XACML

XACML stands for "eXtensible Access Control Markup Language". The standard defines a declarative fine-grained, attribute-based access control policy language,[1] an architecture, and a processing model describing how to evaluate access requests according to the rules defined in policies.

As a published standard specification, one of the goals of XACML is to promote common terminology and interoperability between access control implementations by multiple vendors. XACML is primarily an Attribute Based Access Control system (ABAC), where attributes (bits of data) associated with a user or action or resource are inputs into the decision of whether a given user may access a given resource in a particular way. Role-based access control (RBAC) can also be implemented in XACML as a specialization of ABAC.

The XACML model supports and encourages the separation of the access decision from the point of use. When access decisions are baked into client applications (or based on local machine userids and Access Control Lists (ACLs)), it is very difficult to update the decision criteria when the governing policy changes. When the client is decoupled from the access decision, authorization policies can be updated on the fly and affect all clients immediately.

History

Version 1.0 was ratified by OASIS standards organization in 2003.

Version 2.0 was ratified by OASIS standards organization on February 1, 2005.

The first committee specification of XACML 3.0 was released August 10, 2010.[2] The latest version, XACML 3.0, was standardized in January 2013.[3]

Architecture

This image shows the XACML architecture and a sample authorization flow.

Terminology

Non normative terminology (following RFC 2904, except for PAP)

Term Description
PAP Policy Administration Point - Point which manages access authorization policies
PDP Policy Decision Point - Point which evaluates access requests against authorization policies before issuing access decisions
PEP Policy Enforcement Point - Point which intercepts user's access request to a resource, makes a decision request to the PDP to obtain the access decision (i.e. access to the resource is approved or rejected), and acts on the received decision
PIP Policy Information Point - The system entity that acts as a source of attribute values (i.e. a resource, subject, environment)
PRP Policy Retrieval Point - Point where the XACML access authorization policies are stored, typically a database or the filesystem.

Flow

  1. A user sends a request which is intercepted by the PEP
  2. The PEP converts the request into a XACML authorization request
  3. The PEP forwards the authorization request to the Policy Decision Point (PDP)
  4. The PDP evaluates the authorization request against the policies it is configured with. If needed it also retrieves attribute values from underlying Policy Information Points.
  5. The PDP reaches a decision (Permit / Deny / NotApplicable / Indeterminate) and returns it to the PEP

Policy elements

Structural elements

XACML is structured into 3 levels of elements:

A policy set can contain any number of policy elements and policy set elements. A policy can contain any number of rule elements.[4]

Attributes and categories

Policies, policy sets, rules and requests all use subjects, resources, environments, and actions.

Targets

XACML provides a target,[5] which is basically a set of simplified conditions for the subject, resource, and action that must be met for a policy set, policy, or rule to apply to a given request. Once a policy or policy set is found to apply to a given request, its rules are evaluated to determine the access decision and response.

In addition to being a way to check applicability, target information also provides a way to index policies, which is useful if you need to store many policies and then quickly sift through them to find which ones apply. When a request to access that service arrives, the PDP will know where to look for policies that might apply to this request because the policies are indexed based on their target constraints. Note that a target may also specify that it applies to any request.

Policy set, policy and rule can all contain target elements.

Conditions

Conditions only exist in rules. Conditions are essentially an advanced form of a target which can use a broader range of functions and more importantly can be used to compare two or more attributes together, e.g. subject-id==doctor-id. With conditions, it is possible to implement segregation of duty checks or relationship-based access control.

Obligations

Within XACML, a concept called obligations can be used. An obligation is a directive from the policy decision point (PDP) to the policy enforcement point (PEP) on what must be carried out before or after an access is approved. If the PEP is unable to comply with the directive, the approved access may or must not be realized. The augmentation of obligations eliminates a gap between formal requirements and policy enforcement. An example of an obligation could look like this:

Access control rule:

         Allow access to resource MedicalJournal with attribute patientID=x 
               if Subject match DesignatedDoctorOfPatient
               and action is read
         with obligation
              on Permit: doLog_Inform(patientID, Subject, time)
              on Deny  : doLog_UnauthorizedLogin(patientID, Subject, time)

The XACML's obligation can be an effective way to meet formal requirements (non-repudiation for example) that can be hard to implement as access control rules. Furthermore, any formal requirements will be part of the access control policy as obligations and not as separate functions, which makes policies consistent and centralization of the IT environment easier to achieve.

Combining algorithms

What happens in XACML if there are two rules (or policies) that contradict each other? Imagine for instance a first rule that would say managers can view documents and a second rule that would say no one can work before 9am. What if the request is about Alice trying to view a document at 8am? Which rule wins? This is what combining algorithms tell us. They help resolve conflicts.

XACML defines a number of combining algorithms[6] that can be identified by a RuleCombiningAlgId or PolicyCombiningAlgId attribute of the <Policy> or <PolicySet> elements, respectively. The rule-combining algorithm defines a procedure for arriving at an access decision given the individual results of evaluation of a set of rules. Similarly, the policy-combining algorithm defines a procedure for arriving at an access decision given the individual results of evaluation of a set of policies.

XACML 3.0

Schema

http://docs.oasis-open.org/xacml/3.0/xacml-core-v3-schema-wd-17.xsd

New in XACML 3.0

New profiles

Delegation

The implementation of delegation is new in XACML 3.0. The delegation mechanism is used to support decentralized administration of access policies. It allows an authority (delegator) to delegate all or parts of its own authority or someone else's authority to another user (delegate) without any need to involve modification of the root policy.

This is because, in this delegation model, the delegation rights are separated from the access rights. These are instead referred to as administrative control policies.[7] Access control and administrative policies work together as in the following scenario:

A partnership of companies' many services are protected by an access control system. The system implements the following central rules to protect its resources and to allow delegation:

Access control rules:

             Allow access
                   to resource with attribute WebService 
                   if subject is Employee and action is read or write. 
             

Administration control rules:

             Allow delegation of access control rule #1
                     to subjects with attribute Consultant.
             Conditions: 
                        delegation must expire within 6 months,
                        resource must not have attribute StrictlyInternal.
              

(Attributes can be fetched from an external source, e.g. a LDAP catalog.)

When a consultant enters the corporation, a delegation can be issued locally by the consultant's supervisor, authorizing the consultant access to systems directly.

The delegator (the supervisor in this scenario) may only have the right to delegate a limited set of access rights to consultants.

Other features

Other new features of XACML 3.0 are listed at http://www.webfarmr.eu/2010/07/enhancements-and-new-features-in-xacml-3-axiomatics/

The XACML TC is also publishing a list of changes here: http://wiki.oasis-open.org/xacml/DifferencesBetweenXACML2.0AndXACML3.0

Implementations

Name XACML version Technology License Profiles supported
Axiomatics Policy Server XACML 3.0 Java, .NET Commercial Core, Multiple Decision Profile, JSON Profile of XACML, REST Profile of XACML, ...
ndg-xacml XACML 2.0 Python Open Source Core
SunXACML XACML 2.0 Java Open Source Core
Balana XACML 3.0 Java Open Source Core
OpenAZ (Apache Incubator, previously AT&T XACML) XACML 3.0 Java Apache 2 Core, Multiple Decision Profile, JSON Profile of XACML, REST Profile of XACML

Developer orientation

In 2013 and 2014, the XACML Technical Committee focused on designing new profiles to facilitate developer integration. These include:

All three profiles were showcased at the Cloud Identity Summit 2014 in Monterey, California. Using these profiles, integrating fine-grained authorization into applications becomes much easier.

See also

Notes

External links

This article is issued from Wikipedia - version of the Thursday, April 28, 2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.