/*

* Copyright 2022 Cryspen Sarl

*

* Licensed under the Apache License, Version 2.0 or MIT.

* - http://www.apache.org/licenses/LICENSE-2.0

* - http://opensource.org/licenses/MIT

*/

#include "EverCrypt_Hash.h"

#include "Hacl_Hash_Blake2b.h"

#include "Hacl_Hash_Blake2s.h"

#include "util.h"

#ifdef HACL_CAN_COMPILE_VEC128

#include "Hacl_Hash_Blake2s_Simd128.h"

#endif

#ifdef HACL_CAN_COMPILE_VEC256

#include "Hacl_Hash_Blake2b_Simd256.h"

#endif

#include "blake2.h"

#define HACL_HASH_BLAKE2B_DIGEST_LENGTH_MAX 64

#define HACL_HASH_BLAKE2S_DIGEST_LENGTH_MAX 32

const bytes input(1000, 0x37);

static bytes key(64, 0x72);

static bytes digest2b(64, 0);

static bytes digest2s(32, 0);

const size_t chunk_len = 135;

const bytes expected_digest_blake2b512 =

from_hex("f70070628cf99c5f67f56079024f952a7a4f58b7a0e1c9bff1962502bc2ae1eb2ec"

"f12d5249461e8efe27a58c0c9a549ccb4506cc9f986226e69e7be98ae27a1");

const bytes expected_digest_blake2s256 =

from_hex("1b472dff2aec94842fc209bf6f0f922a330e2da17c4464ef06e5035c3f1cf1e4");

static void

HACL_blake2b_32_oneshot(benchmark::State& state)

{

bytes input(state.range(0), 0xAB);

for (auto _ : state) {

Hacl_Hash_Blake2b_hash_with_key(

digest2b.data(), digest2b.size(), (uint8_t*)input.data(), input.size(),

NULL, 0);

}

}

BENCHMARK(HACL_blake2b_32_oneshot)->Setup(DoSetup)->Apply(Range);

#ifdef HACL_CAN_COMPILE_VEC256

static void

HACL_blake2b_vec256_oneshot(benchmark::State& state)

{

if (!vec256_support()) {

state.SkipWithError("No vec256 support");

return;

}

bytes input(state.range(0), 0xAB);

for (auto _ : state) {

Hacl_Hash_Blake2b_Simd256_hash_with_key(

digest2b.data(), digest2b.size(), (uint8_t*)input.data(), input.size(),

NULL, 0);

}

}

BENCHMARK(HACL_blake2b_vec256_oneshot)->Setup(DoSetup)->Apply(Range);

#endif

static void

EverCrypt_blake2b_oneshot(benchmark::State& state)

{

bytes input(state.range(0), 0xAB);

for (auto _ : state) {

EverCrypt_Hash_Incremental_hash(Spec_Hash_Definitions_Blake2B,

digest2b.data(), input.data(), input.size());

}

}

BENCHMARK(EverCrypt_blake2b_oneshot)->Setup(DoSetup)->Apply(Range);

#ifndef NO_OPENSSL

BENCHMARK_CAPTURE(OpenSSL_hash_oneshot,

blake2b512,

EVP_blake2b512(),

input,

digest2b.size(),

expected_digest_blake2b512)

->Setup(DoSetup);

#endif

// -----------------------------------------------------------------------------

static void

HACL_blake2b_32_oneshot_keyed(benchmark::State& state)

{

for (auto _ : state) {

Hacl_Hash_Blake2b_hash_with_key(

digest2b.data(), digest2b.size(), (uint8_t*)input.data(), input.size(),

key.data(), key.size());

}

}

BENCHMARK(HACL_blake2b_32_oneshot_keyed)->Setup(DoSetup);

#ifdef HACL_CAN_COMPILE_VEC256

static void

HACL_blake2b_vec256_oneshot_keyed(benchmark::State& state)

{

if (!vec256_support()) {

state.SkipWithError("No vec256 support");

return;

}

for (auto _ : state) {

Hacl_Hash_Blake2b_Simd256_hash_with_key(

digest2b.data(), digest2b.size(), (uint8_t*)input.data(), input.size(),

key.data(), key.size());

}

}

BENCHMARK(HACL_blake2b_vec256_oneshot_keyed)->Setup(DoSetup);

#endif

static void

EverCrypt_blake2b_oneshot_keyed(benchmark::State& state)

{

// TODO

state.SkipWithError("Unimplemented");

}

BENCHMARK(EverCrypt_blake2b_oneshot_keyed)->Setup(DoSetup);

#ifndef NO_OPENSSL

static void

OpenSSL_blake2b_oneshot_keyed(benchmark::State& state)

{

// TODO

state.SkipWithError("Unimplemented");

}

BENCHMARK(OpenSSL_blake2b_oneshot_keyed)->Setup(DoSetup);

#endif

// -----------------------------------------------------------------------------

static void

HACL_blake2s_32_oneshot(benchmark::State& state)

{

bytes input(state.range(0), 0xAB);

for (auto _ : state) {

Hacl_Hash_Blake2s_hash_with_key(

digest2s.data(), digest2s.size(), input.data(), input.size(), NULL, 0);

}

}

BENCHMARK(HACL_blake2s_32_oneshot)->Setup(DoSetup)->Apply(Range);

#ifdef HACL_CAN_COMPILE_VEC128

static void

HACL_blake2s_vec128_oneshot(benchmark::State& state)

{

if (!vec128_support()) {

state.SkipWithError("No vec128 support");

return;

}

bytes input(state.range(0), 0xAB);

for (auto _ : state) {

Hacl_Hash_Blake2s_Simd128_hash_with_key(

digest2s.data(), digest2s.size(), input.data(), input.size(), NULL, 0);

}

}

BENCHMARK(HACL_blake2s_vec128_oneshot)->Setup(DoSetup)->Apply(Range);

#endif

static void

EverCrypt_blake2s_oneshot(benchmark::State& state)

{

bytes input(state.range(0), 0xAB);

for (auto _ : state) {

EverCrypt_Hash_Incremental_hash(Spec_Hash_Definitions_Blake2S,

digest2s.data(), input.data(), input.size());

}

}

BENCHMARK(EverCrypt_blake2s_oneshot)->Setup(DoSetup)->Apply(Range);

#ifndef NO_OPENSSL

BENCHMARK_CAPTURE(OpenSSL_hash_oneshot,

blake2s256,

EVP_blake2s256(),

input,

digest2s.size(),

expected_digest_blake2s256)

->Setup(DoSetup);

#endif

// -----------------------------------------------------------------------------

static void

HACL_blake2s_32_oneshot_keyed(benchmark::State& state)

{

for (auto _ : state) {

Hacl_Hash_Blake2s_hash_with_key(

digest2s.data(), digest2s.size(), (uint8_t*)input.data(), input.size(),

key.data(), key.size());

}

}

BENCHMARK(HACL_blake2s_32_oneshot_keyed)->Setup(DoSetup);

#ifdef HACL_CAN_COMPILE_VEC128

static void

HACL_blake2s_vec128_oneshot_keyed(benchmark::State& state)

{

if (!vec128_support()) {

state.SkipWithError("No vec128 support");

return;

}

for (auto _ : state) {

Hacl_Hash_Blake2s_Simd128_hash_with_key(

digest2s.data(), digest2s.size(), (uint8_t*)input.data(), input.size(),

key.data(), key.size());

}

}

BENCHMARK(HACL_blake2s_vec128_oneshot_keyed)->Setup(DoSetup);

#endif

static void

EverCrypt_blake2s_oneshot_keyed(benchmark::State& state)

{

// TODO

state.SkipWithError("Unimplemented");

}

BENCHMARK(EverCrypt_blake2s_oneshot_keyed)->Setup(DoSetup);

#ifndef NO_OPENSSL

static void

OpenSSL_blake2s_oneshot_keyed(benchmark::State& state)

{

// TODO

state.SkipWithError("Unimplemented");

}

BENCHMARK(OpenSSL_blake2s_oneshot_keyed)->Setup(DoSetup);

#endif

// -----------------------------------------------------------------------------

static void

HACL_blake2b_32_streaming(benchmark::State& state)

{

for (auto _ : state) {

uint8_t digest[HACL_HASH_BLAKE2B_DIGEST_LENGTH_MAX];

// Init

Hacl_Hash_Blake2b_state_t* ctx =

Hacl_Hash_Blake2b_malloc();

// Update

for (auto chunk : chunk(input, chunk_len)) {

Hacl_Hash_Blake2b_update(

ctx, (uint8_t*)chunk.data(), chunk.size());

}

// Finish

Hacl_Hash_Blake2b_digest(ctx, digest);

Hacl_Hash_Blake2b_free(ctx);

}

}

BENCHMARK(HACL_blake2b_32_streaming)->Setup(DoSetup);

static void

BLAKE2_blake2b_ref_streaming(benchmark::State& state)

{

for (auto _ : state) {

uint8_t digest[64];

// Init

blake2b_state s;

blake2b_init(&s,64);

// Update

for (auto chunk : chunk(input, chunk_len)) {

blake2b_update(&s, (uint8_t*)chunk.data(), chunk.size());

}

// Finish

blake2b_final(&s,digest,64);

}

}

BENCHMARK(BLAKE2_blake2b_ref_streaming)->Setup(DoSetup);

#ifdef HACL_CAN_COMPILE_VEC256

static void

HACL_blake2b_vec256_streaming(benchmark::State& state)

{

if (!vec256_support()) {

state.SkipWithError("No vec256 support");

return;

}

for (auto _ : state) {

uint8_t digest[HACL_HASH_BLAKE2B_DIGEST_LENGTH_MAX];

// Init

Hacl_Hash_Blake2b_Simd256_state_t* ctx =

Hacl_Hash_Blake2b_Simd256_malloc();

// Update

for (auto chunk : chunk(input, chunk_len)) {

Hacl_Hash_Blake2b_Simd256_update(

ctx, (uint8_t*)chunk.data(), chunk.size());

}

// Finish

Hacl_Hash_Blake2b_Simd256_digest(ctx, digest);

Hacl_Hash_Blake2b_Simd256_free(ctx);

}

}

BENCHMARK(HACL_blake2b_vec256_streaming)->Setup(DoSetup);

#endif

static void

EverCrypt_blake2b_streaming(benchmark::State& state)

{

for (auto _ : state) {

uint8_t digest[HACL_HASH_BLAKE2B_DIGEST_LENGTH_MAX];

// Init

EverCrypt_Hash_Incremental_state_t* ctx =

EverCrypt_Hash_Incremental_malloc(Spec_Hash_Definitions_Blake2B);

// Update

for (auto chunk : chunk(input, chunk_len)) {

EverCrypt_Hash_Incremental_update(ctx, chunk.data(), chunk.size());

}

// Finish

EverCrypt_Hash_Incremental_digest(ctx, digest);

EverCrypt_Hash_Incremental_free(ctx);

}

}

BENCHMARK(EverCrypt_blake2b_streaming)->Setup(DoSetup);

#ifndef NO_OPENSSL

BENCHMARK_CAPTURE(OpenSSL_hash_streaming,

blake2b512,

EVP_blake2b512(),

input,

chunk_len,

digest2b.size(),

expected_digest_blake2b512)

->Setup(DoSetup);

#endif

// -----------------------------------------------------------------------------

static void

HACL_blake2s_32_streaming(benchmark::State& state)

{

for (auto _ : state) {

uint8_t digest[HACL_HASH_BLAKE2S_DIGEST_LENGTH_MAX];

// Init

Hacl_Hash_Blake2s_state_t* ctx = Hacl_Hash_Blake2s_malloc();

// Update

for (auto chunk : chunk(input, chunk_len)) {

Hacl_Hash_Blake2s_update(ctx, (uint8_t*)chunk.data(), chunk.size());

}

// Finish

Hacl_Hash_Blake2s_digest(ctx, digest);

Hacl_Hash_Blake2s_free(ctx);

}

}

BENCHMARK(HACL_blake2s_32_streaming)->Setup(DoSetup);

static void

BLAKE2_blake2s_ref_streaming(benchmark::State& state)

{

for (auto _ : state) {

uint8_t digest[32];

// Init

blake2s_state s;

blake2s_init(&s,32);

// Update

for (auto chunk : chunk(input, chunk_len)) {

blake2s_update(&s, (uint8_t*)chunk.data(), chunk.size());

}

// Finish

blake2s_final(&s,digest,32);

}

}

BENCHMARK(BLAKE2_blake2s_ref_streaming)->Setup(DoSetup);

#ifdef HACL_CAN_COMPILE_VEC128

static void

HACL_blake2s_vec128_streaming(benchmark::State& state)

{

if (!vec128_support()) {

state.SkipWithError("No vec128 support");

return;

}

for (auto _ : state) {

uint8_t digest[HACL_HASH_BLAKE2S_DIGEST_LENGTH_MAX];

// Init

Hacl_Hash_Blake2s_Simd128_state_t* ctx = Hacl_Hash_Blake2s_Simd128_malloc();

// Update

for (auto chunk : chunk(input, chunk_len)) {

Hacl_Hash_Blake2s_Simd128_update(

ctx, (uint8_t*)chunk.data(), chunk.size());

}

// Finish

Hacl_Hash_Blake2s_Simd128_digest(ctx, digest);

Hacl_Hash_Blake2s_Simd128_free(ctx);

}

}

BENCHMARK(HACL_blake2s_vec128_streaming)->Setup(DoSetup);

#endif

static void

EverCrypt_blake2s_streaming(benchmark::State& state)

{

for (auto _ : state) {

uint8_t digest[HACL_HASH_BLAKE2S_DIGEST_LENGTH_MAX];

// Init

EverCrypt_Hash_Incremental_state_t* ctx =

EverCrypt_Hash_Incremental_malloc(Spec_Hash_Definitions_Blake2S);

// Update

for (auto chunk : chunk(input, chunk_len)) {

EverCrypt_Hash_Incremental_update(ctx, chunk.data(), chunk.size());

}

// Finish

EverCrypt_Hash_Incremental_digest(ctx, digest);

EverCrypt_Hash_Incremental_free(ctx);

}

}

BENCHMARK(EverCrypt_blake2s_streaming)->Setup(DoSetup);

#ifndef NO_OPENSSL

BENCHMARK_CAPTURE(OpenSSL_hash_streaming,

blake2s256,

EVP_blake2s256(),

input,

chunk_len,

digest2s.size(),

expected_digest_blake2s256)

->Setup(DoSetup);

#endif

BENCHMARK_MAIN();