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#![no_std]
#![doc = include_str!("../README.md")]
#![forbid(unsafe_code, clippy::unwrap_used)]
#![warn(missing_docs, rust_2018_idioms)]
#![doc(
html_logo_url = "https://raw.githubusercontent.com/RustCrypto/media/8f1a9894/logo.svg",
html_favicon_url = "https://raw.githubusercontent.com/RustCrypto/media/8f1a9894/logo.svg"
)]
//! ## Usage
//!
//! See also: the documentation for the [`generate_k`] function.
//!
//! ```
//! use hex_literal::hex;
//! use rfc6979::consts::U32;
//! use sha2::{Digest, Sha256};
//!
//! // NIST P-256 field modulus
//! const NIST_P256_MODULUS: [u8; 32] =
//! hex!("FFFFFFFF00000000FFFFFFFFFFFFFFFFBCE6FAADA7179E84F3B9CAC2FC632551");
//!
//! // Public key for RFC6979 NIST P256/SHA256 test case
//! const RFC6979_KEY: [u8; 32] =
//! hex!("C9AFA9D845BA75166B5C215767B1D6934E50C3DB36E89B127B8A622B120F6721");
//!
//! // Test message for RFC6979 NIST P256/SHA256 test case
//! const RFC6979_MSG: &[u8; 6] = b"sample";
//!
//! // Expected K for RFC6979 NIST P256/SHA256 test case
//! const RFC6979_EXPECTED_K: [u8; 32] =
//! hex!("A6E3C57DD01ABE90086538398355DD4C3B17AA873382B0F24D6129493D8AAD60");
//!
//! let h = Sha256::digest(RFC6979_MSG);
//! let aad = b"";
//! let k = rfc6979::generate_k::<Sha256, U32>(&RFC6979_KEY.into(), &NIST_P256_MODULUS.into(), &h, aad);
//! assert_eq!(k.as_slice(), &RFC6979_EXPECTED_K);
//! ```
mod ct_cmp;
pub use hmac::digest::generic_array::typenum::consts;
use hmac::{
digest::{
core_api::BlockSizeUser,
generic_array::{ArrayLength, GenericArray},
Digest, FixedOutput, FixedOutputReset, Mac,
},
SimpleHmac,
};
/// Array of bytes representing a scalar serialized as a big endian integer.
pub type ByteArray<Size> = GenericArray<u8, Size>;
/// Deterministically generate ephemeral scalar `k`.
///
/// Accepts the following parameters and inputs:
///
/// - `x`: secret key
/// - `n`: field modulus
/// - `h`: hash/digest of input message: must be reduced modulo `n` in advance
/// - `data`: additional associated data, e.g. CSRNG output used as added entropy
#[inline]
pub fn generate_k<D, N>(
x: &ByteArray<N>,
n: &ByteArray<N>,
h: &ByteArray<N>,
data: &[u8],
) -> ByteArray<N>
where
D: Digest + BlockSizeUser + FixedOutput<OutputSize = N> + FixedOutputReset,
N: ArrayLength<u8>,
{
let mut hmac_drbg = HmacDrbg::<D>::new(x, h, data);
loop {
let mut k = ByteArray::<N>::default();
hmac_drbg.fill_bytes(&mut k);
let k_is_zero = ct_cmp::ct_eq(&k, &ByteArray::default());
if (!k_is_zero & ct_cmp::ct_lt(&k, n)).into() {
return k;
}
}
}
/// Internal implementation of `HMAC_DRBG` as described in NIST SP800-90A.
///
/// <https://csrc.nist.gov/publications/detail/sp/800-90a/rev-1/final>
///
/// This is a HMAC-based deterministic random bit generator used compute a
/// deterministic ephemeral scalar `k`.
pub struct HmacDrbg<D>
where
D: Digest + BlockSizeUser + FixedOutputReset,
{
/// HMAC key `K` (see RFC 6979 Section 3.2.c)
k: SimpleHmac<D>,
/// Chaining value `V` (see RFC 6979 Section 3.2.c)
v: GenericArray<u8, D::OutputSize>,
}
impl<D> HmacDrbg<D>
where
D: Digest + BlockSizeUser + FixedOutputReset,
{
/// Initialize `HMAC_DRBG`
pub fn new(entropy_input: &[u8], nonce: &[u8], additional_data: &[u8]) -> Self {
let mut k = SimpleHmac::new(&Default::default());
let mut v = GenericArray::default();
for b in &mut v {
*b = 0x01;
}
for i in 0..=1 {
k.update(&v);
k.update(&[i]);
k.update(entropy_input);
k.update(nonce);
k.update(additional_data);
k = SimpleHmac::new_from_slice(&k.finalize().into_bytes()).expect("HMAC error");
// Steps 3.2.e,g: v = HMAC_k(v)
k.update(&v);
v = k.finalize_reset().into_bytes();
}
Self { k, v }
}
/// Write the next `HMAC_DRBG` output to the given byte slice.
pub fn fill_bytes(&mut self, out: &mut [u8]) {
for out_chunk in out.chunks_mut(self.v.len()) {
self.k.update(&self.v);
self.v = self.k.finalize_reset().into_bytes();
out_chunk.copy_from_slice(&self.v[..out_chunk.len()]);
}
self.k.update(&self.v);
self.k.update(&[0x00]);
self.k =
SimpleHmac::new_from_slice(&self.k.finalize_reset().into_bytes()).expect("HMAC error");
self.k.update(&self.v);
self.v = self.k.finalize_reset().into_bytes();
}
}
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