One Time Identification, a request for comments/testing.

Douglas E. Engert deengert at anl.gov
Wed Jan 31 09:42:43 EST 2007


What keeps a user from copying the identity token from the USB
device to a local or shared file system to avoid having to insert
the USB device all the time?

What are the security implications if the identity token is
stolen?

How does this compare to using cert and key on the USB
device with PKINIT rather then your identity token?

How does this compare to using a smart card or USB equivelent
of a smartcard with PKINIT? To the user they still have to insert
the card or USB device, and have to enter a pin or password?


g.w at hurderos.org wrote:
> Good evening, I hope this note finds everyone's day going well.
> 
> Its becoming increasingly obvious that the utility of passwords are
> becoming problematic.  If users are forced into passwords with
> sufficient entropy they write them down.  Products such as PRTK are
> making it increasingly difficult to select passwords which can be
> easily remembered and yet are secure.
> 
> Common solutions to this problem include One Time Password systems and
> pre-authentication strategies such as PKINIT.  While effective these
> systems each have their own issues ranging from diminished entropy to
> complexity.
> 
> For the last several months we have been working on an alternative
> strategy for a system which combines two-factor authentication with
> strong single use passwords.  The primary focus of this work was to
> develop a system which integrated naturally with desktop based
> Kerberos authentication and was freely implementable.
> 
> The purpose of this note is to introduce the work and get
> comments/feedback from the community.
> 
> The proposal is referred to as OTI or One Time Identification.  The
> system is based on an identity token which can be carried on a
> standard USB flash disk.  The identity token is included in an
> identification payload which is symmetrically encrypted and included
> in the AS_REQ authorization field.  The KDC decrypts and verifies the
> identity upon receipt of the AS_REQ.  If the OTI identity matches that
> of the principal requesting the service the AS_REP proceeds.
> 
> The identity token consists of a DER encoded structure of the
> following information:
> 
>           1.) 32-bit identity epoch time.
>           2.) RSA encrypted 160-bit user identity.
> 
> The epoch time is randomly chosen when the user's identity token is
> generated.  RSA encryption is done against a private key held by the
> KDC.
> 
> When the AS_REQ is composed a DER encoded data structure of the
> following elements is created:
> 
>           1.) Authentication request time.
>           2.) IP address of target KDC server.
>           3.) RSA encrypted identity.
> 
> A time interval dependent key scheduler is used to derive a symmetric
> encryption key using the following information:
> 
>            1.) Epoch time of identity.
>            2.) Offset of authentication time from identity epoch time.
>            3.) SHA256 hash of the RSA encrypted identity.
>            4.) User password key.
> 
> The key scheduler uses the authentication epoch time differential to
> perturb the generation of two separate vectors.  These vectors are
> combined and then fed into an N-round iteration of feedback hashing to
> generate the final encryption key.
> 
> Vector 1 is generated as follows:
> 
>        ||    = Concantenation.
>        Ukey  = User's authentication key (des3-hmac-sha1 in reference imp).
>        Etime = 32-bit identity epoch time.
>        Eoffs = Authentication/epoch time offset (network byte order).
>        Ihash = SHA256 hash of RSA encrypted identity.
>        Nrnd  = Iteration round count.
> 
>        V1 = Hmac256(K, Etime)
>                     | K = (Ukey || Eoffs)
> 
>        The Etime is decomposed into a UNIX time structure with a
>        gmtime call.  The day of the month represented by the Etime is
>        used as an offset into the V1 vector to obtain an 8-bit round
>        count value (Nrnd).
> 
> Vector 2 is generated as follows:
> 
>        V2 = Hmac256(K, Ukey)
>                     | K = (Ihash || Eoffs)
> 
>        The first 16 bytes of the V2 vector are retained to serve as
>        the IV (Initialization Vector) for AES-256-CBC symmetric
>        encryption of the OTI payload.
> 
> Iteration rounds:
> 
>         A seed vector for the iteration rounds is formed as follows:
> 
>                 Seed = (V1 || V2)
> 
>         The Seed vector (512 bits) is reduced to a 256 bit vector by
>         the first SHA256 hashing round.  The 256 bit output vectors
>         are then iteratively fed back for Nrnd-1 iterations.
> 
> 
> The output of the final round is used as an AES-256-CBC encryption key
> with the IV abstracted from the V2 vector.
> 
> Upon receipt of the AS_REQ payload the KDC re-creates the key and IV
> by running the same key scheduler using the authentication start time
> from the AS_REQ.  In the prototype implementation the identity epoch
> time and the SHA256 hash of the RSA encrypted identity token are
> stored in an LDAP directory object indexed by the user's Kerberos
> principal.  Appropriate access controls are assumed on the directory
> object.
> 
> If decryption is successful the payload is ASN decoded.  The
> authentication time from the OTI payload is matched to the
> authentication start time of the AS_REQ.  The encoded IP address is
> verified to match one of the IP addresses the KDC is listening on.
> 
> The KDC then uses its private RSA key to decrypt the identity
> payload.  The 160-bit intrinsic identity is verified to match the
> identity assigned to the principal.  The AS_REP is then issued to the
> user if all validation checks pass.
> 
> The take away from all this is that the authentication request is
> processed if and only if the user can supply an identity token which
> is unique in time and valid to the KDC.  The time dependent key
> scheduler generates a unique password at one second granularity
> intervals given a specific user password and identity token.
> 
>>From the user's perspective the interface is identical to a standard
> login attempt with the exception that a USB dongle with the identity
> token needs to be available to generate the AS_REQ.  No additional
> prompts, button pushes, pin numbers, certificate slot selection, PKI
> infra-structure etc. are needed.
> 
> Since timing is based on a quantity agreed to by both the client and
> KDC (authn start time) there are no issues with clock cadence and or
> re-synchronization windows.  Standard KDC clock skew issues are still
> present but that is a well understood issue.
> 
> As I noted earlier this system was designed specifically to meet the
> needs of Kerberos based authentication.  Beyond user convenience a
> primary concern was avoidance of replay attacks.
> 
> Adding the authentication time and the IP address of the target KDC
> server in the encryped OTI payload locks the request to a specific KDC
> for a specific instant in time.  No coordination is required between
> master and slave KDC's.
> 
> At the level of an individual KDC a potential reply attack is now
> slaved to the clock skew window of the KDC.  A natural benefit of OTI
> is that each authentication attempt now has a unique footprint, the
> checksum of the encrypted payload.
> 
> In order to avoid reply attacks within the clock skew window the KDC
> caches the hash of the encrypted payload along with the authentication
> request time indexed by principal name upon issuance of an AS_REP.
> The cache entries only need to be maintained until the authentication
> time associated with the payload expires from the clock skew window.
> 
> Finally it goes without saying that failure throttling needs to be
> integrated into the KDC for full security.
> 
> So, in a nutshell... :-), thats the strategy.
> 
> As I noted at the start we have a working implementation of all this.
> A primary concern, of course, is on the strength and randomness of the
> time unique OTI encryption keys.
> 
> I put together a tarball which will generate two utilities which
> people can use to play around with this a bit.  The following URL will
> pull the tarball:
> 
>      ftp://ftp.hurderos.org/pub/Hurderos/src/OTI-test.tar.gz
> 
> Typing make should suffice to build it on most Linux systems.  The
> only thing which may need some tweaking are the locations for Kerberos
> and OpenSSL which are configurable at the top of the Makefile.
> 
> Compiling will produce the following two binaries:
> 
>           genOTI
> 
>           decryptOTI
> 
> The tarball also contains a sample identity token.  Running genOTI
> will cause several questions to be asked.  These are basically to
> supply information which the AS_REQ would normally have.  The utility
> will then read the token and begin printing encryption keys and their
> corresponding times.
> 
> The genOTI utility also supports a -o switch.  This will cause
> encrypted payloads to be generated and written to files tagged by
> authentication time.  The decryptOTI utility will ask for several
> pieces of information and then attempt to decrypt the designated
> payload file.
> 
> The OTI-test tarball contains two pre-compiled .a files of all the
> library code for simplicity purposes.  If anyone wants to validate
> that the test utilities are not going to do anything evil full sources
> can be pulled from:
> 
> ftp://ftp.hurderos.org/pub/Hurderos/src/Hurderos-0.1.5-rc2.tar.gz
> 
> Please feel free to forward any comments or questions you may have on
> all this.  Everything is GPL/OpenSSL exception.
> 
> Apologies for the length of the introduction.  I would be happy to
> entertain more in depth discussion in private e-mail if anyone is
> interested in all this.
> 
> Best wishes for a pleasand and productive remainder of the week.
> 
> As always,
> Greg Wettstein
> 
> ------------------------------------------------------------------------------
>                          The Hurderos Project
>          Open Identity, Service and Authorization Management
>                        http://www.hurderos.org
> 
> "My thoughts on trusting Open-Source?  A quote I once saw said it
>  best: 'Remember, Amateurs built the ark.  Professionals built the
>  Titanic.'  Perhaps most significantly the ark was one guy, there were
>  no doubt committees involved with the Titanic project."
>                                 -- Dr. G.W. Wettstein
>                                    Resurrection
> _______________________________________________
> krbdev mailing list             krbdev at mit.edu
> https://mailman.mit.edu/mailman/listinfo/krbdev
> 
> 

-- 

  Douglas E. Engert  <DEEngert at anl.gov>
  Argonne National Laboratory
  9700 South Cass Avenue
  Argonne, Illinois  60439
  (630) 252-5444



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