I have a project that needs to do validation on the frontend for an American Social Security Number (format
ddd-dd-dddd). One suggestion would be to use a hash algorithm, but given the tiny character set used (
[0-9]), this would be disastrous. It would be acceptable to validate with some high probability that a number is correct and allow the backend to do a final
== check, but I need to do far better than "has nine digits" etc etc.
Given those constraints, I have three questions:
- Is there a way to prove that an algorithm like ISBN13 will work with a different category of data like SSN, or whether it is more or less fit to the purpose from a security perspective? The checksum seems reasonable for my quite large sample of one real SSN, but I'd hate to find out that they aren't generally applicable for some reason.
- Is this a solved problem somewhere, so that I can simply use a pre-existing validation scheme to take care of the problem?
- Are there any such algorithms that would also easily accommodate validating the last 4 digits of an SSN without giving up too much extra information?
Thanks as always, Joe
In response to a question below, a little more detail. I have the customer's SSN as previously entered, stored securely on the backend of the app. What I need to do is verification (to the maximum extent possible) that the customer has entered that same value again on this page. The issue is that I need to prevent the information from being incidentally revealed to the frontend in case some non-authorized person is able to access the page.
That is why an MD5/SHA1 hash is inappropriate: namely that it can be used to derive the complete SSN without much difficulty. A checksum (say, modulo 11) provides nearly no information to the frontend while still allowing a high degree of accuracy for the field validation. However, as stated above I have concerns over its general applicability.