SIP H. Tschofenig Internet-Draft Siemens Expires: April 25, 2005 J. Peterson NeuStar, Inc. J. Polk Cisco D. Sicker CU Boulder M. Tegnander Siemens October 25, 2004 Using SAML for SIP draft-tschofenig-sip-saml-01.txt Status of this Memo This document is an Internet-Draft and is subject to all provisions of section 3 of RFC 3667. By submitting this Internet-Draft, each author represents that any applicable patent or other IPR claims of which he or she is aware have been or will be disclosed, and any of which he or she become aware will be disclosed, in accordance with RFC 3668. Internet-Drafts are working documents of the Internet Engineering Task Force (IETF), its areas, and its working groups. Note that other groups may also distribute working documents as Internet-Drafts. 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." The list of current Internet-Drafts can be accessed at http://www.ietf.org/ietf/1id-abstracts.txt. The list of Internet-Draft Shadow Directories can be accessed at http://www.ietf.org/shadow.html. This Internet-Draft will expire on April 25, 2005. Copyright Notice Copyright (C) The Internet Society (2004). Abstract Tschofenig, et al. Expires April 25, 2005 [Page 1] Internet-Draft Using SAML for SIP October 2004 This document describes how to use the Security Assertion Markup Language (SAML) to offer trait-based authorization. As such, it provides an alternative to existing authorization mechanisms for SIP. Table of Contents 1. Introduction . . . . . . . . . . . . . . . . . . . . . . . . 3 2. Terminology . . . . . . . . . . . . . . . . . . . . . . . . 4 3. Goals and Non-Goals . . . . . . . . . . . . . . . . . . . . 5 4. SAML Introduction . . . . . . . . . . . . . . . . . . . . . 6 4.1 Assertions . . . . . . . . . . . . . . . . . . . . . . . . 6 4.2 Artifact . . . . . . . . . . . . . . . . . . . . . . . . . 7 4.3 Request/Response Protocol . . . . . . . . . . . . . . . . 7 4.4 Bindings . . . . . . . . . . . . . . . . . . . . . . . . . 7 4.5 Profiles . . . . . . . . . . . . . . . . . . . . . . . . . 8 5. Assertion Handling Models . . . . . . . . . . . . . . . . . 9 6. Scenarios . . . . . . . . . . . . . . . . . . . . . . . . . 14 6.1 Network Asserted Identities . . . . . . . . . . . . . . . 14 6.2 SIP Conferencing . . . . . . . . . . . . . . . . . . . . . 16 6.3 PSTN-to-SIP Phone Call . . . . . . . . . . . . . . . . . . 17 6.4 Compensation using SIP and SAML . . . . . . . . . . . . . 18 7. SIP-SAML Extension . . . . . . . . . . . . . . . . . . . . . 20 8. Example . . . . . . . . . . . . . . . . . . . . . . . . . . 21 9. Requirement Comparison . . . . . . . . . . . . . . . . . . . 23 10. Security Considerations . . . . . . . . . . . . . . . . . . 24 10.1 Stolen Assertion . . . . . . . . . . . . . . . . . . . . 24 10.2 MitM Attack . . . . . . . . . . . . . . . . . . . . . . 24 10.3 Forged Assertion . . . . . . . . . . . . . . . . . . . . 24 10.4 Replay Attack . . . . . . . . . . . . . . . . . . . . . 25 11. Contributors . . . . . . . . . . . . . . . . . . . . . . . . 26 12. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . 27 13. IANA Considerations . . . . . . . . . . . . . . . . . . . . 28 14. Open Issues . . . . . . . . . . . . . . . . . . . . . . . . 29 15. References . . . . . . . . . . . . . . . . . . . . . . . . . 32 15.1 Normative References . . . . . . . . . . . . . . . . . . . 32 15.2 Informative References . . . . . . . . . . . . . . . . . . 32 Authors' Addresses . . . . . . . . . . . . . . . . . . . . . 34 A. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . 35 Intellectual Property and Copyright Statements . . . . . . . 36 Tschofenig, et al. Expires April 25, 2005 [Page 2] Internet-Draft Using SAML for SIP October 2004 1. Introduction This document proposes a method for using the Security Assertion Markup Language (SAML) in collaboration with SIP to acommodate richer authorization mechanisms and enable trait- based authorization where you are authenticated using roles or traits instead of identity. A motivation for trait based authorization and some scenarios are presented in [I-D.ietf-sipping-trait-authz]. Security Assertion Markup Language (SAML)[I-D.saml-tech-overview-1.1-03] is an XML extension for security information exchange that is being developed by OASIS. SAML enables users to gain access to multiple website resources without having to re-authenticate every time the domain changes. The first authentication would be transferred to subsequent domains using SAML. To provide trait-based authorization a few solutions are possible: authorization certificates, SPKI or extensions to the authenticated identity body [I-D.ietf-sip-authid-body]. The authors selected SAML due to the amount of work done in the area of SAML which provides some assurance that this technology is mature enough. Tschofenig, et al. Expires April 25, 2005 [Page 3] Internet-Draft Using SAML for SIP October 2004 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 [RFC2119]. The SIP entity 'Authentication Service' was introduced with [I-D.ietf-sip-identity]. The Authentication Service is the entity that authenticates and authorizes a user and creates an Assertion. This entity is the equivalent of the asserting party in the SAML terminology. For terminology related to SAML the reader is referred to [I-D.saml-tech-overview-1.1-03]. Tschofenig, et al. Expires April 25, 2005 [Page 4] Internet-Draft Using SAML for SIP October 2004 3. Goals and Non-Goals This document tries to accomplish the following goals: o This document defines how SAML assertions are carried in the SIP. As such, the usage of SAML Assertions within SIP can be seen as a SAML profile. o The requirements and scenarios defined in [I-D.ietf-sipping-trait-authz] are compared to the solution described in this document by utilizing SAML assertions. The following issues are outside the scope of this document: o The configuration of the Authentication Service in order to attach certain assertions is outside the scope of this specification and might depend on the environment where SIP is used. To avoid restricting the functionality of SIP either as an in-band or an out-of-band mechanism, it can be defined to trigger the inclusion of SAML assertions. SAML itself provides mechanisms for this purpose. o The attributes stored in Assertions are, for example, roles, membership to a certain organization, specific access rights or information about the authentication. A definition of most of these attributes is application dependent and not defined in this document. The SAML specification itself provides a number of common attributes and provides extension points for future enhancements. A brief overview of the available attributes within an Assertion is given in Section 4.1. o SIP is not used as a request/response protocol between the Relying Party and the Asserting Party to fetch an Assertion based on a received Artifact. Tschofenig, et al. Expires April 25, 2005 [Page 5] Internet-Draft Using SAML for SIP October 2004 4. SAML Introduction In SAML there are three main entities: the user, the asserting party and the relying party. A user requests and Assertions and receives them after a successful authentication and authorization protocol execution. The asserting party provides assurance that a particular user has been given proper authorization. The relying party has to trust the asserting party with regard to the provided information and then decides whether or not to accept the assertions provided, giving different levels of privileges. The components of SAML are: o Assertions/Artifact o Request/Response protocols o Bindings o Profiles We describe each in turn below 4.1 Assertions An Assertion is a package of information including authentication statements, attribute statements and authorization decision statements. All kinds of statements do not have to be present, but at least one. An Assertion contains several elements: Issuing information: Who issued the assertion, when was it issued and the assertion identifier. Subject information: The name of the subject, the security domain and optional subject information, like public key. Conditions under which the assertion is valid: Special kind of conditions like assertion validity period, audience restriction and target restriction. Tschofenig, et al. Expires April 25, 2005 [Page 6] Internet-Draft Using SAML for SIP October 2004 Additional advice: Explaining how the assertion was made, for example. In an authentication statement, an issuing authority asserts that a certain subject was authenticated by certain means at a certain time. In an attribute statement, an issuing authority asserts that a certain subject is associated with certain attributes which has certain values. For example, user jon@cs.example.com is associated with the attribute 'Department', which has the value 'Computer Science'. In an authorization decision statement, a certain subject with a certain access type to a certain resource has given certain evidence that the identity is correct. Based on this, the relying party then makes the decision on giving access or not. The subject could be a human or a program, the resource could be a webpage or a web service, for example. 4.2 Artifact The artifact used in the Browser/Artifact profile, is a base-64 encoded string which is 40 bytes long. 20 bytes consists of the typecode, which is the source id. The remaining 20 bytes consists of a 20-byte random number that servers use to look up an assertion. The source server stores the assertion temporarily. The destination server receives the artifact and pulls the assertion from the source site. The purpose of the artifact is to act as a token who references an assertion for the subject who holds the artifact. 4.3 Request/Response Protocol SAML defines a request/response protocol for obtaining Assertions. The request asks for an Assertion or makes queries for authentication, attribute and authorization decisions. The response is carrying back the requested Assertion. 4.4 Bindings The bindings in SAML maps between the SAML protocol and a transport and messaging protocol. With SAML Version 1.1 there is only one binding specified, which is SAML embedded in SOAP-over-HTTP. In a binding, a transport and messaging protocol is used only for transporting the request/response mechanism. Tschofenig, et al. Expires April 25, 2005 [Page 7] Internet-Draft Using SAML for SIP October 2004 4.5 Profiles When using a profile, SAML is used to provide assertions about a resource in the body of the message itself. In Version 1.1 of SAML, there are two profiles specified, the Browser/Artifact profile and the Browser/POST profile. The Browser/Artifact profile represents a "pull" model, where a special reference to the assertion called an artifact, is sent to the relying party from the asserting party. The artifact is then used to "pull" the assertion from the asserting party. The Browser/POST profile represents a "push" model, where an assertion is posted (using the HTTP POST command) directly to the relying party. These two models are described in Figure 1 and Figure 2. Tschofenig, et al. Expires April 25, 2005 [Page 8] Internet-Draft Using SAML for SIP October 2004 5. Assertion Handling Models As mentioned in Section 4.5, two main models can be used in SAML and therefore also with the SIP-SAML extension defined in this document: The Push and the Pull model. In the Pull model the end host requests an assertion from the Asserting Party and receives, after successful authentication and authorization, an Artifact. The Artifact is a special form of an Assertion. This Artifact can be compared with the call-by reference approach where a reference to the Assertion is stored at the Asserting Party and can later be dereferenced into the real assertion on a request by a replying party. The Relying Party later fetches the SAML Assertion after receiving a request by the user which includes the Artifact. For communicating the SAML request and response messages, a separate message exchange is needed with a protocol such as SOAP or HTTP. This is outside the scope of this document. Tschofenig, et al. Expires April 25, 2005 [Page 9] Internet-Draft Using SAML for SIP October 2004 +----------+ +--------------+ +--------------+ | User | | Asserting | | Relying | | | | Party | | Party | +----+-----+ +------+-------+ +------+-------+ | | | | Request Assertion | | |--------------------->| | | | | | User Authentication | | | and Authorization | | |<---------------------| | |--------------------->| | | | | | Artifact | | |<---------------------| | | | | | Request + Artifact | |----------------------+------------------------->| | | | | | SAML request | | |<-------------------------| | | | | |SAML response + Assertion | | |------------------------->| | | | | Accept/Reject | |<---------------------+--------------------------| | | | Figure 1: SAML Pull model With the Push model, the user requests an Assertion from the Asserting Party. The user can also trigger the Asserting Party to attach an Assertion to the request. The Assertion, which is added to the service request, can be verified by the Relying Party without additional protocol interactions with the Asserting Party. The Assertion therefore contains enough information to authorize the service request. This model realizes a call-by value style of communication. Tschofenig, et al. Expires April 25, 2005 [Page 10] Internet-Draft Using SAML for SIP October 2004 +----------+ +--------------+ +--------------+ | User | | Asserting | | Relying | | | | Party | | Party | +----+-----+ +------+-------+ +------+-------+ | | | | Request Assertion | | |--------------------->| | | | | | | | | User Authentication | | | and Authorization | | |<---------------------| | |--------------------->| | | | | | | | | Assertion | | |<---------------------| | | | | | Request + Assertion | |----------------------+------------------------->| | | | | | | | Accept/Reject | |<---------------------+--------------------------| | | | Figure 2: SAML Push model The usage of SAML in HTTP-based environments and in SIP is, however, affected by some architectural differences. The function of the entities in the Push and the Pull model are shown in Figure 1 and in Figure 2. The user has to request an Assertion at the Asserting Party and both entities mutually authenticate each other. The requested Assertion is sent to the user in a confidential manner to prevent eavesdroppers from obtaining this Assertion. The Relying Party trusts the Asserting Party. It is assumed that the accessed resource is located at the Relying Party and that this entity does not become malicious or act on behalf of the user to impersonate him or her to other parties with regard to access to his resources. To prevent some degree of misuse, attributes in the Assertion limit its applicability for certain applications, servers or time frame. Signaling in SIP can, however, involve a number of entities in more complex scenarios. As an example, the scenario addressed in [I-D.ietf-sip-identity] aims to replace end-to-end authentication via Tschofenig, et al. Expires April 25, 2005 [Page 11] Internet-Draft Using SAML for SIP October 2004 S/MIME by a "mediated authentication architecture". The end hosts only need to be able to verify Assertions signed by an Authentication Service which guarantees that the sender was authenticated. Directly applying SAML to such a scenario, however, causes a problem: a SIP proxy, which securely receives a SAML Assertion (such as confidentially protected to prevent eavesdroppers between the SIP UA and the SIP proxy to learn the Assertion), can store this Assertion to impersonate the user in future requests towards other SIP end users. The fact that multiple parties see the Assertion along the path (i.e., SIP proxies) make the situation worse. The Assertion might include some attributes which restrict its usage (such as recipient(s), unique identifier for the message or a time-based constraint) but they cannot fully prevent impersonation. This problem appears if SAML Assertions are not bound to a particular protocol run. Binding the Assertion to a particular protocol session is not useful if the property of single-sign on is required. To provide referential integrity, a solution as mentioned in [I-D.ietf-sip-authid-body] can be used. which allows a party in a SIP transaction to cryptographically sign the headers that assert the identity of the originator of a message, and provide some other headers necessary for reference integrity. An authenticated identity body (AIB) is a MIME body of type 'message/sipfrag'. This MIME body has a Content-Disposition type of 'aib'. The MIME body is optional. The header fields From, Contact, Date and Call-ID must be used for providing identity. Contact and Date header fields are required for providing reference integrity. AIBs may contain other headers that help to uniquely identify the transaction or that provides related reference integrity. The requirements for a non-INVITE AIB is very much the same as for an INVITE: From, Call-ID, Date and Contact header fields are required. The same that goes for requests also goes for responses with some small differences. The From header field of the AIB in the response to an INVITE must correspond to the address-of-record of the responder and not the From header field in the received request. The To header field of the request must not be included. A new Date header field has to be generated for the response while the Call-ID and CSeq are copied from the request. Following is an example of the format of an AIB for an INVITE: Tschofenig, et al. Expires April 25, 2005 [Page 12] Internet-Draft Using SAML for SIP October 2004 Content-Type: message/sipfrag Content-Disposition: aib; handling=optional From: Alice To: Bob Contact: Date: Thu, 26 Aug 2004 13:51:34 GMT Call-ID: b76m5l94s90835 CSeq: 435431 INVITE Figure 3: AIB Format for an INVITE The same concept is applicable to this document as well with regard to reference integrity. For a further discussion on this topic see Section 14 and [I-D.peterson-message-identity]. Tschofenig, et al. Expires April 25, 2005 [Page 13] Internet-Draft Using SAML for SIP October 2004 6. Scenarios This section shows message flows based on scenarios in [I-D.ietf-sipping-trait-authz] enriched with a SAML based solution. Section 6.1 provides an example of enhanced network asserted identities and Section 6.2 shows a SIP conferencing scenario with role-based access control using SAML. A future version of this document will cover more scenarios from [I-D.ietf-sipping-trait-authz]. 6.1 Network Asserted Identities Figure 4 shows an enhanced network asserted identity scenario based on [I-D.ietf-sip-identity] which again utilizes extensions proposed with [I-D.ietf-sip-authid-body]. The enhancement is based on the attributes asserted by the Authentication Service. Figure 4 shows three entities, Alice@example.com, AS@example.com and Bob@example2.com. If Alice wants to communicate with Bob, she sends a SIP INVITE to her preferred AS. Depending on the chosen SIP security mechanism either digest authentication, S/MIME or Transport Layer Security is used to provide the AS with a strong assurance about the identity of Alice. During this step authorization attributes for inclusion into the SAML Assertion can be selected. After Alice is authenticated and authorized, a SAML assertion is attached to the SIP message. The Authentication Service can be configured to attach a number of assertions, not limited to the authenticated identity. To bind the SAML assertion to a specific SIP session, it is necessary for the AS to compute a hash of some fields of the message. A list of the fields to hash is described in [I-D.ietf-sip-identity] and particularly in [I-D.ietf-sip-authid-body]. The hash is digitally signed and inserted into the SAML assertion and placed into the SAML header. The SAML header also contains information about the entity which created the digital signature. Upon reception of the message, Bob verifies the signature of the SAML Assertion and verifies the binding to the SIP message in order to prevent cut-and-paste attacks. The provided SAML assertion can then be used to assist during the authorization procedure. If Bob does not understand the extension defined in this document, he silently ignores it. When the 200 OK message arrives at Bob's AS, the same procedure as when Alice sent her INVITE to her AS can be performed, if desired. This exchange is not shown in Figure 4. Note that this scenario does not imply that the SAML assertions are solely used by SIP UAs. Assertions can also be helpful for SIP Tschofenig, et al. Expires April 25, 2005 [Page 14] Internet-Draft Using SAML for SIP October 2004 proxies or B2B UAs. Additionally, a push model is shown in this section but it is reasonable to use a pull as well. For simplicity reasons a push model should be prefered since an additional message exchange between the Authentication Service and the UA can be omitted. +--------+ +--------------+ +--------+ |Alice@ | |Authentication| | Bob@ | |example | |Service | |example2| |.com | |@example.com | |com | | | | | | | +---+----+ +------+-------+ +---+----+ | | | | INVITE | | |---------------------->| | | From:alice@foo.com | | | | | | 407 Proxy auth. req. | | |<----------------------| | | Challenge | | | | | | Challenge response | | |---------------------->| | | | | | INVITE | | |---------------------->| | | | INVITE | | | + SAML assertion | | |--------------------->| | | | | 200 OK | | |<----------------------+----------------------| | | | Figure 4: Network Asserted Identities A variation of the scenario presented in Figure 4 is given in Figure 5 where an end host (Alice@example.com) obtains an Assertion from its SIP proxy server which acts as an Authentication Service. This assertion is then attached by the end host to the outgoing INVITE message. Unlike in case of an Artifact, Bob@example.com does not need to contact the Proxy Server. An example of this scenario could be to preempt a lower priority call if enough assurance for doing so is presented in the attached SAML assertion. This would also mean that there is a priority value included in the INVITE (for example in the Resource-Priority Header). Tschofenig, et al. Expires April 25, 2005 [Page 15] Internet-Draft Using SAML for SIP October 2004 +--------+ +--------------+ +--------+ | Alice@ | |Proxy Server | | Bob@ | |example | |(AS | |example | |.com | |@example.com | |.com | | | | | | | +---+----+ +------+-------+ +---+----+ | | | | INVITE | | |---------------------->| | | From:alice@example.com| | | | | | 407 Proxy auth. req. | | |<----------------------| | | SAML Auth Header | | | to use | | | | | | INVITE + SAML assertion | |-----------------------+--------------------->| | | | | 200 OK | | |<----------------------+----------------------| | | | Figure 5: End host attaching SAML Assertion Note that Bob and Alice do not need to be in the same administrative domain. It is feasible that Bob is in a domain that is federated with Alice's domain. The Assertion obtained by Alice@example.com needs to be associated with a particular SIP messaging session. How to achieve this binding is for further consideration. 6.2 SIP Conferencing This section is meant to raise some discussions about the usage of SAML in the domain of conferencing. A user who routes its SIP message through the Authentication Service (Asserting Party) towards a conferencing server may want SAML Assertions to be included. The following properties could be provided by this procedure: o The user identity can be replaced to allow the user to be anonymous with regard to the Focus o The user identity could be asserted to the Focus o The SAML Assertion could provide additional information such as group membership (belongs to the students, staff, faculty group of Tschofenig, et al. Expires April 25, 2005 [Page 16] Internet-Draft Using SAML for SIP October 2004 university X). This could, for non-identity-based authorization systems, imply certain rights. The corresponding SIP message flow (in high level detail) could have the following shape: +-----+ +-----------+ +-----------+ | | | SIP Proxy | | Focus | |User | |(Asserting | | (Relying | | | | party) | | party) | +--+--+ +-----+-----+ +-----+-----+ | INVITE | | |sip:conf-factory | | |------------------>| INVITE+SAML | | |------------------>| | | | | | Ringing | | Ringing |<------------------| |<------------------| | | | | | | OK | | OK |<------------------| |<------------------| | | | | | ACK | | |------------------>| ACK | | |------------------>| | | | | | | ... many more msgs... Figure 6: SIP Conferencing and SAML 6.3 PSTN-to-SIP Phone Call Alice, using a phone connected to the PSTN, wants to make a call to Bob, which resides in a SIP network. Her call is switched through the PSTN by means of PSTN signaling (outside the scope of this document) to the PSTN/SIP gateway. At the gateway, the call is converted from SS7 signaling to SIP signaling. Since Alice was previously 'authenticated' through PSTN signaling mechanisms, the gateway can create an assertion based on signaling information from Alice and digitally sign it with his private key. Alice's call is forwarded from the SIP/PSTN gateway to Bob's phone. Bob can certify that the identity of Alice is correct by examining the SAML Assertion. Tschofenig, et al. Expires April 25, 2005 [Page 17] Internet-Draft Using SAML for SIP October 2004 +-----------+ +----------------------+ | | | | SS7 | SIP/PSTN | | Public Switched |--------------------->| Gateway | | | | | | | | | | Telephone Network | +--+-----------+----+ | ^ | | | | +---------+------------+ | | SIP+SAML | | SS7 | v | | | +--------+ | O | | | | O /|\ <----+----| SIP | | /|\ / \ SIP+ | Proxy | | / \ Bob SAML | | | Alice | +--------+ | | SIP based | | Network | +-------------------+ Figure 7: PSTN to SIP call 6.4 Compensation using SIP and SAML This section briefly elaborates a scenario where SAML is used in SIP to realize compensation functionality as described in [I-D.jennings-sipping-pay] In addition to the scenario presented in Section 1 of [I-D.jennings-sipping-pay] the message exchange shown in Figure 8 is feasible. Alice initiates a communication with an Authentication Service which acts as a financial instuituation. Note that Alice does not necessarily need to use SIP for communication with the Authentication Service. Instead it might be possible to use HTTP or other protocols which offer the necessary user credential or offer additional information (such as a web page). After a successful authentication and authorization Alice obtains an Assertion (or an Artifact) which might contain payment relevant information. For a later service access Alice contacts the merchant Bob which the Assertion. Bob verifies the Assertion and, might want to contact the Authentication Service for a credit check. A financial settlement between the merchant Bob and the Trusted Third Party is assumed. Depending on the type of service a one-time payment with immediately amont capturing may take place (e.g., in case of a prepaid account) or the amount of captured as a batch transaction. The aspect of lighweight protocol execution is provided by Tschofenig, et al. Expires April 25, 2005 [Page 18] Internet-Draft Using SAML for SIP October 2004 o The alternative usage of an Artificat which leads to a lower bandwidth consumption. o The ability to use a single Assertion for multiple service access protocol executions, if desired. o SAML furthermore allows a cryptographic key to be bound to the Assertion. A high degree of flexibility is provided with regard to the possible credentials. For example, it might not be necessary to use public key cryptography with every service access. This might be useful if the cost of public key cryptographic is too expensive for a cheap service or when end hosts are performance constraint devices. In this case it might be useful to rely on symmetric cryptographic, such as hash chains. +--------+ +--------------+ +--------+ |User | |Authentication| |Merchant| |Alice | |Server | |Bob | | | |(Trusted Third| | | | | | Party) | | | +---+----+ +------+-------+ +---+----+ | | | | SIP, HTTP, etc. | | |---------------------->| | | | | | Assertion | | |<----------------------| | | | | | | | | INVITE + SAML assertion | |-----------------------+--------------------->| | | | | 200 OK | | |<----------------------+----------------------| | | | Figure 8: Message flow for SIP payment The message flow of Section 1 of [I-D.jennings-sipping-pay] can also be realized by defining information about the service cost. The main advantage between the above-describe mechanism and the one described in Section 1 is the type of user involvement and protocol interaction. In both cases it is possible to provide an indication to the user about the costs of a service access. In fact, the Assertion might specify these type of constraints directly or indirectly with the help of recurring service requests/responses. Tschofenig, et al. Expires April 25, 2005 [Page 19] Internet-Draft Using SAML for SIP October 2004 7. SIP-SAML Extension To carry SAML Assertions and Artifacts two mechanisms are defined: o The SIP header may either carry an Artificat or a CID URI [RFC2392] pointing to an Assertion in the SIP body. The name of this new SIP header is SAML-Payload. A SAML Artifact consists of a TypeCode, SourceID and an AssertionHandle. It is thereby assumed that the Relying Party will maintain a table of sourceID values as well as URLs for Asserting Parties to contact. This information is communicated out-of-band. This document also allows the Asserting Party to add a URL to point to the Assertion to prevent this level of indirection. o The SIP body may carry one or more SAML Assertions. The MIME type of this SAML Assertion is defined in [I-D.hodges-saml-mediatype]. A SIP user agent may add an Assertion to the body of a SIP message or may add a reference to the Assertion into the SIP header. SIP proxies MUST NOT add the Assertion to the boby. The SIP header MUST be used instead when an Assertion has to be added. A SAML Assertion SHOULD be protected and when added by a SIP entity then S/MIME MUST be used rather than XML digital signatures. To bind a SAML assertion to a SIP message a few selected SIP message fields are input to a hash function. The digest-string, defined in Section 10 of [I-D.ietf-sip-identity], is included into the conditions extension point of the SAML Assertion. Details are for further study. Tschofenig, et al. Expires April 25, 2005 [Page 20] Internet-Draft Using SAML for SIP October 2004 8. Example This is an example of a SAML assertion and how it is structured in XML. NameQualifier=alice@example.com Format="urn:oasis:names:tc:SAML:1.1:nameid- format:emailAddress">uid=alice urn:oasis:names:tc:SAML:1.0: cm:SIP-artifact-01 The elements in the Assertion have the following meaning: +---------------------+-----+-------------------------------+ | Tag name |Req- | Description | | |uired| | +---------------------+-----+-------------------------------+ |MajorVersion | X |Major version of the assertion | +---------------------+-----+-------------------------------+ |MinorVersion | X |Minor version of the assertion | +---------------------+-----+-------------------------------+ |AssertionID | X |ID of the assertion | +---------------------+-----+-------------------------------+ |Issuer | X |The name of the SAML authority | | | |that created the assertion | Tschofenig, et al. Expires April 25, 2005 [Page 21] Internet-Draft Using SAML for SIP October 2004 +---------------------+-----+-------------------------------+ |IssuerInstant | X |Issuing time of the assertion | +---------------------+-----+-------------------------------+ | | |Conditions that MUST be taken | |Conditions | |into account when assessing | | | |the validity of the assertion | +---------------------+-----+-------------------------------+ | | |Specifies | |AuthenticationMethod | X |what kind of authentication | | | |took place | +---------------------+-----+-------------------------------+ |AuthenticationInstant| X |Specifies the time when the | | | |authentication took place | +---------------------+-----+-------------------------------+ |Qualifier | |The name by which the subject | | | |is recognized | +---------------------+-----+-------------------------------+ | | |A URI reference representing | |Format | |the format of NameIdentifier | | | | | +---------------------+-----+-------------------------------+ | | |Specifies a subject by supply- | |SubjectConfirmation | |ing data that allows the sub- | | | |ject to be authenticated | +---------------------+-----+-------------------------------+ | | |Identifies | |ConfirmationMethod | |which method to be used for | | | |authenticating the subject | +---------------------+-----+-------------------------------+ Figure 10: Tag descriptions Tschofenig, et al. Expires April 25, 2005 [Page 22] Internet-Draft Using SAML for SIP October 2004 9. Requirement Comparison A future version of this document will compare the requirements listed in [I-D.ietf-sipping-trait-authz] with the solution provided in this document. Tschofenig, et al. Expires April 25, 2005 [Page 23] Internet-Draft Using SAML for SIP October 2004 10. Security Considerations This section discusses security considerations when using SAML with SIP. 10.1 Stolen Assertion Threat: If an eavesdropper can copy the real user's SAML response and included assertions and construct a SIP message of his own, then the eavesdropper could be able to impersonate the user at other SIP entities. Countermeasures: By providing adequate confidentiality, eavesdropping of a SAML assertion can be stopped. 10.2 MitM Attack Threat: Since the SAML assertion is carried within a SIP message, a malicious site could impersonate the user at some other SIP entities. These SIP entities would believe the adversary to be the subject of the assertion. Countermeasures: If the adversary is a not-participating in the SIP signaling itself (i.e., it is not a SIP proxy or a SIP UA), this threat can be eliminated by employing inherent SIP security mechanisms, such as TLS. However, if this entity is part of the communication itself then reference integrity needs to be provided. Assertions with tight restrictions (e.g., validity of the assertion) can also limit the possible damage. 10.3 Forged Assertion Threat: A malicious user could forge or alter a SAML assertion in order to communicate with the SIP entities. Tschofenig, et al. Expires April 25, 2005 [Page 24] Internet-Draft Using SAML for SIP October 2004 Countermeasures: To avoid this kind of attack, the entities must assure that proper mechanisms for protecting the SAML assertion needs to be in place. It is recommended to protect the Assertion using a digital signature. 10.4 Replay Attack Threat: In the case of using SIP with the SAML pull model, the threat of replay lies in the fact that the artifact is a one-time-use subject. The same artifact can be used again to gain access to resources. Countermeasures: Cases where multiple requests are made which references the same request must be tracked in order to avoid the threat. Tschofenig, et al. Expires April 25, 2005 [Page 25] Internet-Draft Using SAML for SIP October 2004 11. Contributors The authors would like to thank Henning Schulzrinne for his contributions to this document. Tschofenig, et al. Expires April 25, 2005 [Page 26] Internet-Draft Using SAML for SIP October 2004 12. Acknowledgments We would like to thank RL 'Bob' Morgan and Stefan Goeman for their comments to this draft. Tschofenig, et al. Expires April 25, 2005 [Page 27] Internet-Draft Using SAML for SIP October 2004 13. IANA Considerations This document contains a number of IANA considerations. A future version of this document will list them in this section. Tschofenig, et al. Expires April 25, 2005 [Page 28] Internet-Draft Using SAML for SIP October 2004 14. Open Issues This document raises a number of issues with regard to the SIP protocol interaction. Some of them are raised in this document (such as reference integrity, who is allowed to add which information, etc.) but a more detailed treatment of this topic with a focus of identity management is described in [I-D.peterson-message-identity]. In particular, the following sections are highly relevant for this document: Assertion Constraints and Scope: This aspect deals with the problem of binding a SIP Assertion to a specific SIP message. The goal is to provide a security property called reference integrity to prevent replay and impersonation attacks. As described in Section 5 that a number of fields can be used for this purpose. This document also considers scenarios where the SAML Assertion was obtained outside a SIP protocol run. In these cases SIP fields are not available to provide reference integrity. The concept of the holder-of-the-key assertion is described below and relevant for this discussion. Canonicalization versus Replication: To provide reference integrity a few selected fields need to be hashed, signed and placed into the Assertion. Two approaches are available for this purpose. Hence it needs to be studied how the interworking between reference integrity and the usage of obtained SAML assertion can be properly accomplished. For example, who indicates which fields are included? Placement of Assertions and Keys in Messages: This document assumes that the Assertions are added to the SIP body and Artifacts or references to Assertions located in the SIP body are added to the SIP header. A central question is therefore where these Assertions should be attached? Should the SIP user agent or intermediate SIP proxies add Assertions/Artifacts? In the scenarios depicted in Section 6, we have both approaches depending on what kind of scenario it is. In Figure 4, they are added at the UA and in contrast we have Figure 7, where the assertions are added at the PSTN/SIP gateway. MIME bodies can only be attached at the UA. Proxies by definition do not attach MIME bodies; if an intermediary were to do so, it would not be playing the proxy server role in the SIP architecture. The SIP content indirection mechanism [I-D.ietf-sip-content-indirect-mech] is also relevant in this Tschofenig, et al. Expires April 25, 2005 [Page 29] Internet-Draft Using SAML for SIP October 2004 discussion. To provide reference integrity (by binding a SIP session and a SAML Assertion together) two alternative approaches exist: Hashing of SIP message fields: If a hash is computed over a number of selected SIP fields and subsequently digitally signed then there is a some degree of protection that the Assertion cannot be copied to other SIP messages and reused. The drawback thereby is that the Assertion has a very limited time period. The hashed fields may vary from context to context. Holder-of-the-Key Assertion: SAML introduces the concept of a holder-of-the-key assertion to bind the Assertions (authorization information) to a cryptographic key. As a result, the end host which was quite passive when dealing with Assertions can be turned into an active protocol participant. The end host obtained the assertion and attached them to selected messages but did not provide any cryptographic computations with regard to the Assertion itself. With the end host being active in the protocol exchange security is improved a lot. Furthermore, it is possible to combine the benefits of the work done with SIPPING-CERT [I-D.ietf-sipping-certs] and this document by binding a self-signed certificate created by the user and stored at the credential server to an Assertion. As noted in Section 9 of [I-D.ietf-sipping-certs] in the context of signing SIP messages the usage of a self-signed certificate is not very helpful except used with an Authentication Service. Combined with a SAML Assertion the signature would protect the SIP message and the SAML Assertion would provide authorization information. A number of credentials can be used with the KeyInfo element of the Holder-of-the-Key Assertion as described in Section 4.4 of [xmldsig-core]. Further open issues are: o Some work on option-tags is required. Are there cases when processing of the assertion would be required by the sender? Or when a proxy server wants to be able to say that a UA must supply this header in order to access a particular resource? If so, an option-tag should be defined for this extension that can be used in Require, Supported, 420, etc. o Specific SAML confirmation method identifiers and identifiers for Tschofenig, et al. Expires April 25, 2005 [Page 30] Internet-Draft Using SAML for SIP October 2004 the bindings or profiles must be defined and registrered with OASIS. A confirmation method identifier is a URI that specifies which method should be used by the target domain to assure that the identity of the subject is true. This mechanism seems to be provide the same reference integrity properties as the hash over the various headers/bodies proposed in the identity draft. o Further use cases would be interesting. For example, a mechanism to provide additional security for the SIP REFER method [RFC3515]. o A few new URIs need to be registered. The proposed URIs for identification are: SIP Binding: urn:oasis:names:tc:SAML:1.0:bindings:SIP-binding Artifact profile: urn:oasis:names:tc:SAML:1.0:profiles:SIP-artifact-01 Assertion profile: urn:oasis:names:tc:SAML:1.0:profiles:SIP-assertion-01 o The proposed URIs for Confirmation Method Identifiers are: Artifact profile: urn:oasis:names:tc:SAML:1.0:cm:SIP-artifact-01 Assertion profile: urn:oasis:names:tc:SAML:1.0:cm:SIP-bearer o These are based on the URIs already used in the existing SOAP-SAML binding, specified in Section 3 of [I-D.saml-bindings-1.1]. o An alignment with the work done by Liberty Alliance on Federated Identities as described in [I-D.liberty-idff-arch-overview] would be useful. o The security consideration needs more details. Tschofenig, et al. Expires April 25, 2005 [Page 31] Internet-Draft Using SAML for SIP October 2004 15. References 15.1 Normative References [I-D.hodges-saml-mediatype] Hodges, J., "application/saml+xml Media Type Registration", draft-hodges-saml-mediatype-01 (work in progress), June 2004. [I-D.ietf-sipping-trait-authz] Peterson, J., "Trait-based Authorization Requirements for the Session Initiation Protocol (SIP)", draft-ietf-sipping-trait-authz-00 (work in progress), February 2004. [RFC2119] Bradner, S., "Key words for use in RFCs to Indicate Requirement Levels", March 1997. [RFC2392] Levinson, E., "Content-ID and Message-ID Uniform Resource Locators", RFC 2392, August 1998. 15.2 Informative References [I-D.ietf-sip-authid-body] Peterson, J., "SIP Authenticated Identity Body (AIB) Format", draft-ietf-sip-authid-body-03 (work in progress), May 2004. [I-D.ietf-sip-content-indirect-mech] Olson, S., "A Mechanism for Content Indirection in Session Initiation Protocol (SIP) Messages", draft-ietf-sip-content-indirect-mech-04 (work in progress), July 2004. [I-D.ietf-sip-identity] Peterson, J., "Enhancements for Authenticated Identity Management in the Session Initiation Protocol (SIP)", draft-ietf-sip-identity-03 (work in progress), September 2004. [I-D.ietf-sipping-certs] Jennings, C. and J. Peterson, "Certificate Management Service for SIP", draft-ietf-sipping-certs-00 (work in progress), October 2004. [I-D.jennings-sipping-pay] Jennings, C., "Payment for SIP Services", draft-jennings-sipping-pay-00 (work in progress), July Tschofenig, et al. Expires April 25, 2005 [Page 32] Internet-Draft Using SAML for SIP October 2004 2004. [I-D.liberty-idff-arch-overview] Wason, T., "Liberty ID-FF Architecture Overview", 2004. [I-D.peterson-message-identity] Peterson, J., "Security Considerations for Impersonation and Identity in Messaging Systems", draft-peterson-message-identity-00 (work in progress), October 2004. [I-D.saml-bindings-1.1] Maler, E., Philpott, R. and P. Mishra, "Bindings and Profiles for the OASIS Security Assertion Markup Language (SAML) V1.1", September 2003. [I-D.saml-core-1.1] Maler, E., Philpott, R. and P. Mishra, "Assertions and Protocol for the OASIS Security Assertion Markup Language (SAML) V1.1", September 2003. [I-D.saml-sec-consider-1.1] Maler, E. and R. Philpott, "Security and Privacy Considerations for the OASIS Security Markup Language (SAML) V1.1", September 2003. [I-D.saml-tech-overview-1.1-03] Maler, E. and J. Hughes, "Technical Overview of the OASIS Security Assertion Markup Language (SAML) V1.1", March 2004. [RFC2543] Handley, M., Schulzrinne, H., Schooler, E. and J. Rosenberg, "SIP: Session Initiation Protocol", RFC 2543, March 1999. [RFC3515] Sparks, R., "The Session Initiation Protocol (SIP) Refer Method", RFC 3515, April 2003. [xmldsig-core] Eastlake, D., Reagle, J. and D. Solo, "XML-Signature Syntax and Processing, W3C Recommendation (available at http://www.w3.org/TR/xmldsig-core/)", February 2002. Tschofenig, et al. Expires April 25, 2005 [Page 33] Internet-Draft Using SAML for SIP October 2004 Authors' Addresses Hannes Tschofenig Siemens Otto-Hahn-Ring 6 Munich, Bayern 81739 Germany EMail: Hannes.Tschofenig@siemens.com Jon Peterson NeuStar, Inc. 1800 Sutter St Suite 570 Concord, CA 94520 US EMail: jon.peterson@neustar.biz James Polk Cisco 2200 East President George Bush Turnpike Richardson, Texas 75082 US EMail: jmpolk@cisco.com Douglas C. Sicker University of Colorado at Boulder ECOT 430 Boulder, CO 80309 US EMail: douglas.sicker@colorado.edu Marcus Tegnander Siemens Otto-Hahn-Ring 6 Munich, Bayern 81739 Germany Tschofenig, et al. Expires April 25, 2005 [Page 34] Internet-Draft Using SAML for SIP October 2004 Appendix A. Acknowledgments We would like to thank RL 'Bob' Morgan for his comments to this draft. Tschofenig, et al. 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