# Pseudo-random numbers from a 32-bit auto-increment INTEGER

I have a table with an auto-increment 32-bit integer primary key in a database, which will produce numbers ranging `1-4294967295`.

I would like to keep the convenience of an auto-generated primary key, while having my numbers on the front-end of an application look like randomly generated.

Is there a mathematical function which would allow a two-way, one-to-one transformation between an integer and another?

For example a function would take a number, and translate it to another:

``````1 => 1538645623
2 => 2043145593
3 =>  393439399
``````

And another function the way back:

``````1538645623 => 1
2043145593 => 2
393439399 => 3
``````

I'm not necessarily looking for an implementation here, but rather a hint on what I suppose, must be a well-known mathematical problem somewhere :)

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@Benjamin: Why? –  Lightness Races in Orbit Jun 13 '11 at 9:44
@Tomalak: To avoid people trying to guess what the next number will be. Not as good as a random one, but currently considering several possibilities! –  Benjamin Jun 13 '11 at 9:47
@Benjamin: Why do you want to avoid people guessing what the next number will be? Obfuscation is largely a wasted effort. –  Lightness Races in Orbit Jun 13 '11 at 9:48
If you really want to go down this route then you could just multiply by a big number. That solves the problem (without the random element but who would know). I havent put this as an answer because I think it's a crappy solution. –  David Steele Jun 13 '11 at 9:52
Maybe it's not clear in the question, but the number has to stay in the same 32-bit range. Also, given two consecutive numbers, a multiplication would make it too easy to guess how the stuff works! –  Benjamin Jun 13 '11 at 9:55

Mathematically this is almost exactly the same problem as cryptography.

You: I want to go from an id(string of bits) to another number (string of bits) and back again in a non-obvious way. Cryptography: I want to go from plaintext (string of bits) to another string of bits and back again (reversible) in a non-obvious way.

So for a simple solution, can I suggest just plugging in whatever cryptography algorithm is most convenient in your language, and encrypt and decrypt your id?

If you wanted to be a bit cleverer you can do what is called "salting" in addition to cryptography. Take your id as a 32 bit (or whatever) number. Concatenate it with a random 32 bit number. Encrypt the result. To reverse, just decrypt, and throw away the random part.

Of course, if someone was seriously attacking this, this might be vulnerable to known plaintext/differential cryptanalysis attacks as you have a very small known plaintext space, but it sounds like you aren't trying to defend against serious attacks.

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Very constructive answer, thanks. Indeed, it is very similar to cryptography! –  Benjamin Jun 13 '11 at 10:05
This is one of the many applications of cryptography, it's not just about transmitting secret messages. –  starblue Jun 14 '11 at 15:35

First remove the offset of 1, so you get numbers in the range 0 to 232-2. Let m = 232-1.

Choose some `a` that is relative prime to `m`. Since it is relatively prime it has an inverse a' so that `a * a' = 1 (mod m)`. Also choose some `b`. Choose big numbers to get a good mixing effect.

Then you can compute your desired pseudo-random number by `y = (a * x + b) % m`, and get back the original by `x = ((y - b) * a') % m`.

This is essentially one step of a linear congruential generator (LCG) for pseudo-random numbers.

Note that this is not secure, it is only obfuscation. For example, if a user can get two numbers in sequence then he can recover `a` and `b` easily.

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Woah, I'm impressed! Exactly the kind of answer I was waiting for. Maybe a bit complicated to implement, but it's really interesting. –  Benjamin Jun 13 '11 at 19:16

In most cases web apps use a hash of a randomly generated number as a reference to a table row. This hash can be stored as a number and displayed as a string for the end user.

This hash is unique and it is identifier and the id is only used in the application itself, never shown to the outside world.

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The problem is that a hash is one-way only (you cannot get the number back from the hash), and in my case the number has to stay short (will be hand typed), so we cannot rely on the fact that a (MD5, for example) hash is not likely to have a collision. There is no one-to-one correlation. –  Benjamin Jun 13 '11 at 9:54