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Add tests for checking encaps implementation against ACVP KATs

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Signed-off-by: Anjan Roy <hello@itzmeanjan.in>
This commit is contained in:
Anjan Roy
2025-09-22 21:34:21 +05:30
parent defc822e79
commit 7ccf9630fe
3 changed files with 162 additions and 0 deletions
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54
tests/test_ml_kem_1024_encaps_acvp_kat.cpp Normal file
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#include "ml_kem/ml_kem_1024.hpp"
#include "test_helper.hpp"
#include <fstream>
#include <gtest/gtest.h>
// Test
//
// - Is ML-KEM-1024 Encapsulation implemented correctly ?
// - Is it conformant with the specification https://doi.org/10.6028/NIST.FIPS.203 ?
//
// using ACVP Known Answer Tests, from
// https://github.com/usnistgov/ACVP-Server/blob/d98cad66639bf9d0822129c4bcae7a169fcf9ca6/gen-val/json-files/ML-KEM-encapDecap-FIPS203/internalProjection.json.
TEST(ML_KEM, ML_KEM_1024_Encaps_ACVP_KnownAnswerTests)
{
const std::string kat_file = "./kats/ml_kem_1024_encaps.acvp.kat";
std::fstream file(kat_file);
while (true) {
std::string pk_line;
if (!std::getline(file, pk_line).eof()) {
std::string sk_line;
std::string m_line;
std::string ct_line;
std::string ss_line;
std::getline(file, sk_line);
std::getline(file, m_line);
std::getline(file, ct_line);
std::getline(file, ss_line);
const auto pk = extract_and_parse_hex_string<ml_kem_1024::PKEY_BYTE_LEN>(pk_line);
const auto _ = extract_and_parse_hex_string<ml_kem_1024::SKEY_BYTE_LEN>(sk_line);
const auto m = extract_and_parse_hex_string<ml_kem_1024::SEED_M_BYTE_LEN>(m_line);
const auto ct = extract_and_parse_hex_string<ml_kem_1024::CIPHER_TEXT_BYTE_LEN>(ct_line);
const auto ss = extract_and_parse_hex_string<ml_kem_1024::SHARED_SECRET_BYTE_LEN>(ss_line);
std::array<uint8_t, ml_kem_1024::CIPHER_TEXT_BYTE_LEN> computed_ctxt{};
std::array<uint8_t, ml_kem_1024::SHARED_SECRET_BYTE_LEN> computed_shared_secret{};
EXPECT_TRUE(ml_kem_1024::encapsulate(m, pk, computed_ctxt, computed_shared_secret));
EXPECT_EQ(ct, computed_ctxt);
EXPECT_EQ(ss, computed_shared_secret);
std::string empty_line;
std::getline(file, empty_line);
} else {
break;
}
}
file.close();
}

54
tests/test_ml_kem_512_encaps_acvp_kat.cpp Normal file
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#include "ml_kem/ml_kem_512.hpp"
#include "test_helper.hpp"
#include <fstream>
#include <gtest/gtest.h>
// Test
//
// - Is ML-KEM-512 Encapsulation implemented correctly ?
// - Is it conformant with the specification https://doi.org/10.6028/NIST.FIPS.203 ?
//
// using ACVP Known Answer Tests, from
// https://github.com/usnistgov/ACVP-Server/blob/d98cad66639bf9d0822129c4bcae7a169fcf9ca6/gen-val/json-files/ML-KEM-encapDecap-FIPS203/internalProjection.json.
TEST(ML_KEM, ML_KEM_512_Encaps_ACVP_KnownAnswerTests)
{
const std::string kat_file = "./kats/ml_kem_512_encaps.acvp.kat";
std::fstream file(kat_file);
while (true) {
std::string pk_line;
if (!std::getline(file, pk_line).eof()) {
std::string sk_line;
std::string m_line;
std::string ct_line;
std::string ss_line;
std::getline(file, sk_line);
std::getline(file, m_line);
std::getline(file, ct_line);
std::getline(file, ss_line);
const auto pk = extract_and_parse_hex_string<ml_kem_512::PKEY_BYTE_LEN>(pk_line);
const auto _ = extract_and_parse_hex_string<ml_kem_512::SKEY_BYTE_LEN>(sk_line);
const auto m = extract_and_parse_hex_string<ml_kem_512::SEED_M_BYTE_LEN>(m_line);
const auto ct = extract_and_parse_hex_string<ml_kem_512::CIPHER_TEXT_BYTE_LEN>(ct_line);
const auto ss = extract_and_parse_hex_string<ml_kem_512::SHARED_SECRET_BYTE_LEN>(ss_line);
std::array<uint8_t, ml_kem_512::CIPHER_TEXT_BYTE_LEN> computed_ctxt{};
std::array<uint8_t, ml_kem_512::SHARED_SECRET_BYTE_LEN> computed_shared_secret{};
EXPECT_TRUE(ml_kem_512::encapsulate(m, pk, computed_ctxt, computed_shared_secret));
EXPECT_EQ(ct, computed_ctxt);
EXPECT_EQ(ss, computed_shared_secret);
std::string empty_line;
std::getline(file, empty_line);
} else {
break;
}
}
file.close();
}

54
tests/test_ml_kem_768_encaps_acvp_kat.cpp Normal file
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#include "ml_kem/ml_kem_768.hpp"
#include "test_helper.hpp"
#include <fstream>
#include <gtest/gtest.h>
// Test
//
// - Is ML-KEM-768 Encapsulation implemented correctly ?
// - Is it conformant with the specification https://doi.org/10.6028/NIST.FIPS.203 ?
//
// using ACVP Known Answer Tests, from
// https://github.com/usnistgov/ACVP-Server/blob/d98cad66639bf9d0822129c4bcae7a169fcf9ca6/gen-val/json-files/ML-KEM-encapDecap-FIPS203/internalProjection.json.
TEST(ML_KEM, ML_KEM_768_Encaps_ACVP_KnownAnswerTests)
{
const std::string kat_file = "./kats/ml_kem_768_encaps.acvp.kat";
std::fstream file(kat_file);
while (true) {
std::string pk_line;
if (!std::getline(file, pk_line).eof()) {
std::string sk_line;
std::string m_line;
std::string ct_line;
std::string ss_line;
std::getline(file, sk_line);
std::getline(file, m_line);
std::getline(file, ct_line);
std::getline(file, ss_line);
const auto pk = extract_and_parse_hex_string<ml_kem_768::PKEY_BYTE_LEN>(pk_line);
const auto _ = extract_and_parse_hex_string<ml_kem_768::SKEY_BYTE_LEN>(sk_line);
const auto m = extract_and_parse_hex_string<ml_kem_768::SEED_M_BYTE_LEN>(m_line);
const auto ct = extract_and_parse_hex_string<ml_kem_768::CIPHER_TEXT_BYTE_LEN>(ct_line);
const auto ss = extract_and_parse_hex_string<ml_kem_768::SHARED_SECRET_BYTE_LEN>(ss_line);
std::array<uint8_t, ml_kem_768::CIPHER_TEXT_BYTE_LEN> computed_ctxt{};
std::array<uint8_t, ml_kem_768::SHARED_SECRET_BYTE_LEN> computed_shared_secret{};
EXPECT_TRUE(ml_kem_768::encapsulate(m, pk, computed_ctxt, computed_shared_secret));
EXPECT_EQ(ct, computed_ctxt);
EXPECT_EQ(ss, computed_shared_secret);
std::string empty_line;
std::getline(file, empty_line);
} else {
break;
}
}
file.close();
}