use commonware_cryptography::{bls12381, BatchVerifier, Signer as _}; use commonware_math::algebra::Random; use commonware_parallel::{Rayon, Sequential}; use commonware_utils::{test_rng, NZUsize, TestRng}; use criterion::{criterion_group, BatchSize, Criterion}; use rand::RngExt as _; use std::hint::black_box; fn bench_scheme_batch_verify_same_message(c: &mut Criterion) { let mut rng = test_rng(); let mut verify_rng = TestRng::new(1); let namespace = b"namespace"; let mut msg = [0u8; 32]; rng.fill(&mut msg); for n_signers in [1, 10, 100, 1000, 10000].into_iter() { for concurrency in [1, 8] { let rayon = (concurrency > 1).then(|| Rayon::new(NZUsize!(concurrency)).unwrap()); c.bench_function( &format!("{}/pks={} conc={}", module_path!(), n_signers, concurrency), |b| { b.iter_batched( || { let mut batch = bls12381::Batch::new(n_signers); for _ in 0..n_signers { let signer = bls12381::PrivateKey::random(&mut rng); let sig = signer.sign(namespace, &msg); assert!(batch.add(namespace, &msg, &signer.public_key(), &sig)); } batch }, |batch| { #[allow(clippy::option_if_let_else)] if let Some(rayon) = rayon.as_ref() { black_box(batch.verify(&mut verify_rng, rayon)) } else { black_box(batch.verify(&mut verify_rng, &Sequential)) } }, BatchSize::SmallInput, ); }, ); } } } criterion_group!( name = benches; config = Criterion::default().sample_size(10); targets = bench_scheme_batch_verify_same_message );