Common Authentication Technology Next Generation | F. Schmaus |
Internet-Draft | C. Egger |
Intended status: Experimental | University of Erlangen-Nuremberg |
Expires: January 7, 2018 | July 6, 2017 |
The Hashed Token SASL Mechanism
draft-schmaus-kitten-sasl-ht-01
This document specifies a SASL mechanism designed to be used with short-lived, exclusively ephemeral tokens.
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This section specifies the the family of Hashed Token (HT-*) SASL mechanisms. It provides hash agility, mutual authentication and is secured by channel binding.
This mechanism was designed to be used with short-lived tokens for quick, one round-trip, re-authentication of a previous session. Clients are supposed to request such tokens from the server after being authenticated using a "strong" SASL mechanism (e.g. SCRAM). Hence a typical sequence of actions using SASL-HT may look like the following:
A) Client authenticates using a strong mechanism (e.g., SCRAM) B) Client requests secret SASL-HT token <normal client-server interaction here> C) Connection between client and server gets interrupted (e.g., WiFi ↔ GSM switch) D) Client resumes previous session using the token from B E) Client requests secret SASL-HT token [goto C]
An example application protocol specific extension based on SASL-HT is [XEP-ISR-SASL2].
Since the token is not salted, and only one hash iteration is used, the HT-* mechanism is not suitable to protect long-lived shared secrets (e.g. "passwords"). You may want to look at [RFC5802] for that.
The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT", "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this document are to be interpreted as described in RFC 2119 [RFC2119].
Additionally, the key words "MIGHT", "COULD", "MAY WISH TO", "WOULD PROBABLY", "SHOULD CONSIDER", and "MUST (BUT WE KNOW YOU WON'T)" in this document are to interpreted as described in RFC 6919 [RFC6919].
Because this mechanism transports information that should not be controlled by an attacker, the HT-* mechanism MUST only be used over channels protected by TLS, or over similar integrity-protected and authenticated channels. In addition, when TLS is used, the client MUST successfully validate the server's certificate ([RFC5280], [RFC6125]).
The family of HT-* mechanisms is not applicable for proxy authentication, since they can not carry a authorization identity string (authzid).
Each mechanism in this family differs by the choice of the hash algorithm and the choice of the channel binding [RFC5929] type.
A HT mechanism name is a string beginning with "HT-" followed by the capitalized name of the used hash, followed by "-", and suffixed by one of 'ENDP' and 'UNIQ'.
Hence each HT mechanism has a name of the following form:
HT-<hash-alg>-<cb-type>
Where <hash-alg> is the capitalized "Hash Name String" of the IANA "Named Information Hash Algorithm Registry" [iana-hash-alg] as specified in [RFC6920], and <cb-type> is one of 'ENDP' or 'UNIQ' denoting the channel binding type. In case of 'ENDP', the tls-server-end-point channel binding type is used. In case of 'UNIQ', the tls-unique channel binding type is used. Valid channel binding types are defined in the IANA "Channel-Binding Types" registry [iana-cbt] as specified in [RFC5056].
CBT | Channel Binding Type |
---|---|
ENDP | tls-server-end-point |
UNIQ | tls-unique |
The following table lists the HT-* SASL mechanisms registered this document.
Mechanism Name | Hash Algorithm | Channel-binding unique prefix |
---|---|---|
HT-SHA-512-ENDP | SHA-512 | tls-server-end-point |
HT-SHA-512-UNIQ | SHA-512 | tls-unique |
HT-SHA3-512-ENDP | SHA3-512 | tls-server-end-point |
HT-SHA-256-UNIQ | SHA-256 | tls-unique |
The mechanism consists of a simple exchange of exactly two messages between the initiator and responder.
The following syntax specifications use the Augmented Backus-Naur form (ABNF) notation as specified in [RFC5234].
The HT-* SASL mechanism starts with the initiator-msg, send by the initiator to the responder.
initiator-msg = authcid-length authcid-data initiator-hashed-token
authcid-length = 4OCTET
authcid-data = 1*OCTET
initiator-hashed-token = 1*OCTET
The initiator message starts with an unsigned 32-bit integer in big endian. It denotes length of the authcid-data, which contains the authentication identity. Before sending the authentication identity string the initiator SHOULD prepare the data with the UsernameCaseMapped profile of [RFC7613].
The initiator-hashed-token value is defined as: HMAC(token, "Initiator" || cb-data)
HMAC() is the function defined in [RFC2104] with H being the selected HT-* hash algorithm, 'cb-data' represents the data provided by the channel binding type, and 'token' are the UTF-8 encoded octets of the token string which acts as shared secret between initiator and responder.
The initiator-msg MUST NOT be included in TLS 1.3 0-RTT early data (see [I-D.ietf-tls-tls13]).
TODO: Add note why HMAC() is used even if it is not required when modern hash algorithms are used.
This message is followed by a message from the responder to the initiator. This 'responder-msg' is defined as follows:
responder-msg = 1*OCTET
The responder-msg value is defined as: HMAC(token, "Responder" || cb-data)
The initiating entity MUST verify the responder-msg to achieve mutual authentication.
This section describes compliance with SASL mechanism requirements specified in Section 5 of [RFC4422].
To be secure, HT-* MUST be used over a TLS channel that has had the session hash extension [RFC7627] negotiated, or session resumption MUST NOT have been used.
IANA has added the following family of SASL mechanisms to the SASL Mechanism registry established by [RFC4422]:
To: iana@iana.org Subject: Registration of a new SASL family HT SASL mechanism name (or prefix for the family): HT-* Security considerations: Section FIXME of draft-schmaus-kitten-sasl-ht-00 Published specification (optional, recommended): draft-schmaus-kitten-sasl-ht-00 (TODO) Person & email address to contact for further information: IETF SASL WG <kitten@ietf.org> Intended usage: COMMON Owner/Change controller: IESG <iesg@ietf.org> Note: Members of this family MUST be explicitly registered using the "IETF Review" [@!RFC5226] registration procedure. Reviews MUST be requested on the Kitten WG mailing list <kitten@ietf.org> (or a successor designated by the responsible Security AD).
[RFC5802] | Newman, C., Menon-Sen, A., Melnikov, A. and N. Williams, "Salted Challenge Response Authentication Mechanism (SCRAM) SASL and GSS-API Mechanisms", RFC 5802, DOI 10.17487/RFC5802, July 2010. |
[XEP-ISR-SASL2] | Schmaus, F., "XEP-XXXX: Instant Stream Resumption", 2017. |
Thanks to Thijs Alkemade.