the provisioning of keying material and security parameters that Clients use for protecting their communications end-to-end through the Broker.¶

Note to RFC Editor: Please replace "[draft-ietf-core-coap-pubsub]" with the RFC number of that document and delete this paragraph.¶

2. Application Profile Overview

This document describes how to use [RFC9200] and [I-D.ietf-ace-key-groupcomm] to perform authentication, authorization, and key distribution operations as overviewed in Section 2 of [I-D.ietf-ace-key-groupcomm], where the considered group is the security group including the pub/sub Clients that exchange end-to-end protected content through the Broker.¶

Pub/sub Clients communicate within their application groups, each of which is mapped to a pub/sub topic. Depending on the application, a pub/sub topic may consist of one or more sub-topics, which may have their own sub-topics and so on, thus forming a hierarchy. A security group SHOULD be associated with a single application group. However, the same application group MAY be associated with multiple security groups. Further details and considerations on the mapping between the two types of groups are out of the scope of this document.¶

This profile considers the architecture shown in Figure 1. A Client can act as a Publisher, or a Subscriber, or both, e.g., by publishing to some topics and subscribing to others. However, for the simplicity of presentation, this profile describes Publisher and Subscriber Clients separately.¶

Both Publishers and Subscribers Clients act as ACE Clients. The Broker acts as an ACE RS, and corresponds to the Dispatcher in [I-D.ietf-ace-key-groupcomm]. The Key Distribution Center (KDC) also acts as an ACE RS, and builds on what is defined for the KDC in [I-D.ietf-ace-key-groupcomm]. From a high-level point of view, the Clients interact with the KDC in order to join security groups, upon which they obtain the group keying material to use for protecting and verifying the content published in the corresponding pub/sub topics and protected end-to-end.¶

             +---------------+   +--------------+
             | Authorization |   |     Key      |
             |    Server     |   | Distribution |
             |      (AS)     |   |    Center    |
             |               |   |    (KDC)     |
             +---------------+   +--------------+
                      ^                  ^
                      |                  |
     +---------(A)----+                  |
     |                                   |
     |   +--------------------(B)--------+
     v   v
+------------+             +------------+
|            | <-- (O) --> |            |
|  Pub/Sub   |             |   Broker   |
|  Client    | <-- (C)---> |            |
|            |             |            |
+------------+             +------------+

Figure 1: Architecture for Pub/Sub with Authorization Server and Key Distribution Center

Both Publisher and Subscriber Clients MUST use the same pub/sub communication protocol for their interaction with the Broker. When using the profile defined in this document, such a protocol MUST be CoAP, which is used as described in [I-D.ietf-core-coap-pubsub]. What is specified in this document can apply to other pub/sub protocols such as MQTT [MQTT-OASIS-Standard-v5], or to further transport protocols.¶

All Publisher and Subscriber Clients MUST use CoAP when communicating with the KDC.¶

Furthermore, both Publisher and Subscriber Clients MUST use the same transport profile of ACE (e.g., [RFC9202] for DTLS; or [RFC9203] or [I-D.ietf-ace-edhoc-oscore-profile] for OSCORE) in their interaction with the Broker. In order to reduce the number of libraries that Clients have to support, it is RECOMMENDED that the same transport profile of ACE is used also for the interaction between the Clients and the KDC.¶

All communications between the involved entities MUST be secured.¶

The Client and the Broker MUST have a secure association, which they establish with the help of the AS and using a transport profile of ACE. This is shown by the interactions A and C in Figure 1. During this process, the Client obtains an Access Token from the AS and uploads it to the Broker, thus providing an evidence of the pub-sub topics that it is authorized to participate in, and with which permissions.¶

The Client and the KDC MUST have a secure association, which they also establish with the help of the AS and using a transport profile of ACE. This is shown by the interactions A and B in Figure 1. During this process, the Client obtains an Access Token from the AS and uploads it to the KDC, thus providing an evidence of the security groups that it can join, as corresponding to the pub/sub topics of interest at the Broker. Based on the permissions specified in the Access Token, the Client can request the KDC to join a security group, after which the Client obtains from the KDC the keying material to use for communicating with the other group members. This builds on the process for joining security groups with ACE defined in [I-D.ietf-ace-key-groupcomm] and further specified in this document.¶

In addition, this profile allows an anonymous Client to perform some of the discovery operations defined in Section 2.3 of [I-D.ietf-core-coap-pubsub] through the Broker, as shows by the interaction O in Figure 1. That is, an anonymous Client can discover:¶

the Broker itself, by relying on the resource type "core.ps" (see Section 2.3.1 of [I-D.ietf-core-coap-pubsub]); and¶
topics of interest at the Broker (i.e., the corresponding topic resources hosted at the Broker), by relying on the resource type "core.ps.conf" (see Section 2.3.2 of [I-D.ietf-core-coap-pubsub]).¶

However, an anonymous Client is not allowed to access topic resources at the Broker and obtain from those any additional information or metadata about the corresponding topic (e.g., the topic status, the URI of the topic-data resource where to publish or subscribe for that topic, or the URI to the KDC).¶

As highlighted in Figure 2, each Client maintains two different security associations pertaining to the pub/sub group communication. On the one hand, the Client has a pairwise security association with the Broker, which, as the ACE RS, verifies that the Client is authorized to publish and/or subscribe on a certain set of topics (Security Association 1). As discussed above, this security association is set up with the help of the AS and using a transport profile of ACE, when the Client obtains the Access Token to upload to the Broker.¶

On the other hand, separately for each topic, all the Publisher and Subscribers for that topic have a common, group security association, through which the published content sent through the Broker is protected end-to-end (Security Association 2). As discussed above, this security association is set up and maintained as the different Clients request the KDC to join the security group, upon which they obtain from the KDC the corresponding group keying material to use for protecting end-to-end and verifying the content of their pub/sub group communication.¶

+------------+             +------------+              +------------+
|            |             |            |              |            |
| Publisher  |             |   Broker   |              | Subscriber |
|            |             |            |              |            |
|            |             |            |              |            |
+------------+             +------------+              +------------+
      :   :                     :   :                      :   :
      :   '----- Security ------'   '------ Security ------'   :
      :        Association 1              Association 1        :
      :                                                        :
      '---------------------- Security ------------------------'
                            Association 2

Figure 2: Security Associations between Publisher, Broker, and Subscriber.

In summary, this profile specifies the following functionalities.¶

A Client obtains the authorization to participate in a pub-sub topic at the Broker with certain permissions. This pertains operations defined in [I-D.ietf-core-coap-pubsub] for taking part in pub/sub group communication with CoAP.¶
A Client obtains the authorization to join a security group with certain permissions. This allows the Client to obtain from the KDC the group keying material for communicating with other group members, i.e., to protect end-to-end and verify the content published at the Broker on pub/sub topics associated with the security group.¶
A Client obtains from the KDC the authentication credentials of other group members, and provides the KDC with its own (updated) authentication credential.¶
A Client leaves the group or is removed from the group by the KDC.¶
The KDC renews and redistributes the group keying material (rekeying), e.g., due to a membership change in the group.¶

Appendix A lists the specifications on this application profile of ACE, based on the requirements defined in Appendix A of [I-D.ietf-ace-key-groupcomm].¶

3. Getting Authorisation to Join a Pub/sub security group (A)

Figure 3 provides a high level overview of the message flow for a Client getting authorisation to join a group. Square brackets denote optional steps. The message flow is expanded in the subsequent sections.¶

Client                                          Broker   AS   KDC
   |                                                 |    |     |
   |[<-------- Discovery of Topic Resource -------->]|    |     |
   |                                                 |    |     |
   |[--------------- Resource Request ------------->]|    |     |
   |[<--------------- AS Information ---------------]|    |     |
   |                                                 |    |     |
   |                                                 |    |     |
   |----- Authorisation Request (Audience: Broker) ------>|     |
   |<---- Authorisation Response (Audience: Broker) ------|     |
   |                                                 |    |     |
   |                                                 |    |     |
   |------ Upload of authorisation information ----->|    |     |
   |<----- Establishment of secure association ----->|    |     |
   |                                                 |    |     |
   |                                                 |    |     |
   |[<-- Discovery of KDC and name of sec. group -->]|    |     |
   |                                                 |    |     |
   |                                                 |    |     |
   |------- Authorisation Request (Audience: KDC) ------->|     |
   |<------ Authorisation Response (Audience: KDC) -------|     |
   |                                                 |    |     |
   |                                                 |    |     |
   |--------- Upload of authorisation information ------------->|
   |<-------- Establishment of secure association ------------->|
   |                                                 |    |     |
   |                                                 |    |     |
   |----- Request to join the security group for the topic ---->|
   |<-------- Keying material for the security group -----------|
   |                                                 |    |     |
   |                                                 |    |     |
   |---------------- Resource Request -------------->|    |     |
   |                                                 |    |     |

Figure 3: Authorisation Flow

Since [RFC9200] recommends the use of CoAP and CBOR, this document describes the exchanges assuming CoAP and CBOR are used.¶

However, using HTTP instead of CoAP is possible, by leveraging the corresponding parameters and methods. Analogously, JSON [RFC8259] can be used instead of CBOR, using the conversion method specified in Sections 6.1 and 6.2 of [RFC8949]. In case JSON is used, the Content-Format of the message has to be changed accordingly. Exact definitions of these exchanges are out of scope for this document.¶

3.1. Topic Discovery at the Broker (Optional)

The discovery of a topic at the Broker can be performed by discovering the corresponding topic resources hosted at the Broker. For example, the Client can send a lookup request to /.well-known/core at the Broker, specifying as lookup criterion the resource type "core.ps.conf" (see Section 2.3.2 of [I-D.ietf-core-coap-pubsub]).¶

Although the links to the topic resources are also specified in the representation of the collection resource at the Broker (see Section 2.4 of [I-D.ietf-core-coap-pubsub]), the Client is not supposed to access such a resource, as intended for administrative operations that are out of the scope of this document.¶

3.2. AS Discovery at the Broker (Optional)

Complementary to what is defined in Section 5.1 of [RFC9200] for AS discovery, the Broker MAY send the address of the AS to the Client in the 'AS' parameter of the AS Request Creation Hints, as a response to an Unauthorized Resource Request (see Section 5.2 of [RFC9200]). An example using CBOR diagnostic notation and CoAP is given below:¶

    4.01 Unauthorized
    Content-Format: application/ace+cbor
    Payload:
    {
     "AS": "coaps://as.example.com/token"
    }

Figure 4: AS Request Creation Hints Example

3.3. KDC Discovery at the Broker (Optional)

Once a Client has obtained an Access Token from the AS and accordingly established a secure association with the Broker, the Client has the permission to access the topic resources at the broker that pertain the topics on which the Client is authorized to operate.¶

In particular the Client is authorized to retrieve the representation of a topic resource, from which the Client can retrieve information related to the topic in question, as specified in Section 2.5 of [I-D.ietf-core-coap-pubsub].¶

This profile extends the set of CoAP Pubsub Parameters that is possible to specify within the representation of a topic resource, as originally defined in Section 3 of [I-D.ietf-core-coap-pubsub]. In particular, this profile defines the following two parameters that the Broker can specify in a response from a topic resource (see Section 2.5 of [I-D.ietf-core-coap-pubsub]). Note that, when these parameters are transported in a their respective field of the message payload, the Content-Format application/core-pubsub+cbor MUST be used.¶

'kdc_uri', with value the URI of the group membership resource at KDC, where Clients can send a request to join the security group associated with the topic in question. The URI is encoded as a CBOR text string. Clients will have to obtain an Access Token from the AS to upload to the KDC, before starting the joining process with the KDC to join the security group.¶
'sec_gp', specifying the name of the security group associated with the topic in question, as a stable and invariant identifier. The name of the security group is encoded as a CBOR text string.¶

Furthermore, the Resource Type (rt=) Link Target Attribute value "core.ps.gm" is registered in Section 8.3 (REQ10), and can be used to describe group-membership resources and its sub-resources at KDC, e.g., by using a link-format document [RFC6690]. As an alternative to the discovery approach defined above and provided by the Broker, applications can use this common resource type to discover links to group-membership resources at the KDC for joining security groups associated with pub/sub topics.¶

3.4. Authorisation Request/Response for the KDC and the Broker

A Client sends two Authorisation Requests to the AS, targeting two different audiences, i.e, the Broker and the KDC.¶

As to the former, the AS handles Authorisation Requests for topics that the Client is allowed to publish and/or subscribe at the Broker, as corresponding to an application group.¶

As to the latter, the AS handles Authorization Requests for security groups that the Client is allowed to join, in order to obtain the group keying material for protecting end-to-end and verifying the content of exchanged pub-sub messages on the associated topics.¶

This section builds on Section 3 of [I-D.ietf-ace-key-groupcomm] and defines only additions or modifications to that specification.¶

Both Authorisation Requests include the following fields (see Section 3.1 of [I-D.ietf-ace-key-groupcomm]):¶

'scope': Optional. If present, it specifies the following information, depending on the specifically targeted audience.¶

If the audience is the Broker, the scope specifies the name of the topics that the Client wishes to access, together with the corresponding permissions. If the audience is the KDC, the scope specifies the name of the security groups that the Client wishes to join, together with the corresponding permissions.¶

This parameter is encoded as a CBOR byte string, whose value is the binary encoding of a CBOR array. The format MUST follow the data model AIF-PUBSUB-GROUPCOMM defined below.¶
'audience': Required identifier corresponding to either the Broker or the KDC.¶

Other additional parameters can be included if necessary, as defined in [RFC9200].¶

When using this profile, it is expected that a one-to-one mapping is enforced between the application group and the security group (see Section 2). If this is not the case, the correct access policies corresponding both sets of scopes have to be available to the AS.¶

3.4.1. Format of Scope

The 'scope' parameter MUST follow the AIF format. (REQ1).¶

Based on the generic AIF model¶

      AIF-Generic<Toid, Tperm> = [* [Toid, Tperm]]

The value of the CBOR byte string used as the scope encodes the CBOR array [* [Toid, Tperm]], where each [Toid, Tperm] element corresponds to one scope entry.¶

This document defines the new AIF specific data model AIF-PUBSUB-GROUPCOMM, that this profile MUST use to format and encode scope entries.¶

The object identifier ("Toid") is a CBOR text string, specifying the name of the application group (topic name) or the corresponding security group.¶
The permission set ("Tperm") is a CBOR unsigned integer, whose value provides permission details associated with this topic's resources at the Broker or associated with this security group at the KDC.¶
- Admin (0): Reserved for scope entries that express permissions for Administrators of Pub/Sub groups.¶
- GroupType (1): Used to indicate whether the Toid indicates an application group or security group. 0 signals an application group, 1 signals a security group.¶
- Publish (1): Concerns the publication of data from the Client to the topic, by means of PUT request to the corresponding data resource at the broker.¶
- Read (2): Concerns the subscription to the topic (i.e., a GET request with Observe option set to 0), or a reading of the latest published data to the topic data resource (i.e., GET request).¶
- Delete (3): Concerns de deletion of the topic data resource (i.e., DELETE request).¶

The set of numbers representing the permissions is converted into a single number by taking two to the power of each method number and computing the inclusive OR of the binary representations of all the power values. Since this application profile considers user-related operations, the scope entries MUST have the least significant bit of "Tperm" set to 0.¶

It must be noted that, when Toid indicates the application group, the Client has always the permission to retrieve the configuration of the topic indicated by Toid (i.e., GET and FETCH requests to the topic resource at the broker).¶

The specific interactions between the Client and the Broker are defined in [I-D.ietf-core-coap-pubsub].¶

  AIF-PUBSUB-GROUPCOMM = AIF-Generic<pubsub-topic, pubsub-perm>
   pubsub-topic = tstr ; Pub/sub topic name
                       ; (the associated security group)

   pubsub-perm = uint .bits pubsub-perm-details

   pubsub-perm-details = &(
    Admin: 0,
    AppGroup: 1
    Publish: 2,
    Read: 3,
    Delete: 4
   )

   scope_entry = [pubsub-topic, pubsub-perm]

Figure 5: Pub/Sub scope using the AIF format

3.5. Authorisation response

The AS responds with an Authorization Response to each request, containing claims, as defined in Section 5.8.2 of [RFC9200] and Section 3.2 of [I-D.ietf-ace-key-groupcomm] with the following additions:¶

The AS MUST include the 'expires_in' parameter. Other means for the AS to specify the lifetime of Access Tokens are out of the scope of this document.¶
The AS MUST include the 'scope' parameter, when the value included in the Access Token differs from the one specified by the joining node in the Authorization Request. In such a case, the second element of each scope entry MUST be present, and specifies the set of interactions that the joining node is authorized for that scope entry, encoded as specified in Section 3.4.¶

Furthermore, the AS MAY use the extended format of scope defined in Section 7 of [I-D.ietf-ace-key-groupcomm] for the 'scope' claim of the Access Token. In such a case, the AS MUST use the CBOR tag with tag number TAG_NUMBER, associated with the CoAP Content-Format CF_ID for the media type application/aif+cbor registered in Section 8.5 of this document (REQ28).¶

Note to RFC Editor: In the previous paragraph, please replace "TAG_NUMBER" with the CBOR tag number computed as TN(ct) in Section 4.3 of [RFC9277], where ct is the ID assigned to the CoAP Content-Format registered in Section 8.5 of this document. Then, please replace "CF_ID" with the ID assigned to that CoAP Content-Format. Finally, please delete this paragraph.¶

This indicates that the binary encoded scope follows the scope semantics defined for this application profile in Section 3.4.1 of this document.¶

3.6. Token Transfer to KDC

After receiving a token from the AS, the Client transfers the token to the KDC using one of the methods defined Section 3.3 [I-D.ietf-ace-key-groupcomm]. This typically includes sending a POST request to the authz-info endpoint. However, if using the DTLS transport profile of ACE [RFC9202] and the client uses a symmetric proof-of-possession key in the DTLS handshake, the Client MAY provide the access token to the KDC in the "psk_identity" field of the DTLS ClientKeyExchange message when using DTLS 1.2 [RFC6347], or in the "identity" field of a PskIdentity within the PreSharedKeyExtension of the ClientHello message when using DTLS 1.3 [RFC9147]. In addition to that, the following applies.¶

In the token transfer response to the Publisher Clients, i.e., the Clients whose scope of the access token includes the "Publish" permission, the KDC MUST include the parameter 'kdcchallenge' in the CBOR map. 'kdcchallange' is a challenge N_S generated by the KDC, and is RECOMMENDED to be a 8-byte long random nonce. Later when joining the group, the Publisher Client can use the 'kdcchallenge' as part of proving possession of its private key (see [I-D.ietf-ace-key-groupcomm]). If a Publisher Client provides the Access Token to the KDC through an authz-info endpoint, the Client MUST support the parameter 'kdcchallenge'.¶

If 'sign_info' is included in the Token Transfer Request, the KDC SHOULD include the 'sign_info' parameter in the Token Transfer Response. Note that the joining node may have obtained such information by alternative means e.g., the 'sign_info' may have been pre-configured (OPT3).¶

The following applies for each element 'sign_info_entry'.¶

'sign_alg' MUST take value from the "Value" column of one of the recommended algorithms in the "COSE Algorithms" registry [IANA.cose_algorithms] (REQ3).¶
'sign_parameters' is a CBOR array. Its format and value are the same of the COSE capabilities array for the algorithm indicated in 'sign_alg' under the "Capabilities" column of the "COSE Algorithms" registry [IANA.cose_algorithms] (REQ4).¶
'sign_key_parameters' is a CBOR array. Its format and value are the same of the COSE capabilities array for the COSE key type of the keys used with the algorithm indicated in 'sign_alg', as specified for that key type in the "Capabilities" column of the "COSE Key Types" registry [IANA.cose_key-type] (REQ5).¶
'cred_fmt' takes value from the "Label" column of the "COSE Header Parameters" registry [IANA.cose_header-parameters] (REQ6). Acceptable values denote a format of authentication credential that MUST explicitly provide the public key as well as the comprehensive set of information related to the public key algorithm, including, e.g., the used elliptic curve (when applicable). Acceptable formats of authentication credentials include CBOR Web Tokens (CWTs) and CWT Claims Sets (CCSs) [RFC8392], X.509 certificates [RFC7925] and C509 certificates [I-D.ietf-cose-cbor-encoded-cert]. Future formats would be acceptable to use as long as they comply with the criteria defined above.¶

4. Client Group Communication Interface at the KDC

The Pub/Sub clients uses the following KDC resources to enable group communication:¶

Table 1
KDC resource	Description	Operations
/ace-group	Required. Contains a set of group names, each corresponding to one of the specified group identifiers	FETCH (All Clients)
/ace-group/GROUPNAME	Required. Contains symmetric group keying material associated with GROUPNAME	GET, POST (All)
/ace-group/GROUPNAME/creds	Required. Contains the authentication credentials of all the Publisher members of the group with name GROUPNAME	GET, FETCH (All)
/ace-group/GROUPNAME/num	Required. Contains the current version number for the symmetric group keying material of the group with name GROUPNAME	GET (All)
/ace-group/GROUPNAME/nodes/NODENAME	Required. Contains the group keying material for that group member NODENAME in GROUPNAME.	GET, DELETE (All). PUT (Pub).
/ace-group/GROUPNAME/nodes/NODENAME/cred	Required. Authentication credential for NODENAME in the group GROUPNAME	POST (Pub)
/ace-group/GROUPNAME/kdc-cred	MUST be hosted if a group re-keying mechanism is used. Contains the authentication credential of the KDC for the group with name GROUPNAME.	GET (All)
/ace-group/GROUPNAME/policies	Optional. Contains the group policies of the group with name GROUPNAME.	GET (All)

Note that the use of these resources follows what is defined in [I-D.ietf-ace-key-groupcomm], and only additions or modifications to that specification are defined in this document.¶

4.1. Joining a Security Group

This section describes the interactions between the joining node and the KDC to join a security group. Source authentication of a message sent within the group is ensured by means of a digital signature embedded in the message. Subscribers must be able to retrieve Publishers' authentication credentials from a trusted repository, to verify source authenticity of received messages. Hence, on joining a group, a Publisher node is expected to provide its own authentication credential to the KDC.¶

On a successful join, the Clients receive the symmetric COSE Key from the KDC to protect the payload of a published topic data.¶

The message exchange between the joining node and the KDC follows what is defined in Section 4.3.1.1 of [I-D.ietf-ace-key-groupcomm] and only additions or modifications to that specification are defined in this document.¶

   Client                               KDC
      |----- Join Request (CoAP) ------>|
      |                                 |
      |<-----Join Response (CoAP) ------|

Figure 6: Join Flow

4.1.1. Join Request

After establishing a secure communication, the Client sends a Join Request to the KDC as described in Section 4.3 of [I-D.ietf-ace-key-groupcomm]. More specifically, the Client sends a POST request to the /ace-group/GROUPNAME endpoint, with Content-Format "application/ace-groupcomm+cbor". The payload MUST contain the following information formatted as a CBOR map, which MUST be encoded as defined in Section 4.3.1 of [I-D.ietf-ace-key-groupcomm]:¶

'scope': Required. MUST be set to the specific group that the Client is attempting to join, i.e., the group name, and the permissions it wishes to have in the group. This value corresponds to one scope entry, as defined in Section 3.4.1.¶
'get_creds': Optional, present if the Subcriber Client wants to retrieve the public keys of all the Publisher Clients upon joining. Otherwise, this parameter MUST NOT be present. If the parameter is present, the parameter MUST encode the CBOR simple value "null" (0xf6). Note that no 'role_filter' is necessary as KDC returns the authentication credentials of Publisher Clients by default.¶
'client_cred': The use of this parameter is detailed in Section 4.1.1.1.¶
'cnonce': Optional, MUST be present if 'client_cred' is present. It is a dedicated nonce N_C generated by the Client. It is RECOMMENDED to use a 8-byte long random nonce. Join Requests MUST include a new 'cnonce' at each join attempt.¶
'client_cred_verify': Optional, MUST be present if 'client_cred' is present. The use of this parameter is detailed in Section 4.1.1.2.¶

As a Publisher Client has its own authentication credential to use in a group, it MUST support client_cred', 'cnonce', 'client_cred_verify' parameters.¶

4.1.1.1. Client Credentials-'client_cred'

One of the following cases can occur when a new node attempts to join a group.¶

The joining node isn't a Publisher Client, i.e., it is not going to send messages to the group. In this case, the joining node is not required to provide its own authentication credential to the KDC. In case the joining node still provides an authentication credential in the 'client_cred' parameter of the Join Request (see Section 4.1.1), the KDC silently ignores that parameter, as well as the related parameters 'cnonce' and 'client_cred_verify'.¶
The joining node is a Publisher Client, and¶
- the KDC already acquired the authentication credential of the joining node either during a past group joining process, or during establishing a secure communication association, and the joining node and the KDC use a symmetric proof-of-possession key. If the authentication credential and the proof-of-possession key are compatible with the signature or ECDH algorithm, and possible associated parameters, then the key can be used for the authentication credential in the group. In this case, the joining node MAY choose not to provide again its own authentication credential to the KDC, in order to limit the size of the Join Request.¶
- the KDC hasn't acquired an authentication credential. Then, the joining node MUST provide a compatible authentication credential in the 'client_cred' parameter of the Join Request (see Section 4.1.1).¶

Finally, the joining node MUST provide its own authentication credential again if it has provided the KDC with multiple authentication credentials during past joining processes intended for different groups. If the joining node provides its own authentication credential, the KDC performs consistency checks as per Section 4.1.1 and, in case of success, considers it as the authentication credential associated with the joining node in the group.¶

4.1.1.2. Proof-of-Possession

The 'client_cred_verify' parameter contains the proof-of-possession evidence, and is computed as defined below (REQ14).¶

The Publisher signs the scope, concatenated with N_S and concatenated with N_C using the private key corresponding to the public key in the 'client_cred' parameter.¶

The N_S may be either:¶

The challenge received from the KDC in the 'kdcchallenge' parameter of the 2.01 (Created) response to the Token Transfer Request (see Section 3.6).¶
If the Publisher Client used a symmetric proof-of-possession key in the DTLS handshake [RFC9202] with the KDC, then it is an exporter value computed as defined in Section 7.5 of [RFC8446]. Specifically, N_S is exported from the DTLS session between the joining node and the KDC, using an empty 'context_value', 32 bytes as 'key_length', and the exporter label "EXPORTER-ACE-Sign-Challenge-coap-group-pubsub-app" defined in Section 8.6 of this document.¶
If the Join Request is a retry in response to an error response from the KDC, which included a new 'kdcchallenge' parameter, N_S MUST be this new challenge parameter.¶

4.1.2. Join Response

On receiving the Join Request, the KDC processes the request as defined in Section 4.3.1 of [I-D.ietf-ace-key-groupcomm], and may return a success or error response.¶

If the 'client_cred' field is present, the KDC verifies the signature in the 'client_cred_verify'. As PoP input, the KDC uses the value of the 'scope' parameter from the Join Request as a CBOR byte string, concatenated with N_S encoded as a CBOR byte string, concatenated with N_C encoded as a CBOR byte string. As public key of the joining node, the KDC uses either the one included in the authentication credential retrieved from the 'client_cred' parameter of the Join Request or the already stored authentication credential from previous interactions with the joining node. The KDC verifies the PoP evidence, which is a signature, by using the public key of the joining node, as well as the signature algorithm used in the group and possible corresponding parameters.¶

For a Publisher Client, the KDC assigns an available Sender ID that has not been used in the group. The KDC MUST NOT assign a Sender ID to the joining node if the node isn't a Publisher Client. The Sender ID MUST be unique within the group. Similar to [RFC8613], the Sender ID can be short: the maximum length of Sender ID in bytes equals the length of the AEAD nonce minus 6; for AES-CCM-16-64-128 the maximum length of Sender ID is 7 bytes.¶

In the case of any join request error, the KDC and the Client attempting to join follow the procedure defined in Section 4.1.3.¶

In the case of success, the Client is added to the list of current members, if not already a member. The Client is assigned a NODENAME and a sub-resource /ace-group/GROUPNAME/nodes/NODENAME. NODENAME is associated to the access token and secure session of the Client. Publishers' client credentials are also associated with the tuple containing NODENAME, GROUPNAME, a newly assigne sender ID and the access token. Note that, as long as the secure association between the client and the KDC persists, then the same client re-joining the group is recognized by the KDC by virtue of their secure association. As a consequence, the re-joining client keeps the same NODENAME and related subresource /ace-group/GROUPNAME/nodes/NODENAME, while receiving a new Sender ID according to the same criteria above.¶

The KDC responds with a Join Response with response code 2.01 (Created) if the Client has been added to the list of group members, and 2.04 (Changed) otherwise (e.g., if the Client is re-joining). The Content-Format is "application/ace-groupcomm+cbor". The payload (formatted as a CBOR map) MUST contain the following fields from the Join Response and encode them as defined in Section 4.3.1 of [I-D.ietf-ace-key-groupcomm]:¶

'gkty': the key type "Group_PubSub_Keying_Material" for the 'key' parameter defined in Section 8.1 of this document.¶
'key': The keying material for group communication includes:¶
- 'group_SenderId', specifying the Client's Sender ID encoded as a CBOR byte string. This field MUST be included if the Client is a Publisher, and MUST NOT be included otherwise.¶
- 'cred_fmt' parameter, specifiying the format of authentication credentials used in the group. This parameter takes its value from the "Label" column of the "COSE Header Parameters" registry [IANA.cose_header-parameters]. At the time of writing this specification, acceptable formats of authentication credentials are CBOR Web Tokens (CWTs) and CWT Claims Sets (CCSs) [RFC8392], X.509 certificates [RFC7925] and C509 certificates [I-D.ietf-cose-cbor-encoded-cert]. Further formats may be available in the future, and would be acceptable to use as long as they comply with the criteria defined above (REQ6).¶
- 'sign_alg' parameter, specifying the Signature Algorithm used to sign messages in the group. This parameter takes values from the "Value" column of the "COSE Algorithms" registry [IANA.cose_algorithms].¶
- 'sign_params' parameter, specifying the parameters of the Signature Algorithm. This parameter is a CBOR array, which includes the following two elements: 'sign_alg_capab' and 'sign_key_type_capab'.¶
  - 'sign_alg_capab'is a CBOR array, with the same format and value of the COSE capabilities array for the Signature Algorithm indicated in 'sign_alg', as specified for that algorithm in the "Capabilities" column of the "COSE Algorithms" registry [IANA.cose_algorithms].¶
  - 'sign_key_type_capab' is a CBOR array, with the same format and value of the COSE capabilities array for the COSE key type of the keys used with the Signature Algorithm indicated in 'sign_alg', as specified for that key type in the "Capabilities" column of the "COSE Key Types" registry [IANA.cose_key-type].¶
- and a "COSE_Key", specifying a "COSE_Key" object as defined in [RFC9052] [RFC9053] and containing:'kty' with value 4 (symmetric), 'kid', 'alg' and 'Base IV' with value defined by the KDC, and 'k', specifying the value of the symmetric key (REQ17). ToDo:The 'kid' is a CBOR byte string encoding the Gid of the group.¶
'num': the version number of the keying material specified in the 'key' field (with initial value set to 0 on creation of the group)¶
'exp', MUST be present.¶
'ace-groupcomm-profile' parameter MUST be present and has value "coap_group_pubsub_app" (PROFILE_TBD), which is defined in Section 8.2 of this document.¶
'creds', MUST be present, if the 'get_creds' parameter was present. Otherwise, it MUST NOT be present. The KDC provides the authentication credentials of all the Publisher Clients in the group.¶
'peer_roles' MUST be present if 'creds' is also present. Otherwise, it MUST NOT be present. (ToDo: Requested a change for this, and see how the Groupcomm draft is updated.)¶
'peer_identifiers' MUST be present if 'creds' is also present. Otherwise, it MUST NOT be present. The identifiers are the Publisher Sender IDs whose authentication credential is specified in the 'creds' parameter (REQ 25).¶
'kdc_cred', MUST be present if group re-keying is used, and encoded as a CBOR byte string, with value the original binary representation of the KDC's authentication credential (REQ8).¶
'kdc_nonce', MUST be present, if 'kdc_cred' is present and encoded as a CBOR byte string, and including a dedicated nonce N_KDC generated by the KDC. For N_KDC, it is RECOMMENDED to use a 8-byte long random nonce.¶
'kdc_cred_verify' MUST be present, if 'kdc_cred' is present and encoded as a CBOR byte string. The PoP evidence is computed over the nonce N_KDC, which is specified in the 'kdc_nonce' parameter and taken as PoP input. KDC MUST compute the signature by using the signature algorithm used in the group, as well as its own private key associated with the authentication credential specified in the 'kdc_cred' parameter (REQ21).¶
'group_rekeying': MAY be omitted, if the KDC uses the "Point-to-Point" group rekeying scheme registered in Section 11.12 of [I-D.ietf-ace-key-groupcomm] as the default rekeying scheme in the group (OPT9). In any other case, the 'group_rekeying' parameter MUST be included.¶

A Publisher Client MUST support 'group_SenderId' parameter (REQ29).¶

If the application requires backward security, the KDC MUST generate updated security parameters and group keying material, and provide it to the current group members, upon the new node's joining (see Section 4.2.4). In such a case, the joining node is not able to access secure communication in the pubsub group prior its joining.¶

Upon receiving the Join Response, the joining node retrieves the KDC's authentication credential from the 'kdc_cred' parameter. The joining node MUST verify the proof-of-possession (PoP) evidence, which is a signature, specified in the 'kdc_cred_verify' parameter of the Join Response (REQ21).¶

4.1.3. Join Error Handling

The KDC MUST reply with a 4.00 (Bad Request) error response to the Join Request in the following cases:¶

The 'client_cred' parameter is present in the Join Request and its value is not an eligible authentication credential (e.g., it is not of the format accepted in the group) (OPT8).¶
The 'client_cred' parameter is present but does not include both the 'cnonce' and 'client_cred_verify' parameters.¶
The 'client_cred' parameter is not present while the joining node is not going to join the group exclusively as a Subscriber, and any of the following conditions holds:¶
- The KDC does not store an eligible authentication credential (e.g., of the format accepted in the group) for the joining node.¶
- The KDC stores multiple eligible authentication credentials (e.g., of the format accepted in the group) for the joining node.¶
The 'scope' parameter is not present in the Join Request, or it is present and specifies any set of permissions not included in the list defined in Section 3.4.1.¶

A 4.00 (Bad Request) error response from the KDC to the joining node MAY have content format application/ace-groupcomm+cbor and contain a CBOR map as payload. The CBOR map MAY include the 'kdcchallenge' parameter. If present, this parameter is a CBOR byte string, which encodes a newly generated 'kdcchallenge' value that the Client can use when preparing a new Join Request. In such a case the KDC MUST store the newly generated value as the 'kdcchallenge' value associated with the joining node, possibly replacing the currently stored value.¶

On receiving the Join Response, if 'kdc_cred' is present but the Client cannot verify the PoP evidence, the Client MUST stop processing the Join Response and MAY send a new Join Request to the KDC.¶

The Group Manager MUST return a 5.03 (Service Unavailable) response to a Publisher's join request in case there are currently no Sender IDs available.¶

4.2. Other Group Operations through the KDC

4.2.1. Querying for Group Information

'/ace-group': All Clients send FETCH requests to retrieve a set of group names associated with their group identifiers. ToDo:Each element of the CBOR array 'gid' is a CBOR byte string (REQ13), which encodes the Gid of the group for which the group name and the URI to the group-membership resource are provided.¶
'/ace-group/GROUPNAME': All Clients can use GET requests to retrieve the symmetric group keying material of the group with the name GROUPNAME. The value of the GROUPNAME URI path and the group name in the access token scope ('gname') MUST coincide.¶
'/ace-group/GROUPNAME/creds': KDC acts as a repository of authentication credentials for Publisher Clients. The Subscriber Clients of the group use GET/FETCH requests to retrieve the authentication credentials of all or a subset of the group members of the group with name GROUPNAME. The KDC silently ignores the Sender IDs included in the 'get_creds' parameter of the request that are not associated with any current group member (REQ26).¶
'/ace-group/GROUPNAME/num': All group member Clients use GET requests to retrieve the current version number for the symmetric group keying material of the group with name GROUPNAME.¶
'/ace-group/GROUPNAME/kdc-cred': All group member Clients use GET requests to retrieve the current authentication credential of the KDC.¶

4.2.2. Updating Authentication Credentials

A Publisher Client can contact the KDC to upload a new authentication credential to use in the group, and replace the currently stored one. To this end, it sends a CoAP POST request to the /ace-group/GROUPNAME/nodes/NODENAME/cred. The KDC replaces the stored authentication credential of this Client (identified by NODENAME) with the one specified in the request at the KDC, for the group identified by GROUPNAME.¶

4.2.3. Removal from a Group

A Client can actively request to leave the group. In this case, the Client sends a CoAP DELETE request to the endpoint /ace-group/GROUPNAME/nodes/NODENAME at the KDC, where GROUPNAME is the group name and NODENAME is its node name. KDC can also remove a group member due to any of the reasons described in Section 5 of [I-D.ietf-ace-key-groupcomm].¶

4.2.4. Rekeying a Group

The KDC MUST trigger a group rekeying as described in Section 6 of [I-D.ietf-ace-key-groupcomm] due to a change in the group membership or the current group keying material approaching its expiration time. KDC MAY trigger regularly scheduled update of the group keying material.¶

Upon generating the new group keying material and before starting its distribution, the KDC MUST increment the version number of the group keying material. The KDC MUST preserve the current value of the Sender ID of each member in that group.¶

Default rekeying scheme is Point-to-point (Section 6.1 of [I-D.ietf-ace-key-groupcomm]), where KDC individually targets each node to rekey, using the pairwise secure communication association with that node.¶

If the group rekeying is performed due to one or multiple Publisher Clients that have joined the group, then a rekeying message includes sender IDs, and authentication credentials that the Publisher Clients use in the group. This information is specified by means of the parameters 'creds' and 'peer_identifiers', like done in the Join Response message (i.e., 'peer_roles' MAY be omitted).¶

9. References

9.1. Normative References

[I-D.ietf-ace-key-groupcomm]: Palombini, F. and M. Tiloca, "Key Provisioning for Group Communication using ACE", Work in Progress, Internet-Draft, draft-ietf-ace-key-groupcomm-16, 5 September 2022, <https://datatracker.ietf.org/doc/html/draft-ietf-ace-key-groupcomm-16>.
[I-D.ietf-core-coap-pubsub]: Koster, M., Keränen, A., and J. Jimenez, "A publish-subscribe architecture for the Constrained Application Protocol (CoAP)", Work in Progress, Internet-Draft, draft-ietf-core-coap-pubsub-12, 13 March 2023, <https://datatracker.ietf.org/doc/html/draft-ietf-core-coap-pubsub-12>.
[I-D.ietf-cose-cbor-encoded-cert]: Mattsson, J. P., Selander, G., Raza, S., Höglund, J., and M. Furuhed, "CBOR Encoded X.509 Certificates (C509 Certificates)", Work in Progress, Internet-Draft, draft-ietf-cose-cbor-encoded-cert-06, 7 July 2023, <https://datatracker.ietf.org/doc/html/draft-ietf-cose-cbor-encoded-cert-06>.
[IANA.cose_algorithms]: IANA, "COSE Algorithms", <http://www.iana.org/assignments/cose>.
[IANA.cose_header-parameters]: IANA, "COSE Header Parameters", <http://www.iana.org/assignments/cose>.
[IANA.cose_key-type]: IANA, "COSE Key Types", <http://www.iana.org/assignments/cose>.
[RFC2119]: Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997, <https://www.rfc-editor.org/rfc/rfc2119>.
[RFC5705]: Rescorla, E., "Keying Material Exporters for Transport Layer Security (TLS)", RFC 5705, DOI 10.17487/RFC5705, March 2010, <https://www.rfc-editor.org/rfc/rfc5705>.
[RFC6347]: Rescorla, E. and N. Modadugu, "Datagram Transport Layer Security Version 1.2", RFC 6347, DOI 10.17487/RFC6347, January 2012, <https://www.rfc-editor.org/rfc/rfc6347>.
[RFC6690]: Shelby, Z., "Constrained RESTful Environments (CoRE) Link Format", RFC 6690, DOI 10.17487/RFC6690, August 2012, <https://www.rfc-editor.org/rfc/rfc6690>.
[RFC6749]: Hardt, D., Ed., "The OAuth 2.0 Authorization Framework", RFC 6749, DOI 10.17487/RFC6749, October 2012, <https://www.rfc-editor.org/rfc/rfc6749>.
[RFC7252]: Shelby, Z., Hartke, K., and C. Bormann, "The Constrained Application Protocol (CoAP)", RFC 7252, DOI 10.17487/RFC7252, June 2014, <https://www.rfc-editor.org/rfc/rfc7252>.
[RFC7925]: Tschofenig, H., Ed. and T. Fossati, "Transport Layer Security (TLS) / Datagram Transport Layer Security (DTLS) Profiles for the Internet of Things", RFC 7925, DOI 10.17487/RFC7925, July 2016, <https://www.rfc-editor.org/rfc/rfc7925>.
[RFC8174]: Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174, May 2017, <https://www.rfc-editor.org/rfc/rfc8174>.
[RFC8392]: Jones, M., Wahlstroem, E., Erdtman, S., and H. Tschofenig, "CBOR Web Token (CWT)", RFC 8392, DOI 10.17487/RFC8392, May 2018, <https://www.rfc-editor.org/rfc/rfc8392>.
[RFC8446]: Rescorla, E., "The Transport Layer Security (TLS) Protocol Version 1.3", RFC 8446, DOI 10.17487/RFC8446, August 2018, <https://www.rfc-editor.org/rfc/rfc8446>.
[RFC8447]: Salowey, J. and S. Turner, "IANA Registry Updates for TLS and DTLS", RFC 8447, DOI 10.17487/RFC8447, August 2018, <https://www.rfc-editor.org/rfc/rfc8447>.
[RFC8613]: Selander, G., Mattsson, J., Palombini, F., and L. Seitz, "Object Security for Constrained RESTful Environments (OSCORE)", RFC 8613, DOI 10.17487/RFC8613, July 2019, <https://www.rfc-editor.org/rfc/rfc8613>.
[RFC8949]: Bormann, C. and P. Hoffman, "Concise Binary Object Representation (CBOR)", STD 94, RFC 8949, DOI 10.17487/RFC8949, December 2020, <https://www.rfc-editor.org/rfc/rfc8949>.
[RFC9052]: Schaad, J., "CBOR Object Signing and Encryption (COSE): Structures and Process", STD 96, RFC 9052, DOI 10.17487/RFC9052, August 2022, <https://www.rfc-editor.org/rfc/rfc9052>.
[RFC9053]: Schaad, J., "CBOR Object Signing and Encryption (COSE): Initial Algorithms", RFC 9053, DOI 10.17487/RFC9053, August 2022, <https://www.rfc-editor.org/rfc/rfc9053>.
[RFC9147]: Rescorla, E., Tschofenig, H., and N. Modadugu, "The Datagram Transport Layer Security (DTLS) Protocol Version 1.3", RFC 9147, DOI 10.17487/RFC9147, April 2022, <https://www.rfc-editor.org/rfc/rfc9147>.
[RFC9200]: Seitz, L., Selander, G., Wahlstroem, E., Erdtman, S., and H. Tschofenig, "Authentication and Authorization for Constrained Environments Using the OAuth 2.0 Framework (ACE-OAuth)", RFC 9200, DOI 10.17487/RFC9200, August 2022, <https://www.rfc-editor.org/rfc/rfc9200>.
[RFC9237]: Bormann, C., "An Authorization Information Format (AIF) for Authentication and Authorization for Constrained Environments (ACE)", RFC 9237, DOI 10.17487/RFC9237, August 2022, <https://www.rfc-editor.org/rfc/rfc9237>.
[RFC9277]: Richardson, M. and C. Bormann, "On Stable Storage for Items in Concise Binary Object Representation (CBOR)", RFC 9277, DOI 10.17487/RFC9277, August 2022, <https://www.rfc-editor.org/rfc/rfc9277>.
[RFC9338]: Schaad, J., "CBOR Object Signing and Encryption (COSE): Countersignatures", STD 96, RFC 9338, DOI 10.17487/RFC9338, December 2022, <https://www.rfc-editor.org/rfc/rfc9338>.

9.2. Informative References

[I-D.draft-ietf-ace-revoked-token-notification]: Tiloca, M., Palombini, F., Echeverria, S., and G. Lewis, "Notification of Revoked Access Tokens in the Authentication and Authorization for Constrained Environments (ACE) Framework", Work in Progress, Internet-Draft, draft-ietf-ace-revoked-token-notification-06, 2 June 2023, <https://datatracker.ietf.org/doc/html/draft-ietf-ace-revoked-token-notification-06>.
[I-D.ietf-ace-edhoc-oscore-profile]: Selander, G., Mattsson, J. P., Tiloca, M., and R. Höglund, "Ephemeral Diffie-Hellman Over COSE (EDHOC) and Object Security for Constrained Environments (OSCORE) Profile for Authentication and Authorization for Constrained Environments (ACE)", Work in Progress, Internet-Draft, draft-ietf-ace-edhoc-oscore-profile-02, 7 July 2023, <https://datatracker.ietf.org/doc/html/draft-ietf-ace-edhoc-oscore-profile-02>.
[I-D.ietf-ace-key-groupcomm-oscore]: Tiloca, M., Park, J., and F. Palombini, "Key Management for OSCORE Groups in ACE", Work in Progress, Internet-Draft, draft-ietf-ace-key-groupcomm-oscore-16, 6 March 2023, <https://datatracker.ietf.org/doc/html/draft-ietf-ace-key-groupcomm-oscore-16>.
[I-D.ietf-ace-mqtt-tls-profile]: Sengul, C. and A. Kirby, "Message Queuing Telemetry Transport (MQTT) and Transport Layer Security (TLS) Profile of Authentication and Authorization for Constrained Environments (ACE) Framework", Work in Progress, Internet-Draft, draft-ietf-ace-mqtt-tls-profile-17, 23 March 2022, <https://datatracker.ietf.org/doc/html/draft-ietf-ace-mqtt-tls-profile-17>.
[MQTT-OASIS-Standard-v5]: Banks, A., Briggs, E., Borgendale, K., and R. Gupta, "OASIS Standard MQTT Version 5.0", 2017, <http://docs.oasis-open.org/mqtt/mqtt/v5.0/os/mqtt-v5.0-os.html>.
[RFC8259]: Bray, T., Ed., "The JavaScript Object Notation (JSON) Data Interchange Format", STD 90, RFC 8259, DOI 10.17487/RFC8259, December 2017, <https://www.rfc-editor.org/rfc/rfc8259>.
[RFC9202]: Gerdes, S., Bergmann, O., Bormann, C., Selander, G., and L. Seitz, "Datagram Transport Layer Security (DTLS) Profile for Authentication and Authorization for Constrained Environments (ACE)", RFC 9202, DOI 10.17487/RFC9202, August 2022, <https://www.rfc-editor.org/rfc/rfc9202>.
[RFC9203]: Palombini, F., Seitz, L., Selander, G., and M. Gunnarsson, "The Object Security for Constrained RESTful Environments (OSCORE) Profile of the Authentication and Authorization for Constrained Environments (ACE) Framework", RFC 9203, DOI 10.17487/RFC9203, August 2022, <https://www.rfc-editor.org/rfc/rfc9203>.

Appendix A. Requirements on Application Profiles

This section lists the specifications on this profile based on the requirements defined in Appendix A of [I-D.ietf-ace-key-groupcomm].¶

REQ1: Specify the format and encoding of 'scope'. : See Section 3.4.1.¶
REQ2: If the AIF format of 'scope' is used, register its specific instance of "Toid" and "Tperm" as Media Type parameters and a corresponding Content-Format, as per the guidelines in [RFC9237].:See Section 8.4.¶
REQ3: If used, specify the acceptable values for 'sign_alg': values from the "Value" column of the "COSE Algorithms" registry [IANA.cose_algorithms].¶
REQ4: If used, specify the acceptable values for 'sign_parameters': format and values from the COSE algorithm capabilities as specified in the "COSE Algorithms" registry [IANA.cose_algorithms].¶
REQ5: If used, specify the acceptable values for 'sign_key_parameters' : Its format and value are the same of the COSE capabilities array for the COSE key type of the keys used with the algorithm indicated in 'sign_alg', as specified for that key type in the "Capabilities" column of the "COSE Key Types" registry [IANA.cose_key-type].¶
REQ6: Specify the acceptable formats for authentication credentials and, if used, the acceptable values for 'cred_fmt': Acceptable formats explicitly provide the public key as well as the comprehensive set of information related to the public key algorithm. Takes value from the "Label" column of the "COSE Header Parameters" registry [IANA.cose_header-parameters].¶
REQ7: If the value of the GROUPNAME URI path and the group name in the access token scope (gname) are not required to coincide, specify the mechanism to map the GROUPNAME value in the URI to the group name: not applicable; a perfect matching is required.¶
REQ8: Define whether the KDC has an authentication credential and if this has to be provided through the 'kdc_cred' parameter : Optional, see Section 4.1.2 of this document.¶
REQ9: Specify if any part of the KDC interface as defined in [I-D.ietf-ace-key-groupcomm] is not supported by the KDC: Some left optional, see Section 4 of this document.¶
REQ10: Register a Resource Type for the root url-path, which is used to discover the correct url to access at the KDC : the Resource Type (rt=) Link Target Attribute value "core.ps.gm" is registered in Section Section 8.3. ToDo: This possibly will not stay as the final method, KDC discovery done differently through topic discovery?¶
REQ11: Define what specific actions (e.g., CoAP methods) are allowed on each resource provided by the KDC interface, depending on whether the Client is a current group member; the roles that a Client is authorized to take as per the obtained access token; and the roles that the Client has as current group member.: See Section 4 of this document.¶
REQ12: Categorize possible newly defined operations for Clients into primary operations expected to be minimally supported and secondary operations, and provide accompanying considerations: None added.¶
REQ13: Specify the encoding of group identifier: CBOR byte string, see Section 4.2.1.¶
REQ14: Specify the approaches used to compute and verify the PoP evidence to include in 'client_cred_verify', and which of those approaches is used in which case: See Section 4.1.1.2 in this document.¶
REQ15: Specify how the nonce N_S is generated, if the token is not provided to the KDC through the Token Transfer Request to the authz-info endpoint (e.g., if it is used directly to validate TLS instead): See Section 4.1.1.2 in this document.¶
REQ16: Define the initial value of the 'num' parameter: The initial value MUST be set to 0.¶
REQ17: Specify the format of the 'key' parameter: See Section 4.1.2.¶
REQ18: Specify the acceptable values of the 'gkty' parameter: Group_PubSub_Keying_Material, see Section 8.1.¶
REQ19: Specify and register the application profile identifier: coap_group_pubsub_app, see Section 8.2.¶
REQ20: If used, specify the format and content of 'group_policies' and its entries. Specify the policies default values: ToDo.¶
REQ21: Specify the approaches used to compute and verify the PoP evidence to include in 'kdc_cred_verify', and which of those approaches is used in which case: see Section 4.1.2.¶
REQ22: Specify the communication protocol the members of the group must use.: CoAP [RFC7252], and for pub/sub communication [I-D.ietf-core-coap-pubsub]¶
REQ23: Specify the security protocol the group members must use to protect their communication. This must provide encryption, integrity and replay protection.: Symmetric COSE Key is used to create a COSE_Encrypt0 object with an AEAD algorithm specified by the KDC.¶
REQ24: Specify how the communication is secured between Client and KDC. Optionally, specify transport profile of ACE [RFC9200] to use between Client and KDC.: ACE transport profile such as DTLS [RFC9202] or OSCORE [RFC9203].¶
REQ25: Specify the format of the identifiers of group members.: the Sender ID defined in Section 4.1.2.¶
REQ26: Specify policies at the KDC to handle ids that are not included in 'get_creds'.: See Section 4.2.1.¶
REQ27: Specify the format of newly-generated individual keying material for group members, or of the information to derive it, and corresponding CBOR label.: Not applicable.¶
REQ28: Specify which CBOR tag is used for identifying the semantics of binary scopes, or register a new CBOR tag if a suitable one does not exist already.: See Section 3.5 and Section 8.5 of this document.¶
REQ29: Categorize newly defined parameters according to the same criteria of Section 8 of [I-D.ietf-ace-key-groupcomm].: A Publisher Client MUST support 'group_SenderId' in 'key'; see Section 4.1.2 ¶
REQ30: Define whether Clients must, should or may support the conditional parameters defined in Section 8 of [I-D.ietf-ace-key-groupcomm], and under which circumstances.: A Publisher Client MUST support client_cred', 'cnonce', 'client_cred_verify' parameters; see Section 4.1.1. A Publisher Client that provides the token to the KDC, through the authz-info endpoint, MUST support the parameter 'kdcchallenge'; see Section 3.6.¶
OPT1: Optionally, if the textual format of 'scope' is used, specify CBOR values to use for abbreviating the role identifiers in the group: No.¶
OPT2: Optionally, specify the additional parameters used in the exchange of Token Transfer Request and Response : No.¶
OPT3: Optionally, specify the negotiation of parameter values for signature algorithm and signature keys, if 'sign_info' is not used: See Section 3.6.¶
OPT4: Optionally, specify possible or required payload formats for specific error cases.: See Section 4.1.3.¶
OPT5: Optionally, specify additional identifiers of error types, as values of the 'error' field in an error response from the KDC: No.¶
OPT6: Optionally, specify the encoding of 'creds_repo' if the default is not used: No.¶
OPT7: Optionally, specify the functionalities implemented at the 'control_uri' resource hosted at the Client, including message exchange encoding and other details.: No.¶
OPT8: Optionally, specify the behavior of the handler in case of failure to retrieve an authentication credential for the specific node: The KDC MUST reply with a 4.00 (Bad Request) error response to the Join Request; see Section 4.1.3.¶
OPT9: Optionally, define a default group rekeying scheme, to refer to in case the 'rekeying_scheme' parameter is not included in the Join Response: the "Point-to-Point" rekeying scheme registered in Section 11.12 of [I-D.ietf-ace-key-groupcomm].¶
OPT10: Optionally, specify the functionalities implemented at the 'control_group_uri' resource hosted at the Client, including message exchange encoding and other details. : No.¶
OPT11: Optionally, specify policies that instruct Clients to retain messages and for how long, if they are unsuccessfully decrypted.: No.¶
OPT12: Optionally, specify for the KDC to perform group rekeying (together or instead of renewing individual keying material) when receiving a Key Renewal Request: ToDo.¶
OPT13: Optionally, specify how the identifier of a group member's authentication credential is included in requests sent to other group members: No.¶
OPT14: Optionally, specify additional information to include in rekeying messages for the "Point-to-Point" group rekeying scheme: ToDo.¶
OPT15: Optionally, specify if Clients must or should support any of the parameters defined as optional in [I-D.ietf-ace-key-groupcomm]: No.¶