From: Matt Corallo Date: Thu, 1 Aug 2024 21:33:37 +0000 (+0000) Subject: Skip squaring implementations when `slower_smaller_binary` is set X-Git-Tag: v0.6.5~3 X-Git-Url: http://git.bitcoin.ninja/?a=commitdiff_plain;h=c58ffe4684b743e9ae94cc0fe0b426c3e9f85507;p=dnssec-prover Skip squaring implementations when `slower_smaller_binary` is set ...instead just using the normal multiplication code. This is less than a 5% reduction in performance and reduces code size for the crypto module from 30.8KiB to 27.4KiB. --- diff --git a/src/crypto/bigint.rs b/src/crypto/bigint.rs index 8fe97c7..19b6f7f 100644 --- a/src/crypto/bigint.rs +++ b/src/crypto/bigint.rs @@ -439,6 +439,7 @@ define_mul!(mul_64, 64, mul_32); /// /// This is the base case for our squaring, taking advantage of Rust's native 128-bit int /// types to do multiplication (potentially) natively. +#[cfg(not(feature = "slower_smaller_binary"))] const fn sqr_2(a: &[u64; 2]) -> [u64; 4] { let (a0, a1) = (a[0] as u128, a[1] as u128); let z2 = a0 * a0; @@ -450,7 +451,14 @@ const fn sqr_2(a: &[u64; 2]) -> [u64; 4] { add_mul_2_parts(z2, z1, z0, i_carry_a) } -macro_rules! define_sqr { ($name: ident, $len: expr, $submul: ident, $subsqr: ident) => { +macro_rules! define_sqr { ($name: ident, $len: expr, $mul: ident, $submul: ident, $subsqr: ident) => { + #[cfg(feature = "slower_smaller_binary")] + /// Squares a $len-64-bit integers, returning a new $len*2-64-bit integer. + const fn $name(a: &[u64; $len]) -> [u64; $len * 2] { + $mul(a, a) + } + + #[cfg(not(feature = "slower_smaller_binary"))] /// Squares a $len-64-bit integers, returning a new $len*2-64-bit integer. const fn $name(a: &[u64; $len]) -> [u64; $len * 2] { // Squaring is only 3 half-length multiplies/squares in gradeschool math, so use that. @@ -495,14 +503,16 @@ macro_rules! define_sqr { ($name: ident, $len: expr, $submul: ident, $subsqr: id } } // TODO: Write an optimized sqr_3 (though secp384r1 is barely used) +#[cfg(not(feature = "slower_smaller_binary"))] const fn sqr_3(a: &[u64; 3]) -> [u64; 6] { mul_3(a, a) } -define_sqr!(sqr_4, 4, mul_2, sqr_2); -define_sqr!(sqr_6, 6, mul_3, sqr_3); -define_sqr!(sqr_8, 8, mul_4, sqr_4); -define_sqr!(sqr_16, 16, mul_8, sqr_8); -define_sqr!(sqr_32, 32, mul_16, sqr_16); -define_sqr!(sqr_64, 64, mul_32, sqr_32); +define_sqr!(sqr_4, 4, mul_4, mul_2, sqr_2); +define_sqr!(sqr_6, 6, mul_6, mul_3, sqr_3); +#[cfg(not(feature = "slower_smaller_binary"))] +define_sqr!(sqr_8, 8, mul_8, mul_4, sqr_4); +define_sqr!(sqr_16, 16, mul_16, mul_8, sqr_8); +define_sqr!(sqr_32, 32, mul_32, mul_16, sqr_16); +define_sqr!(sqr_64, 64, mul_64, mul_32, sqr_32); macro_rules! dummy_pre_push { ($name: ident, $len: expr) => {} } macro_rules! vec_pre_push { ($name: ident, $len: expr) => { $name.push([0; $len]); } }