Internet-Draft | Use of HPKE in JOSE | October 2023 |
Reddy, et al. | Expires 22 April 2024 | [Page] |
This specification defines Hybrid public-key encryption (HPKE) for use with Javascript Object Signing and Encryption (JOSE). HPKE offers a variant of public-key encryption of arbitrary-sized plaintexts for a recipient public key.¶
HPKE works for any combination of an asymmetric key encapsulation mechanism (KEM), key derivation function (KDF), and authenticated encryption with additional data (AEAD) function. Authentication for HPKE in JOSE is provided by JOSE-native security mechanisms or by one of the authenticated variants of HPKE.¶
This document defines the use of the HPKE with JOSE.¶
This note is to be removed before publishing as an RFC.¶
Status information for this document may be found at https://datatracker.ietf.org/doc/draft-rha-jose-hpke/.¶
Discussion of this document takes place on the jose Working Group mailing list (mailto:jose@ietf.org), which is archived at https://mailarchive.ietf.org/arch/browse/jose/. Subscribe at https://www.ietf.org/mailman/listinfo/jose/.¶
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 22 April 2024.¶
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 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.¶
Hybrid public-key encryption (HPKE) [RFC9180] is a scheme that provides public key encryption of arbitrary-sized plaintexts given a recipient's public key. HPKE utilizes a non-interactive ephemeral-static Diffie-Hellman exchange to establish a shared secret. The motivation for standardizing a public key encryption scheme is explained in the introduction of [RFC9180].¶
The HPKE specification provides a variant of public key encryption of arbitrary-sized plaintexts for a recipient public key. It also includes three authenticated variants, including one that authenticates possession of a pre-shared key, one that authenticates possession of a key encapsulation mechanism (KEM) private key, and one that authenticates possession of both a pre-shared key and a KEM private key.¶
This specification utilizes HPKE as a foundational building block and carries the output to JOSE ([RFC7516], [RFC7518]).¶
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 specification uses the following abbreviations and terms:¶
Content-encryption key (CEK), a term defined in CMS [RFC2630].¶
Hybrid Public Key Encryption (HPKE) is defined in [RFC9180].¶
pkR is the public key of the recipient, as defined in [RFC9180].¶
skR is the private key of the recipient, as defined in [RFC9180].¶
Authenticated Encryption with Associated Data (AEAD), see [RFC9180].¶
The JSON Web Algorithms (JWA) [RFC7518] in Section 4.6 defines two ways using the key agreement result. When Direct Key Agreement is employed, the shared secret established through the HPKE will be the content encryption key (CEK). When Key Agreement with Key Wrapping is employed, the shared secret established through the HPKE will wrap the CEK. If multiple recipients are needed, then Key Agreement with Key Wrapping mode is used.¶
In both cases a new JOSE header parameter, called 'encapsulated_key', is used to convey the content of the "enc" structure defined in the HPKE specification. "enc" represents the serialized public key.¶
When the alg value is set to any of algorithms registered by this specification then the 'encapsulated_key' header parameter MUST be present in the unprotected header parameter.¶
The 'encapsulated_key' parameter contains the encapsulated key, which is output of the HPKE KEM, and is represented as a base64url encoded string. The parameter "kty" MUST be present and set to "OKP" defined in Section 2 of [RFC8037].¶
In Direct Key Agreement mode, HPKE is employed to directly encrypt the plaintext, and the resulting ciphertext is included in the JWE ciphertext. In Key Agreement with Key Wrapping mode, HPKE is used to encrypt the Content Encryption Key (CEK), and the resulting ciphertext is included in the JWE ciphertext.¶
In both modes, the sender MUST specify the 'alg' parameter in the protected header to indicate the use of HPKE.¶
The sender MUST place the 'encapsulated_key' parameter in the protected header. Optionally, the protected header MAY contain the 'kid' parameter used to identify the static recipient public key used by the sender.¶
In the JWE JSON Serialization, the sender MUST place the 'encapsulated_key' parameter in the per-recipient unprotected header. Optionally, the per-recipient unprotected header MAY contain the 'kid' parameter used to identify the static recipient public key used by the sender.¶
This specification registers a number of ciphersuites for use with HPKE. A ciphersuite is thereby a combination of several algorithm configurations:¶
The "KEM", "KDF", and "AEAD" values are conceptually taken from the HPKE IANA registry [HPKE-IANA]. Hence, JOSE-HPKE cannot use an algorithm combination that is not already available with HPKE.¶
For better readability of the algorithm combination ciphersuites labels are build according to the following scheme:¶
HPKE-<Mode>-<KEM>-<KDF>-<AEAD>¶
The "Mode" indicator may be populated with the following values from Table 1 of [RFC9180]:¶
"Base" refers to "mode_base" described in Section 5.1.1 of [RFC9180], which only enables encryption to the holder of a given KEM private key.¶
"PSK" refers to "mode_psk", described in Section 5.1.2 of [RFC9180], which authenticates using a pre-shared key.¶
"Auth" refers to "mode_auth", described in Section 5.1.3 of [RFC9180], which authenticates using an asymmetric key.¶
"Auth_Psk" refers to "mode_auth_psk", described in Section 5.1.4 of [RFC9180], which authenticates using both a PSK and an asymmetric key.¶
For a list of ciphersuite registrations, please see Section 10.¶
The SealBase(pkR, info, aad, pt) function is used to encrypt a plaintext pt to a recipient's public key (pkR).¶
Two cases of plaintext need to be distinguished:¶
In Direct Key Agreement mode, the plaintext "pt" passed into SealBase is the content to be encrypted. Hence, there is no intermediate layer utilizing a CEK.¶
In Key Agreement with Key Wrapping mode, the plaintext "pt" passed into SealBase is the CEK. The CEK is a random byte sequence of length appropriate for the encryption algorithm. For example, AES-128-GCM requires a 16 byte key and the CEK would therefore be 16 bytes long.¶
The "aad" parameter in SealBase function will take the JWE AAD value as input when the JWE AAD value is non-empty; otherwise, it will take an empty aad.¶
The HPKE specification defines the "info" parameter as a context information structure that is used to ensure that the derived keying material is bound to the context of the transaction. The "info" parameter in SealBase function will take the JOSE context specific data defined in Section 4.6.2 of [RFC7518] as input.¶
The SealBase function internally creates the sending HPKE context by invoking SetupBaseS() (Section 5.1.1 of [RFC9180]) with "pkR" and "info". This yields the context "sctxt" and an encapsulation key "enc". The SealBase function then invokes the Seal() method on "sctxt" (Section 5.2 of [RFC9180]) with "aad", yielding ciphertext "ct". Note that Section 6 of {RFC9180} discusses Single-Shot APIs for encryption and decryption; SetupBaseS internally invokes Seal() method to return both "ct" and "enc".¶
In summary, if SealBase() is successful, it will output a ciphertext "ct" and an encapsulated key "enc". In both JWE Compact Serialization and the JWE JSON Serialization, "ct" and "enc" will be base64url encoded, since JSON lacks a way to directly represent arbitrary octet sequences.¶
In both modes, "encapsulated_key" will contain the value of BASE64URL(enc). In Direct Key Agreement mode, JWE Ciphertext will contain the value of BASE64URL(ct). In Key Agreement with Key Wrapping mode, JWE Encrypted Key will contain the value of BASE64URL(ct). In Direct Key Agreement mode, JWE Encrypted Key will use the value of empty octet sequence.¶
The recipient will use the OpenBase(enc, skR, info, aad, ct) function with the base64url decoded "encapsulated_key" and the "ciphertext" parameters received from the sender. The "aad" and the "info" parameters are constructed from JWE AAD and JOSE context, respectively.¶
The OpenBase internally creates the receiving HPKE context by invoking SetupBaseR() (Section 5.1.1 of [RFC9180]) with "skR", "enc", and "info". This yields the context "rctxt". The OpenBase function then decrypts "ct" by invoking the Open() method on "rctxt" (Section 5.2 of [RFC9180]) with "aad", yielding "pt" or an error on failure.¶
The OpenBase function will, if successful, decrypts "ct". When decrypted, the result will be either the CEK (when Key Agreement with Key Wrapping mode is used), or the content (if Direct Key Agreement mode is used). The CEK is the symmetric key used to decrypt the ciphertext.¶
The migration to Post-Quantum Cryptography (PQC) is unique in the history of modern digital cryptography in that neither the traditional algorithms nor the post-quantum algorithms are fully trusted to protect data for the required data lifetimes. The traditional algorithms, such as RSA and elliptic curve, will fall to quantum cryptalanysis, while the post-quantum algorithms face uncertainty about the underlying mathematics, compliance issues, unknown vulnerabilities, hardware and software implementations that have not had sufficient maturing time to rule out classical cryptanalytic attacks and implementation bugs.¶
Hybrid key exchange refers to using multiple key exchange algorithms simultaneously and combining the result with the goal of providing security even if all but one of the component algorithms is broken. It is motivated by transition to post-quantum cryptography. HPKE can be extended to support hybrid post-quantum Key Encapsulation Mechanisms (KEMs) as defined in [I-D.westerbaan-cfrg-hpke-xyber768d00-02]. Kyber, which is a KEM does not support the static-ephemeral key exchange that allows HPKE based on DH based KEMs and its optional authenticated modes as discussed in Section 1.2 of [I-D.westerbaan-cfrg-hpke-xyber768d00-02].¶
The JOSE HPKE PQ/T hybrid ciphersuites are defined in Section 10.¶
This example uses HPKE-Base-P256-SHA256-AES128GCM which corresponds to the following HPKE algorithm combination:¶
KEM: DHKEM(P-256, HKDF-SHA256)¶
KDF: HKDF-SHA256¶
AEAD: AES-128-GCM¶
Mode: Base¶
payload: "This is the content"¶
aad: ""¶
{ "alg": "HPKE-Base-P256-SHA256-AES128GCM", "kid": "7" "encapsulated_key": "BIxvdeRjp3MILzyw06cBNIpXjGeAq6ZYZGaCqa9ykd/ Cd+yTw9WHB4GChsEJeCVFczjcPcr/Nn4pUTQunbMNwOc=", } JWE Protected Header JSON¶
This specification is based on HPKE and the security considerations of [RFC9180] are therefore applicable also to this specification.¶
HPKE assumes the sender is in possession of the public key of the recipient and HPKE JOSE makes the same assumptions. Hence, some form of public key distribution mechanism is assumed to exist but outside the scope of this document.¶
HPKE in Base mode does not offer authentication as part of the HPKE KEM. In this case JOSE constructs like JWS and JSON Web Tokens (JWTs) can be used to add authentication. HPKE also offers modes that offer authentication.¶
HPKE relies on a source of randomness to be available on the device. In Key Agreement with Key Wrapping mode, CEK has to be randomly generated and it MUST be ensured that the guidelines in [RFC8937] for random number generations are followed.¶
This document requests IANA to add new values to the 'JOSE Algorithms' and to the 'JOSE Header Parameters' registries in the 'Standards Action With Expert Review category'.¶
Algorithm Name: HPKE-Base-P256-SHA256-AES128GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF and the AES-128-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P256-SHA256-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P384-SHA384-AES256GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-384, HKDF-SHA384) KEM, the HKDF-SHA384 KDF, and the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P384-SHA384-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-384, HKDF-SHA384) KEM, the HKDF-SHA384 KDF, and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P521-SHA512-AES256GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P521-SHA512-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519-SHA256-AES128GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X25519, HKDF-SHA256) KEM, the HKDF-SHA256 KDF, and the AES-128-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519-SHA256-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X25519, HKDF-SHA256) KEM, the HKDF-SHA256 KDF, and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X448-SHA512-AES256GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X448, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X448-SHA512-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X448, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519Kyber768-SHA256-AES256GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the X25519Kyber768Draft00 Hybrid KEM, the HKDF-SHA256 KDF, and the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519Kyber768-SHA256-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the X25519Kyber768Draft00 Hybrid KEM, the HKDF-SHA256 KDF, and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP256-SHA256-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(CP-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF, and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name:HPKE-Base-CP384-SHA512-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE in Base Mode that uses the DHKEM(CP384, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the AES256GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP521-SHA512-ChaCha20Poly1305¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(CP-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP256-SHA256-AES128GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE in Base Mode that uses the DHKEM(CP-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF and the AES128GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP384-SHA512-AES256GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE in Base Mode that uses the DHKEM(CP384, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the AES256GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP521-SHA512-AES256GCM¶
Algorithm Description: Cipher suite for JOSE-HPKE in Base Mode that uses the DHKEM(CP-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and the AES256GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P256-SHA256-AES128GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF and Key wrapping with the AES-128-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P256-SHA256-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P384-SHA384-AES256GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-384, HKDF-SHA384) KEM, the HKDF-SHA384 KDF, and Key wrapping with the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P384-SHA384-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-384, HKDF-SHA384) KEM, the HKDF-SHA384 KDF, and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P521-SHA512-AES256GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and Key wrapping with the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-P521-SHA512-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(P-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519-SHA256-AES128GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X25519, HKDF-SHA256) KEM, the HKDF-SHA256 KDF, and Key wrapping with the AES-128-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519-SHA256-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X25519, HKDF-SHA256) KEM, the HKDF-SHA256 KDF, and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X448-SHA512-AES256GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X448, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and Key wrapping with the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X448-SHA512-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(X448, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519Kyber768-SHA256-AES256GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the X25519Kyber768Draft00 Hybrid KEM, the HKDF-SHA256 KDF, and Key wrapping with the AES-256-GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-X25519Kyber768-SHA256-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the X25519Kyber768Draft00 Hybrid KEM, the HKDF-SHA256 KDF, and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP256-SHA256-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(CP-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF, and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP521-SHA512-ChaCha20Poly1305KW¶
Algorithm Description: Cipher suite for JOSE-HPKE version 1 in Base Mode that uses the DHKEM(CP-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and Key wrapping with the ChaCha20Poly1305 AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP256-SHA256-AES128GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE in Base Mode that uses the DHKEM(CP-256, HKDF-SHA256) KEM, the HKDF-SHA256 KDF and Key wrapping with the AES128GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP384-SHA512-AES256GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE in Base Mode that uses the DHKEM(CP384, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and Key wrapping with the AES256GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
Algorithm Name: HPKE-Base-CP521-SHA512-AES256GCMKW¶
Algorithm Description: Cipher suite for JOSE-HPKE in Base Mode that uses the DHKEM(CP-521, HKDF-SHA512) KEM, the HKDF-SHA512 KDF, and Key wrapping with the AES256GCM AEAD.¶
Algorithm Usage Location(s): "alg"¶
JOSE Implementation Requirements: Optional¶
Change Controller: IESG¶
Specification Document(s): [[TBD: This RFC]]¶
Algorithm Analysis Documents(s): TODO¶
This specification leverages text from [I-D.ietf-cose-hpke]. We would like to thank Matt Chanda, Ilari Liusvaara and Aaron Parecki for their feedback.¶