# String pattern/algorithm for PIN & PUK generated from MSIN

I wonder how mobile phone companies generate both PIN and PUK for their SIM cards?

I have a large database of already generated codes, this database contains 3 columns: * MSIN : Mobile Subscriber Identification Number (10 digits) * PIN : Personal Identification Number (4 digits) * PUK : Personal Unblocking Code (8 digits)

So far, maybe both PIN and PUK are generated from MSIN because the MSIN column is incrementing, while others, are generated with a logic, something like;

```MSIN            PIN     PUK
1000000000      3234    20005627
1000000001      5993    92870018
1000000002      3465    30327846
...
```

is it possible to know how this serials are generated? Using the existing database is it possible to guess the algo used?

I'm asking this for the sake of knowledge only not to use the provided information in any illegal activity ;)

thanx.

# UPDATE

I searched for how many times some pin codes are repeated and found this

```0000 –> 261 times
1111 –> 429982 times
2222 –> 275
3333 –> 233
4444 –> 279
5555 –> 277
6666 –> 242
7777 –> 263
8888 –> 249
9999 –> 242
```

the pin 1111 is used more than others! so maybe the algo is changed from time to time.. or ther's no logic at all inside :(

# UPDATE 2

I checked the MSIN and found that they make jumps in the incrementing system, so for example;

```1011000000
1011000001
…              here they followed incrementing until 1011499999
1011499999     and they jumped to 1031000000
1031000000
…              the same thing here
1031299999
1131000000
…
```

this leads to an idea that whenever they want to issue new cards, lets say 500 000 cards, they start with a new MSIN that doesn't follow the incrementing rule in the database and the may change the algo behind the code generation (that's why we find in some cases they issued all the next cards with pin 1111)

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"I know that both PIN and PUK are generated from MSIN" - that sounds like a wild guess, actually. :) –  bzlm Oct 13 '10 at 11:06
you are right ;) because i searched for repeted pin and i found that ther's a lot of 1111 repeated than others :( –  numediaweb Oct 13 '10 at 11:38

The answer can go from really easy to pretty complex.

If I had to design the system, the `f` function `(Pin,Puk) = f(MSIN)` wouldn't be easy to guess, and, moreover, not reversible (meaning if you know (pin,puk) you cannot guess MSIN).

Because the subject is around security and payment, you can probably expect a complex function.

Unless it is documented somewhere on the net (which I doubt) it is very unlikely you will find the function `f`.

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concerning the MSIN, I already have some milions of them. the question is whether they use an algo to generate the codes or just fill a database with random generated pin's and puk's using an incrementing MSIN. –  numediaweb Oct 13 '10 at 18:05
I don't think they keep a database. A conversion algorithm is more likely to be used in this case. –  ring0 Oct 14 '10 at 2:35
They obviously use a database, because the OP has a copy. The question is, do they generate the PIN and PUK deterministically? Based on the prevalence of the pin 1111, I'm guessing not. –  Nick Johnson Oct 14 '10 at 8:01
@NJ What I mean is I think they use an algo to generate the values - then, they may fill a database / trace the value. As you said, the `1111` value tends to prove this is the case (or the random function is not well distributed). Probably a question of wording :-) –  ring0 Oct 14 '10 at 8:59
I agree with that too. I think that they generate new cards depending on their stock needs; According to the stats in the DB, they generate each time between 200000 and 500000 cards, so, new MSIN and different algo, then store it in their database. –  numediaweb Oct 15 '10 at 19:44

If we make the assumption that PUK/PIN are generated from the MSIN, there's a virtually infinite number of ways they could be doing this. To take one (reasonable) example, they could be using an HMAC. Even assuming you knew what hash algorithm they're using, you'd still have to determine the secret key, and the search space for that is on the order of 2^160 (for HMAC-SHA1) - totally impractical to search exhaustively.

The only chance you have is if they're doing something stupid, like using an easily guessed or determined algorithm to generate the PIN/PUK - and there's no practical mechanical procedure to work that out, just trial, error, and intuition.

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I don't think that they use complex thechniques to handel this generation process.. they already had problems with their refill cards (used to add credit to prepaid cards); some one figured out how they calculated the 14 digits that let you refill your card! and it was a chaos for them! I think they are not that much super-intelligent –  numediaweb Oct 13 '10 at 18:09