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From "DRAGOSH, PAMELA L (PAM)" <pdrag...@research.att.com>
Subject Re: [VOTE] [PROPOSAL] Accept OpenAz (Access Control Tools) into the Apache Incubator
Date Thu, 08 Jan 2015 13:44:47 GMT
+1


Pam

Pamela L. Dragosh
PMTS ­ Research
One AT&T Way
4D-170P
Bedminster, NJ 07921
908-901-2120 - Office
pdragosh@research.att.com



On 1/5/15, 2:04 PM, "Hal Lockhart" <hal.lockhart@oracle.com> wrote:

>I added a comma and the word "and" to the Mentors section. The Mentors
>are:
>
>Emmanuel Lécharny, Colm O hEigeartaigh and Hadrian Zbarcea
>
>Do you see any other formatting errors?
>
>Hal
>
>> -----Original Message-----
>> From: Roman Shaposhnik [mailto:roman@shaposhnik.org]
>> Sent: Monday, January 05, 2015 1:24 PM
>> To: general@incubator.apache.org
>> Subject: Re: [VOTE] [PROPOSAL] Accept OpenAz (Access Control Tools)
>> into the Apache Incubator
>>
>> Hi!
>>
>> can you please fix the formatting issues? For example, I can't even
>> tell the exact list of mentors you're proposing.
>>
>> Thanks,
>> Roman.
>>
>> On Mon, Jan 5, 2015 at 10:15 AM, Hal Lockhart <hal.lockhart@oracle.com>
>> wrote:
>> > I call a vote to accept OpenAz as a new Incubator project.
>> >
>> > The proposal can be found here:
>> > https://wiki.apache.org/incubator/OpenAZProposal
>> >
>> > and is included below in this email.
>> >
>> > Voting will remain open until at least January 20, 2015 23:00 ET.
>> >
>> > Hal Lockhart
>> >
>> > ---------------------------------------------------------------------
>> -
>> > -----------------
>> >
>> > Abstract
>> >
>> > OpenAz is a project to create tools and libraries to enable the
>> development of Attribute-based Access Control (ABAC) Systems in a
>> variety of languages. In general the work is at least consistent with
>> or actually conformant to the OASIS XACML Standard.
>> >
>> > Proposal
>> >
>> > Generally the work falls into two categories: ready to use tools
>> which implement standardized or well understood components of an ABAC
>> system and design proposals and proof of concept code relating to less
>> well understood or experimental aspects of the problem.
>> >
>> > Much of the work to date has revolved around defining interfaces
>> enabling a PEP to request an access control decision from a PDP. The
>> XACML standard defines an abstract request format in xml and protocol
>> wire formats in xaml and json, but it does not specify programmatic
>> interfaces in any language. The standard says that the use of XML (or
>> JSON) is not required only the semantic equivalent.
>> >
>> > The first Interface, AzAPI is modeled closely on the XACML defined
>> interface, expressed in Java. One of the goals was to support calls to
>> both a PDP local to the same process and a PDP in a remote server.
>> AzAPI includes the interface, reference code to handle things like the
>> many supported datatypes in XACML and glue code to mate it to the open
>> source Sun XACML implementation.
>> >
>> > Because of the dependence on Sun XACML (which is XACML 2.0) the
>> interface was missing some XACML 3.0 features. More recently this was
>> corrected and WSo2 has mated it to their XACML 3.0 PDP. Some work was
>> done by the JPMC team to support calling a remote PDP. WSo2 is also
>> pursuing this capability.
>> >
>> > A second, higher level interface, PEPAPI was also defined. PEPAPI is
>> more intended for application developers with little knowledge of
>> XACML. It allows Java objects which contain attribute information to be
>> passed in. Conversion methods, called mappers extract information from
>> the objects and present it in the format expected by XACML. Some
>> implementers have chosen to implement PEPAPI directly against their
>> PDP, omitting the use of AzAPI. Naomaru Itoi defined a C++ interface
>> which closely matches the Java one.
>> >
>> > Examples of more speculative work include: proposals for registration
>> and dispatch of Obligation and Advice handlers, a scheme called AMF to
>> tell PIPs how to retrieve attributes and PIP code to implement it,
>> discussion of PoC code to demonstrate the use of XACML policies to
>> drive OAuth interations and a proposal to use XACML policies to express
>> OAuth scope.
>> >
>> > AT&T has recently contributed their extensive XACML framework to the
>> project.
>> >
>> > The AT&T framework represents the entire XACML 3.0 object set as a
>> collection of Java interfaces and standard implementations of those
>> interfaces. The AT&T PDP engine is built on top of this framework and
>> represents a complete implementation of a XACML 3.0 PDP, including all
>> of the multi-decision profiles. In addition, the framework also
>> contains an implementation of the OASIS XACML 3.0 RESTful API v1.0 and
>> XACML JSON Profile v1.0 WD 14. The PEP API includes annotation
>> functionality, allowing application developers to simply annotate a
>> Java class to provide attributes for a request. The annotation support
>> removes the need for application developers to learn much of the API.
>> >
>> > The AT&T framework also includes interfaces and implementations to
>> standardize development of PIP engines that are used by the AT&T PDP
>> implementation, and can be used by other implementations built on top
>> of the AT&T framework. The framework also includes interfaces and
>> implementations for a PAP distributed cloud infrastructure of PDP nodes
>> that includes support for policy distribution and pip configurations.
>> This PAP infrastructure includes a web application administrative
>> console that contains a XACML 3.0 policy editor, attribute dictionary
>> support, and management of PDP RESTful node instances. In addition,
>> there are tools available for policy simulation.
>> >
>> > Background
>> >
>> > Access Control is in some ways the most basic IT Security service. It
>> consists of making a decision about whether a particular request should
>> be allowed and enforcing that decision. Aside from schemes like
>> permission bits and Access Control Lists (ACLs) the most common way
>> access control is implemented is as code in a server or application
>> which typically intertwines access control logic with business logic,
>> User interface and other software. This makes it difficult to
>> understand, modify, analyze or even locate the security policy. The
>> primary challenge of Access Control is striking the right balance
>> between powerful expression and intelligibility to human beings.
>> >
>> > The OASIS XACML Standard exemplifies Attribute-Based Access Control
>> (ABAC). In ABAC, the Policy Decision Point (PDP) is isolated from other
>> components. The Policy Enforcement Point (PEP) must be located so as to
>> be able to enforce the decision, typically near the resource. The PEP
>> first asks the PDP if access should be allowed and provides data, in
>> the form of Attributes, to be used as input to the policies held by the
>> PDP.
>> >
>> > In addition to responding permit or deny, XACML allows a policy to
>> emit Obligations or Advice, which direct the PEP to do certain things,
>> such logging the access or failure or promising to get rid of the data
>> after 30 days.
>> >
>> > Attributes are identified as being in a certain category which
>> represents one element in the proposed access. For example attributes
>> may be associated with the resource being accessed, the action being
>> taken or the environment, .e.g. date/time. Attributes may also be
>> associated with any or several types of Subjects, which represent the
>> active parties to the access, such as the requester, intermediaries,
>> the recipient (if different), the codebase, the machine executing the
>> code.
>> >
>> > Attributes may be provided by the PEP and usually at least a few are,
>> but Attributes may also added by other components of the system. It is
>> also possible for a PDP to add attributes in the middle of policy
>> evaluation. All of these obtain Attributes from the Policy Information
>> Point (PIP).
>> >
>> > The Policy Administration Point (PAP) creates policies and manages
>> then through their life cycles and generally the entire infrastructure.
>> >
>> > The XACML language is essentially a set of expressions which evaluate
>> to a Boolean. If true the policy is said to be applicable. The Policy
>> contains permit or deny and may include Permissions and or Advice. If
>> policies disagree we resolve the conflict with combining algorithms.
>> XACML provides some standard ones and you can implement your own.
>> Mostly they are common sense like drop non-applicable polices. A
>> commonly used algorithm is default deny. Deny overrides permit.
>> >
>> > Rationale
>> >
>> > Access Control may be the most basic security service, but for the
>> most part it remains primitive in practice. While other services like
>> message protection and authentication have seen many advances in recent
>> years and decades, deployed access control systems are opaque,
>> difficult to us and harder to manage. Most organizations claim that
>> they have security policies, protect privacy and accurately report
>> financial results, but in practice they have no real way of discovering
>> whether their systems actually behave the way they are alleged to do.
>> >
>> > Just the foreground problems relating to deploying practical ABAC
>> systems make a formidable list. If only the PDP knows what the policies
>> are, how do we make sure it gets the attributes it needs to evaluate
>> policies? How can we name organize, register and dispatch Obligations
>> and Advice, allowing handlers to be provided by the system and added by
>> users? How can the XACML 3.0 feature of being able to create your own
>> attribute categories best be supported by the infrastructure and
>> utilized by users? What are the best ways to create and test policies?
>> What tools will best help us analyze the effects of the policies in
>> force?
>> >
>> > However, new requirements are rapidly being introduced and need to be
>> met. Privacy requirements continue to increase in complexity and scope.
>> Data which moves around, such as documents, need to be protected. We
>> need secure ways to delegate authority without undermining the
>> integrity of the access control system. New applications, business and
>> social relationships are driving the need for new policy and delegation
>> capabilities.
>> >
>> > We believe that the way to meet these challenges is to get more
>> people actively engaged in using what is currently available so they
>> can understand its limitations and make it better. We need to make it
>> far easier to get a basic access control infrastructure up and running.
>> We need more people who are familiar with XACML the way many people are
>> familiar with SQL. If as some people say, XACML is the assembly
>> language of access control, we need the real world experience with it
>> that will lead us to the useful abstractions that can be implemented in
>> higher level languages and other tools.
>> >
>> > Initial Goals
>> >
>> > Work is currently underway to extend the PEPAPI and increase its
>> flexibility. Since it does not directly correspond to any standard the
>> way AzAPI does, it is necessary to struggle with the issues of what to
>> expose and what to hide from consumers of the API.
>> >
>> > Other work in progress involves the architecture of Obligations and
>> Advice. There is also an effort to develop a remote client which can
>> easily be dropped into any Java environment and make decision requests
>> of any commercial or open source XACML PDP.
>> >
>> > The contribution of AT&T's framework creates a need to integrate the
>> prior work with it. Most of the focus will be on AzAPI and the
>> corresponding AT&T API, which do largely the same thing. The result is
>> likely to be a synthesis, since each has features the other lacks. Then
>> PEPAPI will need to be integrated with the new API. The AT&T PDP and
>> PAP will be incorporated as is. There has been some parallel work done
>> in the area of PIPs. Work will be required to understand how to proceed
>> here.
>> >
>> > Current Status
>> >
>> > Meritocracy
>> >
>> > The project was started by Prateek Mishra, Rich Levinson and Hal
>> Lockhart in 2010. Rich Levinson wrote most of the AzAPI and PEPAPI
>> code. Naomaru Itoi defined the C++ version of the PEPAPI. In 2013
>> Duanhua Tu and Ajith Nair contributed code both using and extending
>> AzAPI and PEPAPI and incorporating PIPs using the AMF as originally
>> proposed by Hal Lockhart. In 2013 Erik Rissanen, Srijith Nair and Rich
>> Levinson updated AzAPI to include all XACML 3.0 features. In 2014 Pam
>> Dragosh and Chris Rath contributed the XACML infrastructure they had
>> developed at AT&T.
>> >
>> > During most of its history the project has been very small and has
>> made decisions by informal consensus. Major design issues have been
>> decided by open debate. Minor issues and experimental proposals have
>> been openly welcomed. Several of the participants have a background in
>> open consensus-based standards making.
>> >
>> > In addition to the mailing list, the project has regular phone calls
>> every other Thursday.
>> >
>> > Community
>> >
>> > The original focus of the project was to attract developers of XACML
>> products, either individuals or corporations, and to build alignment
>> among vendors on a common API that could simplify technical integration
>> for their customers. As OpenAz has matured, our community has grown to
>> include application developers working to adopt and deploy XACML in
>> their applications. So, for example, contributions reflect what
>> individual developers have learned in vertical industries such as
>> financial services, healthcare, and computing and communications
>> services, and our APIs and internal component architecture have evolved
>> to reflect a strong practical understanding of what it takes to deploy
>> XACML applications in a large organization.
>> >
>> > Core Developers
>> >
>> > The following developers have written most of the code to date.
>> >
>> > Pam Dragosh <pdragosh at research dot att dot com> Rich Levinson <
>> > rich.levinson at oracle dot com> Ajith Nair <ajithkumar.r.nair at
>> > jpmchase dot com> Chris Rath <car at research dot att dot com>
>> Duanhua
>> > Tu <duanhua.tu at jpmchase dot com>
>> >
>> > The following people made other significant technical contributions.
>> >
>> > David Laurence <david.c.laurance at jpmorgan dot com> Hal Lockhart
>> > <hal.lockhart at oracle dot com> Prateek Mishra prateek.mishra at
>> > oracle dot com>
>> >
>> > Alignment
>> >
>> > It has always been a goal to make OpenAz an Apache project. The
>> Apache license was used for all contributions. We believe the project
>> has now reached a critical size in terms of developers, organizations
>> and contributed code to make it appropriate to make a proposal to the
>> Incubator.
>> >
>> > Known Risks
>> >
>> > Orphaned Projects
>> >
>> > Given the small size of the project, there is a risk of the project
>> being orphaned. There seems to be strong interest in the use of our
>> tools, which should markedly increase with the contribution of the AT&T
>> code. "Where can I get an open source PDP?" and "where can I get an
>> open source policy editor?" are frequent questions on XACML mailing
>> lists.
>> >
>> > Inexperience with Open Source
>> >
>> > While few of the developers have extensive experience with open
>> source, a number of us have long experience in standards making in open
>> consensus-based environments. For example the XACML TC has operated
>> since 2001 based on consensus building, with few, if any votes which
>> were not unanimous. The main challenge to the project will be managing
>> the process with more participants and a more formal process.
>> >
>> > Homogeneous Developers
>> >
>> > Currently all the contributors are employees either of companies
>> offering an XACML product or large end users deploying XACML technology
>> for internal use. The positive aspect is that they are all highly
>> experienced senior developers used to operating in a disciplined
>> environment. The disadvantage is that the focus to date has mostly been
>> problems that arise in large scale environments typified by the
>> infrastructure of large corporations.
>> >
>> > Reliance on Salaried Developers
>> >
>> > All current committers are salaried developers. However the
>> organizations they work for have a long term commitment to the
>> technology. We hope that in the Apache foundation we will be able to
>> attract new developers to help us address the many fascinating unsolved
>> technological problems associated with deploying ABAC.
>> >
>> > Relationship with other Apache Projects
>> >
>> > As far as we can determine, no existing Apache project overlaps with
>> OpenAz in its goals of the technology developed so far. However, beyond
>> the immediate project goals there are many potential opportunities for
>> integration with existing Apache projects. Shiro, Turbine and WSS4J are
>> Java frameworks which could incorporate XACML as the policy language
>> using OpenAz components. Manifold CF, Qpid and Archiva already have
>> hooks to incorporate external access control systems.
>> >
>> > An Excessive Fascination with the Apache Brand
>> >
>> > We hope that becoming an Apache project will not only attract new
>> participants to OpenAz, but will draw attention to the neglected field
>> of access control. As previously stated it has always been our goal to
>> join Apache, the only question was when the time was ripe.
>> >
>> > Documentation
>> >
>> > The OpenAz web site is:
>> >
>> > http://www.openliberty.org/wiki/index.php/OpenAz_Main_Page
>> >
>> > Java docs can be found here:
>> >
>> >
>> http://openaz.svn.sourceforge.net/viewvc/openaz/trunk/openaz/test/doc/
>> > index.html
>> >
>> > Initial Source
>> >
>> > The AzAPI, PEPAPI and other related code can be found on sourceforge:
>> >
>> > http://openaz.svn.sourceforge.net/viewvc/openaz/
>> >
>> > AT&T's framework can be found on github:
>> >
>> > https://github.com/att/XACML
>> >
>> > Source and Intellectual Property Submission Plan
>> >
>> > All the OpenAz code has been submitted under the Apache 2.0 license.
>> The AT&T software is available under the MIT license. Over time the
>> project will move to a single license.
>> >
>> > External Dependencies
>> >
>> > There aren't any we are aware of.
>> >
>> > Cryptography
>> >
>> > OpenAz does not provide any cryptographic capabilities. The XACML
>> Standard does specify some uses of cryptography directly, e.g. digital
>> signatures over policies and others by implication, e.g. authentication
>> via cryptography.
>> >
>> > Required Resources
>> >
>> > Mailing lists
>> >
>> > The standard lists should be sufficient at the current time.The
>> mailing list name will be openaz.
>> >
>> > Git Directory
>> >
>> > We propose:
>> > https://git-wip-us.apache.org/repos/asf/incubator-openaz.git
>> >
>> > Issue Tracking
>> >
>> > The project will use JIRA for issue tracking.
>> >
>> > Initial Committers
>> >
>> > Rich Levinson Hal Lockhart Prateek Mishra David Laurance Duanhua Tu
>> > Ajith Nair Srijith Nair Pam Dragosh Chris Rath
>> >
>> > Affiliations
>> >
>> > Rich Levinson, Hal Lockhart and Prateek Mishra work for Oracle. David
>> Laurance, Duanhua Tu and Ajith Nair work for JP Morgan-Chase. Srijith
>> Nair works for Axiomatics. Pam Dragosh and Chris Rath work for AT&T.
>> >
>> > Sponsors
>> >
>> > Champion
>> >
>> > Paul Fremantle
>> >
>> > Nominated Mentors
>> >
>> > Emmanuel Lécharny Colm O hEigeartaigh Hadrian Zbarcea
>> >
>> > Sponsoring Entity
>> >
>> > The Sponsoring Entity will be the Incubator.
>> >
>> > ---------------------------------------------------------------------
>> > To unsubscribe, e-mail: general-unsubscribe@incubator.apache.org
>> > For additional commands, e-mail: general-help@incubator.apache.org
>> >
>>
>> ---------------------------------------------------------------------
>> To unsubscribe, e-mail: general-unsubscribe@incubator.apache.org
>> For additional commands, e-mail: general-help@incubator.apache.org
>>
>
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