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Reading /dev/urandom and generating a random integer

I am trying to create a function that generates a random integer out of the bytes I get from /dev/urandom. I am doing this in PHP and it currently looks like:

``````    public static function getRandomInteger(\$min, \$max)
{
// First we need to determine how many bytes we need to construct \$min-\$max range.
\$difference = \$max-\$min;
\$bytesNeeded = ceil(\$difference/256);

\$randomBytes = self::getRandomBytes(\$bytesNeeded);

// Let's sum up all bytes.
\$sum = 0;
for (\$a = 0; \$a < \$bytesNeeded; \$a++)
\$sum += ord(\$randomBytes[\$a]);

// Make sure we don't push the limits.
\$sum = \$sum % (\$difference);

return \$sum + \$min;
}
``````

Everything works great except that I think it's not calculating the values exactly fair. For example, if you want to have a random value between 0 and 250, it receives one byte and mods it with 250 so the values of 0-6 are more likely to appear than the values of 7-250. What should I do to fix this?

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Why don't you use `rand()`? It's tried, tested, and you don't have to waste time on something like this. – Amy B Nov 14 '10 at 15:24
I am not happy with the quality of pseudorandom numbers it produces. And the second reason is that I am doing this for more academic than practical purposes. – Tower Nov 14 '10 at 15:25
To answer your last point, you should not MOD it. Scale it with `*250/255` to not skew the distribution. – mario Nov 14 '10 at 15:30
Ah, yes. That makes sense. Is it then perfect? – Tower Nov 14 '10 at 15:34
See my answer to another question where I recommend using a rejection method, and give some Java code that shows how. You should be able to go from Java -> php. – James K Polk Nov 14 '10 at 19:06

a) If you don't need cryptographically secure random numbers, simply use `mt_rand`. It will probably suffice for your needs.

b) If you want to stick with your algorithm: Do some remapping: `return round(\$min + \$sum / pow(256, \$bytesNeeded) * (\$max - \$min))`.

c) As you can see, this requires `round`ing. That will lead to a not perfectly uniform distribution, I think (though I am not sure about this). Probably the best way is to get the random number as a float and then scale it. Though I have no idea how you get a float from `/dev/urandom`. That's why I stick with `mt_rand` and `lcg_value`.

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I already have implemented a perfect float() method, but I think using it would limit myself to the precision of float? Would it not theoretically be better to implement it without the float, although I am sure that 2**52 precision that floats have is enough to make a good getRandomInteger() method? – Tower Nov 14 '10 at 15:45

I would read `\$difference` bytes from /dev/urandom `mod \$difference` and then add `\$min`

Then make sure `\$max` isn't higher than that number.

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