



ANIMA Working Group                                            K. Watsen
Internet-Draft                                           Watsen Networks
Obsoletes: 8366 (if approved)                         M. Richardson, Ed.
Updates: 8366, 8995 (if approved)                     Sandelman Software
Intended status: Standards Track                                 E. Dijk
Expires: 30 August 2026                                IoTconsultancy.nl
                                                               T. Eckert
                                             Futurewei Technologies Inc.
                                                                   Q. Ma
                                                                  Huawei
                                                        26 February 2026


             A Voucher Artifact for Bootstrapping Protocols
                     draft-ietf-anima-rfc8366bis-27

Abstract

   This document defines a strategy to securely assign a Pledge to an
   Owner using an artifact signed, directly or indirectly, by the
   Pledge's manufacturer.  This artifact is known as a "Voucher".

   This document defines an artifact format as a YANG-defined JSON or
   CBOR document that has been signed using a variety of cryptographic
   systems.

   The Voucher Artifact is normally generated by the Pledge's
   manufacturer (i.e., the Manufacturer Authorized Signing Authority
   (MASA)).

   This document updates RFC8366: it includes a number of desired
   extensions into the YANG module.  The Voucher Request YANG module
   defined in RFC8995 is also updated and now included in this document,
   as well as other YANG extensions needed for variants of BRSKI/
   RFC8995.

About This Document

   This note is to be removed before publishing as an RFC.

   Status information for this document may be found at
   https://datatracker.ietf.org/doc/draft-ietf-anima-rfc8366bis/.

   Discussion of this document takes place on the anima Working Group
   mailing list (mailto:anima@ietf.org), which is archived at
   https://mailarchive.ietf.org/arch/browse/anima/.  Subscribe at
   https://www.ietf.org/mailman/listinfo/anima/.




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   Source for this draft and an issue tracker can be found at
   https://github.com/anima-wg/voucher.

Status of This Memo

   This Internet-Draft is submitted in full conformance with the
   provisions of BCP 78 and BCP 79.

   Internet-Drafts are working documents of the Internet Engineering
   Task Force (IETF).  Note that other groups may also distribute
   working documents as Internet-Drafts.  The list of current Internet-
   Drafts is at https://datatracker.ietf.org/drafts/current/.

   Internet-Drafts are draft documents valid for a maximum of six months
   and may be updated, replaced, or obsoleted by other documents at any
   time.  It is inappropriate to use Internet-Drafts as reference
   material or to cite them other than as "work in progress."

   This Internet-Draft will expire on 30 August 2026.

Copyright Notice

   Copyright (c) 2026 IETF Trust and the persons identified as the
   document authors.  All rights reserved.

   This document is subject to BCP 78 and the IETF Trust's Legal
   Provisions Relating to IETF Documents (https://trustee.ietf.org/
   license-info) in effect on the date of publication of this document.
   Please review these documents carefully, as they describe your rights
   and restrictions with respect to this document.  Code Components
   extracted from this document must include Revised BSD License text as
   described in Section 4.e of the Trust Legal Provisions and are
   provided without warranty as described in the Revised BSD License.

Table of Contents

   1.  Introduction  . . . . . . . . . . . . . . . . . . . . . . . .   4
   2.  Terminology . . . . . . . . . . . . . . . . . . . . . . . . .   5
   3.  Requirements Language . . . . . . . . . . . . . . . . . . . .   7
   4.  Survey of Voucher Types . . . . . . . . . . . . . . . . . . .   7
   5.  Changes since RFC8366 . . . . . . . . . . . . . . . . . . . .  10
     5.1.  Attempts and motivation to extend RFC8366 . . . . . . . .  10
   6.  Updates to RFC8995  . . . . . . . . . . . . . . . . . . . . .  11
     6.1.  Updates to the use of idevid-issuer . . . . . . . . . . .  11
     6.2.  Clarifications on the use of idevid-issuer  . . . . . . .  12
     6.3.  Clarifications on the format of idevid-issuer . . . . . .  13
     6.4.  Errata closed . . . . . . . . . . . . . . . . . . . . . .  13
   7.  Signature mechanisms  . . . . . . . . . . . . . . . . . . . .  13



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     7.1.  CMS Format Voucher Artifact . . . . . . . . . . . . . . .  14
   8.  Voucher Artifact  . . . . . . . . . . . . . . . . . . . . . .  15
     8.1.  Tree Diagram  . . . . . . . . . . . . . . . . . . . . . .  16
     8.2.  Examples  . . . . . . . . . . . . . . . . . . . . . . . .  16
     8.3.  YANG Module . . . . . . . . . . . . . . . . . . . . . . .  18
     8.4.  ietf-voucher SID values . . . . . . . . . . . . . . . . .  26
     8.5.  Voucher Extensions  . . . . . . . . . . . . . . . . . . .  27
     8.6.  Manufacturer Private Extensions . . . . . . . . . . . . .  28
   9.  Voucher Request Artifact  . . . . . . . . . . . . . . . . . .  29
     9.1.  Tree Diagram  . . . . . . . . . . . . . . . . . . . . . .  29
     9.2.  "ietf-voucher-request" Module . . . . . . . . . . . . . .  30
     9.3.  ietf-voucher-request SID values . . . . . . . . . . . . .  36
   10. Design Considerations . . . . . . . . . . . . . . . . . . . .  37
     10.1.  Renewals Instead of Revocations  . . . . . . . . . . . .  37
     10.2.  Voucher Per Pledge . . . . . . . . . . . . . . . . . . .  38
   11. Security Considerations . . . . . . . . . . . . . . . . . . .  38
     11.1.  Clock Sensitivity  . . . . . . . . . . . . . . . . . . .  38
     11.2.  Protect MASA Signing Key in HSM  . . . . . . . . . . . .  38
     11.3.  Test Domain Certificate Validity When Signing  . . . . .  38
     11.4.  YANG Module Security Considerations  . . . . . . . . . .  39
   12. IANA Considerations . . . . . . . . . . . . . . . . . . . . .  39
     12.1.  The IETF XML Registry  . . . . . . . . . . . . . . . . .  39
     12.2.  The YANG Module Names Registry . . . . . . . . . . . . .  40
     12.3.  The Media Types Registry . . . . . . . . . . . . . . . .  40
     12.4.  The SMI Security for S/MIME CMS Content Type Registry  .  41
     12.5.  The Voucher Extensions Registry  . . . . . . . . . . . .  41
     12.6.  The IETF YANG-SID Ranges Registry  . . . . . . . . . . .  42
     12.7.  The IETF YANG-SID Modules Registry . . . . . . . . . . .  43
   13. References  . . . . . . . . . . . . . . . . . . . . . . . . .  43
     13.1.  Normative References . . . . . . . . . . . . . . . . . .  43
     13.2.  Informative References . . . . . . . . . . . . . . . . .  46
   Appendix A.  Examples . . . . . . . . . . . . . . . . . . . . . .  48
     A.1.  Key pairs associated with examples  . . . . . . . . . . .  49
     A.2.  Example CMS-signed Voucher Request  . . . . . . . . . . .  53
     A.3.  Example CMS-signed Voucher from MASA  . . . . . . . . . .  54
     A.4.  Example JWS-signed Voucher from MASA  . . . . . . . . . .  55
   Appendix B.  SID Allocations  . . . . . . . . . . . . . . . . . .  56
     B.1.  SID Allocations for Voucher . . . . . . . . . . . . . . .  56
     B.2.  SID Allocations for Voucher Request . . . . . . . . . . .  59
   Acknowledgements  . . . . . . . . . . . . . . . . . . . . . . . .  63
   Authors' Addresses  . . . . . . . . . . . . . . . . . . . . . . .  63










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1.  Introduction

   This document defines a strategy to securely assign a candidate
   device (Pledge) to an Owner using an artifact signed, directly or
   indirectly, by the Pledge's manufacturer, i.e., the Manufacturer
   Authorized Signing Authority (MASA).  This artifact is known as the
   "Voucher".

   The Voucher Artifact is a JSON [RFC8259] document that conforms with
   a data model described by YANG [RFC7950].  It may also be serialized
   to CBOR [CBOR].  It is encoded using the rules defined in [RFC7951]
   or [RFC9254], and is signed using (by default) a CMS structure
   [RFC5652].

   The primary purpose of a Voucher is to securely convey a trust anchor
   that a Pledge can use to authenticate subsequent interactions.  The
   trust anchor may be in the form of a certificate (the 'pinned-domain-
   cert' Attribute), a hash of a certificate, or it can be a raw public
   key (in constrained use cases).

   This trust anchor represents the authority of the Owner of a network.
   Communicating this trust anchor securely to the Pledge is the job of
   the Voucher Artifact.  The act of communicating this trust anchor is
   known as pinning the trust anchor, as the Pledge can then use the
   resulting anchor to authenticate other actors who are part of the
   network.  The collection of all these actors is collectively known as
   the Domain.  (This is not related to the domain name system, but
   rather the term is of mathematical origin)

   A Voucher may be useful in several contexts, but the driving
   motivation herein is to support secure Onboarding mechanisms.  This
   is accomplished by assigning an Owner to the Pledge, enabling it to
   authenticate the network that it is connected to.

   [RFC8366] originally defined the Voucher as the only Voucher
   Artifact, leaving the Voucher Request that is used in BRSKI to be
   defined in [BRSKI].  This document includes both Voucher and Voucher
   Request, and therefore updates [BRSKI].

   YANG is not easily extended except by updating the YANG module
   definition.  Since [RFC8366] was written, the common pattern is to
   publish YANG modules as two documents: one with only the YANG module,
   and the other one with usage, motivation and further explanation.
   This allows the YANG module to be updated without replacing all of
   the context.  This document does not follow that pattern, but future
   documents may update only the YANG module.





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   This document introduces a mechanism to support future extensions
   without requiring the YANG module to be revised.  This includes both
   a new IETF standard mechanism for extensions modeled after the
   mechanism present in [RFC8520], as well as a facility for
   manufacturer private extensions.

   The lifetimes of Vouchers may vary.  In some Onboarding protocols,
   the Vouchers may include a nonce restricting them to a single use,
   whereas the Vouchers in other Onboarding protocols may have an
   indicated lifetime.  In order to support long lifetimes, this
   document recommends using short lifetimes with programmatic renewal,
   see Section 10.1.

   Some Onboarding protocols using the Voucher Artifact defined in this
   document include: [ZERO-TOUCH], [SECUREJOIN], [BRSKI] and [cBRSKI].

2.  Terminology

   This document uses and defines the following terms.  They are used in
   this document and related documents.

   (Voucher) Artifact:  Used throughout this document to represent a
      Voucher or Voucher Request as instantiated in the form of a signed
      datastructure.  The payload of the signed datastructure is called
      the Voucher Data.

   Attribute:  A single named data element that can be stored in Voucher
      Data.  The element's name and data type are defined by one of the
      YANG models as defined in this document.

   Bootstrapping:  The process where a Pledge obtains cryptographic key
      material to identify and trust future interactions within a
      specific Domain network.  Based on imprinted key material provided
      during the manufacturing process (see: Imprint).  This term was
      used in [RFC8366], but has been supplanted by the term Onboarding.

   Domain:  The set of entities or infrastructure under common
      administrative control.  The goal of the Onboarding protocol is to
      enable a Pledge to join a Domain and obtain domain-specific
      security credentials.  This term is not related to "DNS domain"
      [RFC9499] although a Domain might be associated to a specific DNS
      domain.

   Imprint:  The process where a device obtains the cryptographic key
      material to identify and trust future interactions generally as
      part of the manufacturing.  This term is taken from Konrad
      Lorenz's work in biology with new ducklings: "during a critical
      period, the duckling would assume that anything that looks like a



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      mother duck is in fact their mother" [Stajano99theresurrecting].
      An equivalent for a device is to obtain the fingerprint of the
      manufacturer's root certification authority (root CA) certificate.
      A device that Imprints on an attacker suffers a similar fate to a
      duckling that imprints on a hungry wolf.  Imprinting is a term
      from psychology and ethology, as described in [imprinting].

   Join Registrar (and Coordinator):  A representative of the Domain
      that is configured, perhaps autonomically, to decide whether a new
      device is allowed to join the Domain.  The administrator of the
      Domain interfaces with a Join Registrar (and Coordinator) to
      control this process.  Typically, a Join Registrar is "inside" its
      Domain.  For simplicity, this document often refers to this as
      just "Registrar".

   MASA (Manufacturer Authorized Signing Authority):  The entity that,
      for the purpose of this document, issues and signs the Vouchers
      for a manufacturer's Pledges and keeps logs of Pledge ownership.
      In some Onboarding protocols, the MASA may have an Internet
      presence and be integral to the Onboarding process, whereas in
      other protocols the MASA may be an offline service that has no
      active role in the Onboarding process.

   Malicious Registrar:  An on-path active attacker that presents itself
      as a legitimate Registrar.

   Onboarding:  Onboarding describes the process to provide necessary
      operational data to a Pledge and to complete the process of
      bringing the Pledge into an operational state.  This data may
      include configuration data, but specifically deals with
      application-specific cryptographic key material (application-
      specific security credentials).  Since [RFC8366], this term has
      replaced the term Bootstrapping.

   Owner:  The entity that controls the private key of the trust anchor
      conveyed by the Voucher.  Typically, the Owner is indicated by the
      'pinned-domain-cert' Attribute.

   Pledge:  The prospective component/device attempting to find and
      securely join a Domain.  When shipped or in factory reset mode, it
      only trusts authorized representatives of the manufacturer.

   Registrar:  See Join Registrar.  This term is not related to the term
      DNS Registrar [RFC9499].

   TOFU (Trust on First Use):  When a Pledge makes no security decisions





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      but rather simply trusts the first Domain entity it is contacted
      by.  Used similarly to [RFC7435].  This is also known as the
      "resurrecting duckling" model [Stajano99theresurrecting].

   Voucher:  A Voucher Artifact, not a Voucher Request, that is a signed
      statement from the MASA service that indicates to a Pledge the
      cryptographic identity of the Domain it should trust.  When
      clarity is needed, it may be preceded by the type of the
      signature, such as CMS, JWS or COSE.

   Voucher Data:  The raw (serialized) representation of the YANG data
      elements of a Voucher (Request) without any enclosing signature.
      Current serialization formats include JSON and CBOR.

   Voucher Request:  A signed artifact sent from the Pledge to the
      Registrar, or from the Registrar to the MASA, for Voucher
      acquisition.  When clarity is needed, it may be preceded by the
      type of the signature, such as CMS, JWS or COSE.

   Pledge Voucher Request (PVR):  A signed artifact sent from the Pledge
      to the Registrar.  It is a specific form of Voucher Request.

   Registrar Voucher Request (RVR):  A signed artifact sent from the
      Registrar to the MASA.  It is a specific form of Voucher Request.

3.  Requirements Language

   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.

4.  Survey of Voucher Types

   A Voucher is a cryptographically protected statement to the Pledge
   authorizing a zero-touch Onboarding with the Join Registrar of the
   Domain.  The specific information a Voucher provides is influenced by
   the Onboarding use case.

   The Voucher can convey the following information to the Join
   Registrar and to the Pledge:

   Assertion Basis:  Indicates the method that protects the Onboarding
      (this is distinct from the Voucher signature that protects the
      Voucher itself).  Methods include manufacturer-asserted ownership
      verification, assured logging operations, or reliance on Pledge
      behavior such as secure or measured boot.  The Join Registrar uses



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      this information to make a determination as to whether to accept
      the Pledge into the network.  Only some methods are normatively
      defined in this document.  Other methods are left for future work.

   Authentication of Join Registrar:  Indicates how the Pledge can
      authenticate the Join Registrar.  This document defines a
      mechanism to pin the Domain certificate, or a raw public key.
      Pinning a symmetric key, or CN-ID ([RFC6125]) or DNS-ID
      information (as defined in [RFC9525]) is left for future work.

   Anti-Replay Protections:  Time- or nonce-based information to
      constrain the Voucher to specific time periods or Onboarding
      attempts.

   A number of Onboarding scenarios can be met using differing
   combinations of this information.  All scenarios address the primary
   threat of an on-path active attacker (or MiTM) impersonating the
   Registrar.  If successful, this would gain control over the Pledge.
   The following combinations are "types" of Vouchers:

   +=========+===========+========+===========+========+========+=====+
   |Voucher  | Assertion |        | Registrar |        |Validity|     |
   |Type     |           |        |        ID |        |        |     |
   +=========+===========+========+===========+========+========+=====+
   |         |    Logged |Verified|     Trust |CN-ID or|     RTC|Nonce|
   |         |           |        |    Anchor |  DNS-ID|        |     |
   +---------+-----------+--------+-----------+--------+--------+-----+
   |Audit    |         X |        |         X |        |        |    X|
   |Voucher  |           |        |           |        |        |     |
   +---------+-----------+--------+-----------+--------+--------+-----+
   |Nonceless|         X |        |         X |        |       X|     |
   |Audit    |           |        |           |        |        |     |
   +---------+-----------+--------+-----------+--------+--------+-----+
   |Owner    |         X |       X|         X |        |       X|    X|
   |Audit    |           |        |           |        |        |     |
   +---------+-----------+--------+-----------+--------+--------+-----+
   |Owner ID |           |       X|         X |       X|       X|     |
   |Voucher  |           |        |           |        |        |     |
   +---------+-----------+--------+-----------+--------+--------+-----+
   |Bearer   |         X |        |  wildcard |wildcard|optional|  opt|
   |Voucher  |           |        |           |        |        |     |
   +---------+-----------+--------+-----------+--------+--------+-----+

                    Table 1: Overview of Voucher types

   NOTE: The "RTC" column denotes Voucher validation using a Real-Time
   Clock.




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   NOTE: All Voucher types include a "Pledge ID serial-number" (column
   not shown for space reasons).

   Audit Voucher:  An audit Voucher is named after the logging assertion
      mechanisms that the Registrar then "audits" to enforce its local
      policy.  The Registrar mitigates the risk of a Malicious Registrar
      by auditing that no unknown Registrar, or known Malicious
      Registrar, appears in the MASA's log entries for the Pledge.  This
      does not directly prevent a Malicious Registrar but provides a
      response mechanism that ensures the on-path attack is
      unsuccessful.  An advantage is that actual ownership knowledge
      (i.e., sales integration providing an indication of who purchased
      the device) is not required on the MASA service.

   Nonceless Audit Voucher:  An audit Voucher with a validity period
      statement, but no guarantee of freshness.  Fundamentally, it is
      the same as an audit Voucher except that it can be issued in
      advance to support network partitions or to provide a permanent
      Voucher for remote deployments.  Being issued in advance of the
      Pledge being online, the Pledge can not rely on a nonce to be
      included for freshness.  This compromise in reducing the freshness
      allows for the resulting Voucher to be carried across air-gapped
      infrastructure.  In addition, if the validity period has been set
      sufficiently long, the Voucher can be used after the manufacturer
      (and its delegates) has gone out of business.

   Ownership Audit Voucher:  An audit Voucher where the MASA service has
      verified the Registrar as the authorized Owner.  The MASA service
      mitigates a MiTM Registrar by refusing to generate audit Vouchers
      for unauthorized Registrars.  The Registrar uses audit techniques
      to supplement the MASA.  This provides an ideal sharing of policy
      decisions and enforcement between the vendor and the Owner.

   Ownership ID Voucher:  Named after inclusion of the Pledge's CN-ID or
      DNS-ID within the Voucher.  The MASA service mitigates a MiTM
      Registrar by identifying the specific Registrar (via PKIX
      [RFC5280]) authorized to own the Pledge.

   Bearer Voucher:  A bearer Voucher is named after the inclusion of a












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      Registrar ID wildcard.  Because the Registrar identity is not
      indicated, this Voucher type must be treated as a secret and
      protected from exposure as any 'bearer' of the Voucher can claim
      the Pledge.  This variation is included in the above table in
      order to clearly show how other Voucher types differ.  This
      specification does not support bearer Vouchers at this time.
      There are other specifications in the industry which are
      equivalent though.  Publishing a nonceless bearer Voucher
      effectively turns the specified Pledge into a TOFU device with
      minimal mitigation against MiTM Registrars.  Bearer Vouchers are
      therefore out of scope.

5.  Changes since RFC8366

   This document obsoletes [RFC8366].

5.1.  Attempts and motivation to extend RFC8366

   [RFC8366] was published in 2018 during the development of [BRSKI],
   [ZERO-TOUCH] and other work-in-progress efforts.  Since then the
   industry has matured significantly, and the in-the-field activity
   which this document supports has become known as _Onboarding_ rather
   than _Bootstrapping_.

   The focus of [BRSKI] was Onboarding of ISP and Enterprise owned wired
   routing and switching equipment, with IoT devices being a less
   important aspect.  [ZERO-TOUCH] has focused upon Onboarding of CPE
   equipment like cable modems and other larger IoT devices, again with
   smaller IoT devices being of lesser importance.

   Since [BRSKI] was published there is now a mature effort to do
   application-level Onboarding of constrained IoT devices defined by
   the Thread Group and the Fairhair Alliance (now OCF) [fairhair].  The
   [cBRSKI] document has defined a version of [BRSKI] that is usable
   over constrained IEEE 802.15.4 6LoWPAN networks using CoAP and DTLS,
   while [I-D.ietf-lake-authz] provides for using CoAP and EDHOC on even
   more constrained devices with very constrained networks.

   [PRM] has created a new methodology for Onboarding that does not
   depend upon a synchronous connection between the Pledge and the
   Registrar.  This mechanism uses a mobile Registrar agent that works
   to collect and transfer signed artifacts via physical travel from one
   network to another.








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   Both [cBRSKI] and [PRM] require extensions to the Voucher Request and
   the resulting Voucher.  The new Attributes are required to carry the
   additional data and describe the extended semantics.  In addition
   [cBRSKI] uses the serialization mechanism described in [RFC9254] to
   produce significantly more compact artifacts.

   When the process to define [cBRSKI] and [PRM] was started, there was
   a belief that the appropriate process was to use the [RFC7950]
   _augment_ mechanism to further extend both the Voucher Request
   [BRSKI] and Voucher [RFC8366] artifacts.  However, [PRM] needs to
   extend an enumerated type with additional values and _augment_ can
   not do this, so that was initially the impetus for this document.

   An attempt was then made to determine what would happen if one wanted
   to have a constrained version of the [PRM] Voucher Artifact.  The
   result was invalid YANG, with multiple definitions of the core
   Attributes from the [RFC8366] Voucher Artifact.  After some
   discussion, it was determined that the _augment_ mechanism did not
   work for this use case, nor did it work better when the [RFC8040]
   "yang-data" extension was replaced with the [RFC8791] "structure"
   extension.

   After significant discussion the decision was made to simply roll all
   of the needed extensions into this document.

6.  Updates to RFC8995

   This document represents a merge of YANG definitions of the Voucher
   from [RFC8366], the Voucher Request from [BRSKI], and extensions to
   each of these from [cBRSKI], [CLOUD] and [PRM].  The difficulty with
   this approach is that the semantics of the definitions needed for the
   other documents are not included in this document, but rather in the
   respective other documents.

6.1.  Updates to the use of idevid-issuer

   The voucher-request module definition that was in [BRSKI] Sections
   3.2 (tree diagram) and 3.4 (YANG module) is now included in this
   document.  There is a change to it: the 'idevid-issuer' Attribute
   MUST be included in a Registrar Voucher Request (RVR).  Like the
   'serial-number' value in the RVR, the 'idevid-issuer' value in the
   RVR is to be taken from the Pledge's (IDevID) client certificate.  In
   some variations of BRSKI, such as [PRM], there is no direct TLS
   connection between Pledge and Registrar.  Therefore the Pledge's
   IDevID certificate cannot be extracted from the TLS connection, so
   those variations define a different channel binding process and may
   deviate from the above requirement.




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   A Registrar MUST apply the following rules for the value of the
   'idevid-issuer' Attribute in the given order:

   1.  If the Authority Key Identifier (AKI) field is present in the
       Pledge's (IDevID) client certificate, the Registrar copies the
       full data element as specified in Section 6.3.

   2.  Otherwise, the Registrar generates the full data element in the
       format specified in Section 6.3, using the SHA-1 hash of the
       public key of the Pledge's IDevID client certificate.  This is
       defined as method 1 in Section 4.2.1.2 of [RFC5280].

6.2.  Clarifications on the use of idevid-issuer

   [RFC8366] and [BRSKI] define the 'idevid-issuer' attribute for the
   'voucher' and 'voucher-request' modules (respectively), but they
   summarily explain when to use it, and why it is used.

   The 'idevid-issuer' Attribute is provided so that the serial number
   to which the issued Voucher pertains can be relative to the entity
   that issued the Pledge's IDevID.  In most cases there is a one to one
   relationship between the trust anchor that signs Vouchers (and is
   trusted by the Pledge), and the Certification Authority that signs
   the IDevID.  In that case, the 'serial-number' in the Voucher Data
   must refer to the same device as the serial number that is in the
   IDevID certificate (in the 'serialNumber' element of type
   'X520SerialNumber' per Section 2.3.1 of [BRSKI]).

   However, there are situations where the one to one relationship may
   be broken.  This occurs whenever a manufacturer has a common MASA,
   but different products (on different assembly lines) are produced
   with identical serial numbers.  A system of serial numbers which is
   just a simple counter is a good example of this.  A system of serial
   numbers where there is some prefix relating the product type does not
   fit into this, even if the lower digits are a counter.

   Another situation occurs when multiple manufacturers share a common
   MASA.  In this case, any given serial number in the IDevID
   certificate may not be unique across all manufacturers.

   It is not possible for the Pledge or the Registrar to know which
   situation applies.  And because one the above situations may apply,
   or may occur in the future, there needs to be a contingency to allow
   uniquely identifying a Pledge regardless of the current or future
   situation.  This is realized by the 'idevid-issuer' Attribute.

   It is clarified next, whether or not to include the 'idevid-issuer'
   in the PVR, in the RVR and in the Voucher.



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   Analysis of the situation shows that the Pledge never needs to
   include 'idevid-issuer' Attribute in its PVR, because the Pledge's
   IDevID certificate is available to the Registrar, and the Authority
   Key Identifier needed to fill this Attribute is contained within that
   IDevID certificate.  The Pledge therefore has no need to repeat this.

   For the RVR, Section 6.1 now normatively requires that the 'idevid-
   issuer' Attribute must be included.

   For the Voucher, Section 8.3 normatively requires ("must") that the
   'idevid-issuer' Attribute must be included by a MASA in case the MASA
   issues a Voucher with a serial number that is known to be not unique
   within the scope of all the serial numbers represented by the MASA.
   If this rule does not apply, the MASA SHOULD NOT include the 'idevid-
   issuer' Attribute in order to achieve a smaller Voucher size.

6.3.  Clarifications on the format of idevid-issuer

   [RFC8366] and [BRSKI] were not fully clear on the required binary
   format of the 'idevid-issuer' Attribute.  This gave rise to
   incompatible implementations.

   This section clarifies the format of the 'idevid-issuer' Attribute,
   which contains the full Authority Key Identifier from an IDevID
   certificate.  The entire Authority Key Identifier object from the
   certificate i.e. the 'extnValue' OCTET STRING is to be included,
   comprising the ASN.1 DER encoding of the 'AuthorityKeyIdentifier'
   structure as defined in Section 4.2.1.1 of [RFC5280].  This includes
   the ASN.1 DER encoding of the SEQUENCE as well as the OCTET STRING
   element (tagged 0) that is named 'keyIdentifier' with type
   'KeyIdentifier'.

   Note that per [IDEVID], only the first optional element named
   'keyIdentifier' is expected to be found in an IDevID certificate, not
   the 'authorityCertIssuer' or the 'authorityCertSerialNumber'.
   However, because of the above requirement to include the full
   'extnValue' OCTET STRING, even if the non-expected elements would be
   present, they would be included in the 'idevid-issuer' value in a
   Voucher Request or Voucher.

6.4.  Errata closed

   This above updates to [BRSKI] addresses errata [eid7263].

7.  Signature mechanisms

   Three signature systems have been defined for Vouchers Artifacts.




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   [cBRSKI] defines a mechanism that uses COSE [COSE], with the Voucher
   Data encoded using [RFC9254].  However, as the SID [RFC9254]
   allocation process requires up-to-date YANG, the SID values for this
   mechanism are presented in this document.

   [jBRSKI] defines a mechanism that uses JSON [RFC8259] and [JWS].

   The CMS signing mechanism first defined in [RFC8366] continues to be
   defined here.

7.1.  CMS Format Voucher Artifact

   The IETF evolution of PKCS#7 is CMS [RFC5652].  A CMS-signed Voucher,
   the default type, contains a ContentInfo structure with the Voucher
   Data.  An OID for JSON-encoded Voucher Data is allocated in
   Section 12.4, and it is to be placed in the 'eContentType' field in
   the ContentInfo.

   The signing structure is a CMS SignedData structure, as specified by
   Section 5.1 of [RFC5652], encoded using ASN.1 Distinguished Encoding
   Rules (DER), as specified in ITU-T X.690 [ITU-T.X690.2015].

   [RFC5652] mandates that SignedAttributes MUST be present when the
   content type is not 'id-data'.  This mitigates attacks on CMS as
   described in [I-D.vangeest-lamps-cms-euf-cma-signeddata].  Decoders
   MUST verify that SignedAttributes are present.

   To facilitate interoperability, Section 12.3 the media type
   "application/voucher-cms+json" and the filename extension ".vcj" were
   registered by [RFC8366].

   The CMS structure MUST contain a 'signerInfo' structure, as described
   in Section 5.1 of [RFC5652], containing the signature generated over
   the content using a private key trusted by the recipient.  Normally,
   the recipient is the Pledge and the signer is the MASA.  In the
   Voucher Request, the signer is the Pledge (in the PVR), or the
   Registrar (in the RVR).

   Note that Section 5.1 of [RFC5652] includes a discussion about how to
   validate a CMS object, which is really a PKCS7 object (cmsVersion=1).
   Intermediate systems (such as the Bootstrapping Remote Secure Key
   Infrastructures [BRSKI] Registrar) that might need to evaluate the
   Voucher in flight MUST be prepared for such an older format.  No
   signaling of the format version is necessary, as the manufacturer
   knows the capabilities of the Pledge and will use an appropriate
   format Voucher for each Pledge.





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   The CMS structure SHOULD also contain all of the certificates leading
   up to and including the signer's trust anchor certificate known to
   the recipient.  The inclusion of the trust anchor is unusual in many
   applications, but third parties cannot accurately audit the
   transaction without it.

   The CMS structure MAY also contain revocation objects for any
   intermediate certificate authorities (CAs) between the Voucher issuer
   and the trust anchor known to the recipient.  However, the use of
   CRLs and other validity mechanisms is discouraged, as the Pledge is
   unlikely to be able to perform online checks and is unlikely to have
   a trusted clock source.  As described below, the use of short-lived
   Vouchers and/or a Pledge-provided nonce provides a freshness
   guarantee.

8.  Voucher Artifact

   The Voucher's primary purpose is to securely assign a Pledge to an
   Owner.  The Voucher informs the Pledge which entity it should
   consider to be its Owner.

   This document defines a Voucher Artifact that is a CMS-signed
   encoding of the JSON-encoded Voucher Data as defined by the YANG
   module Section 8.3.  Also, this document defines Voucher Data that is
   CBOR-encoded based on the same YANG model.  The CBOR-encoded (signed)
   Voucher based on this CBOR Voucher Data is defined in [cBRSKI].

   The Voucher Data format is described here as a practical basis for
   some uses (such as in NETCONF), but more to clearly indicate what
   Vouchers look like in practice.  This description also serves to
   validate the YANG data model.

   [RFC8366] defined a media type and a filename extension for the CMS-
   encoded JSON type.  The media type for JOSE format Vouchers is
   defined in [jBRSKI] and the media type for COSE format Vouchers is
   defined in [cBRSKI].  Both include respective filename extensions.

   The media type is used by the Pledge (requesting to the Registrar)
   and by the Registrar (requesting to the MASA) to signal what Voucher
   format is expected.  Other aspects of the Voucher, such as it being
   nonceless or which kind of pinned anchor is used, are not part of the
   media type.

   Only the format of Voucher that is expected is signaled in the form
   of a (MIME) media type in the HTTP "Accept" header [RFC9110].






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   For Vouchers stored/transferred via methods like a USB storage device
   (USB key), the Voucher format is usually signaled by a filename
   extension.

8.1.  Tree Diagram

   The following tree diagram illustrates a high-level view of a Voucher
   document.  The notation used in this diagram is described in
   [RFC8340].  Each node in the diagram is fully described by the YANG
   module in Section 8.3.  Please review the YANG module for a detailed
   description of the Voucher format.

   module: ietf-voucher

     structure voucher:
       +-- created-on?                      yang:date-and-time
       +-- extensions*                      union
       +-- manufacturer-private?            binary
       +-- assertion?                       enumeration
       +-- serial-number                    string
       +-- idevid-issuer?                   binary
       +-- pinned-domain-cert?              binary
       +-- pinned-domain-pubk?              binary
       +-- pinned-domain-pubk-sha256?       binary
       +-- domain-cert-revocation-checks?   boolean
       +-- last-renewal-date?               yang:date-and-time
       +-- expires-on?                      yang:date-and-time
       +-- nonce?                           binary
       +-- est-domain?                      ietf:uri
       +-- additional-configuration-url?    ietf:uri

8.2.  Examples

   This section provides Voucher Data examples for illustration
   purposes.  These examples conform to the JSON encoding rules defined
   in [RFC8259].

   The following example illustrates an ephemeral Voucher (uses a
   nonce).  The MASA generated this Voucher using the 'logged' assertion
   type, knowing that it would be suitable for the Pledge making the
   request.










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   {
     "ietf-voucher:voucher": {
       "created-on": "2016-10-07T19:31:42Z",
       "assertion": "logged",
       "serial-number": "JADA123456789",
       "idevid-issuer": "base64encodedvalue==",
       "pinned-domain-cert": "base64encodedvalue==",
       "nonce": "base64encodedvalue=="
     }
   }

   The following example illustrates a non-ephemeral Voucher (containing
   no nonce, or "nonceless").  While the Voucher itself expires after
   two weeks, it presumably can be renewed for up to a year.  The MASA
   generated this Voucher using the 'verified' assertion type, which
   should satisfy all Pledges.

   {
     "ietf-voucher:voucher": {
       "created-on": "2016-10-07T19:31:42Z",
       "expires-on": "2016-10-21T19:31:42Z",
       "assertion": "verified",
       "serial-number": "JADA123456789",
       "idevid-issuer": "base64encodedvalue==",
       "pinned-domain-cert": "base64encodedvalue==",
       "domain-cert-revocation-checks": true,
       "last-renewal-date": "2017-10-07T19:31:42Z"
     }
   }

   The final two examples illustrate a Voucher that includes an
   (example) extension per Section 8.5.  The hypothetical YANG module
   name of the extension is 'example-my-extension'.  First, a JSON
   serialization is shown.

















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   {
     "ietf-voucher:voucher": {
       "created-on": "2016-10-07T19:31:42Z",
       "assertion": "logged",
       "serial-number": "JADA123456789",
       "idevid-issuer": "base64encodedvalue==",
       "pinned-domain-cert": "base64encodedvalue==",
       "nonce": "base64encodedvalue==",
       "extensions": ["example-my-extension"],
       "extension:example-my-extension": {
         "my-ext-leaf1": "my-ext-leaf1-data"
       }
     }
   }

   Next, a CBOR serialization is shown in CBOR diagnostic notation.
   This uses again the extension module 'example-my-extension' and
   refers to it using its SID value 305823299950.  Note that for this
   example, long binary strings are abbreviated using the ellipsis (...)
   notation.

   {
     2451: {                          / ietf-voucher:voucher  /
       2:  "2016-10-07T19:31:42Z",    / created-on            /
       1:  1,                         / assertion (logged)    /
       11: "JADA123456789",           / serial-number         /
       5:  h'04183016 ... 1736C3E0',  / idevid-issuer         /
       8:  h'30820122 ... 12328CFF',  / pinned-domain-cert    /
       7:  h'831D5198A6CA2C7F',       / nonce                 /
       17: [305823299950],            / extensions            /
       47(305823299950): {            / example-my-extension  /
         1: "my-ext-leaf1-data"       / my-ext-leaf1          /
       }
     }
   }

   [jBRSKI], Section 8 contains examples of Vouchers encoded in JSON,
   and signed with [JWS]. [cBRSKI], Section 9 contains examples of
   Vouchers encoded in CBOR, and signed with [COSE].

8.3.  YANG Module

   During development of this merged YANG module, advice was given to
   better organize mutually exclusive Attributes such as 'pinned-domain-
   cert' vs 'pinned-domain-pubk', or 'expires-on' vs 'nonce'.
   Unfortunately, [CORESID] does not explain how and why choice
   statements are assigned SID values, and the tooling as of the end of
   2025 is inconsistent with both the document, and the intuitive



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   notions as to how this should work.  As the simplest way forward, the
   choice mechanisms that were introduced have been commented out in the
   YANG, allowing the SID values to be generated correctly.  As a
   result, the SID values presented in Section 8.4 and Section 9.3 are
   to be considered normative, rather than relying exclusively on the
   ".sid" file [CORESID] generated from the YANG modules.  The presented
   SID values are believed to be correct, but future reprocessing of the
   YANG module to a ".sid" file could result in changes as the tooling
   is fixed.  Any such changes will be recorded as errata on this
   document.

   <CODE BEGINS> file "ietf-voucher@2025-12-18.yang"
   =============== NOTE: '\' line wrapping per RFC 8792 ================

   module ietf-voucher {
     yang-version 1.1;
     namespace "urn:ietf:params:xml:ns:yang:ietf-voucher";
     prefix vch;

     import ietf-yang-types {
       prefix yang;
       reference
         "RFC 6991: Common YANG Data Types";
     }
     import ietf-inet-types {
       prefix ietf;
       reference
         "RFC 6991: Common YANG Data Types";
     }
     import ietf-yang-structure-ext {
       prefix sx;
     }

     organization
       "IETF ANIMA Working Group";
     contact
       "WG Web:   <https://datatracker.ietf.org/wg/anima/>
        WG List:  <mailto:anima@ietf.org>
        Author:   Kent Watsen
                  <mailto:kent+ietf@watsen.net>
        Author:   Michael Richardson
                  <mailto:mcr+ietf@sandelman.ca>
        Author:   Max Pritikin
                  <mailto:pritikin@cisco.com>
        Author:   Toerless Eckert
                  <mailto:tte@cs.fau.de>
        Author:   Qiufang Ma
                  <mailto:maqiufang1@huawei.com>



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        Author:   Esko Dijk
                  <mailto:esko.dijk@iotconsultancy.nl>";
     description
       "This module defines the format for a Voucher, which is
        produced by a pledge's manufacturer or delegate (MASA)
        to securely assign a pledge to an 'owner', so that the
        pledge may establish a secure connection to the owner's
        network infrastructure.

        Copyright (c) 2023 IETF Trust and the persons identified as
        authors of the code.  All rights reserved.

        Redistribution and use in source and binary forms, with or
        without modification, is permitted pursuant to, and subject to
        the license terms contained in, the Revised BSD License set
        forth in Section 4.c of the IETF Trust's Legal Provisions
        Relating to IETF Documents
        (https://trustee.ietf.org/license-info).

        This version of this YANG module is part of RFC XXXX
        (https://www.rfc-editor.org/info/rfcXXXX); see the RFC itself
        for full legal notices.

        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 (RFC 2119) (RFC 8174) when, and only when,
        they appear in all capitals, as shown here.";

     // RFCEDITOR: please replace XXXX in this entire code fragment
     // with the RFC number assigned and remove this notice.

     revision 2025-12-18 {
       description
         "Updates and additions described by RFC XXXX";
       reference
         "RFC XXXX A Voucher Profile for Bootstrapping Protocols";
     }
     revision 2018-05-09 {
       description
         "Initial version";
       reference
         "RFC 8366: Voucher Profile for Bootstrapping Protocols";
     }

     grouping voucher-artifact-grouping {
       description
         "Grouping to allow reuse/extensions in future work.";



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       leaf created-on {
         type yang:date-and-time;
         description
           "A value indicating the date this voucher was created.
            This node is primarily for human consumption and auditing.
            Future work MAY create verification requirements based on
            this node.";
       }
       leaf-list extensions {
         type union {
           type uint64; // when serialized to CBOR with SID
           type string; // when serialized to CBOR or JSON
         }
         description
           "A list of extension names that are used in this Voucher
            file.  Each name is registered with the IANA.  Standard
            extensions are described in an RFC, while vendor proprietary
            ones are not.";
       }
       leaf manufacturer-private {
         type binary;
         description
           "In CBOR serialization, this is a CBOR bstr containing any
            valid CBOR that the manufacturer wishes to share with its
            pledge.  In JSON serializations, this contains additional
            JSON instead, and it is base64URL encoded.";
       }
       leaf assertion {
         type enumeration {
           enum verified {
             value 0;
             description
               "Indicates that the ownership has been positively
                verified by the MASA (e.g., through sales channel
                integration).";
           }
           enum logged {
             value 1;
             description
               "Indicates that the voucher has been issued after
                minimal verification of ownership or control.  The
                issuance has been logged for detection of
                potential security issues (e.g., recipients of
                vouchers might verify for themselves that unexpected
                vouchers are not in the log).  This is similar to
                unsecured trust-on-first-use principles but with the
                logging providing a basis for detecting unexpected
                events.";



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           }
           enum proximity {
             value 2;
             description
               "Indicates that the voucher has been issued after
                the MASA verified a proximity proof provided by the
                device and target domain.  The issuance has been
                logged for detection of potential security issues.";
           }
           enum agent-proximity {
             value 3;
             description
               "Mostly identical to proximity, but
                indicates that the voucher has been issued
                after the MASA has verified a statement that
                a registrar agent has made contact with the device.";
           }
         }
         description
           "The assertion is a statement from the MASA regarding how
            the owner was verified.  This statement enables pledges
            to support more detailed policy checks.  Pledges MUST
            ensure that the assertion provided is acceptable, per
            local policy, before processing the voucher.";
       }
       leaf serial-number {
         type string;
         mandatory true;
         description
           "The serial-number of the hardware.  When processing a
            voucher, a pledge MUST ensure that its serial-number
            matches this value.  If no match occurs, then the
            pledge MUST NOT process this voucher.";
       }
       leaf idevid-issuer {
         type binary;
         description
           "The Authority Key Identifier OCTET STRING (as defined in
            Section 4.2.1.1 of RFC 5280) from the pledge's IDevID
            certificate.  In the voucher, it is optional
            as some manufacturers know that all serial-numbers
            are unique within the scope of a MASA.
            In the voucher request, whether it is mandatory or \
                                                        optional depends
            upon the which protocol is used, such as RFC8995 and \
                                                             variations.
            When processing a voucher, a pledge MUST ensure that its
            IDevID Authority Key Identifier matches this value.  If no



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            match occurs, then the pledge MUST NOT process this
            voucher.
            When issuing a voucher, the MASA MUST ensure that this
            field is populated for serial-numbers that are not
            otherwise unique within the scope of the MASA.";
       }
       // choice pinning {
       //  description "One of these attributes is used by the
       //               MASA to pin the registrar identity";
       leaf pinned-domain-cert {
         type binary;
         description
           "An X.509 v3 certificate structure, as specified by
            RFC 5280, using Distinguished Encoding Rules (DER)
            encoding, as defined in ITU-T X.690.

            This certificate is used by a pledge to trust a Public Key
            Infrastructure in order to verify a domain certificate
            supplied to the pledge separately by the bootstrapping
            protocol.  The domain certificate MUST have this
            certificate somewhere in its chain of certificates.
            This certificate MAY be an end-entity certificate,
            including a self-signed entity.";
         reference
           "RFC 5280:
            Internet X.509 Public Key Infrastructure Certificate
            and Certificate Revocation List (CRL) Profile.
            ITU-T X.690:
            Information technology - ASN.1 encoding rules:
            Specification of Basic Encoding Rules (BER),
            Canonical Encoding Rules (CER) and Distinguished
            Encoding Rules (DER).";
       }
       leaf pinned-domain-pubk {
         type binary;
         description
           "The pinned-domain-pubk may replace the
            pinned-domain-cert in constrained uses of
            the voucher. The pinned-domain-pubk
            is the Raw Public Key of the registrar.
            This field is encoded as a Subject Public Key Info block
            as specified in RFC7250, in section 3.
            The ECDSA algorithm MUST be supported.
            The EdDSA algorithm as specified in
            draft-ietf-tls-rfc4492bis-17 SHOULD be supported.
            Support for the DSA algorithm is not recommended.
            Support for the RSA algorithm is a MAY.";
       }



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       leaf pinned-domain-pubk-sha256 {
         type binary;
         description
           "The pinned-domain-pubk-sha256 is a second
            alternative to pinned-domain-cert.  In many cases the
            public key of the domain has already been transmitted
            during the key agreement process, and it is wasteful
            to transmit the public key another two times.
            The use of a hash of public key info, at 32-bytes for
            sha256 is a significant savings compared to an RSA
            public key, but is only a minor savings compared to
            a 256-bit ECDSA public-key.
            Algorithm agility is provided by extensions to this
            specification which can define a new leaf for another
            hash type.";
       }
       // }  choice pinning removed
       leaf domain-cert-revocation-checks {
         type boolean;
         description
           "A processing instruction to the pledge that it MUST (true)
            or MUST NOT (false) verify the revocation status for the
            pinned domain certificate.  If this field is not set, then
            normal PKIX behavior applies to validation of the domain
            certificate.";
       }
       leaf last-renewal-date {
         type yang:date-and-time;
         must '../expires-on';
         description
           "The date that the MASA projects to be the last date
            it will renew a voucher on. This field is merely
            informative; it is not processed by pledges.

            Circumstances may occur after a voucher is generated that
            may alter a voucher's validity period.  For instance,
            a vendor may associate validity periods with support
            contracts, which may be terminated or extended
            over time.";
       }
       //choice nonceless {
       //  description "Either a nonce must be present,
       //               or an expires-on header";
       leaf expires-on {
         type yang:date-and-time;
         description
           "A value indicating when this voucher expires.  The node is
            optional as not all pledges support expirations, such as



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            pledges lacking a reliable clock.

            If this field exists, then the pledges MUST ensure that
            the expires-on time has not yet passed. A pledge without
            an accurate clock cannot meet this requirement.

            The expires-on value MUST NOT exceed the expiration date
            of any of the listed 'pinned-domain-cert' certificates.";
       }
       leaf nonce {
         type binary {
           length "8..32";
         }
         description
           "A value that can be used by a pledge in some bootstrapping
            protocols to enable anti-replay protection.  This node is
            optional because it is not used by all bootstrapping
            protocols.

            When present, the pledge MUST compare the provided nonce
            value with another value that the pledge randomly
            generated and sent to a bootstrap server in an earlier
            bootstrapping message.  If the value is present, but
            the values do not match, then the pledge MUST NOT process
            this voucher.";
       }
       // } choice nonceless
       leaf est-domain {
         type ietf:uri;
         description
           "The est-domain is a URL from which the pledge should
            continue doing enrollment rather than with the
            cloud registrar.
            The pinned-domain-cert contains a trust-anchor
            which is to be used to authenticate the server
            found at this URI.";
       }
       leaf additional-configuration-url {
         type ietf:uri;
         description
           "The additional-configuration attribute contains a
            URL to which the pledge can retrieve additional
            configuration information.
            The contents of this URL are manufacturer specific.
            This is intended to do things like configure
            a VoIP phone to point to the correct hosted
            PBX, for example.";
       }



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     }

     // Top-level statement
     sx:structure voucher {
       uses voucher-artifact-grouping;
     }
   }
   <CODE ENDS>

8.4.  ietf-voucher SID values

   [RFC9254] explains how to serialize YANG into CBOR, and for this a
   series of SID values are required.  The below SID values are assigned
   to the 'ietf-voucher' YANG module elements and are considered
   normative.

   The right column shows the schema-node path expression for the YANG
   data node to which the SID value is assigned.

   SID  Assigned to
   ---- --------------------------------------------------
   2450 module ietf-voucher
   2451 data   /ietf-voucher:voucher
   2452 data   /ietf-voucher:voucher/assertion
   2453 data   /ietf-voucher:voucher/created-on
   2454 data   /ietf-voucher:voucher/domain-cert-revocation-checks
   2455 data   /ietf-voucher:voucher/expires-on
   2456 data   /ietf-voucher:voucher/idevid-issuer
   2457 data   /ietf-voucher:voucher/last-renewal-date
   2458 data   /ietf-voucher:voucher/nonce
   2459 data   /ietf-voucher:voucher/pinned-domain-cert
   2460 data   /ietf-voucher:voucher/pinned-domain-pubk
   2461 data   /ietf-voucher:voucher/pinned-domain-pubk-sha256
   2462 data   /ietf-voucher:voucher/serial-number
   2463 data   /ietf-voucher:voucher/additional-configuration-url
   2464 data   /ietf-voucher:voucher/est-domain
   2465 data   /ietf-voucher:voucher/manufacturer-private
   2466 data   /ietf-voucher:voucher/extensions

   The 'assertion' Attribute is an enumerated type in [RFC8366], but no
   values were provided as part of the enumeration.  This document
   provides enumerated values as part of the YANG module.

   In the JSON serialization, the literal strings from the enumerated
   types are used so there is no ambiguity.






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   In the CBOR serialization, a small integer is used, and the
   enumeration values are repeated here for convenience.  However, the
   YANG module should be considered authoritative.  No IANA registry is
   provided or necessary because the YANG module (and this document)
   would be extended when there are new entries required.

                    +==============+=================+
                    | CBOR Integer | Assertion Type  |
                    +==============+=================+
                    | 0            | verified        |
                    +--------------+-----------------+
                    | 1            | logged          |
                    +--------------+-----------------+
                    | 2            | proximity       |
                    +--------------+-----------------+
                    | 3            | agent-proximity |
                    +--------------+-----------------+

                      Table 2: CBOR integers for the
                        'assertion' Attribute enum
                                  value

8.5.  Voucher Extensions

   An unstated assumption in [RFC8366] was that Vouchers could be
   extended in proprietary ways by manufacturers.  This allows for
   manufacturers to communicate new things from the MASA to the Pledge,
   and since both are under control of the same entity, it seemed
   perfectly fine, even though it would violate the strict definition of
   the YANG model.

   The JSON serialization of Vouchers implicitly accomodates the above,
   since the Voucher is just a map (or dictionary).  Map keys are just
   strings, and creating unique strings is easy to do by including the
   manufacturer's DNS domain name.

   In CBOR serialization [RFC9254], the situation is not so easy when
   SID keys are used.  An extension might need to use "Private range"
   [CORESID] SID values, or acquire SID values for their own use.

   Where the process has become complex is when making standard
   extensions, as has happened recently, resulting in this document.
   The processes which were anticipated to be useful (the YANG "augment"
   mechanism), turned out not to be, see Section 5.1.

   Instead, a process similar to what was done by [RFC8520] has been
   adopted.  In the Voucher Data, any extensions are listed in a list
   Attribute named 'extensions'.  In JSON serialization, these



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   extensions each require a unique name, and therefore this name MUST
   be allocated by IANA.  The name MUST be the same as the YANG
   extension module name.  The 'extensions' list Attribute allows for
   new standard extensions to be defined without changes to the 'ietf-
   voucher' YANG module.  Items within that list are either strings (in
   JSON serialization), or integers (in CBOR serialization using SIDs);
   both are always defined in the entries of the Voucher Extensions
   Registry (see Section 12.5).

   Extensions are full YANG modules, which are subject to the SID
   allocation process described in [RFC9254].  When an extension is
   serialized, the extension is placed in a sub-map in the value of a
   new key/value pair in the 'voucher' container element.  In JSON
   serialization, the corresponding key is the name of the extension,
   prefixed by the string "extension:".  In CBOR serialization, the
   corresponding key is the SID which is allocated as the YANG extension
   module SID.  This will typically require the absolute SID value
   Tag(47) to be applied to this key (see Section 4.2.1 of [RFC9254] or
   the final example in Section 8.2).

   Note that this differs from the mechanism described in [RFC8520]:
   there, a sub-map is not used.  Instead, keys are created by combining
   the module name and the Attribute as a string, as a result of using
   the YANG "augment" mechanism.  The [RFC8520] mechanism uses more
   bytes, but is also not easily translatable to CBOR.

   As the Voucher Request YANG module is created by YANG augment of the
   Voucher YANG module, any extension defined for the Voucher is also
   valid for a Voucher Request.

8.6.  Manufacturer Private Extensions

   A manufacturer might need to communicate content in the Voucher (or
   in the Voucher Request), which are never subject to standardization.
   While they can use the Voucher extensions mechanism defined in
   Section 8.5, it does require allocation of a SID value in order to do
   minimal-sized encoding in case of CBOR Voucher Data.  Note that
   [RFC9254] does not strictly require use of SIDs: instead of a SID
   value, the full string name can always be used.  But this would
   significantly increase the size of the Voucher Data.











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   Instead, a manufacturer MAY use the 'manufacturer-private' Attribute
   to put any content they wish.  In CBOR serialization, if a plain CBOR
   map would be used, it would be subject to delta encoding: so use of
   this Attribute requires that the contents are bstr-encoded [CBOR]
   [RFC8949], Section 3.1 (Major type 2).  In JSON serialization, delta
   encoding does not get in the way, and the manufacturer MAY use any
   encoding that is convenient for them, but base64URL encoding
   [RFC4648], Section 5 is RECOMMENDED.

9.  Voucher Request Artifact

   [BRSKI], Section 3 defined a "voucher-request" Artifact as an
   augmented Artifact from the "voucher" Artifact originally defined in
   [RFC8366].  That definition has been moved to this document, and
   translated from the "yang-data" extension [RFC8040] to the
   "sx:structure" extension [RFC8791].

9.1.  Tree Diagram

   The following tree diagram illustrates a high-level view of a Voucher
   Request document.  The notation used in this diagram is described in
   [RFC8340].  Each node in the diagram is fully described by the YANG
   module in Section 9.2.




























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   module: ietf-voucher-request

     structure voucher:
       +-- created-on?                                yang:date-and-time
       +-- extensions*                                union
       +-- manufacturer-private?                      binary
       +-- assertion?                                 enumeration
       +-- serial-number                              string
       +-- idevid-issuer?                             binary
       +-- pinned-domain-cert?                        binary
       +-- pinned-domain-pubk?                        binary
       +-- pinned-domain-pubk-sha256?                 binary
       +-- domain-cert-revocation-checks?             boolean
       +-- last-renewal-date?                         yang:date-and-time
       +-- expires-on?                                yang:date-and-time
       +-- nonce?                                     binary
       +-- est-domain?                                ietf:uri
       +-- additional-configuration-url?              ietf:uri
       +-- prior-signed-voucher-request?              binary
       +-- proximity-registrar-cert?                  binary
       +-- proximity-registrar-pubk?                  binary
       +-- proximity-registrar-pubk-sha256?           binary
       +-- agent-signed-data?                         binary
       +-- agent-provided-proximity-registrar-cert?   binary
       +-- agent-sign-cert?                           binary

9.2.  "ietf-voucher-request" Module

   The 'ietf-voucher-request' YANG module is derived from the 'ietf-
   voucher' module.

   <CODE BEGINS> file "ietf-voucher-request@2025-12-18.yang"
   module ietf-voucher-request {
     yang-version 1.1;
     namespace "urn:ietf:params:xml:ns:yang:ietf-voucher-request";
     prefix vcr;

     import ietf-yang-structure-ext {
       prefix sx;
     }
     import ietf-voucher {
       prefix vch;
       description
         "This module defines the format for a Voucher,
          which is produced by a Pledge's manufacturer or
          delegate (MASA) to securely assign a Pledge to
          an 'Owner', so that the Pledge may establish a secure
          connection to the Owner's network infrastructure";



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       reference
         "RFC XXXX: A Voucher Artifact for
          Bootstrapping Protocols";
     }

     organization
       "IETF ANIMA Working Group";
     contact
       "WG Web:   <https://datatracker.ietf.org/wg/anima/>
        WG List:  <mailto:anima@ietf.org>
        Author:   Kent Watsen
                  <mailto:kent+ietf@watsen.net>
        Author:   Michael Richardson
                  <mailto:mcr+ietf@sandelman.ca>
        Author:   Max Pritikin
                  <mailto:pritikin@cisco.com>
        Author:   Toerless Eckert
                  <mailto:tte@cs.fau.de>
        Author:   Qiufang Ma
                  <mailto:maqiufang1@huawei.com>
        Author:   Esko Dijk
                  <mailto:esko.dijk@iotconsultancy.nl>";
     description
       "This module defines the format for a Voucher Request.
        It is a superset of the Voucher itself.
        It provides content to the MASA for consideration
        during a voucher request procedure and subsequent
        Voucher creation.

        Copyright (c) 2023 IETF Trust and the persons identified as
        authors of the code.  All rights reserved.

        Redistribution and use in source and binary forms, with or
        without modification, is permitted pursuant to, and subject to
        the license terms contained in, the Revised BSD License set
        forth in Section 4.c of the IETF Trust's Legal Provisions
        Relating to IETF Documents
        (https://trustee.ietf.org/license-info).

        This version of this YANG module is part of RFC XXXX
        (https://www.rfc-editor.org/info/rfcXXXX); see the RFC itself
        for full legal notices.

        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 (RFC 2119) (RFC 8174) when, and only when,
        they appear in all capitals, as shown here.";



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     // RFCEDITOR: please replace XXXX in this entire code fragment
     // with the RFC number assigned and remove this notice.

     revision 2025-12-18 {
       description
         "Updates and additions described by RFC XXXX";
       reference
         "RFC XXXX: A Voucher Artifact for Bootstrapping Protocols";
     }
     revision 2021-05-20 {
       description
         "Initial version";
       reference
         "RFC 8995: Bootstrapping Remote Secure Key Infrastructure
          (BRSKI)";
     }

     grouping voucher-request-grouping {
       description
         "Grouping to allow reuse/extensions in future work.";
       uses vch:voucher-artifact-grouping {
         refine "last-renewal-date" {
           description
             "A last-renewal-date field
              is not valid in a voucher request, and
              any occurrence MUST be ignored";
         }
         refine "domain-cert-revocation-checks" {
           description
             "The domain-cert-revocation-checks field
              is not valid in a voucher request, and
              any occurrence MUST be ignored";
         }
         refine "assertion" {
           description
             "Any assertion included in registrar voucher
              requests SHOULD be ignored by the MASA.";
         }
         refine "idevid-issuer" {
           description
             "The idevid-issuer field MUST be included in
              a Registrar Voucher Request (RVR) (unless
              specified otherwise) per Section 6.1 of
              RFC XXXX.";
         }
       }
       leaf prior-signed-voucher-request {
         type binary;



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         description
           "If it is necessary to change a voucher, or re-sign and
            forward a voucher request that was previously provided
            along a protocol path, then the previously signed
            voucher SHOULD be included in this field.

            For example, a pledge might sign a voucher request
            with a proximity-registrar-cert, and the registrar
            then includes it as the prior-signed-voucher-request
            field.  This is a simple mechanism for a chain of
            trusted parties to change a voucher request, while
            maintaining the prior signature information.

            The Registrar and MASA MAY examine the prior signed
            voucher information for the
            purposes of policy decisions. The MASA SHOULD remove
            all prior-signed-voucher-request information when
            signing a voucher for imprinting so as to minimize
            the final voucher size.";
       }
       leaf proximity-registrar-cert {
         type binary;
         description
           "An X.509 v3 certificate structure as specified by
            RFC 5280, Section 4 encoded using the ASN.1
            distinguished encoding rules (DER), as specified
            in [ITU.X690.1994].

            The first certificate in the Registrar TLS server
            certificate_list sequence  (the end-entity TLS
            certificate, see [RFC8446]) presented by the Registrar
            to the Pledge.
            This MUST be populated in a Pledge's voucher request
            when a proximity assertion is requested.";
       }
       leaf proximity-registrar-pubk {
         type binary;
         description
           "The proximity-registrar-pubk replaces
            the proximity-registrar-cert in constrained uses of
            the voucher-request.
            The proximity-registrar-pubk is the
            Raw Public Key of the Registrar. This field is encoded
            as specified in RFC7250, section 3.
            The ECDSA algorithm MUST be supported.
            The EdDSA algorithm as specified in
            draft-ietf-tls-rfc4492bis-17 SHOULD be supported.
            Support for the DSA algorithm is not recommended.



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            Support for the RSA algorithm is a MAY, but due to
            size is discouraged.";
       }
       leaf proximity-registrar-pubk-sha256 {
         type binary;
         description
           "The proximity-registrar-pubk-sha256
            is an alternative to both
            proximity-registrar-pubk and pinned-domain-cert.
            In many cases the public key of the domain has already
            been transmitted during the key agreement protocol,
            and it is wasteful to transmit the public key another
            two times.
            The use of a hash of public key info, at 32-bytes for
            sha256 is a significant savings compared to an RSA
            public key, but is only a minor savings compared to
            a 256-bit ECDSA public-key.
            Algorithm agility is provided by extensions to this
            specification which may define a new leaf for another
            hash type.";
       }
       leaf agent-signed-data {
         type binary;
         description
           "The agent-signed-data field contains a data artifact
            provided by the Registrar-Agent to the Pledge for
            inclusion into the voucher request.

            This artifact is signed by the Registrar-Agent and contains
            data, which can be verified by the pledge and the registrar.
            This data contains the pledge's serial-number and a
            created-on information of the agent-signed-data.

            The format is intentionally defined as binary to allow
            the document using this leaf to determine the encoding.";
       }
       leaf agent-provided-proximity-registrar-cert {
         type binary;
         description
           "An X.509 v3 certificate structure, as specified by
            RFC 5280, Section 4, encoded using the ASN.1
            distinguished encoding rules (DER), as specified
            in ITU X.690.
            The first certificate in the registrar TLS server
            certificate_list sequence (the end-entity TLS
            certificate; see RFC 8446) presented by the
            registrar to the registrar-agent and provided to
            the pledge.



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            This MUST be populated in a pledge's voucher-request
            when an agent-proximity assertion is requested.";
         reference
           "ITU X.690: Information Technology - ASN.1 encoding
            rules: Specification of Basic Encoding Rules (BER),
            Canonical Encoding Rules (CER) and Distinguished
            Encoding Rules (DER)
            RFC 5280: Internet X.509 Public Key Infrastructure
            Certificate and Certificate Revocation List (CRL)
            Profile
            RFC 8446: The Transport Layer Security (TLS)
            Protocol Version 1.3";
       }
       leaf agent-sign-cert {
         type binary;
         description
           "An X.509 v3 certificate structure, as specified by
            RFC 5280, Section 4, encoded using the ASN.1
            distinguished encoding rules (DER), as specified
            in ITU X.690.
            This certificate can be used by the pledge,
            the registrar, and the MASA to verify the signature
            of agent-signed-data. It is an optional component
            for the pledge-voucher request.
            This MUST be populated in a registrar's
            voucher-request when an agent-proximity assertion
            is requested.";
         reference
           "ITU X.690: Information Technology - ASN.1 encoding
            rules: Specification of Basic Encoding Rules (BER),
            Canonical Encoding Rules (CER) and Distinguished
            Encoding Rules (DER)
            RFC 5280: Internet X.509 Public Key Infrastructure
            Certificate and Certificate Revocation List (CRL)
            Profile";
       }
     }

     // Top-level statement: called "voucher" to match RFC8995
     sx:structure voucher {
       uses voucher-request-grouping;
     }
   }
   <CODE ENDS>







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9.3.  ietf-voucher-request SID values

   [RFC9254] explains how to serialize YANG into CBOR, and for this a
   series of SID values are required.  The below SID values are assigned
   to the 'ietf-voucher-request' YANG module elements and are considered
   normative.

   The right column shows the schema-node path expression for the YANG
   data node to which the SID value is assigned.

   =============== NOTE: '\' line wrapping per RFC 8792 ================

   SID  Assigned to
   ---- --------------------------------------------------
   2500 module ietf-voucher-request
   2501 data   /ietf-voucher-request:voucher
   2502 data   /ietf-voucher-request:voucher/assertion
   2503 data   /ietf-voucher-request:voucher/created-on
   2504 data   /ietf-voucher-request:voucher/domain-cert-revocation-\
                                                                  checks
   2505 data   /ietf-voucher-request:voucher/expires-on
   2506 data   /ietf-voucher-request:voucher/idevid-issuer
   2507 data   /ietf-voucher-request:voucher/last-renewal-date
   2508 data   /ietf-voucher-request:voucher/nonce
   2509 data   /ietf-voucher-request:voucher/pinned-domain-cert
   2510 data   /ietf-voucher-request:voucher/prior-signed-voucher-\
                                                                 request
   2511 data   /ietf-voucher-request:voucher/proximity-registrar-cert
   2512 data   /ietf-voucher-request:voucher/proximity-registrar-pubk-\
                                                                  sha256
   2513 data   /ietf-voucher-request:voucher/proximity-registrar-pubk
   2514 data   /ietf-voucher-request:voucher/serial-number
   2515 data   /ietf-voucher-request:voucher/agent-provided-proximity-\
                                                          registrar-cert
   2516 data   /ietf-voucher-request:voucher/agent-sign-cert
   2517 data   /ietf-voucher-request:voucher/agent-signed-data
   2518 data   /ietf-voucher-request:voucher/pinned-domain-pubk
   2519 data   /ietf-voucher-request:voucher/pinned-domain-pubk-sha256
   2520 data   /ietf-voucher-request:voucher/additional-configuration-\
                                                                     url
   2521 data   /ietf-voucher-request:voucher/est-domain
   2522 data   /ietf-voucher-request:voucher/extensions
   2523 data   /ietf-voucher-request:voucher/manufacturer-private

   The 'assertion' Attribute is an enumerated type, and has values as
   defined in Table 2.





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10.  Design Considerations

10.1.  Renewals Instead of Revocations

   The lifetimes of Vouchers may vary.  In some Onboarding protocols,
   the Vouchers may be created and consumed immediately, whereas in
   other Onboarding solutions, there may be a significant time delay
   between when a Voucher is created and when it is consumed.  In cases
   when there is a time delay, there is a need for the Pledge to ensure
   that the assertions made when the Voucher was created are still
   valid.

   A revocation artifact is generally used to verify the continued
   validity of an assertion such as a PKIX certificate [RFC5280], web
   token, or Voucher.  With this approach, a potentially long-lived
   assertion is paired with a reasonably fresh revocation status check
   to ensure that the assertion is still valid.  However, this approach
   increases solution complexity, as it introduces the need for
   additional protocols and code paths to distribute and process the
   revocations.

   Addressing the shortcomings of revocations, this document recommends
   instead the use of lightweight renewals of short-lived non-revocable
   Vouchers.  That is, rather than issue a long-lived Voucher, where the
   'expires-on' Attribute is set to some distant date, the expectation
   is for the MASA to instead issue a short-lived Voucher, where the
   'expires-on' Attribute is set to a relatively near date, along with a
   promise (reflected in the 'last-renewal-date' Attribute) to reissue
   the Voucher again when needed.  Importantly, while issuing the
   initial Voucher may incur heavyweight verification checks ("Are you
   who you say you are?"  "Does the Pledge actually belong to you?"),
   reissuing the Voucher should be a lightweight process, as it
   ostensibly only updates the Voucher's validity period.  With this
   approach, there is only the one Artifact, and only one code path is
   needed to process it; there is no possibility of a Pledge choosing to
   skip the revocation status check because, for instance, the OCSP
   Responder ([RFC5280]) is not reachable.

   While this document recommends issuing short-lived Vouchers, the
   Voucher Artifact does not restrict the ability to create long-lived
   Vouchers, if required; however, no revocation method is described.

   Note that a Voucher may be signed by a chain of intermediate CAs
   leading up to the trust anchor CA known by the Pledge.  Even though
   the Voucher itself is not revocable, it is still revoked, per se, if
   one of the intermediate CA certificates is revoked.





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10.2.  Voucher Per Pledge

   The solution described herein originally enabled a single Voucher to
   apply to many Pledges, using lists of regular expressions to
   represent ranges of serial numbers.  However, it was determined that
   blocking the renewal of a Voucher that applied to many devices would
   be excessive when only the ownership for a single Pledge needed to be
   blocked.  Thus, the Voucher format now only supports a single serial
   number to be listed.

11.  Security Considerations

11.1.  Clock Sensitivity

   An attacker could use an expired Voucher to gain control over a
   device that has no understanding of time.  The device cannot trust
   NTP as a time reference, as an attacker could control the NTP stream.

   There are three things to defend against this: 1) devices are
   required to verify that the 'expires-on' Attribute has not yet
   passed, 2) devices without access to time can use nonces to get
   ephemeral Vouchers, and 3) Vouchers without expiration times may be
   used, which will appear in the audit log, informing the security
   decision.

   This document defines a Voucher format that contains time values for
   expirations, which require an accurate clock in order to be processed
   correctly.  Vendors planning on issuing Vouchers with expiration
   values must ensure that devices have an accurate clock when shipped
   from manufacturing facilities and take steps to prevent clock
   tampering.  If it is not possible to ensure clock accuracy, then
   Vouchers with time values for expirations should not be issued.

11.2.  Protect MASA Signing Key in HSM

   Pursuant to the recommendation made in Section 6.1 for the MASA to be
   deployed as an online Voucher signing service, it is RECOMMENDED that
   the MASA's private key used for signing Vouchers is protected by a
   hardware security module (HSM).

11.3.  Test Domain Certificate Validity When Signing

   If a Domain certificate is compromised, then any outstanding Vouchers
   for that Domain could be used by the attacker.  In this case, the
   Domain administrator is clearly expected to initiate revocation of
   any Domain identity certificates (as is normal in PKIX [RFC5280]
   solutions).




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   Similarly, they are expected to contact the MASA to indicate that an
   outstanding (presumably short lifetime) Voucher should be blocked
   from automated renewal.  Protocols for Voucher distribution are
   RECOMMENDED to check for revocation of Domain identity certificates
   before the signing of Vouchers.

11.4.  YANG Module Security Considerations

   The YANG modules specified in this document define the schema for
   data that is subsequently encapsulated by secure signed-data
   structures, such as the CMS signed-data described in Section 7.1.  As
   such, all of the YANG-modeled data is protected from modification.

   Implementations should be aware that the signed data is only
   protected from external modification; the data is still visible.
   This potential disclosure of information doesn't affect security so
   much as privacy.  In particular, adversaries can glean information
   such as which devices belong to which organizations and which CRL
   Distribution Point and/or OCSP Responder URLs are accessed to
   validate the Vouchers.  When privacy is important, the CMS signed-
   data content type SHOULD be encrypted, either by conveying it via a
   mutually authenticated secure transport protocol (e.g., TLS
   [RFC8446]) or by encapsulating the signed-data content type with an
   enveloped-data content type (Section 6 of [RFC5652]), though details
   for how to do this are outside the scope of this document.

   The use of YANG to define data structures, via the "sx:structure"
   extension [RFC8791], is relatively new and distinct from the
   traditional use of YANG to define an API accessed by network
   management protocols such as NETCONF [RFC6241] and RESTCONF
   [RFC8040].  For this reason, this security considerations section
   does not follow the template described by Section 3.7 of
   [YANG-GUIDE].

12.  IANA Considerations

12.1.  The IETF XML Registry

   This document updates two URIs in the "IETF XML Registry" [RFC3688].

   IANA has registered the following based on [RFC8366] and [BRSKI]
   respectively:

      URI:  urn:ietf:params:xml:ns:yang:ietf-voucher
      Registrant Contact:  The ANIMA WG of the IETF.
      XML:  N/A, the requested URI is an XML namespace.

      URI:  urn:ietf:params:xml:ns:yang:ietf-voucher-request



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      Registrant Contact:  The ANIMA WG of the IETF.
      XML:  N/A, the requested URI is an XML namespace.

   For both entries, the reference should be updated to point to this
   document.

12.2.  The YANG Module Names Registry

   This document updates two entries in the "YANG Module Names" registry
   [RFC6020].

   IANA has registered the following based on [RFC8366]:

      name:  ietf-voucher
      namespace:  urn:ietf:params:xml:ns:yang:ietf-voucher
      prefix:  vch
      reference:  RFC 8366

   This reference should be updated to point to this document and the
   "File" entry should be updated to point to the new module revision in
   Section 8.3.

   IANA has registered the following based on [BRSKI]:

      name:  ietf-voucher-request
      namespace:  urn:ietf:params:xml:ns:yang:ietf-voucher-request
      prefix:  vch
      reference:  RFC 8995

   This reference should also be updated to point to this document and
   the "File" entry should be updated to point to the new module
   revision in Section 9.2.  Additionally, the "prefix" field should be
   updated as follows:

      prefix:  vcr

12.3.  The Media Types Registry

   IANA has registered the media type: application/voucher-cms+json, and
   this registration should be updated to point to this document.

      Type name:  application
      Subtype name:  voucher-cms+json
      Required parameters:  none
      Optional parameters:  none
      Encoding considerations:  CMS-signed JSON vouchers are ASN.1/DER
         encoded.
      Security considerations:  See Section 11



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      Interoperability considerations: The format is designed to be
      broadly interoperable.

      Published specification:  THISDOCUMENT

      Applications that use this media type:  ANIMA, 6tisch, and NETCONF
         zero-touch imprinting systems.

      Fragment identifier considerations:  none

      Additional information:  Deprecated alias names for this type:
         none

         Magic number(s): None

         File extension(s): .vcj

         Macintosh file type code(s): none

      Person and email address to contact for further information:  IETF
         ANIMA WG

      Intended usage:  LIMITED

      Restrictions on usage:  NONE

      Author:  ANIMA WG

      Change controller:  IETF

      Provisional registration? (standards tree only):  NO

12.4.  The SMI Security for S/MIME CMS Content Type Registry

   IANA has registered the OID 1.2.840.113549.1.9.16.1.40, 'id-ct-
   animaJSONVoucher'.  This registration should be updated to point to
   this document.

12.5.  The Voucher Extensions Registry

   IANA is asked to create a registry of Voucher extensions as follows:

      Registry name:  Voucher Extensions Registry
      Registry policy:  First Come First Served
      Reference:  an optional document
      Extension name:  UTF-8-encoded string, not to exceed 40
         characters.
      Extension SID:  the YANG module SID value that defines the



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         extension per Section 8.5.

   Each extension MUST follow the rules specified in this specification.
   As is usual, the IANA issues early allocations in accordance with
   [RFC7120].

   Note that the SID module value is allocated as part of a [CORESID]
   process.  This may be from a SID range managed by IANA, or from any
   other MegaRange.  Future work may allow for PEN based allocations.
   IANA does not need to separately allocate a SID value for this
   column.

   Extension name strings for standards track documents are single
   words, given by the YANG Module Name.  They do not contain dots.  For
   vendor proprietary extensions, the string SHOULD be made unique by
   putting the extension name in the form a fully-qualified domain name
   (FQDN) [RFC3696], such as "fuubar.example.com"

   Vendor proprietary extensions do not need to be registered with IANA,
   but vendors MAY do so.

   Designated Experts should review for standards track documents for
   clarity, but the process is essentially tied to WG and IESG process:
   There are no choices in the extension names (which is always the YANG
   module name), or SID value (which is from another IANA process).  For
   non-standards track extensions, the Designated Expert should review
   whatever document is provided, if any.  The stability of the
   reference may be of concern.  The Designated Expert should determine
   if the work overlaps with existing efforts; and if so suggest
   merging.  However, as registration is optional, the Designated Expert
   should not block any registrations.

12.6.  The IETF YANG-SID Ranges Registry

   IANA is requested to register the following entries in the IETF YANG-
   SID Ranges registry:

        +=============+======+======================+============+
        | Entry Point | Size | Module Name          | Reference  |
        +=============+======+======================+============+
        |     2450    |  50  | ietf-voucher         | [This RFC] |
        +-------------+------+----------------------+------------+
        |     2500    |  50  | ietf-voucher-request | [This RFC] |
        +-------------+------+----------------------+------------+

                      Table 3: Registered SID ranges





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12.7.  The IETF YANG-SID Modules Registry

   IANA is requested to register the following YANG module in the IETF
   YANG-SID Modules registry, per Section 6.5.1 of [CORESID]:

   *  YANG module name: ietf-voucher

   *  URI for the ".yang" file: a pointer to the file defined in
      Section 8.3

   *  URI for the ".sid" file: a pointer to the file defined in
      Appendix B.1

   *  Number of SIDs: 17

   and also the following YANG module:

   *  YANG module name: ietf-voucher-request

   *  URI for the ".yang" file: a pointer to the file defined in
      Section 9.2

   *  URI for the ".sid" file: a pointer to the file defined in
      Appendix B.2

   *  Number of SIDs: 24

13.  References

13.1.  Normative References

   [BRSKI]    Pritikin, M., Richardson, M., Eckert, T., Behringer, M.,
              and K. Watsen, "Bootstrapping Remote Secure Key
              Infrastructure (BRSKI)", RFC 8995, DOI 10.17487/RFC8995,
              May 2021, <https://www.rfc-editor.org/rfc/rfc8995>.

   [CBOR]     Internet Standard 94,
              <https://www.rfc-editor.org/info/std94>.
              At the time of writing, this STD comprises the following:

              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/info/rfc8949>.

   [cBRSKI]   Richardson, M., Van der Stok, P., Kampanakis, P., and E.
              Dijk, "Constrained Bootstrapping Remote Secure Key
              Infrastructure (cBRSKI)", Work in Progress, Internet-



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              Draft, draft-ietf-anima-constrained-voucher-29, 18 October
              2025, <https://datatracker.ietf.org/doc/html/draft-ietf-
              anima-constrained-voucher-29>.

   [CLOUD]    Friel, O., Shekh-Yusef, R., and M. Richardson,
              "Bootstrapping Remote Secure Key Infrastructure (BRSKI)
              Cloud Registrar", Work in Progress, Internet-Draft, draft-
              ietf-anima-brski-cloud-19, 9 September 2025,
              <https://datatracker.ietf.org/doc/html/draft-ietf-anima-
              brski-cloud-19>.

   [CORESID]  Veillette, M., Ed., Pelov, A., Ed., Petrov, I., Ed.,
              Bormann, C., and M. Richardson, "YANG Schema Item
              iDentifier (YANG SID)", RFC 9595, DOI 10.17487/RFC9595,
              July 2024, <https://www.rfc-editor.org/rfc/rfc9595>.

   [eid7263]  "Errata 7263, RFC8995", n.d.,
              <https://www.rfc-editor.org/errata/eid7263>.

   [IDEVID]   IEEE Standard, "IEEE 802.1AR Secure Device Identifier",
              2018, <https://1.ieee802.org/security/802-1ar/>.

   [ITU-T.X690.2015]
              International Telecommunication Union, "Information
              Technology - ASN.1 encoding rules: Specification of Basic
              Encoding Rules (BER), Canonical Encoding Rules (CER) and
              Distinguished Encoding Rules (DER)", ITU-T Recommendation
              X.690, ISO/IEC 8825-1, August 2015,
              <https://www.itu.int/rec/T-REC-X.690/>.

   [jBRSKI]   Werner, T. and M. Richardson, "JWS signed Voucher
              Artifacts for Bootstrapping Protocols", Work in Progress,
              Internet-Draft, draft-ietf-anima-jws-voucher-16, 15
              January 2025, <https://datatracker.ietf.org/doc/html/
              draft-ietf-anima-jws-voucher-16>.

   [PRM]      Fries, S., Werner, T., Lear, E., and M. Richardson, "BRSKI
              with Pledge in Responder Mode (BRSKI-PRM)", Work in
              Progress, Internet-Draft, draft-ietf-anima-brski-prm-23, 3
              June 2025, <https://datatracker.ietf.org/doc/html/draft-
              ietf-anima-brski-prm-23>.

   [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>.





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   [RFC5280]  Cooper, D., Santesson, S., Farrell, S., Boeyen, S.,
              Housley, R., and W. Polk, "Internet X.509 Public Key
              Infrastructure Certificate and Certificate Revocation List
              (CRL) Profile", RFC 5280, DOI 10.17487/RFC5280, May 2008,
              <https://www.rfc-editor.org/rfc/rfc5280>.

   [RFC5652]  Housley, R., "Cryptographic Message Syntax (CMS)", STD 70,
              RFC 5652, DOI 10.17487/RFC5652, September 2009,
              <https://www.rfc-editor.org/rfc/rfc5652>.

   [RFC6020]  Bjorklund, M., Ed., "YANG - A Data Modeling Language for
              the Network Configuration Protocol (NETCONF)", RFC 6020,
              DOI 10.17487/RFC6020, October 2010,
              <https://www.rfc-editor.org/rfc/rfc6020>.

   [RFC7120]  Cotton, M., "Early IANA Allocation of Standards Track Code
              Points", BCP 100, RFC 7120, DOI 10.17487/RFC7120, January
              2014, <https://www.rfc-editor.org/rfc/rfc7120>.

   [RFC7950]  Bjorklund, M., Ed., "The YANG 1.1 Data Modeling Language",
              RFC 7950, DOI 10.17487/RFC7950, August 2016,
              <https://www.rfc-editor.org/rfc/rfc7950>.

   [RFC7951]  Lhotka, L., "JSON Encoding of Data Modeled with YANG",
              RFC 7951, DOI 10.17487/RFC7951, August 2016,
              <https://www.rfc-editor.org/rfc/rfc7951>.

   [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>.

   [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>.

   [RFC8791]  Bierman, A., Björklund, M., and K. Watsen, "YANG Data
              Structure Extensions", RFC 8791, DOI 10.17487/RFC8791,
              June 2020, <https://www.rfc-editor.org/rfc/rfc8791>.

   [RFC9254]  Veillette, M., Ed., Petrov, I., Ed., Pelov, A., Bormann,
              C., and M. Richardson, "Encoding of Data Modeled with YANG
              in the Concise Binary Object Representation (CBOR)",
              RFC 9254, DOI 10.17487/RFC9254, July 2022,
              <https://www.rfc-editor.org/rfc/rfc9254>.






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   [ZERO-TOUCH]
              Watsen, K., Farrer, I., and M. Abrahamsson, "Secure Zero
              Touch Provisioning (SZTP)", RFC 8572,
              DOI 10.17487/RFC8572, April 2019,
              <https://www.rfc-editor.org/rfc/rfc8572>.

13.2.  Informative References

   [COSE]     Internet Standard 96,
              <https://www.rfc-editor.org/info/std96>.
              At the time of writing, this STD comprises the following:

              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/info/rfc9052>.

              Schaad, J., "CBOR Object Signing and Encryption (COSE):
              Countersignatures", STD 96, RFC 9338,
              DOI 10.17487/RFC9338, December 2022,
              <https://www.rfc-editor.org/info/rfc9338>.

   [fairhair] Open Connectivity Foundation, "Fairhair Specification", 1
              November 2019,
              <https://openconnectivity.org/developer/specifications/
              fairhair/>.

   [I-D.ietf-lake-authz]
              Selander, G., Mattsson, J. P., Vučinić, M., Fedrecheski,
              G., and M. Richardson, "Lightweight Authorization using
              Ephemeral Diffie-Hellman Over COSE (ELA)", Work in
              Progress, Internet-Draft, draft-ietf-lake-authz-06, 20
              October 2025, <https://datatracker.ietf.org/doc/html/
              draft-ietf-lake-authz-06>.

   [I-D.vangeest-lamps-cms-euf-cma-signeddata]
              Van Geest, D. and F. Strenzke, "Best Practices for CMS
              SignedData with Regards to Signed Attributes", Work in
              Progress, Internet-Draft, draft-vangeest-lamps-cms-euf-
              cma-signeddata-02, 20 October 2025,
              <https://datatracker.ietf.org/doc/html/draft-vangeest-
              lamps-cms-euf-cma-signeddata-02>.

   [imprinting]
              Wikipedia, "Wikipedia article: Imprinting (psychology)", 1
              October 2025, <https://en.wikipedia.org/w/
              index.php?title=Imprinting_(psychology)&oldid=1314466188>.




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   [JWS]      Jones, M., Bradley, J., and N. Sakimura, "JSON Web
              Signature (JWS)", RFC 7515, DOI 10.17487/RFC7515, May
              2015, <https://www.rfc-editor.org/rfc/rfc7515>.

   [RFC3688]  Mealling, M., "The IETF XML Registry", BCP 81, RFC 3688,
              DOI 10.17487/RFC3688, January 2004,
              <https://www.rfc-editor.org/rfc/rfc3688>.

   [RFC3696]  Klensin, J., "Application Techniques for Checking and
              Transformation of Names", RFC 3696, DOI 10.17487/RFC3696,
              February 2004, <https://www.rfc-editor.org/rfc/rfc3696>.

   [RFC4648]  Josefsson, S., "The Base16, Base32, and Base64 Data
              Encodings", RFC 4648, DOI 10.17487/RFC4648, October 2006,
              <https://www.rfc-editor.org/rfc/rfc4648>.

   [RFC6125]  Saint-Andre, P. and J. Hodges, "Representation and
              Verification of Domain-Based Application Service Identity
              within Internet Public Key Infrastructure Using X.509
              (PKIX) Certificates in the Context of Transport Layer
              Security (TLS)", RFC 6125, DOI 10.17487/RFC6125, March
              2011, <https://www.rfc-editor.org/rfc/rfc6125>.

   [RFC6241]  Enns, R., Ed., Bjorklund, M., Ed., Schoenwaelder, J., Ed.,
              and A. Bierman, Ed., "Network Configuration Protocol
              (NETCONF)", RFC 6241, DOI 10.17487/RFC6241, June 2011,
              <https://www.rfc-editor.org/rfc/rfc6241>.

   [RFC7435]  Dukhovni, V., "Opportunistic Security: Some Protection
              Most of the Time", RFC 7435, DOI 10.17487/RFC7435,
              December 2014, <https://www.rfc-editor.org/rfc/rfc7435>.

   [RFC8040]  Bierman, A., Bjorklund, M., and K. Watsen, "RESTCONF
              Protocol", RFC 8040, DOI 10.17487/RFC8040, January 2017,
              <https://www.rfc-editor.org/rfc/rfc8040>.

   [RFC8340]  Bjorklund, M. and L. Berger, Ed., "YANG Tree Diagrams",
              BCP 215, RFC 8340, DOI 10.17487/RFC8340, March 2018,
              <https://www.rfc-editor.org/rfc/rfc8340>.

   [RFC8366]  Watsen, K., Richardson, M., Pritikin, M., and T. Eckert,
              "A Voucher Artifact for Bootstrapping Protocols",
              RFC 8366, DOI 10.17487/RFC8366, May 2018,
              <https://www.rfc-editor.org/rfc/rfc8366>.

   [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>.



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   [RFC8520]  Lear, E., Droms, R., and D. Romascanu, "Manufacturer Usage
              Description Specification", RFC 8520,
              DOI 10.17487/RFC8520, March 2019,
              <https://www.rfc-editor.org/rfc/rfc8520>.

   [RFC8792]  Watsen, K., Auerswald, E., Farrel, A., and Q. Wu,
              "Handling Long Lines in Content of Internet-Drafts and
              RFCs", RFC 8792, DOI 10.17487/RFC8792, June 2020,
              <https://www.rfc-editor.org/rfc/rfc8792>.

   [RFC9110]  Fielding, R., Ed., Nottingham, M., Ed., and J. Reschke,
              Ed., "HTTP Semantics", STD 97, RFC 9110,
              DOI 10.17487/RFC9110, June 2022,
              <https://www.rfc-editor.org/rfc/rfc9110>.

   [RFC9499]  Hoffman, P. and K. Fujiwara, "DNS Terminology", BCP 219,
              RFC 9499, DOI 10.17487/RFC9499, March 2024,
              <https://www.rfc-editor.org/rfc/rfc9499>.

   [RFC9525]  Saint-Andre, P. and R. Salz, "Service Identity in TLS",
              RFC 9525, DOI 10.17487/RFC9525, November 2023,
              <https://www.rfc-editor.org/rfc/rfc9525>.

   [SECUREJOIN]
              Richardson, M., "6tisch Zero-Touch Secure Join protocol",
              Work in Progress, Internet-Draft, draft-ietf-6tisch-
              dtsecurity-zerotouch-join-04, 8 July 2019,
              <https://datatracker.ietf.org/doc/html/draft-ietf-6tisch-
              dtsecurity-zerotouch-join-04>.

   [Stajano99theresurrecting]
              Stajano, F. and R. Anderson, "The Resurrecting Duckling:
              Security Issues for Ad-Hoc Wireless Networks", 1999, <http
              s://www.cl.cam.ac.uk/research/dtg/www/files/publications/
              public/files/tr.1999.2.pdf>.

   [YANG-GUIDE]
              Bierman, A., "Guidelines for Authors and Reviewers of
              Documents Containing YANG Data Models", BCP 216, RFC 8407,
              DOI 10.17487/RFC8407, October 2018,
              <https://www.rfc-editor.org/rfc/rfc8407>.

Appendix A.  Examples








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A.1.  Key pairs associated with examples

   The following Voucher Request has been produced using the IDevID
   [IDEVID] public (certificate) and private key.  They are included so
   that other developers can match the same output.

   The private RSA key:

   -----BEGIN EC PRIVATE KEY-----
   MHcCAQEEIBHNh6r8QRevRuo+tEmBJeFjQKf6bpFA/9NGoltv+9sNoAoGCCqGSM49
   AwEHoUQDQgAEA6N1Q4ezfMAKmoecrfb0OBMc1AyEH+BATkF58FsTSyBxs0SbSWLx
   FjDOuwB9gLGn2TsTUJumJ6VPw5Z/TP4hJw==
   -----END EC PRIVATE KEY-----

   The IDevID certificate (public key):

   -----BEGIN CERTIFICATE-----
   MIIBrzCCATWgAwIBAgIEHxj+5zAKBggqhkjOPQQDAjAmMSQwIgYDVQQDDBtoaWdo
   d2F5LXRlc3QuZXhhbXBsZS5jb20gQ0EwIBcNMjEwNDI3MTgyOTMwWhgPMjk5OTEy
   MzEwMDAwMDBaMBwxGjAYBgNVBAUTETAwLUQwLUU1LUYyLTAwLTAyMFkwEwYHKoZI
   zj0CAQYIKoZIzj0DAQcDQgAEA6N1Q4ezfMAKmoecrfb0OBMc1AyEH+BATkF58FsT
   SyBxs0SbSWLxFjDOuwB9gLGn2TsTUJumJ6VPw5Z/TP4hJ6NZMFcwHQYDVR0OBBYE
   FEWIzJaWAGQ3sLojZWRkVAgGbFatMAkGA1UdEwQCMAAwKwYIKwYBBQUHASAEHxYd
   aGlnaHdheS10ZXN0LmV4YW1wbGUuY29tOjk0NDMwCgYIKoZIzj0EAwIDaAAwZQIw
   YirbvjT3G8uF3iaOQwD5DYjId6jdPAhAVLzsPbbccCvDf8oZIZqgq8VRjqrfNt6L
   AjEAsl1Z+EfH7QOXqMDHqIH6qIbtZ2Q3UXpunKOCTW2tvPM1np1qom1/fyUcA+/w
   uptx
   -----END CERTIFICATE-----

   The Certification Authority that created the IDevID:

   =============== NOTE: '\' line wrapping per RFC 8792 ================

   Certificate:
       Data:
           Version: 3 (0x2)
           Serial Number: 1016146354 (0x3c9129b2)
           Signature Algorithm: sha256WithRSAEncryption
           Issuer: CN = highway-test.example.com CA
           Validity
               Not Before: Apr  5 19:36:57 2021 GMT
               Not After : May  6 05:36:57 2021 GMT
           Subject: CN = highway-test.example.com CA
           Subject Public Key Info:
               Public Key Algorithm: rsaEncryption
                   Public-Key: (3072 bit)
                   Modulus:
                       00:b4:7b:27:42:49:9f:ed:85:47:74:ff:f6:50:cd:



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                       5d:22:1a:64:38:22:f8:09:d2:d6:f3:60:d8:98:7f:
                       e5:84:52:1e:d9:ce:96:b4:dc:a6:43:74:67:27:d9:
                       9d:42:7d:bf:1a:43:92:9b:d1:dd:34:9b:41:d2:e3:
                       d5:59:b3:40:fc:b3:c9:e1:58:84:3f:87:f7:06:45:
                       25:26:4c:bf:a1:45:72:a0:0a:5b:86:41:d7:8e:be:
                       d3:38:b5:aa:66:69:bd:3a:fd:e9:b5:b8:a2:79:c4:
                       f0:a5:3c:9e:91:94:32:1e:9c:b0:7f:25:46:5b:76:
                       1d:86:23:85:b0:62:45:5c:a8:6f:fb:c5:26:e1:dd:
                       a8:f2:68:ab:c5:8c:b4:58:b4:2e:96:49:fa:fe:d2:
                       ea:a5:11:68:c2:8d:f4:58:ab:30:bd:dd:1b:29:97:
                       00:18:6f:59:40:9c:3a:2a:e4:96:25:bb:12:f4:1a:
                       11:72:6d:31:f6:b4:e1:cc:d8:9a:0c:aa:a8:aa:a4:
                       64:e3:f1:06:1c:c0:09:df:62:ba:04:cb:70:b0:c4:
                       f7:ca:35:22:ea:a9:c7:52:e1:ce:27:fb:6c:52:39:
                       b7:22:b3:5d:97:cb:0a:9f:75:a3:af:16:ef:e6:b2:
                       1b:6a:c3:0b:1d:15:fd:b8:d8:e7:8a:f6:f4:99:1c:
                       23:97:4b:80:e9:79:a3:85:16:f8:dd:bd:77:ef:3a:
                       3c:8e:e7:75:56:67:36:3a:dd:42:7b:84:2f:64:2f:
                       13:0e:fa:b0:3b:11:13:7e:ae:78:a6:2f:46:dd:4b:
                       11:88:e4:7b:19:ab:21:2d:1f:34:ba:61:cd:51:84:
                       a5:ec:6a:c1:90:20:70:e3:aa:f4:01:fd:0c:6e:cd:
                       04:47:99:31:70:79:6c:af:41:78:c1:04:2a:43:78:
                       84:8a:fe:c3:3d:f2:41:c8:2a:a1:10:e0:b7:b4:4f:
                       4e:e6:26:79:ac:49:64:cf:57:1e:2e:e3:2f:58:bd:
                       6f:30:00:67:d7:8b:d6:13:60:bf
                   Exponent: 65537 (0x10001)
           X509v3 extensions:
               X509v3 Basic Constraints: critical
                   CA:TRUE
               X509v3 Key Usage: critical
                   Certificate Sign, CRL Sign
               X509v3 Subject Key Identifier:
                   33:12:45:B7:1B:10:BE:F3:CB:64:E5:4C:50:80:7C:9D:88:\
                                                                65:74:40
               X509v3 Authority Key Identifier:
                   33:12:45:B7:1B:10:BE:F3:CB:64:E5:4C:50:80:7C:9D:88:\
                                                                65:74:40
       Signature Algorithm: sha256WithRSAEncryption
       Signature Value:
           05:37:28:85:37:39:71:87:ec:5c:f0:51:19:55:4a:b7:e0:2a:
           e6:61:30:d4:e2:2b:ad:7a:db:12:fc:8a:a6:6e:15:82:80:10:
           fa:5d:67:60:e8:54:14:e3:89:d6:4e:60:89:98:5b:ab:fe:32:
           26:aa:02:35:68:4e:c6:2e:ce:08:36:d1:ea:a0:97:3d:76:38:
           6e:9d:4b:6f:33:d2:fa:c2:7e:b0:59:bc:75:97:17:d1:1b:c5:
           c4:58:ae:7b:7e:87:e5:87:2b:8b:6b:10:16:70:7c:c8:65:c7:
           d0:62:5d:f3:b5:06:af:03:8b:32:dd:88:f0:07:2b:5d:61:58:
           61:35:54:a6:ce:95:81:a2:6e:fa:b5:aa:25:e1:41:53:9d:e7:
           4b:7e:93:88:79:6b:dd:a3:6e:9a:0d:bd:85:b4:2d:66:b9:cc:



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           01:13:f1:b5:d5:91:cc:86:5e:a7:c8:4a:8f:4d:9d:f8:17:31:
           32:7d:50:d5:c2:79:a0:41:a0:69:83:33:16:14:35:26:10:3b:
           23:eb:60:d9:28:68:99:d5:55:61:89:b5:35:5d:8b:fe:b1:96:
           32:69:3e:8b:c2:a2:4e:e1:d8:76:04:3c:87:91:5d:66:9e:81:
           a5:bf:18:2e:3e:39:da:4f:68:57:46:d2:1d:aa:81:51:3b:33:
           72:da:e9:7d:12:b6:a1:fc:c7:1d:c1:9c:bd:92:e8:1b:d2:06:
           e8:0b:82:2a:4f:23:5a:7a:fa:7b:86:a0:d7:c1:46:e7:04:47:
           77:11:cd:da:7c:50:32:d2:6f:fd:1e:0a:df:cf:b1:20:d2:86:
           ce:40:5a:27:61:49:2f:71:f5:04:ac:eb:c6:03:70:a4:70:13:
           4a:af:41:35:83:dc:55:c0:29:7f:12:4f:d0:f1:bb:f7:61:4a:
           9f:8d:61:b0:5e:89:46:49:e3:27:8b:42:82:5e:af:14:d5:d9:
           91:69:3d:af:11:70:5b:a3:92:3b:e3:c8:2a:a4:38:e5:88:f2:
           6f:09:f4:e5:04:3b
   -----BEGIN CERTIFICATE-----
   MIIELTCCApWgAwIBAgIEPJEpsjANBgkqhkiG9w0BAQsFADAmMSQwIgYDVQQDDBto
   aWdod2F5LXRlc3QuZXhhbXBsZS5jb20gQ0EwHhcNMjEwNDA1MTkzNjU3WhcNMjEw
   NTA2MDUzNjU3WjAmMSQwIgYDVQQDDBtoaWdod2F5LXRlc3QuZXhhbXBsZS5jb20g
   Q0EwggGiMA0GCSqGSIb3DQEBAQUAA4IBjwAwggGKAoIBgQC0eydCSZ/thUd0//ZQ
   zV0iGmQ4IvgJ0tbzYNiYf+WEUh7Zzpa03KZDdGcn2Z1Cfb8aQ5Kb0d00m0HS49VZ
   s0D8s8nhWIQ/h/cGRSUmTL+hRXKgCluGQdeOvtM4tapmab06/em1uKJ5xPClPJ6R
   lDIenLB/JUZbdh2GI4WwYkVcqG/7xSbh3ajyaKvFjLRYtC6WSfr+0uqlEWjCjfRY
   qzC93RsplwAYb1lAnDoq5JYluxL0GhFybTH2tOHM2JoMqqiqpGTj8QYcwAnfYroE
   y3CwxPfKNSLqqcdS4c4n+2xSObcis12XywqfdaOvFu/mshtqwwsdFf242OeK9vSZ
   HCOXS4DpeaOFFvjdvXfvOjyO53VWZzY63UJ7hC9kLxMO+rA7ERN+rnimL0bdSxGI
   5HsZqyEtHzS6Yc1RhKXsasGQIHDjqvQB/QxuzQRHmTFweWyvQXjBBCpDeISK/sM9
   8kHIKqEQ4Le0T07mJnmsSWTPVx4u4y9YvW8wAGfXi9YTYL8CAwEAAaNjMGEwDwYD
   VR0TAQH/BAUwAwEB/zAOBgNVHQ8BAf8EBAMCAQYwHQYDVR0OBBYEFDMSRbcbEL7z
   y2TlTFCAfJ2IZXRAMB8GA1UdIwQYMBaAFDMSRbcbEL7zy2TlTFCAfJ2IZXRAMA0G
   CSqGSIb3DQEBCwUAA4IBgQAFNyiFNzlxh+xc8FEZVUq34CrmYTDU4iutetsS/Iqm
   bhWCgBD6XWdg6FQU44nWTmCJmFur/jImqgI1aE7GLs4INtHqoJc9djhunUtvM9L6
   wn6wWbx1lxfRG8XEWK57foflhyuLaxAWcHzIZcfQYl3ztQavA4sy3YjwBytdYVhh
   NVSmzpWBom76taol4UFTnedLfpOIeWvdo26aDb2FtC1mucwBE/G11ZHMhl6nyEqP
   TZ34FzEyfVDVwnmgQaBpgzMWFDUmEDsj62DZKGiZ1VVhibU1XYv+sZYyaT6LwqJO
   4dh2BDyHkV1mnoGlvxguPjnaT2hXRtIdqoFROzNy2ul9Erah/McdwZy9kugb0gbo
   C4IqTyNaevp7hqDXwUbnBEd3Ec3afFAy0m/9Hgrfz7Eg0obOQFonYUkvcfUErOvG
   A3CkcBNKr0E1g9xVwCl/Ek/Q8bv3YUqfjWGwXolGSeMni0KCXq8U1dmRaT2vEXBb
   o5I748gqpDjliPJvCfTlBDs=
   -----END CERTIFICATE-----

   The private key for the Certification Authority that created the
   IDevID:










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   -----BEGIN RSA PRIVATE KEY-----
   MIIG5AIBAAKCAYEAtHsnQkmf7YVHdP/2UM1dIhpkOCL4CdLW82DYmH/lhFIe2c6W
   tNymQ3RnJ9mdQn2/GkOSm9HdNJtB0uPVWbNA/LPJ4ViEP4f3BkUlJky/oUVyoApb
   hkHXjr7TOLWqZmm9Ov3ptbiiecTwpTyekZQyHpywfyVGW3YdhiOFsGJFXKhv+8Um
   4d2o8mirxYy0WLQulkn6/tLqpRFowo30WKswvd0bKZcAGG9ZQJw6KuSWJbsS9BoR
   cm0x9rThzNiaDKqoqqRk4/EGHMAJ32K6BMtwsMT3yjUi6qnHUuHOJ/tsUjm3IrNd
   l8sKn3Wjrxbv5rIbasMLHRX9uNjnivb0mRwjl0uA6XmjhRb43b137zo8jud1Vmc2
   Ot1Ce4QvZC8TDvqwOxETfq54pi9G3UsRiOR7GashLR80umHNUYSl7GrBkCBw46r0
   Af0Mbs0ER5kxcHlsr0F4wQQqQ3iEiv7DPfJByCqhEOC3tE9O5iZ5rElkz1ceLuMv
   WL1vMABn14vWE2C/AgMBAAECggGAAUF6HHP2sOhkfuPpCtbi9wHIALv9jdPxuu/J
   kgYRysHnhQxy7/85CO8eaKCS/4twcPZXZs4nA96wro73RRCCOz/k/7Rl9yszBNAm
   WgXer3iUO5jW2jBLF6ssPRDGhr/lmSt7HNCUENTV99BcKhcl4iCk+b2Ap9JCklRc
   8cU9Rk/Ft7K/eoLYUhd4Wn+IIbXfPRx2qp89Erj0SaZDNPq79BY9wiRS09iyfkiX
   /wRoJwsOLrSfunQYDOdlSs+XAs+NKeKmB6chmPhP+sYTXx+zFj+36NRjq2dxkYSH
   hB9peJ5yzTDhLQpagV5D36VXQsqHawvgEu6cQAfcZ4Iqmnura7zYBysfk4YzzizO
   rsc9rYGP10UO5W0EpKR/IcNfMGwtDbHe1/7z+0JSVDe/ldht8YrwX3ogd5rNbhlf
   lUE+D7rof8E8g6Uz4TWI8dpMDaXCzjgz6q2iiW770R5xCphLFbuNh/SnbkYNYNEo
   k8AN+Fx+w3EO7Cg4aaETB76iNXVBAoHBAOibavF4IYurjni39Z/6vIhO31F7VdNj
   x9gZ9Om6MmZNFSbU8PLyoQEyI46ygf8TO/BSfiHyUMncohmXWsoUXiFZV412aVqk
   HgZg+MWsKuYuTmGk/CouYQzd7RtrLl8TpPncXhsJIZ48ppcVGnMHnWZmTLj/Kqf6
   oDfsI7QhZy8fUxgIJ3vWoC5zFeQYzXpID4PKkn6mXczt6YiQHFJuvqVjpflVh9WZ
   leIhCBxoI76j1uU3ZiOEWfkmxSWddIPyIwKBwQDGobnHJ1lIJeny/KaHBVt8OECV
   wEH6lAxp4jcxYgQCbPVGJzNs+BstjOiY+UDrG2MVyJ+dj+yS2lfDBJcyzo/mE/ox
   0odGpKJ9MVk4Mb4m543Jllgb9ZQmJmKzJipqpRetmXV22QB0sJyaYL4M3zroqw17
   tEf6HH1vmc9XQwACJOrlm+k41djutwmuCE2JYoNbLdcrCgdfO06Z3bhNkknbrrFD
   OrB40xx1H5u38kDU7ifieQ4jvUEWk6a5+sIR+rUCgcEAyp+AJEJyblmObShKhgaE
   LvUN4cvfcppL3rqVtvhkqOrizwXVsryadhE4GjjztsAJiYpCp82OhJl2d3Z6NuhR
   KxnJg8gvdC7cnM/iRUd5wzN5QePXaeMm1W+I+UZ/iYDySFmnfEOTDmVk9N0EQknS
   2f2pPcnBXbybzrscSvCCEvFlj9yikGTg+jV0T1MvwyJ8qWBQBpVjxn1E3poyobgo
   yKeqUC0qe24ju2zsxNoOsSXFr7x3c976BWi5ec/UTJAjAoHAYZ+GwRzTwqPvsZ7+
   8Yluh0TWaUNOqistVrT5z2mO8uo+OjZ2De563Q5OGzEV+PdC4afy2uurqBlr3Mta
   zHu9OaVD6EzCc7PisIkagoXgIRrZEuSzdTpjj8R56fauDjAJzSaJFtpcYP2UWkOF
   5KmqOEQpokzeu0xZUgpUX1zsmiEu2Z6hJ2/i6KBJP6GRCh7C1INZJywMp39siC7y
   sB1f83qOYK5toVSQvffE/skvl/dc3vAERQh0/vWekfVugIupAoHBAJj9U/aFU/c5
   Kc/94hmeR6TljINMSn0EI9nlJ5FkY2BDmzgeAD9/kNBbPHRjIyMa5Ow7rHO4Lt09
   U837yytEcbmErNzMuBhOX+nirXXq1Dp5LMNkHP3gnPy0XC2Cu5m2vH/qbFhIlRER
   1GXCxBrWOzovXFu090oIjOhwCbxt7GWZH/GMUUJGXJb+s1CzQNz1qiXKng7XpluA
   S9jVch5pKqmWvDYYrBXmmCe9Ju0RnBCgOIuGUiCPjEFAy+myLdgQ0A==
   -----END RSA PRIVATE KEY-----

   The MASA certificate that signs the Voucher:










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   -----BEGIN CERTIFICATE-----
   MIIBcDCB9qADAgECAgQLhwoxMAoGCCqGSM49BAMCMCYxJDAiBgNVBAMMG2hpZ2h3
   YXktdGVzdC5leGFtcGxlLmNvbSBDQTAeFw0yMTA0MTMyMTQwMTZaFw0yMzA0MTMy
   MTQwMTZaMCgxJjAkBgNVBAMMHWhpZ2h3YXktdGVzdC5leGFtcGxlLmNvbSBNQVNB
   MFkwEwYHKoZIzj0CAQYIKoZIzj0DAQcDQgAEqgQVo0S54kT4yfkbBxumdHOcHrps
   qbOpMKmiMln3oB1HAW25MJV+gqi4tMFfSJ0iEwt8kszfWXK4rLgJS2mnpaMQMA4w
   DAYDVR0TAQH/BAIwADAKBggqhkjOPQQDAgNpADBmAjEArsthLdRcjW6GqgsGHcbT
   YLoyczYl0yOFSYcczpQjeRqeQVUkHRUioUi7CsCrPBNzAjEAhjxns5Wi4uX5rfkd
   nME0Mnj1z+rVRwOfAL/QWctRwpgEgSSKURNQsXWyL52otPS5
   -----END CERTIFICATE-----

   The private key for MASA certificate signs the Voucher:

   -----BEGIN EC PRIVATE KEY-----
   MHcCAQEEIFhdd0eDdzip67kXx72K+KHGJQYJHNy8pkiLJ6CcvxMGoAoGCCqGSM49
   AwEHoUQDQgAEqgQVo0S54kT4yfkbBxumdHOcHrpsqbOpMKmiMln3oB1HAW25MJV+
   gqi4tMFfSJ0iEwt8kszfWXK4rLgJS2mnpQ==
   -----END EC PRIVATE KEY-----

A.2.  Example CMS-signed Voucher Request































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   MIIGjQYJKoZIhvcNAQcCoIIGfjCCBnoCAQExDTALBglghkgBZQMEAgEwggOl
   BgkqhkiG9w0BBwGgggOWBIIDknsiaWV0Zi12b3VjaGVyLXJlcXVlc3Q6dm91
   Y2hlciI6eyJhc3NlcnRpb24iOiJwcm94aW1pdHkiLCJjcmVhdGVkLW9uIjoi
   MjAyMi0wNy0xMFQxNzowODoxOC41OTgtMDQ6MDAiLCJzZXJpYWwtbnVtYmVy
   IjoiMDAtRDAtRTUtRjItMDAtMDIiLCJub25jZSI6IjR2VHNwcFMyQ2VxQnpo
   RWRvaWZNMmciLCJwcm94aW1pdHktcmVnaXN0cmFyLWNlcnQiOiJNSUlDRURD
   Q0FaYWdBd0lCQWdJRVlGYTZaVEFLQmdncWhrak9QUVFEQWpCdE1SSXdFQVlL
   Q1pJbWlaUHlMR1FCR1JZQ1kyRXhHVEFYQmdvSmtpYUprL0lzWkFFWkZnbHpZ
   VzVrWld4dFlXNHhQREE2QmdOVkJBTU1NMlp2ZFc1MFlXbHVMWFJsYzNRdVpY
   aGhiWEJzWlM1amIyMGdWVzV6ZEhKMWJtY2dSbTkxYm5SaGFXNGdVbTl2ZENC
   RFFUQWVGdzB5TVRFeE1qUXhPVFF6TURWYUZ3MHlNekV4TWpReE9UUXpNRFZh
   TUZNeEVqQVFCZ29Ka2lhSmsvSXNaQUVaRmdKallURVpNQmNHQ2dtU0pvbVQ4
   aXhrQVJrV0NYTmhibVJsYkcxaGJqRWlNQ0FHQTFVRUF3d1pabTkxYm5SaGFX
   NHRkR1Z6ZEM1bGVHRnRjR3hsTG1OdmJUQlpNQk1HQnlxR1NNNDlBZ0VHQ0Nx
   R1NNNDlBd0VIQTBJQUJKWmxVSEkwdXAvbDNlWmY5dkNCYitsSW5vRU1FZ2M3
   Um8rWFpDdGpBSTBDRDFmSmZKUi9oSXl5RG1IV3lZaU5GYlJDSDlmeWFyZmt6
   Z1g0cDB6VGl6cWpQakE4TUNvR0ExVWRKUUVCL3dRZ01CNEdDQ3NHQVFVRkJ3
   TWNCZ2dyQmdFRkJRY0RBZ1lJS3dZQkJRVUhBd0V3RGdZRFZSMFBBUUgvQkFR
   REFnZUFNQW9HQ0NxR1NNNDlCQU1DQTJnQU1HVUNNUUNkU1pSSjgzTU5SQ3ph
   Myt2T0JhMDFoNHFadjJsS2hkK0RmaEI0WURodkdwa1dvbFplSEh3TmI3QXRC
   Q010YlV3Q01Ib054b2lrK3hXN0F0MWhYRWhwMy9NY1hpQWR6blpicFZxK3hK
   RVppaFhVMzZJQmp2WWdXREY5aXZxeEpwRGJ5dz09In19oIIBszCCAa8wggE1
   oAMCAQICBB8Y/ucwCgYIKoZIzj0EAwIwJjEkMCIGA1UEAwwbaGlnaHdheS10
   ZXN0LmV4YW1wbGUuY29tIENBMCAXDTIxMDQyNzE4MjkzMFoYDzI5OTkxMjMx
   MDAwMDAwWjAcMRowGAYDVQQFExEwMC1EMC1FNS1GMi0wMC0wMjBZMBMGByqG
   SM49AgEGCCqGSM49AwEHA0IABAOjdUOHs3zACpqHnK329DgTHNQMhB/gQE5B
   efBbE0sgcbNEm0li8RYwzrsAfYCxp9k7E1CbpielT8OWf0z+ISejWTBXMB0G
   A1UdDgQWBBRFiMyWlgBkN7C6I2VkZFQIBmxWrTAJBgNVHRMEAjAAMCsGCCsG
   AQUFBwEgBB8WHWhpZ2h3YXktdGVzdC5leGFtcGxlLmNvbTo5NDQzMAoGCCqG
   SM49BAMCA2gAMGUCMGIq27409xvLhd4mjkMA+Q2IyHeo3TwIQFS87D223HAr
   w3/KGSGaoKvFUY6q3zbeiwIxALJdWfhHx+0Dl6jAx6iB+qiG7WdkN1F6bpyj
   gk1trbzzNZ6daqJtf38lHAPv8LqbcTGCAQQwggEAAgEBMC4wJjEkMCIGA1UE
   AwwbaGlnaHdheS10ZXN0LmV4YW1wbGUuY29tIENBAgQfGP7nMAsGCWCGSAFl
   AwQCAaBpMBgGCSqGSIb3DQEJAzELBgkqhkiG9w0BBwEwHAYJKoZIhvcNAQkF
   MQ8XDTIyMDcxMDIxMDgxOFowLwYJKoZIhvcNAQkEMSIEIFc4jO6OnilTLkM/
   fcc9p5au4ANjvJvjRXsAKK6+RcTvMAoGCCqGSM49BAMCBEcwRQIhAOjoOdgh
   Sr+Hk2r2APsfs1+QJba0uRf/+zXA70yb6mRCAiB9aS6Wj8kBcWEvvfsDue41
   KWo0ukOBQxdPGpJqg+GAMw==

A.3.  Example CMS-signed Voucher from MASA











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   MIIGPQYJKoZIhvcNAQcCoIIGLjCCBioCAQExDTALBglghkgBZQMEAgEwggOU
   BgkqhkiG9w0BBwGgggOFBIIDgXsiaWV0Zi12b3VjaGVyOnZvdWNoZXIiOnsi
   YXNzZXJ0aW9uIjoibG9nZ2VkIiwiY3JlYXRlZC1vbiI6IjIwMjItMDctMTBU
   MTc6MDg6MTguNzIwLTA0OjAwIiwic2VyaWFsLW51bWJlciI6IjAwLUQwLUU1
   LUYyLTAwLTAyIiwibm9uY2UiOiI0dlRzcHBTMkNlcUJ6aEVkb2lmTTJnIiwi
   cGlubmVkLWRvbWFpbi1jZXJ0IjoiTUlJQ0VEQ0NBWmFnQXdJQkFnSUVZRmE2
   WlRBS0JnZ3Foa2pPUFFRREFqQnRNUkl3RUFZS0NaSW1pWlB5TEdRQkdSWUNZ
   MkV4R1RBWEJnb0praWFKay9Jc1pBRVpGZ2x6WVc1a1pXeHRZVzR4UERBNkJn
   TlZCQU1NTTJadmRXNTBZV2x1TFhSbGMzUXVaWGhoYlhCc1pTNWpiMjBnVlc1
   emRISjFibWNnUm05MWJuUmhhVzRnVW05dmRDQkRRVEFlRncweU1URXhNalF4
   T1RRek1EVmFGdzB5TXpFeE1qUXhPVFF6TURWYU1GTXhFakFRQmdvSmtpYUpr
   L0lzWkFFWkZnSmpZVEVaTUJjR0NnbVNKb21UOGl4a0FSa1dDWE5oYm1SbGJH
   MWhiakVpTUNBR0ExVUVBd3daWm05MWJuUmhhVzR0ZEdWemRDNWxlR0Z0Y0d4
   bExtTnZiVEJaTUJNR0J5cUdTTTQ5QWdFR0NDcUdTTTQ5QXdFSEEwSUFCSlps
   VUhJMHVwL2wzZVpmOXZDQmIrbElub0VNRWdjN1JvK1haQ3RqQUkwQ0QxZkpm
   SlIvaEl5eURtSFd5WWlORmJSQ0g5ZnlhcmZremdYNHAwelRpenFqUGpBOE1D
   b0dBMVVkSlFFQi93UWdNQjRHQ0NzR0FRVUZCd01jQmdnckJnRUZCUWNEQWdZ
   SUt3WUJCUVVIQXdFd0RnWURWUjBQQVFIL0JBUURBZ2VBTUFvR0NDcUdTTTQ5
   QkFNQ0EyZ0FNR1VDTVFDZFNaUko4M01OUkN6YTMrdk9CYTAxaDRxWnYybEto
   ZCtEZmhCNFlEaHZHcGtXb2xaZUhId05iN0F0QkNNdGJVd0NNSG9OeG9payt4
   VzdBdDFoWEVocDMvTWNYaUFkem5aYnBWcSt4SkVaaWhYVTM2SUJqdllnV0RG
   OWl2cXhKcERieXc9PSJ9faCCAXQwggFwMIH2oAMCAQICBAuHCjEwCgYIKoZI
   zj0EAwIwJjEkMCIGA1UEAwwbaGlnaHdheS10ZXN0LmV4YW1wbGUuY29tIENB
   MB4XDTIxMDQxMzIxNDAxNloXDTIzMDQxMzIxNDAxNlowKDEmMCQGA1UEAwwd
   aGlnaHdheS10ZXN0LmV4YW1wbGUuY29tIE1BU0EwWTATBgcqhkjOPQIBBggq
   hkjOPQMBBwNCAASqBBWjRLniRPjJ+RsHG6Z0c5weumyps6kwqaIyWfegHUcB
   bbkwlX6CqLi0wV9InSITC3ySzN9ZcrisuAlLaaeloxAwDjAMBgNVHRMBAf8E
   AjAAMAoGCCqGSM49BAMCA2kAMGYCMQCuy2Et1FyNboaqCwYdxtNgujJzNiXT
   I4VJhxzOlCN5Gp5BVSQdFSKhSLsKwKs8E3MCMQCGPGezlaLi5fmt+R2cwTQy
   ePXP6tVHA58Av9BZy1HCmASBJIpRE1CxdbIvnai09LkxggEEMIIBAAIBATAu
   MCYxJDAiBgNVBAMMG2hpZ2h3YXktdGVzdC5leGFtcGxlLmNvbSBDQQIEC4cK
   MTALBglghkgBZQMEAgGgaTAYBgkqhkiG9w0BCQMxCwYJKoZIhvcNAQcBMBwG
   CSqGSIb3DQEJBTEPFw0yMjA3MTAyMTA4MThaMC8GCSqGSIb3DQEJBDEiBCBA
   77EhoAybh5R6kK89jDefpxRy8Q6rDo1cnlwgvCzXbzAKBggqhkjOPQQDAgRH
   MEUCIQD4RnuXwKvYVvwamwVq3VYv7dXcM7bzLg7FXTkhvYqPzwIgXTJxVV5a
   cLMAroeHgThS5JU5QA2PJMLGF82UcSNTsEY=

A.4.  Example JWS-signed Voucher from MASA

   These examples are folded according to the [RFC8792] Single Backslash
   rule.










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   {
     "payload": "eyJpZXRmLXZvdWNoZXI6dm91Y2hlciI6eyJhc3NlcnRpb24iOiJwcm\
   94aW1pdHkiLCJzZXJpYWwtbnVtYmVyIjoiY2FmZmUtOTg3NDUiLCJub25jZSI6IjYyYT\
   JlNzY5M2Q4MmZjZGEyNjI0ZGU1OGZiNjcyMmU1IiwiY3JlYXRlZC1vbiI6IjIwMjUtMT\
   AtMTVUMDA6MDA6MDBaIiwicGlubmVkLWRvbWFpbi1jZXJ0IjoiTUlJQmd6Q0NBU3FnQX\
   dJQkFnSUdBV09XZTBSRk1Bb0dDQ3FHU000OUJBTUNNRFV4RXpBUkJnTlZCQW9NQ2sxNV\
   FuVnphVzVsYzNNeERUQUxCZ05WQkFjTUJGTnBkR1V4RHpBTkJnTlZCQU1NQmxSbGMzUk\
   RRVEFlRncweE9EQTFNalV3T0RRM016QmFGdzB5T0RBMU1qVXdPRFEzTXpCYU1EVXhFek\
   FSQmdOVkJBb01DazE1UW5WemFXNWxjM014RFRBTEJnTlZCQWNNQkZOcGRHVXhEekFOQm\
   dOVkJBTU1CbFJsYzNSRFFUQlpNQk1HQnlxR1NNNDlBZ0VHQ0NxR1NNNDlBd0VIQTBJQU\
   JIOUVCdXVXVjdJS09ya040YjdsYTVJb2J5dFduV1p3Rm5QdHVsMDlhd3dVSEZQZStOWW\
   M1WjVwdUo2ZEFuK0FrVzFnY1poQlhWR0JBM0crSXlSV1VXU2pKakFrTUJJR0ExVWRFd0\
   VCL3dRSU1BWUJBZjhDQVFBd0RnWURWUjBQQVFIL0JBUURBZ0lFTUFvR0NDcUdTTTQ5Qk\
   FNQ0EwY0FNRVFDSURlWlc2SWZjeUsvLzBBVFk2S21NYjRNMFFJU1FTZFVGVjdQNzlLWV\
   ZJWVVBaUJRMVYrd0xSM1Uzd2NJWnhHSE1ISGx0N2M3ZzFDaFdNRVkveEFoU1NZaWlnPT\
   0ifX0",
     "signatures": [
       {
         "protected": "eyJ4NWMiOlsiTUlJQmNEQ0I5cUFEQWdFQ0FnUUxod294TUFv\
   R0NDcUdTTTQ5QkFNQ01DWXhKREFpQmdOVkJBTU1HMmhwWjJoM1lYa3RkR1Z6ZEM1bGVH\
   RnRjR3hsTG1OdmJTQkRRVEFlRncweU1UQTBNVE15TVRRd01UWmFGdzB5TXpBME1UTXlN\
   VFF3TVRaYU1DZ3hKakFrQmdOVkJBTU1IV2hwWjJoM1lYa3RkR1Z6ZEM1bGVHRnRjR3hs\
   TG1OdmJTQk5RVk5CTUZrd0V3WUhLb1pJemowQ0FRWUlLb1pJemowREFRY0RRZ0FFcWdR\
   Vm8wUzU0a1Q0eWZrYkJ4dW1kSE9jSHJwc3FiT3BNS21pTWxuM29CMUhBVzI1TUpWK2dx\
   aTR0TUZmU0owaUV3dDhrc3pmV1hLNHJMZ0pTMm1ucGFNUU1BNHdEQVlEVlIwVEFRSC9C\
   QUl3QURBS0JnZ3Foa2pPUFFRREFnTnBBREJtQWpFQXJzdGhMZFJjalc2R3Fnc0dIY2JU\
   WUxveWN6WWwweU9GU1ljY3pwUWplUnFlUVZVa0hSVWlvVWk3Q3NDclBCTnpBakVBaGp4\
   bnM1V2k0dVg1cmZrZG5NRTBNbmoxeityVlJ3T2ZBTC9RV2N0UndwZ0VnU1NLVVJOUXNY\
   V3lMNTJvdFBTNSJdLCJ0eXAiOiJ2b3VjaGVyLWp3cytqc29uIiwiYWxnIjoiRVMyNTYi\
   fQ",
         "signature": "s_gJM_4qzz1bxDtqh6Ybip42J_0_Y4CMdrMFb8lpPsAhDHVR\
   AESNRL3n6M_F8dGQHm1fu66x83cK9E5cPtEdag"
       }
     ]
   }

                       Figure 1: Example JWS Voucher

Appendix B.  SID Allocations

   This section is to be removed before publishing as an RFC.

   It is temporarily included for review purposes, following the
   guidelines in Section 6.4.3 of [CORESID].

B.1.  SID Allocations for Voucher





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   <CODE BEGINS> file "ietf-voucher@2025-12-18.sid"
   =============== NOTE: '\' line wrapping per RFC 8792 ================

   {
     "ietf-sid-file:sid-file": {
       "module-name": "ietf-voucher",
       "module-revision": "2025-12-18",
       "sid-file-version": 5,
       "sid-file-status": "unpublished",
       "dependency-revision": [
         {
           "module-name": "ietf-yang-types",
           "module-revision": "2013-07-15"
         },
         {
           "module-name": "ietf-inet-types",
           "module-revision": "2013-07-15"
         },
         {
           "module-name": "ietf-yang-structure-ext",
           "module-revision": "2020-06-17"
         }
       ],
       "assignment-range": [
         {
           "entry-point": "2450",
           "size": "50"
         }
       ],
       "item": [
         {
           "namespace": "module",
           "identifier": "ietf-voucher",
           "sid": "2450"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher",
           "sid": "2451"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/assertion",
           "sid": "2452"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/created-on",



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           "sid": "2453"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/domain-cert-revocation-\
                                                                checks",
           "sid": "2454"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/expires-on",
           "status": "unstable",
           "sid": "2455"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/idevid-issuer",
           "sid": "2456"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/last-renewal-date",
           "sid": "2457"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/nonce",
           "sid": "2458"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/pinned-domain-cert",
           "status": "unstable",
           "sid": "2459"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/pinned-domain-pubk",
           "status": "unstable",
           "sid": "2460"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/pinned-domain-pubk-\
                                                                sha256",
           "status": "unstable",
           "sid": "2461"
         },



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         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/serial-number",
           "sid": "2462"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/additional-\
                                                     configuration-url",
           "status": "unstable",
           "sid": "2463"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/est-domain",
           "status": "unstable",
           "sid": "2464"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/manufacturer-private",
           "status": "unstable",
           "sid": "2465"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher:voucher/extensions",
           "status": "unstable",
           "sid": "2466"
         }
       ]
     }
   }
   <CODE ENDS>

B.2.  SID Allocations for Voucher Request

   <CODE BEGINS> file "ietf-voucher-request@2025-12-18.sid"
   =============== NOTE: '\' line wrapping per RFC 8792 ================

   {
     "ietf-sid-file:sid-file": {
       "module-name": "ietf-voucher-request",
       "module-revision": "2025-12-18",
       "sid-file-version": 11,
       "sid-file-status": "unpublished",
       "dependency-revision": [
         {



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           "module-name": "ietf-yang-structure-ext",
           "module-revision": "2020-06-17"
         },
         {
           "module-name": "ietf-voucher",
           "module-revision": "2025-12-18"
         }
       ],
       "assignment-range": [
         {
           "entry-point": "2500",
           "size": "50"
         }
       ],
       "item": [
         {
           "namespace": "module",
           "identifier": "ietf-voucher-request",
           "sid": "2500"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher",
           "sid": "2501",
           "status": "unstable"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/assertion",
           "sid": "2502"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/created-on",
           "sid": "2503"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/domain-cert-\
                                                     revocation-checks",
           "sid": "2504"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/expires-on",
           "sid": "2505"
         },
         {



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           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/idevid-issuer",
           "sid": "2506"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/last-renewal-\
                                                                  date",
           "sid": "2507"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/nonce",
           "sid": "2508"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/pinned-domain-\
                                                                  cert",
           "status": "unstable",
           "sid": "2509"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/prior-signed-\
                                                       voucher-request",
           "sid": "2510"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/proximity-\
                                                        registrar-cert",
           "status": "unstable",
           "sid": "2511"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/proximity-\
                                                 registrar-pubk-sha256",
           "status": "unstable",
           "sid": "2512"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/proximity-\
                                                        registrar-pubk",
           "sid": "2513"
         },



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         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/serial-number",
           "sid": "2514"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/agent-provided-\
                                              proximity-registrar-cert",
           "status": "unstable",
           "sid": "2515"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/agent-sign-cert\
                                                                      ",
           "sid": "2516"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/agent-signed-\
                                                                  data",
           "sid": "2517"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/pinned-domain-\
                                                                  pubk",
           "status": "unstable",
           "sid": "2518"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/pinned-domain-\
                                                           pubk-sha256",
           "status": "unstable",
           "sid": "2519"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/additional-\
                                                     configuration-url",
           "status": "unstable",
           "sid": "2520"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/est-domain",



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           "status": "unstable",
           "sid": "2521"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/extensions",
           "status": "unstable",
           "sid": "2522"
         },
         {
           "namespace": "data",
           "identifier": "/ietf-voucher-request:voucher/manufacturer-\
                                                               private",
           "status": "unstable",
           "sid": "2523"
         }
       ]
     }
   }
   <CODE ENDS>

Acknowledgements

   The authors would like to thank the following people for lively
   discussions on list and in the halls (ordered by last name): William
   Atwood, Michael H. Behringer, Steffen Fries, Sheng Jiang, Thomas
   Werner.

   Max Pritikin and Kent Watsen were instrumental in creating the
   original [RFC8366].

Authors' Addresses

   Kent Watsen
   Watsen Networks
   Email: kent+ietf@watsen.net


   Michael C. Richardson (editor)
   Sandelman Software
   Email: mcr+ietf@sandelman.ca, https://orcid.org/0000-0002-0773-8388
   URI:   http://www.sandelman.ca/


   Esko Dijk
   IoTconsultancy.nl
   Email: esko.dijk@iotconsultancy.nl




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   Toerless Eckert
   Futurewei Technologies Inc.
   2330 Central Expy
   Santa Clara,  95050
   United States of America
   Email: tte@cs.fau.de


   Qiufang Ma
   Huawei
   101 Software Avenue, Yuhua District
   Nanjing
   210012
   China
   Email: maqiufang1@huawei.com




































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