#distributions #fuzzing #numbers #generate #input #data #fuzzer

fuzzerang

Efficient random number generators and distributions for fuzzing

3 releases

0.1.2 Jul 12, 2023
0.1.1 Jul 12, 2023
0.1.0 Jul 8, 2023

#1747 in Algorithms


Used in regenerator

MIT license

43KB
878 lines

Fuzzerang

Useful random generators and distributions for use in fuzzers and mutators

Instead of being very random, very fast, or very secure, these generators and distributions are designed to be useful for fuzzing and mutation by efficiently utilizing available input data. For example, the default Standard distribution in the rand crate wastes 31 bits of input for every boolean value generated.

In comparison, StandardBuffered uses the input data more efficiently by consuming only 1 bit for a boolean, the minimum number of bits to generate a value in a range, and so on.

Examples

use fuzzerang::{StandardSeedableRng, StandardBuffered, Ranged};
use rand::{SeedableRng, distributions::Distribution};

// Use a constant seed of 8 bytes, or 64 bits
let mut rng = StandardSeedableRng::from_seed((0..255).take(8).collect());
let dist = StandardBuffered::new();

// We can generate 10 bools from 8 bytes of input because we're only using 1 bit each
for i in 0..10 {
    let x: bool = dist.sample(&mut rng);
    println!("{}: {}", i, x);
}

// In fact, we are so efficient we can generate some alphabetic characters too, which
// each use 4 bits
for i in 0..10 {
    let x: char = dist.sample_range_inclusive(&mut rng, 'A'..='Z');
    println!("{}: {}", i, x);
}

Dependencies

~1.5MB
~30K SLoC