Files
libsmx/benches/sm2_bench.rs
T
huangxt e929e6a103 初始提交:SM2/SM3/SM4/SM9 密码算法库
- SM3 哈希函数 (GB/T 32905-2013)
- SM4 分组密码,支持 ECB/CBC/OFB/CFB/CTR/GCM/CCM/XTS 模式 (GB/T 32907-2016)
- SM2 椭圆曲线密码 (GB/T 32918.1-5-2016)
- SM9 标识密码 (GB/T 38635.1-2-2020)
- 全程常量时间运算
- 支持 no_std,带 alloc 特性
- 完整的国标测试向量
- Criterion 性能基准测试
2026-03-07 15:32:47 +08:00

64 lines
1.7 KiB
Rust

use criterion::{criterion_group, criterion_main, Criterion};
use libsmx::sm2::{decrypt, encrypt, generate_keypair, get_e, get_z, sign, verify};
use rand::rngs::OsRng;
fn bench_sm2_keygen(c: &mut Criterion) {
c.bench_function("SM2/keygen", |b| {
b.iter(|| generate_keypair(&mut OsRng))
});
}
fn bench_sm2_sign(c: &mut Criterion) {
let (pri_key, pub_key) = generate_keypair(&mut OsRng);
let id = b"benchuser";
let msg = b"benchmark message for SM2 sign";
let z = get_z(id, &pub_key);
let e = get_e(&z, msg);
c.bench_function("SM2/sign", |b| {
b.iter(|| sign(&e, &pri_key, &mut OsRng))
});
}
fn bench_sm2_verify(c: &mut Criterion) {
let (pri_key, pub_key) = generate_keypair(&mut OsRng);
let id = b"benchuser";
let msg = b"benchmark message for SM2 verify";
let z = get_z(id, &pub_key);
let e = get_e(&z, msg);
let sig = sign(&e, &pri_key, &mut OsRng);
c.bench_function("SM2/verify", |b| {
b.iter(|| verify(&e, &pub_key, &sig))
});
}
fn bench_sm2_encrypt(c: &mut Criterion) {
let (_pri_key, pub_key) = generate_keypair(&mut OsRng);
let msg = b"SM2 encryption benchmark plaintext";
c.bench_function("SM2/encrypt", |b| {
b.iter(|| encrypt(&pub_key, msg, &mut OsRng))
});
}
fn bench_sm2_decrypt(c: &mut Criterion) {
let (pri_key, pub_key) = generate_keypair(&mut OsRng);
let msg = b"SM2 decryption benchmark plaintext";
let ct = encrypt(&pub_key, msg, &mut OsRng).unwrap();
c.bench_function("SM2/decrypt", |b| {
b.iter(|| decrypt(&pri_key, &ct))
});
}
criterion_group!(
benches,
bench_sm2_keygen,
bench_sm2_sign,
bench_sm2_verify,
bench_sm2_encrypt,
bench_sm2_decrypt
);
criterion_main!(benches);