Tag Archives: Biometrics

Lie Detector Libel

I noticed a posting on Slashdot (link) this morning regarding a gag order on an article that was to be published in a peer reviewed scientific journal but has been suppressed. The article was critical of lie detector technology, and evidently provided information debunking it.

More information is available her:  Stockholm University article.

The thing I find most interesting about this is that the US Supreme Cort has already determined that Lie Detectors are unreliable. From Wikipedia article on the polygraph:

In the 1998 Supreme Court case, United States v. Scheffer, the majority stated that “There is simply no consensus that polygraph evidence is reliable” and “Unlike other expert witnesses who testify about factual matters outside the jurors’ knowledge, such as the analysis of fingerprints, ballistics, or DNA found at a crime scene, a polygraph expert can supply the jury only with another opinion…”.

One of the things I find most interesting about the challenge of “testing” lie detectors is that no testing, such as the tests performed my Emily Rosa to debunk Therapeutic Touch, have ever been offered with can objectivity demonstrate the that they even work.

Cheers, Erik

What do the Cold Boot Crypto Attack, DVD Players, and MiFare tell us about the Future of Biometrics?

Last week Slashdot pointed me to an “interesting” article in The Standard:
Understanding anonymity and the need for biometrics.

In fact, I found the article to be rather upsetting. Not because of the article’s thesis that strong authentication through a national ID program would not necessarily pose a threat to privacy; but rather, because of their naive (and irresponsible) handling of the realities of the biometric authentication challenge. They gloss over the real security challenges with creating a national biometric infrastructure. Here are the two quotes that are most misleading:

  • Confusing privacy with anonymity has delayed implementation of robust, virtually tamper-proof biometric authentication to replace paper-based forms of ID that neither assure privacy nor reliably prove identity.”
  • “This emerging technology makes it virtually impossible to assume someone else’s unique identity.”

The problem that the authors are glossing over is that no such technology exists today, and it is unlikely to ever exist. Now, to be fair, I am assuming that a critical success factor for any national biometric program, as described, would be that the authentication devices have to be available, and usable, anyplace paper-based IDs can be used today. This of course implies that the authenticator must be an inexpensive, commodity device, easy to purchase, maintain, and operate. Such a device would have to be even more ubiquitous than the electronic credit card machine.

The problem is that the authenticator itself may be in the possession of the attacker (Perhaps after you authenticate your legitimate purchase the clerk desires to use your identity herself…). In the history of security controls, when the attacker has unsupervised at-will physical access, the attacker wins. Here are a few examples:

  • Defeated copy protection on DVDs ( more & more info)
  • Cold Boot Crypto Attack on hard disk encryption (more info)
  • MiFare RFID Cards (more info)
  • Skimming devices attached to ATM machines to steal card and PIN data (more info)

Of course, all of these systems worked in the lab. But when a security system is widely deployed, it has to withstand an enormous amount of scrutiny, and minor flaws will be exploited. And of course, the greater the financial gain, the greater the time and energy attackers invest in trying to defeat the system. The authors of the article ignore these issues, idealistically assuming biometrics will just work.

Now, of course there are lots of examples where biometrics work very effectively. But I would propose that biometric authentication is most useful when the authentication device is physically secure and the authentication itself is supervised. The MiFare example above also demonstrates two other issues:

  • The system chose not to implement a reviewed and standard cryptographic algorithm – always a bad idea
  • MiFare was able to sell 1 billion cards and authenticators before the system failed

The cost of investing in a national biometric authentication program, and then having the security fail, is enormous. Can you imagine deploying a biometric authentication infrastructure to every bank, police car, restaurant, shop, etc. and then having video on YouTube of it being defeated ?

- Erik

BTW, Maybe the attacker doesn’t even need to tamper with the device -> ftp://ftp.ccc.de/pub/video/Fingerabdruck_Hack/fingerabdruck.mpg