Sorry I'm late to this discussion (what is it 3 1/2 years old now?), but I've a rekindled interest in PRN generation and alternate sources of entropy. Linux kernel developer Rusty Russell recently had a discussion on his blog on alternate sources of entropy (other than
But, I'm not all that impressed with his choices; a NIC's MAC address never changes (although it is unique from all others), and PID seems like too small a possible sample size.
I've dabbled with a Mersenne Twister (on my Linux box) which is seeded with the following algorithm. I'm asking for any comments/feedback if anyone's willing and interested:
- Create an array buffer of 64 bits + 256 bits * number of
/proc files below.
- Place the time stamp counter (TSC) value in the first 64 bits of this buffer.
For each of the following
/proc files, calculate the SHA256 sum:
- Create a SHA256 hash of this entire buffer. NOTE: I could (and probably should) use a different hash function completely independent of the SHA functions - this technique has been proposed as a "safeguard" against weak hash functions.
Now I have 256 bits of HOPEFULLY random (enough) entropy data to seed my Mersenne Twister. I use the above to populate the beginning of the MT Array (624 32-bit integers), and then initialize the remainder of that array with the MT author's code. Also, I could use a different hash function (e.g. SHA384, SHA512), but I'd need a different size array buffer (obviously).
The original Mersenne Twister code called for one single 32-bit seed, but I feel that's horribly inadequate. Running "merely" 2^32-1 different MTs in search of breaking the crypto is not beyond the realm of practical possibility in this day and age.
I'd love to read anyone's feedback on this. Criticism is more than welcome. I will defend my use of the
/proc files as above because they're constantly changing (especially the
/proc/self/* files, and the TSC always yields a different value (nanosecond [or better] resolution, IIRC). I've run Diehard tests on this (to the tune of several hundred billion bits), and it seems to be passing with flying colors. But that's probably more testament to the soundness of the Mersenne Twister as a PRNG than to how I'm seeding it.
Of course, these aren't totally impervious to someone hacking them, but I just don't see all of these (and SHA*) being hacked and broken to in my lifetime.