blake3/ffi_avx2.rs
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use crate::{CVWords, IncrementCounter, BLOCK_LEN, OUT_LEN};
// Note that there is no AVX2 implementation of compress_in_place or
// compress_xof.
// Unsafe because this may only be called on platforms supporting AVX2.
pub unsafe fn hash_many<const N: usize>(
inputs: &[&[u8; N]],
key: &CVWords,
counter: u64,
increment_counter: IncrementCounter,
flags: u8,
flags_start: u8,
flags_end: u8,
out: &mut [u8],
) {
unsafe {
// The Rust hash_many implementations do bounds checking on the `out`
// array, but the C implementations don't. Even though this is an unsafe
// function, assert the bounds here.
assert!(out.len() >= inputs.len() * OUT_LEN);
ffi::blake3_hash_many_avx2(
inputs.as_ptr() as *const *const u8,
inputs.len(),
N / BLOCK_LEN,
key.as_ptr(),
counter,
increment_counter.yes(),
flags,
flags_start,
flags_end,
out.as_mut_ptr(),
)
}
}
pub mod ffi {
extern "C" {
pub fn blake3_hash_many_avx2(
inputs: *const *const u8,
num_inputs: usize,
blocks: usize,
key: *const u32,
counter: u64,
increment_counter: bool,
flags: u8,
flags_start: u8,
flags_end: u8,
out: *mut u8,
);
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_hash_many() {
if !crate::platform::avx2_detected() {
return;
}
crate::test::test_hash_many_fn(hash_many, hash_many);
}
}