Internet Engineering Task Force (IETF) D. Fett Request for Comments: 9901 Authlete Category: Standards Track K. Yasuda ISSN: 2070-1721 Keio University B. Campbell Ping Identity November 2025 Selective Disclosure for JSON Web Tokens (SD-JWTs) Abstract This specification defines a mechanism for the selective disclosure of individual elements of a JSON data structure used as the payload of a JSON Web Signature (JWS). The primary use case is the selective disclosure of JSON Web Token (JWT) claims. Status of This Memo This is an Internet Standards Track document. This document is a product of the Internet Engineering Task Force (IETF). It represents the consensus of the IETF community. It has received public review and has been approved for publication by the Internet Engineering Steering Group (IESG). Further information on Internet Standards is available in Section 2 of RFC 7841. Information about the current status of this document, any errata, and how to provide feedback on it may be obtained at https://www.rfc-editor.org/info/rfc9901. Copyright Notice Copyright (c) 2025 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 1.1. Feature Summary 1.2. Conventions and Terminology 2. Flow Diagram 3. Concepts 3.1. SD-JWT and Disclosures 3.2. Disclosing to a Verifier 3.3. Optional Key Binding 3.4. Verification 4. SD-JWT and SD-JWT+KB Data Formats 4.1. Issuer-Signed JWT 4.1.1. Hash Function Claim 4.1.2. Key Binding 4.2. Disclosures 4.2.1. Disclosures for Object Properties 4.2.2. Disclosures for Array Elements 4.2.3. Hashing Disclosures 4.2.4. Embedding Disclosure Digests in SD-JWTs 4.2.5. Decoy Digests 4.2.6. Recursive Disclosures 4.3. Key Binding JWT 4.3.1. Binding to an SD-JWT 4.3.2. Validating the Key Binding JWT 5. Example SD-JWT 5.1. Issuance 5.2. Presentation 6. Considerations on Nested Data in SD-JWTs 6.1. Example: Flat SD-JWT 6.2. Example: Structured SD-JWT 6.3. Example: SD-JWT with Recursive Disclosures 7. Verification and Processing 7.1. Verification of the SD-JWT 7.2. Processing by the Holder 7.3. Verification by the Verifier 8. JWS JSON Serialization 8.1. New Unprotected Header Parameters 8.2. Flattened JSON Serialization 8.3. General JSON Serialization 8.4. Verification of the JWS JSON Serialized SD-JWT 9. Security Considerations 9.1. Mandatory Signing of the Issuer-Signed JWT 9.2. Manipulation of Disclosures 9.3. Entropy of the Salt 9.4. Choice of a Hash Algorithm 9.5. Key Binding 9.6. Concealing Claim Names 9.7. Selectively Disclosable Validity Claims 9.8. Distribution and Rotation of Issuer Signature Verification Key 9.9. Forwarding Credentials 9.10. Integrity of SD-JWTs and SD-JWT+KBs 9.11. Explicit Typing 9.12. Key Pair Generation and Lifecycle Management 10. Privacy Considerations 10.1. Unlinkability 10.2. Storage of User Data 10.3. Confidentiality During Transport 10.4. Decoy Digests 10.5. Issuer Identifier 11. IANA Considerations 11.1. JSON Web Token Claims Registration 11.2. Media Type Registrations 11.2.1. SD-JWT Content 11.2.2. JWS JSON Serialized SD-JWT Content 11.2.3. Key Binding JWT Content 11.3. Structured Syntax Suffixes Registration 12. References 12.1. Normative References 12.2. Informative References Appendix A. Additional Examples A.1. Simple Structured SD-JWT A.2. Complex Structured SD-JWT A.3. SD-JWT-Based Verifiable Credentials (SD-JWT VC) A.4. W3C Verifiable Credentials Data Model v2.0 A.5. Elliptic Curve Key Used in the Examples Appendix B. Disclosure Format Considerations Acknowledgements Authors' Addresses 1. Introduction The exchange of JSON data between systems is often secured against modification using JSON Web Signatures (JWSs) [RFC7515]. A popular application of JWS is the JSON Web Token (JWT) [RFC7519], a format that is often used to represent a user's identity. An ID Token as defined in OpenID Connect [OpenID.Core], for example, is a JWT containing the user's claims created by the server for consumption by a relying party. In cases where the JWT is sent immediately from the server to the relying party, as in OpenID Connect, the server can select at the time of issuance which user claims to include in the JWT, minimizing the information shared with the relying party who validates the JWT. Another model is emerging that fully decouples the issuance of a JWT from its presentation. In this model, a JWT containing many claims is issued to an intermediate party, who holds the JWT (the Holder). The Holder can then present the JWT to different verifying parties (Verifiers) that each may only require a subset of the claims in the JWT. For example, the JWT may contain claims representing both an address and a birthdate. The Holder may elect to disclose only the address to one Verifier, and only the birthdate to a different Verifier. Privacy principles of minimal disclosure in conjunction with this model demand a mechanism enabling selective disclosure of data elements while ensuring that Verifiers can still check the authenticity of the data provided. This specification defines such a mechanism for JSON payloads of JWSs, with JWTs as the primary use case. SD-JWT is based on an approach called "salted hashes": For any data element that should be selectively disclosable, the Issuer of the SD- JWT does not include the cleartext of the data in the JSON payload of the JWS structure; instead, a digest of the data takes its place. For presentation to a Verifier, the Holder sends the signed payload along with the cleartext of those claims it wants to disclose. The Verifier can then compute the digest of the cleartext data and confirm it is included in the signed payload. To ensure that Verifiers cannot guess cleartext values of non-disclosed data elements, an additional salt value is used when creating the digest and sent along with the cleartext when disclosing it. To prevent attacks in which an SD-JWT is presented to a Verifier without the Holder's consent, this specification additionally defines a mechanism for binding the SD-JWT to a key under the control of the Holder (Key Binding). When Key Binding is enforced, a Holder has to prove possession of a private key belonging to a public key contained in the SD-JWT itself. It usually does so by signing over a data structure containing transaction-specific data, herein defined as the Key Binding JWT. An SD-JWT with a Key Binding JWT is called "SD- JWT+KB" in this specification. 1.1. Feature Summary This specification defines two primary data formats: 1. SD-JWT is a composite structure, consisting of a JWS plus optional disclosures, enabling selective disclosure of portions of the JWS payload. It comprises the following: * A format for enabling selective disclosure in nested JSON data structures, supporting selectively disclosable object properties (name/value pairs) and array elements. * A format for encoding the selectively disclosable data items. * A format extending the JWS Compact Serialization, allowing for the combined transport of the Issuer-signed JSON data structure and the disclosable data items. * An alternate format extending the JWS JSON Serialization, also allowing for transport of the Issuer-signed JSON data structure and disclosure data. 2. SD-JWT+KB is a composite structure of an SD-JWT and a cryptographic key binding that can be presented to and verified by the Verifier. It comprises the following: * A mechanism for associating an SD-JWT with a key pair. * A format for a Key Binding JWT (KB-JWT) that allows proof of possession of the private key of the associated key pair. * A format extending the SD-JWT format for the combined transport of the SD-JWT and the KB-JWT. 1.2. Conventions and Terminology 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. *Base64url* denotes the URL-safe base64 encoding without padding defined in Section 2 of [RFC7515]. Throughout this document, the term "claims" refers generally to object properties (name/value pairs) as well as array elements. Selective Disclosure: Process of a Holder disclosing to a Verifier a subset of claims contained in a JWT issued by an Issuer. Selectively Disclosable JWT (SD-JWT): A composite structure, consisting of an Issuer-signed JWT (JWS; see [RFC7515]) and zero or more Disclosures, which supports selective disclosure as defined in this document. It can contain both regular claims and digests of selectively disclosable claims. Disclosure: A base64url-encoded string of a JSON array that contains a salt, a claim name (present when the claim is a name/value pair and absent when the claim is an array element), and a claim value. The Disclosure is used to calculate a digest for the respective claim. The term Disclosure refers to the whole base64url-encoded string. Key Binding: Ability of the Holder to prove possession of an SD-JWT by proving control over a private key during the presentation. When utilizing Key Binding, an SD-JWT contains the public key corresponding to the private key controlled by the Holder (or a reference to this public key). Key Binding JWT (KB-JWT): A Key Binding JWT is said to "be tied to" a particular SD-JWT when its payload is signed using the key included in the SD-JWT payload, and the KB-JWT contains a hash of the SD-JWT in its sd_hash claim. Its format is defined in Section 4.3. Selectively Disclosable JWT with Key Binding (SD-JWT+KB): A composite structure, comprising an SD-JWT and a Key Binding JWT tied to that SD-JWT. Processed SD-JWT Payload: The JSON object resulting from verification and processing of the Issuer-signed SD-JWT, with digest placeholders replaced by the corresponding values from the Disclosures. Issuer: An entity that creates SD-JWTs. Holder: An entity that received SD-JWTs from the Issuer and has control over them. In the context of this document, the term may refer to the actual user, the supporting hardware and software in their possession, or both. Verifier: An entity that requests, checks, and extracts the claims from an SD-JWT with its respective Disclosures. 2. Flow Diagram +------------+ | | | Issuer | | | +------------+ | Issues SD-JWT including all Disclosures | v +------------+ | | | Holder | | | +------------+ | Presents SD-JWT or SD-JWT+KB including selected Disclosures | v +-------------+ | |+ | Verifiers ||+ | ||| +-------------+|| +-------------+| +-------------+ Figure 1: SD-JWT Issuance and Presentation Flow 3. Concepts This section describes SD-JWTs with their respective Disclosures and Key Binding at a conceptual level, abstracting from the data formats described in Section 4. 3.1. SD-JWT and Disclosures An SD-JWT, at its core, is a digitally signed JSON document containing digests over the selectively disclosable claims with the Disclosures outside the document. Disclosures can be omitted without breaking the signature, and modifications to them can be detected. Selectively disclosable claims can be individual object properties (name/value pairs) or array elements. Each digest value ensures the integrity of, and maps to, the respective Disclosure. Digest values are calculated using a hash function over the Disclosures, each of which contains a cryptographically secure random salt, the claim name (only when the claim is an object property), and the claim value. The Disclosures are sent to the Holder with the SD-JWT in the format defined in Section 4. When presenting an SD-JWT to a Verifier, the Holder only includes the Disclosures for the claims that it wants to reveal to that Verifier. An SD-JWT MAY also contain cleartext claims that are always disclosed to the Verifier. 3.2. Disclosing to a Verifier To disclose to a Verifier a subset of the SD-JWT claim values, a Holder sends only the Disclosures of those selectively released claims to the Verifier as part of the SD-JWT. 3.3. Optional Key Binding Key Binding is an optional feature. When Key Binding is required by the use case, the SD-JWT MUST contain information about the key material controlled by the Holder. | Note: How the public key is included in SD-JWT is described in | Section 4.1.2. When a Verifier requires Key Binding, the Holder presents an SD- JWT+KB, consisting of an SD-JWT as well as a Key Binding JWT tied to that SD-JWT. The Key Binding JWT encodes a signature by the Holder's private key over * a hash of the SD-JWT, * a nonce to ensure the freshness of the signature, and * an audience value to indicate the intended Verifier for the document. Details of the format of Key Binding JWTs are described in Section 4.3. 3.4. Verification At a high level, the Verifier * receives either an SD-JWT or an SD-JWT+KB from the Holder, * verifies the signature on the SD-JWT (or the SD-JWT inside the SD- JWT+KB) using the Issuer's public key, * verifies the signature on the KB-JWT using the public key included (or referenced) in the SD-JWT, if the Verifier's policy requires Key Binding, and * calculates the digests over the Holder-Selected Disclosures and verifies that each digest is contained in the SD-JWT. The detailed algorithm is described in Section 7.3. 4. SD-JWT and SD-JWT+KB Data Formats An SD-JWT is composed of * an Issuer-signed JWT, and * zero or more Disclosures. An SD-JWT+KB is composed of * an SD-JWT (i.e., an Issuer-signed JWT and zero or more Disclosures), and * a Key Binding JWT. The Issuer-signed JWT, Disclosures, and Key Binding JWT are explained in Sections 4.1, 4.2, and 4.3, respectively. The compact serialized format for the SD-JWT is the concatenation of each part delineated with a single tilde ('~') character as follows: ~~~...~~ The order of the concatenated parts MUST be the Issuer-signed JWT, a tilde character, zero or more Disclosures each followed by a tilde character, and lastly the optional Key Binding JWT. In the case that there is no Key Binding JWT, the last element MUST be an empty string and the last separating tilde character MUST NOT be omitted. The serialized format for an SD-JWT+KB extends the SD-JWT format by concatenating a Key Binding JWT. ~~~...~~ The two formats can be distinguished by the final ~ character that is present on an SD-JWT. A Verifier that expects an SD-JWT MUST verify that the final tilde-separated component is empty. A Verifier that expects an SD-JWT+KB MUST verify that its final tilde-separated component is a valid KB-JWT. The Disclosures are linked to the Issuer-signed JWT through the digest values included therein. When issuing to a Holder, the Issuer includes all the relevant Disclosures in the SD-JWT. When presenting to a Verifier, the Holder sends only the selected set of the Disclosures in the SD-JWT. The Holder MAY send any subset of the Disclosures to the Verifier, i.e., none, some, or all Disclosures. For data that the Holder does not want to reveal to the Verifier, the Holder MUST NOT send Disclosures or reveal the salt values in any other way. A Holder MUST NOT send a Disclosure that was not included in the issued SD-JWT or send a Disclosure more than once. To further illustrate the SD-JWT format, the following examples show a few different SD-JWT permutations, both with and without various constituent parts. An SD-JWT without Disclosures: ~ An SD-JWT with Disclosures: ~~~ An SD-JWT+KB without Disclosures: ~ An SD-JWT+KB with Disclosures: ~~~ As an alternative illustration of the SD-JWT format, ABNF [RFC5234] for the SD-JWT, SD-JWT+KB, and various constituent parts is provided here (for those who celebrate): ALPHA = %x41-5A / %x61-7A ; A-Z / a-z DIGIT = %x30-39 ; 0-9 BASE64URL = 1*(ALPHA / DIGIT / "-" / "_") JWT = BASE64URL "." BASE64URL "." BASE64URL DISCLOSURE = BASE64URL SD-JWT = JWT "~" *(DISCLOSURE "~") KB-JWT = JWT SD-JWT-KB = SD-JWT KB-JWT 4.1. Issuer-Signed JWT An SD-JWT has a JWT component that MUST be signed using the Issuer's private key. It MUST NOT use the none algorithm. The payload of an SD-JWT is a JSON object according to the following rules: 1. The payload MAY contain the _sd_alg key described in Section 4.1.1. 2. The payload MAY contain one or more digests of Disclosures to enable selective disclosure of the respective claims, created and formatted as described in Section 4.2. 3. The payload MAY contain one or more decoy digests to obscure the actual number of claims in the SD-JWT, created and formatted as described in Section 4.2.5. 4. The payload MAY contain one or more permanently disclosed claims. 5. The payload MAY contain the Holder's public key(s) or reference(s) thereto, as explained in Section 4.1.2. 6. The payload MAY contain further claims such as iss, iat, etc. as defined or required by the application using SD-JWTs. 7. The payload MUST NOT contain the claims _sd or ... except for the purpose of conveying digests as described in Sections 4.2.4.1 and 4.2.4.2, respectively. The same digest value MUST NOT appear more than once in the SD-JWT. Application and profiles of SD-JWT SHOULD be explicitly typed. See Section 9.11 for more details. It is the Issuer who decides which claims are selectively disclosable by the Holder and which are not. Claims MAY be included as plaintext as well, e.g., if hiding the particular claims from the Verifier is not required in the intended use case. See Section 9.7 for considerations on making validity-controlling claims such as exp selectively disclosable. Claims that are not selectively disclosable are included in the SD- JWT in plaintext just as they would be in any other JSON structure. 4.1.1. Hash Function Claim The claim _sd_alg indicates the hash algorithm used by the Issuer to generate the digests as described in Section 4.2. When used, this claim MUST appear at the top level of the SD-JWT payload. It MUST NOT be used in any object nested within the payload. If the _sd_alg claim is not present at the top level, a default value of sha-256 MUST be used. This claim value is a case-sensitive string with the hash algorithm identifier. The hash algorithm identifier MUST be a hash algorithm value from the "Hash Name String" column in the "Named Information Hash Algorithm Registry" [Hash.Algs] or a value defined in another specification and/or profile of this specification. To promote interoperability, implementations MUST support the sha-256 hash algorithm. See Section 9 for requirements regarding entropy of the salt, minimum length of the salt, and choice of a hash algorithm. 4.1.2. Key Binding If the Issuer wants to enable Key Binding, it includes a public key associated with the Holder, or a reference thereto, using the cnf claim as defined in [RFC7800]. The jwk confirmation method, as defined in Section 3.2 of [RFC7800], is suggested for doing so, however, other confirmation methods can be used. | Note that, as was stated in [RFC7800], if an application needs | to represent multiple proof-of-possession keys in the same SD- | JWT, one way to achieve this is to use other claim names, in | addition to cnf, to hold the additional proof-of-possession key | information. It is outside the scope of this document to describe how the Holder key pair is established. For example, the Holder MAY create a key pair and provide a public key to the Issuer, the Issuer MAY create the key pair for the Holder, or Holder and Issuer MAY use pre- established key material. | Note: The examples throughout this document use the cnf claim | with the jwk member to include the raw public key by value in | SD-JWT. 4.2. Disclosures Disclosures are created differently depending on whether a claim is an object property (name/value pair) or an array element. * For a claim that is an object property, the Issuer creates a Disclosure as described in Section 4.2.1. * For a claim that is an array element, the Issuer creates a Disclosure as described in Section 4.2.2. 4.2.1. Disclosures for Object Properties For each claim that is an object property and that is to be made selectively disclosable, the Issuer MUST create a Disclosure as follows: * Create a JSON array of three elements in the following order: 1. A salt value. MUST be a string. See Section 9.3 for security considerations. To achieve the recommended entropy of the salt, the Issuer can base64url-encode 128 bits of cryptographically secure random data, producing a string. The salt value MUST be unique for each claim that is to be selectively disclosed. The Issuer MUST NOT reveal the salt value to any party other than the Holder. 2. The claim name, or key, as it would be used in a regular JWT payload. It MUST be a string and MUST NOT be _sd, ..., or a claim name existing in the object as a permanently disclosed claim. 3. The claim value, as it would be used in a regular JWT payload. The value can be of any type that is allowed in JSON, including numbers, strings, booleans, arrays, null, and objects. * base64url-encode the UTF-8 byte sequence of the JSON array. This string is the Disclosure. | Note: The order was decided based on readability | considerations: Salts have a constant length within the SD-JWT, | claim names would be around the same length all the time, and | claim values would vary in size, potentially being large | objects. The following example illustrates the steps described above. The array is created as follows: ["_26bc4LT-ac6q2KI6cBW5es", "family_name", "Möbius"] The resultant Disclosure is: WyJfMjZiYzRMVC1hYzZxMktJNmNCVzVlcyIsICJmYW1pbHlfbmFtZSIsICJNw7ZiaXVzI l0 Note that variations in whitespace, encoding of Unicode characters, ordering of object properties, etc., are allowed in the JSON representation and no canonicalization needs to be performed before base64url encoding because the digest is calculated over the base64url-encoded value itself. For example, the following strings are all valid and encode the same claim value "Möbius": * A different way to encode the unicode umlaut: WyJfMjZiYzRMVC1hYzZxMktJNmNCVzVlcyIsICJmYW1pbHlfbmFtZSIsICJNXHUwMG Y2Yml1cyJd * No white space: WyJfMjZiYzRMVC1hYzZxMktJNmNCVzVlcyIsImZhbWlseV9uYW1lIiwiTcO2Yml1cy Jd * Newline characters between elements: WwoiXzI2YmM0TFQtYWM2cTJLSTZjQlc1ZXMiLAoiZmFtaWx5X25hbWUiLAoiTcO2Ym l1cyIKXQ However, the digest is calculated over the respective base64url- encoded value itself, which effectively signs the variation chosen by the Issuer and makes it immutable in the context of the particular SD-JWT. See Appendix B for some further considerations on the Disclosure format approach. 4.2.2. Disclosures for Array Elements For each claim that is an array element and that is to be made selectively disclosable, the Issuer MUST create a Disclosure as follows: * The array MUST contain two elements in this order: 1. The salt value as described in Section 4.2.1. 2. The array element that is to be hidden. This value can be of any type that is allowed in JSON, including numbers, strings, booleans, arrays, and objects. The Disclosure string is created by base64url-encoding the UTF-8 byte sequence of the resultant JSON array as described in Section 4.2.1. The same considerations regarding variations in the result of the JSON encoding apply. For example, a Disclosure for the second element of the nationalities array in the following JWT Claims Set: { "nationalities": ["DE", "FR", "US"] } could be created by first creating the following array: ["lklxF5jMYlGTPUovMNIvCA", "FR"] The resultant Disclosure would be: WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgIkZSIl0 | Note that the size of an array alone can potentially reveal | unintended information. The use of decoys, as described in | Section 4.2.5, to consistently pad the size of an array can | help obscure the actual number of elements present in any | particular instance. 4.2.3. Hashing Disclosures For embedding references to the Disclosures in the SD-JWT, each Disclosure is hashed using the hash algorithm specified in the _sd_alg claim described in Section 4.1.1, or SHA-256 if no algorithm is specified. The resultant digest is then included in the SD-JWT payload instead of the original claim value, as described next. The digest MUST be taken over the US-ASCII bytes of the base64url- encoded value that is the Disclosure. This follows the convention in JWS [RFC7515] and JWE [RFC7516]. The bytes of the digest MUST then be base64url encoded. It is important to note that: * The input to the hash function MUST be the base64url-encoded Disclosure, not the bytes encoded by the base64url string. * The bytes of the output of the hash function MUST be base64url encoded, and are not the bytes making up the (sometimes used) hex representation of the bytes of the digest. For example, the base64url-encoded SHA-256 digest of the Disclosure W yJfMjZiYzRMVC1hYzZxMktJNmNCVzVlcyIsICJmYW1pbHlfbmFtZSIsICJNw7ZiaXVzIl 0 for the family_name claim from Section 4.2.1 above is X9yH0Ajrdm1Oij4tWso9UzzKJvPoDxwmuEcO3XAdRC0. 4.2.4. Embedding Disclosure Digests in SD-JWTs For selectively disclosable claims, the digests of the Disclosures are embedded into the Issuer-signed JWT instead of the claims themselves. The precise way of embedding depends on whether a claim is an object property (name/value pair) or an array element. * For a claim that is an object property, the Issuer embeds a Disclosure digest as described in Section 4.2.4.1. * For a claim that is an array element, the Issuer creates a Disclosure digest as described in Section 4.2.4.2. 4.2.4.1. Object Properties Digests of Disclosures for object properties are added to an array under the new key _sd in the object. The _sd key MUST refer to an array of strings, each string being a digest of a Disclosure or a decoy digest as described in Section 4.2.5. An _sd key can be present at any level of the JSON object hierarchy, including the top- level, nested deeper as described in Section 6, or in recursive disclosures as described in Section 4.2.6. The array MAY be empty in case the Issuer decided not to selectively disclose any of the claims at that level. However, it is RECOMMENDED to omit the _sd key in this case to save space. The Issuer MUST hide the original order of the claims in the array. To ensure this, it is RECOMMENDED to shuffle the array of hashes, e.g., by sorting it alphanumerically or randomly, after potentially adding decoy digests as described in Section 4.2.5. The precise method does not matter as long as it does not depend on the original order of elements. For example, using the digest of the Disclosure from Section 4.2.3, the Issuer could create the following SD-JWT payload to make family_name selectively disclosable: { "given_name": "Alice", "_sd": ["X9yH0Ajrdm1Oij4tWso9UzzKJvPoDxwmuEcO3XAdRC0"] } 4.2.4.2. Array Elements Digests of Disclosures for array elements are added to the array in the same position as the original claim value in the array. For each digest, an object of the form {"...": ""} is added to the array. The key MUST always be the string ... (three dots). The value MUST be the digest of the Disclosure created as described in Section 4.2.3. There MUST NOT be any other keys in the object. Note that the string ... was chosen because the ellipsis character, typically entered as three period characters, is commonly used in places where content is omitted from the present context. For example, using the digest of the array element Disclosure created in Section 4.2.2, the Issuer could create the following SD-JWT payload to make the second element of the nationalities array selectively disclosable: { "nationalities": ["DE", {"...":"w0I8EKcdCtUPkGCNUrfwVp2xEgNjtoIDlOxc9-PlOhs"}, "US"] } As described in Section 7.3, Verifiers ignore all selectively disclosable array elements for which they did not receive a Disclosure. In the example above, the verification process would output an array with only two elements, ["DE", "US"], unless the matching Disclosure for the second element is received, in which case the output would be a three-element array, ["DE", "FR", "US"]. 4.2.5. Decoy Digests An Issuer MAY add additional digests to the SD-JWT payload that are not associated with any claim. The purpose of such "decoy" digests is to make it more difficult for an adversarial Verifier to see the original number of claims or array elements contained in the SD-JWT. Decoy digests MAY be added both to the _sd array for objects as well as in arrays. It is RECOMMENDED to create the decoy digests by hashing over a cryptographically secure random number. The bytes of the digest MUST then be base64url encoded as above. The same digest function as for the Disclosures MUST be used. For decoy digests, no Disclosure is sent to the Holder, i.e., the Holder will see digests that do not correspond to any Disclosure. See Section 10.4 for additional privacy considerations. To ensure readability and replicability, the examples in this specification do not contain decoy digests unless explicitly stated. For an example with decoy digests, see Appendix A.1. 4.2.6. Recursive Disclosures The algorithms above are compatible with "recursive disclosures", in which one selectively disclosed field reveals the existence of more selectively disclosable fields. For example, consider the following JSON structure: { "family_name": "Möbius", "nationalities": ["DE", "FR", "UK"] } When the Holder has multiple nationalities, the Issuer may wish to conceal the presence of any statement regarding nationalities while also allowing the holder to reveal each of those nationalities individually. This can be accomplished by first making the entries within the "nationalities" array selectively disclosable, and then making the whole "nationalities" field selectively disclosable. The following shows each of the entries within the "nationalities" array being made selectively disclosable: { "family_name": "Möbius", "nationalities": [ { "...": "PmnlrRjhLcwf8zTDdK15HVGwHtPYjddvD362WjBLwro" } { "...": "r823HFN6Ba_lpSANYtXqqCBAH-TsQlIzfOK0lRAFLCM" }, { "...": "nP5GYjwhFm6ESlAeC4NCaIliW4tz0hTrUeoJB3lb5TA" } ] } Content of Disclosures: PmnlrRj... = ["16_mAd0GiwaZokU26_0i0h","DE"] r823HFN... = ["fn9fN0rD-fFs2n303ZI-0c","FR"] nP5GYjw... = ["YIKesqOkXXNzMQtsX_-_lw","UK"] Followed by making the whole "nationalities" array selectively disclosable: { "family_name": "Möbius", "_sd": [ "5G1srw3RG5W4pVTwSsYxeOWosRBbzd18ZoWKkC-hBL4" ] } Content of Disclosures: PmnlrRj... = ["16_mAd0GiwaZokU26_0i0h","DE"] r823HFN... = ["fn9fN0rD-fFs2n303ZI-0c","FR"] nP5GYjw... = ["YIKesqOkXXNzMQtsX_-_lw","UK"] 5G1srw3... = ["4drfeTtSUK3aY_-PF12gcX","nationalities", [ { "...": "PmnlrRjhLcwf8zTDdK15HVGwHtPYjddvD362WjBLwro" }, { "...": "r823HFN6Ba_lpSANYtXqqCBAH-TsQlIzfOK0lRAFLCM" }, { "...": "nP5GYjwhFm6ESlAeC4NCaIliW4tz0hTrUeoJB3lb5TA" } ] ] With this set of disclosures, the holder could include the disclosure with hash PmnlrRj... to disclose only the "DE" nationality, or include both PmnlrRj... and r823HFN... to disclose both the "DE" and "FR" nationalities, but hide the "UK" nationality. In either case, the holder would also need to include the disclosure with hash 5G1srw3... to disclose the nationalities field that contains the respective elements. Note that making recursive redactions introduces dependencies between the disclosure objects in an SD-JWT. The r823HFN... disclosure cannot be used without the 5G1srw3... disclosure; since a Verifier would not have a matching hash that would tell it where the content of the r823HFN... disclosure should be inserted. If a disclosure object is included in an SD-JWT, then the SD-JWT MUST include any other disclosure objects necessary to process the first disclosure object. In other words, any disclosure object in an SD-JWT must "connect" to the claims in the issuer-signed JWT, possibly via an intermediate disclosure object. In the above example, it would be illegal to include any one of the PmnlrRj..., r823HFN..., nP5GYjw.. disclosure objects without also including the 5G1srw3... disclosure object. 4.3. Key Binding JWT This section defines the Key Binding JWT, which encodes a signature over an SD-JWT by the Holder's private key. The Key Binding JWT MUST be a JWT according to [RFC7519], and it MUST contain the following elements: * in the JOSE header, - typ: REQUIRED. MUST be kb+jwt, which explicitly types the Key Binding JWT as recommended in Section 3.11 of [RFC8725]. - alg: REQUIRED. A digital signature algorithm identifier such as per the IANA "JSON Web Signature and Encryption Algorithms" registry. It MUST NOT be none. * in the JWT payload, - iat: REQUIRED. The value of this claim MUST be the time at which the Key Binding JWT was issued using the syntax defined in [RFC7519]. - aud: REQUIRED. The value MUST be a single string that identifies the intended receiver of the Key Binding JWT. How the value is represented is up to the protocol used and is out of scope for this specification. - nonce: REQUIRED. Ensures the freshness of the signature or its binding to the given transaction. The value type of this claim MUST be a string. How this value is obtained is up to the protocol used and is out of scope for this specification. - sd_hash: REQUIRED. The base64url-encoded hash value over the Issuer-signed JWT and the selected Disclosures as defined below. The general extensibility model of JWT means that additional claims and header parameters can be added to the Key Binding JWT. However, unless there is a compelling reason, this SHOULD be avoided, as it may harm interoperability and burden conceptual integrity. 4.3.1. Binding to an SD-JWT The hash value in the sd_hash claim binds the KB-JWT to the specific SD-JWT. The sd_hash value MUST be taken over the US-ASCII bytes of the encoded SD-JWT, i.e., the Issuer-signed JWT, a tilde character, and zero or more Disclosures selected for presentation to the Verifier, each followed by a tilde character: ~~~...~~ The bytes of the digest MUST then be base64url encoded. The same hash algorithm as for the Disclosures MUST be used (defined by the _sd_alg element in the Issuer-signed JWT or the default value, as defined in Section 4.1.1). 4.3.2. Validating the Key Binding JWT Whether to require Key Binding is up to the Verifier's policy, based on the set of trust requirements (such as trust frameworks) it belongs to. See Section 9.5 for security considerations. If the Verifier requires Key Binding, the Verifier MUST ensure that the key with which it validates the signature on the Key Binding JWT is the key specified in the SD-JWT as the Holder's public key. For example, if the SD-JWT contains a cnf value with a jwk member, the Verifier would parse the provided JWK and use it to verify the Key Binding JWT. Details of the validation process are defined in Section 7.3. 5. Example SD-JWT In this example, a simple SD-JWT is demonstrated. This example is split into issuance and presentation. | Note: Throughout the examples in this document, line breaks | were added to JSON strings and base64-encoded strings to adhere | to the line-length limit in RFCs and for readability. JSON | does not allow line breaks within strings. 5.1. Issuance The following data about the user comprises the input JWT Claims Set used by the Issuer: { "sub": "user_42", "given_name": "John", "family_name": "Doe", "email": "johndoe@example.com", "phone_number": "+1-202-555-0101", "phone_number_verified": true, "address": { "street_address": "123 Main St", "locality": "Anytown", "region": "Anystate", "country": "US" }, "birthdate": "1940-01-01", "updated_at": 1570000000, "nationalities": [ "US", "DE" ] } In this example, the following decisions were made by the Issuer in constructing the SD-JWT: * The nationalities array is always visible, but its contents are selectively disclosable. * The sub element as well as essential verification data (iss, exp, cnf, etc.) are always visible. * All other claims are selectively disclosable. * For address, the Issuer is using a flat structure, i.e., all the claims in the address claim can only be disclosed in full. Other options are discussed in Section 6. The following payload is used for the SD-JWT: { "_sd": [ "CrQe7S5kqBAHt-nMYXgc6bdt2SH5aTY1sU_M-PgkjPI", "JzYjH4svliH0R3PyEMfeZu6Jt69u5qehZo7F7EPYlSE", "PorFbpKuVu6xymJagvkFsFXAbRoc2JGlAUA2BA4o7cI", "TGf4oLbgwd5JQaHyKVQZU9UdGE0w5rtDsrZzfUaomLo", "XQ_3kPKt1XyX7KANkqVR6yZ2Va5NrPIvPYbyMvRKBMM", "XzFrzwscM6Gn6CJDc6vVK8BkMnfG8vOSKfpPIZdAfdE", "gbOsI4Edq2x2Kw-w5wPEzakob9hV1cRD0ATN3oQL9JM", "jsu9yVulwQQlhFlM_3JlzMaSFzglhQG0DpfayQwLUK4" ], "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "sub": "user_42", "nationalities": [ { "...": "pFndjkZ_VCzmyTa6UjlZo3dh-ko8aIKQc9DlGzhaVYo" }, { "...": "7Cf6JkPudry3lcbwHgeZ8khAv1U1OSlerP0VkBJrWZ0" } ], "_sd_alg": "sha-256", "cnf": { "jwk": { "kty": "EC", "crv": "P-256", "x": "TCAER19Zvu3OHF4j4W4vfSVoHIP1ILilDls7vCeGemc", "y": "ZxjiWWbZMQGHVWKVQ4hbSIirsVfuecCE6t4jT9F2HZQ" } } } The respective Disclosures, created by the Issuer, are listed below. In the text below and in other locations in this specification, the label "SHA-256 Hash:" is used as a shorthand for the label "Base64url-Encoded SHA-256 Hash:". * Claim given_name: - SHA-256 Hash: jsu9yVulwQQlhFlM_3JlzMaSFzglhQG0DpfayQwLUK4 - Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgImdpdmVuX25hbWUiLCAiSm9obiJ d - Contents: ["2GLC42sKQveCfGfryNRN9w", "given_name", "John"] *Claim family_name*: * SHA-256 Hash: TGf4oLbgwd5JQaHyKVQZU9UdGE0w5rtDsrZzfUaomLo * Disclosure: WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImZhbWlseV9uYW1lIiwgIkRvZSJd * Contents: ["eluV5Og3gSNII8EYnsxA_A", "family_name", "Doe"] *Claim email*: * SHA-256 Hash: JzYjH4svliH0R3PyEMfeZu6Jt69u5qehZo7F7EPYlSE * Disclosure: WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgImVtYWlsIiwgImpvaG5kb2VAZXhhbX BsZS5jb20iXQ * Contents: ["6Ij7tM-a5iVPGboS5tmvVA", "email", "johndoe@example.com"] *Claim phone_number*: * SHA-256 Hash: PorFbpKuVu6xymJagvkFsFXAbRoc2JGlAUA2BA4o7cI * Disclosure: WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgInBob25lX251bWJlciIsICIrMS0yMD ItNTU1LTAxMDEiXQ * Contents: ["eI8ZWm9QnKPpNPeNenHdhQ", "phone_number", "+1-202-555-0101"] *Claim phone_number_verified*: * SHA-256 Hash: XQ_3kPKt1XyX7KANkqVR6yZ2Va5NrPIvPYbyMvRKBMM * Disclosure: WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgInBob25lX251bWJlcl92ZXJpZmllZC IsIHRydWVd * Contents: ["Qg_O64zqAxe412a108iroA", "phone_number_verified", true] *Claim address*: * SHA-256 Hash: XzFrzwscM6Gn6CJDc6vVK8BkMnfG8vOSKfpPIZdAfdE * Disclosure: WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgImFkZHJlc3MiLCB7InN0cmVldF9hZG RyZXNzIjogIjEyMyBNYWluIFN0IiwgImxvY2FsaXR5IjogIkFueXRvd24iLCAicmVn aW9uIjogIkFueXN0YXRlIiwgImNvdW50cnkiOiAiVVMifV0 * Contents: ["AJx-095VPrpTtN4QMOqROA", "address", {"street_address": "123 Main St", "locality": "Anytown", "region": "Anystate", "country": "US"}] *Claim birthdate*: * SHA-256 Hash: gbOsI4Edq2x2Kw-w5wPEzakob9hV1cRD0ATN3oQL9JM * Disclosure: WyJQYzMzSk0yTGNoY1VfbEhnZ3ZfdWZRIiwgImJpcnRoZGF0ZSIsICIxOTQwLTAxLT AxIl0 * Contents: ["Pc33JM2LchcU_lHggv_ufQ", "birthdate", "1940-01-01"] *Claim updated_at*: * SHA-256 Hash: CrQe7S5kqBAHt-nMYXgc6bdt2SH5aTY1sU_M-PgkjPI * Disclosure: WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgInVwZGF0ZWRfYXQiLCAxNTcwMDAwMD AwXQ * Contents: ["G02NSrQfjFXQ7Io09syajA", "updated_at", 1570000000] *Array Entry*: * SHA-256 Hash: pFndjkZ_VCzmyTa6UjlZo3dh-ko8aIKQc9DlGzhaVYo * Disclosure: WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgIlVTIl0 * Contents: ["lklxF5jMYlGTPUovMNIvCA", "US"] *Array Entry*: * SHA-256 Hash: 7Cf6JkPudry3lcbwHgeZ8khAv1U1OSlerP0VkBJrWZ0 * Disclosure: WyJuUHVvUW5rUkZxM0JJZUFtN0FuWEZBIiwgIkRFIl0 * Contents: ["nPuoQnkRFq3BIeAm7AnXFA", "DE"] The payload is then signed by the Issuer to create the following Issuer-signed JWT: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0.eyJfc2QiOiBb IkNyUWU3UzVrcUJBSHQtbk1ZWGdjNmJkdDJTSDVhVFkxc1VfTS1QZ2tqUEkiLCAiSnpZ akg0c3ZsaUgwUjNQeUVNZmVadTZKdDY5dTVxZWhabzdGN0VQWWxTRSIsICJQb3JGYnBL dVZ1Nnh5bUphZ3ZrRnNGWEFiUm9jMkpHbEFVQTJCQTRvN2NJIiwgIlRHZjRvTGJnd2Q1 SlFhSHlLVlFaVTlVZEdFMHc1cnREc3JaemZVYW9tTG8iLCAiWFFfM2tQS3QxWHlYN0tB TmtxVlI2eVoyVmE1TnJQSXZQWWJ5TXZSS0JNTSIsICJYekZyendzY002R242Q0pEYzZ2 Vks4QmtNbmZHOHZPU0tmcFBJWmRBZmRFIiwgImdiT3NJNEVkcTJ4Mkt3LXc1d1BFemFr b2I5aFYxY1JEMEFUTjNvUUw5Sk0iLCAianN1OXlWdWx3UVFsaEZsTV8zSmx6TWFTRnpn bGhRRzBEcGZheVF3TFVLNCJdLCAiaXNzIjogImh0dHBzOi8vaXNzdWVyLmV4YW1wbGUu Y29tIiwgImlhdCI6IDE2ODMwMDAwMDAsICJleHAiOiAxODgzMDAwMDAwLCAic3ViIjog InVzZXJfNDIiLCAibmF0aW9uYWxpdGllcyI6IFt7Ii4uLiI6ICJwRm5kamtaX1ZDem15 VGE2VWpsWm8zZGgta284YUlLUWM5RGxHemhhVllvIn0sIHsiLi4uIjogIjdDZjZKa1B1 ZHJ5M2xjYndIZ2VaOGtoQXYxVTFPU2xlclAwVmtCSnJXWjAifV0sICJfc2RfYWxnIjog InNoYS0yNTYiLCAiY25mIjogeyJqd2siOiB7Imt0eSI6ICJFQyIsICJjcnYiOiAiUC0y NTYiLCAieCI6ICJUQ0FFUjE5WnZ1M09IRjRqNFc0dmZTVm9ISVAxSUxpbERsczd2Q2VH ZW1jIiwgInkiOiAiWnhqaVdXYlpNUUdIVldLVlE0aGJTSWlyc1ZmdWVjQ0U2dDRqVDlG MkhaUSJ9fX0.MczwjBFGtzf-6WMT-hIvYbkb11NrV1WMO-jTijpMPNbswNzZ87wY2uHz -CXo6R04b7jYrpj9mNRAvVssXou1iw Adding the Disclosures produces the SD-JWT: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0.eyJfc2QiOiBb IkNyUWU3UzVrcUJBSHQtbk1ZWGdjNmJkdDJTSDVhVFkxc1VfTS1QZ2tqUEkiLCAiSnpZ akg0c3ZsaUgwUjNQeUVNZmVadTZKdDY5dTVxZWhabzdGN0VQWWxTRSIsICJQb3JGYnBL dVZ1Nnh5bUphZ3ZrRnNGWEFiUm9jMkpHbEFVQTJCQTRvN2NJIiwgIlRHZjRvTGJnd2Q1 SlFhSHlLVlFaVTlVZEdFMHc1cnREc3JaemZVYW9tTG8iLCAiWFFfM2tQS3QxWHlYN0tB TmtxVlI2eVoyVmE1TnJQSXZQWWJ5TXZSS0JNTSIsICJYekZyendzY002R242Q0pEYzZ2 Vks4QmtNbmZHOHZPU0tmcFBJWmRBZmRFIiwgImdiT3NJNEVkcTJ4Mkt3LXc1d1BFemFr b2I5aFYxY1JEMEFUTjNvUUw5Sk0iLCAianN1OXlWdWx3UVFsaEZsTV8zSmx6TWFTRnpn bGhRRzBEcGZheVF3TFVLNCJdLCAiaXNzIjogImh0dHBzOi8vaXNzdWVyLmV4YW1wbGUu Y29tIiwgImlhdCI6IDE2ODMwMDAwMDAsICJleHAiOiAxODgzMDAwMDAwLCAic3ViIjog InVzZXJfNDIiLCAibmF0aW9uYWxpdGllcyI6IFt7Ii4uLiI6ICJwRm5kamtaX1ZDem15 VGE2VWpsWm8zZGgta284YUlLUWM5RGxHemhhVllvIn0sIHsiLi4uIjogIjdDZjZKa1B1 ZHJ5M2xjYndIZ2VaOGtoQXYxVTFPU2xlclAwVmtCSnJXWjAifV0sICJfc2RfYWxnIjog InNoYS0yNTYiLCAiY25mIjogeyJqd2siOiB7Imt0eSI6ICJFQyIsICJjcnYiOiAiUC0y NTYiLCAieCI6ICJUQ0FFUjE5WnZ1M09IRjRqNFc0dmZTVm9ISVAxSUxpbERsczd2Q2VH ZW1jIiwgInkiOiAiWnhqaVdXYlpNUUdIVldLVlE0aGJTSWlyc1ZmdWVjQ0U2dDRqVDlG MkhaUSJ9fX0.MczwjBFGtzf-6WMT-hIvYbkb11NrV1WMO-jTijpMPNbswNzZ87wY2uHz -CXo6R04b7jYrpj9mNRAvVssXou1iw~WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgI mdpdmVuX25hbWUiLCAiSm9obiJd~WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImZh bWlseV9uYW1lIiwgIkRvZSJd~WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgImVtYWl sIiwgImpvaG5kb2VAZXhhbXBsZS5jb20iXQ~WyJlSThaV205UW5LUHBOUGVOZW5IZGhR IiwgInBob25lX251bWJlciIsICIrMS0yMDItNTU1LTAxMDEiXQ~WyJRZ19PNjR6cUF4Z TQxMmExMDhpcm9BIiwgInBob25lX251bWJlcl92ZXJpZmllZCIsIHRydWVd~WyJBSngt MDk1VlBycFR0TjRRTU9xUk9BIiwgImFkZHJlc3MiLCB7InN0cmVldF9hZGRyZXNzIjog IjEyMyBNYWluIFN0IiwgImxvY2FsaXR5IjogIkFueXRvd24iLCAicmVnaW9uIjogIkFu eXN0YXRlIiwgImNvdW50cnkiOiAiVVMifV0~WyJQYzMzSk0yTGNoY1VfbEhnZ3ZfdWZR IiwgImJpcnRoZGF0ZSIsICIxOTQwLTAxLTAxIl0~WyJHMDJOU3JRZmpGWFE3SW8wOXN5 YWpBIiwgInVwZGF0ZWRfYXQiLCAxNTcwMDAwMDAwXQ~WyJsa2x4RjVqTVlsR1RQVW92T U5JdkNBIiwgIlVTIl0~WyJuUHVvUW5rUkZxM0JJZUFtN0FuWEZBIiwgIkRFIl0~ 5.2. Presentation The following non-normative example shows an SD-JWT+KB as it would be sent from the Holder to the Verifier. Note that it consists of six tilde-separated parts, with the Issuer-signed JWT as shown above in the beginning, four Disclosures (for the claims given_name, family_name, address, and one of the nationalities) in the middle, and the Key Binding JWT as the last element. eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0.eyJfc2QiOiBb IkNyUWU3UzVrcUJBSHQtbk1ZWGdjNmJkdDJTSDVhVFkxc1VfTS1QZ2tqUEkiLCAiSnpZ akg0c3ZsaUgwUjNQeUVNZmVadTZKdDY5dTVxZWhabzdGN0VQWWxTRSIsICJQb3JGYnBL dVZ1Nnh5bUphZ3ZrRnNGWEFiUm9jMkpHbEFVQTJCQTRvN2NJIiwgIlRHZjRvTGJnd2Q1 SlFhSHlLVlFaVTlVZEdFMHc1cnREc3JaemZVYW9tTG8iLCAiWFFfM2tQS3QxWHlYN0tB TmtxVlI2eVoyVmE1TnJQSXZQWWJ5TXZSS0JNTSIsICJYekZyendzY002R242Q0pEYzZ2 Vks4QmtNbmZHOHZPU0tmcFBJWmRBZmRFIiwgImdiT3NJNEVkcTJ4Mkt3LXc1d1BFemFr b2I5aFYxY1JEMEFUTjNvUUw5Sk0iLCAianN1OXlWdWx3UVFsaEZsTV8zSmx6TWFTRnpn bGhRRzBEcGZheVF3TFVLNCJdLCAiaXNzIjogImh0dHBzOi8vaXNzdWVyLmV4YW1wbGUu Y29tIiwgImlhdCI6IDE2ODMwMDAwMDAsICJleHAiOiAxODgzMDAwMDAwLCAic3ViIjog InVzZXJfNDIiLCAibmF0aW9uYWxpdGllcyI6IFt7Ii4uLiI6ICJwRm5kamtaX1ZDem15 VGE2VWpsWm8zZGgta284YUlLUWM5RGxHemhhVllvIn0sIHsiLi4uIjogIjdDZjZKa1B1 ZHJ5M2xjYndIZ2VaOGtoQXYxVTFPU2xlclAwVmtCSnJXWjAifV0sICJfc2RfYWxnIjog InNoYS0yNTYiLCAiY25mIjogeyJqd2siOiB7Imt0eSI6ICJFQyIsICJjcnYiOiAiUC0y NTYiLCAieCI6ICJUQ0FFUjE5WnZ1M09IRjRqNFc0dmZTVm9ISVAxSUxpbERsczd2Q2VH ZW1jIiwgInkiOiAiWnhqaVdXYlpNUUdIVldLVlE0aGJTSWlyc1ZmdWVjQ0U2dDRqVDlG MkhaUSJ9fX0.MczwjBFGtzf-6WMT-hIvYbkb11NrV1WMO-jTijpMPNbswNzZ87wY2uHz -CXo6R04b7jYrpj9mNRAvVssXou1iw~WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgI mZhbWlseV9uYW1lIiwgIkRvZSJd~WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgImFk ZHJlc3MiLCB7InN0cmVldF9hZGRyZXNzIjogIjEyMyBNYWluIFN0IiwgImxvY2FsaXR5 IjogIkFueXRvd24iLCAicmVnaW9uIjogIkFueXN0YXRlIiwgImNvdW50cnkiOiAiVVMi fV0~WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgImdpdmVuX25hbWUiLCAiSm9obiJd ~WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgIlVTIl0~eyJhbGciOiAiRVMyNTYiLCA idHlwIjogImtiK2p3dCJ9.eyJub25jZSI6ICIxMjM0NTY3ODkwIiwgImF1ZCI6ICJodH RwczovL3ZlcmlmaWVyLmV4YW1wbGUub3JnIiwgImlhdCI6IDE3NDg1MzcyNDQsICJzZF 9oYXNoIjogIjBfQWYtMkItRWhMV1g1eWRoX3cyeHp3bU82aU02NkJfMlFDRWFuSTRmVV kifQ.T3SIus2OidNl41nmVkTZVCKKhOAX97aOldMyHFiYjHm261eLiJ1YiuONFiMN8Ql CmYzDlBLAdPvrXh52KaLgUQ The following Key Binding JWT payload was created and signed for this presentation by the Holder: { "nonce": "1234567890", "aud": "https://verifier.example.org", "iat": 1748537244, "sd_hash": "0_Af-2B-EhLWX5ydh_w2xzwmO6iM66B_2QCEanI4fUY" } If the Verifier did not require Key Binding, then the Holder could have presented the SD-JWT with selected Disclosures directly, instead of encapsulating it in an SD-JWT+KB. After validation, the Verifier will have the following Processed SD- JWT Payload available for further handling: { "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "sub": "user_42", "nationalities": [ "US" ], "cnf": { "jwk": { "kty": "EC", "crv": "P-256", "x": "TCAER19Zvu3OHF4j4W4vfSVoHIP1ILilDls7vCeGemc", "y": "ZxjiWWbZMQGHVWKVQ4hbSIirsVfuecCE6t4jT9F2HZQ" } }, "family_name": "Doe", "address": { "street_address": "123 Main St", "locality": "Anytown", "region": "Anystate", "country": "US" }, "given_name": "John" } 6. Considerations on Nested Data in SD-JWTs Being JSON, an object in an SD-JWT payload MAY contain name/value pairs where the value is another object or objects MAY be elements in arrays. In SD-JWT, the Issuer decides for each claim individually, on each level of the JSON, whether or not the claim should be selectively disclosable. This choice can be made on each level independent of whether keys higher in the hierarchy are selectively disclosable. From this it follows that the _sd key containing digests MAY appear multiple times in an SD-JWT, and likewise, there MAY be multiple arrays within the hierarchy with each having selectively disclosable elements. Digests of selectively disclosable claims MAY even appear within other Disclosures. The following examples illustrate some of the options an Issuer has. It is up to the Issuer to decide which structure to use, depending on, for example, the expected use cases for the SD-JWT, requirements for privacy, size considerations, or operating environment requirements. For more examples with nested structures, see Appendices A.1 and A.2. The following input JWT Claims Set is used as an example throughout this section: { "sub": "6c5c0a49-b589-431d-bae7-219122a9ec2c", "address": { "street_address": "Schulstr. 12", "locality": "Schulpforta", "region": "Sachsen-Anhalt", "country": "DE" } } | Note: The following examples of the structures are non- | normative and are not intended to represent all possible | options. They are also not meant to define or restrict how | address can be represented in an SD-JWT. 6.1. Example: Flat SD-JWT The Issuer can decide to treat the address claim as a block that can either be disclosed completely or not at all. The following example shows that in this case, the entire address claim is treated as an object in the Disclosure. { "_sd": [ "fOBUSQvo46yQO-wRwXBcGqvnbKIueISEL961_Sjd4do" ], "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "sub": "6c5c0a49-b589-431d-bae7-219122a9ec2c", "_sd_alg": "sha-256" } The Issuer would create the following Disclosure referenced by the one hash in the SD-JWT: *Claim address*: * SHA-256 Hash: fOBUSQvo46yQO-wRwXBcGqvnbKIueISEL961_Sjd4do * Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgImFkZHJlc3MiLCB7InN0cmVldF9hZG RyZXNzIjogIlNjaHVsc3RyLiAxMiIsICJsb2NhbGl0eSI6ICJTY2h1bHBmb3J0YSIs ICJyZWdpb24iOiAiU2FjaHNlbi1BbmhhbHQiLCAiY291bnRyeSI6ICJERSJ9XQ * Contents: ["2GLC42sKQveCfGfryNRN9w", "address", {"street_address": "Schulstr. 12", "locality": "Schulpforta", "region": "Sachsen- Anhalt", "country": "DE"}] 6.2. Example: Structured SD-JWT The Issuer may instead decide to make the address claim contents selectively disclosable individually: { "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "sub": "6c5c0a49-b589-431d-bae7-219122a9ec2c", "address": { "_sd": [ "6vh9bq-zS4GKM_7GpggVbYzzu6oOGXrmNVGPHP75Ud0", "9gjVuXtdFROCgRrtNcGUXmF65rdezi_6Er_j76kmYyM", "KURDPh4ZC19-3tiz-Df39V8eidy1oV3a3H1Da2N0g88", "WN9r9dCBJ8HTCsS2jKASxTjEyW5m5x65_Z_2ro2jfXM" ] }, "_sd_alg": "sha-256" } In this case, the Issuer would use the following data in the Disclosures for the address sub-claims: *Claim street_address*: * SHA-256 Hash: 9gjVuXtdFROCgRrtNcGUXmF65rdezi_6Er_j76kmYyM * Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgInN0cmVldF9hZGRyZXNzIiwgIlNjaH Vsc3RyLiAxMiJd * Contents: ["2GLC42sKQveCfGfryNRN9w", "street_address", "Schulstr. 12"] *Claim locality*: * SHA-256 Hash: 6vh9bq-zS4GKM_7GpggVbYzzu6oOGXrmNVGPHP75Ud0 * Disclosure: WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImxvY2FsaXR5IiwgIlNjaHVscGZvcn RhIl0 * Contents: ["eluV5Og3gSNII8EYnsxA_A", "locality", "Schulpforta"] *Claim region*: * SHA-256 Hash: KURDPh4ZC19-3tiz-Df39V8eidy1oV3a3H1Da2N0g88 * Disclosure: WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgInJlZ2lvbiIsICJTYWNoc2VuLUFuaG FsdCJd * Contents: ["6Ij7tM-a5iVPGboS5tmvVA", "region", "Sachsen-Anhalt"] *Claim country*: * SHA-256 Hash: WN9r9dCBJ8HTCsS2jKASxTjEyW5m5x65_Z_2ro2jfXM * Disclosure: WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgImNvdW50cnkiLCAiREUiXQ * Contents: ["eI8ZWm9QnKPpNPeNenHdhQ", "country", "DE"] The Issuer may also make one sub-claim of address permanently disclosed and hide only the other sub-claims: { "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "sub": "6c5c0a49-b589-431d-bae7-219122a9ec2c", "address": { "_sd": [ "6vh9bq-zS4GKM_7GpggVbYzzu6oOGXrmNVGPHP75Ud0", "9gjVuXtdFROCgRrtNcGUXmF65rdezi_6Er_j76kmYyM", "KURDPh4ZC19-3tiz-Df39V8eidy1oV3a3H1Da2N0g88" ], "country": "DE" }, "_sd_alg": "sha-256" } In this case, there would be no Disclosure for country, since it is provided in the clear. 6.3. Example: SD-JWT with Recursive Disclosures The Issuer may also decide to make the address claim contents selectively disclosable recursively, i.e., the address claim is made selectively disclosable as well as its sub-claims: { "_sd": [ "HvrKX6fPV0v9K_yCVFBiLFHsMaxcD_114Em6VT8x1lg" ], "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "sub": "6c5c0a49-b589-431d-bae7-219122a9ec2c", "_sd_alg": "sha-256" } The Issuer first creates Disclosures for the sub-claims and then includes their digests in the Disclosure for the address claim: *Claim street_address*: * SHA-256 Hash: 9gjVuXtdFROCgRrtNcGUXmF65rdezi_6Er_j76kmYyM * Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgInN0cmVldF9hZGRyZXNzIiwgIlNjaH Vsc3RyLiAxMiJd * Contents: ["2GLC42sKQveCfGfryNRN9w", "street_address", "Schulstr. 12"] *Claim locality*: * SHA-256 Hash: 6vh9bq-zS4GKM_7GpggVbYzzu6oOGXrmNVGPHP75Ud0 * Disclosure: WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImxvY2FsaXR5IiwgIlNjaHVscGZvcn RhIl0 * Contents: ["eluV5Og3gSNII8EYnsxA_A", "locality", "Schulpforta"] *Claim region*: * SHA-256 Hash: KURDPh4ZC19-3tiz-Df39V8eidy1oV3a3H1Da2N0g88 * Disclosure: WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgInJlZ2lvbiIsICJTYWNoc2VuLUFuaG FsdCJd * Contents: ["6Ij7tM-a5iVPGboS5tmvVA", "region", "Sachsen-Anhalt"] *Claim country*: * SHA-256 Hash: WN9r9dCBJ8HTCsS2jKASxTjEyW5m5x65_Z_2ro2jfXM * Disclosure: WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgImNvdW50cnkiLCAiREUiXQ * Contents: ["eI8ZWm9QnKPpNPeNenHdhQ", "country", "DE"] *Claim address*: * SHA-256 Hash: HvrKX6fPV0v9K_yCVFBiLFHsMaxcD_114Em6VT8x1lg * Disclosure: WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgImFkZHJlc3MiLCB7Il9zZCI6IFsiNn ZoOWJxLXpTNEdLTV83R3BnZ1ZiWXp6dTZvT0dYcm1OVkdQSFA3NVVkMCIsICI5Z2pW dVh0ZEZST0NnUnJ0TmNHVVhtRjY1cmRlemlfNkVyX2o3NmttWXlNIiwgIktVUkRQaD RaQzE5LTN0aXotRGYzOVY4ZWlkeTFvVjNhM0gxRGEyTjBnODgiLCAiV045cjlkQ0JK OEhUQ3NTMmpLQVN4VGpFeVc1bTV4NjVfWl8ycm8yamZYTSJdfV0 * Contents: ["Qg_O64zqAxe412a108iroA", "address", {"_sd": ["6vh9bq- zS4GKM_7GpggVbYzzu6oOGXrmNVGPHP75Ud0", "9gjVuXtdFROCgRrtNcGUXmF65rdezi_6Er_j76kmYyM", "KURDPh4ZC19-3tiz- Df39V8eidy1oV3a3H1Da2N0g88", "WN9r9dCBJ8HTCsS2jKASxTjEyW5m5x65_Z_2ro2jfXM"]}] 7. Verification and Processing 7.1. Verification of the SD-JWT Upon receiving an SD-JWT, either directly or as a component of an SD- JWT+KB, a Holder or Verifier needs to ensure that: * the Issuer-signed JWT is valid, and * all Disclosures are valid and correspond to a respective digest value in the Issuer-signed JWT (directly in the payload or recursively included in the contents of other Disclosures). The Holder or the Verifier MUST perform the following checks when receiving an SD-JWT to validate the SD-JWT and extract the payload: 1. Separate the SD-JWT into the Issuer-signed JWT and the Disclosures (if any). 2. Validate the Issuer-signed JWT: a. Ensure that the used signing algorithm was deemed secure for the application. Refer to [RFC8725], Sections 3.1 and 3.2 for details. The none algorithm MUST NOT be accepted. b. Validate the signature over the Issuer-signed JWT per Section 5.2 of [RFC7515]. c. Validate the Issuer and that the signing key belongs to this Issuer. d. Check that the _sd_alg claim value is understood and the hash algorithm is deemed secure according to the Holder or Verifier's policy (see Section 4.1.1). 3. Process the Disclosures and embedded digests in the Issuer-signed JWT as follows: a. For each Disclosure provided: i. Calculate the digest over the base64url-encoded string as described in Section 4.2.3. b. (*) Identify all embedded digests in the Issuer-signed JWT as follows: i. Find all objects having an _sd key that refers to an array of strings. ii. Find all array elements that are objects with one key, that key being ... and referring to a string. c. (**) For each embedded digest found in the previous step: i. Compare the value with the digests calculated previously and find the matching Disclosure. If no such Disclosure can be found, the digest MUST be ignored. ii. If the digest was found in an object's _sd key: 1. If the contents of the respective Disclosure is not a JSON array of three elements (salt, claim name, claim value), the SD-JWT MUST be rejected. 2. If the claim name is _sd or ..., the SD-JWT MUST be rejected. 3. If the claim name already exists at the level of the _sd key, the SD-JWT MUST be rejected. 4. Insert, at the level of the _sd key, a new claim using the claim name and claim value from the Disclosure. 5. Recursively process the value using the steps described in (*) and (**). iii. If the digest was found in an array element: 1. If the contents of the respective Disclosure is not a JSON array of two elements (salt, value), the SD- JWT MUST be rejected. 2. Replace the array element with the value from the Disclosure. 3. Recursively process the value using the steps described in (*) and (**). d. Remove all array elements for which the digest was not found in the previous step. e. Remove all _sd keys and their contents from the Issuer-signed JWT payload. If this results in an object with no properties, it should be represented as an empty object {}. f. Remove the claim _sd_alg from the SD-JWT payload. 4. If any digest value is encountered more than once in the Issuer- signed JWT payload (directly or recursively via other Disclosures), the SD-JWT MUST be rejected. 5. If any Disclosure was not referenced by digest value in the Issuer-signed JWT (directly or recursively via other Disclosures), the SD-JWT MUST be rejected. 6. Check that the SD-JWT is valid using claims such as nbf, exp, and aud in the processed payload, if present. If a required validity-controlling claim is missing (see Section 9.7), the SD- JWT MUST be rejected. If any step fails, the SD-JWT is not valid, and processing MUST be aborted. Otherwise, the JSON document resulting from the preceding processing and verification steps, herein referred to as the "Processed SD-JWT Payload", can be made available to the application to be used for its intended purpose. | Note that these processing steps do not yield any guarantees to | the Holder about having received a complete set of Disclosures. | That is, for some digest values in the Issuer-signed JWT (which | are not decoy digests), there may be no corresponding | Disclosures, for example, if the message from the Issuer was | truncated. It is up to the Holder how to maintain the mapping | between the Disclosures and the plaintext claim values to be | able to display them to the user when needed. 7.2. Processing by the Holder The Issuer provides the Holder with an SD-JWT, not an SD-JWT+KB. If the Holder receives an SD-JWT+KB, it MUST be rejected. When receiving an SD-JWT, the Holder MUST do the following: 1. Process the SD-JWT as defined in Section 7.1 to validate it and extract the payload. 2. Ensure that the contents of claims in the payload are acceptable (depending on the application; for example, check that any values the Holder can check are correct). For presentation to a Verifier, the Holder MUST perform the following (or equivalent) steps (in addition to the checks described in Section 7.1 performed after receiving the SD-JWT): 1. Decide which Disclosures to release to the Verifier, obtaining consent if necessary (note that if and how consent is attained is out of scope for this document). 2. Verify that each selected Disclosure satisfies one of the two following conditions: a. The hash of the Disclosure is contained in the Issuer-signed JWT claims. b. The hash of the Disclosure is contained in the claim value of another selected Disclosure. 3. Assemble the SD-JWT, including the Issuer-signed JWT and the selected Disclosures (see Section 4 for the format). 4. If Key Binding is not required: a. Send the SD-JWT to the Verifier. 5. If Key Binding is required: a. Create a Key Binding JWT tied to the SD-JWT. b. Assemble the SD-JWT+KB by concatenating the SD-JWT and the Key Binding JWT. c. Send the SD-JWT+KB to the Verifier. 7.3. Verification by the Verifier Upon receiving a presentation from a Holder, in the form of either an SD-JWT or an SD-JWT+KB, in addition to the checks described in Section 7.1, Verifiers need to ensure that * if Key Binding is required, then the Holder has provided an SD- JWT+KB, and * the Key Binding JWT is signed by the Holder and valid. To this end, Verifiers MUST follow the following steps (or equivalent): 1. Determine if Key Binding is to be checked according to the Verifier's policy for the use case at hand. This decision MUST NOT be based on whether or not a Key Binding JWT is provided by the Holder. Refer to Section 9.5 for details. 2. If Key Binding is required and the Holder has provided an SD-JWT (without Key Binding), the Verifier MUST reject the presentation. 3. If the Holder has provided an SD-JWT+KB, parse it into an SD-JWT and a Key Binding JWT. 4. Process the SD-JWT as defined in Section 7.1 to validate the presentation and extract the payload. 5. If Key Binding is required: a. Determine the public key for the Holder from the SD-JWT (see Section 4.1.2). b. Ensure that a signing algorithm was used that was deemed secure for the application. Refer to [RFC8725], Sections 3.1 and 3.2 for details. The none algorithm MUST NOT be accepted. c. Validate the signature over the Key Binding JWT per Section 5.2 of [RFC7515]. d. Check that the typ of the Key Binding JWT is kb+jwt (see Section 4.3). e. Check that the creation time of the Key Binding JWT, as determined by the iat claim, is within an acceptable window. f. Determine that the Key Binding JWT is bound to the current transaction and was created for this Verifier (replay detection) by validating nonce and aud claims. g. Calculate the digest over the Issuer-signed JWT and Disclosures as defined in Section 4.3.1 and verify that it matches the value of the sd_hash claim in the Key Binding JWT. h. Check that the Key Binding JWT is a valid JWT in all other respects, per [RFC7519] and [RFC8725]. If any step fails, the presentation is not valid and processing MUST be aborted. Otherwise, the Processed SD-JWT Payload can be passed to the application to be used for the intended purpose. 8. JWS JSON Serialization This section describes an alternative format for SD-JWTs and SD- JWT+KBs using the JWS JSON Serialization from [RFC7515]. Supporting this format is OPTIONAL. 8.1. New Unprotected Header Parameters For both the General and Flattened JSON Serialization, the SD-JWT or SD-JWT+KB is represented as a JSON object according to Section 7.2 of [RFC7515]. The following new unprotected header parameters are defined: disclosures: An array of strings where each element is an individual Disclosure as described in Section 4.2. kb_jwt: Present only in an SD-JWT+KB, the Key Binding JWT as described in Section 4.3. In an SD-JWT+KB, kb_jwt MUST be present when using the JWS JSON Serialization, and the digest in the sd_hash claim MUST be taken over the SD-JWT as described in Section 4.3.1. This means that even when using the JWS JSON Serialization, the representation as a regular SD- JWT Compact Serialization MUST be created temporarily to calculate the digest. In detail, the SD-JWT Compact Serialization part is built by concatenating the protected header, the payload, and the signature of the JWS JSON serialized SD-JWT using a . character as a separator, and using the Disclosures from the disclosures member of the unprotected header. Unprotected headers other than disclosures are not covered by the digest, and therefore, as usual, are not protected against tampering. 8.2. Flattened JSON Serialization In the case of Flattened JSON Serialization, there is only one unprotected header. The following is a non-normative example of a JWS JSON serialized SD- JWT as issued using the Flattened JSON Serialization: { "header": { "disclosures": [ "WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgInN1YiIsICJqb2huX2RvZV80M iJd", "WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImdpdmVuX25hbWUiLCAiSm9ob iJd", "WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgImZhbWlseV9uYW1lIiwgIkRvZ SJd", "WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgImJpcnRoZGF0ZSIsICIxOTQwL TAxLTAxIl0" ] }, "payload": "eyJfc2QiOiBbIjRIQm42YUlZM1d0dUdHV1R4LXFVajZjZGs2V0JwWn lnbHRkRmF2UGE3TFkiLCAiOHNtMVFDZjAyMXBObkhBQ0k1c1A0bTRLWmd5Tk9PQV ljVGo5SE5hQzF3WSIsICJjZ0ZkaHFQbzgzeFlObEpmYWNhQ2FhN3VQOVJDUjUwVk U1UjRMQVE5aXFVIiwgImpNQ1hWei0tOWI4eDM3WWNvRGZYUWluencxd1pjY2NmRl JCQ0ZHcWRHMm8iXSwgImlzcyI6ICJodHRwczovL2lzc3Vlci5leGFtcGxlLmNvbS IsICJpYXQiOiAxNjgzMDAwMDAwLCAiZXhwIjogMTg4MzAwMDAwMCwgIl9zZF9hbG ciOiAic2hhLTI1NiIsICJjbmYiOiB7Imp3ayI6IHsia3R5IjogIkVDIiwgImNydi I6ICJQLTI1NiIsICJ4IjogIlRDQUVSMTladnUzT0hGNGo0VzR2ZlNWb0hJUDFJTG lsRGxzN3ZDZUdlbWMiLCAieSI6ICJaeGppV1diWk1RR0hWV0tWUTRoYlNJaXJzVm Z1ZWNDRTZ0NGpUOUYySFpRIn19fQ", "protected": "eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0", "signature": "3oOtvPxU3QdDWUmfGexVB5rWyON2f1atg5rL825bvvD1g7ywjKDK y2UHqHoH2QS4FA99JbG5qnlqFaGXFChfjQ" } The following is an SD-JWT+KB with two Disclosures: { "header": { "disclosures": [ "WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgImZhbWlseV9uYW1lIiwgIkRvZ SJd", "WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImdpdmVuX25hbWUiLCAiSm9ob iJd" ], "kb_jwt": "eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImtiK2p3dCJ9.eyJub25j ZSI6ICIxMjM0NTY3ODkwIiwgImF1ZCI6ICJodHRwczovL3ZlcmlmaWVyLmV4YW 1wbGUub3JnIiwgImlhdCI6IDE3NDg1MzcyNDQsICJzZF9oYXNoIjogIlZqdFBz Z1pwUVRSeEtKdkRwU0otblhsWktFOVo5TGdENEZ5Q3d3b05NUncifQ.GrDvJ2j hYNmUvqdwVEIrxeTFEuI5qKSM7I6P95JmA6Wko-FBB5vPGQn0wvmdgjLCE2iDR h1r82zchjmABQ3V8w" }, "payload": "eyJfc2QiOiBbIjRIQm42YUlZM1d0dUdHV1R4LXFVajZjZGs2V0JwWn lnbHRkRmF2UGE3TFkiLCAiOHNtMVFDZjAyMXBObkhBQ0k1c1A0bTRLWmd5Tk9PQV ljVGo5SE5hQzF3WSIsICJjZ0ZkaHFQbzgzeFlObEpmYWNhQ2FhN3VQOVJDUjUwVk U1UjRMQVE5aXFVIiwgImpNQ1hWei0tOWI4eDM3WWNvRGZYUWluencxd1pjY2NmRl JCQ0ZHcWRHMm8iXSwgImlzcyI6ICJodHRwczovL2lzc3Vlci5leGFtcGxlLmNvbS IsICJpYXQiOiAxNjgzMDAwMDAwLCAiZXhwIjogMTg4MzAwMDAwMCwgIl9zZF9hbG ciOiAic2hhLTI1NiIsICJjbmYiOiB7Imp3ayI6IHsia3R5IjogIkVDIiwgImNydi I6ICJQLTI1NiIsICJ4IjogIlRDQUVSMTladnUzT0hGNGo0VzR2ZlNWb0hJUDFJTG lsRGxzN3ZDZUdlbWMiLCAieSI6ICJaeGppV1diWk1RR0hWV0tWUTRoYlNJaXJzVm Z1ZWNDRTZ0NGpUOUYySFpRIn19fQ", "protected": "eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0", "signature": "3oOtvPxU3QdDWUmfGexVB5rWyON2f1atg5rL825bvvD1g7ywjKDK y2UHqHoH2QS4FA99JbG5qnlqFaGXFChfjQ" } 8.3. General JSON Serialization In the case of General JSON Serialization, there are multiple unprotected headers (one per signature). If present, disclosures and kb_jwt MUST be included in the first unprotected header and MUST NOT be present in any following unprotected headers. The following is a non-normative example of a presentation of a JWS JSON serialized SD-JWT, including a Key Binding JWT using the General JSON Serialization: { "payload": "eyJfc2QiOiBbIjRIQm42YUlZM1d0dUdHV1R4LXFVajZjZGs2V0JwWn lnbHRkRmF2UGE3TFkiLCAiOHNtMVFDZjAyMXBObkhBQ0k1c1A0bTRLWmd5Tk9PQV ljVGo5SE5hQzF3WSIsICJjZ0ZkaHFQbzgzeFlObEpmYWNhQ2FhN3VQOVJDUjUwVk U1UjRMQVE5aXFVIiwgImpNQ1hWei0tOWI4eDM3WWNvRGZYUWluencxd1pjY2NmRl JCQ0ZHcWRHMm8iXSwgImlzcyI6ICJodHRwczovL2lzc3Vlci5leGFtcGxlLmNvbS IsICJpYXQiOiAxNjgzMDAwMDAwLCAiZXhwIjogMTg4MzAwMDAwMCwgIl9zZF9hbG ciOiAic2hhLTI1NiIsICJjbmYiOiB7Imp3ayI6IHsia3R5IjogIkVDIiwgImNydi I6ICJQLTI1NiIsICJ4IjogIlRDQUVSMTladnUzT0hGNGo0VzR2ZlNWb0hJUDFJTG lsRGxzN3ZDZUdlbWMiLCAieSI6ICJaeGppV1diWk1RR0hWV0tWUTRoYlNJaXJzVm Z1ZWNDRTZ0NGpUOUYySFpRIn19fQ", "signatures": [ { "header": { "disclosures": [ "WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgImZhbWlseV9uYW1lIiwgI kRvZSJd", "WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImdpdmVuX25hbWUiLCAiS m9obiJd" ], "kid": "issuer-key-1", "kb_jwt": "eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImtiK2p3dCJ9.eyJu b25jZSI6ICIxMjM0NTY3ODkwIiwgImF1ZCI6ICJodHRwczovL3ZlcmlmaW VyLmV4YW1wbGUub3JnIiwgImlhdCI6IDE3NDg1MzcyNDQsICJzZF9oYXNo IjogInFieUlXUDNwaFZneEVzRFJpd2R3OVc2QkozZHhpUEx1bWNZcFBidT RFYjgifQ.VyZqxaVHh1XE6M-kuax_7Laq42uFDrx17lLG2jluyKgy_PqC8 5z4DVpISdMZDdSANGs-0zN2N7xnM-E1Pg0sOw" }, "protected": "eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0", "signature": "dz1N3uvhVHJjldyXwppmBLieTj0vuBMbzL06rnrLIuxEQb9B HoIOwGrWh-UadW4orRpEiEtjf7xyHDONMJ6tBw" }, { "header": { "kid": "issuer-key-2" }, "protected": "eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0", "signature": "kuXio_U88RH_-fihAPET4AFUjj0BpxsT6yddMFIr6pfHKtAe 0FOJNWQxU42rfnORuNQNTgGsf2A8LjEba5inNg" } ] } 8.4. Verification of the JWS JSON Serialized SD-JWT Verification of the JWS JSON serialized SD-JWT follows the rules defined in Section 3.4, except for the following aspects: * The SD-JWT or SD-JWT+KB does not need to be split into component parts and the Disclosures can be found in the disclosures member of the unprotected header. * To verify the digest in sd_hash in the Key Binding JWT of an SD- JWT+KB, the Verifier MUST assemble the string to be hashed as described in Section 8.1. 9. Security Considerations The security considerations help achieve the following properties: *Selective Disclosure:* An adversary in the role of the Verifier cannot obtain information from an SD-JWT about any claim name or claim value that was not explicitly disclosed by the Holder unless that information can be derived from other disclosed claims or sources other than the presented SD-JWT. *Integrity:* A malicious Holder cannot modify names or values of selectively disclosable claims without detection by the Verifier. Additionally, as described in Section 9.5, the application of Key Binding can ensure that the presenter of an SD-JWT credential is the Holder of the credential. 9.1. Mandatory Signing of the Issuer-Signed JWT The JWT MUST be signed by the Issuer to protect the integrity of the issued claims. An attacker can modify or add claims if this JWT is not signed (e.g., change the "email" attribute to take over the victim's account or add an attribute indicating a fake academic qualification). The Verifier MUST always check the signature of the Issuer-signed JWT to ensure that it has not been tampered with since its issuance. The Issuer-signed JWT MUST be rejected if the signature cannot be verified. The security of the Issuer-signed JWT depends on the security of the signature algorithm. Per the last paragraph of Section 5.2 of [RFC7515], it is an application-specific decision to choose the appropriate JWS algorithm from [JWS.Algs], including post-quantum algorithms, when they are ready. 9.2. Manipulation of Disclosures Holders can manipulate the Disclosures by changing the values of the claims before sending them to the Verifier. The Verifier MUST check the Disclosures to ensure that the values of the claims are correct, i.e., the digests of the Disclosures are actually present in the signed SD-JWT. A naive Verifier that extracts all claim values from the Disclosures (without checking the hashes) and inserts them into the SD-JWT payload is vulnerable to this attack. However, in a structured SD- JWT, without comparing the digests of the Disclosures, such an implementation could not determine the correct place in a nested object where a claim needs to be inserted. Therefore, the naive implementation would not only be insecure, but also incorrect. The steps described in Section 7.3 ensure that the Verifier checks the Disclosures correctly. 9.3. Entropy of the Salt The security model that conceals the plaintext claims relies on the high entropy random data of the salt as additional input to the hash function. The randomness ensures that the same plaintext claim value does not produce the same digest value. It also makes it infeasible to guess the preimage of the digest (thereby learning the plaintext claim value) by enumerating the potential value space for a claim into the hash function to search for a matching digest value. It is therefore vitally important that unrevealed salts cannot be learned or guessed, even if other salts have been revealed. As such, each salt MUST be created in such a manner that it is cryptographically random, sufficiently long, and has high enough entropy that it is infeasible to guess. A new salt MUST be chosen for each claim independently of other salts. See "Randomness Requirements for Security" [RFC4086] for considerations on generating random values. The RECOMMENDED minimum length of the randomly generated portion of the salt is 128 bits. The Issuer MUST ensure that a new salt value is chosen for each claim, including when the same claim name occurs at different places in the structure of the SD-JWT. This can be seen in the example in Appendix A.2, where multiple claims with the name type appear, but each of them has a different salt. 9.4. Choice of a Hash Algorithm To ensure privacy of claims that are selectively disclosable but are not being disclosed in a given presentation, the hash function MUST ensure that it is infeasible to calculate any portion of the three elements (salt, claim name, claim value) from a particular digest. This implies the hash function MUST be preimage resistant, but should also not allow an observer to infer any partial information about the undisclosed content. In the terminology of cryptographic commitment schemes, the hash function needs to be computationally hiding. To ensure the integrity of selectively disclosable claims, the hash function MUST be second-preimage resistant. That is, for any combination of salt, claim name, and claim value, it is infeasible to find a different combination of salt, claim name, and claim value that results in the same digest. The hash function SHOULD also be collision resistant. Although not essential to the anticipated uses of SD-JWT, without collision resistance an Issuer may be able to find multiple disclosures that have the same hash value. In which case, the signature over the SD- JWT would not then commit the Issuer to the contents of the JWT. The collision resistance of the hash function used to generate digests SHOULD match the collision resistance of the hash function used by the signature scheme. For example, use of the ES512 signature algorithm would require a disclosure hash function with at least 256-bit collision resistance, such as SHA-512. Inclusion in the "Named Information Hash Algorithm Registry" [Hash.Algs] alone does not indicate a hash algorithm's suitability for use in SD-JWT (it contains several heavily truncated digests, such as sha-256-32 and sha-256-64, which are unfit for security applications). 9.5. Key Binding Key Binding aims to ensure that the presenter of an SD-JWT credential is actually the Holder of the credential. An SD-JWT compatible with Key Binding contains a public key, or a reference to a public key, that corresponds to a private key possessed by the Holder. The Verifier requires that the Holder prove possession of that private key when presenting the SD-JWT credential. Without Key Binding, a Verifier only gets the proof that the credential was issued by a particular Issuer, but the credential itself can be replayed by anyone who gets access to it. This means that, for example, after the credential was leaked to an attacker, the attacker can present the credential to any Verifier that does not require a binding. Also, a malicious Verifier to which the Holder presented the credential can present the credential to another Verifier if that other Verifier does not require Key Binding. Verifiers MUST decide whether Key Binding is required for a particular use case before verifying a credential. This decision can be informed by various factors including but not limited to the following: business requirements, the use case, the type of binding between a Holder and its credential that is required for a use case, the sensitivity of the use case, the expected properties of a credential, the type and contents of other credentials expected to be presented at the same time, etc. It is important that a Verifier not make its security policy decisions based on data that can be influenced by an attacker. For this reason, when deciding whether or not Key Binding is required, Verifiers MUST NOT take into account whether the Holder has provided an SD-JWT+KB or a bare SD-JWT; otherwise, an attacker could strip the KB-JWT from an SD-JWT+KB and present the resultant SD-JWT. Furthermore, Verifiers should be aware that Key Binding information may have been added to an SD-JWT in a format that they do not recognize and therefore may not be able to tell whether or not the SD-JWT supports Key Binding. If a Verifier determines that Key Binding is required for a particular use case and the Holder presents either a bare SD-JWT or an SD-JWT+KB with an invalid Key Binding JWT, then the Verifier will reject the presentation when following the verification steps described in Section 7.3. 9.6. Concealing Claim Names SD-JWT ensures that names of claims that are selectively disclosable are always concealed unless the claim's value is disclosed. This prevents an attacker from learning the names of such claims. However, the names of the claims that are permanently disclosed are not hidden. This includes the keys of objects that themselves are not concealed, but contain concealed claims. This limitation needs to be taken into account by Issuers when creating the structure of the SD-JWT. 9.7. Selectively Disclosable Validity Claims An Issuer MUST NOT allow any content to be selectively disclosable that is critical for evaluating the SD-JWT's authenticity or validity. The exact list of such content will depend on the application and SHOULD be listed by any application-specific profiles of SD-JWT. The following is a list of registered JWT claim names that SHOULD be considered as security critical: * iss (Issuer) * aud (Audience), although issuers MAY allow individual entries in the array to be selectively disclosable * exp (Expiration Time) * nbf (Not Before) * cnf (Confirmation Key) Issuers will typically include claims controlling the validity of the SD-JWT in plaintext in the SD-JWT payload, but there is no guarantee they will do so. Therefore, Verifiers cannot reliably depend on that and need to operate as though security-critical claims might be selectively disclosable. Verifiers therefore MUST ensure that all claims they deem necessary for checking the validity of an SD-JWT in the given context are present (or disclosed, respectively) during validation of the SD-JWT. This is implemented in the last step of the verification defined in Section 7.1. The precise set of required validity claims will typically be defined by operating environment rules, an application-specific profile, or the credential format, and MAY include claims other than those listed herein. 9.8. Distribution and Rotation of Issuer Signature Verification Key This specification does not define how signature verification keys of Issuers are distributed to Verifiers. However, it is RECOMMENDED that Issuers publish their keys in a way that allows for efficient and secure key rotation and revocation, for example, by publishing keys at a predefined location using the JSON Web Key Set (JWKS) format [RFC7517]. Verifiers need to ensure that they are not using expired or revoked keys for signature verification using reasonable and appropriate means for the given key-distribution method. 9.9. Forwarding Credentials Any entity in possession of an SD-JWT (including an SD-JWT extracted from an SD-JWT+KB) can forward it to any third party that does not enforce Key Binding. When doing so, that entity may remove Disclosures such that the receiver learns only a subset of the claims contained in the original SD-JWT. For example, a device manufacturer might produce an SD-JWT containing information about upstream and downstream supply chain contributors. Each supply chain party can verify only the claims that were selectively disclosed to them by an upstream party, and they can choose to further reduce the disclosed claims when presenting to a downstream party. In some scenarios, this behavior could be desirable; if it is not, Issuers need to support and Verifiers need to enforce Key Binding. 9.10. Integrity of SD-JWTs and SD-JWT+KBs With an SD-JWT, the Issuer-signed JWT is integrity protected by the Issuer's signature, and the values of the Disclosures are integrity protected by the digests included therein. The specific set of Disclosures, however, is not integrity protected; the SD-JWT can be modified by adding or removing Disclosures and still be valid. With an SD-JWT+KB, the set of selected Disclosures is integrity protected. The signature in the Key Binding JWT covers a specific SD-JWT, with a specific Issuer-signed JWT and a specific set of Disclosures. Thus, the signature on the Key Binding JWT, in addition to proving Key Binding, also assures the authenticity and integrity of the set of Disclosures the Holder disclosed. The set of Disclosures in an SD-JWT+KB is the set that the Holder intended to send; no intermediate party has added, removed, or modified the list of Disclosures. 9.11. Explicit Typing Section 3.11 of [RFC8725] describes the use of explicit typing as one mechanism to prevent confusion attacks (described in Section 2.8 of [RFC8725]) in which one kind of JWT is mistaken for another. SD-JWTs are also potentially subject to such confusion attacks, so in the absence of other techniques, it is RECOMMENDED that application profiles of SD-JWT specify an explicit type by including the typ header parameter when the SD-JWT is issued, and that Verifiers check this value. When explicit typing using the typ header is employed for an SD-JWT, it is RECOMMENDED that a media type name of the format "application/ example+sd-jwt" be used, where "example" is replaced by the identifier for the specific kind of SD-JWT. The definition of typ in Section 4.1.9 of [RFC7515] recommends that the "application/" prefix be omitted, so "example+sd-jwt" would be the value of the typ header parameter. Use of the cty content type header parameter to indicate the content type of the SD-JWT payload can also be used to distinguish different types of JSON objects or different kinds of JWT Claim Sets. 9.12. Key Pair Generation and Lifecycle Management Implementations of SD-JWT rely on asymmetric cryptographic keys and must therefore ensure that key pair generation, handling, storage, and lifecycle management are performed securely. While the specific mechanisms for secure key management are out of scope for this document, implementers should follow established best practices, such as those outlined in NIST SP 800-57 Part 1 [NIST.SP.800-57pt1r5]. This includes: * Secure Generation: Using cryptographically secure methods and random number generators. * Secure Storage: Protecting private keys from unauthorized access. * Lifecycle Management: Ensuring secure key rotation, revocation, and disposal as needed. Appropriate key management is essential, as any compromise can lead to unauthorized disclosure or forgery of SD-JWTs. 10. Privacy Considerations 10.1. Unlinkability Unlinkability is a property whereby adversaries are prevented from correlating credential presentations of the same user beyond the user's consent. Without unlinkability, an adversary might be able to learn more about the user than the user intended to disclose, for example: * Cooperating Verifiers might want to track users across services to build advertising profiles. * Issuers might want to track where users present their credentials to enable surveillance. * After a data breach at multiple Verifiers, publicly available information might allow linking identifiable information presented to Verifier A with originally anonymous information presented to Verifier B, therefore revealing the identities of users of Verifier B. The following types of unlinkability are discussed below: * Presentation Unlinkability: A Verifier should not be able to link two presentations of the same credential. * Verifier/Verifier Unlinkability: The presentations made to two different Verifiers should not reveal that the same credential was presented (e.g., if the two Verifiers collude, or if they are forced by a third party to reveal the presentations made to them, or data leaks from one Verifier to the other). * Issuer/Verifier Unlinkability (Honest Verifier): An Issuer of a credential should not be able to know that a user presented this credential unless the Verifier is sharing presentation data with the Issuer accidentally, deliberately, or because it is forced to do so. * Issuer/Verifier Unlinkability (Careless/Colluding/Compromised/ Coerced Verifier): >An Issuer of a credential should under no circumstances be able to tell that a user presented this credential to a certain Verifier. In particular, this includes cases when the Verifier accidentally or deliberately shares presentation data with the Issuer or is forced to do so. In all cases, unlinkability is limited to cases where the disclosed claims do not contain information that directly or indirectly identifies the user. For example, when a taxpayer identification number is contained in the disclosed claims, the Issuer and Verifier can easily link the user's transactions. However, when the user only discloses a birthdate to one Verifier and a postal code to another Verifier, the two Verifiers should not be able to determine that they were interacting with the same user. Issuer/Verifier unlinkability with a careless, colluding, compromised, or coerced Verifier cannot be achieved in salted hash- based selective disclosure approaches, such as SD-JWT, as the issued credential with the Issuer's signature is directly presented to the Verifier, who can forward it to the Issuer. To reduce the risk of revealing the data later on, Section 10.2 defines requirements to reduce the amount of data stored. In considering Issuer/Verifier unlinkability, it is important to note the potential for an asymmetric power dynamic between Issuers and Verifiers. This dynamic can compel an otherwise Honest Verifier into collusion. For example, a governmental Issuer might have the authority to mandate that a Verifier report back information about the credentials presented to it. Legal requirements could further enforce this, explicitly undermining Issuer/Verifier unlinkability. Similarly, a large service provider issuing credentials might implicitly pressure Verifiers into collusion by incentivizing participation in their larger operating environment. Deployers of SD-JWT must be aware of these potential power dynamics, mitigate them as much as possible, and/or make the risks transparent to the user. Contrary to that, Issuer/Verifier unlinkability with an Honest Verifier can generally be achieved. However, a callback from the Verifier to the Issuer, such as a revocation check, could potentially disclose information about the credential's usage to the Issuer. Where such callbacks are necessary, they need to be executed in a manner that preserves privacy and does not disclose details about the credential to the Issuer (the mechanism described in [TSL] is an example of an approach that discloses minimal information towards the Issuer). It is important to note that the timing of such requests could potentially serve as a side channel. Verifier/Verifier unlinkability and presentation unlinkability can be achieved using batch issuance: A batch of credentials based on the same claims is issued to the Holder instead of just a single credential. The Holder can then use a different credential for each Verifier or even for each session with a Verifier. New key binding keys and salts MUST be used for each credential in the batch to ensure that the Verifiers cannot link the credentials using these values. Likewise, claims carrying time information, like iat, exp, and nbf, MUST either be randomized within a time period considered appropriate (e.g., randomize iat within the last 24 hours and calculate exp accordingly) or rounded (e.g., rounded down to the beginning of the day). SD-JWT only conceals the value of claims that are not revealed. It does not meet the security properties for anonymous credentials [CL01]. In particular, colluding Verifiers and Issuers can know when they have seen the same credential no matter what fields have been disclosed, even when none have been disclosed. This behavior may not align with what users naturally anticipate or are guided to expect from user-interface interactions, potentially causing them to make decisions they might not otherwise make. Workarounds such as batch issuance, as described above, help with keeping Verifiers from linking different presentations, but cannot work for Issuer/Verifier unlinkability. This issue applies to all salted hash-based approaches, including mDL/mDoc [ISO.18013-5] and SD-CWT [SD-CWT]. 10.2. Storage of User Data Wherever user data is stored, it represents a potential target for an attacker. This target can be of particularly high value when the data is signed by a trusted authority like an official national identity service. For example, in OpenID Connect [OpenID.Core], signed ID Tokens can be stored by Relying Parties. In the case of SD-JWT, Holders have to store SD-JWTs, and Issuers and Verifiers may decide to do so as well. Not surprisingly, a leak of such data risks revealing private data of users to third parties. Signed user data, the authenticity of which can be easily verified by third parties, further exacerbates the risk. As discussed in Section 9.5, leaked SD-JWTs may also allow attackers to impersonate Holders unless Key Binding is enforced and the attacker does not have access to the Holder's cryptographic keys. Due to these risks, and the risks described in Section 10.1, systems implementing SD-JWT SHOULD be designed to minimize the amount of data that is stored. All involved parties SHOULD NOT store SD-JWTs longer than strictly necessary, including in log files. After Issuance, Issuers SHOULD NOT store the Issuer-signed JWT or the respective Disclosures. Holders SHOULD store SD-JWTs only in encrypted form, and, wherever possible, use hardware-backed encryption in particular for the private Key Binding key. Decentralized storage of data, e.g., on user devices, SHOULD be preferred for user credentials over centralized storage. Expired SD-JWTs SHOULD be deleted as soon as possible. After Verification, Verifiers SHOULD NOT store the Issuer-signed JWT or the respective Disclosures. It may be sufficient to store the result of the verification and any user data that is needed for the application. Exceptions from the rules above can be made if there are strong requirements to do so (e.g., functional requirements or legal audit requirements), secure storage can be ensured, and the privacy impact has been assessed. 10.3. Confidentiality During Transport If an SD-JWT or SD-JWT+KB is transmitted over an insecure channel during issuance or presentation, an adversary may be able to intercept and read the user's personal data or correlate the information with previous uses. Usually, transport protocols for issuance and presentation of credentials are designed to protect the confidentiality of the transmitted data, for example, by requiring the use of TLS. This specification therefore considers the confidentiality of the data to be provided by the transport protocol and does not specify any encryption mechanism. Implementers MUST ensure that the transport protocol provides confidentiality if the privacy of user data or correlation attacks by passive observers are a concern. To encrypt an SD-JWT or SD-JWT+KB during transit over potentially insecure or leakage-prone channels, implementers MAY use JSON Web Encryption (JWE) [RFC7516], encapsulating the SD-JWT or SD-JWT+KB as the plaintext payload of the JWE. Especially, when an SD-JWT is transmitted via a URL and information may be stored/cached in the browser or end up in web server logs, the SD-JWT SHOULD be encrypted using JWE. 10.4. Decoy Digests The use of decoy digests is RECOMMENDED when the number of claims (or the existence of particular claims) can be a side channel disclosing information about otherwise undisclosed claims. In particular, if a claim in an SD-JWT is present only if a certain condition is met (e.g., a membership number is only contained if the user is a member of a group), the Issuer SHOULD add decoy digests when the condition is not met. Decoy digests increase the size of the SD-JWT. The number of decoy digests (or whether to use them at all) is a trade-off between the size of the SD-JWT and the privacy of the user's data. 10.5. Issuer Identifier An Issuer issuing only one type of SD-JWT might have privacy implications, because if the Holder has an SD-JWT issued by that Issuer, its type and claim names can be determined. For example, if a cancer research institute only issued SD-JWTs with cancer registry information, it is possible to deduce that the Holder owning its SD-JWT is a cancer patient. Moreover, the Issuer identifier alone may reveal information about the user. For example, when a military organization or a drug rehabilitation center issues a vaccine credential, Verifiers can deduce that the holder is a military member or may have a substance use disorder. To mitigate this issue, a group of issuers may elect to use a common Issuer identifier. A group signature scheme outside the scope of this specification may also be used, instead of an individual signature. 11. IANA Considerations 11.1. JSON Web Token Claims Registration IANA has registered the following Claims in the "JSON Web Token Claims" registry [JWT.Claims] established by [RFC7519]. Claim Name: _sd Claim Description: Digests of Disclosures for object properties Change Controller: IETF Specification Document(s): Section 4.2.4.1 of RFC 9901 Claim Name: ... Claim Description: Digest of the Disclosure for an array element Change Controller: IETF Specification Document(s): Section 4.2.4.2 of RFC 9901 Claim Name: _sd_alg Claim Description: Hash algorithm used to generate Disclosure digests and digest over presentation Change Controller: IETF Specification Document(s): Section 4.1.1 of RFC 9901 Claim Name: sd_hash Claim Description: Digest of the SD-JWT to which the KB-JWT is tied Change Controller: IETF Specification Document(s): Section 4.3 of RFC 9901 11.2. Media Type Registrations IANA has registered the following media types [RFC2046] in the "Media Types" registry [MediaTypes] in the manner described in [RFC6838]. | Note: For the media type value used in the typ header in the | Issuer-signed JWT itself, see Section 9.11. 11.2.1. SD-JWT Content To indicate that the content is an SD-JWT: Type name: application Subtype name: sd-jwt Required parameters: n/a Optional parameters: n/a Encoding considerations: binary; application/sd-jwt values are a series of base64url-encoded values (some of which may be the empty string) separated by period ('.') and tilde ('~') characters. Security considerations: See the Security Considerations sections of RFC 9901, [RFC7519], and [RFC8725]. Interoperability considerations: n/a Published specification: RFC 9901 Applications that use this media type: Applications requiring selective disclosure of integrity-protected content. Fragment identifier considerations: n/a Additional information: Magic number(s): n/a File extension(s): n/a Macintosh file type code(s): n/a Person & email address to contact for further information: Daniel Fett, mail@danielfett.de Intended usage: COMMON Restrictions on usage: none Author: Daniel Fett, mail@danielfett.de Change Controller: IETF 11.2.2. JWS JSON Serialized SD-JWT Content To indicate that the content is a JWS JSON serialized SD-JWT: Type name: application Subtype name: sd-jwt+json Required parameters: n/a Optional parameters: n/a Encoding considerations: binary; application/sd-jwt+json values are represented as a JSON Object. Security considerations: See the Security Considerations sections of RFC 9901 and [RFC7515]. Interoperability considerations: n/a Published specification: RFC 9901 Applications that use this media type: Applications requiring selective disclosure of content protected by ETSI JAdES compliant signatures. Fragment identifier considerations: n/a Additional information: Magic number(s): n/a File extension(s): n/a Macintosh file type code(s): n/a Person & email address to contact for further information: Daniel Fett, mail@danielfett.de Intended usage: COMMON Restrictions on usage: none Author: Daniel Fett, mail@danielfett.de Change Controller: IETF 11.2.3. Key Binding JWT Content To indicate that the content is a Key Binding JWT: Type name: application Subtype name: kb+jwt Required parameters: n/a Optional parameters: n/a Encoding considerations: binary; A Key Binding JWT is a JWT; JWT values are encoded as a series of base64url-encoded values separated by period ('.') characters. Security considerations: See the Security Considerations sections of RFC 9901, [RFC7519], and [RFC8725]. Interoperability considerations: n/a Published specification: RFC 9901 Applications that use this media type: Applications utilizing a JWT- based proof-of-possession mechanism. Fragment identifier considerations: n/a Additional information: Magic number(s): n/a File extension(s): n/a Macintosh file type code(s): n/a Person & email address to contact for further information: Daniel Fett, mail@danielfett.de Intended usage: COMMON Restrictions on usage: none Author: Daniel Fett, mail@danielfett.de Change Controller: IETF 11.3. Structured Syntax Suffixes Registration IANA has registered "+sd-jwt" in the "Structured Syntax Suffixes" registry [StructuredSuffix] in the manner described in [RFC6838], which can be used to indicate that the media type is encoded as an SD-JWT. Name: SD-JWT +suffix: +sd-jwt References: RFC 9901 Encoding considerations: binary; SD-JWT values are a series of base64url-encoded values (some of which may be the empty string) separated by period ('.') or tilde ('~') characters. Interoperability considerations: n/a Fragment identifier considerations: n/a Security considerations: See the Security Considerations sections of RFC 9901, [RFC7519], and [RFC8725]. Contact: Daniel Fett, mail@danielfett.de Author/Change controller: IETF 12. References 12.1. Normative References [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", BCP 14, RFC 2119, DOI 10.17487/RFC2119, March 1997, . [RFC5234] Crocker, D., Ed. and P. Overell, "Augmented BNF for Syntax Specifications: ABNF", STD 68, RFC 5234, DOI 10.17487/RFC5234, January 2008, . [RFC6838] Freed, N., Klensin, J., and T. Hansen, "Media Type Specifications and Registration Procedures", BCP 13, RFC 6838, DOI 10.17487/RFC6838, January 2013, . [RFC7515] Jones, M., Bradley, J., and N. Sakimura, "JSON Web Signature (JWS)", RFC 7515, DOI 10.17487/RFC7515, May 2015, . [RFC7516] Jones, M. and J. Hildebrand, "JSON Web Encryption (JWE)", RFC 7516, DOI 10.17487/RFC7516, May 2015, . [RFC7519] Jones, M., Bradley, J., and N. Sakimura, "JSON Web Token (JWT)", RFC 7519, DOI 10.17487/RFC7519, May 2015, . [RFC7800] Jones, M., Bradley, J., and H. Tschofenig, "Proof-of- Possession Key Semantics for JSON Web Tokens (JWTs)", RFC 7800, DOI 10.17487/RFC7800, April 2016, . [RFC8174] Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC 2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174, May 2017, . [RFC8725] Sheffer, Y., Hardt, D., and M. Jones, "JSON Web Token Best Current Practices", BCP 225, RFC 8725, DOI 10.17487/RFC8725, February 2020, . 12.2. Informative References [CL01] Camenisch, J. and A. Lysyanskaya, "An Efficient System for Non-Transferable Anonymous Credentials with Optional Anonymity Revocation", Cryptology ePrint Archive, Paper 2001/019, 2001, . [EUDIW.ARF] European Commission, "The European Digital Identity Wallet Architecture and Reference Framework", . [Hash.Algs] IANA, "Named Information Hash Algorithm Registry", . [ISO.18013-5] ISO/IEC, "Personal identification - ISO-compliant driving license — Part 5: Mobile driving license (mDL) application", ISO/IEC 18013-5:2021, September 2021, . [JWS.Algs] IANA, "JSON Web Signature and Encryption Algorithms", . [JWT.Claims] IANA, "JSON Web Token Claims", . [MediaTypes] IANA, "Media Types", . [NIST.SP.800-57pt1r5] Barker, E., "Recommendation for Key Management: Part 1 - General", NIST SP 800-57pt1r5, DOI 10.6028/NIST.SP.800-57pt1r5, May 2020, . [OIDC.IDA] Lodderstedt, T., Fett, D., Haine, M., Pulido, A., Lehmann, K., and K. Koiwai, "OpenID Connect for Identity Assurance 1.0", 1 October 2024, . [OpenID.Core] Sakimura, N., Bradley, J., Jones, M., de Medeiros, B., and C. Mortimore, "OpenID Connect Core 1.0 incorporating errata set 2", 15 December 2023, . [RFC2046] Freed, N. and N. Borenstein, "Multipurpose Internet Mail Extensions (MIME) Part Two: Media Types", RFC 2046, DOI 10.17487/RFC2046, November 1996, . [RFC4086] Eastlake 3rd, D., Schiller, J., and S. Crocker, "Randomness Requirements for Security", BCP 106, RFC 4086, DOI 10.17487/RFC4086, June 2005, . [RFC7517] Jones, M., "JSON Web Key (JWK)", RFC 7517, DOI 10.17487/RFC7517, May 2015, . [RFC8785] Rundgren, A., Jordan, B., and S. Erdtman, "JSON Canonicalization Scheme (JCS)", RFC 8785, DOI 10.17487/RFC8785, June 2020, . [SD-CWT] Prorock, M., Steele, O., Birkholz, H., and R. Mahy, "Selective Disclosure CBOR Web Tokens (SD-CWT)", Work in Progress, Internet-Draft, draft-ietf-spice-sd-cwt-05, 20 October 2025, . [SD-JWT-VC] Terbu, O., Fett, D., and B. Campbell, "SD-JWT-based Verifiable Credentials (SD-JWT VC)", Work in Progress, Internet-Draft, draft-ietf-oauth-sd-jwt-vc-13, 6 November 2025, . [StructuredSuffix] IANA, "Structured Syntax Suffixes", . [TSL] Looker, T., Bastian, P., and C. Bormann, "Token Status List (TSL)", Work in Progress, Internet-Draft, draft-ietf- oauth-status-list-13, 20 October 2025, . [VC_DATA_v2.0] Sporny, M., Ed., Thiboeau, T., Ed., Jones, M. B., Ed., Cohen, G., Ed., and I. Herman, Ed., "Verifiable Credentials Data Model 2.0", W3C Recommendation, May 2025, . Appendix A. Additional Examples The following examples are not normative and are provided for illustrative purposes only. In particular, neither the structure of the claims nor the selection of selectively disclosable claims is normative. Line breaks have been added for readability. A.1. Simple Structured SD-JWT In this example, in contrast to Section 5, the Issuer decided to create a structured object for the address claim, allowing individual members of the claim to be disclosed separately. The following data about the user comprises the input JWT Claims Set used by the Issuer: { "sub": "6c5c0a49-b589-431d-bae7-219122a9ec2c", "given_name": "太郎", "family_name": "山田", "email": "\"unusual email address\"@example.jp", "phone_number": "+81-80-1234-5678", "address": { "street_address": "東京都港区芝公園4丁目2−8", "locality": "東京都", "region": "港区", "country": "JP" }, "birthdate": "1940-01-01" } The Issuer also decided to add decoy digests to prevent the Verifier from deducing the true number of claims. The following payload is used for the SD-JWT: { "_sd": [ "C9inp6YoRaEXR427zYJP7Qrk1WH_8bdwOA_YUrUnGQU", "Kuet1yAa0HIQvYnOVd59hcViO9Ug6J2kSfqYRBeowvE", "MMldOFFzB2d0umlmpTIaGerhWdU_PpYfLvKhh_f_9aY", "X6ZAYOII2vPN40V7xExZwVwz7yRmLNcVwt5DL8RLv4g", "Y34zmIo0QLLOtdMpXGwjBgLvr17yEhhYT0FGofR-aIE", "fyGp0WTwwPv2JDQln1lSiaeobZsMWA10bQ5989-9DTs", "ommFAicVT8LGHCB0uywx7fYuo3MHYKO15cz-RZEYM5Q", "s0BKYsLWxQQeU8tVlltM7MKsIRTrEIa1PkJmqxBBf5U" ], "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "address": { "_sd": [ "6aUhzYhZ7SJ1kVmagQAO3u2ETN2CC1aHheZpKnaF0_E", "AzLlFobkJ2xiaupREPyoJz-9-NSldB6Cgjr7fUyoHzg", "PzzcVu0qbMuBGSjulfewzkesD9zutOExn5EWNwkrQ-k", "b2Dkw0jcIF9rGg8_PF8ZcvncW7zwZj5ryBWvXfrpzek", "cPYJHIZ8Vu-f9CCyVub2UfgEk8jvvXezwK1p_JneeXQ", "glT3hrSU7fSWgwF5UDZmWwBTw32gnUldIhi8hGVCaV4", "rvJd6iq6T5ejmsBMoGwuNXh9qAAFATAci40oidEeVsA", "uNHoWYhXsZhVJCNE2Dqy-zqt7t69gJKy5QaFv7GrMX4" ] }, "_sd_alg": "sha-256" } The digests in the SD-JWT payload reference the following Disclosures: *Claim sub*: * SHA-256 Hash: X6ZAYOII2vPN40V7xExZwVwz7yRmLNcVwt5DL8RLv4g * Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgInN1YiIsICI2YzVjMGE0OS1iNTg5LT QzMWQtYmFlNy0yMTkxMjJhOWVjMmMiXQ * Contents: ["2GLC42sKQveCfGfryNRN9w", "sub", "6c5c0a49-b589-431d- bae7-219122a9ec2c"] *Claim given_name*: * SHA-256 Hash: ommFAicVT8LGHCB0uywx7fYuo3MHYKO15cz-RZEYM5Q * Disclosure: WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImdpdmVuX25hbWUiLCAiXHU1OTJhXH U5MGNlIl0 * Contents: ["eluV5Og3gSNII8EYnsxA_A", "given_name", "\u592a\u90ce"] *Claim family_name*: * SHA-256 Hash: C9inp6YoRaEXR427zYJP7Qrk1WH_8bdwOA_YUrUnGQU * Disclosure: WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgImZhbWlseV9uYW1lIiwgIlx1NWM3MV x1NzUzMCJd * Contents: ["6Ij7tM-a5iVPGboS5tmvVA", "family_name", "\u5c71\u7530"] *Claim email*: * SHA-256 Hash: Kuet1yAa0HIQvYnOVd59hcViO9Ug6J2kSfqYRBeowvE * Disclosure: WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgImVtYWlsIiwgIlwidW51c3VhbCBlbW FpbCBhZGRyZXNzXCJAZXhhbXBsZS5qcCJd * Contents: ["eI8ZWm9QnKPpNPeNenHdhQ", "email", "\"unusual email address\"@example.jp"] *Claim phone_number*: * SHA-256 Hash: s0BKYsLWxQQeU8tVlltM7MKsIRTrEIa1PkJmqxBBf5U * Disclosure: WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgInBob25lX251bWJlciIsICIrODEtOD AtMTIzNC01Njc4Il0 * Contents: ["Qg_O64zqAxe412a108iroA", "phone_number", "+81-80-1234-5678"] *Claim street_address*: * SHA-256 Hash: 6aUhzYhZ7SJ1kVmagQAO3u2ETN2CC1aHheZpKnaF0_E * Disclosure: WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgInN0cmVldF9hZGRyZXNzIiwgIlx1Nj c3MVx1NGVhY1x1OTBmZFx1NmUyZlx1NTMzYVx1ODI5ZFx1NTE2Y1x1NTcxMlx1ZmYx NFx1NGUwMVx1NzZlZVx1ZmYxMlx1MjIxMlx1ZmYxOCJd * Contents: ["AJx-095VPrpTtN4QMOqROA", "street_address", "\u6771\u4eac\u90fd\u 6e2f\u533a\u829d\u516c\u5712\uff14\u4e01\u76ee\uff12\u2212\uff18"] *Claim locality*: * SHA-256 Hash: rvJd6iq6T5ejmsBMoGwuNXh9qAAFATAci40oidEeVsA * Disclosure: WyJQYzMzSk0yTGNoY1VfbEhnZ3ZfdWZRIiwgImxvY2FsaXR5IiwgIlx1Njc3MVx1NG VhY1x1OTBmZCJd * Contents: ["Pc33JM2LchcU_lHggv_ufQ", "locality", "\u6771\u4eac\u90fd"] *Claim region*: * SHA-256 Hash: PzzcVu0qbMuBGSjulfewzkesD9zutOExn5EWNwkrQ-k * Disclosure: WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgInJlZ2lvbiIsICJcdTZlMmZcdTUzM2 EiXQ * Contents: ["G02NSrQfjFXQ7Io09syajA", "region", "\u6e2f\u533a"] *Claim country*: * SHA-256 Hash: uNHoWYhXsZhVJCNE2Dqy-zqt7t69gJKy5QaFv7GrMX4 * Disclosure: WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgImNvdW50cnkiLCAiSlAiXQ * Contents: ["lklxF5jMYlGTPUovMNIvCA", "country", "JP"] *Claim birthdate*: * SHA-256 Hash: MMldOFFzB2d0umlmpTIaGerhWdU_PpYfLvKhh_f_9aY * Disclosure: WyJ5eXRWYmRBUEdjZ2wyckk0QzlHU29nIiwgImJpcnRoZGF0ZSIsICIxOTQwLTAxLT AxIl0 * Contents: ["yytVbdAPGcgl2rI4C9GSog", "birthdate", "1940-01-01"] The following decoy digests are added: * AzLlFobkJ2xiaupREPyoJz-9-NSldB6Cgjr7fUyoHzg * cPYJHIZ8Vu-f9CCyVub2UfgEk8jvvXezwK1p_JneeXQ * glT3hrSU7fSWgwF5UDZmWwBTw32gnUldIhi8hGVCaV4 * b2Dkw0jcIF9rGg8_PF8ZcvncW7zwZj5ryBWvXfrpzek * fyGp0WTwwPv2JDQln1lSiaeobZsMWA10bQ5989-9DTs * Y34zmIo0QLLOtdMpXGwjBgLvr17yEhhYT0FGofR-aIE The following is a presentation of the SD-JWT that discloses only region and country of the address property: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0.eyJfc2QiOiBb IkM5aW5wNllvUmFFWFI0Mjd6WUpQN1FyazFXSF84YmR3T0FfWVVyVW5HUVUiLCAiS3Vl dDF5QWEwSElRdlluT1ZkNTloY1ZpTzlVZzZKMmtTZnFZUkJlb3d2RSIsICJNTWxkT0ZG ekIyZDB1bWxtcFRJYUdlcmhXZFVfUHBZZkx2S2hoX2ZfOWFZIiwgIlg2WkFZT0lJMnZQ TjQwVjd4RXhad1Z3ejd5Um1MTmNWd3Q1REw4Ukx2NGciLCAiWTM0em1JbzBRTExPdGRN cFhHd2pCZ0x2cjE3eUVoaFlUMEZHb2ZSLWFJRSIsICJmeUdwMFdUd3dQdjJKRFFsbjFs U2lhZW9iWnNNV0ExMGJRNTk4OS05RFRzIiwgIm9tbUZBaWNWVDhMR0hDQjB1eXd4N2ZZ dW8zTUhZS08xNWN6LVJaRVlNNVEiLCAiczBCS1lzTFd4UVFlVTh0VmxsdE03TUtzSVJU ckVJYTFQa0ptcXhCQmY1VSJdLCAiaXNzIjogImh0dHBzOi8vaXNzdWVyLmV4YW1wbGUu Y29tIiwgImlhdCI6IDE2ODMwMDAwMDAsICJleHAiOiAxODgzMDAwMDAwLCAiYWRkcmVz cyI6IHsiX3NkIjogWyI2YVVoelloWjdTSjFrVm1hZ1FBTzN1MkVUTjJDQzFhSGhlWnBL bmFGMF9FIiwgIkF6TGxGb2JrSjJ4aWF1cFJFUHlvSnotOS1OU2xkQjZDZ2pyN2ZVeW9I emciLCAiUHp6Y1Z1MHFiTXVCR1NqdWxmZXd6a2VzRDl6dXRPRXhuNUVXTndrclEtayIs ICJiMkRrdzBqY0lGOXJHZzhfUEY4WmN2bmNXN3p3Wmo1cnlCV3ZYZnJwemVrIiwgImNQ WUpISVo4VnUtZjlDQ3lWdWIyVWZnRWs4anZ2WGV6d0sxcF9KbmVlWFEiLCAiZ2xUM2hy U1U3ZlNXZ3dGNVVEWm1Xd0JUdzMyZ25VbGRJaGk4aEdWQ2FWNCIsICJydkpkNmlxNlQ1 ZWptc0JNb0d3dU5YaDlxQUFGQVRBY2k0MG9pZEVlVnNBIiwgInVOSG9XWWhYc1poVkpD TkUyRHF5LXpxdDd0NjlnSkt5NVFhRnY3R3JNWDQiXX0sICJfc2RfYWxnIjogInNoYS0y NTYifQ.EOZa2YqK8j4i7cqBDkfPcTMaFsgPwcx3aYJkFoMfvV46LxL-PPqrWsIyNukB4 x8Y2LT31eIHDc4Wg4XNzaqu4w~WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgInJlZ2 lvbiIsICJcdTZlMmZcdTUzM2EiXQ~WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgImN vdW50cnkiLCAiSlAiXQ~ After validation, the Verifier will have the following Processed SD- JWT Payload available for further handling: { "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "address": { "region": "港区", "country": "JP" } } A.2. Complex Structured SD-JWT In this example, an SD-JWT with a complex object is represented. The data structures defined in OpenID Connect for Identity Assurance [OIDC.IDA] are used. The Issuer is using the following user data as the input JWT Claims Set: { "verified_claims": { "verification": { "trust_framework": "de_aml", "time": "2012-04-23T18:25Z", "verification_process": "f24c6f-6d3f-4ec5-973e-b0d8506f3bc7", "evidence": [ { "type": "document", "method": "pipp", "time": "2012-04-22T11:30Z", "document": { "type": "idcard", "issuer": { "name": "Stadt Augsburg", "country": "DE" }, "number": "53554554", "date_of_issuance": "2010-03-23", "date_of_expiry": "2020-03-22" } } ] }, "claims": { "given_name": "Max", "family_name": "Müller", "nationalities": [ "DE" ], "birthdate": "1956-01-28", "place_of_birth": { "country": "IS", "locality": "Þykkvabæjarklaustur" }, "address": { "locality": "Maxstadt", "postal_code": "12344", "country": "DE", "street_address": "Weidenstraße 22" } } }, "birth_middle_name": "Timotheus", "salutation": "Dr.", "msisdn": "49123456789" } The following payload is used for the SD-JWT: { "_sd": [ "-aSznId9mWM8ocuQolCllsxVggq1-vHW4OtnhUtVmWw", "IKbrYNn3vA7WEFrysvbdBJjDDU_EvQIr0W18vTRpUSg", "otkxuT14nBiwzNJ3MPaOitOl9pVnXOaEHal_xkyNfKI" ], "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "verified_claims": { "verification": { "_sd": [ "7h4UE9qScvDKodXVCuoKfKBJpVBfXMF_TmAGVaZe3Sc", "vTwe3raHIFYgFA3xaUD2aMxFz5oDo8iBu05qKlOg9Lw" ], "trust_framework": "de_aml", "evidence": [ { "...": "tYJ0TDucyZZCRMbROG4qRO5vkPSFRxFhUELc18CSl3k" } ] }, "claims": { "_sd": [ "RiOiCn6_w5ZHaadkQMrcQJf0Jte5RwurRs54231DTlo", "S_498bbpKzB6Eanftss0xc7cOaoneRr3pKr7NdRmsMo", "WNA-UNK7F_zhsAb9syWO6IIQ1uHlTmOU8r8CvJ0cIMk", "Wxh_sV3iRH9bgrTBJi-aYHNCLt-vjhX1sd-igOf_9lk", "_O-wJiH3enSB4ROHntToQT8JmLtz-mhO2f1c89XoerQ", "hvDXhwmGcJQsBCA2OtjuLAcwAMpDsaU0nkovcKOqWNE" ] } }, "_sd_alg": "sha-256" } The digests in the SD-JWT payload reference the following Disclosures: *Claim time*: * SHA-256 Hash: vTwe3raHIFYgFA3xaUD2aMxFz5oDo8iBu05qKlOg9Lw * Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgInRpbWUiLCAiMjAxMi0wNC0yM1QxOD oyNVoiXQ * Contents: ["2GLC42sKQveCfGfryNRN9w", "time", "2012-04-23T18:25Z"] *Claim verification_process*: * SHA-256 Hash: 7h4UE9qScvDKodXVCuoKfKBJpVBfXMF_TmAGVaZe3Sc * Disclosure: WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgInZlcmlmaWNhdGlvbl9wcm9jZXNzIi wgImYyNGM2Zi02ZDNmLTRlYzUtOTczZS1iMGQ4NTA2ZjNiYzciXQ * Contents: ["eluV5Og3gSNII8EYnsxA_A", "verification_process", "f24c6f-6d3f- 4ec5-973e-b0d8506f3bc7"] *Claim type*: * SHA-256 Hash: G5EnhOAOoU9X_6QMNvzFXjpEA_Rc-AEtm1bG_wcaKIk * Disclosure: WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgInR5cGUiLCAiZG9jdW1lbnQiXQ * Contents: ["6Ij7tM-a5iVPGboS5tmvVA", "type", "document"] *Claim method*: * SHA-256 Hash: WpxQ4HSoEtcTmCCKOeDslB_emucYLz2oO8oHNr1bEVQ * Disclosure: WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgIm1ldGhvZCIsICJwaXBwIl0 * Contents: ["eI8ZWm9QnKPpNPeNenHdhQ", "method", "pipp"] *Claim time*: * SHA-256 Hash: 9wpjVPWuD7PK0nsQDL8B06lmdgV3LVybhHydQpTNyLI * Disclosure: WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgInRpbWUiLCAiMjAxMi0wNC0yMlQxMT ozMFoiXQ * Contents: ["Qg_O64zqAxe412a108iroA", "time", "2012-04-22T11:30Z"] *Claim document*: * SHA-256 Hash: IhwFrWUB63RcZq9yvgZ0XPc7Gowh3O2kqXeBIswg1B4 * Disclosure: WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgImRvY3VtZW50IiwgeyJ0eXBlIjogIm lkY2FyZCIsICJpc3N1ZXIiOiB7Im5hbWUiOiAiU3RhZHQgQXVnc2J1cmciLCAiY291 bnRyeSI6ICJERSJ9LCAibnVtYmVyIjogIjUzNTU0NTU0IiwgImRhdGVfb2ZfaXNzdW FuY2UiOiAiMjAxMC0wMy0yMyIsICJkYXRlX29mX2V4cGlyeSI6ICIyMDIwLTAzLTIy In1d * Contents: ["AJx-095VPrpTtN4QMOqROA", "document", {"type": "idcard", "issuer": {"name": "Stadt Augsburg", "country": "DE"}, "number": "53554554", "date_of_issuance": "2010-03-23", "date_of_expiry": "2020-03-22"}] *Array Entry*: * SHA-256 Hash: tYJ0TDucyZZCRMbROG4qRO5vkPSFRxFhUELc18CSl3k * Disclosure: WyJQYzMzSk0yTGNoY1VfbEhnZ3ZfdWZRIiwgeyJfc2QiOiBbIjl3cGpWUFd1RDdQSz Buc1FETDhCMDZsbWRnVjNMVnliaEh5ZFFwVE55TEkiLCAiRzVFbmhPQU9vVTlYXzZR TU52ekZYanBFQV9SYy1BRXRtMWJHX3djYUtJayIsICJJaHdGcldVQjYzUmNacTl5dm daMFhQYzdHb3doM08ya3FYZUJJc3dnMUI0IiwgIldweFE0SFNvRXRjVG1DQ0tPZURz bEJfZW11Y1lMejJvTzhvSE5yMWJFVlEiXX1d * Contents: ["Pc33JM2LchcU_lHggv_ufQ", {"_sd": ["9wpjVPWuD7PK0nsQDL8B06lmdgV3LVybhHydQpTNyLI", "G5EnhOAOoU9X_6QMNvzFXjpEA_Rc-AEtm1bG_wcaKIk", "IhwFrWUB63RcZq9yvgZ0XPc7Gowh3O2kqXeBIswg1B4", "WpxQ4HSoEtcTmCCKOeDslB_emucYLz2oO8oHNr1bEVQ"]}] *Claim given_name*: * SHA-256 Hash: S_498bbpKzB6Eanftss0xc7cOaoneRr3pKr7NdRmsMo * Disclosure: WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgImdpdmVuX25hbWUiLCAiTWF4Il0 * Contents: ["G02NSrQfjFXQ7Io09syajA", "given_name", "Max"] *Claim family_name*: * SHA-256 Hash: Wxh_sV3iRH9bgrTBJi-aYHNCLt-vjhX1sd-igOf_9lk * Disclosure: WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgImZhbWlseV9uYW1lIiwgIk1cdTAwZm NsbGVyIl0 * Contents: ["lklxF5jMYlGTPUovMNIvCA", "family_name", "M\u00fcller"] *Claim nationalities*: * SHA-256 Hash: hvDXhwmGcJQsBCA2OtjuLAcwAMpDsaU0nkovcKOqWNE * Disclosure: WyJuUHVvUW5rUkZxM0JJZUFtN0FuWEZBIiwgIm5hdGlvbmFsaXRpZXMiLCBbIkRFIl 1d * Contents: ["nPuoQnkRFq3BIeAm7AnXFA", "nationalities", ["DE"]] *Claim birthdate*: * SHA-256 Hash: WNA-UNK7F_zhsAb9syWO6IIQ1uHlTmOU8r8CvJ0cIMk * Disclosure: WyI1YlBzMUlxdVpOYTBoa2FGenp6Wk53IiwgImJpcnRoZGF0ZSIsICIxOTU2LTAxLT I4Il0 * Contents: ["5bPs1IquZNa0hkaFzzzZNw", "birthdate", "1956-01-28"] *Claim place_of_birth*: * SHA-256 Hash: RiOiCn6_w5ZHaadkQMrcQJf0Jte5RwurRs54231DTlo * Disclosure: WyI1YTJXMF9OcmxFWnpmcW1rXzdQcS13IiwgInBsYWNlX29mX2JpcnRoIiwgeyJjb3 VudHJ5IjogIklTIiwgImxvY2FsaXR5IjogIlx1MDBkZXlra3ZhYlx1MDBlNmphcmts YXVzdHVyIn1d * Contents: ["5a2W0_NrlEZzfqmk_7Pq-w", "place_of_birth", {"country": "IS", "locality": "\u00deykkvab\u00e6jarklaustur"}] *Claim address*: * SHA-256 Hash: _O-wJiH3enSB4ROHntToQT8JmLtz-mhO2f1c89XoerQ * Disclosure: WyJ5MXNWVTV3ZGZKYWhWZGd3UGdTN1JRIiwgImFkZHJlc3MiLCB7ImxvY2FsaXR5Ij ogIk1heHN0YWR0IiwgInBvc3RhbF9jb2RlIjogIjEyMzQ0IiwgImNvdW50cnkiOiAi REUiLCAic3RyZWV0X2FkZHJlc3MiOiAiV2VpZGVuc3RyYVx1MDBkZmUgMjIifV0 * Contents: ["y1sVU5wdfJahVdgwPgS7RQ", "address", {"locality": "Maxstadt", "postal_code": "12344", "country": "DE", "street_address": "Weidenstra\u00dfe 22"}] *Claim birth_middle_name*: * SHA-256 Hash: otkxuT14nBiwzNJ3MPaOitOl9pVnXOaEHal_xkyNfKI * Disclosure: WyJIYlE0WDhzclZXM1FEeG5JSmRxeU9BIiwgImJpcnRoX21pZGRsZV9uYW1lIiwgIl RpbW90aGV1cyJd * Contents: ["HbQ4X8srVW3QDxnIJdqyOA", "birth_middle_name", "Timotheus"] *Claim salutation*: * SHA-256 Hash: -aSznId9mWM8ocuQolCllsxVggq1-vHW4OtnhUtVmWw * Disclosure: WyJDOUdTb3VqdmlKcXVFZ1lmb2pDYjFBIiwgInNhbHV0YXRpb24iLCAiRHIuIl0 * Contents: ["C9GSoujviJquEgYfojCb1A", "salutation", "Dr."] *Claim msisdn*: * SHA-256 Hash: IKbrYNn3vA7WEFrysvbdBJjDDU_EvQIr0W18vTRpUSg * Disclosure: WyJreDVrRjE3Vi14MEptd1V4OXZndnR3IiwgIm1zaXNkbiIsICI0OTEyMzQ1Njc4OS Jd * Contents: ["kx5kF17V-x0JmwUx9vgvtw", "msisdn", "49123456789"] The following is a presentation of the SD-JWT: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0.eyJfc2QiOiBb Ii1hU3puSWQ5bVdNOG9jdVFvbENsbHN4VmdncTEtdkhXNE90bmhVdFZtV3ciLCAiSUti cllObjN2QTdXRUZyeXN2YmRCSmpERFVfRXZRSXIwVzE4dlRScFVTZyIsICJvdGt4dVQx NG5CaXd6TkozTVBhT2l0T2w5cFZuWE9hRUhhbF94a3lOZktJIl0sICJpc3MiOiAiaHR0 cHM6Ly9pc3N1ZXIuZXhhbXBsZS5jb20iLCAiaWF0IjogMTY4MzAwMDAwMCwgImV4cCI6 IDE4ODMwMDAwMDAsICJ2ZXJpZmllZF9jbGFpbXMiOiB7InZlcmlmaWNhdGlvbiI6IHsi X3NkIjogWyI3aDRVRTlxU2N2REtvZFhWQ3VvS2ZLQkpwVkJmWE1GX1RtQUdWYVplM1Nj IiwgInZUd2UzcmFISUZZZ0ZBM3hhVUQyYU14Rno1b0RvOGlCdTA1cUtsT2c5THciXSwg InRydXN0X2ZyYW1ld29yayI6ICJkZV9hbWwiLCAiZXZpZGVuY2UiOiBbeyIuLi4iOiAi dFlKMFREdWN5WlpDUk1iUk9HNHFSTzV2a1BTRlJ4RmhVRUxjMThDU2wzayJ9XX0sICJj bGFpbXMiOiB7Il9zZCI6IFsiUmlPaUNuNl93NVpIYWFka1FNcmNRSmYwSnRlNVJ3dXJS czU0MjMxRFRsbyIsICJTXzQ5OGJicEt6QjZFYW5mdHNzMHhjN2NPYW9uZVJyM3BLcjdO ZFJtc01vIiwgIldOQS1VTks3Rl96aHNBYjlzeVdPNklJUTF1SGxUbU9VOHI4Q3ZKMGNJ TWsiLCAiV3hoX3NWM2lSSDliZ3JUQkppLWFZSE5DTHQtdmpoWDFzZC1pZ09mXzlsayIs ICJfTy13SmlIM2VuU0I0Uk9IbnRUb1FUOEptTHR6LW1oTzJmMWM4OVhvZXJRIiwgImh2 RFhod21HY0pRc0JDQTJPdGp1TEFjd0FNcERzYVUwbmtvdmNLT3FXTkUiXX19LCAiX3Nk X2FsZyI6ICJzaGEtMjU2In0.QoWYWtikm-AtjmPnNVshbGXQl5raEz15PByTmZwfTQg9 W2O3oR6j2tMmysTZZawdo6mNLR_PsZSI25qrUpiNTg~WyIyR0xDNDJzS1F2ZUNmR2Zye U5STjl3IiwgInRpbWUiLCAiMjAxMi0wNC0yM1QxODoyNVoiXQ~WyJQYzMzSk0yTGNoY1 VfbEhnZ3ZfdWZRIiwgeyJfc2QiOiBbIjl3cGpWUFd1RDdQSzBuc1FETDhCMDZsbWRnVj NMVnliaEh5ZFFwVE55TEkiLCAiRzVFbmhPQU9vVTlYXzZRTU52ekZYanBFQV9SYy1BRX RtMWJHX3djYUtJayIsICJJaHdGcldVQjYzUmNacTl5dmdaMFhQYzdHb3doM08ya3FYZU JJc3dnMUI0IiwgIldweFE0SFNvRXRjVG1DQ0tPZURzbEJfZW11Y1lMejJvTzhvSE5yMW JFVlEiXX1d~WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgIm1ldGhvZCIsICJwaXBwI l0~WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgImdpdmVuX25hbWUiLCAiTWF4Il0~W yJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgImZhbWlseV9uYW1lIiwgIk1cdTAwZmNsb GVyIl0~WyJ5MXNWVTV3ZGZKYWhWZGd3UGdTN1JRIiwgImFkZHJlc3MiLCB7ImxvY2Fsa XR5IjogIk1heHN0YWR0IiwgInBvc3RhbF9jb2RlIjogIjEyMzQ0IiwgImNvdW50cnkiO iAiREUiLCAic3RyZWV0X2FkZHJlc3MiOiAiV2VpZGVuc3RyYVx1MDBkZmUgMjIifV0~ The Verifier will have this Processed SD-JWT Payload available after validation: { "iss": "https://issuer.example.com", "iat": 1683000000, "exp": 1883000000, "verified_claims": { "verification": { "trust_framework": "de_aml", "evidence": [ { "method": "pipp" } ], "time": "2012-04-23T18:25Z" }, "claims": { "given_name": "Max", "family_name": "Müller", "address": { "locality": "Maxstadt", "postal_code": "12344", "country": "DE", "street_address": "Weidenstraße 22" } } } } A.3. SD-JWT-Based Verifiable Credentials (SD-JWT VC) This example shows how the artifacts defined in this specification could be used in the context of SD-JWT-based Verifiable Credentials (SD-JWT VC) [SD-JWT-VC] to represent the concept of a Person Identification Data (PID) as defined in the "PID Rulebook" in [EUDIW.ARF]. This example uses fictional data of a German citizen. Key Binding is applied using the Holder's public key passed in a cnf claim in the SD-JWT. The following citizen data is the input JWT Claims Set: { "vct": "urn:eudi:pid:de:1", "iss": "https://pid-issuer.bund.de.example", "given_name": "Erika", "family_name": "Mustermann", "birthdate": "1963-08-12", "address": { "street_address": "Heidestraße 17", "locality": "Köln", "postal_code": "51147", "country": "DE" }, "nationalities": [ "DE" ], "sex": 2, "birth_family_name": "Gabler", "place_of_birth": { "locality": "Berlin", "country": "DE" }, "age_equal_or_over": { "12": true, "14": true, "16": true, "18": true, "21": true, "65": false }, "age_in_years": 62, "age_birth_year": 1963, "issuance_date": "2020-03-11", "expiry_date": "2030-03-12", "issuing_authority": "DE", "issuing_country": "DE" } The following is the issued SD-JWT: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImRjK3NkLWp3dCJ9.eyJfc2QiOiBbIjBIWm1 uU0lQejMzN2tTV2U3QzM0bC0tODhnekppLWVCSjJWel9ISndBVGciLCAiMUNybjAzV21 VZVJXcDR6d1B2dkNLWGw5WmFRcC1jZFFWX2dIZGFHU1dvdyIsICIycjAwOWR6dkh1VnJ XclJYVDVrSk1tSG5xRUhIbldlME1MVlp3OFBBVEI4IiwgIjZaTklTRHN0NjJ5bWxyT0F rYWRqZEQ1WnVsVDVBMjk5Sjc4U0xoTV9fT3MiLCAiNzhqZzc3LUdZQmVYOElRZm9FTFB 5TDBEWVBkbWZabzBKZ1ZpVjBfbEtDTSIsICI5MENUOEFhQlBibjVYOG5SWGtlc2p1MWk wQnFoV3FaM3dxRDRqRi1xREdrIiwgIkkwMGZjRlVvRFhDdWNwNXl5MnVqcVBzc0RWR2F XTmlVbGlOel9hd0QwZ2MiLCAiS2pBWGdBQTlONVdIRUR0UkloNHU1TW4xWnNXaXhoaFd BaVgtQTRRaXdnQSIsICJMYWk2SVU2ZDdHUWFnWFI3QXZHVHJuWGdTbGQzejhFSWdfZnY zZk9aMVdnIiwgIkxlemphYlJxaVpPWHpFWW1WWmY4Uk1pOXhBa2QzX00xTFo4VTdFNHM zdTQiLCAiUlR6M3FUbUZOSGJwV3JyT01aUzQxRjQ3NGtGcVJ2M3ZJUHF0aDZQVWhsTSI sICJXMTRYSGJVZmZ6dVc0SUZNanBTVGIxbWVsV3hVV2Y0Tl9vMmxka2tJcWM4IiwgIld UcEk3UmNNM2d4WnJ1UnBYemV6U2JrYk9yOTNQVkZ2V3g4d29KM2oxY0UiLCAiX29oSlZ JUUlCc1U0dXBkTlM0X3c0S2IxTUhxSjBMOXFMR3NoV3E2SlhRcyIsICJ5NTBjemMwSVN DaHlfYnNiYTFkTW9VdUFPUTVBTW1PU2ZHb0VlODF2MUZVIl0sICJpc3MiOiAiaHR0cHM 6Ly9waWQtaXNzdWVyLmJ1bmQuZGUuZXhhbXBsZSIsICJpYXQiOiAxNjgzMDAwMDAwLCA iZXhwIjogMTg4MzAwMDAwMCwgInZjdCI6ICJ1cm46ZXVkaTpwaWQ6ZGU6MSIsICJfc2R fYWxnIjogInNoYS0yNTYiLCAiY25mIjogeyJqd2siOiB7Imt0eSI6ICJFQyIsICJjcnY iOiAiUC0yNTYiLCAieCI6ICJUQ0FFUjE5WnZ1M09IRjRqNFc0dmZTVm9ISVAxSUxpbER sczd2Q2VHZW1jIiwgInkiOiAiWnhqaVdXYlpNUUdIVldLVlE0aGJTSWlyc1ZmdWVjQ0U 2dDRqVDlGMkhaUSJ9fX0.ZOZQTqmq8X1mCyFXi0wbV8xjctX1AlEa5TkdnkKOyWvLfW4 0XDb5oj9tzkgwff5s44IDnrfAdgLtmTcojs97_Q~WyIyR0xDNDJzS1F2ZUNmR2ZyeU5S Tjl3IiwgImdpdmVuX25hbWUiLCAiRXJpa2EiXQ~WyJlbHVWNU9nM2dTTklJOEVZbnN4Q V9BIiwgImZhbWlseV9uYW1lIiwgIk11c3Rlcm1hbm4iXQ~WyI2SWo3dE0tYTVpVlBHYm 9TNXRtdlZBIiwgImJpcnRoZGF0ZSIsICIxOTYzLTA4LTEyIl0~WyJlSThaV205UW5LUH BOUGVOZW5IZGhRIiwgInN0cmVldF9hZGRyZXNzIiwgIkhlaWRlc3RyYVx1MDBkZmUgMT ciXQ~WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgImxvY2FsaXR5IiwgIktcdTAwZjZ sbiJd~WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgInBvc3RhbF9jb2RlIiwgIjUxMT Q3Il0~WyJQYzMzSk0yTGNoY1VfbEhnZ3ZfdWZRIiwgImNvdW50cnkiLCAiREUiXQ~WyJ HMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgImFkZHJlc3MiLCB7Il9zZCI6IFsiQUxaRVJ zU241V05pRVhkQ2tzVzhJNXFRdzNfTnBBblJxcFNBWkR1ZGd3OCIsICJEX19XX3VZY3Z SejN0dlVuSUp2QkRIaVRjN0NfX3FIZDB4Tkt3SXNfdzlrIiwgImVCcENYVTFKNWRoSDJ nNHQ4UVlOVzVFeFM5QXhVVmJsVW9kb0xZb1BobzAiLCAieE9QeTktZ0pBTEs2VWJXS0Z MUjg1Y09CeVVEM0FiTndGZzNJM1lmUUVfSSJdfV0~WyJsa2x4RjVqTVlsR1RQVW92TU5 JdkNBIiwgIm5hdGlvbmFsaXRpZXMiLCBbIkRFIl1d~WyJuUHVvUW5rUkZxM0JJZUFtN0 FuWEZBIiwgInNleCIsIDJd~WyI1YlBzMUlxdVpOYTBoa2FGenp6Wk53IiwgImJpcnRoX 2ZhbWlseV9uYW1lIiwgIkdhYmxlciJd~WyI1YTJXMF9OcmxFWnpmcW1rXzdQcS13Iiwg ImxvY2FsaXR5IiwgIkJlcmxpbiJd~WyJ5MXNWVTV3ZGZKYWhWZGd3UGdTN1JRIiwgImN vdW50cnkiLCAiREUiXQ~WyJIYlE0WDhzclZXM1FEeG5JSmRxeU9BIiwgInBsYWNlX29m X2JpcnRoIiwgeyJfc2QiOiBbIktVVmlhYUxuWTVqU01MOTBHMjlPT0xFTlBiYlhmaFNq U1BNalphR2t4QUUiLCAiWWJzVDBTNzZWcVhDVnNkMWpVU2x3S1BEZ21BTGVCMXVaY2xG SFhmLVVTUSJdfV0~WyJDOUdTb3VqdmlKcXVFZ1lmb2pDYjFBIiwgIjEyIiwgdHJ1ZV0~ WyJreDVrRjE3Vi14MEptd1V4OXZndnR3IiwgIjE0IiwgdHJ1ZV0~WyJIM28xdXN3UDc2 MEZpMnllR2RWQ0VRIiwgIjE2IiwgdHJ1ZV0~WyJPQktsVFZsdkxnLUFkd3FZR2JQOFpB IiwgIjE4IiwgdHJ1ZV0~WyJNMEpiNTd0NDF1YnJrU3V5ckRUM3hBIiwgIjIxIiwgdHJ1 ZV0~WyJEc210S05ncFY0ZEFIcGpyY2Fvc0F3IiwgIjY1IiwgZmFsc2Vd~WyJlSzVvNXB IZmd1cFBwbHRqMXFoQUp3IiwgImFnZV9lcXVhbF9vcl9vdmVyIiwgeyJfc2QiOiBbIjF 0RWl5elBSWU9Lc2Y3U3NZR01nUFpLc09UMWxRWlJ4SFhBMHI1X0J3a2siLCAiQ1ZLbmx 5NVA5MHlKczNFd3R4UWlPdFVjemFYQ1lOQTRJY3pSYW9ock1EZyIsICJhNDQtZzJHcjh fM0FtSncyWFo4a0kxeTBRel96ZTlpT2NXMlczUkxwWEdnIiwgImdrdnkwRnV2QkJ2ajB oczJaTnd4Y3FPbGY4bXUyLWtDRTctTmIyUXh1QlUiLCAiaHJZNEhubUY1YjVKd0M5ZVR 6YUZDVWNlSVFBYUlkaHJxVVhRTkNXYmZaSSIsICJ5NlNGclZGUnlxNTBJYlJKdmlUWnF xalFXejB0TGl1Q21NZU8wS3FhekdJIl19XQ~WyJqN0FEZGIwVVZiMExpMGNpUGNQMGV3 IiwgImFnZV9pbl95ZWFycyIsIDYyXQ~WyJXcHhKckZ1WDh1U2kycDRodDA5anZ3IiwgI mFnZV9iaXJ0aF95ZWFyIiwgMTk2M10~WyJhdFNtRkFDWU1iSlZLRDA1bzNKZ3RRIiwgI mlzc3VhbmNlX2RhdGUiLCAiMjAyMC0wMy0xMSJd~WyI0S3lSMzJvSVp0LXprV3ZGcWJV TEtnIiwgImV4cGlyeV9kYXRlIiwgIjIwMzAtMDMtMTIiXQ~WyJjaEJDc3loeWgtSjg2S S1hd1FEaUNRIiwgImlzc3VpbmdfYXV0aG9yaXR5IiwgIkRFIl0~WyJmbE5QMW5jTXo5T GctYzlxTUl6XzlnIiwgImlzc3VpbmdfY291bnRyeSIsICJERSJd~ The following payload is used for the SD-JWT: { "_sd": [ "0HZmnSIPz337kSWe7C34l--88gzJi-eBJ2Vz_HJwATg", "1Crn03WmUeRWp4zwPvvCKXl9ZaQp-cdQV_gHdaGSWow", "2r009dzvHuVrWrRXT5kJMmHnqEHHnWe0MLVZw8PATB8", "6ZNISDst62ymlrOAkadjdD5ZulT5A299J78SLhM__Os", "78jg77-GYBeX8IQfoELPyL0DYPdmfZo0JgViV0_lKCM", "90CT8AaBPbn5X8nRXkesju1i0BqhWqZ3wqD4jF-qDGk", "I00fcFUoDXCucp5yy2ujqPssDVGaWNiUliNz_awD0gc", "KjAXgAA9N5WHEDtRIh4u5Mn1ZsWixhhWAiX-A4QiwgA", "Lai6IU6d7GQagXR7AvGTrnXgSld3z8EIg_fv3fOZ1Wg", "LezjabRqiZOXzEYmVZf8RMi9xAkd3_M1LZ8U7E4s3u4", "RTz3qTmFNHbpWrrOMZS41F474kFqRv3vIPqth6PUhlM", "W14XHbUffzuW4IFMjpSTb1melWxUWf4N_o2ldkkIqc8", "WTpI7RcM3gxZruRpXzezSbkbOr93PVFvWx8woJ3j1cE", "_ohJVIQIBsU4updNS4_w4Kb1MHqJ0L9qLGshWq6JXQs", "y50czc0ISChy_bsba1dMoUuAOQ5AMmOSfGoEe81v1FU" ], "iss": "https://pid-issuer.bund.de.example", "iat": 1683000000, "exp": 1883000000, "vct": "urn:eudi:pid:de:1", "_sd_alg": "sha-256", "cnf": { "jwk": { "kty": "EC", "crv": "P-256", "x": "TCAER19Zvu3OHF4j4W4vfSVoHIP1ILilDls7vCeGemc", "y": "ZxjiWWbZMQGHVWKVQ4hbSIirsVfuecCE6t4jT9F2HZQ" } } } The digests in the SD-JWT payload reference the following Disclosures: *Claim given_name*: * SHA-256 Hash: 0HZmnSIPz337kSWe7C34l--88gzJi-eBJ2Vz_HJwATg * Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgImdpdmVuX25hbWUiLCAiRXJpa2EiXQ * Contents: ["2GLC42sKQveCfGfryNRN9w", "given_name", "Erika"] *Claim family_name*: * SHA-256 Hash: I00fcFUoDXCucp5yy2ujqPssDVGaWNiUliNz_awD0gc * Disclosure: WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgImZhbWlseV9uYW1lIiwgIk11c3Rlcm 1hbm4iXQ * Contents: ["eluV5Og3gSNII8EYnsxA_A", "family_name", "Mustermann"] *Claim birthdate*: * SHA-256 Hash: Lai6IU6d7GQagXR7AvGTrnXgSld3z8EIg_fv3fOZ1Wg * Disclosure: WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgImJpcnRoZGF0ZSIsICIxOTYzLTA4LT EyIl0 * Contents: ["6Ij7tM-a5iVPGboS5tmvVA", "birthdate", "1963-08-12"] *Claim street_address*: * SHA-256 Hash: ALZERsSn5WNiEXdCksW8I5qQw3_NpAnRqpSAZDudgw8 * Disclosure: WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgInN0cmVldF9hZGRyZXNzIiwgIkhlaW Rlc3RyYVx1MDBkZmUgMTciXQ * Contents: ["eI8ZWm9QnKPpNPeNenHdhQ", "street_address", "Heidestra\u00dfe 17"] *Claim locality*: * SHA-256 Hash: D__W_uYcvRz3tvUnIJvBDHiTc7C__qHd0xNKwIs_w9k * Disclosure: WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgImxvY2FsaXR5IiwgIktcdTAwZjZsbi Jd * Contents: ["Qg_O64zqAxe412a108iroA", "locality", "K\u00f6ln"] *Claim postal_code*: * SHA-256 Hash: xOPy9-gJALK6UbWKFLR85cOByUD3AbNwFg3I3YfQE_I * Disclosure: WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgInBvc3RhbF9jb2RlIiwgIjUxMTQ3Il 0 * Contents: ["AJx-095VPrpTtN4QMOqROA", "postal_code", "51147"] *Claim country*: * SHA-256 Hash: eBpCXU1J5dhH2g4t8QYNW5ExS9AxUVblUodoLYoPho0 * Disclosure: WyJQYzMzSk0yTGNoY1VfbEhnZ3ZfdWZRIiwgImNvdW50cnkiLCAiREUiXQ * Contents: ["Pc33JM2LchcU_lHggv_ufQ", "country", "DE"] *Claim address*: * SHA-256 Hash: RTz3qTmFNHbpWrrOMZS41F474kFqRv3vIPqth6PUhlM * Disclosure: WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgImFkZHJlc3MiLCB7Il9zZCI6IFsiQU xaRVJzU241V05pRVhkQ2tzVzhJNXFRdzNfTnBBblJxcFNBWkR1ZGd3OCIsICJEX19X X3VZY3ZSejN0dlVuSUp2QkRIaVRjN0NfX3FIZDB4Tkt3SXNfdzlrIiwgImVCcENYVT FKNWRoSDJnNHQ4UVlOVzVFeFM5QXhVVmJsVW9kb0xZb1BobzAiLCAieE9QeTktZ0pB TEs2VWJXS0ZMUjg1Y09CeVVEM0FiTndGZzNJM1lmUUVfSSJdfV0 * Contents: ["G02NSrQfjFXQ7Io09syajA", "address", {"_sd": ["ALZERsSn5WNiEXdCksW8I5qQw3_NpAnRqpSAZDudgw8", "D__W_uYcvRz3tvUnIJvBDHiTc7C__qHd0xNKwIs_w9k", "eBpCXU1J5dhH2g4t8QYNW5ExS9AxUVblUodoLYoPho0", "xOPy9-gJALK6UbWKFLR85cOByUD3AbNwFg3I3YfQE_I"]}] *Claim nationalities*: * SHA-256 Hash: y50czc0ISChy_bsba1dMoUuAOQ5AMmOSfGoEe81v1FU * Disclosure: WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgIm5hdGlvbmFsaXRpZXMiLCBbIkRFIl 1d * Contents: ["lklxF5jMYlGTPUovMNIvCA", "nationalities", ["DE"]] *Claim sex*: * SHA-256 Hash: 90CT8AaBPbn5X8nRXkesju1i0BqhWqZ3wqD4jF-qDGk * Disclosure: WyJuUHVvUW5rUkZxM0JJZUFtN0FuWEZBIiwgInNleCIsIDJd * Contents: ["nPuoQnkRFq3BIeAm7AnXFA", "sex", 2] *Claim birth_family_name*: * SHA-256 Hash: KjAXgAA9N5WHEDtRIh4u5Mn1ZsWixhhWAiX-A4QiwgA * Disclosure: WyI1YlBzMUlxdVpOYTBoa2FGenp6Wk53IiwgImJpcnRoX2ZhbWlseV9uYW1lIiwgIk dhYmxlciJd * Contents: ["5bPs1IquZNa0hkaFzzzZNw", "birth_family_name", "Gabler"] *Claim locality*: * SHA-256 Hash: KUViaaLnY5jSML90G29OOLENPbbXfhSjSPMjZaGkxAE * Disclosure: WyI1YTJXMF9OcmxFWnpmcW1rXzdQcS13IiwgImxvY2FsaXR5IiwgIkJlcmxpbiJd * Contents: ["5a2W0_NrlEZzfqmk_7Pq-w", "locality", "Berlin"] *Claim country*: * SHA-256 Hash: YbsT0S76VqXCVsd1jUSlwKPDgmALeB1uZclFHXf-USQ * Disclosure: WyJ5MXNWVTV3ZGZKYWhWZGd3UGdTN1JRIiwgImNvdW50cnkiLCAiREUiXQ * Contents: ["y1sVU5wdfJahVdgwPgS7RQ", "country", "DE"] *Claim place_of_birth*: * SHA-256 Hash: 1Crn03WmUeRWp4zwPvvCKXl9ZaQp-cdQV_gHdaGSWow * Disclosure: WyJIYlE0WDhzclZXM1FEeG5JSmRxeU9BIiwgInBsYWNlX29mX2JpcnRoIiwgeyJfc2 QiOiBbIktVVmlhYUxuWTVqU01MOTBHMjlPT0xFTlBiYlhmaFNqU1BNalphR2t4QUUi LCAiWWJzVDBTNzZWcVhDVnNkMWpVU2x3S1BEZ21BTGVCMXVaY2xGSFhmLVVTUSJdfV 0 * Contents: ["HbQ4X8srVW3QDxnIJdqyOA", "place_of_birth", {"_sd": ["KUViaaLnY5jSML90G29OOLENPbbXfhSjSPMjZaGkxAE", "YbsT0S76VqXCVsd1jUSlwKPDgmALeB1uZclFHXf-USQ"]}] *Claim 12*: * SHA-256 Hash: gkvy0FuvBBvj0hs2ZNwxcqOlf8mu2-kCE7-Nb2QxuBU * Disclosure: WyJDOUdTb3VqdmlKcXVFZ1lmb2pDYjFBIiwgIjEyIiwgdHJ1ZV0 * Contents: ["C9GSoujviJquEgYfojCb1A", "12", true] *Claim 14*: * SHA-256 Hash: y6SFrVFRyq50IbRJviTZqqjQWz0tLiuCmMeO0KqazGI * Disclosure: WyJreDVrRjE3Vi14MEptd1V4OXZndnR3IiwgIjE0IiwgdHJ1ZV0 * Contents: ["kx5kF17V-x0JmwUx9vgvtw", "14", true] *Claim 16*: * SHA-256 Hash: hrY4HnmF5b5JwC9eTzaFCUceIQAaIdhrqUXQNCWbfZI * Disclosure: WyJIM28xdXN3UDc2MEZpMnllR2RWQ0VRIiwgIjE2IiwgdHJ1ZV0 * Contents: ["H3o1uswP760Fi2yeGdVCEQ", "16", true] *Claim 18*: * SHA-256 Hash: CVKnly5P90yJs3EwtxQiOtUczaXCYNA4IczRaohrMDg * Disclosure: WyJPQktsVFZsdkxnLUFkd3FZR2JQOFpBIiwgIjE4IiwgdHJ1ZV0 * Contents: ["OBKlTVlvLg-AdwqYGbP8ZA", "18", true] *Claim 21*: * SHA-256 Hash: 1tEiyzPRYOKsf7SsYGMgPZKsOT1lQZRxHXA0r5_Bwkk * Disclosure: WyJNMEpiNTd0NDF1YnJrU3V5ckRUM3hBIiwgIjIxIiwgdHJ1ZV0 * Contents: ["M0Jb57t41ubrkSuyrDT3xA", "21", true] *Claim 65*: * SHA-256 Hash: a44-g2Gr8_3AmJw2XZ8kI1y0Qz_ze9iOcW2W3RLpXGg * Disclosure: WyJEc210S05ncFY0ZEFIcGpyY2Fvc0F3IiwgIjY1IiwgZmFsc2Vd * Contents: ["DsmtKNgpV4dAHpjrcaosAw", "65", false] *Claim age_equal_or_over*: * SHA-256 Hash: 2r009dzvHuVrWrRXT5kJMmHnqEHHnWe0MLVZw8PATB8 * Disclosure: WyJlSzVvNXBIZmd1cFBwbHRqMXFoQUp3IiwgImFnZV9lcXVhbF9vcl9vdmVyIiwgey Jfc2QiOiBbIjF0RWl5elBSWU9Lc2Y3U3NZR01nUFpLc09UMWxRWlJ4SFhBMHI1X0J3 a2siLCAiQ1ZLbmx5NVA5MHlKczNFd3R4UWlPdFVjemFYQ1lOQTRJY3pSYW9ock1EZy IsICJhNDQtZzJHcjhfM0FtSncyWFo4a0kxeTBRel96ZTlpT2NXMlczUkxwWEdnIiwg ImdrdnkwRnV2QkJ2ajBoczJaTnd4Y3FPbGY4bXUyLWtDRTctTmIyUXh1QlUiLCAiaH JZNEhubUY1YjVKd0M5ZVR6YUZDVWNlSVFBYUlkaHJxVVhRTkNXYmZaSSIsICJ5NlNG clZGUnlxNTBJYlJKdmlUWnFxalFXejB0TGl1Q21NZU8wS3FhekdJIl19XQ * Contents: ["eK5o5pHfgupPpltj1qhAJw", "age_equal_or_over", {"_sd": ["1tEiyzPRYOKsf7SsYGMgPZKsOT1lQZRxHXA0r5_Bwkk", "CVKnly5P90yJs3EwtxQiOtUczaXCYNA4IczRaohrMDg", "a44-g2Gr8_3AmJw2XZ8kI1y0Qz_ze9iOcW2W3RLpXGg", "gkvy0FuvBBvj0hs2ZNwxcqOlf8mu2-kCE7-Nb2QxuBU", "hrY4HnmF5b5JwC9eTzaFCUceIQAaIdhrqUXQNCWbfZI", "y6SFrVFRyq50IbRJviTZqqjQWz0tLiuCmMeO0KqazGI"]}] *Claim age_in_years*: * SHA-256 Hash: WTpI7RcM3gxZruRpXzezSbkbOr93PVFvWx8woJ3j1cE * Disclosure: WyJqN0FEZGIwVVZiMExpMGNpUGNQMGV3IiwgImFnZV9pbl95ZWFycyIsIDYyXQ * Contents: ["j7ADdb0UVb0Li0ciPcP0ew", "age_in_years", 62] *Claim age_birth_year*: * SHA-256 Hash: LezjabRqiZOXzEYmVZf8RMi9xAkd3_M1LZ8U7E4s3u4 * Disclosure: WyJXcHhKckZ1WDh1U2kycDRodDA5anZ3IiwgImFnZV9iaXJ0aF95ZWFyIiwgMTk2M1 0 * Contents: ["WpxJrFuX8uSi2p4ht09jvw", "age_birth_year", 1963] *Claim issuance_date*: * SHA-256 Hash: W14XHbUffzuW4IFMjpSTb1melWxUWf4N_o2ldkkIqc8 * Disclosure: WyJhdFNtRkFDWU1iSlZLRDA1bzNKZ3RRIiwgImlzc3VhbmNlX2RhdGUiLCAiMjAyMC 0wMy0xMSJd * Contents: ["atSmFACYMbJVKD05o3JgtQ", "issuance_date", "2020-03-11"] *Claim expiry_date*: * SHA-256 Hash: 78jg77-GYBeX8IQfoELPyL0DYPdmfZo0JgViV0_lKCM * Disclosure: WyI0S3lSMzJvSVp0LXprV3ZGcWJVTEtnIiwgImV4cGlyeV9kYXRlIiwgIjIwMzAtMD MtMTIiXQ * Contents: ["4KyR32oIZt-zkWvFqbULKg", "expiry_date", "2030-03-12"] *Claim issuing_authority*: * SHA-256 Hash: 6ZNISDst62ymlrOAkadjdD5ZulT5A299J78SLhM__Os * Disclosure: WyJjaEJDc3loeWgtSjg2SS1hd1FEaUNRIiwgImlzc3VpbmdfYXV0aG9yaXR5IiwgIk RFIl0 * Contents: ["chBCsyhyh-J86I-awQDiCQ", "issuing_authority", "DE"] *Claim issuing_country*: * SHA-256 Hash: _ohJVIQIBsU4updNS4_w4Kb1MHqJ0L9qLGshWq6JXQs * Disclosure: WyJmbE5QMW5jTXo5TGctYzlxTUl6XzlnIiwgImlzc3VpbmdfY291bnRyeSIsICJERS Jd * Contents: ["flNP1ncMz9Lg-c9qMIz_9g", "issuing_country", "DE"] The following is an example of an SD-JWT+KB that discloses only nationality and the fact that the person is over 18 years old: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImRjK3NkLWp3dCJ9.eyJfc2QiOiBbIjBIWm1 uU0lQejMzN2tTV2U3QzM0bC0tODhnekppLWVCSjJWel9ISndBVGciLCAiMUNybjAzV21 VZVJXcDR6d1B2dkNLWGw5WmFRcC1jZFFWX2dIZGFHU1dvdyIsICIycjAwOWR6dkh1VnJ XclJYVDVrSk1tSG5xRUhIbldlME1MVlp3OFBBVEI4IiwgIjZaTklTRHN0NjJ5bWxyT0F rYWRqZEQ1WnVsVDVBMjk5Sjc4U0xoTV9fT3MiLCAiNzhqZzc3LUdZQmVYOElRZm9FTFB 5TDBEWVBkbWZabzBKZ1ZpVjBfbEtDTSIsICI5MENUOEFhQlBibjVYOG5SWGtlc2p1MWk wQnFoV3FaM3dxRDRqRi1xREdrIiwgIkkwMGZjRlVvRFhDdWNwNXl5MnVqcVBzc0RWR2F XTmlVbGlOel9hd0QwZ2MiLCAiS2pBWGdBQTlONVdIRUR0UkloNHU1TW4xWnNXaXhoaFd BaVgtQTRRaXdnQSIsICJMYWk2SVU2ZDdHUWFnWFI3QXZHVHJuWGdTbGQzejhFSWdfZnY zZk9aMVdnIiwgIkxlemphYlJxaVpPWHpFWW1WWmY4Uk1pOXhBa2QzX00xTFo4VTdFNHM zdTQiLCAiUlR6M3FUbUZOSGJwV3JyT01aUzQxRjQ3NGtGcVJ2M3ZJUHF0aDZQVWhsTSI sICJXMTRYSGJVZmZ6dVc0SUZNanBTVGIxbWVsV3hVV2Y0Tl9vMmxka2tJcWM4IiwgIld UcEk3UmNNM2d4WnJ1UnBYemV6U2JrYk9yOTNQVkZ2V3g4d29KM2oxY0UiLCAiX29oSlZ JUUlCc1U0dXBkTlM0X3c0S2IxTUhxSjBMOXFMR3NoV3E2SlhRcyIsICJ5NTBjemMwSVN DaHlfYnNiYTFkTW9VdUFPUTVBTW1PU2ZHb0VlODF2MUZVIl0sICJpc3MiOiAiaHR0cHM 6Ly9waWQtaXNzdWVyLmJ1bmQuZGUuZXhhbXBsZSIsICJpYXQiOiAxNjgzMDAwMDAwLCA iZXhwIjogMTg4MzAwMDAwMCwgInZjdCI6ICJ1cm46ZXVkaTpwaWQ6ZGU6MSIsICJfc2R fYWxnIjogInNoYS0yNTYiLCAiY25mIjogeyJqd2siOiB7Imt0eSI6ICJFQyIsICJjcnY iOiAiUC0yNTYiLCAieCI6ICJUQ0FFUjE5WnZ1M09IRjRqNFc0dmZTVm9ISVAxSUxpbER sczd2Q2VHZW1jIiwgInkiOiAiWnhqaVdXYlpNUUdIVldLVlE0aGJTSWlyc1ZmdWVjQ0U 2dDRqVDlGMkhaUSJ9fX0.ZOZQTqmq8X1mCyFXi0wbV8xjctX1AlEa5TkdnkKOyWvLfW4 0XDb5oj9tzkgwff5s44IDnrfAdgLtmTcojs97_Q~WyJlSzVvNXBIZmd1cFBwbHRqMXFo QUp3IiwgImFnZV9lcXVhbF9vcl9vdmVyIiwgeyJfc2QiOiBbIjF0RWl5elBSWU9Lc2Y3 U3NZR01nUFpLc09UMWxRWlJ4SFhBMHI1X0J3a2siLCAiQ1ZLbmx5NVA5MHlKczNFd3R4 UWlPdFVjemFYQ1lOQTRJY3pSYW9ock1EZyIsICJhNDQtZzJHcjhfM0FtSncyWFo4a0kx eTBRel96ZTlpT2NXMlczUkxwWEdnIiwgImdrdnkwRnV2QkJ2ajBoczJaTnd4Y3FPbGY4 bXUyLWtDRTctTmIyUXh1QlUiLCAiaHJZNEhubUY1YjVKd0M5ZVR6YUZDVWNlSVFBYUlk aHJxVVhRTkNXYmZaSSIsICJ5NlNGclZGUnlxNTBJYlJKdmlUWnFxalFXejB0TGl1Q21N ZU8wS3FhekdJIl19XQ~WyJPQktsVFZsdkxnLUFkd3FZR2JQOFpBIiwgIjE4IiwgdHJ1Z V0~WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgIm5hdGlvbmFsaXRpZXMiLCBbIkRFI l1d~eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImtiK2p3dCJ9.eyJub25jZSI6ICIxMjM 0NTY3ODkwIiwgImF1ZCI6ICJodHRwczovL3ZlcmlmaWVyLmV4YW1wbGUub3JnIiwgIml hdCI6IDE3NDg1MzcyNDQsICJzZF9oYXNoIjogIlBqTVlmTTA3VmJKZE14TElsdXZSTmI 4OEpGbGpTWDRuLUc0M1VjX0JTUk0ifQ.f3TeS_1BWEG78EbIJRh5wgv8nYumk7euzu6x gbgpNB4pbQQqgRPWK-vQjlhhgU1EFGZ9LFakFX_0mgul1G_3mw This is the payload of the corresponding Key Binding JWT: { "nonce": "1234567890", "aud": "https://verifier.example.org", "iat": 1748537244, "sd_hash": "PjMYfM07VbJdMxLIluvRNb88JFljSX4n-G43Uc_BSRM" } After validation, the Verifier will have the following Processed SD- JWT Payload available for further handling: { "iss": "https://pid-issuer.bund.de.example", "iat": 1683000000, "exp": 1883000000, "vct": "urn:eudi:pid:de:1", "cnf": { "jwk": { "kty": "EC", "crv": "P-256", "x": "TCAER19Zvu3OHF4j4W4vfSVoHIP1ILilDls7vCeGemc", "y": "ZxjiWWbZMQGHVWKVQ4hbSIirsVfuecCE6t4jT9F2HZQ" } }, "age_equal_or_over": { "18": true }, "nationalities": [ "DE" ] } A.4. W3C Verifiable Credentials Data Model v2.0 This non-normative example illustrates how the artifacts defined in this specification could be used to express a W3C Verifiable Credentials Data Model v2.0 payload [VC_DATA_v2.0]. Key Binding is applied using the Holder's public key passed in a cnf claim in the SD-JWT. The following is the input JWT Claims Set: { "@context": [ "https://www.w3.org/2018/credentials/v1", "https://w3id.org/vaccination/v1" ], "type": [ "VerifiableCredential", "VaccinationCertificate" ], "issuer": "https://example.com/issuer", "issuanceDate": "2023-02-09T11:01:59Z", "expirationDate": "2028-02-08T11:01:59Z", "name": "COVID-19 Vaccination Certificate", "description": "COVID-19 Vaccination Certificate", "credentialSubject": { "vaccine": { "type": "Vaccine", "atcCode": "J07BX03", "medicinalProductName": "COVID-19 Vaccine Moderna", "marketingAuthorizationHolder": "Moderna Biotech" }, "nextVaccinationDate": "2021-08-16T13:40:12Z", "countryOfVaccination": "GE", "dateOfVaccination": "2021-06-23T13:40:12Z", "order": "3/3", "recipient": { "type": "VaccineRecipient", "gender": "Female", "birthDate": "1961-08-17", "givenName": "Marion", "familyName": "Mustermann" }, "type": "VaccinationEvent", "administeringCentre": "Praxis Sommergarten", "batchNumber": "1626382736", "healthProfessional": "883110000015376" } } The following is the issued SD-JWT: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0.eyJAY29udGV4 dCI6IFsiaHR0cHM6Ly93d3cudzMub3JnLzIwMTgvY3JlZGVudGlhbHMvdjEiLCAiaHR0 cHM6Ly93M2lkLm9yZy92YWNjaW5hdGlvbi92MSJdLCAidHlwZSI6IFsiVmVyaWZpYWJs ZUNyZWRlbnRpYWwiLCAiVmFjY2luYXRpb25DZXJ0aWZpY2F0ZSJdLCAiaXNzdWVyIjog Imh0dHBzOi8vZXhhbXBsZS5jb20vaXNzdWVyIiwgImlzc3VhbmNlRGF0ZSI6ICIyMDIz LTAyLTA5VDExOjAxOjU5WiIsICJleHBpcmF0aW9uRGF0ZSI6ICIyMDI4LTAyLTA4VDEx OjAxOjU5WiIsICJuYW1lIjogIkNPVklELTE5IFZhY2NpbmF0aW9uIENlcnRpZmljYXRl IiwgImRlc2NyaXB0aW9uIjogIkNPVklELTE5IFZhY2NpbmF0aW9uIENlcnRpZmljYXRl IiwgImNyZWRlbnRpYWxTdWJqZWN0IjogeyJfc2QiOiBbIjFWX0stOGxEUThpRlhCRlhi Wlk5ZWhxUjRIYWJXQ2k1VDB5Ykl6WlBld3ciLCAiSnpqTGd0UDI5ZFAtQjN0ZDEyUDY3 NGdGbUsyenk4MUhNdEJnZjZDSk5XZyIsICJSMmZHYmZBMDdaX1lsa3FtTlp5bWExeHl5 eDFYc3RJaVM2QjFZYmwySlo0IiwgIlRDbXpybDdLMmdldl9kdTdwY01JeXpSTEhwLVll Zy1GbF9jeHRyVXZQeGciLCAiVjdrSkJMSzc4VG1WRE9tcmZKN1p1VVBIdUtfMmNjN3la UmE0cVYxdHh3TSIsICJiMGVVc3ZHUC1PRERkRm9ZNE5semxYYzN0RHNsV0p0Q0pGNzVO dzhPal9nIiwgInpKS19lU01YandNOGRYbU1aTG5JOEZHTTA4ekozX3ViR2VFTUotNVRC eTAiXSwgInZhY2NpbmUiOiB7Il9zZCI6IFsiMWNGNWhMd2toTU5JYXFmV0pyWEk3Tk1X ZWRMLTlmNlkyUEE1MnlQalNaSSIsICJIaXk2V1d1ZUxENWJuMTYyOTh0UHY3R1hobWxk TURPVG5CaS1DWmJwaE5vIiwgIkxiMDI3cTY5MWpYWGwtakM3M3ZpOGViT2o5c214M0Mt X29nN2dBNFRCUUUiXSwgInR5cGUiOiAiVmFjY2luZSJ9LCAicmVjaXBpZW50IjogeyJf c2QiOiBbIjFsU1FCTlkyNHEwVGg2T0d6dGhxLTctNGw2Y0FheHJZWE9HWnBlV19sbkEi LCAiM256THE4MU0yb04wNndkdjFzaEh2T0VKVnhaNUtMbWREa0hFREpBQldFSSIsICJQ bjFzV2kwNkc0TEpybm4tX1JUMFJiTV9IVGR4blBKUXVYMmZ6V3ZfSk9VIiwgImxGOXV6 ZHN3N0hwbEdMYzcxNFRyNFdPN01HSnphN3R0N1FGbGVDWDRJdHciXSwgInR5cGUiOiAi VmFjY2luZVJlY2lwaWVudCJ9LCAidHlwZSI6ICJWYWNjaW5hdGlvbkV2ZW50In0sICJf c2RfYWxnIjogInNoYS0yNTYiLCAiY25mIjogeyJqd2siOiB7Imt0eSI6ICJFQyIsICJj cnYiOiAiUC0yNTYiLCAieCI6ICJUQ0FFUjE5WnZ1M09IRjRqNFc0dmZTVm9ISVAxSUxp bERsczd2Q2VHZW1jIiwgInkiOiAiWnhqaVdXYlpNUUdIVldLVlE0aGJTSWlyc1ZmdWVj Q0U2dDRqVDlGMkhaUSJ9fX0.OZomvwO8iw4db89MYCeeomBVStXkT6u7G7FkicPWZnd2 _hGgr0l_u1NHgPVocuOt-m32Uu6kwtPmYFxKk0AOeA~WyIyR0xDNDJzS1F2ZUNmR2Zye U5STjl3IiwgImF0Y0NvZGUiLCAiSjA3QlgwMyJd~WyJlbHVWNU9nM2dTTklJOEVZbnN4 QV9BIiwgIm1lZGljaW5hbFByb2R1Y3ROYW1lIiwgIkNPVklELTE5IFZhY2NpbmUgTW9k ZXJuYSJd~WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgIm1hcmtldGluZ0F1dGhvcml 6YXRpb25Ib2xkZXIiLCAiTW9kZXJuYSBCaW90ZWNoIl0~WyJlSThaV205UW5LUHBOUGV OZW5IZGhRIiwgIm5leHRWYWNjaW5hdGlvbkRhdGUiLCAiMjAyMS0wOC0xNlQxMzo0MDo xMloiXQ~WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgImNvdW50cnlPZlZhY2NpbmF0 aW9uIiwgIkdFIl0~WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgImRhdGVPZlZhY2Np bmF0aW9uIiwgIjIwMjEtMDYtMjNUMTM6NDA6MTJaIl0~WyJQYzMzSk0yTGNoY1VfbEhn Z3ZfdWZRIiwgIm9yZGVyIiwgIjMvMyJd~WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiw gImdlbmRlciIsICJGZW1hbGUiXQ~WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgImJp cnRoRGF0ZSIsICIxOTYxLTA4LTE3Il0~WyJuUHVvUW5rUkZxM0JJZUFtN0FuWEZBIiwg ImdpdmVuTmFtZSIsICJNYXJpb24iXQ~WyI1YlBzMUlxdVpOYTBoa2FGenp6Wk53IiwgI mZhbWlseU5hbWUiLCAiTXVzdGVybWFubiJd~WyI1YTJXMF9OcmxFWnpmcW1rXzdQcS13 IiwgImFkbWluaXN0ZXJpbmdDZW50cmUiLCAiUHJheGlzIFNvbW1lcmdhcnRlbiJd~WyJ 5MXNWVTV3ZGZKYWhWZGd3UGdTN1JRIiwgImJhdGNoTnVtYmVyIiwgIjE2MjYzODI3MzY iXQ~WyJIYlE0WDhzclZXM1FEeG5JSmRxeU9BIiwgImhlYWx0aFByb2Zlc3Npb25hbCIs ICI4ODMxMTAwMDAwMTUzNzYiXQ~ The following payload is used for the SD-JWT: { "@context": [ "https://www.w3.org/2018/credentials/v1", "https://w3id.org/vaccination/v1" ], "type": [ "VerifiableCredential", "VaccinationCertificate" ], "issuer": "https://example.com/issuer", "issuanceDate": "2023-02-09T11:01:59Z", "expirationDate": "2028-02-08T11:01:59Z", "name": "COVID-19 Vaccination Certificate", "description": "COVID-19 Vaccination Certificate", "credentialSubject": { "_sd": [ "1V_K-8lDQ8iFXBFXbZY9ehqR4HabWCi5T0ybIzZPeww", "JzjLgtP29dP-B3td12P674gFmK2zy81HMtBgf6CJNWg", "R2fGbfA07Z_YlkqmNZyma1xyyx1XstIiS6B1Ybl2JZ4", "TCmzrl7K2gev_du7pcMIyzRLHp-Yeg-Fl_cxtrUvPxg", "V7kJBLK78TmVDOmrfJ7ZuUPHuK_2cc7yZRa4qV1txwM", "b0eUsvGP-ODDdFoY4NlzlXc3tDslWJtCJF75Nw8Oj_g", "zJK_eSMXjwM8dXmMZLnI8FGM08zJ3_ubGeEMJ-5TBy0" ], "vaccine": { "_sd": [ "1cF5hLwkhMNIaqfWJrXI7NMWedL-9f6Y2PA52yPjSZI", "Hiy6WWueLD5bn16298tPv7GXhmldMDOTnBi-CZbphNo", "Lb027q691jXXl-jC73vi8ebOj9smx3C-_og7gA4TBQE" ], "type": "Vaccine" }, "recipient": { "_sd": [ "1lSQBNY24q0Th6OGzthq-7-4l6cAaxrYXOGZpeW_lnA", "3nzLq81M2oN06wdv1shHvOEJVxZ5KLmdDkHEDJABWEI", "Pn1sWi06G4LJrnn-_RT0RbM_HTdxnPJQuX2fzWv_JOU", "lF9uzdsw7HplGLc714Tr4WO7MGJza7tt7QFleCX4Itw" ], "type": "VaccineRecipient" }, "type": "VaccinationEvent" }, "_sd_alg": "sha-256", "cnf": { "jwk": { "kty": "EC", "crv": "P-256", "x": "TCAER19Zvu3OHF4j4W4vfSVoHIP1ILilDls7vCeGemc", "y": "ZxjiWWbZMQGHVWKVQ4hbSIirsVfuecCE6t4jT9F2HZQ" } } } The digests in the SD-JWT payload reference the following Disclosures: *Claim atcCode*: * SHA-256 Hash: 1cF5hLwkhMNIaqfWJrXI7NMWedL-9f6Y2PA52yPjSZI * Disclosure: WyIyR0xDNDJzS1F2ZUNmR2ZyeU5STjl3IiwgImF0Y0NvZGUiLCAiSjA3QlgwMyJd * Contents: ["2GLC42sKQveCfGfryNRN9w", "atcCode", "J07BX03"] *Claim medicinalProductName*: * SHA-256 Hash: Hiy6WWueLD5bn16298tPv7GXhmldMDOTnBi-CZbphNo * Disclosure: WyJlbHVWNU9nM2dTTklJOEVZbnN4QV9BIiwgIm1lZGljaW5hbFByb2R1Y3ROYW1lIi wgIkNPVklELTE5IFZhY2NpbmUgTW9kZXJuYSJd * Contents: ["eluV5Og3gSNII8EYnsxA_A", "medicinalProductName", "COVID-19 Vaccine Moderna"] *Claim marketingAuthorizationHolder*: * SHA-256 Hash: Lb027q691jXXl-jC73vi8ebOj9smx3C-_og7gA4TBQE * Disclosure: WyI2SWo3dE0tYTVpVlBHYm9TNXRtdlZBIiwgIm1hcmtldGluZ0F1dGhvcml6YXRpb2 5Ib2xkZXIiLCAiTW9kZXJuYSBCaW90ZWNoIl0 * Contents: ["6Ij7tM-a5iVPGboS5tmvVA", "marketingAuthorizationHolder", "Moderna Biotech"] *Claim nextVaccinationDate*: * SHA-256 Hash: R2fGbfA07Z_YlkqmNZyma1xyyx1XstIiS6B1Ybl2JZ4 * Disclosure: WyJlSThaV205UW5LUHBOUGVOZW5IZGhRIiwgIm5leHRWYWNjaW5hdGlvbkRhdGUiLC AiMjAyMS0wOC0xNlQxMzo0MDoxMloiXQ * Contents: ["eI8ZWm9QnKPpNPeNenHdhQ", "nextVaccinationDate", "2021-08-16T13:40:12Z"] *Claim countryOfVaccination*: * SHA-256 Hash: JzjLgtP29dP-B3td12P674gFmK2zy81HMtBgf6CJNWg * Disclosure: WyJRZ19PNjR6cUF4ZTQxMmExMDhpcm9BIiwgImNvdW50cnlPZlZhY2NpbmF0aW9uIi wgIkdFIl0 * Contents: ["Qg_O64zqAxe412a108iroA", "countryOfVaccination", "GE"] *Claim dateOfVaccination*: * SHA-256 Hash: zJK_eSMXjwM8dXmMZLnI8FGM08zJ3_ubGeEMJ-5TBy0 * Disclosure: WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwgImRhdGVPZlZhY2NpbmF0aW9uIiwgIj IwMjEtMDYtMjNUMTM6NDA6MTJaIl0 * Contents: ["AJx-095VPrpTtN4QMOqROA", "dateOfVaccination", "2021-06-23T13:40:12Z"] *Claim order*: * SHA-256 Hash: b0eUsvGP-ODDdFoY4NlzlXc3tDslWJtCJF75Nw8Oj_g * Disclosure: WyJQYzMzSk0yTGNoY1VfbEhnZ3ZfdWZRIiwgIm9yZGVyIiwgIjMvMyJd * Contents: ["Pc33JM2LchcU_lHggv_ufQ", "order", "3/3"] *Claim gender*: * SHA-256 Hash: 3nzLq81M2oN06wdv1shHvOEJVxZ5KLmdDkHEDJABWEI * Disclosure: WyJHMDJOU3JRZmpGWFE3SW8wOXN5YWpBIiwgImdlbmRlciIsICJGZW1hbGUiXQ * Contents: ["G02NSrQfjFXQ7Io09syajA", "gender", "Female"] *Claim birthDate*: * SHA-256 Hash: Pn1sWi06G4LJrnn-_RT0RbM_HTdxnPJQuX2fzWv_JOU * Disclosure: WyJsa2x4RjVqTVlsR1RQVW92TU5JdkNBIiwgImJpcnRoRGF0ZSIsICIxOTYxLTA4LT E3Il0 * Contents: ["lklxF5jMYlGTPUovMNIvCA", "birthDate", "1961-08-17"] *Claim givenName*: * SHA-256 Hash: lF9uzdsw7HplGLc714Tr4WO7MGJza7tt7QFleCX4Itw * Disclosure: WyJuUHVvUW5rUkZxM0JJZUFtN0FuWEZBIiwgImdpdmVuTmFtZSIsICJNYXJpb24iXQ * Contents: ["nPuoQnkRFq3BIeAm7AnXFA", "givenName", "Marion"] *Claim familyName*: * SHA-256 Hash: 1lSQBNY24q0Th6OGzthq-7-4l6cAaxrYXOGZpeW_lnA * Disclosure: WyI1YlBzMUlxdVpOYTBoa2FGenp6Wk53IiwgImZhbWlseU5hbWUiLCAiTXVzdGVybW FubiJd * Contents: ["5bPs1IquZNa0hkaFzzzZNw", "familyName", "Mustermann"] *Claim administeringCentre*: * SHA-256 Hash: TCmzrl7K2gev_du7pcMIyzRLHp-Yeg-Fl_cxtrUvPxg * Disclosure: WyI1YTJXMF9OcmxFWnpmcW1rXzdQcS13IiwgImFkbWluaXN0ZXJpbmdDZW50cmUiLC AiUHJheGlzIFNvbW1lcmdhcnRlbiJd * Contents: ["5a2W0_NrlEZzfqmk_7Pq-w", "administeringCentre", "Praxis Sommergarten"] *Claim batchNumber*: * SHA-256 Hash: V7kJBLK78TmVDOmrfJ7ZuUPHuK_2cc7yZRa4qV1txwM * Disclosure: WyJ5MXNWVTV3ZGZKYWhWZGd3UGdTN1JRIiwgImJhdGNoTnVtYmVyIiwgIjE2MjYzOD I3MzYiXQ * Contents: ["y1sVU5wdfJahVdgwPgS7RQ", "batchNumber", "1626382736"] *Claim healthProfessional*: * SHA-256 Hash: 1V_K-8lDQ8iFXBFXbZY9ehqR4HabWCi5T0ybIzZPeww * Disclosure: WyJIYlE0WDhzclZXM1FEeG5JSmRxeU9BIiwgImhlYWx0aFByb2Zlc3Npb25hbCIsIC I4ODMxMTAwMDAwMTUzNzYiXQ * Contents: ["HbQ4X8srVW3QDxnIJdqyOA", "healthProfessional", "883110000015376"] This is an example of an SD-JWT+KB that discloses only type, medicinalProductName, atcCode of the vaccine, type of the recipient, type, order, and dateOfVaccination: eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImV4YW1wbGUrc2Qtand0In0.eyJAY29udGV4 dCI6IFsiaHR0cHM6Ly93d3cudzMub3JnLzIwMTgvY3JlZGVudGlhbHMvdjEiLCAiaHR0 cHM6Ly93M2lkLm9yZy92YWNjaW5hdGlvbi92MSJdLCAidHlwZSI6IFsiVmVyaWZpYWJs ZUNyZWRlbnRpYWwiLCAiVmFjY2luYXRpb25DZXJ0aWZpY2F0ZSJdLCAiaXNzdWVyIjog Imh0dHBzOi8vZXhhbXBsZS5jb20vaXNzdWVyIiwgImlzc3VhbmNlRGF0ZSI6ICIyMDIz LTAyLTA5VDExOjAxOjU5WiIsICJleHBpcmF0aW9uRGF0ZSI6ICIyMDI4LTAyLTA4VDEx OjAxOjU5WiIsICJuYW1lIjogIkNPVklELTE5IFZhY2NpbmF0aW9uIENlcnRpZmljYXRl IiwgImRlc2NyaXB0aW9uIjogIkNPVklELTE5IFZhY2NpbmF0aW9uIENlcnRpZmljYXRl IiwgImNyZWRlbnRpYWxTdWJqZWN0IjogeyJfc2QiOiBbIjFWX0stOGxEUThpRlhCRlhi Wlk5ZWhxUjRIYWJXQ2k1VDB5Ykl6WlBld3ciLCAiSnpqTGd0UDI5ZFAtQjN0ZDEyUDY3 NGdGbUsyenk4MUhNdEJnZjZDSk5XZyIsICJSMmZHYmZBMDdaX1lsa3FtTlp5bWExeHl5 eDFYc3RJaVM2QjFZYmwySlo0IiwgIlRDbXpybDdLMmdldl9kdTdwY01JeXpSTEhwLVll Zy1GbF9jeHRyVXZQeGciLCAiVjdrSkJMSzc4VG1WRE9tcmZKN1p1VVBIdUtfMmNjN3la UmE0cVYxdHh3TSIsICJiMGVVc3ZHUC1PRERkRm9ZNE5semxYYzN0RHNsV0p0Q0pGNzVO dzhPal9nIiwgInpKS19lU01YandNOGRYbU1aTG5JOEZHTTA4ekozX3ViR2VFTUotNVRC eTAiXSwgInZhY2NpbmUiOiB7Il9zZCI6IFsiMWNGNWhMd2toTU5JYXFmV0pyWEk3Tk1X ZWRMLTlmNlkyUEE1MnlQalNaSSIsICJIaXk2V1d1ZUxENWJuMTYyOTh0UHY3R1hobWxk TURPVG5CaS1DWmJwaE5vIiwgIkxiMDI3cTY5MWpYWGwtakM3M3ZpOGViT2o5c214M0Mt X29nN2dBNFRCUUUiXSwgInR5cGUiOiAiVmFjY2luZSJ9LCAicmVjaXBpZW50IjogeyJf c2QiOiBbIjFsU1FCTlkyNHEwVGg2T0d6dGhxLTctNGw2Y0FheHJZWE9HWnBlV19sbkEi LCAiM256THE4MU0yb04wNndkdjFzaEh2T0VKVnhaNUtMbWREa0hFREpBQldFSSIsICJQ bjFzV2kwNkc0TEpybm4tX1JUMFJiTV9IVGR4blBKUXVYMmZ6V3ZfSk9VIiwgImxGOXV6 ZHN3N0hwbEdMYzcxNFRyNFdPN01HSnphN3R0N1FGbGVDWDRJdHciXSwgInR5cGUiOiAi VmFjY2luZVJlY2lwaWVudCJ9LCAidHlwZSI6ICJWYWNjaW5hdGlvbkV2ZW50In0sICJf c2RfYWxnIjogInNoYS0yNTYiLCAiY25mIjogeyJqd2siOiB7Imt0eSI6ICJFQyIsICJj cnYiOiAiUC0yNTYiLCAieCI6ICJUQ0FFUjE5WnZ1M09IRjRqNFc0dmZTVm9ISVAxSUxp bERsczd2Q2VHZW1jIiwgInkiOiAiWnhqaVdXYlpNUUdIVldLVlE0aGJTSWlyc1ZmdWVj Q0U2dDRqVDlGMkhaUSJ9fX0.OZomvwO8iw4db89MYCeeomBVStXkT6u7G7FkicPWZnd2 _hGgr0l_u1NHgPVocuOt-m32Uu6kwtPmYFxKk0AOeA~WyJQYzMzSk0yTGNoY1VfbEhnZ 3ZfdWZRIiwgIm9yZGVyIiwgIjMvMyJd~WyJBSngtMDk1VlBycFR0TjRRTU9xUk9BIiwg ImRhdGVPZlZhY2NpbmF0aW9uIiwgIjIwMjEtMDYtMjNUMTM6NDA6MTJaIl0~WyIyR0xD NDJzS1F2ZUNmR2ZyeU5STjl3IiwgImF0Y0NvZGUiLCAiSjA3QlgwMyJd~WyJlbHVWNU9 nM2dTTklJOEVZbnN4QV9BIiwgIm1lZGljaW5hbFByb2R1Y3ROYW1lIiwgIkNPVklELTE 5IFZhY2NpbmUgTW9kZXJuYSJd~eyJhbGciOiAiRVMyNTYiLCAidHlwIjogImtiK2p3dC J9.eyJub25jZSI6ICIxMjM0NTY3ODkwIiwgImF1ZCI6ICJodHRwczovL3ZlcmlmaWVyL mV4YW1wbGUub3JnIiwgImlhdCI6IDE3NDg1MzcyNDQsICJzZF9oYXNoIjogIklvV1VIO TFsbGYzWEVybDQyYlEzc3hfNTNWMW8xdWpDejA4aERxSEs3RGsifQ.n0vzyIwCFMDVau EaeJIWEKZZchxXMpXTQewHgAkARbOSZxB09IbXXtHfpoGqO_BtNFN2lShJEIQBGyc-Xp HigA After the validation, the Verifier will have the following Processed SD-JWT Payload available for further handling: { "@context": [ "https://www.w3.org/2018/credentials/v1", "https://w3id.org/vaccination/v1" ], "type": [ "VerifiableCredential", "VaccinationCertificate" ], "issuer": "https://example.com/issuer", "issuanceDate": "2023-02-09T11:01:59Z", "expirationDate": "2028-02-08T11:01:59Z", "name": "COVID-19 Vaccination Certificate", "description": "COVID-19 Vaccination Certificate", "credentialSubject": { "vaccine": { "type": "Vaccine", "atcCode": "J07BX03", "medicinalProductName": "COVID-19 Vaccine Moderna" }, "recipient": { "type": "VaccineRecipient" }, "type": "VaccinationEvent", "order": "3/3", "dateOfVaccination": "2021-06-23T13:40:12Z" }, "cnf": { "jwk": { "kty": "EC", "crv": "P-256", "x": "TCAER19Zvu3OHF4j4W4vfSVoHIP1ILilDls7vCeGemc", "y": "ZxjiWWbZMQGHVWKVQ4hbSIirsVfuecCE6t4jT9F2HZQ" } } } A.5. Elliptic Curve Key Used in the Examples The following Elliptic Curve public key, represented in JWK format, can be used to validate the Issuer signatures in the above examples: { "kty": "EC", "crv": "P-256", "x": "b28d4MwZMjw8-00CG4xfnn9SLMVMM19SlqZpVb_uNtQ", "y": "Xv5zWwuoaTgdS6hV43yI6gBwTnjukmFQQnJ_kCxzqk8" } The public key used to validate a Key Binding JWT can be found in the examples as the content of the cnf claim. Appendix B. Disclosure Format Considerations As described in Section 4.2, the Disclosure structure is JSON containing a salt and the cleartext content of a claim, which is base64url encoded. The encoded value is the input used to calculate a digest for the respective claim. The inclusion of digest value in the signed JWT ensures the integrity of the claim value. Using encoded content as the input to the integrity mechanism is conceptually similar to the approach in JWS and particularly useful when the content, like JSON, can have different representations but is semantically equivalent, thus avoiding canonicalization. Some further discussion of the considerations around this design decision follows. When receiving an SD-JWT, a Verifier must be able to recompute digests of the disclosed claim values and, given the same input values, obtain the same digest values as signed by the Issuer. Usually, JSON-based formats transport claim values as simple properties of a JSON object such as this: ... "family_name": "Möbius", "address": { "street_address": "Schulstr. 12", "locality": "Schulpforta" } ... However, a problem arises when computation over the data needs to be performed and verified, like signing or computing digests. Common signature schemes require the same byte string as input to the signature verification as was used for creating the signature. In the digest approach outlined above, the same problem exists: for the Issuer and the Verifier to arrive at the same digest, the same byte string must be hashed. JSON, however, does not prescribe a unique encoding for data, but allows for variations in the encoded string. The data above, for example, can be encoded as ... "family_name": "M\u00f6bius", "address": { "street_address": "Schulstr. 12", "locality": "Schulpforta" } ... or as ... "family_name": "Möbius", "address": {"locality":"Schulpforta", "street_address":"Schulstr. 12"} ... The two representations of the value in family_name are very different on the byte level, but they yield equivalent objects. The same is true for the representations of address, which vary in white space and order of elements in the object. The variations in white space, ordering of object properties, and encoding of Unicode characters are all allowed by the JSON specification, including further variations, e.g., concerning floating-point numbers, as described in [RFC8785]. Variations can be introduced whenever JSON data is serialized or deserialized and unless dealt with, will lead to different digests and the inability to verify signatures. There are generally two approaches to deal with this problem: 1. Canonicalization: The data is transferred in JSON format, potentially introducing variations in its representation, but is transformed into a canonical form before computing a digest. Both the Issuer and the Verifier must use the same canonicalization algorithm to arrive at the same byte string for computing a digest. 2. Source string hardening: Instead of transferring data in a format that may introduce variations, a representation of the data is serialized. This representation is then used as the hashing input at the Verifier, but also transferred to the Verifier and used for the same digest calculation there. This means that the Verifier can easily compute and check the digest of the byte string before finally deserializing and accessing the data. Mixed approaches are conceivable, i.e., transferring both the original JSON data and a string suitable for computing a digest, but such approaches can easily lead to undetected inconsistencies resulting in time-of-check-time-of-use type security vulnerabilities. In this specification, the source string hardening approach is used, as it allows for simple and reliable interoperability without the requirement for a canonicalization library. To harden the source string, any serialization format that supports the necessary data types could be used in theory, like protobuf, msgpack, or pickle. In this specification, JSON is used and plaintext contents of each Disclosure are encoded using base64url encoding for transport. This approach means that SD-JWTs can be implemented purely based on widely available JWT, JSON, and Base64 encoding and decoding libraries. A Verifier can then easily check the digest over the source string before extracting the original JSON data. Variations in the encoding of the source string are implicitly tolerated by the Verifier, as the digest is computed over a predefined byte string and not over a JSON object. It is important to note that the Disclosures are neither intended nor suitable for direct consumption by an application that needs to access the disclosed claim values after the verification by the Verifier. The Disclosures are only intended to be used by a Verifier to check the digests over the source strings and to extract the original JSON data. The original JSON data is then used by the application. See Section 7.3 for details. Acknowledgements We would like to thank Alen Horvat, Alex Hodder, Anders Rundgren, Arjan Geluk, Chad Parry, Christian Bormann, Christian Paquin, Dale Bowie, Dan Moore, David Bakker, David Waite, Deb Cooley, Dick Hardt, Fabian Hauck, Filip Skokan, Giuseppe De Marco, Jacob Ward, Jeffrey Yasskin, John Preuß Mattsson, Joseph Heenan, Justin Richer, Kushal Das, Martin Thomson, Matthew Miller, Michael Fraser, Michael B. Jones, Mike Prorock, Nat Sakimura, Neil Madden, Oliver Terbu, Orie Steele, Paul Bastian, Peter Altmann, Pieter Kasselman, Richard Barnes, Rohan Mahy, Roman Danyliw, Ryosuke Abe, Sami Rosendahl, Shawn Butterfield, Shawn Emery, Simon Schulz, Takahiko Kawasaki, Tobias Looker, Torsten Lodderstedt, Vittorio Bertocci, Watson Ladd, and Yaron Sheffer for their contributions (some of which were substantial) to this draft and to the initial set of implementations. The work on this document was started at the OAuth Security Workshop 2022 in Trondheim, Norway. Authors' Addresses Daniel Fett Authlete Email: mail@danielfett.de URI: https://danielfett.de/ Kristina Yasuda Keio University Email: kristina@sfc.keio.ac.jp Brian Campbell Ping Identity Email: bcampbell@pingidentity.com