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I know that using Math.random() for cryptography purposes is insecure. I need an example code of reconstructing Math.random() function used in javascript to generate random numbers. for example if I have a random number generated by Math.random(), how can I figure out what the seed was?

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A single number does not imply a particular seed value. –  Matt Ball Feb 22 '13 at 22:48
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Do you have any way to know how many times the PRNG was called? –  TML Feb 22 '13 at 22:48
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"Returns a Number value with positive sign, greater than or equal to 0 but less than 1, chosen randomly or pseudo randomly with approximately uniform distribution over that range, using an implementation-dependent algorithm or strategy." es5.github.com/#x15.8.2.14 Meaning, which JavaScript engine do you want to simulate? –  Felix Kling Feb 22 '13 at 22:50
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Math.random isn't guaranteed to be secure, but it can be secure. A least in Opera it is. So you have no chance to recover the seed when you use Opera. –  CodesInChaos Feb 23 '13 at 11:21
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1 Answer 1

up vote 2 down vote accepted

Look at the source. In this case, it's in mozilla/js/src/jsmath.cpp:

static const uint64_t RNG_MULTIPLIER = 0x5DEECE66DLL;
static const uint64_t RNG_ADDEND = 0xBLL;
static const uint64_t RNG_MASK = (1LL << 48) - 1;
static const double RNG_DSCALE = double(1LL << 53);

/*
 * Math.random() support, lifted from java.util.Random.java.
 */

...

extern uint64_t random_next(uint64_t *rngState, int bits)
{
    uint64_t nextstate = *rngState * RNG_MULTIPLIER;
    nextstate += RNG_ADDEND;
    nextstate &= RNG_MASK;
    *rngState = nextstate;
    return nextstate >> (48 - bits);
}

static inline double random_nextDouble(JSContext *cx)
{
    uint64_t *rng = &cx->compartment->rngState;
    return double((random_next(rng, 26) << 27) + random_next(rng, 27)) / RNG_DSCALE;
}

So,

  1. Call Math.random()
  2. Multiply by 253 to get an integer n (you'll want to explicitly use uint64_t)
  3. Split it into the (upper bits of the) RNG outputs: the top 26 bits n>>27 and the bottom 27 bits n&((1<<27)-1).
  4. The 27-bit can be from either the first or second RNG output (like C, I don't think C++ places any guarantee on the order of evaluation here). So...
    • Iterate over the 221 possible lower bits.
    • See if you can get there by running the RNG forwards or backwards.
    • If so, output that number as a candidate.

Due to the nature of the RNG, having multiple candidates may be a possibility.

Running the RNG backwards is an exercise to the reader (you simply need to calculate the multiplicative inverse of 0x5DEECE66D modulo 248). Alternatively, you can take the 26-bit number and guess all 222 possible inputs.

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Thanks, apparently, it works the same as nextDouble() in Java. –  Wise Feb 25 '13 at 17:50
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