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#![allow(non_snake_case)]
use criterion::*;
use nova_snark::{
traits::{circuit::TrivialTestCircuit, Group},
CompressedSNARK, PublicParams, RecursiveSNARK,
};
use std::time::Duration;
type G1 = pasta_curves::pallas::Point;
type G2 = pasta_curves::vesta::Point;
type S1 = nova_snark::spartan_with_ipa_pc::RelaxedR1CSSNARK<G1>;
type S2 = nova_snark::spartan_with_ipa_pc::RelaxedR1CSSNARK<G2>;
type C1 = TrivialTestCircuit<<G1 as Group>::Scalar>;
type C2 = TrivialTestCircuit<<G2 as Group>::Scalar>;
fn compressed_snark_benchmark(c: &mut Criterion) {
let num_samples = 10;
bench_compressed_snark(c, num_samples);
}
fn set_duration() -> Criterion {
Criterion::default().warm_up_time(Duration::from_millis(3000))
}
criterion_group! {
name = compressed_snark;
config = set_duration();
targets = compressed_snark_benchmark
}
criterion_main!(compressed_snark);
fn bench_compressed_snark(c: &mut Criterion, num_samples: usize) {
let mut group = c.benchmark_group("CompressedSNARK");
group.sample_size(num_samples);
// Produce public parameters
let pp = PublicParams::<G1, G2, C1, C2>::setup(
TrivialTestCircuit::default(),
TrivialTestCircuit::default(),
);
// produce a recursive SNARK
let num_steps = 3;
let mut recursive_snark: Option<RecursiveSNARK<G1, G2, C1, C2>> = None;
for i in 0..num_steps {
let res = RecursiveSNARK::prove_step(
&pp,
recursive_snark,
TrivialTestCircuit::default(),
TrivialTestCircuit::default(),
<G1 as Group>::Scalar::one(),
<G2 as Group>::Scalar::zero(),
);
assert!(res.is_ok());
let recursive_snark_unwrapped = res.unwrap();
// verify the recursive snark at each step of recursion
let res = recursive_snark_unwrapped.verify(
&pp,
i + 1,
<G1 as Group>::Scalar::one(),
<G2 as Group>::Scalar::zero(),
);
assert!(res.is_ok());
// set the running variable for the next iteration
recursive_snark = Some(recursive_snark_unwrapped);
}
// Bench time to produce a compressed SNARK
let recursive_snark = recursive_snark.unwrap();
group.bench_function("Prove", |b| {
b.iter(|| {
assert!(CompressedSNARK::<_, _, _, _, S1, S2>::prove(
black_box(&pp),
black_box(&recursive_snark)
)
.is_ok());
})
});
let res = CompressedSNARK::<_, _, _, _, S1, S2>::prove(&pp, &recursive_snark);
assert!(res.is_ok());
let compressed_snark = res.unwrap();
// Benchmark the verification time
let name = "Verify";
group.bench_function(name, |b| {
b.iter(|| {
assert!(black_box(&compressed_snark)
.verify(
black_box(&pp),
black_box(num_steps),
black_box(<G1 as Group>::Scalar::zero()),
black_box(<G2 as Group>::Scalar::zero()),
)
.is_ok());
})
});
group.finish();
}
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