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ABAC

The ABAC project has designed and implemented tools for using Attribute-Based Access Control, a scalable authorization system based on formal logic. It maps principals to attributes and uses the attribute to make an authorization decision, e.g., if user1 has the login attribute the login program will alllow them to log in. This library, libabac, is a base on which to build those tools. It is in use in the DETER federation system and being integrated with the GENI network testbed.

If you are new to ABAC, you may find the introductory material from our TIED project helpful. That material summarizes the power and semantics of ABAC and links to examples of ABAC policy illustrated using an early example of the Crudge ABAC policy browser.

The latest ABAC RT0 version is ABAC 0.1.4. Jump down to Source to download it.

What's Included

The core libabac distribution includes:

  • libabac, a linkable C/C++ library
  • Perl and Python bindings to libabac
  • A standalone java implementation
  • creddy, a command line credential management tool

These ABAC tools use libabac

Getting started: Installing libabac

Installing libabac is a straightforward configure, make, make install sequence. There are a few things to be careful of depending on your operating system.

Software Dependencies

Libabac depends on openssl and the xmlsec1 digital signature library. Most unix-like operating systems have openssl installed and have xmlsec1 as a standard package. The perl and python bingings are generated by swig 1.3, and the build system uses automake and some autoconf macros.

To set up Ubuntu for building libabac:

$ sudo apt-get -y install autoconf-archive automake g++ git-core libtool python-dev swig libxmlsec1-dev

Under FreeBSD, use the ports system to install the following packages:

devel/libtool
devel/automake
devel/autoconf-archive
devel/swig13
devel/pkg-config
security/xmlsec1
lang/perl
lang/python

If you plan to build the java implementation on Ubuntu you should also

$ apt-get -y install openjdk-7-jdk ant ant-optional

Similarly in FreeBSD install

devel/apache-ant
java/openjdk6

We have seen no differences under the various JDKs.

Installation

Then get the source, untar it, change to the abac-0.1.4 directory and do the standard install sequence:

# Ubuntu users: ./configure --prefix=/usr
$ ./configure
$ make
$ sudo make install

To confirm that your install succeeded:

$ cd examples
$ make

Libabac uses the standard GNU install prefix of /usr/local. If you are on Ububtu or another distribution that does not search /usr/local/lib for shared libraries, make sure you use ./configure --prefix=/usr

Tracking Development

If you would like to track the libabac development, you can pull code from out publically available git repository:

$ git clone git://abac.deterlab.net/abac.git

Current sources can be browsed on the web.

Releases

See the ChangeLog for details about each release

  • 2013-05-20: ABAC 0.1.4 released
  • 2011-04-11: Crudge 1.0 released
  • 2011-03-30: ABAC 0.1.3 released
  • 2010-10-01: ABAC 0.1.2 released
  • 2010-09-17 2010-09-20: ABAC 0.1.1 released
    • Update: We fixed a one-line bug in creddy. If you downloaded this over the weekend, please fetch it again.

Using libabac

Libabac allows developers to import signed ABAC statements about principals and attributes and prove that certain principals have those attributes (more detail about ABAC logic). The basic structures that libabac uses to support those operations are identities, attributes, and a context for those.

The API document lists all the interfaces to the library, but this section is intended to impart some meaning to the various structures. The java interface is slightly different in detail, but uses the same constructs. These examples use python so that the interested user can basically type along with the descriptions.

Identities

An identity in ABAC is a principal who has issued or can issue attributes (valid ABAC statements). libabac allows one to create new principals and to import identities from X.509 identity certificates. To create a principal from scratch (in python):

import ABAC

id = ABAC.ID("newGuy", 5*365*3600*24)

The first parameter is a common name to use for the identity and the second parameter is the validity. Associated with this identity is a public/private key pair that can be used to sign new ABAC attributes. In ABAC statements the principal is referred to an identifier derived from its public key. You can access that identitfer using the keyid() method:

import ABAC

id = ABAC.ID("newGuy", 5*365*3600*24)
print id.keyid()

prints something like:

481365b6eced33c0b06674d506b92f01f69e05fd

The other way to initialize an identity is to read the contents from an X.509 certificate file, or from the contents of such a file (referred to as a chunk):

import ABAC

id1 = ABAC.ID("./newGuy.pem")

try:
    f = open("./newGuy.pem")
    id2 = ABAC.ID_chunk(f.read())
    f.close()
except:
    pass

print "%s %s" % (id1.keyid(), id2.keyid())

The write_cert and write_cert_file methods write the X.509 certificate from an identity. The private keys can similarly be written using write_privkey_file and write_privkey and loaded with load_privkey. The following snippet creates an identity, writes it to 2 files and reads it from those files printing the results. The output files will not contain the private key.

import ABAC

id = ABAC.ID("newGuy", 5*365*3600*24)

id.write_cert_file("./newGuy.pem")

id1 = ABAC.ID("./newGuy.pem")

try:
    f = open("./newGuy.pem")
    id2 = ABAC.ID_chunk(f.read())
    f.close()
except:
    pass

print "%s %s %s" % (id.keyid(), id1.keyid(), id2.keyid())

Libabac generates self-signed certificates and does not check the signatures of imported certificates. Use an external library to do that.

Attributes

Attributes are the signed ABAC statements that make up proofs. libabac can import them from files and generate new ones. This section describes creating them.

As we have seen, an ABAC statement assigns an attribute (signed by an identity) to another identity or set of identities with a given attribute. Here is how libabac constructs an attribute encoding A.admin <- B. That attirbute means that identity A is assigning identity B the admin attribute for use in later proofs.

import ABAC

a = ABAC.ID("A", 24 * 3600 * 365 * 20)
b = ABAC.ID("B", 24 * 3600 * 365 * 20)

attr = ABAC.Attribute(a, "admin", 24 * 3600 * 365 * 20)
attr.principal(b.keyid())
attr.bake()

attr.write_file("attr.xml")

The Attribute constructor takes the issuing identity, the attribute being assigned and the validity period of the assertion (in seconds). This code assigns a principal to that class using the principal member. The role member and linking_role members can be used to construct the other kinds of attributes.

The bake member finalizes the attribute and creates a signed format for export, which one can write using the write and write_file members, that are analogous to write_cert and write_cert_file members of identities. Though applications may treat them as opaque, the current format is a signed XML format.

The bake method exists so that Attributes can contain conjunctions. If identity A wants to state that friendly admins are admins who are friendly (A.friendly_admin <- A.friendly & A.admin), this code will make it:

import ABAC

a = ABAC.ID("A", 24 * 3600 * 365 * 20)

attr = ABAC.Attribute(a, "friendly_admin", 24 * 3600 * 365 * 20)
attr.role(a.keyid(), "friendly")
attr.role(a.keyid(), "admin")
attr.bake()

attr.write_file("attr.xml")

Contexts and Proofs

An ABAC Context contains all the identities and assertions that are known in a specific authorization domain. Given a Context, a programmer loads the identities that are trusted to issue attributes and the attributes. A Context can load either of these from files or data chunks. In python and perl data chunks are strings/scalars while in C and C++ they are simple structs. IDs and Attributes export the cert_chunk method to support the translation. Here is an example of generating credentials and loading them into the a Context. This shows the A principal loading the (A.friendly_admin <- A.friendly & A.admin Attribute and then assigning friendly and admin attributes t identity B and C.

import ABAC

ctxt = ABAC.Context()

a = ABAC.ID("A", 24 * 3600 * 365 * 20)
b = ABAC.ID("B", 24 * 3600 * 365 * 20)
c = ABAC.ID("C", 24 * 3600 * 365 * 20)

attr = ABAC.Attribute(a, "friendly_admin", 24 * 3600 * 365 * 20)
attr.role(a.keyid(), "friendly")
attr.role(a.keyid(), "admin")
attr.bake()

ctxt.load_id_chunk(a.cert_chunk())
ctxt.load_attribute_chunk(attr.cert_chunk())

attr = ABAC.Attribute(a, "friendly", 24 * 3600 * 365 * 20)
attr.principal(b.keyid()) 
attr.bake()
ctxt.load_attribute_chunk(attr.cert_chunk())


attr = ABAC.Attribute(a, "admin", 24 * 3600 * 365 * 20)
attr.principal(b.keyid())
attr.bake()
ctxt.load_attribute_chunk(attr.cert_chunk())

attr = ABAC.Attribute(a, "admin", 24 * 3600 * 365 * 20)
attr.principal(c.keyid())
attr.bake()
ctxt.load_attribute_chunk(attr.cert_chunk())

Asking the question is done using ctxt.query(). The following asks if b is an A.friendly_admin:

# Same code as above to initialize the ids and load the context

ok, proof = ctxt.query(a.keyid() + ".friendly_admin", b.keyid())

The first parameter to Context.query is the attribute of interest and the second is the keyid of an identity. A tuple is returned holding (success, proof) where success is true if the identity has the attribute and proof is a list of abac statements that make up the proof.

Credentials and Roles

Credentials are the abstraction of ABAC statements and Roles are the abstraction of the terms of an ABAC statement. A Credential is made up of two Roles, a head and a tail that make the two sides of the ABAC statement. There are a set of accessors to parse the contents of a role, described in the API docs, and roles are primarily of interest in printing and exploring the proof.

Credentials are useful in communicating proof contents outside the program. In addition to head and tail accessors that access the Roles, a Credential has a attribute_cert() method that returns the exportable content of the assertion and an issuer_cert() that returns the issuer's X.509 certificate (sans private key). These outputs are chunks, useful for writing to files or importing into other contexts. The following code prints the proof of our earlier successful question and saves it to files. This is not exemplary python file handling, but the point is to see the accessors:

import sys
# Same code as above to initialize the ids and load the context

ok, proof = ctxt.query(a.keyid() + ".friendly_admin", b.keyid())

if not ok:
    sys.exit(1)

for i, c in enumerate(proof):
    print "%s <- %s" % (c.head().string(), c.tail().string())
    open("./id%d.pem" % i, "w").write(c.issuer_cert())
    open("./attr%d.xml" % i, "w").write(c.attribute_cert())

Next Steps

In addition to the API description the code for the credential printer is available. It is a fairly complete example of using python and libabac.

Contacts