#include #include #include #include #include #include #include #include #include #define ARRAY_LEN(X) sizeof(X)/sizeof(X[0]) auto cpucycle = [](benchmark::State &st, int64_t cycles) { st.counters["CPU cycles: mean"] = benchmark::Counter( cycles, benchmark::Counter::kAvgIterations | benchmark::Counter::kResultNoFormat); }; struct scheme_t { uint8_t id; const char* name; }; #define SCH(SCHEME) {SCHEME, #SCHEME}, #define SIG_LIST(_) \ _(PQC_ALG_SIG_SPHINCSSHAKE256128FSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHAKE256128SSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHAKE256128FROBUST) \ _(PQC_ALG_SIG_SPHINCSSHAKE256128SROBUST) \ _(PQC_ALG_SIG_SPHINCSSHAKE256192FSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHAKE256192SSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHAKE256192FROBUST) \ _(PQC_ALG_SIG_SPHINCSSHAKE256192SROBUST) \ _(PQC_ALG_SIG_SPHINCSSHAKE256256FSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHAKE256256SSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHAKE256256FROBUST) \ _(PQC_ALG_SIG_SPHINCSSHAKE256256SROBUST) \ _(PQC_ALG_SIG_SPHINCSSHA256128FSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHA256128SSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHA256128FROBUST) \ _(PQC_ALG_SIG_SPHINCSSHA256128SROBUST) \ _(PQC_ALG_SIG_SPHINCSSHA256192FSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHA256192SSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHA256192FROBUST) \ _(PQC_ALG_SIG_SPHINCSSHA256192SROBUST) \ _(PQC_ALG_SIG_SPHINCSSHA256256FSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHA256256SSIMPLE) \ _(PQC_ALG_SIG_SPHINCSSHA256256FROBUST) \ _(PQC_ALG_SIG_SPHINCSSHA256256SROBUST) static const struct scheme_t sig_schemes[] = { SIG_LIST(SCH) }; static void BenchKeyPair(benchmark::State &st) { int64_t t, total = 0; uint32_t id = st.range(0); const pqc_ctx_t *ctx; ctx = pqc_sig_alg_by_id(id); std::vector pk(pqc_public_key_bsz(ctx)); std::vector sk(pqc_private_key_bsz(ctx)); for (auto _ : st) { t = benchmark::cycleclock::Now(); pqc_keygen(ctx, pk.data(), sk.data()); total += benchmark::cycleclock::Now() - t; benchmark::DoNotOptimize(pk); benchmark::DoNotOptimize(sk); } cpucycle(st, total); } static void BenchSign(benchmark::State &st) { int64_t t, total = 0; struct pqcl_asym_t *key_pair = nullptr; uint32_t id = st.range(0); uint8_t msg[2048] = {0}; const pqc_ctx_t *ctx; ctx = pqc_sig_alg_by_id(id); std::vector sign(pqc_signature_bsz(ctx)); std::vector pk(pqc_public_key_bsz(ctx)); std::vector sk(pqc_private_key_bsz(ctx)); pqc_keygen(ctx, pk.data(), sk.data()); size_t se_len = sign.size(); for (auto _ : st) { t = benchmark::cycleclock::Now(); pqc_sig_create(ctx, sign.data(), &se_len, msg, sizeof msg, sk.data()); total += benchmark::cycleclock::Now() - t; } cpucycle(st, total); } static void BenchVerify(benchmark::State &st) { int64_t t, total = 0; struct pqcl_asym_t *key_pair = nullptr; uint32_t id = st.range(0); const pqc_ctx_t *ctx; uint8_t msg[2048] = {0}; ctx = pqc_sig_alg_by_id(id); std::vector sign(pqc_signature_bsz(ctx)); std::vector pk(pqc_public_key_bsz(ctx)); std::vector sk(pqc_private_key_bsz(ctx)); pqc_keygen(ctx, pk.data(), sk.data()); size_t se_len = sign.size(); pqc_sig_create(ctx, sign.data(), &se_len, msg, sizeof msg, sk.data()); for (auto _ : st) { t = benchmark::cycleclock::Now(); pqc_sig_verify(ctx, sign.data(), se_len, msg, sizeof msg, pk.data()); total += benchmark::cycleclock::Now() - t; } cpucycle(st, total); } void register_sphincs_benches() { for (size_t i=0; i"; RegisterBenchmark(s.str().c_str(), BenchKeyPair) ->Unit(benchmark::kMicrosecond) ->Arg(sig_schemes[i].id)->ArgName(""); s.str(""); s.clear(); s << "BenchSign<" << sig_schemes[i].name << ">"; RegisterBenchmark(s.str().c_str(), BenchSign) ->Unit(benchmark::kMicrosecond) ->Arg(sig_schemes[i].id)->ArgName(""); s.str(""); s.clear(); s << "BenchVerify<" << sig_schemes[i].name << ">"; RegisterBenchmark(s.str().c_str(), BenchVerify) ->Unit(benchmark::kMicrosecond) ->Arg(sig_schemes[i].id)->ArgName(""); } }