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salsa.rs
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salsa.rs
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/*
* Salsa20 implementation based on https://en.wikipedia.org/wiki/Salsa20
* Salsa20 is a stream cipher developed by Daniel J. Bernstein. To use it, the
* `salsa20` function should be called with appropriate parameters and the
* output of the function should be XORed with plain text.
*/
macro_rules! quarter_round {
($v1:expr,$v2:expr,$v3:expr,$v4:expr) => {
$v2 ^= ($v1.wrapping_add($v4).rotate_left(7));
$v3 ^= ($v2.wrapping_add($v1).rotate_left(9));
$v4 ^= ($v3.wrapping_add($v2).rotate_left(13));
$v1 ^= ($v4.wrapping_add($v3).rotate_left(18));
};
}
/**
* `salsa20` function takes as input an array of 16 32-bit integers (512 bits)
* of which 128 bits is the constant 'expand 32-byte k', 256 bits is the key,
* and 128 bits are nonce and counter. It is up to the user to determine how
* many bits each of nonce and counter take, but a default of 64 bits each
* seems to be a sane choice.
*
* The 16 input numbers can be thought of as the elements of a 4x4 matrix like
* the one bellow, on which we do the main operations of the cipher.
*
* +----+----+----+----+
* | 00 | 01 | 02 | 03 |
* +----+----+----+----+
* | 04 | 05 | 06 | 07 |
* +----+----+----+----+
* | 08 | 09 | 10 | 11 |
* +----+----+----+----+
* | 12 | 13 | 14 | 15 |
* +----+----+----+----+
*
* As per the diagram bellow, input[0, 5, 10, 15] are the constants mentioned
* above, input[1, 2, 3, 4, 11, 12, 13, 14] is filled with the key, and
* input[6, 7, 8, 9] should be filled with nonce and counter values. The output
* of the function is stored in `output` variable and can be XORed with the
* plain text to produce the cipher text.
*
* +------+------+------+------+
* | | | | |
* | C[0] | key1 | key2 | key3 |
* | | | | |
* +------+------+------+------+
* | | | | |
* | key4 | C[1] | no1 | no2 |
* | | | | |
* +------+------+------+------+
* | | | | |
* | ctr1 | ctr2 | C[2] | key5 |
* | | | | |
* +------+------+------+------+
* | | | | |
* | key6 | key7 | key8 | C[3] |
* | | | | |
* +------+------+------+------+
*/
pub fn salsa20(input: &[u32; 16], output: &mut [u32; 16]) {
output.copy_from_slice(&input[..]);
for _ in 0..10 {
// Odd round
quarter_round!(output[0], output[4], output[8], output[12]); // column 1
quarter_round!(output[5], output[9], output[13], output[1]); // column 2
quarter_round!(output[10], output[14], output[2], output[6]); // column 3
quarter_round!(output[15], output[3], output[7], output[11]); // column 4
// Even round
quarter_round!(output[0], output[1], output[2], output[3]); // row 1
quarter_round!(output[5], output[6], output[7], output[4]); // row 2
quarter_round!(output[10], output[11], output[8], output[9]); // row 3
quarter_round!(output[15], output[12], output[13], output[14]); // row 4
}
for (a, &b) in output.iter_mut().zip(input.iter()) {
*a = a.wrapping_add(b);
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::fmt::Write;
const C: [u32; 4] = [0x65787061, 0x6e642033, 0x322d6279, 0x7465206b];
fn output_hex(inp: &[u32; 16]) -> String {
let mut res = String::new();
res.reserve(512 / 4);
for &x in inp {
write!(&mut res, "{x:08x}").unwrap();
}
res
}
#[test]
// test vector 1
fn basic_tv1() {
let mut inp = [0u32; 16];
let mut out = [0u32; 16];
inp[0] = C[0];
inp[1] = 0x01020304; // 1, 2, 3, 4
inp[2] = 0x05060708; // 5, 6, 7, 8, ...
inp[3] = 0x090a0b0c;
inp[4] = 0x0d0e0f10;
inp[5] = C[1];
inp[6] = 0x65666768; // 101, 102, 103, 104
inp[7] = 0x696a6b6c; // 105, 106, 107, 108, ...
inp[8] = 0x6d6e6f70;
inp[9] = 0x71727374;
inp[10] = C[2];
inp[11] = 0xc9cacbcc; // 201, 202, 203, 204
inp[12] = 0xcdcecfd0; // 205, 206, 207, 208, ...
inp[13] = 0xd1d2d3d4;
inp[14] = 0xd5d6d7d8;
inp[15] = C[3];
salsa20(&inp, &mut out);
// Checked with wikipedia implementation, does not agree with
// "https://cr.yp.to/snuffle/spec.pdf"
assert_eq!(
output_hex(&out),
concat!(
"de1d6f8d91dbf69d0db4b70c8b4320d236694432896d98b05aa7b76d5738ca13",
"04e5a170c8e479af1542ed2f30f26ba57da20203cfe955c66f4cc7a06dd34359"
)
);
}
}