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#![allow(clippy::many_single_char_names)]
use crate::consts::{BLOCK_LEN, K64X2};
use core::convert::TryInto;
fn add(a: [u64; 2], b: [u64; 2]) -> [u64; 2] {
[a[0].wrapping_add(b[0]), a[1].wrapping_add(b[1])]
}
/// Not an intrinsic, but works like an unaligned load.
fn sha512load(v0: [u64; 2], v1: [u64; 2]) -> [u64; 2] {
[v1[1], v0[0]]
}
/// Performs 2 rounds of the SHA-512 message schedule update.
pub fn sha512_schedule_x2(v0: [u64; 2], v1: [u64; 2], v4to5: [u64; 2], v7: [u64; 2]) -> [u64; 2] {
// sigma 0
fn sigma0(x: u64) -> u64 {
((x << 63) | (x >> 1)) ^ ((x << 56) | (x >> 8)) ^ (x >> 7)
}
// sigma 1
fn sigma1(x: u64) -> u64 {
((x << 45) | (x >> 19)) ^ ((x << 3) | (x >> 61)) ^ (x >> 6)
}
let [w1, w0] = v0;
let [_, w2] = v1;
let [w10, w9] = v4to5;
let [w15, w14] = v7;
let w16 = sigma1(w14)
.wrapping_add(w9)
.wrapping_add(sigma0(w1))
.wrapping_add(w0);
let w17 = sigma1(w15)
.wrapping_add(w10)
.wrapping_add(sigma0(w2))
.wrapping_add(w1);
[w17, w16]
}
/// Performs one round of the SHA-512 message block digest.
pub fn sha512_digest_round(
ae: [u64; 2],
bf: [u64; 2],
cg: [u64; 2],
dh: [u64; 2],
wk0: u64,
) -> [u64; 2] {
macro_rules! big_sigma0 {
($a:expr) => {
($a.rotate_right(28) ^ $a.rotate_right(34) ^ $a.rotate_right(39))
};
}
macro_rules! big_sigma1 {
($a:expr) => {
($a.rotate_right(14) ^ $a.rotate_right(18) ^ $a.rotate_right(41))
};
}
macro_rules! bool3ary_202 {
($a:expr, $b:expr, $c:expr) => {
$c ^ ($a & ($b ^ $c))
};
} // Choose, MD5F, SHA1C
macro_rules! bool3ary_232 {
($a:expr, $b:expr, $c:expr) => {
($a & $b) ^ ($a & $c) ^ ($b & $c)
};
} // Majority, SHA1M
let [a0, e0] = ae;
let [b0, f0] = bf;
let [c0, g0] = cg;
let [d0, h0] = dh;
// a round
let x0 = big_sigma1!(e0)
.wrapping_add(bool3ary_202!(e0, f0, g0))
.wrapping_add(wk0)
.wrapping_add(h0);
let y0 = big_sigma0!(a0).wrapping_add(bool3ary_232!(a0, b0, c0));
let (a1, _, _, _, e1, _, _, _) = (
x0.wrapping_add(y0),
a0,
b0,
c0,
x0.wrapping_add(d0),
e0,
f0,
g0,
);
[a1, e1]
}
/// Process a block with the SHA-512 algorithm.
pub fn sha512_digest_block_u64(state: &mut [u64; 8], block: &[u64; 16]) {
let k = &K64X2;
macro_rules! schedule {
($v0:expr, $v1:expr, $v4:expr, $v5:expr, $v7:expr) => {
sha512_schedule_x2($v0, $v1, sha512load($v4, $v5), $v7)
};
}
macro_rules! rounds4 {
($ae:ident, $bf:ident, $cg:ident, $dh:ident, $wk0:expr, $wk1:expr) => {{
let [u, t] = $wk0;
let [w, v] = $wk1;
$dh = sha512_digest_round($ae, $bf, $cg, $dh, t);
$cg = sha512_digest_round($dh, $ae, $bf, $cg, u);
$bf = sha512_digest_round($cg, $dh, $ae, $bf, v);
$ae = sha512_digest_round($bf, $cg, $dh, $ae, w);
}};
}
let mut ae = [state[0], state[4]];
let mut bf = [state[1], state[5]];
let mut cg = [state[2], state[6]];
let mut dh = [state[3], state[7]];
// Rounds 0..20
let (mut w1, mut w0) = ([block[3], block[2]], [block[1], block[0]]);
rounds4!(ae, bf, cg, dh, add(k[0], w0), add(k[1], w1));
let (mut w3, mut w2) = ([block[7], block[6]], [block[5], block[4]]);
rounds4!(ae, bf, cg, dh, add(k[2], w2), add(k[3], w3));
let (mut w5, mut w4) = ([block[11], block[10]], [block[9], block[8]]);
rounds4!(ae, bf, cg, dh, add(k[4], w4), add(k[5], w5));
let (mut w7, mut w6) = ([block[15], block[14]], [block[13], block[12]]);
rounds4!(ae, bf, cg, dh, add(k[6], w6), add(k[7], w7));
let mut w8 = schedule!(w0, w1, w4, w5, w7);
let mut w9 = schedule!(w1, w2, w5, w6, w8);
rounds4!(ae, bf, cg, dh, add(k[8], w8), add(k[9], w9));
// Rounds 20..40
w0 = schedule!(w2, w3, w6, w7, w9);
w1 = schedule!(w3, w4, w7, w8, w0);
rounds4!(ae, bf, cg, dh, add(k[10], w0), add(k[11], w1));
w2 = schedule!(w4, w5, w8, w9, w1);
w3 = schedule!(w5, w6, w9, w0, w2);
rounds4!(ae, bf, cg, dh, add(k[12], w2), add(k[13], w3));
w4 = schedule!(w6, w7, w0, w1, w3);
w5 = schedule!(w7, w8, w1, w2, w4);
rounds4!(ae, bf, cg, dh, add(k[14], w4), add(k[15], w5));
w6 = schedule!(w8, w9, w2, w3, w5);
w7 = schedule!(w9, w0, w3, w4, w6);
rounds4!(ae, bf, cg, dh, add(k[16], w6), add(k[17], w7));
w8 = schedule!(w0, w1, w4, w5, w7);
w9 = schedule!(w1, w2, w5, w6, w8);
rounds4!(ae, bf, cg, dh, add(k[18], w8), add(k[19], w9));
// Rounds 40..60
w0 = schedule!(w2, w3, w6, w7, w9);
w1 = schedule!(w3, w4, w7, w8, w0);
rounds4!(ae, bf, cg, dh, add(k[20], w0), add(k[21], w1));
w2 = schedule!(w4, w5, w8, w9, w1);
w3 = schedule!(w5, w6, w9, w0, w2);
rounds4!(ae, bf, cg, dh, add(k[22], w2), add(k[23], w3));
w4 = schedule!(w6, w7, w0, w1, w3);
w5 = schedule!(w7, w8, w1, w2, w4);
rounds4!(ae, bf, cg, dh, add(k[24], w4), add(k[25], w5));
w6 = schedule!(w8, w9, w2, w3, w5);
w7 = schedule!(w9, w0, w3, w4, w6);
rounds4!(ae, bf, cg, dh, add(k[26], w6), add(k[27], w7));
w8 = schedule!(w0, w1, w4, w5, w7);
w9 = schedule!(w1, w2, w5, w6, w8);
rounds4!(ae, bf, cg, dh, add(k[28], w8), add(k[29], w9));
// Rounds 60..80
w0 = schedule!(w2, w3, w6, w7, w9);
w1 = schedule!(w3, w4, w7, w8, w0);
rounds4!(ae, bf, cg, dh, add(k[30], w0), add(k[31], w1));
w2 = schedule!(w4, w5, w8, w9, w1);
w3 = schedule!(w5, w6, w9, w0, w2);
rounds4!(ae, bf, cg, dh, add(k[32], w2), add(k[33], w3));
w4 = schedule!(w6, w7, w0, w1, w3);
w5 = schedule!(w7, w8, w1, w2, w4);
rounds4!(ae, bf, cg, dh, add(k[34], w4), add(k[35], w5));
w6 = schedule!(w8, w9, w2, w3, w5);
w7 = schedule!(w9, w0, w3, w4, w6);
rounds4!(ae, bf, cg, dh, add(k[36], w6), add(k[37], w7));
w8 = schedule!(w0, w1, w4, w5, w7);
w9 = schedule!(w1, w2, w5, w6, w8);
rounds4!(ae, bf, cg, dh, add(k[38], w8), add(k[39], w9));
let [a, e] = ae;
let [b, f] = bf;
let [c, g] = cg;
let [d, h] = dh;
state[0] = state[0].wrapping_add(a);
state[1] = state[1].wrapping_add(b);
state[2] = state[2].wrapping_add(c);
state[3] = state[3].wrapping_add(d);
state[4] = state[4].wrapping_add(e);
state[5] = state[5].wrapping_add(f);
state[6] = state[6].wrapping_add(g);
state[7] = state[7].wrapping_add(h);
}
pub fn compress(state: &mut [u64; 8], blocks: &[[u8; 128]]) {
let mut block_u32 = [0u64; BLOCK_LEN];
// since LLVM can't properly use aliasing yet it will make
// unnecessary state stores without this copy
let mut state_cpy = *state;
for block in blocks {
for (o, chunk) in block_u32.iter_mut().zip(block.chunks_exact(8)) {
*o = u64::from_be_bytes(chunk.try_into().unwrap());
}
sha512_digest_block_u64(&mut state_cpy, &block_u32);
}
*state = state_cpy;
}