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Privacy Pass Issuance Protocol
draft-ietf-privacypass-protocol-16

The information below is for an old version of the document that is already published as an RFC.
Document Type
This is an older version of an Internet-Draft that was ultimately published as RFC 9578.
Authors Sofia Celi , Alex Davidson , Steven Valdez , Christopher A. Wood
Last updated 2024-06-13 (Latest revision 2023-10-03)
Replaces draft-davidson-pp-protocol, draft-private-access-tokens
RFC stream Internet Engineering Task Force (IETF)
Intended RFC status Proposed Standard
Formats
Reviews
Additional resources Mailing list discussion
Stream WG state Submitted to IESG for Publication
Document shepherd Joseph A. Salowey
Shepherd write-up Show Last changed 2023-06-04
IESG IESG state Became RFC 9578 (Proposed Standard)
Action Holders
(None)
Consensus boilerplate Yes
Telechat date (None)
Responsible AD Paul Wouters
Send notices to jsalowey@gmail.com
IANA IANA review state Version Changed - Review Needed
IANA action state RFC-Ed-Ack
IANA expert review state Expert Reviews OK
IANA expert review comments The Well-Known URIs and Privacy Pass Token Type registrations have been approved.
draft-ietf-privacypass-protocol-16
Network Working Group                                            S. Celi
Internet-Draft                                               A. Davidson
Intended status: Standards Track                          Brave Software
Expires: 5 April 2024                                          S. Valdez
                                                              Google LLC
                                                              C. A. Wood
                                                              Cloudflare
                                                          3 October 2023

                     Privacy Pass Issuance Protocol
                   draft-ietf-privacypass-protocol-16

Abstract

   This document specifies two variants of the two-message issuance
   protocol for Privacy Pass tokens: one that produces tokens that are
   privately verifiable using the issuance private key, and another that
   produces tokens that are publicly verifiable using the issuance
   public key.

Status of This Memo

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

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

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

   This Internet-Draft will expire on 5 April 2024.

Copyright Notice

   Copyright (c) 2023 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

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   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  . . . . . . . . . . . . . . . . . . . . . . . .   2
   2.  Terminology . . . . . . . . . . . . . . . . . . . . . . . . .   3
   3.  Protocol Overview . . . . . . . . . . . . . . . . . . . . . .   3
   4.  Configuration . . . . . . . . . . . . . . . . . . . . . . . .   4
   5.  Issuance Protocol for Privately Verifiable Tokens . . . . . .   8
     5.1.  Client-to-Issuer Request  . . . . . . . . . . . . . . . .   9
     5.2.  Issuer-to-Client Response . . . . . . . . . . . . . . . .  10
     5.3.  Finalization  . . . . . . . . . . . . . . . . . . . . . .  11
     5.4.  Token Verification  . . . . . . . . . . . . . . . . . . .  12
     5.5.  Issuer Configuration  . . . . . . . . . . . . . . . . . .  12
   6.  Issuance Protocol for Publicly Verifiable Tokens  . . . . . .  13
     6.1.  Client-to-Issuer Request  . . . . . . . . . . . . . . . .  14
     6.2.  Issuer-to-Client Response . . . . . . . . . . . . . . . .  15
     6.3.  Finalization  . . . . . . . . . . . . . . . . . . . . . .  16
     6.4.  Token Verification  . . . . . . . . . . . . . . . . . . .  16
     6.5.  Issuer Configuration  . . . . . . . . . . . . . . . . . .  17
   7.  Security considerations . . . . . . . . . . . . . . . . . . .  18
   8.  IANA considerations . . . . . . . . . . . . . . . . . . . . .  18
     8.1.  Well-Known 'private-token-issuer-directory' URI . . . . .  18
     8.2.  Token Type Registry Updates . . . . . . . . . . . . . . .  19
       8.2.1.  Token Type VOPRF (P-384, SHA-384) . . . . . . . . . .  19
       8.2.2.  Token Type Blind RSA (2048-bit) . . . . . . . . . . .  19
     8.3.  Media Types . . . . . . . . . . . . . . . . . . . . . . .  20
       8.3.1.  "application/private-token-issuer-directory" media
               type  . . . . . . . . . . . . . . . . . . . . . . . .  20
       8.3.2.  "application/private-token-request" media type  . . .  21
       8.3.3.  "application/private-token-response" media type . . .  21
   9.  References  . . . . . . . . . . . . . . . . . . . . . . . . .  22
     9.1.  Normative References  . . . . . . . . . . . . . . . . . .  22
     9.2.  Informative References  . . . . . . . . . . . . . . . . .  23
   Appendix A.  Acknowledgements . . . . . . . . . . . . . . . . . .  24
   Appendix B.  Test Vectors . . . . . . . . . . . . . . . . . . . .  24
     B.1.  Issuance Protocol 1 - VOPRF(P-384, SHA-384) . . . . . . .  24
     B.2.  Issuance Protocol 2 - Blind RSA, 2048 . . . . . . . . . .  27
   Authors' Addresses  . . . . . . . . . . . . . . . . . . . . . . .  39

1.  Introduction

   The Privacy Pass protocol provides a privacy-preserving authorization
   mechanism.  In essence, the protocol allows clients to provide
   cryptographic tokens that prove nothing other than that they have
   been created by a given server in the past [ARCHITECTURE].

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   This document describes the issuance protocol for Privacy Pass built
   on [HTTP].  It specifies two variants: one that is privately
   verifiable using the issuance private key based on the oblivious
   pseudorandom function from [OPRF], and one that is publicly
   verifiable using the issuance public key based on the blind RSA
   signature scheme [BLINDRSA].

   This document does not cover the Privacy Pass architecture, including
   choices that are necessary for deployment and application specific
   choices for protecting client privacy.  This information is covered
   in [ARCHITECTURE].

2.  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.

   This document uses the terms Origin, Client, Issuer, and Token as
   defined in Section 2 of [ARCHITECTURE].  Moreover, the following
   additional terms are used throughout this document.

   *  Issuer Public Key: The public key (from a private-public key pair)
      used by the Issuer for issuing and verifying Tokens.

   *  Issuer Private Key: The private key (from a private-public key
      pair) used by the Issuer for issuing and verifying Tokens.

   Unless otherwise specified, this document encodes protocol messages
   in TLS notation from Section 3 of [TLS13].  Moreover, all constants
   are in network byte order.

3.  Protocol Overview

   The issuance protocols defined in this document embody the core of
   Privacy Pass.  Clients receive TokenChallenge inputs from the
   redemption protocol ([AUTHSCHEME], Section 2.1) and use the issuance
   protocols to produce corresponding Token values ([AUTHSCHEME],
   Section 2.2).  The issuance protocol describes how Clients and
   Issuers interact to compute a token using a one-round protocol
   consisting of a TokenRequest from the Client and TokenResponse from
   the Issuer.  This interaction is shown below.

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   +--------+            +--------+         +----------+ +--------+
   | Origin |            | Client |         | Attester | | Issuer |
   +---+----+            +---+----+         +----+-----+ +---+----+
       |                     |                   |           |
       |<----- Request ------+                   |           |
       +-- TokenChallenge -->|                   |           |
       |                     |<== Attestation ==>|           |
       |                     |                   |           |
       |                     +--------- TokenRequest ------->|
       |                     |<-------- TokenResponse -------+
       |<-- Request+Token ---+                   |           |
       |                     |                   |           |

                        Figure 1: Issuance Overview

   The TokenChallenge inputs to the issuance protocols described in this
   document can be interactive or non-interactive, and per-origin or
   cross-origin.

   The issuance protocols defined in this document are compatible with
   any deployment model defined in Section 4 of [ARCHITECTURE].  The
   details of attestation are outside the scope of the issuance
   protocol; see Section 4 of [ARCHITECTURE] for information about how
   attestation can be implemented in each of the relevant deployment
   models.

   This document describes two variants of the issuance protocol: one
   that is privately verifiable (Section 5) using the issuance private
   key based on the oblivious pseudorandom function from [OPRF], and one
   that is publicly verifiable (Section 6) using the issuance public key
   based on the blind RSA signature scheme [BLINDRSA].

4.  Configuration

   Issuers MUST provide two parameters for configuration:

   1.  Issuer Request URL: A token request URL for generating access
       tokens.  For example, an Issuer URL might be
       https://issuer.example.net/request.

   2.  Issuer Public Key values: A list of Issuer Public Keys for the
       issuance protocol.

   The Issuer parameters can be obtained from an Issuer via a directory
   object, which is a JSON object ([RFC8259], Section 4) whose values
   are other JSON values ([RFC8259], Section 3) for the parameters.  The
   contents of this JSON object are defined in Table 1.

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       +====================+======================================+
       | Field Name         | Value                                |
       +====================+======================================+
       | issuer-request-uri | Issuer Request URL value (as an      |
       |                    | absolute URL, or a URL relative to   |
       |                    | the directory object) as a percent-  |
       |                    | encoded URL string, represented as a |
       |                    | JSON string ([RFC8259], Section 7)   |
       +--------------------+--------------------------------------+
       | token-keys         | List of Issuer Public Key values,    |
       |                    | each represented as JSON objects     |
       |                    | ([RFC8259], Section 4)               |
       +--------------------+--------------------------------------+

                Table 1: Issuer directory object description

   Each "token-keys" JSON object contains the fields and corresponding
   raw values defined in Table 2.

    +============+====================================================+
    | Field Name | Value                                              |
    +============+====================================================+
    | token-type | Integer value of the Token Type, as defined in     |
    |            | Section 8.2, represented as a JSON number          |
    |            | ([RFC8259], Section 6)                             |
    +------------+----------------------------------------------------+
    | token-key  | The base64url-encoded [RFC4648] Public Key for use |
    |            | with the issuance protocol as determined by the    |
    |            | token-type field, including padding, represented   |
    |            | as a JSON string ([RFC8259], Section 7)            |
    +------------+----------------------------------------------------+

              Table 2: Issuer 'token-keys' object description'

   Each "token-keys" JSON object may also contain the optional field
   "not-before".  The value of this field is the UNIX timestamp (number
   of seconds since January 1, 1970, UTC -- see Section 4.2.1 of
   [TIMESTAMP]) at which the key can be used.  If this field is present,
   Clients SHOULD NOT use a token key before this timestamp, as doing so
   can lead to issuance failures.  The purpose of this field is to
   assist in scheduled key rotations.

   Beyond staging keys with the "not-before" value, Issuers MAY
   advertise multiple "token-keys" for the same token-type to facilitate
   key rotation.  In this case, Issuers indicate preference for which
   token key to use based on the order of keys in the list, with
   preference given to keys earlier in the list.  Clients SHOULD use the
   first key in the "token-keys" list that either does not have a "not-

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   before" value or has a "not-before" value in the past, since the
   first such key is the most likely to be valid in the given time
   window.  Origins can attempt to use any key in the "token-keys" list
   to verify tokens, starting with the most preferred key in the list.
   Trial verification like this can help deal with Client clock skew.

   Altogether, the Issuer's directory could look like the following
   (with the "token-key" fields abbreviated):

    {
       "issuer-request-uri": "https://issuer.example.net/request",
       "token-keys": [
         {
           "token-type": 2,
           "token-key": "MI...AB",
           "not-before": 1686913811,
         },
         {
           "token-type": 2,
           "token-key": "MI...AQ",
         }
       ]
    }

   Clients that use this directory resource before 1686913811 in UNIX
   time would use the second key in the "token-keys" list, whereas
   Clients that use this directory after 1686913811 in UNIX time would
   use the first key in the "token-keys" list.

   A complete "token-key" value, encoded as it would be in the Issuer
   directory, would look like the following (line breaks are inserted to
   fit within the per-line character limits):

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$ echo MIIBUjA9BgkqhkiG9w0BAQowMKANMAsGCWCGSAFlAwQCAqEaMBgGCSqGSIb3DQEBCDAL \
 BglghkgBZQMEAgKiAwIBMAOCAQ8AMIIBCgKCAQEAmKHGAMyeoJt1pj3n7xTtqAPr_DhZAPhJM7 \
 Pc8ENR2BzdZwPTTF7KFKms5wt-mL01at0SC-cdBuIj6WYK8Ovz0AyaBuvTvW6SKCh7ZPXEqCGR \
 sq5I0nthREtrYkGo113oMVPVp3sy4VHPgzd8KdzTLGzOrjiUOsSFWbjf21iaVjXJ2VdwdS-8O- \
 430wkucYjGeOJwi8rWx_ZkcHtav0S67Q_SlExJel6nyRzpuuID9OQm1nxfs1Z4PhWBzt93T2oz \
 Tnda3OklF5n0pIXD6bttmTekIw_8Xx2LMis0jfJ1QL99aA-muXRFN4ZUwORrF7cAcCUD_-56_6 \
 fh9s34FmqBGwIDAQAB \
 | sed s/-/+/g | sed s/_/\\//g | openssl base64 -d \
 | openssl asn1parse -dump -inform DER
    0:d=0  hl=4 l= 338 cons: SEQUENCE
    4:d=1  hl=2 l=  61 cons: SEQUENCE
    6:d=2  hl=2 l=   9 prim: OBJECT            :rsassaPss
   17:d=2  hl=2 l=  48 cons: SEQUENCE
   19:d=3  hl=2 l=  13 cons: cont [ 0 ]
   21:d=4  hl=2 l=  11 cons: SEQUENCE
   23:d=5  hl=2 l=   9 prim: OBJECT            :sha384
   34:d=3  hl=2 l=  26 cons: cont [ 1 ]
   36:d=4  hl=2 l=  24 cons: SEQUENCE
   38:d=5  hl=2 l=   9 prim: OBJECT            :mgf1
   49:d=5  hl=2 l=  11 cons: SEQUENCE
   51:d=6  hl=2 l=   9 prim: OBJECT            :sha384
   62:d=3  hl=2 l=   3 cons: cont [ 2 ]
   64:d=4  hl=2 l=   1 prim: INTEGER           :30
   67:d=1  hl=4 l= 271 prim: BIT STRING
   ... truncated public key bytes ...

   Issuer directory resources have the media type "application/private-
   token-issuer-directory" and are located at the well-known location
   /.well-known/private-token-issuer-directory; see Section 8.1 for the
   registration information for this well-known URI.  The reason that
   this resource is located at a well-known URI is that Issuers are
   defined by an origin name in TokenChallenge structures; see
   Section 2.1 of [AUTHSCHEME].

   The Issuer directory and Issuer resources SHOULD be available on the
   same origin.  If an Issuer wants to service multiple different Issuer
   directories they MUST create unique subdomains for each so the
   TokenChallenge defined in Section 2.1 of [AUTHSCHEME] can be
   differentiated correctly.

   Issuers SHOULD use HTTP cache directives to permit caching of this
   resource [RFC5861].  The cache lifetime depends on the Issuer's key
   rotation schedule.  Regular rotation of token keys is recommended to
   minimize the risk of key compromise and any harmful effects that
   happen due to key compromise.

   Issuers can control cache lifetime with the Cache-Control header, as
   follows:

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     Cache-Control: max-age=86400

   Consumers of the Issuer directory resource SHOULD follow the usual
   HTTP caching [RFC9111] semantics when processing this resource.  Long
   cache lifetimes may result in use of stale Issuer configuration
   information, whereas short lifetimes may result in decreased
   performance.  When use of an Issuer configuration results in token
   issuance failures, e.g., because the Issuer has invalidated its
   directory resource before its expiration time and issuance requests
   using this configuration are unsuccessful, the directory SHOULD be
   fetched and revalidated.  Issuance will continue to fail until the
   Issuer configuration is updated.

5.  Issuance Protocol for Privately Verifiable Tokens

   The privately verifiable issuance protocol allows Clients to produce
   Token values that verify using the Issuer Private Key. This protocol
   is based on the oblivious pseudorandom function from [OPRF].

   Issuers provide a Issuer Private and Public Key, denoted skI and pkI
   respectively, used to produce tokens as input to the protocol.  See
   Section 5.5 for how these keys are generated.

   Clients provide the following as input to the issuance protocol:

   *  Issuer Request URL: A URL identifying the location to which
      issuance requests are sent.  This can be a URL derived from the
      "issuer-request-uri" value in the Issuer's directory resource, or
      it can be another Client-configured URL.  The value of this
      parameter depends on the Client configuration and deployment
      model.  For example, in the 'Joint Origin and Issuer' deployment
      model, the Issuer Request URL might correspond to the Client's
      configured Attester, and the Attester is configured to relay
      requests to the Issuer.

   *  Issuer name: An identifier for the Issuer.  This is typically a
      host name that can be used to construct HTTP requests to the
      Issuer.

   *  Issuer Public Key: pkI, with a key identifier token_key_id
      computed as described in Section 5.5.

   *  Challenge value: challenge, an opaque byte string.  For example,
      this might be provided by the redemption protocol in [AUTHSCHEME].

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   Given this configuration and these inputs, the two messages exchanged
   in this protocol are described below.  This section uses notation
   described in [OPRF], Section 4, including SerializeElement and
   DeserializeElement, SerializeScalar and DeserializeScalar, and
   DeriveKeyPair.

   The constants Ne and Ns are as defined in [OPRF], Section 4 for
   OPRF(P-384, SHA-384).  The constant Nk, which is also equal to Nh as
   defined in [OPRF], Section 4, is defined by Section 8.2.1.

5.1.  Client-to-Issuer Request

   The Client first creates a context as follows:

   client_context = SetupVOPRFClient("P384-SHA384", pkI)

   Here, "P384-SHA384" is the identifier corresponding to the
   OPRF(P-384, SHA-384) ciphersuite in [OPRF].  SetupVOPRFClient is
   defined in [OPRF], Section 3.2.

   The Client then creates an issuance request message for a random
   32-byte value nonce with the input challenge and Issuer key
   identifier as described below:

   nonce = random(32)
   challenge_digest = SHA256(challenge)
   token_input = concat(0x0001, // Token type field is 2 bytes long
                        nonce,
                        challenge_digest,
                        token_key_id)
   blind, blinded_element = client_context.Blind(token_input)

   The Blind function is defined in [OPRF], Section 3.3.2.  If the Blind
   function fails, the Client aborts the protocol.  The Client stores
   the nonce and challenge_digest values locally for use when finalizing
   the issuance protocol to produce a token (as described in
   Section 5.3).

   The Client then creates a TokenRequest structured as follows:

   struct {
     uint16_t token_type = 0x0001; /* Type VOPRF(P-384, SHA-384) */
     uint8_t truncated_token_key_id;
     uint8_t blinded_msg[Ne];
   } TokenRequest;

   The structure fields are defined as follows:

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   *  "token_type" is a 2-octet integer, which matches the type in the
      challenge.

   *  "truncated_token_key_id" is the least significant byte of the
      token_key_id (Section 5.5) in network byte order (in other words,
      the last 8 bits of token_key_id).  This value is truncated so that
      Issuers cannot use token_key_id as a way of uniquely identifying
      Clients; see Section 7 and referenced information for more
      details.

   *  "blinded_msg" is the Ne-octet blinded message defined above,
      computed as SerializeElement(blinded_element).

   The values token_input and blinded_element are stored locally and
   used later as described in Section 5.3.  The Client then generates an
   HTTP POST request to send to the Issuer Request URL, with the
   TokenRequest as the content.  The media type for this request is
   "application/private-token-request".  An example request for the
   Issuer Request URL "https://issuer.example.net/request" is shown
   below.

   POST /request HTTP/1.1
   Host: issuer.example.net
   Accept: application/private-token-response
   Content-Type: application/private-token-request
   Content-Length: <Length of TokenRequest>

   <Bytes containing the TokenRequest>

5.2.  Issuer-to-Client Response

   Upon receipt of the request, the Issuer validates the following
   conditions:

   *  The TokenRequest contains a supported token_type.

   *  The TokenRequest.truncated_token_key_id corresponds to the
      truncated key ID of a Public Key owned by the Issuer.

   *  The TokenRequest.blinded_msg is of the correct size.

   If any of these conditions is not met, the Issuer MUST return an HTTP
   422 (Unprocessable Content) error to the client.

   If these conditions are met, the Issuer then tries to deserialize
   TokenRequest.blinded_msg using DeserializeElement from Section 2.1 of
   [OPRF], yielding blinded_element.  If this fails, the Issuer MUST
   return an HTTP 422 (Unprocessable Content) error to the client.

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   Otherwise, if the Issuer is willing to produce a token to the Client,
   the Issuer completes the issuance flow by computing a blinded
   response as follows:

   server_context = SetupVOPRFServer("P384-SHA384", skI)
   evaluate_element, proof =
     server_context.BlindEvaluate(skI, pkI, blinded_element)

   SetupVOPRFServer is defined in [OPRF], Section 3.2 and BlindEvaluate
   is defined in [OPRF], Section 3.3.2.  The Issuer then creates a
   TokenResponse structured as follows:

   struct {
      uint8_t evaluate_msg[Ne];
      uint8_t evaluate_proof[Ns+Ns];
   } TokenResponse;

   The structure fields are defined as follows:

   *  "evaluate_msg" is the Ne-octet evaluated message, computed as
      SerializeElement(evaluate_element).

   *  "evaluate_proof" is the (Ns+Ns)-octet serialized proof, which is a
      pair of Scalar values, computed as
      concat(SerializeScalar(proof[0]), SerializeScalar(proof[1])).

   The Issuer generates an HTTP response with status code 200 whose
   content consists of TokenResponse, with the content type set as
   "application/private-token-response".

   HTTP/1.1 200 OK
   Content-Type: application/private-token-response
   Content-Length: <Length of TokenResponse>

   <Bytes containing the TokenResponse>

5.3.  Finalization

   Upon receipt, the Client handles the response and, if successful,
   deserializes the content values TokenResponse.evaluate_msg and
   TokenResponse.evaluate_proof, yielding evaluated_element and proof.
   If deserialization of either value fails, the Client aborts the
   protocol.  Otherwise, the Client processes the response as follows:

   authenticator = client_context.Finalize(token_input, blind,
                                           evaluated_element,
                                           blinded_element,
                                           proof)

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   The Finalize function is defined in [OPRF], Section 3.3.2.  If this
   succeeds, the Client then constructs a Token as follows:

   struct {
     uint16_t token_type = 0x0001; /* Type VOPRF(P-384, SHA-384) */
     uint8_t nonce[32];
     uint8_t challenge_digest[32];
     uint8_t token_key_id[32];
     uint8_t authenticator[Nk];
   } Token;

   The Token.nonce value is that which was created in Section 5.1.  If
   the Finalize function fails, the Client aborts the protocol.

5.4.  Token Verification

   Verifying a Token requires creating a VOPRF context using the Issuer
   Private Key and Public Key, evaluating the token contents, and
   comparing the result against the token authenticator value:

   server_context = SetupVOPRFServer("P384-SHA384", skI)
   token_authenticator_input =
     concat(Token.token_type,
            Token.nonce,
            Token.challenge_digest,
            Token.token_key_id)
   token_authenticator =
     server_context.Evaluate(token_authenticator_input)
   valid = (token_authenticator == Token.authenticator)

5.5.  Issuer Configuration

   Issuers are configured with Issuer Private and Public Keys, each
   denoted skI and pkI, respectively, used to produce tokens.  These
   keys MUST NOT be reused in other protocols.  A RECOMMENDED method for
   generating keys is as follows:

   seed = random(Ns)
   (skI, pkI) = DeriveKeyPair(seed, "PrivacyPass")

   The DeriveKeyPair function is defined in [OPRF], Section 3.3.1.  The
   key identifier for a public key pkI, denoted token_key_id, is
   computed as follows:

   token_key_id = SHA256(SerializeElement(pkI))

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   Since Clients truncate token_key_id in each TokenRequest, Issuers
   SHOULD ensure that the truncated form of new key IDs do not collide
   with other truncated key IDs in rotation.  Collisions can cause the
   Issuer to use the wrong Issuer Private Key for issuance, which will
   in turn cause the resulting tokens to be invalid.  There is no known
   security consequence of using the the wrong Issuer Private Key. A
   possible exception to this constraint would be a colliding key that
   is still in use but in the process of being rotated out, in which
   case the collision cannot reasonably be avoided but it is expected to
   be transient.

6.  Issuance Protocol for Publicly Verifiable Tokens

   This section describes a variant of the issuance protocol in
   Section 5 for producing publicly verifiable tokens using the protocol
   in [BLINDRSA].  In particular, this variant of the issuance protocol
   works for the RSABSSA-SHA384-PSS-Deterministic and RSABSSA-SHA384-
   PSSZERO-Deterministic blind RSA protocol variants described in
   Section 5 of [BLINDRSA].

   The publicly verifiable issuance protocol differs from the protocol
   in Section 5 in that the output tokens are publicly verifiable by
   anyone with the Issuer Public Key. This means any Origin can select a
   given Issuer to produce tokens, as long as the Origin has the Issuer
   public key, without explicit coordination or permission from the
   Issuer.  This is because the Issuer does not learn the Origin that
   requested the token during the issuance protocol.

   Beyond this difference, the publicly verifiable issuance protocol
   variant is nearly identical to the privately verifiable issuance
   protocol variant.  In particular, Issuers provide an Issuer Private
   and Public Key, denoted skI and pkI, respectively, used to produce
   tokens as input to the protocol.  See Section 6.5 for how these keys
   are generated.

   Clients provide the following as input to the issuance protocol:

   *  Issuer Request URL: A URL identifying the location to which
      issuance requests are sent.  This can be a URL derived from the
      "issuer-request-uri" value in the Issuer's directory resource, or
      it can be another Client-configured URL.  The value of this
      parameter depends on the Client configuration and deployment
      model.  For example, in the 'Split Origin, Attester, Issuer'
      deployment model, the Issuer Request URL might correspond to the
      Client's configured Attester, and the Attester is configured to
      relay requests to the Issuer.

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   *  Issuer name: An identifier for the Issuer.  This is typically a
      host name that can be used to construct HTTP requests to the
      Issuer.

   *  Issuer Public Key: pkI, with a key identifier token_key_id
      computed as described in Section 6.5.

   *  Challenge value: challenge, an opaque byte string.  For example,
      this might be provided by the redemption protocol in [AUTHSCHEME].

   Given this configuration and these inputs, the two messages exchanged
   in this protocol are described below.  The constant Nk is defined by
   Section 8.2.2.

6.1.  Client-to-Issuer Request

   The Client first creates an issuance request message for a random
   32-byte value nonce using the input challenge and Issuer key
   identifier as follows:

   nonce = random(32)
   challenge_digest = SHA256(challenge)
   token_input = concat(0x0002, // Token type field is 2 bytes long
                        nonce,
                        challenge_digest,
                        token_key_id)
   blinded_msg, blind_inv =
     Blind(pkI, PrepareIdentity(token_input))

   The PrepareIdentity and Blind functions are defined in Section 4.1 of
   [BLINDRSA] and Section 4.2 of [BLINDRSA], respectively.  The Client
   stores the nonce and challenge_digest values locally for use when
   finalizing the issuance protocol to produce a token (as described in
   Section 6.3).

   The Client then creates a TokenRequest structured as follows:

   struct {
     uint16_t token_type = 0x0002; /* Type Blind RSA (2048-bit) */
     uint8_t truncated_token_key_id;
     uint8_t blinded_msg[Nk];
   } TokenRequest;

   The structure fields are defined as follows:

   *  "token_type" is a 2-octet integer, which matches the type in the
      challenge.

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   *  "truncated_token_key_id" is the least significant byte of the
      token_key_id (Section 6.5) in network byte order (in other words,
      the last 8 bits of token_key_id).  This value is truncated so that
      Issuers cannot use token_key_id as a way of uniquely identifying
      Clients; see Section 7 and referenced information for more
      details.

   *  "blinded_msg" is the Nk-octet request defined above.

   The Client then generates an HTTP POST request to send to the Issuer
   Request URL, with the TokenRequest as the content.  The media type
   for this request is "application/private-token-request".  An example
   request for the Issuer Request URL "https://issuer.example.net/
   request" is shown below.

   POST /request HTTP/1.1
   Host: issuer.example.net
   Accept: application/private-token-response
   Content-Type: application/private-token-request
   Content-Length: <Length of TokenRequest>

   <Bytes containing the TokenRequest>

6.2.  Issuer-to-Client Response

   Upon receipt of the request, the Issuer validates the following
   conditions:

   *  The TokenRequest contains a supported token_type.

   *  The TokenRequest.truncated_token_key_id corresponds to the
      truncated key ID of an Issuer Public Key.

   *  The TokenRequest.blinded_msg is of the correct size.

   If any of these conditions is not met, the Issuer MUST return an HTTP
   422 (Unprocessable Content) error to the Client.  Otherwise, if the
   Issuer is willing to produce a token to the Client, the Issuer
   completes the issuance flow by computing a blinded response as
   follows:

   blind_sig = BlindSign(skI, TokenRequest.blinded_msg)

   The BlindSign function is defined in Section 4.3 of [BLINDRSA].  The
   result is encoded and transmitted to the client in the following
   TokenResponse structure:

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   struct {
     uint8_t blind_sig[Nk];
   } TokenResponse;

   The Issuer generates an HTTP response with status code 200 whose
   content consists of TokenResponse, with the content type set as
   "application/private-token-response".

   HTTP/1.1 200 OK
   Content-Type: application/private-token-response
   Content-Length: <Length of TokenResponse>

   <Bytes containing the TokenResponse>

6.3.  Finalization

   Upon receipt, the Client handles the response and, if successful,
   processes the content as follows:

   authenticator =
     Finalize(pkI, nonce, blind_sig, blind_inv)

   The Finalize function is defined in Section 4.4 of [BLINDRSA].  If
   this succeeds, the Client then constructs a Token as described in
   [AUTHSCHEME] as follows:

   struct {
     uint16_t token_type = 0x0002; /* Type Blind RSA (2048-bit) */
     uint8_t nonce[32];
     uint8_t challenge_digest[32];
     uint8_t token_key_id[32];
     uint8_t authenticator[Nk];
   } Token;

   The Token.nonce value is that which was sampled in Section 5.1.  If
   the Finalize function fails, the Client aborts the protocol.

6.4.  Token Verification

   Verifying a Token requires checking that Token.authenticator is a
   valid signature over the remainder of the token input using the
   Issuer Public Key. The function RSASSA-PSS-VERIFY is defined in
   Section 8.1.2 of [RFC8017], using SHA-384 as the Hash function, MGF1
   with SHA-384 as the PSS mask generation function (MGF), and a 48-byte
   salt length (sLen).

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   token_authenticator_input =
     concat(Token.token_type,
            Token.nonce,
            Token.challenge_digest,
            Token.token_key_id)
   valid = RSASSA-PSS-VERIFY(pkI,
                             token_authenticator_input,
                             Token.authenticator)

6.5.  Issuer Configuration

   Issuers are configured with Issuer Private and Public Keys, each
   denoted skI and pkI, respectively, used to produce tokens.  Each key
   SHALL be generated securely, for example as specified in FIPS 186-5
   [DSS].  These keys MUST NOT be reused in other protocols.

   The key identifier for an Issuer Private and Public Key (skI, pkI),
   denoted token_key_id, is computed as SHA256(encoded_key), where
   encoded_key is a DER-encoded SubjectPublicKeyInfo [RFC5280] (SPKI)
   object carrying pkI as a DER-encoded RSAPublicKey value [RFC5756] in
   the subjectPublicKey field.  Additionally, the SPKI object MUST use
   the id-RSASSA-PSS object identifier in the algorithm field within the
   SPKI object, the parameters field MUST contain a RSASSA-PSS-params
   value, and MUST include the hashAlgorithm, maskGenAlgorithm, and
   saltLength values.  The saltLength MUST match the output size of the
   hash function associated with the public key and token type.

   An example sequence of the SPKI object (in ASN.1 format, with the
   actual public key bytes truncated) for a 2048-bit key is below:

   $ cat spki.bin | xxd -r -p | openssl asn1parse -dump -inform DER
       0:d=0  hl=4 l= 338 cons: SEQUENCE
       4:d=1  hl=2 l=  61 cons: SEQUENCE
       6:d=2  hl=2 l=   9 prim: OBJECT            :rsassaPss
      17:d=2  hl=2 l=  48 cons: SEQUENCE
      19:d=3  hl=2 l=  13 cons: cont [ 0 ]
      21:d=4  hl=2 l=  11 cons: SEQUENCE
      23:d=5  hl=2 l=   9 prim: OBJECT            :sha384
      34:d=3  hl=2 l=  26 cons: cont [ 1 ]
      36:d=4  hl=2 l=  24 cons: SEQUENCE
      38:d=5  hl=2 l=   9 prim: OBJECT            :mgf1
      49:d=5  hl=2 l=  11 cons: SEQUENCE
      51:d=6  hl=2 l=   9 prim: OBJECT            :sha384
      62:d=3  hl=2 l=   3 cons: cont [ 2 ]
      64:d=4  hl=2 l=   1 prim: INTEGER           :30
      67:d=1  hl=4 l= 271 prim: BIT STRING
      ... truncated public key bytes ...

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   Since Clients truncate token_key_id in each TokenRequest, Issuers
   SHOULD ensure that the truncated form of new key IDs do not collide
   with other truncated key IDs in rotation.  Collisions can cause the
   Issuer to use the wrong Issuer Private Key for issuance, which will
   in turn cause the resulting tokens to be invalid.  There is no known
   security consequence of using the the wrong Issuer Private Key. A
   possible exception to this constraint would be a colliding key that
   is still in use but in the process of being rotated out, in which
   case the collision cannot reasonably be avoided but it is expected to
   be transient.

7.  Security considerations

   This document outlines how to instantiate the Issuance protocol based
   on the VOPRF defined in [OPRF] and blind RSA protocol defined in
   [BLINDRSA].  All security considerations described in the VOPRF and
   blind RSA documents also apply in the Privacy Pass use-case.
   Considerations related to broader privacy and security concerns in a
   multi-Client and multi-Issuer setting are deferred to the
   architecture document [ARCHITECTURE].  In particular, Section 4 and
   Section 5 of [ARCHITECTURE] discuss relevant privacy considerations
   influenced by the Privacy Pass deployment model, and Section 6 of
   [ARCHITECTURE] discusses privacy considerations that apply regardless
   of deployment model.  Notable considerations include those pertaining
   to Issuer Public Key rotation and consistency, where consistency is
   as described in [CONSISTENCY], and Issuer selection.

8.  IANA considerations

   This section contains considerations for IANA.

8.1.  Well-Known 'private-token-issuer-directory' URI

   This document updates the "Well-Known URIs" Registry [WellKnownURIs]
   with the following values.

   +===============+============+===========+===========+=============+
   | URI Suffix    | Change     | Reference | Status    | Related     |
   |               | Controller |           |           | information |
   +===============+============+===========+===========+=============+
   | private-      | IETF       | [this     | permanent | None        |
   | token-issuer- |            | document] |           |             |
   | directory     |            |           |           |             |
   +---------------+------------+-----------+-----------+-------------+

         Table 3: 'private-token-issuer-directory' Well-Known URI

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8.2.  Token Type Registry Updates

   This document updates the "Privacy Pass Token Type" Registry with the
   following entries.

8.2.1.  Token Type VOPRF (P-384, SHA-384)

   *  Value: 0x0001

   *  Name: VOPRF (P-384, SHA-384)

   *  Token Structure: As defined in Section 2.2 of [AUTHSCHEME]

   *  Token Key Encoding: Serialized using SerializeElement from
      Section 2.1 of [OPRF]

   *  TokenChallenge Structure: As defined in Section 2.1 of
      [AUTHSCHEME]

   *  Public Verifiability: N

   *  Public Metadata: N

   *  Private Metadata: N

   *  Nk: 48

   *  Nid: 32

   *  Reference: Section 5

   *  Notes: None

8.2.2.  Token Type Blind RSA (2048-bit)

   *  Value: 0x0002

   *  Name: Blind RSA (2048-bit)

   *  Token Structure: As defined in Section 2.2 of [AUTHSCHEME]

   *  Token Key Encoding: Serialized as a DER-encoded
      SubjectPublicKeyInfo (SPKI) object using the RSASSA-PSS OID
      [RFC5756]

   *  TokenChallenge Structure: As defined in Section 2.1 of
      [AUTHSCHEME]

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   *  Public Verifiability: Y

   *  Public Metadata: N

   *  Private Metadata: N

   *  Nk: 256

   *  Nid: 32

   *  Reference: Section 6

   *  Notes: The RSABSSA-SHA384-PSS-Deterministic and RSABSSA-SHA384-
      PSSZERO-Deterministic variants are supported

8.3.  Media Types

   The following entries should be added to the IANA "media types"
   registry:

   *  "application/private-token-issuer-directory"

   *  "application/private-token-request"

   *  "application/private-token-response"

   The templates for these entries are listed below and the reference
   should be this RFC.

8.3.1.  "application/private-token-issuer-directory" media type

   Type name:  application
   Subtype name:  private-token-issuer-directory
   Required parameters:  N/A
   Optional parameters:  N/A
   Encoding considerations:  "binary"
   Security considerations:  see Section 4
   Interoperability considerations:  N/A
   Published specification:  this specification
   Applications that use this media type:  Services that implement the
      Privacy Pass issuer role, and client applications that interact
      with the issuer for the purposes of issuing or redeeming tokens.
   Fragment identifier considerations:  N/A
   Additional information:  Magic number(s):  N/A
                            Deprecated alias names for this type:  N/A
                            File extension(s):  N/A
                            Macintosh file type code(s):  N/A
   Person and email address to contact for further information:  see Aut

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      hors' Addresses section
   Intended usage:  COMMON
   Restrictions on usage:  N/A
   Author:  see Authors' Addresses section
   Change controller:  IETF

8.3.2.  "application/private-token-request" media type

   Type name:  application
   Subtype name:  private-token-request
   Required parameters:  N/A
   Optional parameters:  N/A
   Encoding considerations:  "binary"
   Security considerations:  see Section 7
   Interoperability considerations:  N/A
   Published specification:  this specification
   Applications that use this media type:  Applications that want to
      issue or facilitate issuance of Privacy Pass tokens, including
      Privacy Pass issuer applications themselves.
   Fragment identifier considerations:  N/A
   Additional information:  Magic number(s):  N/A
                            Deprecated alias names for this type:  N/A
                            File extension(s):  N/A
                            Macintosh file type code(s):  N/A
   Person and email address to contact for further information:  see Aut
      hors' Addresses section
   Intended usage:  COMMON
   Restrictions on usage:  N/A
   Author:  see Authors' Addresses section
   Change controller:  IETF

8.3.3.  "application/private-token-response" media type

   Type name:  application
   Subtype name:  private-token-response
   Required parameters:  N/A
   Optional parameters:  N/A
   Encoding considerations:  "binary"
   Security considerations:  see Section 7
   Interoperability considerations:  N/A
   Published specification:  this specification
   Applications that use this media type:  Applications that want to
      issue or facilitate issuance of Privacy Pass tokens, including
      Privacy Pass issuer applications themselves.
   Fragment identifier considerations:  N/A
   Additional information:  Magic number(s):  N/A
                            Deprecated alias names for this type:  N/A
                            File extension(s):  N/A

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                            Macintosh file type code(s):  N/A
   Person and email address to contact for further information:  see Aut
      hors' Addresses section
   Intended usage:  COMMON
   Restrictions on usage:  N/A
   Author:  see Authors' Addresses section
   Change controller:  IETF

9.  References

9.1.  Normative References

   [ARCHITECTURE]
              Davidson, A., Iyengar, J., and C. A. Wood, "The Privacy
              Pass Architecture", Work in Progress, Internet-Draft,
              draft-ietf-privacypass-architecture-16, 25 September 2023,
              <https://datatracker.ietf.org/doc/html/draft-ietf-
              privacypass-architecture-16>.

   [AUTHSCHEME]
              Pauly, T., Valdez, S., and C. A. Wood, "The Privacy Pass
              HTTP Authentication Scheme", Work in Progress, Internet-
              Draft, draft-ietf-privacypass-auth-scheme-14, 25 September
              2023, <https://datatracker.ietf.org/doc/html/draft-ietf-
              privacypass-auth-scheme-14>.

   [BLINDRSA] Denis, F., Jacobs, F., and C. A. Wood, "RSA Blind
              Signatures", Work in Progress, Internet-Draft, draft-irtf-
              cfrg-rsa-blind-signatures-14, 10 July 2023,
              <https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-
              rsa-blind-signatures-14>.

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

   [OPRF]     Davidson, A., Faz-Hernandez, A., Sullivan, N., and C. A.
              Wood, "Oblivious Pseudorandom Functions (OPRFs) using
              Prime-Order Groups", Work in Progress, Internet-Draft,
              draft-irtf-cfrg-voprf-21, 21 February 2023,
              <https://datatracker.ietf.org/doc/html/draft-irtf-cfrg-
              voprf-21>.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119,
              DOI 10.17487/RFC2119, March 1997,
              <https://www.rfc-editor.org/rfc/rfc2119>.

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

   [RFC5756]  Turner, S., Brown, D., Yiu, K., Housley, R., and T. Polk,
              "Updates for RSAES-OAEP and RSASSA-PSS Algorithm
              Parameters", RFC 5756, DOI 10.17487/RFC5756, January 2010,
              <https://www.rfc-editor.org/rfc/rfc5756>.

   [RFC5861]  Nottingham, M., "HTTP Cache-Control Extensions for Stale
              Content", RFC 5861, DOI 10.17487/RFC5861, May 2010,
              <https://www.rfc-editor.org/rfc/rfc5861>.

   [RFC8017]  Moriarty, K., Ed., Kaliski, B., Jonsson, J., and A. Rusch,
              "PKCS #1: RSA Cryptography Specifications Version 2.2",
              RFC 8017, DOI 10.17487/RFC8017, November 2016,
              <https://www.rfc-editor.org/rfc/rfc8017>.

   [RFC8174]  Leiba, B., "Ambiguity of Uppercase vs Lowercase in RFC
              2119 Key Words", BCP 14, RFC 8174, DOI 10.17487/RFC8174,
              May 2017, <https://www.rfc-editor.org/rfc/rfc8174>.

   [RFC8259]  Bray, T., Ed., "The JavaScript Object Notation (JSON) Data
              Interchange Format", STD 90, RFC 8259,
              DOI 10.17487/RFC8259, December 2017,
              <https://www.rfc-editor.org/rfc/rfc8259>.

   [RFC9111]  Fielding, R., Ed., Nottingham, M., Ed., and J. Reschke,
              Ed., "HTTP Caching", STD 98, RFC 9111,
              DOI 10.17487/RFC9111, June 2022,
              <https://www.rfc-editor.org/rfc/rfc9111>.

   [TIMESTAMP]
              Mizrahi, T., Fabini, J., and A. Morton, "Guidelines for
              Defining Packet Timestamps", RFC 8877,
              DOI 10.17487/RFC8877, September 2020,
              <https://www.rfc-editor.org/rfc/rfc8877>.

   [TLS13]    Rescorla, E., "The Transport Layer Security (TLS) Protocol
              Version 1.3", RFC 8446, DOI 10.17487/RFC8446, August 2018,
              <https://www.rfc-editor.org/rfc/rfc8446>.

   [WellKnownURIs]
              "Well-Known URIs", n.d.,
              <https://www.iana.org/assignments/well-known-uris/well-
              known-uris.xhtml>.

9.2.  Informative References

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   [CONSISTENCY]
              Davidson, A., Finkel, M., Thomson, M., and C. A. Wood,
              "Key Consistency and Discovery", Work in Progress,
              Internet-Draft, draft-ietf-privacypass-key-consistency-01,
              10 July 2023, <https://datatracker.ietf.org/doc/html/
              draft-ietf-privacypass-key-consistency-01>.

   [DSS]      Moody, D. and National Institute of Standards and
              Technology, "Digital Signature Standard (DSS)",
              DOI 10.6028/nist.fips.186-5, 2023,
              <https://doi.org/10.6028/nist.fips.186-5>.

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

Appendix A.  Acknowledgements

   The authors of this document would like to acknowledge the helpful
   feedback and discussions from Benjamin Schwartz, Joseph Salowey, and
   Tara Whalen.

Appendix B.  Test Vectors

   This section includes test vectors for the two basic issuance
   protocols specified in this document.  Appendix B.1 contains test
   vectors for token issuance protocol 1 (0x0001), and Appendix B.2
   contains test vectors for token issuance protocol 2 (0x0002).

B.1.  Issuance Protocol 1 - VOPRF(P-384, SHA-384)

   The test vector below lists the following values:

   *  skS: The Issuer Private Key, serialized using SerializeScalar from
      Section 2.1 of [OPRF] and represented as a hexadecimal string.

   *  pkS: The Issuer Public Key, serialized according to the encoding
      in Section 8.2.1.

   *  token_challenge: A randomly generated TokenChallenge structure,
      represented as a hexadecimal string.

   *  nonce: The 32-byte client nonce generated according to
      Section 5.1, represented as a hexadecimal string.

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   *  blind: The blind used when computing the OPRF blinded message,
      serialized using SerializeScalar from Section 2.1 of [OPRF] and
      represented as a hexadecimal string.

   *  token_request: The TokenRequest message constructed according to
      Section 5.1, represented as a hexadecimal string.

   *  token_response: The TokenResponse message constructed according to
      Section 5.2, represented as a hexadecimal string.

   *  token: The output Token from the protocol, represented as a
      hexadecimal string.

   // Test vector 1
   skS: 39b0d04d3732459288fc5edb89bb02c2aa42e06709f201d6c518871d5181
   14910bee3c919bed1bbffe3fc1b87d53240a
   pkS: 02d45bf522425cdd2227d3f27d245d9d563008829252172d34e48469290c
   21da1a46d42ca38f7beabdf05c074aee1455bf
   token_challenge: 0001000e6973737565722e6578616d706c65205de58a52fc
   daef25ca3f65448d04e040fb1924e8264acfccfc6c5ad451d582b3000e6f72696
   7696e2e6578616d706c65
   nonce:
   6aa422c41b59d3e44a136dd439df2454e3587ee5f3697798cdc05fafe73073b8
   blind: 8e7fd80970b8a00b0931b801a2e22d9903d83bd5597c6a4dc1496ed2b1
   7ef820445ef3bd223f3ab2c4f54c5d1c956909
   token_request: 0001f4030ab3e23181d1e213f24315f5775983c678ce22eff9
   427610832ab3900f2cd12d6829a07ec8a6813cf0b5b886f4cc4979
   token_response: 036bb3c5c397d88c3527cf9f08f1fe63687b867e85c930c49
   ee2c222408d4903722a19ff272ac97e3725b947c972784ebfe86eb9ea54336e43
   34ea9660212c0c85fbadfbf491a1ce2446fc3379337fccd45c1059b2bc760110e
   e1ec227d8e01c9f482c00c47ffa0dbe2fb58c32dde2b1dbe69fff920a528e68dd
   9b3c2483848e57c30542b8984fa6bfecd6d71d54d53eda
   token: 00016aa422c41b59d3e44a136dd439df2454e3587ee5f3697798cdc05f
   afe73073b8501370b494089dc462802af545e63809581ee6ef57890a12105c283
   68169514bf260d0792bf7f46c9866a6d37c3032d8714415f87f5f6903d7fb071e
   253be2f4e0a835d76528b8444f73789ee7dc90715b01c17902fd87375c00a7a9d
   3d92540437f470773be20f71e721da3af40edeb

   // Test vector 2
   skS: 39efed331527cc4ddff9722ab5cd35aeafe7c27520b0cfa2eedbdc298dc3
   b12bc8298afcc46558af1e2eeacc5307d865
   pkS: 038017e005904c6146b37109d6c2a72b95a183aaa9ed951b8d8fb1ed9033
   f68033284d175e7df89849475cd67a86bfbf4e
   token_challenge: 0001000e6973737565722e6578616d706c6500000e6f7269
   67696e2e6578616d706c65
   nonce:
   7617bc802cfdb5d74722ef7418bdbb4f2c88403820e55fe7ec07d3190c29d665
   blind: 6492ee50072fa18d035d69c4246362dffe2621afb95a10c033bb0109e0

Celi, et al.              Expires 5 April 2024                 [Page 25]
Internet-Draft            Privacy Pass Issuance             October 2023

   f705b0437c425553272e0aa5266ec379e7015e
   token_request: 000133033a5fe04a39da1bbfb68ccdeecd1917474dd525462e
   5a90a6ba53b42aaa1486fe443a2e1c7f3fd5ff028a1c7cf1aeac5d
   token_response: 023bf8cd624880d669c5cc6c88b056355c6e8e1bcbf3746cf
   b9ab9248a4c056f23a4876ef998a8b6b281d50f852c6fa868fc4fa135c79ccb5f
   bdf8bf3c926e10c7c12f934a887d86da4a4e5be70f5a169aa75720887bb690536
   92a8f11f9cda7a72f281e4e3568e848225367946c70db09e718e3cba16193987b
   c10bede3ef54c4d036c17cd4015bb113be60d7aa927e0d
   token: 00017617bc802cfdb5d74722ef7418bdbb4f2c88403820e55fe7ec07d3
   190c29d665c994f7d5cdc2fb970b13d4e8eb6e6d8f9dcdaa65851fb091025dfe1
   34bd5a62a116477bc9e1a205cca95d0c92335ca7a3e71063b2ac020bdd231c660
   97f12333ef438d00801bca5ace0fab8eb483dc04cd62578b95b5652921cd2698c
   45ea74f6c8827b4e19f01140fa5bd039866f562

   // Test vector 3
   skS: 2b7709595b62b784f14946ae828f65e6caeba6eefe732c86e9ae50e818c0
   55b3d7ca3a5f2beecaa859a62ff7199d35cc
   pkS: 03a0de1bf3fd0a73384283b648884ba9fa5dee190f9d7ad4292c2fd49d8b
   4d64db674059df67f5bd7e626475c78934ae8d
   token_challenge: 0001000e6973737565722e6578616d706c65000017666f6f
   2e6578616d706c652c6261722e6578616d706c65
   nonce:
   87499b5930918d2d83ecebf92d25ca0722aa11b80dbbfd950537c28aa7d3a9df
   blind: 1f659584626ba15f44f3d887b2e5fe4c27315b185dfbfaea4253ebba30
   610c4d9b73c78714c142360e85a00942c0fcff
   token_request: 0001c8024610a9f3aac21090f3079d6809437a2b94b4403c7e
   645f849bc6c505dade154c258c8ecd4d2bdcf574daca65db671908
   token_response: 03c2ab925d03e7793b4a4df6eb505210139f620359e142449
   1b8143c06a3e5298b25b662c33256411be7277233e1a34570f7a4d142d931e4b5
   ff8829e27aaf7eb2cc7f9ab655477d71c01d5da5aef44dd076b5820b4710ef025
   a9e6c6b50a95af6105c5987c1b834d615008cf6370556ed00c6671e69776c09a9
   2b5ac84804750dd867c78817bdf69f1443002b18ae7a52
   token: 000187499b5930918d2d83ecebf92d25ca0722aa11b80dbbfd950537c2
   8aa7d3a9df1949fd455872478ba87e2e6c513c3261cddbe57220581245e4c9c91
   1dd1c0bb865785bff8f3cfe08cccbb3a7b8e41d23a172871be4828cc54582d87b
   c7cfc5c8bcedc1868ebc845b000c317ed75312274a42b10be6db23bd8a168fd2f
   021c23925d72c4d14cd7588c03845da0d41a326

   // Test vector 4
   skS: 22e237b7b983d77474e4495aff2fc1e10422b1d955192e0fbf2b7b618fba
   625fcb94b599da9113da49c495a48fbf7f7f
   pkS: 028cd68715caa20d19b2b20d017d6a0a42b9f2b0a47db65e5e763e23744f
   e14d74e374bbc93a2ec3970eb53c8aa765ee21
   token_challenge: 0001000e6973737565722e6578616d706c65000000
   nonce:
   02f0a206752d555a24924f2da5942a1bb4cb2d83ff473aa8b2bc3a89e820cd43
   blind: af91d1dbcf6b46baecde70eb305b8fe75629199cca19c7f9344b8607b9
   0def27bc53e0345ade32c9fd0a1efda056d1c0

Celi, et al.              Expires 5 April 2024                 [Page 26]
Internet-Draft            Privacy Pass Issuance             October 2023

   token_request: 0001a503632ebb003ed15b6de4557c047c7f81a58688143331
   2ad3ad7f9416f2dfc940d3f439ad1e8cd677d94ae7c05bc958d134
   token_response: 032018bc3f180d9650e27f72de76a90b47e336ae9cb058548
   d851c7046fa0875d96346c15cb39d8083cc6fb57216544c6a815c37d792769e12
   9c0513ce2034c3286cb212548f4aed1b0f71b28e219a71874a93e53ab2f473282
   71d1e9cbefc197a4f599a6825051fa1c6e55450042f04182b86c9cf12477a9f16
   849396c051fa27012e81a86e6c4a9204a063f1e1722dd7
   token: 000102f0a206752d555a24924f2da5942a1bb4cb2d83ff473aa8b2bc3a
   89e820cd43085cb06952044c7655b412ab7d484c97b97c48c79c568140b8d49a0
   2ca47a9cfb0a5cfb861290c4dbd8fd9b60ee9b1a1a54cf47c98531fe253f1ed6d
   875de5a58f42db12b540b0d11bc5d6b42e6d17c2b73e98631e54d40fd2901ebec
   4268668535b03cbf76f7f15a29d623a64cab0c4

   // Test vector 5
   skS: 46f3d4f562002b85ffcfdb4d06835fb9b2e24372861ecaa11357fd1f29f9
   ed26e44715549ccedeb39257f095110f0159
   pkS: 02fbe9da0b7cabe3ec51c36c8487b10909142b59af030c728a5e87bb3b30
   f54c06415d22e03d9212bd3d9a17d5520d4d0f
   token_challenge: 0001000e6973737565722e6578616d706c65205de58a52fc
   daef25ca3f65448d04e040fb1924e8264acfccfc6c5ad451d582b30000
   nonce:
   9ee54942d8a1604452a76856b1bfaf1cd608e1e3fa38acfd9f13e84483c90e89
   blind: 76e0938e824b6cda6c163ff55d0298d539e222ed3984f4e31bbb654a8c
   59671d4e0a7e264ca758cd0f4b533e0f60c5aa
   token_request: 0001e10202bc92ac516c867f39399d71976018db52fcab5403
   f8534a65677ba9e1e7d9b1d01767d137884c86cf5fe698c2f5d8e9
   token_response: 0322ea3856a71533796393229b33d33c02cd714e40d5aa4e0
   71f056276f32f89c09947eca8ff119d940d9d57c2fcbd83d2da494ddeb37dc1f6
   78e5661a8e7bcc96b3477eb89d708b0ce10e0ea1b5ce0001f9332f743c0cc3d47
   48233fea6d3152fae7844821268eb96ba491f60b1a3a848849310a39e9ef59121
   669aa5d5dbb4b4deb532d2f907a01c5b39efaf23985080
   token: 00019ee54942d8a1604452a76856b1bfaf1cd608e1e3fa38acfd9f13e8
   4483c90e89d4380df12a1727f4e2ca1ee0d7abea0d0fb1e9506507a4dd618f9b8
   7e79f9f3521a7c9134d6722925bf622a994041cdb1b082cdf1309af32f0ce00ca
   1dab63e1b603747a8a5c3b46c7c2853de5ec7af8cac7cf3e089cecdc9ed3ff05c
   d24504fe4f6c52d24ac901471267d8b63b61e6b

B.2.  Issuance Protocol 2 - Blind RSA, 2048

   The test vector below lists the following values:

   *  skS: The PEM-encoded PKCS#8 RSA Issuer Private Key used for
      signing tokens, represented as a hexadecimal string.

   *  pkS: The Issuer Public Key, serialized according to the encoding
      in Section 8.2.2.

Celi, et al.              Expires 5 April 2024                 [Page 27]
Internet-Draft            Privacy Pass Issuance             October 2023

   *  token_challenge: A randomly generated TokenChallenge structure,
      represented as a hexadecimal string.

   *  nonce: The 32-byte client nonce generated according to
      Section 6.1, represented as a hexadecimal string.

   *  blind: The blind used when computing the blind RSA blinded
      message, represented as a hexadecimal string.

   *  salt: The randomly generated 48-byte salt used when encoding the
      blinded token request message, represented as a hexadecimal
      string.

   *  token_request: The TokenRequest message constructed according to
      Section 6.1, represented as a hexadecimal string.

   *  token_request: The TokenResponse message constructed according to
      Section 6.2, represented as a hexadecimal string.

   *  token: The output Token from the protocol, represented as a
      hexadecimal string.

   // Test vector 1
   skS: 2d2d2d2d2d424547494e2050524956415445204b45592d2d2d2d2d0a4d49
   4945765149424144414e42676b71686b6947397730424151454641415343424b6
   3776767536a41674541416f49424151444c4775317261705831736334420a4f6b
   7a38717957355379356b6f6a41303543554b66717444774e38366a424b5a4f764
   57245526b49314c527876734d6453327961326333616b4745714c756b440a556a
   35743561496b3172417643655844644e44503442325055707851436e6969396e6
   b492b6d67725769744444494871386139793137586e6c5079596f784f530a646f
   6558563835464f314a752b62397336356d586d34516a755139455961497138337
   1724450567a50335758712b524e4d636379323269686763624c766d42390a6a41
   355334475666325a6c74785954736f4c364872377a58696a4e394637486271656
   76f753967654b524d584645352f2b4a3956595a634a734a624c756570480a544f
   72535a4d4948502b5358514d4166414f454a4547426d6d4430683566672f43473
   475676a79486e4e51383733414e4b6a55716d3676574574413872514c620a4530
   742b496c706641674d4241414543676745414c7a4362647a69316a506435384d6
   b562b434c6679665351322b7266486e7266724665502f566344787275690a3270
   316153584a596962653645532b4d622f4d4655646c485067414c7731785134576
   57266366336444373686c6c784c57535638477342737663386f364750320a6359
   366f777042447763626168474b556b5030456b62395330584c4a5763475347356
   1556e484a585237696e7834635a6c666f4c6e7245516536685578734d710a6230
   644878644844424d644766565777674b6f6a4f6a70532f39386d4555793756422
   f3661326c7265676c766a632f326e4b434b7459373744376454716c47460a787a
   414261577538364d435a342f5131334c762b426566627174493973715a5a776a7
   264556851483856437872793251564d515751696e57684174364d7154340a5342
   5354726f6c5a7a7772716a65384d504a393175614e4d6458474c63484c4932367
   3587a76374b53514b42675144766377735055557641395a325a583958350a6d49

Celi, et al.              Expires 5 April 2024                 [Page 28]
Internet-Draft            Privacy Pass Issuance             October 2023

   784d54424e6445467a56625550754b4b413179576e31554d444e63556a71682b7
   a652f376b337946786b68305146333162713630654c393047495369414f0a354b
   4f574d39454b6f2b7841513262614b314d664f5931472b386a7a4258557042733
   9346b353353383879586d4b366e796467763730424a385a6835666b55710a5732
   306f5362686b686a5264537a48326b52476972672b5553774b426751445a4a4d6
   e7279324578612f3345713750626f737841504d69596e6b354a415053470a7932
   7a305a375455622b7548514f2f2b78504d376e433075794c494d44396c61544d4
   8776e3673372f4c62476f455031575267706f59482f4231346b2f526e360a6675
   77524e3632496f397463392b41434c745542377674476179332b6752775974534
   33262356564386c4969656774546b6561306830754453527841745673330a6e35
   6b796132513976514b4267464a75467a4f5a742b7467596e576e5155456757385
   0304f494a45484d45345554644f637743784b7248527239334a6a7546320a4533
   77644b6f546969375072774f59496f614a5468706a50634a62626462664b792b6
   e735170315947763977644a724d6156774a6376497077563676315570660a5674
   4c61646d316c6b6c7670717336474e4d386a6e4d30587833616a6d6d6e6665573
   9794758453570684d727a4c4a6c394630396349324c416f4742414e58760a7567
   5658727032627354316f6b6436755361427367704a6a5065774e526433635a4b3
   97a306153503144544131504e6b7065517748672f2b36665361564f487a0a7941
   7844733968355272627852614e6673542b7241554837783153594456565159564
   d68555262546f5a6536472f6a716e544333664e6648563178745a666f740a306c
   6f4d4867776570362b53494d436f6565325a6374755a5633326c6349616639726
   2484f633764416f47416551386b3853494c4e4736444f413331544535500a6d30
   31414a49597737416c5233756f2f524e61432b78596450553354736b75414c787
   86944522f57734c455142436a6b46576d6d4a41576e51554474626e594e0a5363
   77523847324a36466e72454374627479733733574156476f6f465a6e636d504c5
   0386c784c79626c534244454c79615a762f624173506c4d4f39624435630a4a2b
   4e534261612b6f694c6c31776d4361354d43666c633d0a2d2d2d2d2d454e44205
   0524956415445204b45592d2d2d2d2d0a
   pkS: 30820152303d06092a864886f70d01010a3030a00d300b06096086480165
   03040202a11a301806092a864886f70d010108300b0609608648016503040202a
   2030201300382010f003082010a0282010100cb1aed6b6a95f5b1ce013a4cfcab
   25b94b2e64a23034e4250a7eab43c0df3a8c12993af12b111908d4b471bec31d4
   b6c9ad9cdda90612a2ee903523e6de5a224d6b02f09e5c374d0cfe01d8f529c50
   0a78a2f67908fa682b5a2b430c81eaf1af72d7b5e794fc98a3139276879757ce4
   53b526ef9bf6ceb99979b8423b90f4461a22af37aab0cf5733f7597abe44d31c7
   32db68a181c6cbbe607d8c0e52e0655fd9996dc584eca0be87afbcd78a337d17b
   1dba9e828bbd81e291317144e7ff89f55619709b096cbb9ea474cead264c2073f
   e49740c01f00e109106066983d21e5f83f086e2e823c879cd43cef700d2a352a9
   babd612d03cad02db134b7e225a5f0203010001
   token_challenge: 0002000e6973737565722e6578616d706c65208e7acc900e
   393381e8810b7c9e4a68b5163f1f880ab6688a6ffe780923609e88000e6f72696
   7696e2e6578616d706c65
   nonce:
   aa72019d1f951df197021ce63876fe8b0a02dc1c31a12b0a2dd1508d07827f05
   blind: 425421de54c7381864ce36473abfb988c454fe6c27de863de702a6a2ad
   ca153fa2de47bd8fcd62734caa8ce1f920b77d980ab58c32d16dde54873f28ca9
   68e8c125b8363514be68972f553655bcc7f80a284cc327e47e804a47333c5b3cd
   f773312cc7ad9fda748aed0baa7e19c5a2d1dafda718f086d7fc0a4bc02d488e0

Celi, et al.              Expires 5 April 2024                 [Page 29]
Internet-Draft            Privacy Pass Issuance             October 2023

   f20812daee335af7177b7a8369bd617066aed7a58f659f295c36b418827f67972
   5b81ca14ea16fb82df21ad76da1ac38dcf24bf6252f8510e2308608ac9197f6cb
   54fdcb19db17837302a2b87d659c5605f35f3709a130f0c3d50e172f0cae36cbc
   9467f9914895a215a9e32443bcafff795273ccf8965a7eaa8c0b2184763e3e5c
   salt: 3d980852fa570c064204feb8d107098db976ef8c2137e8641d234bbd88a
   986fdb306a7af220cfadede08f51e1ef61766
   token_request: 0002086a95be84b63cfed0993bb579194a72a95057e1548ac4
   63a9a5b33b011f2b2011d59487f01862f1d8e4d5ea42e73a660fbc3d010b944a5
   4da3a4e0942f8894c0884589b438cb902e9a34278970f33c16f351f7dae58d273
   c3ab66ef368da36f785e89e24d1d983d5c34311cd21f290f9e89e8646ab0d0a48
   988fcd46230de5e7603cd12cc95c7ec5002e5e26737aa7eb69c626476e6c8d465
   10ee404a3d7daf3a23b7c66735d363ca13676925c6ed0117f60d165ce1f8ba616
   d041b6384baf6da3e2f757cb18e879a4f8595c2dc895ddf1f4279c75768d108b5
   c47f95f94e81e2d8b9c8b74476924ab3b7c45243fc99ac5466e8a3680ad37fa15
   c96010b274094
   token_response: 675d84b751d9e593330ec4b6d7ab69c9a61517e98971f4b73
   6150508174b4335761464f237be2d72bbae4b94dffc6143413f6351f1aa4efde6
   c32d4d6d9392a008290d56d1222f9b77a1336213e01934f7d972f3bf9ea5a5786
   c321352f103b3667e605379a55f0fb925fbb09b8a9f85e7dd4b388a3b49d06fd7
   0ba28f6a780e3bc8f6421554fd6c38b63ef19f84ccfcf14709dd0b4d72213c1f0
   60893854eba0ea1a147e275da320db5e9849882d5f9179efa8a2d8d3b803f9d14
   45ef5c1f660be08883ce9b29a0a992fc035d2938cbb61c440044438dbb8b3ce71
   58a8f9827d230482f622d291406ab236b32b122627ae0fd36bd0d6b7607b8044a
   ce404d44
   token: 0002aa72019d1f951df197021ce63876fe8b0a02dc1c31a12b0a2dd150
   8d07827f055969f643b4cfda5196d4aa86aeb5368834f4f06de46950ed435b3b8
   1bd036d44ca572f8982a9ca248a3056186322d93ca147266121ddeb5632c07f1f
   71cd2708bc6a21b533d07294b5e900faf5537dd3eb33cee4e08c9670d1e5358fd
   184b0e00c637174f5206b14c7bb0e724ebf6b56271e5aa2ed94c051c4a433d302
   b23bc52460810d489fb050f9de5c868c6c1b06e3849fd087629f704cc724bc0d0
   984d5c339686fcdd75f9a9cdd25f37f855f6f4c584d84f716864f546b696d620c
   5bd41a811498de84ff9740ba3003ba2422d26b91eb745c084758974642a420782
   01543246ddb58030ea8e722376aa82484dca9610a8fb7e018e396165462e17a03
   e40ea7e128c090a911ecc708066cb201833010c1ebd4e910fc8e27a1be467f786
   71836a508257123a45e4e0ae2180a434bd1037713466347a8ebe46439d3da1970

   // Test vector 2
   skS: 2d2d2d2d2d424547494e2050524956415445204b45592d2d2d2d2d0a4d49
   4945765149424144414e42676b71686b6947397730424151454641415343424b6
   3776767536a41674541416f49424151444c4775317261705831736334420a4f6b
   7a38717957355379356b6f6a41303543554b66717444774e38366a424b5a4f764
   57245526b49314c527876734d6453327961326333616b4745714c756b440a556a
   35743561496b3172417643655844644e44503442325055707851436e6969396e6
   b492b6d67725769744444494871386139793137586e6c5079596f784f530a646f
   6558563835464f314a752b62397336356d586d34516a755139455961497138337
   1724450567a50335758712b524e4d636379323269686763624c766d42390a6a41
   355334475666325a6c74785954736f4c364872377a58696a4e394637486271656
   76f753967654b524d584645352f2b4a3956595a634a734a624c756570480a544f

Celi, et al.              Expires 5 April 2024                 [Page 30]
Internet-Draft            Privacy Pass Issuance             October 2023

   72535a4d4948502b5358514d4166414f454a4547426d6d4430683566672f43473
   475676a79486e4e51383733414e4b6a55716d3676574574413872514c620a4530
   742b496c706641674d4241414543676745414c7a4362647a69316a506435384d6
   b562b434c6679665351322b7266486e7266724665502f566344787275690a3270
   316153584a596962653645532b4d622f4d4655646c485067414c7731785134576
   57266366336444373686c6c784c57535638477342737663386f364750320a6359
   366f777042447763626168474b556b5030456b62395330584c4a5763475347356
   1556e484a585237696e7834635a6c666f4c6e7245516536685578734d710a6230
   644878644844424d644766565777674b6f6a4f6a70532f39386d4555793756422
   f3661326c7265676c766a632f326e4b434b7459373744376454716c47460a787a
   414261577538364d435a342f5131334c762b426566627174493973715a5a776a7
   264556851483856437872793251564d515751696e57684174364d7154340a5342
   5354726f6c5a7a7772716a65384d504a393175614e4d6458474c63484c4932367
   3587a76374b53514b42675144766377735055557641395a325a583958350a6d49
   784d54424e6445467a56625550754b4b413179576e31554d444e63556a71682b7
   a652f376b337946786b68305146333162713630654c393047495369414f0a354b
   4f574d39454b6f2b7841513262614b314d664f5931472b386a7a4258557042733
   9346b353353383879586d4b366e796467763730424a385a6835666b55710a5732
   306f5362686b686a5264537a48326b52476972672b5553774b426751445a4a4d6
   e7279324578612f3345713750626f737841504d69596e6b354a415053470a7932
   7a305a375455622b7548514f2f2b78504d376e433075794c494d44396c61544d4
   8776e3673372f4c62476f455031575267706f59482f4231346b2f526e360a6675
   77524e3632496f397463392b41434c745542377674476179332b6752775974534
   33262356564386c4969656774546b6561306830754453527841745673330a6e35
   6b796132513976514b4267464a75467a4f5a742b7467596e576e5155456757385
   0304f494a45484d45345554644f637743784b7248527239334a6a7546320a4533
   77644b6f546969375072774f59496f614a5468706a50634a62626462664b792b6
   e735170315947763977644a724d6156774a6376497077563676315570660a5674
   4c61646d316c6b6c7670717336474e4d386a6e4d30587833616a6d6d6e6665573
   9794758453570684d727a4c4a6c394630396349324c416f4742414e58760a7567
   5658727032627354316f6b6436755361427367704a6a5065774e526433635a4b3
   97a306153503144544131504e6b7065517748672f2b36665361564f487a0a7941
   7844733968355272627852614e6673542b7241554837783153594456565159564
   d68555262546f5a6536472f6a716e544333664e6648563178745a666f740a306c
   6f4d4867776570362b53494d436f6565325a6374755a5633326c6349616639726
   2484f633764416f47416551386b3853494c4e4736444f413331544535500a6d30
   31414a49597737416c5233756f2f524e61432b78596450553354736b75414c787
   86944522f57734c455142436a6b46576d6d4a41576e51554474626e594e0a5363
   77523847324a36466e72454374627479733733574156476f6f465a6e636d504c5
   0386c784c79626c534244454c79615a762f624173506c4d4f39624435630a4a2b
   4e534261612b6f694c6c31776d4361354d43666c633d0a2d2d2d2d2d454e44205
   0524956415445204b45592d2d2d2d2d0a
   pkS: 30820152303d06092a864886f70d01010a3030a00d300b06096086480165
   03040202a11a301806092a864886f70d010108300b0609608648016503040202a
   2030201300382010f003082010a0282010100cb1aed6b6a95f5b1ce013a4cfcab
   25b94b2e64a23034e4250a7eab43c0df3a8c12993af12b111908d4b471bec31d4
   b6c9ad9cdda90612a2ee903523e6de5a224d6b02f09e5c374d0cfe01d8f529c50
   0a78a2f67908fa682b5a2b430c81eaf1af72d7b5e794fc98a3139276879757ce4

Celi, et al.              Expires 5 April 2024                 [Page 31]
Internet-Draft            Privacy Pass Issuance             October 2023

   53b526ef9bf6ceb99979b8423b90f4461a22af37aab0cf5733f7597abe44d31c7
   32db68a181c6cbbe607d8c0e52e0655fd9996dc584eca0be87afbcd78a337d17b
   1dba9e828bbd81e291317144e7ff89f55619709b096cbb9ea474cead264c2073f
   e49740c01f00e109106066983d21e5f83f086e2e823c879cd43cef700d2a352a9
   babd612d03cad02db134b7e225a5f0203010001
   token_challenge: 0002000e6973737565722e6578616d706c6500000e6f7269
   67696e2e6578616d706c65
   nonce:
   98c1345ff38a554b429b428b0f206cfe4f3892f8041995f2c24873d90e84488d
   blind: 7bb85f89c9b83a0e2b02938b3396f06f8f3df0018a91f1a2cc5416aaa5
   52994d063f634d50bea13bffe8d5e01431e646e2e384549cefd695ac3affff665
   a1ebf0113df2520006bd66e468d37a58266daa8a3a75692535e1fc46d0c1d6fb6
   f37c949808172e20c0b77a48570a1fcb474325bdd23cdbce52b5d6a9e39f7aec7
   3b09004eae8c8bfff2b4b533ea63bcf467a4cd95ccfb0cb4e43bc4992c1fd0be7
   a77a4475dbf8094cf25125ece901abbcea607a9050ad9f8ec3d0d66341f6eab40
   ee9c9c22c0b560b8377f8543d8878c7458885fd285c7556cc88fc6021617075b4
   2c83a86005169a6f13352e789b28fdbbe3d0288e1dd7c801497573893146aea3
   salt: b6b4378421ab0ea677ce3f4036fd0489dee458ad81ea519c3e8bde3fcd5
   ec1505d28e110d7b44dcac5e04ecedd54d11a
   token_request: 00020892d26a271c0104657ba10c0b5cb2827bb209d86e8002
   7f96bfb861e0f40cb897f0fc426498433141ce9bc8b4a95914fefe4e40bdd3802
   a121cb0b59a4ae7e03255275c4abf071d991c82ead402606c0ef912178b0a0f68
   d303e06a966079230592827b84979dbcb5f21ab8904e9908638ddf705c4f8af8a
   053c19a66090726b60c6b4063976e4c66eab33522dd3f9d64828441db4aa82d55
   adcc3d3920592884cd1e5a3f490d5c81f1306705dcc5c61d82373f1dbd7d2ae4b
   2fea0f7339f5d868415f59312766e3074ee4a7305f5f053da82673ee6747a727a
   26d8d10ea1b1a3491d26b0c38b962c02a774ac78932153aae9dcc98a9b1db1f53
   89644682f7727
   token_response: 113a5124c1aef6fc230d9fc42b789226f45ca941aad4da3f4
   8cf37c7744a8d7fd1dcfd71cd39d09e9324760180ea0bade3360efaf7322a1fa1
   5f41247be3857fde8c5c92ec6d67a7ee33be8fdadf8b27bb0db706117448e55bc
   e9927cb6bfb1f87f9edb054181a4558af0c0d3973d7033b9599e674c20cf08a7b
   bcf0da815a2edaab7c4fb80dee4ea2cc53576a9691e857da931c6c592d2c69dd2
   1afda8ea653dd90157adfe80e2375c08e75beb497df8b7b73192fbbd4e80359d9
   bbaecea14e0acebdda92596f71ec1d57e26b6497b3152976bc07a4409148cb843
   89eb207fb8e841106012408c6e19b4f964008b6a909aaab767a661a061c97da16
   43040455
   token: 000298c1345ff38a554b429b428b0f206cfe4f3892f8041995f2c24873
   d90e84488d11e15c91a7c2ad02abd66645802373db1d823bea80f08d452541fb2
   b62b5898bca572f8982a9ca248a3056186322d93ca147266121ddeb5632c07f1f
   71cd27083350a206c5e9b7c0898f97611ce0bb8d74d310bb194ab67e094e32ff6
   da90886924b1b9e7b569402c1101d896d2fc3a7371ef77f02310db1dc9f81c853
   5828c2d0e9d9051720d182cd54e1c2c3bf417da2fc7aa72bb70ccc834ef274a2e
   809c9821b3d395d6535423f7428b3f29175d6eb840b4b7685336e57e2b6afeaab
   c0c17ea4f557e8a9cc2f624e245c6ccd7cbdd6c32c97c5c6974e802f688e2d25f
   0aba4215f609f692244517d5d3407e0172273982c001c158f5fcbe1b5d2447c26
   a87e89f5a9e72b498b0c59ce749823d2cf253d3cf6cd4e64fa0e434d95e488789
   247a9ceed756ff4ff33a8d2402c0db381236d331092838b608a42002552092897

Celi, et al.              Expires 5 April 2024                 [Page 32]
Internet-Draft            Privacy Pass Issuance             October 2023

   // Test vector 3
   skS: 2d2d2d2d2d424547494e2050524956415445204b45592d2d2d2d2d0a4d49
   4945765149424144414e42676b71686b6947397730424151454641415343424b6
   3776767536a41674541416f49424151444c4775317261705831736334420a4f6b
   7a38717957355379356b6f6a41303543554b66717444774e38366a424b5a4f764
   57245526b49314c527876734d6453327961326333616b4745714c756b440a556a
   35743561496b3172417643655844644e44503442325055707851436e6969396e6
   b492b6d67725769744444494871386139793137586e6c5079596f784f530a646f
   6558563835464f314a752b62397336356d586d34516a755139455961497138337
   1724450567a50335758712b524e4d636379323269686763624c766d42390a6a41
   355334475666325a6c74785954736f4c364872377a58696a4e394637486271656
   76f753967654b524d584645352f2b4a3956595a634a734a624c756570480a544f
   72535a4d4948502b5358514d4166414f454a4547426d6d4430683566672f43473
   475676a79486e4e51383733414e4b6a55716d3676574574413872514c620a4530
   742b496c706641674d4241414543676745414c7a4362647a69316a506435384d6
   b562b434c6679665351322b7266486e7266724665502f566344787275690a3270
   316153584a596962653645532b4d622f4d4655646c485067414c7731785134576
   57266366336444373686c6c784c57535638477342737663386f364750320a6359
   366f777042447763626168474b556b5030456b62395330584c4a5763475347356
   1556e484a585237696e7834635a6c666f4c6e7245516536685578734d710a6230
   644878644844424d644766565777674b6f6a4f6a70532f39386d4555793756422
   f3661326c7265676c766a632f326e4b434b7459373744376454716c47460a787a
   414261577538364d435a342f5131334c762b426566627174493973715a5a776a7
   264556851483856437872793251564d515751696e57684174364d7154340a5342
   5354726f6c5a7a7772716a65384d504a393175614e4d6458474c63484c4932367
   3587a76374b53514b42675144766377735055557641395a325a583958350a6d49
   784d54424e6445467a56625550754b4b413179576e31554d444e63556a71682b7
   a652f376b337946786b68305146333162713630654c393047495369414f0a354b
   4f574d39454b6f2b7841513262614b314d664f5931472b386a7a4258557042733
   9346b353353383879586d4b366e796467763730424a385a6835666b55710a5732
   306f5362686b686a5264537a48326b52476972672b5553774b426751445a4a4d6
   e7279324578612f3345713750626f737841504d69596e6b354a415053470a7932
   7a305a375455622b7548514f2f2b78504d376e433075794c494d44396c61544d4
   8776e3673372f4c62476f455031575267706f59482f4231346b2f526e360a6675
   77524e3632496f397463392b41434c745542377674476179332b6752775974534
   33262356564386c4969656774546b6561306830754453527841745673330a6e35
   6b796132513976514b4267464a75467a4f5a742b7467596e576e5155456757385
   0304f494a45484d45345554644f637743784b7248527239334a6a7546320a4533
   77644b6f546969375072774f59496f614a5468706a50634a62626462664b792b6
   e735170315947763977644a724d6156774a6376497077563676315570660a5674
   4c61646d316c6b6c7670717336474e4d386a6e4d30587833616a6d6d6e6665573
   9794758453570684d727a4c4a6c394630396349324c416f4742414e58760a7567
   5658727032627354316f6b6436755361427367704a6a5065774e526433635a4b3
   97a306153503144544131504e6b7065517748672f2b36665361564f487a0a7941
   7844733968355272627852614e6673542b7241554837783153594456565159564
   d68555262546f5a6536472f6a716e544333664e6648563178745a666f740a306c
   6f4d4867776570362b53494d436f6565325a6374755a5633326c6349616639726
   2484f633764416f47416551386b3853494c4e4736444f413331544535500a6d30

Celi, et al.              Expires 5 April 2024                 [Page 33]
Internet-Draft            Privacy Pass Issuance             October 2023

   31414a49597737416c5233756f2f524e61432b78596450553354736b75414c787
   86944522f57734c455142436a6b46576d6d4a41576e51554474626e594e0a5363
   77523847324a36466e72454374627479733733574156476f6f465a6e636d504c5
   0386c784c79626c534244454c79615a762f624173506c4d4f39624435630a4a2b
   4e534261612b6f694c6c31776d4361354d43666c633d0a2d2d2d2d2d454e44205
   0524956415445204b45592d2d2d2d2d0a
   pkS: 30820152303d06092a864886f70d01010a3030a00d300b06096086480165
   03040202a11a301806092a864886f70d010108300b0609608648016503040202a
   2030201300382010f003082010a0282010100cb1aed6b6a95f5b1ce013a4cfcab
   25b94b2e64a23034e4250a7eab43c0df3a8c12993af12b111908d4b471bec31d4
   b6c9ad9cdda90612a2ee903523e6de5a224d6b02f09e5c374d0cfe01d8f529c50
   0a78a2f67908fa682b5a2b430c81eaf1af72d7b5e794fc98a3139276879757ce4
   53b526ef9bf6ceb99979b8423b90f4461a22af37aab0cf5733f7597abe44d31c7
   32db68a181c6cbbe607d8c0e52e0655fd9996dc584eca0be87afbcd78a337d17b
   1dba9e828bbd81e291317144e7ff89f55619709b096cbb9ea474cead264c2073f
   e49740c01f00e109106066983d21e5f83f086e2e823c879cd43cef700d2a352a9
   babd612d03cad02db134b7e225a5f0203010001
   token_challenge: 0002000e6973737565722e6578616d706c65000017666f6f
   2e6578616d706c652c6261722e6578616d706c65
   nonce:
   9e7a22bdc5d715682434cebc07eb5fa53f622f776a17a6d91757af1592df0e71
   blind: c52cabc5e4e131e0f5860cc4c486c5ee8a5fa8ae59484446121f87b0d8
   ccd037f161a99ebcc57f79d05a2ffc852656ad2d0894fab8d1b0f998e6e678254
   ed5778da98b137371320314d06c24276e35435bccffa49d257687f270f9ce1792
   6a074737546d5415a4bb9e624a6302562b395856632efb6992f6593a4f95fb342
   002efebc3046ca96bbc26edb2f1a1454a24ce7b9a7ec8e44fb9e99c8144d409d8
   cd8a5903c0a3c0acbd9f82573ed1fc4a296e3eaf4867ade30110794678f422d36
   bd103ea4617d2472cf58da3381e52e5be60f4acbf685e280648cef21211a796ec
   d005ecbdaa1046c40950afca4c4e7dd4b8c19e504088489a15667b45895b6e92
   salt: c847b5d0fa9101a1e09954ac9f3eed6600af58936295ad2e54274e13e64
   0d59f732d07530c94c19c20668f03470c77ac
   token_request: 0002080f6bd84fba1822c577c8cd670f1136cca107f84ddd9d
   405d5ed22ad15da975538f031433bad4a2688999732927efe2928d4c132389a12
   2f40b639b083d6fcbbed7a55fb18db536d2dcbaefe6dc0a70730e6565b08a7dfd
   783913a59f37d798de0cfc262c9e90a7ee884a3ec355eacbd44e5f6779fea6a78
   5b05ac352fdd51a116cf2be1d8e38b0bfacd6a3d53a88c99f747cce908f86b335
   62691f540e3e88562092cd17cc2f78ce0fb53312a5f2dc918bdb1dc90d9d65091
   c7ba9080ccc1755cb5437989364dc92f0e8fea18f66d631451feb02a3d68af41d
   e1a3f9be925dda5c4ca0706fc4ca28b3317e939f6573442c6d03be17cd141fa82
   60d382d134c6b
   token_response: 2dd08ce89cf4f62bc236ab7b75266e13c57c750345e328e0b
   ea107537c4cbeea5bfc990716950440628ea2e37dbc5c9c6d84f9a965cbf0cbff
   fb89516b1fd19a90d69cc52a28890bbdcf782f56aefadad85b6e861a74170ce91
   0891c89e4293f37978dbd41cc8b5c68802de3d86d9f0326b9c22b809512245896
   6a6ddd1aeb3828d239c3b359efc9b375390eb19050d5656c2b084304d9bd8a816
   14f631bf82a7e4588413b44a0cb6d94e942fa134790b396cb71e3ed33b557b5bd
   0734e726fa79abdca8694703b81d0e289b749801d4383e0d4f825dcde0dd98c43
   d3ba81c028dd8833a4fc24961f60e118d4421dce5b611d53e9ca96156a52509bf

Celi, et al.              Expires 5 April 2024                 [Page 34]
Internet-Draft            Privacy Pass Issuance             October 2023

   a9afeb7e
   token: 00029e7a22bdc5d715682434cebc07eb5fa53f622f776a17a6d91757af
   1592df0e710042eee45ac4dd5acb8f6e65c4d8dd47504f73f7463507ef96a4d72
   27d2774f3ca572f8982a9ca248a3056186322d93ca147266121ddeb5632c07f1f
   71cd270815b010bbc0d5f55e9c856d2e9ffaefba007d33c2d5452fbeb0b15919b
   973e0dc9180aaeb18242043758d9fb0ac9ac5e04da9ff74ec93644ae6cdb7068e
   a76ce2295b9b95e383ed3a9856e9f618dafdf4cec5d2b53ea4297c2f3990babca
   71e3ccd6c07a437daae7ed27b6b81178fb7ce5fa5dd63781cc64ac1e410f441c0
   34b0a5cc873a2ce875e8b38c92bab563635c4f8f4fa35d1f582ef19edf7da75aa
   11a503a82e32a12bd4da41e0ca7ec7f451caf586f5b910003fcbbb9ff5ffa2408
   c28d6807737d03da651ea9bfafcc2747a6830e19a1d160fcd5c25d2f79dad86a8
   b3de8e926e08ca1addced72977f7b56398ef59c26e725df0a976a08f2a936ca42

   // Test vector 4
   skS: 2d2d2d2d2d424547494e2050524956415445204b45592d2d2d2d2d0a4d49
   4945765149424144414e42676b71686b6947397730424151454641415343424b6
   3776767536a41674541416f49424151444c4775317261705831736334420a4f6b
   7a38717957355379356b6f6a41303543554b66717444774e38366a424b5a4f764
   57245526b49314c527876734d6453327961326333616b4745714c756b440a556a
   35743561496b3172417643655844644e44503442325055707851436e6969396e6
   b492b6d67725769744444494871386139793137586e6c5079596f784f530a646f
   6558563835464f314a752b62397336356d586d34516a755139455961497138337
   1724450567a50335758712b524e4d636379323269686763624c766d42390a6a41
   355334475666325a6c74785954736f4c364872377a58696a4e394637486271656
   76f753967654b524d584645352f2b4a3956595a634a734a624c756570480a544f
   72535a4d4948502b5358514d4166414f454a4547426d6d4430683566672f43473
   475676a79486e4e51383733414e4b6a55716d3676574574413872514c620a4530
   742b496c706641674d4241414543676745414c7a4362647a69316a506435384d6
   b562b434c6679665351322b7266486e7266724665502f566344787275690a3270
   316153584a596962653645532b4d622f4d4655646c485067414c7731785134576
   57266366336444373686c6c784c57535638477342737663386f364750320a6359
   366f777042447763626168474b556b5030456b62395330584c4a5763475347356
   1556e484a585237696e7834635a6c666f4c6e7245516536685578734d710a6230
   644878644844424d644766565777674b6f6a4f6a70532f39386d4555793756422
   f3661326c7265676c766a632f326e4b434b7459373744376454716c47460a787a
   414261577538364d435a342f5131334c762b426566627174493973715a5a776a7
   264556851483856437872793251564d515751696e57684174364d7154340a5342
   5354726f6c5a7a7772716a65384d504a393175614e4d6458474c63484c4932367
   3587a76374b53514b42675144766377735055557641395a325a583958350a6d49
   784d54424e6445467a56625550754b4b413179576e31554d444e63556a71682b7
   a652f376b337946786b68305146333162713630654c393047495369414f0a354b
   4f574d39454b6f2b7841513262614b314d664f5931472b386a7a4258557042733
   9346b353353383879586d4b366e796467763730424a385a6835666b55710a5732
   306f5362686b686a5264537a48326b52476972672b5553774b426751445a4a4d6
   e7279324578612f3345713750626f737841504d69596e6b354a415053470a7932
   7a305a375455622b7548514f2f2b78504d376e433075794c494d44396c61544d4
   8776e3673372f4c62476f455031575267706f59482f4231346b2f526e360a6675
   77524e3632496f397463392b41434c745542377674476179332b6752775974534

Celi, et al.              Expires 5 April 2024                 [Page 35]
Internet-Draft            Privacy Pass Issuance             October 2023

   33262356564386c4969656774546b6561306830754453527841745673330a6e35
   6b796132513976514b4267464a75467a4f5a742b7467596e576e5155456757385
   0304f494a45484d45345554644f637743784b7248527239334a6a7546320a4533
   77644b6f546969375072774f59496f614a5468706a50634a62626462664b792b6
   e735170315947763977644a724d6156774a6376497077563676315570660a5674
   4c61646d316c6b6c7670717336474e4d386a6e4d30587833616a6d6d6e6665573
   9794758453570684d727a4c4a6c394630396349324c416f4742414e58760a7567
   5658727032627354316f6b6436755361427367704a6a5065774e526433635a4b3
   97a306153503144544131504e6b7065517748672f2b36665361564f487a0a7941
   7844733968355272627852614e6673542b7241554837783153594456565159564
   d68555262546f5a6536472f6a716e544333664e6648563178745a666f740a306c
   6f4d4867776570362b53494d436f6565325a6374755a5633326c6349616639726
   2484f633764416f47416551386b3853494c4e4736444f413331544535500a6d30
   31414a49597737416c5233756f2f524e61432b78596450553354736b75414c787
   86944522f57734c455142436a6b46576d6d4a41576e51554474626e594e0a5363
   77523847324a36466e72454374627479733733574156476f6f465a6e636d504c5
   0386c784c79626c534244454c79615a762f624173506c4d4f39624435630a4a2b
   4e534261612b6f694c6c31776d4361354d43666c633d0a2d2d2d2d2d454e44205
   0524956415445204b45592d2d2d2d2d0a
   pkS: 30820152303d06092a864886f70d01010a3030a00d300b06096086480165
   03040202a11a301806092a864886f70d010108300b0609608648016503040202a
   2030201300382010f003082010a0282010100cb1aed6b6a95f5b1ce013a4cfcab
   25b94b2e64a23034e4250a7eab43c0df3a8c12993af12b111908d4b471bec31d4
   b6c9ad9cdda90612a2ee903523e6de5a224d6b02f09e5c374d0cfe01d8f529c50
   0a78a2f67908fa682b5a2b430c81eaf1af72d7b5e794fc98a3139276879757ce4
   53b526ef9bf6ceb99979b8423b90f4461a22af37aab0cf5733f7597abe44d31c7
   32db68a181c6cbbe607d8c0e52e0655fd9996dc584eca0be87afbcd78a337d17b
   1dba9e828bbd81e291317144e7ff89f55619709b096cbb9ea474cead264c2073f
   e49740c01f00e109106066983d21e5f83f086e2e823c879cd43cef700d2a352a9
   babd612d03cad02db134b7e225a5f0203010001
   token_challenge: 0002000e6973737565722e6578616d706c65000000
   nonce:
   494dae41fc7e300c2d09990afcd5d5e1fc95305337dc12f78942c45340bfe8e6
   blind: 097cb17bcedecfe058dff5c4e517d1e36d7ab8f46252b1ac1933ba378c
   32625c0dbc69f5655c2003bf39e75810796cd63675b223cf3162c57108d56e058
   4cfce6cad829e74369ada38a095eb3012c912b31ccde7425f93464e353fb17552
   be3a8df2913daca61543a33ae45058f218c471dfbc12fb304158e29b6ed35bc07
   9e23f1e6173c5dec4545840bbe58e5ad37cbea0a10dca5d9df2781589d27c3410
   8477b52c0d32a1370c17f703941fbb1a007a6794e7de2758709c9bbf80f21eec7
   922b9bb491eb6aac8c1a14764e648e6be4fff0ae913797067aa0826f366c3103e
   103b05653c73b52d7f825a185dccfb806da700db9f53abb848554b7d4f7c28f3
   salt: 49912979f1bf528e5b8228ab1328df74319dce7bdaf45821ceb1100dcf0
   42a2dfe852fc9db59b64a5f6493c282504240
   token_request: 000208244840027ca8c620f8b14caded9a198ba388ccd8541e
   962f68a0071535d958d18494afd0bc11da4da8c8b33864f5a8f623b697cd56348
   594e11a75479048a72c0ed179b070506c09a7eb6ed3582f572df38cf60fcde11a
   52c5ce6d7b23435b60200ad9f66d21f40f323c9aa54307d0b966d4457c37542b6
   6bb183ddeafca914fc74831698b5d52f498ee3d165685f49a8d86e39fe6c4b7ec

Celi, et al.              Expires 5 April 2024                 [Page 36]
Internet-Draft            Privacy Pass Issuance             October 2023

   678f5250908d25e5b873c69b422368121aa4210cadd6fc640907d3cb9a7a3e827
   a0e742470f00c2f49dc6c0e8cc9470dbfd73df0ccbb96c10b02af0dd7dee719ec
   a11ff8e1b4929e59f3cf319de9bda29a6d968b43083b5d4242f3448d76ada08b8
   014f70b97e719
   token_response: c2746ff644cffb28a2c19395fa19dfb61fd135daa837844fb
   f9fbe06c253e64e69f53aefddc0fb4833b1b5e58f571134a34f245499c3e73419
   549c2c9111cf94f2f68fea3996d47f71e8d8d6fc5b1c074bf74fa59de4cbf32f5
   f08d45ea45492f0279c3b1a8d852698edbe1651eb8e09eb223a27386c0feb2f6a
   8260235edb36cf433da518100829b63166284b325d87fc941ea3bafe7b6761b70
   82e09397837f74b4f0fc838bce8af7242089dd5561f57735926bcbad219fc9fee
   85ae49a8e8951f63ca194b7ff018c06ee02267e7267bb996432dc76973819da80
   e3e86947b0a4b36d3a972dafaaa3db0e1044b325f02c679996d9bcd3ce51390d5
   4bc10b8c
   token: 0002494dae41fc7e300c2d09990afcd5d5e1fc95305337dc12f78942c4
   5340bfe8e6b741ec1b6fd05f1e95f8982906aec1612896d9ca97d53eef94ad3c9
   fe023f7a4ca572f8982a9ca248a3056186322d93ca147266121ddeb5632c07f1f
   71cd2708a55c83dc04292b5d92add1a87b37e54f22f61c58840586f390c50b231
   824423378ddcf50e69dc817d45bfad06c7f2a0ac35d2acd7f26b0bc9954c192b0
   a0ef28a2a5650e390098dd3cb1166a7cb1716d3dd2d19dc5ca3b1ea6206359de0
   002d82bc4fa7e69fb07214b06addcbd2203d1e17f57fc580bcc5a13e0ac15cf94
   2182cc2b5d6eaa737a712704114e357e2ec2f10047463ded02a1a0766dc346dd7
   212b9711e03ac95eb258ac1164104dc9a0d3e738ae742ab5ed8c5139fc07145a7
   88b9f891741ee68f0a66782b7b84a9bb4cb4b3d1b26b67106f397b35b641d882d
   7b0185168946de898ef72349a44a47dbdd6d46e9ba9ba543d5701b65c63d645c2

   // Test vector 5
   skS: 2d2d2d2d2d424547494e2050524956415445204b45592d2d2d2d2d0a4d49
   4945765149424144414e42676b71686b6947397730424151454641415343424b6
   3776767536a41674541416f49424151444c4775317261705831736334420a4f6b
   7a38717957355379356b6f6a41303543554b66717444774e38366a424b5a4f764
   57245526b49314c527876734d6453327961326333616b4745714c756b440a556a
   35743561496b3172417643655844644e44503442325055707851436e6969396e6
   b492b6d67725769744444494871386139793137586e6c5079596f784f530a646f
   6558563835464f314a752b62397336356d586d34516a755139455961497138337
   1724450567a50335758712b524e4d636379323269686763624c766d42390a6a41
   355334475666325a6c74785954736f4c364872377a58696a4e394637486271656
   76f753967654b524d584645352f2b4a3956595a634a734a624c756570480a544f
   72535a4d4948502b5358514d4166414f454a4547426d6d4430683566672f43473
   475676a79486e4e51383733414e4b6a55716d3676574574413872514c620a4530
   742b496c706641674d4241414543676745414c7a4362647a69316a506435384d6
   b562b434c6679665351322b7266486e7266724665502f566344787275690a3270
   316153584a596962653645532b4d622f4d4655646c485067414c7731785134576
   57266366336444373686c6c784c57535638477342737663386f364750320a6359
   366f777042447763626168474b556b5030456b62395330584c4a5763475347356
   1556e484a585237696e7834635a6c666f4c6e7245516536685578734d710a6230
   644878644844424d644766565777674b6f6a4f6a70532f39386d4555793756422
   f3661326c7265676c766a632f326e4b434b7459373744376454716c47460a787a
   414261577538364d435a342f5131334c762b426566627174493973715a5a776a7

Celi, et al.              Expires 5 April 2024                 [Page 37]
Internet-Draft            Privacy Pass Issuance             October 2023

   264556851483856437872793251564d515751696e57684174364d7154340a5342
   5354726f6c5a7a7772716a65384d504a393175614e4d6458474c63484c4932367
   3587a76374b53514b42675144766377735055557641395a325a583958350a6d49
   784d54424e6445467a56625550754b4b413179576e31554d444e63556a71682b7
   a652f376b337946786b68305146333162713630654c393047495369414f0a354b
   4f574d39454b6f2b7841513262614b314d664f5931472b386a7a4258557042733
   9346b353353383879586d4b366e796467763730424a385a6835666b55710a5732
   306f5362686b686a5264537a48326b52476972672b5553774b426751445a4a4d6
   e7279324578612f3345713750626f737841504d69596e6b354a415053470a7932
   7a305a375455622b7548514f2f2b78504d376e433075794c494d44396c61544d4
   8776e3673372f4c62476f455031575267706f59482f4231346b2f526e360a6675
   77524e3632496f397463392b41434c745542377674476179332b6752775974534
   33262356564386c4969656774546b6561306830754453527841745673330a6e35
   6b796132513976514b4267464a75467a4f5a742b7467596e576e5155456757385
   0304f494a45484d45345554644f637743784b7248527239334a6a7546320a4533
   77644b6f546969375072774f59496f614a5468706a50634a62626462664b792b6
   e735170315947763977644a724d6156774a6376497077563676315570660a5674
   4c61646d316c6b6c7670717336474e4d386a6e4d30587833616a6d6d6e6665573
   9794758453570684d727a4c4a6c394630396349324c416f4742414e58760a7567
   5658727032627354316f6b6436755361427367704a6a5065774e526433635a4b3
   97a306153503144544131504e6b7065517748672f2b36665361564f487a0a7941
   7844733968355272627852614e6673542b7241554837783153594456565159564
   d68555262546f5a6536472f6a716e544333664e6648563178745a666f740a306c
   6f4d4867776570362b53494d436f6565325a6374755a5633326c6349616639726
   2484f633764416f47416551386b3853494c4e4736444f413331544535500a6d30
   31414a49597737416c5233756f2f524e61432b78596450553354736b75414c787
   86944522f57734c455142436a6b46576d6d4a41576e51554474626e594e0a5363
   77523847324a36466e72454374627479733733574156476f6f465a6e636d504c5
   0386c784c79626c534244454c79615a762f624173506c4d4f39624435630a4a2b
   4e534261612b6f694c6c31776d4361354d43666c633d0a2d2d2d2d2d454e44205
   0524956415445204b45592d2d2d2d2d0a
   pkS: 30820152303d06092a864886f70d01010a3030a00d300b06096086480165
   03040202a11a301806092a864886f70d010108300b0609608648016503040202a
   2030201300382010f003082010a0282010100cb1aed6b6a95f5b1ce013a4cfcab
   25b94b2e64a23034e4250a7eab43c0df3a8c12993af12b111908d4b471bec31d4
   b6c9ad9cdda90612a2ee903523e6de5a224d6b02f09e5c374d0cfe01d8f529c50
   0a78a2f67908fa682b5a2b430c81eaf1af72d7b5e794fc98a3139276879757ce4
   53b526ef9bf6ceb99979b8423b90f4461a22af37aab0cf5733f7597abe44d31c7
   32db68a181c6cbbe607d8c0e52e0655fd9996dc584eca0be87afbcd78a337d17b
   1dba9e828bbd81e291317144e7ff89f55619709b096cbb9ea474cead264c2073f
   e49740c01f00e109106066983d21e5f83f086e2e823c879cd43cef700d2a352a9
   babd612d03cad02db134b7e225a5f0203010001
   token_challenge: 0002000e6973737565722e6578616d706c65208e7acc900e
   393381e8810b7c9e4a68b5163f1f880ab6688a6ffe780923609e880000
   nonce:
   a1aa8b371c37c9a8ddbd7342ab4f9dd5227d5b1600dca6517b60f63143cd43a3
   blind: ad7a32e1ac31b91daefd7042cc23d5621ab3e870d87297bbfe1ee8a518
   ffc5b84770d3b77775c485b2d219954834868842d2f11877ac4bceb5da88944cc

Celi, et al.              Expires 5 April 2024                 [Page 38]
Internet-Draft            Privacy Pass Issuance             October 2023

   a043a9afa52f9c9998a5dea7ab7c1f82662d0d327e29705a269ad221ae74a7c11
   72ff89c48997a9fda08886d3998bb538868396c0ace71d260cc71f768001939b2
   4d80d88979f0244a3dbc004eadfac81e138d430b9fa51c1aad21b957ff96b3123
   c91c2fff362a386f0f99a3f9fc906ca626fd9107648f87532b44c4fe3856ecae1
   f46d8ebf5d2f46e52034478e5e883015666574dd80bd5c036c4b55ebcc8b66068
   8d23944cc1932d075b559dcdc269fae3511761f71c113634e60d67accc8875fb
   salt: 35c04710ce866d879447b6230ce098a49e81be5c067881cce7bd5f92c1e
   5bd9b3c7d4d795cfad134fdfe916d735a624a
   token_request: 0002083d6495c72529bbc4f5c0b49e94e4561baec1ca638a93
   b2940ea9e37b838db7b1a91ec1f257d49b45c4f75119c2ab9eb5578541ad2b9ba
   c1bd627abc709097f503f83d98fed6dbeb615c3be9bf09cbf8ea25ea8026c1b8b
   a1c704ff516ed87c3d7d85342fd00111d8a80492d4b8fdbb092a282f74f13901e
   5edc1b3b02cfe24c950affe6130fbb57c1482d674db3c6944812ba081c2235a16
   d01eeec0932a8619d85732fc3e36179f0b50377bf9cb7a50ce3abeb3f31ed5f0f
   3deec7aae7290f5397cec61318357d652b029a0fda0f100a78e36c4ef56ba3779
   963e8745fdf4e347763c63d825836878e249833a0f4bd315392cc06ccca2c955e
   921efbc4f941d
   token_response: 8db727000018a98a2fe9fda8bbde5b8e9cedc31efbcaed695
   0eb1e0f8d9af9db632def52f74f07cdab304bbde40519080dd0388fb2b8900528
   b4791d2bca40aa2c2a6d1b92f010c1849bfb781cc813cc204855dd05e8a2dd31e
   a5220981b8ab6b008e153083dc8f594206440d66286fea9c21b56807be8655506
   ab7818bb9c8c69489dda56fe6390a5397268c8b5711f9d2df6f2584740cccf034
   5fd67f93f345426f33c078a0aceb90845df9eef74f6248d06c36d19e191da325b
   721ddc12ea78ed37b0c3b6170590536e3aee7eb0efc7d11a2c9d072a394f12ffa
   67ecf316c49efd8f31723b11fe46740636bd89ad4f7ef96bc38b2cb4916d9dc04
   ba1b2fc6
   token: 0002a1aa8b371c37c9a8ddbd7342ab4f9dd5227d5b1600dca6517b60f6
   3143cd43a3bb8a8cf1c59e7a251358ed76fe0ccff61044bc79dd261f16020324d
   22f2d434cca572f8982a9ca248a3056186322d93ca147266121ddeb5632c07f1f
   71cd27082899f4bc385b4147a650a3e7efc7d23a743cb944bb53e2ed8b88ee03a
   9c0b1cf1f73fd7f15c1bd1f850a5a96a34d4ee9f295543f30ac920825e9a0ce26
   e924f2c145583019dd14408c565b660e8b702fbea559908b1a8c8f9d21ef22f7c
   c6a4641c57c146e6c5497d2890ca230a6749f5f83a8fdd79eba0722f10dff9e81
   a2fb2d05fa4d989acc2e93f595ae69c98c3daa3b169efcdd6e59596b2f049f16b
   a49528761f661032da65a3ee0fe8a22409766e90daf8c60323c16522818c49273
   c795f26bbab306dc63cfc16fe1702af2464028cf819cc647d6f9b8a8f54d7d658
   5a268fdb8c75f76618c64aba266836a3b2db7cdd739815a021d7ff2b36ef91f23

Authors' Addresses

   SofĂ­a Celi
   Brave Software
   Lisbon
   Portugal
   Email: cherenkov@riseup.net

Celi, et al.              Expires 5 April 2024                 [Page 39]
Internet-Draft            Privacy Pass Issuance             October 2023

   Alex Davidson
   Brave Software
   Lisbon
   Portugal
   Email: alex.davidson92@gmail.com

   Steven Valdez
   Google LLC
   Email: svaldez@chromium.org

   Christopher A. Wood
   Cloudflare
   101 Townsend St
   San Francisco,
   United States of America
   Email: caw@heapingbits.net

Celi, et al.              Expires 5 April 2024                 [Page 40]