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use crate::consts::{H224, H256, STATE_LEN};
use block_buffer::BlockBuffer;
use core::slice::from_ref;
use digest::consts::{U28, U32, U64};
use digest::generic_array::GenericArray;
use digest::{BlockInput, FixedOutputDirty, Reset, Update};
type BlockSize = U64;
#[derive(Clone)]
struct Engine256 {
len: u64,
buffer: BlockBuffer<BlockSize>,
state: [u32; 8],
}
impl Engine256 {
fn new(h: &[u32; STATE_LEN]) -> Engine256 {
Engine256 {
len: 0,
buffer: Default::default(),
state: *h,
}
}
fn update(&mut self, input: &[u8]) {
self.len += (input.len() as u64) << 3;
let s = &mut self.state;
self.buffer.input_blocks(input, |b| compress256(s, b));
}
fn finish(&mut self) {
let s = &mut self.state;
let l = self.len;
self.buffer
.len64_padding_be(l, |b| compress256(s, from_ref(b)));
}
fn reset(&mut self, h: &[u32; STATE_LEN]) {
self.len = 0;
self.buffer.reset();
self.state = *h;
}
}
#[derive(Clone)]
pub struct Sha256 {
engine: Engine256,
}
impl Default for Sha256 {
fn default() -> Self {
Sha256 {
engine: Engine256::new(&H256),
}
}
}
impl BlockInput for Sha256 {
type BlockSize = BlockSize;
}
impl Update for Sha256 {
fn update(&mut self, input: impl AsRef<[u8]>) {
self.engine.update(input.as_ref());
}
}
impl FixedOutputDirty for Sha256 {
type OutputSize = U32;
fn finalize_into_dirty(&mut self, out: &mut digest::Output<Self>) {
self.engine.finish();
let s = self.engine.state;
for (chunk, v) in out.chunks_exact_mut(4).zip(s.iter()) {
chunk.copy_from_slice(&v.to_be_bytes());
}
}
}
impl Reset for Sha256 {
fn reset(&mut self) {
self.engine.reset(&H256);
}
}
#[derive(Clone)]
pub struct Sha224 {
engine: Engine256,
}
impl Default for Sha224 {
fn default() -> Self {
Sha224 {
engine: Engine256::new(&H224),
}
}
}
impl BlockInput for Sha224 {
type BlockSize = BlockSize;
}
impl Update for Sha224 {
fn update(&mut self, input: impl AsRef<[u8]>) {
self.engine.update(input.as_ref());
}
}
impl FixedOutputDirty for Sha224 {
type OutputSize = U28;
fn finalize_into_dirty(&mut self, out: &mut digest::Output<Self>) {
self.engine.finish();
let s = &self.engine.state[..7];
for (chunk, v) in out.chunks_exact_mut(4).zip(s.iter()) {
chunk.copy_from_slice(&v.to_be_bytes());
}
}
}
impl Reset for Sha224 {
fn reset(&mut self) {
self.engine.reset(&H224);
}
}
opaque_debug::implement!(Sha224);
opaque_debug::implement!(Sha256);
digest::impl_write!(Sha224);
digest::impl_write!(Sha256);
cfg_if::cfg_if! {
if #[cfg(feature = "force-soft")] {
mod soft;
use soft::compress;
} else if #[cfg(any(target_arch = "x86", target_arch = "x86_64"))] {
#[cfg(not(feature = "asm"))]
mod soft;
#[cfg(feature = "asm")]
mod soft {
pub(crate) fn compress(state: &mut [u32; 8], blocks: &[[u8; 64]]) {
sha2_asm::compress256(state, blocks);
}
}
mod x86;
use x86::compress;
} else if #[cfg(all(feature = "asm", target_arch = "aarch64", any(target_os = "macos", target_os = "linux")))] {
mod soft;
mod aarch64;
use aarch64::compress;
} else {
mod soft;
use soft::compress;
}
}
#[cfg_attr(docsrs, doc(cfg(feature = "compress")))]
pub fn compress256(state: &mut [u32; 8], blocks: &[GenericArray<u8, U64>]) {
#[allow(unsafe_code)]
let blocks: &[[u8; 64]] = unsafe { &*(blocks as *const _ as *const [[u8; 64]]) };
compress(state, blocks)
}