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Network Working Group                                          S. Cantor
Internet-Draft                                     Shibboleth Consortium
Intended status: Standards Track                            S. Josefsson
Expires: April 20, 2013                                           SJD AB
                                                        October 17, 2012


            SAML Enhanced Client SASL and GSS-API Mechanisms
                 draft-ietf-kitten-sasl-saml-ec-04.txt

Abstract

   Security Assertion Markup Language (SAML) 2.0 is a generalized
   framework for the exchange of security-related information between
   asserting and relying parties.  Simple Authentication and Security
   Layer (SASL) and the Generic Security Service Application Program
   Interface (GSS-API) are application frameworks to facilitate an
   extensible authentication model.  This document specifies a SASL and
   GSS-API mechanism for SAML 2.0 that leverages the capabilities of a
   SAML-aware "enhanced client" to address significant barriers to
   federated authentication in a manner that encourages reuse of
   existing SAML bindings and profiles designed for non-browser
   scenarios.

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 http://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 April 20, 2013.

Copyright Notice

   Copyright (c) 2012 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



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   (http://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 Simplified BSD License text as described in Section 4.e of
   the Trust Legal Provisions and are provided without warranty as
   described in the Simplified BSD License.


Table of Contents

   1.  Introduction . . . . . . . . . . . . . . . . . . . . . . . . .  3
   2.  Terminology  . . . . . . . . . . . . . . . . . . . . . . . . .  5
   3.  Applicability for Non-HTTP Use Cases . . . . . . . . . . . . .  6
   4.  SAML SASL Mechanism Specification  . . . . . . . . . . . . . .  9
     4.1.  Advertisement  . . . . . . . . . . . . . . . . . . . . . .  9
     4.2.  Initiation . . . . . . . . . . . . . . . . . . . . . . . .  9
     4.3.  Server Response  . . . . . . . . . . . . . . . . . . . . . 10
     4.4.  User Authentication with Identity Provider . . . . . . . . 10
     4.5.  Client Response  . . . . . . . . . . . . . . . . . . . . . 10
     4.6.  Outcome  . . . . . . . . . . . . . . . . . . . . . . . . . 10
     4.7.  Additional Notes . . . . . . . . . . . . . . . . . . . . . 10
   5.  SAML EC GSS-API Mechanism Specification  . . . . . . . . . . . 12
     5.1.  GSS-API Channel Binding  . . . . . . . . . . . . . . . . . 12
     5.2.  Session Key Derivation . . . . . . . . . . . . . . . . . . 13
       5.2.1.  Generated by Identity Provider . . . . . . . . . . . . 13
       5.2.2.  Derived Session Keys . . . . . . . . . . . . . . . . . 14
     5.3.  Per-Message Tokens . . . . . . . . . . . . . . . . . . . . 14
     5.4.  Pseudo-Random Function (PRF) . . . . . . . . . . . . . . . 15
     5.5.  GSS-API Principal Name Types for SAML EC . . . . . . . . . 15
       5.5.1.  User Naming Considerations . . . . . . . . . . . . . . 16
       5.5.2.  Service Naming Considerations  . . . . . . . . . . . . 16
   6.  Example  . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
   7.  Security Considerations  . . . . . . . . . . . . . . . . . . . 26
     7.1.  Risks Left Unaddressed . . . . . . . . . . . . . . . . . . 26
     7.2.  User Privacy . . . . . . . . . . . . . . . . . . . . . . . 26
     7.3.  Collusion between RPs  . . . . . . . . . . . . . . . . . . 27
   8.  IANA Considerations  . . . . . . . . . . . . . . . . . . . . . 28
     8.1.  GSS-API and SASL Mechanism Registration  . . . . . . . . . 28
     8.2.  XML Namespace Name for SAML-EC . . . . . . . . . . . . . . 28
   9.  References . . . . . . . . . . . . . . . . . . . . . . . . . . 29
     9.1.  Normative References . . . . . . . . . . . . . . . . . . . 29
     9.2.  Normative References for GSS-API Implementers  . . . . . . 30
     9.3.  Informative References . . . . . . . . . . . . . . . . . . 31
   Appendix A.  Appendix A.  XML Schema . . . . . . . . . . . . . . . 32
   Appendix B.  Acknowledgments . . . . . . . . . . . . . . . . . . . 34
   Appendix C.  Changes . . . . . . . . . . . . . . . . . . . . . . . 35
   Authors' Addresses . . . . . . . . . . . . . . . . . . . . . . . . 36



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1.  Introduction

   Security Assertion Markup Language (SAML) 2.0
   [OASIS.saml-core-2.0-os] is a modular specification that provides
   various means for a user to be identified to a relying party (RP)
   through the exchange of (typically signed) assertions issued by an
   identity provider (IdP).  It includes a number of protocols, protocol
   bindings [OASIS.saml-bindings-2.0-os], and interoperability profiles
   [OASIS.saml-profiles-2.0-os] designed for different use cases.
   Additional profiles and extensions are also routinely developed and
   published.

   Simple Authentication and Security Layer (SASL) [RFC4422] is a
   generalized mechanism for identifying and authenticating a user and
   for optionally negotiating a security layer for subsequent protocol
   interactions.  SASL is used by application protocols like IMAP, POP
   and XMPP [RFC3920].  The effect is to make authentication modular, so
   that newer authentication mechanisms can be added as needed.

   The Generic Security Service Application Program Interface (GSS-API)
   [RFC2743] provides a framework for applications to support multiple
   authentication mechanisms through a unified programming interface.
   This document defines a pure SASL mechanism for SAML, but it conforms
   to the bridge between SASL and the GSS-API called GS2 [RFC5801].
   This means that this document defines both a SASL mechanism and a
   GSS-API mechanism.  The GSS-API interface is optional for SASL
   implementers, and the GSS-API considerations can be avoided in
   environments that uses SASL directly without GSS-API.

   The mechanisms specified in this document allow a SASL- or GSS-API-
   enabled server to act as a SAML relying party, or service provider
   (SP), by advertising this mechanism as an option for SASL or GSS-API
   clients that support the use of SAML to communicate identity and
   attribute information.  Clients supporting this mechanism are termed
   "enhanced clients" in SAML terminology because they understand the
   federated authentication model and have specific knowledge of the
   IdP(s) associated with the user.  This knowledge, and the ability to
   act on it, addresses a significant problem with browser-based SAML
   profiles known as the "discovery", or "where are you from?"  (WAYF)
   problem.  Obviating the need for the RP to interact with the client
   to determine the right IdP (and its network location) is both a user
   interface and security improvement.

   The SAML mechanism described in this document is an adaptation of an
   existing SAML profile, the Enhanced Client or Proxy (ECP) Profile
   (V2.0) [SAMLECP20], and therefore does not establish a separate
   authentication, integrity and confidentiality mechanism.  It is
   anticipated that existing security layers, such as Transport Layer



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   Security (TLS) or Secure Shell (SSH), will continued to be used.

   Figure 1 describes the interworking between SAML and SASL: this
   document requires enhancements to the RP and to the client (as the
   two SASL communication endpoints) but no changes to the SAML IdP are
   assumed apart from its support for the applicable SAML profile.  To
   accomplish this, a SAML protocol exchange between the RP and the IdP,
   brokered by the client, is tunneled within SASL.  There is no assumed
   communication between the RP and the IdP, but such communication may
   occur in conjunction with additional SAML-related profiles not in
   scope for this document.




                                       +-----------+
                                       |  SAML     |
                                       |  Relying  |
                                       |  Party    |
                                       |           |
                                       +-----------+
                                             ^
                                          +--|--+
                                          | S|  |
                                        S | A|  |
                                        A | M|  |
                                        S | L|  |
                                        L |  |  |
                                          |  |  |
                                          +--|--+
         +------------+                      v
         |            |                 +----------+
         |  SAML      |     SAML SOAP   |          |
         |  Identity  |<--------------->|  Client  |
         |  Provider  |      Binding    |          |
         +------------+                 +----------+


                    Figure 1: Interworking Architecture












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2.  Terminology

   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].

   The reader is also assumed to be familiar with the terms used in the
   SAML 2.0 specification, and an understanding of the Enhanced Client
   or Proxy (ECP) Profile (V2.0) [SAMLECP20] is necessary, as part of
   this mechanism explicitly reuses and references it.

   This document can be implemented without knowledge of GSS-API since
   the normative aspects of the GS2 protocol syntax have been duplicated
   in this document.  The document may also be implemented to provide a
   GSS-API mechanism, and then knowledge of GSS-API is essential.  To
   faciliate these two variants, the references has been split into two
   parts, one part that provides normative references for all readers,
   and one part that adds additional normative references required for
   implementers that wish to implement the GSS-API portion.
































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3.  Applicability for Non-HTTP Use Cases

   While SAML is designed to support a variety of application scenarios,
   the profiles for authentication defined in the original standard are
   designed around HTTP [RFC2616] applications.  They are not, however,
   limited to browsers, because it was recognized that browsers suffer
   from a variety of functional and security deficiencies that would be
   useful to avoid where possible.  Specifically, the notion of an
   "Enhanced Client" (or a proxy acting as one on behalf of a browser,
   thus the term "ECP") was specified for a software component that acts
   somewhat like a browser from an application perspective, but includes
   limited, but sufficient, awareness of SAML to play a more conscious
   role in the authentication exchange between the RP and the IdP.  What
   follows is an outline of the Enhanced Client or Proxy (ECP) Profile
   (V2.0) [SAMLECP20], as applied to the web/HTTP service use case:

   1.  The Enhanced Client requests a resource of a Relying Party (RP)
       (via an HTTP request).  In doing so, it advertises its "enhanced"
       capability using HTTP headers.

   2.  The RP, desiring SAML authentication and noting the client's
       capabilities, responds not with an HTTP redirect or form, but
       with a SOAP [W3C.soap11] envelope containing a SAML
       <AuthnRequest> along with some supporting headers.  This request
       identifies the RP (and may be signed), and may provide hints to
       the client as to what IdPs the RP finds acceptable, but the
       choice of IdP is generally left to the client.

   3.  The client is then responsible for delivering the body of the
       SOAP message to the IdP it is instructed to use (often via
       configuration ahead of time).  The user authenticates to the IdP
       ahead of, during, or after the delivery of this message, and
       perhaps explicitly authorizes the response to the RP.

   4.  Whether authentication succeeds or fails, the IdP responds with
       its own SOAP envelope, generally containing a SAML <Response>
       message for delivery to the RP.  In a successful case, the
       message will include a SAML <Assertion> containing
       authentication, and possibly attribute, information about the
       user.  Either the response or assertion alone is signed, and the
       assertion may be encrypted to a key negotiated with or known to
       belong to the RP.

   5.  The client then delivers the SOAP envelope containing the
       <Response> to the RP at a location the IdP directs (which acts as
       an additional, though limited, defense against MITM attacks).
       This completes the SAML exchange.




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   6.  The RP now has sufficient identity information to approve the
       original HTTP request or not, and acts accordingly.  Everything
       between the original request and this response can be thought of
       as an "interruption" of the original HTTP exchange.

   When considering this flow in the context of an arbitrary application
   protocol and SASL, the RP and the client both must change their code
   to implement this SASL mechanism, but the IdP can remain untouched.
   The existing RP/client exchange that is tunneled through HTTP maps
   well to the tunneling of that same exchange in SASL.  In the parlance
   of SASL [RFC4422], this mechanism is "client-first" for consistency
   with GS2.  The steps are shown below:

   1.  The server MAY advertise the SAML20EC and/or SAML20EC-PLUS
       mechanisms.

   2.  The client initiates a SASL authentication with SAML20EC or
       SAML20EC-PLUS.

   3.  The server sends the client a challenge consisting of a SOAP
       envelope containing its SAML <AuthnRequest>.

   4.  The SASL client unpacks the SOAP message and communicates with
       its chosen IdP to relay the SAML <AuthnRequest> to it.  This
       communication, and the authentication with the IdP, proceeds
       separately from the SASL process.

   5.  Upon completion of the exchange with the IdP, the client responds
       to the SASL server with a SOAP envelope containing the SAML
       <Response> it obtained, or a SOAP fault, as warranted.

   6.  The SASL Server indicates success or failure.

   Note: The details of the SAML processing, which are consistent with
   the Enhanced Client or Proxy (ECP) Profile (V2.0) [SAMLECP20], are
   such that the client MUST interact with the IdP in order to complete
   any SASL exchange with the RP.  The assertions issued by the IdP for
   the purposes of the profile, and by extension this SASL mechanism,
   are short lived, and therefore cannot be cached by the client for
   later use.

   Encompassed in step four is the client-driven selection of the IdP,
   authentication to it, and the acquisition of a response to provide to
   the SASL server.  These processes are all external to SASL.

   With all of this in mind, the typical flow appears as follows:





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      SASL Serv.       Client          IdP
         |>-----(1)----->|              | Advertisement
         |               |              |
         |<-----(2)-----<|              | Initiation
         |               |              |
         |>-----(3)----->|              | SASL Server Response
         |               |              |
         |               |<- - -(4)- - >| SOAP AuthnRequest + user authn
         |               |              |
         |<-----(5)-----<|              | SASL Client Response
         |               |              |
         |>-----(6)----->|              | Server sends Outcome
         |               |              |

       ----- = SASL
       - - - = SOAP over HTTPS (external to SASL)


                       Figure 2: Authentication flow
































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4.  SAML SASL Mechanism Specification

   Based on the previous figures, the following operations are defined
   by the SAML SASL mechanism:

4.1.  Advertisement

   To advertise that a server supports this mechanism, during
   application session initiation, it displays the name "SAML20EC"
   and/or "SAML20EC-PLUS" in the list of supported SASL mechanisms
   (depending on its support for channel binding).

4.2.  Initiation

   A client initiates "SAML20EC" or "SAML20EC-PLUS" authentication.  If
   supported by the application protocol, the client MAY include an
   initial response, otherwise it waits until the server has issued an
   empty challenge (because the mechanism is client-first).

   The format of the initial client response is as follows:

     hok = "urn:oasis:names:tc:SAML:2.0:cm:holder-of-key"

     mutual = "urn:oasis:names:tc:SAML:2.0:profiles:SSO:ecp:2.0:" \
       "WantAuthnRequestsSigned"

     initial-resp = gs2-cb-flag "," [gs2-authzid] "," [hok] "," [mutual]

   The gs2-cb-flag MUST be set as defined in [RFC5801] to indicate
   whether the client supports channel binding.  This takes the place of
   the PAOS HTTP header extension used in [SAMLECP20] to indicate
   channel binding support.

   The optional "gs2-authzid" field holds the authorization identity, as
   requested by the client.

   The optional "hok" field is a constant that signals the client's
   support for stronger security by means of a locally held key.  This
   takes the place of the PAOS HTTP header extension used in [SAMLECP20]
   to indicate "holder of key" support.

   The optional "mutual" field is a constant that signals the client's
   desire for mutual authentication.  If set, the SASL server MUST
   digitally sign its SAML <AuthnRequest> message.  The URN constant
   above is a single string; the linefeed is shown for RFC formatting
   reasons.





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4.3.  Server Response

   The SASL server responds with a SOAP envelope constructed in
   accordance with section 2.3.2 of [SAMLECP20].  This includes adhering
   to the SOAP header requirements of the SAML PAOS Binding
   [OASIS.saml-bindings-2.0-os], for compatibility with the existing
   profile.  Various SOAP headers are also consumed by the client in
   exactly the same manner prescribed by that section.

4.4.  User Authentication with Identity Provider

   Upon receipt of the Server Response (Section 4.3), the steps
   described in sections 2.3.3 through 2.3.6 of [SAMLECP20] are
   performed between the client and the chosen IdP.  The means by which
   the client determines the IdP to use, and where it is located, are
   out of scope of this mechanism.

   The exact means of authentication to the IdP are also out of scope,
   but clients supporting this mechanism MUST support HTTP Basic
   Authentication as defined in [RFC2617] and TLS client authentication
   as defined in [RFC5246].

4.5.  Client Response

   Assuming a response is obtained from the IdP, the client responds to
   the SASL server with a SOAP envelope constructed in accordance with
   section 2.3.7 of [SAMLECP20].  This includes adhering to the SOAP
   header requirements of the SAML PAOS Binding
   [OASIS.saml-bindings-2.0-os], for compatibility with the existing
   profile.  If the client is unable to obtain a response from the IdP,
   it responds to the SASL server with a SOAP envelope containing a SOAP
   fault.

4.6.  Outcome

   The SAML protocol exchange having completed, the SASL server will
   transmit the outcome to the client depending on local validation of
   the client responses.  This outcome is transmitted in accordance with
   the application protocol in use.

4.7.  Additional Notes

   Because this mechanism is an adaptation of an HTTP-based profile,
   there are a few requirements outlined in [SAMLECP20] that make
   reference to a response URL that is normally used to regulate where
   the client returns information to the RP.  There are also security-
   related checks built into the profile that involve this location.




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   For compatibility with existing IdP and profile behavior, and to
   provide for mutual authentication, the SASL server MUST populate the
   responseConsumerURL and AssertionConsumerServiceURL attributes with
   its service name.  The parties then perform the steps described in
   [SAMLECP20] as usual.

   Similarly, the use of HTTP status signaling between the RP and client
   mandated by [SAMLECP20] may not be applicable.











































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5.  SAML EC GSS-API Mechanism Specification

   This section and its sub-sections and all normative references of it
   not referenced elsewhere in this document are INFORMATIONAL for SASL
   implementors, but they are NORMATIVE for GSS-API implementors.

   The SAML SASL Enhanced Clients mechanism is also a GSS-API mechanism.
   The messages are the same, but a) the GS2 header on the client's
   first message is excluded when SAML EC is used as a GSS-API
   mechanism, and b) the [RFC2743] section 3.1 initial context token
   header is prefixed to the client's first authentication message
   (context token).

   The GSS-API mechanism OID for SAML EC is OID-TBD (IANA to assign: see
   IANA considerations).  The DER encoding of the OID is TBD.

   The mutual_state request flag (GSS_C_MUTUAL_FLAG) MAY be set to TRUE,
   resulting in the "mutual-auth" option set in the initial client
   response.  The security context mutual_state flag is set to TRUE only
   if the server digitally signs its SAML <AuthnRequest> message, and
   the identity provider signals this to the client in an <ecp:
   RequestAuthenticated> SOAP header block.

   If the mutual_state flag is not requested, or is not set, then the
   security layer managed by the application outside of the GSS-API
   mechanism is responsible for authenticating the acceptor.  In this
   case, applications MUST match the server identity from the existing
   security layer with the target name.  For TLS, this matching MUST be
   performed as discussed in [RFC6125].  For SSH, this matching MUST be
   performed as discussed in [RFC4462].

   The lifetime of a security context established with this mechanism
   SHOULD be limited by the value of a SessionNotOnOrAfter attribute, if
   any, in the <AuthnStatement> of the SAML assertion received by the
   RP.

   SAML EC supports credential delegation through the issuance of SAML
   assertions that the issuing identity provider will accept as proof of
   authentication by a service on behalf of a user.  Such assertions
   MUST contain an <AudienceRestriction> condition element identifying
   the identity provider, and a <SubjectConfirmation> element that the
   acceptor can satisy.  In such a case, the security context will have
   its deleg_state flag (GSS_C_DELEG_FLAG) set to TRUE.

5.1.  GSS-API Channel Binding

   GSS-API channel binding [RFC5554] is a protected facility for
   exchanging a cryptographic name for an enclosing channel between the



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   initiator and acceptor.  The initiator sends channel binding data and
   the acceptor confirms that channel binding data has been checked.

   The acceptor SHOULD accept any channel binding provided by the
   initiator if null channel bindings are passed into
   gss_accept_sec_context.  Protocols such as HTTP Negotiate [RFC4559]
   depend on this behavior of some Kerberos implementations.

   The exchange and verification of channel binding information is
   described by [SAMLECP20].

5.2.  Session Key Derivation

   Some GSS-API features (discussed in the following sections) require a
   session key be established as a result of security context
   establishment.  In the common case of a "bearer" assertion in SAML,
   there are a pair of approaches defined: exporting key material from
   TLS and communicating a key to both parties via the identity
   provider.  Both are discussed below.  In other cases such as
   assertions based on "holder of key" confirmation bound to a client-
   controlled key, there may be additional methods available.

   Information defining or describing the session key, or a process for
   deriving one, is communicated using a <samlec:SessionKey> element,
   defined in the schema in Appendix A.  This element can be used as a
   SOAP header block or as an extension within a SAML assertion,
   depending on the context of communication.  The content of the
   element further depends on the specific use in the mechanism and is
   discussed below.

5.2.1.  Generated by Identity Provider

   The identity provider, if issuing a bearer assertion for use with
   this mechanism, SHOULD provide a generated key for use by the
   initiator and acceptor.  This key is used as the protocol key for a
   specific encryption type defined in accordance with [RFC3961].  The
   key is base64-encoded and placed inside a <samlec:GeneratedKey>
   element.  The element's Algorithm XML attribute is set to the
   encryption type name from the registry established by [RFC3961].

   The <samlec:GeneratedKey> element is placed within a <samlec:
   SessionKey> element, and this element is placed within the <saml:
   Advice> element of the assertion issued.  A copy of the element is
   also added as a SOAP header block in the response from the identity
   provider to the client.

   The identity provider is left to determine which encryption type the
   parties should use.  It is unspecified how the initiator's



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   capabilities are determined in this respect, but the acceptor MAY
   indicate the algorithms it supports in its SAML metadata by means of
   one or more <SessionKeyMethod> elements in an <samlmd:Extensions>
   element, and an identity provider can leverage this information.
   Multiple such extension elements may appear, in order of preference
   by the acceptor.

   All parties MUST support the "aes128-cts-hmac-sha1-96" encryption
   type, defined by [RFC3962].

5.2.2.  Derived Session Keys

   In the event that a client is proving possession of a secret or
   private key, a formal key agreement algorithm may be supported.  For
   example, if the server has an elliptic curve public key, the ECDH-ES
   key agreement algorithm, as defined in [XMLENC11] may be used.

   In such a case, the initiator communicates to the acceptor what
   algorithm to use and any inputs to the process using a <SessionKey>
   SOAP header block containing a <ds:KeyInfo> element, added to the
   client response to the acceptor.  The <ds:KeyInfo> element will
   typically contain an <xenc11:DerivedKey> element conforming to
   [XMLENC11].  The <ds:KeyInfo> element may also contain other
   extensible content related to key establishment mechanisms defined
   elsewhere.

5.3.  Per-Message Tokens

   The per-message tokens SHALL be the same as those for the Kerberos V5
   GSS-API mechanism [RFC4121] (see Section 4.2 and sub-sections).

   The replay_det_state (GSS_C_REPLAY_FLAG), sequence_state
   (GSS_C_SEQUENCE_FLAG), conf_avail (GSS_C_CONF_FLAG) and integ_avail
   (GSS_C_CONF_FLAG) security context flags are always set to TRUE.

   The "protocol key" SHALL be a session key established in a manner
   described in the previous section.  "Specific keys" are then derived
   as usual as described in Section 2 of [RFC4121], [RFC3961], and
   [RFC3962].

   The terms "protocol key" and "specific key" are Kerberos V5 terms
   [RFC3961].

   SAML20EC is PROT_READY as soon as the SAML response message has been
   seen.






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5.4.  Pseudo-Random Function (PRF)

   The GSS-API has been extended with a Pseudo-Random Function (PRF)
   interface in [RFC4401].  The purpose is to enable applications to
   derive a cryptographic key from an established GSS-API security
   context.  This section defines a GSS_Pseudo_random that is applicable
   for the SAML20EC GSS-API mechanism.

   The GSS_Pseudo_random() [RFC4401] SHALL be the same as for the
   Kerberos V5 GSS-API mechanism [RFC4402].  There is no acceptor-
   asserted sub-session key, thus GSS_C_PRF_KEY_FULL and
   GSS_C_PRF_KEY_PARTIAL are equivalent.  The protocol key to be used
   for the GSS_Pseudo_random() SHALL be the same as the key defined in
   the previous section.

5.5.  GSS-API Principal Name Types for SAML EC

   Services that act as SAML relying parties are typically identified by
   means of a URI called an "entityID".  Clients that are named in the
   <Subject> element of a SAML assertion are typically identified by
   means of a <NameID> element, which is an extensible XML structure
   containing, at minimum, an element value that names the subject and a
   Format attribute.

   In practice, a GSS-API client and server are unlikely to know in
   advance the name of the initiator as it will be expressed by the SAML
   identity provider upon completion of authentication.  It is also
   generally incorrect to assume that a particular acceptor name will
   directly map into a particular RP entityID, because there is often a
   layer of naming indirection between particular services on hosts and
   the identity of a relying party in SAML terms.

   To avoid complexity, and avoid unnecessary use of XML within the
   naming layer, the SAML EC mechanism relies on the common/expected
   name types used for acceptors and initiators,
   GSS_C_NT_HOSTBASED_SERVICE and GSS_C_NT_USER_NAME.  The mechanism
   provides for validation of the host-based service name in conjunction
   with the SAML exchange.  It does not attempt to solve the problem of
   mapping between an initiator "username", the user's identity while
   authenticating to the identity provider, and the information supplied
   by the identity provider to the acceptor.  These relationships must
   be managed through local policy at the initiator and acceptor.

   SAML-based information associated with the initiator SHOULD be
   expressed to the acceptor using GSS-API naming extensions
   [I-D.ietf-kitten-gssapi-naming-exts], in accordance with
   [I-D.ietf-abfab-gss-eap-naming].




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5.5.1.  User Naming Considerations

   The GSS_C_NT_USER_NAME form represents the name of an individual
   user.  Clients often rely on this value to determine the appropriate
   credentials to use in authenticating to the identity provider, and
   supply it to the server for use by the acceptor.

   Upon successful completion of this mechanism, the server MUST
   construct the authenticated initiator name based on the <saml:NameID>
   element in the assertion it successfully validated.  The name is
   constructed as a UTF-8 string in the following form:

     name = element-value "!" Format  "!" NameQualifier
         "!" SPNameQualifier "!" SPProvidedID

   The "element-value" token refers to the content of the <saml:NameID>
   element.  The other tokens refer to the identically named XML
   attributes defined for use with the element.  If an attribute is not
   present, which is common, it is omitted (i.e., replaced with the
   empty string).  The Format value is never omitted; if not present,
   the SAML-equivalent value of
   "urn:oasis:names:tc:SAML:1.1:nameid-format:unspecified" is used.

   Not all SAML assertions contain a <saml:NameID> element.  In the
   event that no such element is present, including the exceptional
   cases of a <saml:BaseID> element or a <saml:EncryptedID> element that
   cannot be decrypted, the GSS_C_NT_ANONYMOUS name type MUST be used
   for the initiator name.

   As noted in the previous section, it is expected that most
   applications able to rely on SAML authentication would make use of
   naming extensions to obtain additional information about the user
   based on the assertion.  This is particularly true in the anonymous
   case, or in cases in which the SAML name is pseudonymous or transient
   in nature.  The ability to express the SAML name in
   GSS_C_NT_USER_NAME form is intended for compatibility with
   applications that cannot make use of additional information.

5.5.2.  Service Naming Considerations

   The GSS_C_NT_HOSTBASED_SERVICE name form represents a service running
   on a host; it is textually represented as "service@host".  This name
   form is required by most SASL profiles and is used by many existing
   applications that use the Kerberos GSS-API mechanism.  Such a name is
   used directly by this mechanism as the effective
   AssertionConsumerService of the server.

   This value is used in the construction of the responseConsumerURL and



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   AssertionConsumerServiceURL attributes, and for eventual comparison
   and validation by the client before completing the exchange.  The
   value MUST be securely associated with the SAML entityID claimed by
   the server by the identity provider, such as through the use of SAML
   metadata [OASIS.saml-metadata-2.0-os].














































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6.  Example

   Suppose the user has an identity at the SAML IdP saml.example.org and
   a Jabber Identifier (jid) "somenode@example.com", and wishes to
   authenticate his XMPP connection to xmpp.example.com (and example.com
   and example.org have established a SAML-capable trust relationship).
   The authentication on the wire would then look something like the
   following:

   Step 1: Client initiates stream to server:


   <stream:stream xmlns='jabber:client'
   xmlns:stream='http://etherx.jabber.org/streams'
   to='example.com' version='1.0'>


   Step 2: Server responds with a stream tag sent to client:


   <stream:stream
   xmlns='jabber:client' xmlns:stream='http://etherx.jabber.org/streams'
   id='some_id' from='example.com' version='1.0'>


   Step 3: Server informs client of available authentication mechanisms:


   <stream:features>
    <mechanisms xmlns='urn:ietf:params:xml:ns:xmpp-sasl'>
     <mechanism>DIGEST-MD5</mechanism>
     <mechanism>PLAIN</mechanism>
     <mechanism>SAML20EC</mechanism>
    </mechanisms>
   </stream:features>


   Step 4: Client selects an authentication mechanism and sends the
   initial client response (it is base64 encoded as specified by the
   XMPP SASL protocol profile):


   <auth xmlns='urn:ietf:params:xml:ns:xmpp-sasl' mechanism='SAML20EC'>
   biwsLA==
   </auth>


   The initial response is "n,," which signals that channel binding is



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   not used, there is no authorization identity, and the client does not
   support key-based confirmation or want mutual authentication.

   Step 5: Server sends a challenge to client in the form of a SOAP
   envelope containing its SAML <AuthnRequest>:


<challenge xmlns='urn:ietf:params:xml:ns:xmpp-sasl'>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</challenge>


   The Base64 [RFC4648] decoded envelope:









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<S:Envelope
    xmlns:saml="urn:oasis:names:tc:SAML:2.0:assertion"
    xmlns:samlp="urn:oasis:names:tc:SAML:2.0:protocol"
    xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
  <S:Header>
    <paos:Request xmlns:paos="urn:liberty:paos:2003-08"
      messageID="c3a4f8b9c2d" S:mustUnderstand="1"
      S:actor="http://schemas.xmlsoap.org/soap/actor/next"
      responseConsumerURL="xmpp@xmpp.example.com"
      service="urn:oasis:names:tc:SAML:2.0:profiles:SSO:ecp"/>
    <ecp:Request
      xmlns:ecp="urn:oasis:names:tc:SAML:2.0:profiles:SSO:ecp"
      S:actor="http://schemas.xmlsoap.org/soap/actor/next"
      S:mustUnderstand="1" ProviderName="Jabber at example.com">
      <saml:Issuer>https://xmpp.example.com</saml:Issuer>
    </ecp:Request>
  </S:Header>
  <S:Body>
    <samlp:AuthnRequest
      ID="c3a4f8b9c2d" Version="2.0" IssueInstant="2007-12-10T11:39:34Z"
      ProtocolBinding="urn:oasis:names:tc:SAML:2.0:bindings:PAOS"
      AssertionConsumerServiceURL="xmpp@xmpp.example.com">
      <saml:Issuer xmlns:saml="urn:oasis:names:tc:SAML:2.0:assertion">
       https://xmpp.example.com
      </saml:Issuer>
      <samlp:NameIDPolicy AllowCreate="true"
        Format="urn:oasis:names:tc:SAML:2.0:nameid-format:persistent"/>
      <samlp:RequestedAuthnContext Comparison="exact">
       <saml:AuthnContextClassRef>
       urn:oasis:names:tc:SAML:2.0:ac:classes:PasswordProtectedTransport
       </saml:AuthnContextClassRef>
      </samlp:RequestedAuthnContext>
    </samlp:AuthnRequest>
  </S:Body>
</S:Envelope>


   Step 5 (alt): Server returns error to client:


   <failure xmlns='urn:ietf:params:xml:ns:xmpp-sasl'>
    <incorrect-encoding/>
   </failure>
   </stream:stream>


   Step 6: Client relays the request to IdP in a SOAP message
   transmitted over HTTP (over TLS).  HTTP portion not shown, use of



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   Basic Authentication is assumed.  The body of the SOAP envelope is
   exactly the same as received in the previous step.


   <S:Envelope
       xmlns:saml="urn:oasis:names:tc:SAML:2.0:assertion"
       xmlns:samlp="urn:oasis:names:tc:SAML:2.0:protocol"
       xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
       <S:Body>
           <samlp:AuthnRequest>
           <!-- same as above -->
           </samlp:AuthnRequest>
       </S:Body>
   </S:Envelope>


   Step 7: IdP responds to client with a SOAP response containing a SAML
   <Response> containing a short-lived SSO assertion (shown as an
   encrypted variant in the example).  A session key is included in the
   assertion and in a header for the client.































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  <S:Envelope
      xmlns:saml="urn:oasis:names:tc:SAML:2.0:assertion"
      xmlns:samlp="urn:oasis:names:tc:SAML:2.0:protocol"
      xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Header>
      <ecp:Response S:mustUnderstand="1"
        S:actor="http://schemas.xmlsoap.org/soap/actor/next"
        AssertionConsumerServiceURL="xmpp@xmpp.example.com"/>
      <samlec:SessionKey xmlns:samlec="urn:ietf:params:xml:ns:samlec">
        <samlec:GeneratedKey Algorithm="aes128-cts-hmac-sha1-96">
          3w1wSBKUosRLsU69xGK7dg==
        </samlec:GeneratedKey>
      </samlec:SessionKey>
    </S:Header>
    <S:Body>
      <samlp:Response ID="d43h94r389309r" Version="2.0"
          IssueInstant="2007-12-10T11:42:34Z" InResponseTo="c3a4f8b9c2d"
          Destination="xmpp@xmpp.example.com">
        <saml:Issuer>https://saml.example.org</saml:Issuer>
        <samlp:Status>
          <samlp:StatusCode
              Value="urn:oasis:names:tc:SAML:2.0:status:Success"/>
        </samlp:Status>
        <saml:EncryptedAssertion>
          <!-- contents elided, has copy of session key in Advice -->
        </saml:EncryptedAssertion>
      </samlp:Response>
    </S:Body>
  </S:Envelope>


   Step 8: Client sends SOAP envelope containing the SAML <Response> as
   a response to the SASL server's challenge:


















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<response xmlns='urn:ietf:params:xml:ns:xmpp-sasl'>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</response>


   The Base64 [RFC4648] decoded envelope:


  <S:Envelope
      xmlns:saml="urn:oasis:names:tc:SAML:2.0:assertion"
      xmlns:samlp="urn:oasis:names:tc:SAML:2.0:protocol"
      xmlns:S="http://schemas.xmlsoap.org/soap/envelope/">
    <S:Header>
      <paos:Response xmlns:paos="urn:liberty:paos:2003-08"
        S:actor="http://schemas.xmlsoap.org/soap/actor/next"
        S:mustUnderstand="1" refToMessageID="6c3a4f8b9c2d"/>
    </S:Header>
    <S:Body>
      <samlp:Response ID="d43h94r389309r" Version="2.0"
          IssueInstant="2007-12-10T11:42:34Z" InResponseTo="c3a4f8b9c2d"
          Destination="xmpp@xmpp.example.com">
        <saml:Issuer>https://saml.example.org</saml:Issuer>
        <samlp:Status>
          <samlp:StatusCode
              Value="urn:oasis:names:tc:SAML:2.0:status:Success"/>
        </samlp:Status>
        <saml:EncryptedAssertion>
          <!-- contents elided, has copy of session key in Advice -->
        </saml:EncryptedAssertion>
      </samlp:Response>
    </S:Body>



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  </S:Envelope>


   Step 9: Server informs client of successful authentication:


   <success xmlns='urn:ietf:params:xml:ns:xmpp-sasl'/>


   Step 9 (alt): Server informs client of failed authentication:


   <failure xmlns='urn:ietf:params:xml:ns:xmpp-sasl'>
    <temporary-auth-failure/>
   </failure>
   </stream:stream>


   Step 10: Client initiates a new stream to server:


   <stream:stream xmlns='jabber:client'
   xmlns:stream='http://etherx.jabber.org/streams'
   to='example.com' version='1.0'>


   Step 11: Server responds by sending a stream header to client along
   with any additional features (or an empty features element):


   <stream:stream xmlns='jabber:client'
   xmlns:stream='http://etherx.jabber.org/streams'
   id='c2s_345' from='example.com' version='1.0'>
   <stream:features>
    <bind xmlns='urn:ietf:params:xml:ns:xmpp-bind'/>
    <session xmlns='urn:ietf:params:xml:ns:xmpp-session'/>
   </stream:features>


   Step 12: Client binds a resource:


      <iq type='set' id='bind_1'>
        <bind xmlns='urn:ietf:params:xml:ns:xmpp-bind'>
          <resource>someresource</resource>
        </bind>
      </iq>




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   Step 13: Server informs client of successful resource binding:


      <iq type='result' id='bind_1'>
        <bind xmlns='urn:ietf:params:xml:ns:xmpp-bind'>
          <jid>somenode@example.com/someresource</jid>
        </bind>
      </iq>


   Please note: line breaks were added to the base64 for clarity.








































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7.  Security Considerations

   This section will address only security considerations associated
   with the use of SAML with SASL applications.  For considerations
   relating to SAML in general, the reader is referred to the SAML
   specification and to other literature.  Similarly, for general SASL
   Security Considerations, the reader is referred to that
   specification.

   Version 2.0 of the Enhanced Client or Proxy Profile [SAMLECP20] adds
   optional support for channel binding and use of "Holder of Key"
   subject confirmation.  The former is strongly recommended for use
   with this mechanism to detect "Man in the Middle" attacks between the
   client and the RP without relying on flawed commercial TLS
   infrastructure.  The latter may be impractical in many cases, but is
   a valuable way of strengthening client authentication, protecting
   against phishing, and improving the overall mechanism.

7.1.  Risks Left Unaddressed

   The adaptation of a web-based profile that is largely designed around
   security-oblivious clients and a bearer model for security token
   validation results in a number of basic security exposures that
   should be weighed against the compatibility and client simplification
   benefits of this mechanism.

   When channel binding is not used, protection against "Man in the
   Middle" attacks is left to lower layer protocols such as TLS, and the
   development of user interfaces able to implement that has not been
   effectively demonstrated.  Failure to detect a MITM can result in
   phishing of the user's credentials if the attacker is between the
   client and IdP, or the theft and misuse of a short-lived credential
   (the SAML assertion) if the attacker is able to impersonate a RP.
   SAML allows for source address checking as a minor mitigation to the
   latter threat, but this is often impractical.  IdPs can mitigate to
   some extent the exposure of personal information to RP attackers by
   encrypting assertions with authenticated keys.

7.2.  User Privacy

   The IdP is aware of each RP that a user logs into.  There is nothing
   in the protocol to hide this information from the IdP.  It is not a
   requirement to track the activity, but there is nothing technically
   that prohibits the collection of this information.  Servers should be
   aware that SAML IdPs will track - to some extent - user access to
   their services.  This exposure extends to the use of session keys
   generated by the IdP to secure messages between the parties.




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   It is also out of scope of the mechanism to determine under what
   conditions an IdP will release particular information to a relying
   party, and it is generally unclear in what fashion user consent could
   be established in real time for the release of particular
   information.  The SOAP exchange with the IdP does not preclude such
   interaction, but neither does it define that interoperably.

7.3.  Collusion between RPs

   Depending on the information supplied by the IdP, it may be possible
   for RPs to correlate data that they have collected.  By using the
   same identifier to log into every RP, collusion between RPs is
   possible.  SAML supports the notion of pairwise, or targeted/
   directed, identity.  This allows the IdP to manage opaque, pairwise
   identifiers for each user that are specific to each RP.  However,
   correlation is often possible based on other attributes supplied, and
   is generally a topic that is beyond the scope of this mechanism.  It
   is sufficient to say that this mechanism does not introduce new
   correlation opportunities over and above the use of SAML in web-based
   use cases.































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8.  IANA Considerations

8.1.  GSS-API and SASL Mechanism Registration

   The IANA is requested to assign a new entry for this GSS mechanism in
   the sub-registry for SMI Security for Mechanism Codes, whose prefix
   is iso.org.dod.internet.security.mechanisms (1.3.6.1.5.5) and to
   reference this specification in the registry.

   The IANA is requested to register the following SASL profile:

   SASL mechanism profiles: SAML20EC and SAML20EC-PLUS

   Security Considerations: See this document

   Published Specification: See this document

   For further information: Contact the authors of this document.

   Owner/Change controller: the IETF

   Note: None

8.2.  XML Namespace Name for SAML-EC

   A URN sub-namespace for XML constructs introduced by this mechanism
   is defined as follows:

   URI: urn:ietf:params:xml:ns:samlec

   Specification: See Appendix A of this document.

   Description: This is the XML namespace name for XML constructs
   introduced by the SAML Enhanced Client SASL and GSS-API Mechanisms.

   Registrant Contact: the IESG















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9.  References

9.1.  Normative References

   [OASIS.saml-bindings-2.0-os]
              Cantor, S., Hirsch, F., Kemp, J., Philpott, R., and E.
              Maler, "Bindings for the OASIS Security Assertion Markup
              Language (SAML) V2.0", OASIS
              Standard saml-bindings-2.0-os, March 2005.

   [OASIS.saml-core-2.0-os]
              Cantor, S., Kemp, J., Philpott, R., and E. Maler,
              "Assertions and Protocol for the OASIS Security Assertion
              Markup Language (SAML) V2.0", OASIS Standard saml-core-
              2.0-os, March 2005.

   [OASIS.saml-profiles-2.0-os]
              Hughes, J., Cantor, S., Hodges, J., Hirsch, F., Mishra,
              P., Philpott, R., and E. Maler, "Profiles for the OASIS
              Security Assertion Markup Language (SAML) V2.0", OASIS
              Standard OASIS.saml-profiles-2.0-os, March 2005.

   [RFC2119]  Bradner, S., "Key words for use in RFCs to Indicate
              Requirement Levels", BCP 14, RFC 2119, March 1997.

   [RFC2617]  Franks, J., Hallam-Baker, P., Hostetler, J., Lawrence, S.,
              Leach, P., Luotonen, A., and L. Stewart, "HTTP
              Authentication: Basic and Digest Access Authentication",
              RFC 2617, June 1999.

   [RFC4422]  Melnikov, A. and K. Zeilenga, "Simple Authentication and
              Security Layer (SASL)", RFC 4422, June 2006.

   [RFC4462]  Hutzelman, J., Salowey, J., Galbraith, J., and V. Welch,
              "Generic Security Service Application Program Interface
              (GSS-API) Authentication and Key Exchange for the Secure
              Shell (SSH) Protocol", RFC 4462, May 2006.

   [RFC4648]  Josefsson, S., "The Base16, Base32, and Base64 Data
              Encodings", RFC 4648, October 2006.

   [RFC5246]  Dierks, T. and E. Rescorla, "The Transport Layer Security
              (TLS) Protocol Version 1.2", RFC 5246, August 2008.

   [RFC6125]  Saint-Andre, P. and J. Hodges, "Representation and
              Verification of Domain-Based Application Service Identity
              within Internet Public Key Infrastructure Using X.509
              (PKIX) Certificates in the Context of Transport Layer



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              Security (TLS)", RFC 6125, March 2011.

   [SAMLECP20]
              Cantor, S., "SAML V2.0 Enhanced Client or Proxy Profile
              Version 2.0", OASIS Working Draft OASIS.sstc-saml-ecp-
              v2.0-wd06, October 2012.

   [W3C.soap11]
              Box, D., Ehnebuske, D., Kakivaya, G., Layman, A.,
              Mendelsohn, N., Nielsen, H., Thatte, S., and D. Winer,
              "Simple Object Access Protocol (SOAP) 1.1", W3C
              Note soap11, May 2000, <http://www.w3.org/TR/SOAP/>.

9.2.  Normative References for GSS-API Implementers

   [I-D.ietf-abfab-gss-eap-naming]
              Hartman, S. and J. Howlett, "Name Attributes for the GSS-
              API EAP mechanism", draft-ietf-abfab-gss-eap-naming-06
              (work in progress), October 2012.

   [I-D.ietf-kitten-gssapi-naming-exts]
              Williams, N., Johansson, L., Hartman, S., and S.
              Josefsson, "GSS-API Naming Extensions",
              draft-ietf-kitten-gssapi-naming-exts-15 (work in
              progress), May 2012.

   [RFC2743]  Linn, J., "Generic Security Service Application Program
              Interface Version 2, Update 1", RFC 2743, January 2000.

   [RFC3961]  Raeburn, K., "Encryption and Checksum Specifications for
              Kerberos 5", RFC 3961, February 2005.

   [RFC3962]  Raeburn, K., "Advanced Encryption Standard (AES)
              Encryption for Kerberos 5", RFC 3962, February 2005.

   [RFC4121]  Zhu, L., Jaganathan, K., and S. Hartman, "The Kerberos
              Version 5 Generic Security Service Application Program
              Interface (GSS-API) Mechanism: Version 2", RFC 4121,
              July 2005.

   [RFC4401]  Williams, N., "A Pseudo-Random Function (PRF) API
              Extension for the Generic Security Service Application
              Program Interface (GSS-API)", RFC 4401, February 2006.

   [RFC4402]  Williams, N., "A Pseudo-Random Function (PRF) for the
              Kerberos V Generic Security Service Application Program
              Interface (GSS-API) Mechanism", RFC 4402, February 2006.




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   [RFC5554]  Williams, N., "Clarifications and Extensions to the
              Generic Security Service Application Program Interface
              (GSS-API) for the Use of Channel Bindings", RFC 5554,
              May 2009.

   [RFC5801]  Josefsson, S. and N. Williams, "Using Generic Security
              Service Application Program Interface (GSS-API) Mechanisms
              in Simple Authentication and Security Layer (SASL): The
              GS2 Mechanism Family", RFC 5801, July 2010.

   [XMLENC11]
              Hirsch, F. and T. Roessler, "XML Encryption Syntax and
              Processing Version 1.1", W3C Editor's Draft W3C.xmlenc-
              core-11-ed, September 2012.

9.3.  Informative References

   [OASIS.saml-metadata-2.0-os]
              Cantor, S., Moreh, J., Philpott, R., and E. Maler,
              "Metadata for the Security Assertion Markup Language
              (SAML) V2.0", OASIS Standard saml-metadata-2.0-os,
              March 2005.

   [RFC2616]  Fielding, R., Gettys, J., Mogul, J., Frystyk, H.,
              Masinter, L., Leach, P., and T. Berners-Lee, "Hypertext
              Transfer Protocol -- HTTP/1.1", RFC 2616, June 1999.

   [RFC3920]  Saint-Andre, P., Ed., "Extensible Messaging and Presence
              Protocol (XMPP): Core", RFC 3920, October 2004.

   [RFC4559]  Jaganathan, K., Zhu, L., and J. Brezak, "SPNEGO-based
              Kerberos and NTLM HTTP Authentication in Microsoft
              Windows", RFC 4559, June 2006.

   [W3C.REC-xmlschema-1]
              Thompson, H., Beech, D., Maloney, M., and N. Mendelsohn,
              "XML Schema Part 1: Structures", W3C REC-xmlschema-1,
              May 2001, <http://www.w3.org/TR/xmlschema-1/>.













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Appendix A.  Appendix A.  XML Schema

   The following schema formally defines the
   "urn:ietf:params:xml:ns:samlec" namespace used in this document, in
   conformance with [W3C.REC-xmlschema-1] While XML validation is
   optional, the schema that follows is the normative definition of the
   constructs it defines.  Where the schema differs from any prose in
   this specification, the schema takes precedence.











































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 <schema
   targetNamespace="urn:ietf:params:xml:ns:samlec"
   xmlns="http://www.w3.org/2001/XMLSchema"
   xmlns:ds="http://www.w3.org/2000/09/xmldsig#"
   xmlns:S="http://schemas.xmlsoap.org/soap/envelope/"
   xmlns:samlec="urn:ietf:params:xml:ns:samlec"
   elementFormDefault="unqualified"
   attributeFormDefault="unqualified"
   blockDefault="substitution"
   version="1.0">

   <import namespace="http://www.w3.org/2000/09/xmldsig#"/>
   <import namespace="http://schemas.xmlsoap.org/soap/envelope/"/>

   <element name="SessionKey" type="samlec:SessionKeyType"/>
   <complexType name="SessionKeyType">
     <choice>
       <element ref="samlec:GeneratedKey"/>
       <element ref="ds:KeyInfo"/>
     </choice>
     <attribute ref="S:mustUnderstand"/>
     <attribute ref="S:actor"/>
   </complexType>

   <element name="GeneratedKey" type="samlec:GeneratedKeyType"/>
   <complexType name="GeneratedKeyType">
     <simpleContent>
       <extension base="base64Binary">
         <attribute name="Algorithm" type="string" use="required"/>
       </extension>
     </simpleContent>
   </complexType>

   <element name="SessionKeyMethod" type="samlec:SessionKeyMethodType"/>
   <complexType name="SessionKeyMethodType">
     <sequence>
       <any namespace="##any" processContents="lax"
         minOccurs="0" maxOccurs="unbounded"/>
     </sequence>
     <attribute name="Algorithm" type="anyURI" use="required"/>
   </complexType>
 </schema>









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Appendix B.  Acknowledgments

   The authors would like to thank Klaas Wierenga, Sam Hartman, Nico
   Williams, and Jim Basney for their contributions.















































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Appendix C.  Changes

   This section to be removed prior to publication.

   o  04, stripped down the session key material to simplify it, and
      define an IdP-brokered keying approach, moved session key XML
      constructs from OASIS draft into this one

   o  03, added TLS key export as a session key option, revised GSS
      naming material based on list discussion

   o  02, major revision of GSS-API material and updated references

   o  01, SSH language added, noted non-assumption of HTTP error
      handling, added guidance on life of security context.

   o  00, Initial Revision, first WG-adopted draft.  Removed support for
      unsolicited SAML responses.

































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Authors' Addresses

   Scott Cantor
   Shibboleth Consortium
   2740 Airport Drive
   Columbus, Ohio  43219
   United States

   Phone: +1 614 247 6147
   Email: cantor.2@osu.edu


   Simon Josefsson
   SJD AB
   Hagagatan 24
   Stockholm  113 47
   SE

   Email: simon@josefsson.org
   URI:   http://josefsson.org/































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