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//! SHA-256 `aarch64` backend.
// Implementation adapted from mbedtls.
// TODO: stdarch intrinsics: RustCrypto/hashes#257
use core::arch::{aarch64::*, asm};
use crate::consts::K32;
cpufeatures::new!(sha2_hwcap, "sha2");
pub fn compress(state: &mut [u32; 8], blocks: &[[u8; 64]]) {
// after stabilization
if sha2_hwcap::get() {
unsafe { sha256_compress(state, blocks) }
} else {
super::soft::compress(state, blocks);
}
}
#[target_feature(enable = "sha2")]
unsafe fn sha256_compress(state: &mut [u32; 8], blocks: &[[u8; 64]]) {
// SAFETY: Requires the sha2 feature.
// Load state into vectors.
let mut abcd = vld1q_u32(state[0..4].as_ptr());
let mut efgh = vld1q_u32(state[4..8].as_ptr());
// Iterate through the message blocks.
for block in blocks {
// Keep original state values.
let abcd_orig = abcd;
let efgh_orig = efgh;
// Load the message block into vectors, assuming little endianness.
let mut s0 = vreinterpretq_u32_u8(vrev32q_u8(vld1q_u8(block[0..16].as_ptr())));
let mut s1 = vreinterpretq_u32_u8(vrev32q_u8(vld1q_u8(block[16..32].as_ptr())));
let mut s2 = vreinterpretq_u32_u8(vrev32q_u8(vld1q_u8(block[32..48].as_ptr())));
let mut s3 = vreinterpretq_u32_u8(vrev32q_u8(vld1q_u8(block[48..64].as_ptr())));
// Rounds 0 to 3
let mut tmp = vaddq_u32(s0, vld1q_u32(&K32[0]));
let mut abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
// Rounds 4 to 7
tmp = vaddq_u32(s1, vld1q_u32(&K32[4]));
abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
// Rounds 8 to 11
tmp = vaddq_u32(s2, vld1q_u32(&K32[8]));
abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
// Rounds 12 to 15
tmp = vaddq_u32(s3, vld1q_u32(&K32[12]));
abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
for t in (16..64).step_by(16) {
// Rounds t to t + 3
s0 = vsha256su1q_u32(vsha256su0q_u32(s0, s1), s2, s3);
tmp = vaddq_u32(s0, vld1q_u32(&K32[t]));
abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
// Rounds t + 4 to t + 7
s1 = vsha256su1q_u32(vsha256su0q_u32(s1, s2), s3, s0);
tmp = vaddq_u32(s1, vld1q_u32(&K32[t + 4]));
abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
// Rounds t + 8 to t + 11
s2 = vsha256su1q_u32(vsha256su0q_u32(s2, s3), s0, s1);
tmp = vaddq_u32(s2, vld1q_u32(&K32[t + 8]));
abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
// Rounds t + 12 to t + 15
s3 = vsha256su1q_u32(vsha256su0q_u32(s3, s0), s1, s2);
tmp = vaddq_u32(s3, vld1q_u32(&K32[t + 12]));
abcd_prev = abcd;
abcd = vsha256hq_u32(abcd_prev, efgh, tmp);
efgh = vsha256h2q_u32(efgh, abcd_prev, tmp);
}
// Add the block-specific state to the original state.
abcd = vaddq_u32(abcd, abcd_orig);
efgh = vaddq_u32(efgh, efgh_orig);
}
// Store vectors into state.
vst1q_u32(state[0..4].as_mut_ptr(), abcd);
vst1q_u32(state[4..8].as_mut_ptr(), efgh);
}
// TODO remove these polyfills once SHA2 intrinsics land
#[inline(always)]
unsafe fn vsha256hq_u32(
mut hash_efgh: uint32x4_t,
hash_abcd: uint32x4_t,
wk: uint32x4_t,
) -> uint32x4_t {
asm!(
"SHA256H {:q}, {:q}, {:v}.4S",
inout(vreg) hash_efgh, in(vreg) hash_abcd, in(vreg) wk,
options(pure, nomem, nostack, preserves_flags)
);
hash_efgh
}
#[inline(always)]
unsafe fn vsha256h2q_u32(
mut hash_efgh: uint32x4_t,
hash_abcd: uint32x4_t,
wk: uint32x4_t,
) -> uint32x4_t {
asm!(
"SHA256H2 {:q}, {:q}, {:v}.4S",
inout(vreg) hash_efgh, in(vreg) hash_abcd, in(vreg) wk,
options(pure, nomem, nostack, preserves_flags)
);
hash_efgh
}
#[inline(always)]
unsafe fn vsha256su0q_u32(mut w0_3: uint32x4_t, w4_7: uint32x4_t) -> uint32x4_t {
asm!(
"SHA256SU0 {:v}.4S, {:v}.4S",
inout(vreg) w0_3, in(vreg) w4_7,
options(pure, nomem, nostack, preserves_flags)
);
w0_3
}
#[inline(always)]
unsafe fn vsha256su1q_u32(
mut tw0_3: uint32x4_t,
w8_11: uint32x4_t,
w12_15: uint32x4_t,
) -> uint32x4_t {
asm!(
"SHA256SU1 {:v}.4S, {:v}.4S, {:v}.4S",
inout(vreg) tw0_3, in(vreg) w8_11, in(vreg) w12_15,
options(pure, nomem, nostack, preserves_flags)
);
tw0_3
}