/******************************************************************************/ /* SlunkCrypt, by LoRd_MuldeR */ /* This work has been released under the CC0 1.0 Universal license! */ /******************************************************************************/ /* Internal */ #include "selftest.h" #include "utils.h" #include "crypt.h" #include "test_data.h" #include "blake2.h" /* Library */ #include /* CRT */ #include #include #include #include // ========================================================================== // Self-test routines // ========================================================================== static int run_testcase(const char* const message, const uint64_t nonce, const uint64_t checksum_message, const uint64_t checksum_expected, const slunkparam_t *const param) { static const char* const TEST_PASSPHRASE = "OrpheanBeh0lderScry!Doubt"; int status, result = EXIT_FAILURE; const size_t length = strlen(message) + 1U; slunkcrypt_t ctx = SLUNKCRYPT_NULL; char* const text_temp = strdup(message); if (!text_temp) { FPUTS(T("\n\nWhoops: Failed to allocate text buffer!\n\n"), stderr); goto clean_up; } const uint64_t checksum_original = blake2s_compute((uint8_t*)text_temp, length); if (checksum_original != checksum_message) { FPRINTF(stderr, T("\n\nWhoops: Checksum mismatch detected! [expected: 0x%016") T(PRIX64) T(", actual: 0x%016") T(PRIX64) T("]\n\n"), checksum_message, checksum_original); goto clean_up; } ctx = slunkcrypt_alloc_ext(nonce, (const uint8_t*)TEST_PASSPHRASE, strlen(TEST_PASSPHRASE), SLUNKCRYPT_ENCRYPT, param); if (!ctx) { FPUTS(g_slunkcrypt_abort_flag ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to initialize encoder!\n\n"), stderr); goto clean_up; } status = slunkcrypt_inplace(ctx, (uint8_t*)text_temp, length); if (status != SLUNKCRYPT_SUCCESS) { FPUTS((status == SLUNKCRYPT_ABORTED) ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to encrypt the message!\n\n"), stderr); goto clean_up; } if (strncmp(message, text_temp, length) == 0) { FPUTS(T("\n\nWhoops: Encrypted message equals the original message!\n\n"), stderr); goto clean_up; } const uint64_t checksum_encrypted = blake2s_compute((uint8_t*)text_temp, length); if (checksum_encrypted != checksum_expected) { FPRINTF(stderr, T("\n\nWhoops: Checksum mismatch detected! [expected: 0x%016") T(PRIX64) T(", actual: 0x%016") T(PRIX64) T("]\n\n"), checksum_expected, checksum_encrypted); goto clean_up; } status = slunkcrypt_reset(ctx, nonce, (const uint8_t*)TEST_PASSPHRASE, strlen(TEST_PASSPHRASE), SLUNKCRYPT_DECRYPT); if (status != SLUNKCRYPT_SUCCESS) { FPUTS((status == SLUNKCRYPT_ABORTED) ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to initialize decoder!\n\n"), stderr); goto clean_up; } status = slunkcrypt_inplace(ctx, (uint8_t*)text_temp, length); if (status != SLUNKCRYPT_SUCCESS) { FPUTS((status == SLUNKCRYPT_ABORTED) ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to decrypt the message!\n\n"), stderr); goto clean_up; } if (memcmp(message, text_temp, length * sizeof(char)) != 0) { FPUTS(T("\n\nWhoops: Decrypted message does *not* match the original message!\n\n"), stderr); goto clean_up; } const uint64_t checksum_decrypted = blake2s_compute((uint8_t*)text_temp, length); if (checksum_decrypted != checksum_original) { FPRINTF(stderr, T("\n\nWhoops: Checksum mismatch detected! [expected: 0x%016") T(PRIX64) T(", actual: 0x%016") T(PRIX64) T("]\n\n"), checksum_original, checksum_decrypted); goto clean_up; } result = EXIT_SUCCESS; clean_up: SLUNKCRYPT_SAFE_FREE(ctx); if (text_temp) { slunkcrypt_bzero(text_temp, strlen(text_temp)); free(text_temp); } return result; } static int run_stresstest(const uint64_t nonce, const slunkparam_t *const param) { static const char* const TEST_PASSPHRASE = "OrpheanBeh0lderScry!Doubt"; static const size_t LENGTH = 134217689U, CHUNKZ_ENC = 8191U, CHUNKZ_DEC = 8179U; int status, result = EXIT_FAILURE; size_t offset, chunk_size; slunkcrypt_t ctx = SLUNKCRYPT_NULL; uint8_t* const buffer = (uint8_t*)malloc(LENGTH * sizeof(uint8_t)); if (!buffer) { FPUTS(T("\n\nWhoops: Failed to allocate message buffer!\n\n"), stderr); goto clean_up; } if (slunkcrypt_random_bytes(buffer, LENGTH) != LENGTH) { FPUTS(T("\n\nWhoops: Failed to generate random message!\n\n"), stderr); goto clean_up; } const uint64_t checksum_original = blake2s_compute(buffer, LENGTH); ctx = slunkcrypt_alloc_ext(nonce, (const uint8_t*)TEST_PASSPHRASE, strlen(TEST_PASSPHRASE), SLUNKCRYPT_ENCRYPT, param); if (!ctx) { FPUTS(g_slunkcrypt_abort_flag ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to initialize encoder!\n\n"), stderr); goto clean_up; } for (offset = 0U; offset < LENGTH; offset += chunk_size) { chunk_size = ((LENGTH - offset) > CHUNKZ_ENC) ? CHUNKZ_ENC : (LENGTH - offset); status = slunkcrypt_inplace(ctx, buffer + offset, chunk_size); if (status != SLUNKCRYPT_SUCCESS) { FPUTS((status == SLUNKCRYPT_ABORTED) ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to encrypt the message!\n\n"), stderr); goto clean_up; } } status = slunkcrypt_reset(ctx, nonce, (const uint8_t*)TEST_PASSPHRASE, strlen(TEST_PASSPHRASE), SLUNKCRYPT_DECRYPT); if (status != SLUNKCRYPT_SUCCESS) { FPUTS((status == SLUNKCRYPT_ABORTED) ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to initialize decoder!\n\n"), stderr); goto clean_up; } for (offset = 0U; offset < LENGTH; offset += chunk_size) { chunk_size = ((LENGTH - offset) > CHUNKZ_DEC) ? CHUNKZ_DEC : (LENGTH - offset); status = slunkcrypt_inplace(ctx, buffer + offset, chunk_size); if (status != SLUNKCRYPT_SUCCESS) { FPUTS((status == SLUNKCRYPT_ABORTED) ? T("\n\nProcess interrupted!\n\n") : T("\n\nWhoops: Failed to decrypt the message!\n\n"), stderr); goto clean_up; } } const uint64_t checksum_decrypted = blake2s_compute(buffer, LENGTH); if (checksum_decrypted != checksum_original) { FPRINTF(stderr, T("\n\nWhoops: Checksum mismatch detected! [expected: 0x%016") T(PRIX64) T(", actual: 0x%016") T(PRIX64) T("]\n\n"), checksum_original, checksum_decrypted); goto clean_up; } result = EXIT_SUCCESS; clean_up: SLUNKCRYPT_SAFE_FREE(ctx); if (buffer) { slunkcrypt_bzero(buffer, LENGTH); free(buffer); } return result; } int run_selftest_routine(const size_t thread_count) { static const size_t ITERATIONS = 2U; static const uint64_t TEST_NONCE[] = { 0x243F6A8885A308D3, 0x13198A2E03707344 }; const struct { const char* text; uint64_t check_orig, check_encr[2U][2U]; } TEST_STAGE[] = { { TEST_DATA_0, TEST_CHCK_ORIG_0, { { TEST_CHCK_ENCR_0[0U], TEST_CHCK_ENCR_0[1U] }, { TEST_CHCK_ENCR_0[2U], TEST_CHCK_ENCR_0[3U] } } }, { TEST_DATA_1, TEST_CHCK_ORIG_1, { { TEST_CHCK_ENCR_1[0U], TEST_CHCK_ENCR_1[1U] }, { TEST_CHCK_ENCR_1[2U], TEST_CHCK_ENCR_1[3U] } } }, { TEST_DATA_2, TEST_CHCK_ORIG_2, { { TEST_CHCK_ENCR_2[0U], TEST_CHCK_ENCR_2[1U] }, { TEST_CHCK_ENCR_2[2U], TEST_CHCK_ENCR_2[3U] } } }, { TEST_DATA_3, TEST_CHCK_ORIG_3, { { TEST_CHCK_ENCR_3[0U], TEST_CHCK_ENCR_3[1U] }, { TEST_CHCK_ENCR_3[2U], TEST_CHCK_ENCR_3[3U] } } } }; const size_t total = ARRAY_SIZE(TEST_NONCE) * (ITERATIONS + (ITERATIONS * ARRAY_SIZE(TEST_STAGE))); size_t count = 0U; FPRINTF(stderr, T("Self-test is in progress, please be patient... stage %2u/%2u "), 0U, (unsigned)total); fflush(stderr); for (size_t i = 0U; i < ARRAY_SIZE(TEST_STAGE); ++i) { for (size_t j = 0U; j < ITERATIONS; ++j) { const slunkparam_t param = { SLUNKCRYPT_PARAM_VERSION, thread_count, (j > 0) }; for (size_t k = 0U; k < ARRAY_SIZE(TEST_NONCE); ++k) { FPRINTF(stderr, T("\b\b\b\b\b\b%2u/%2u "), (unsigned)++count, (unsigned)total); fflush(stderr); if (run_testcase(TEST_STAGE[i].text, TEST_NONCE[k], TEST_STAGE[i].check_orig, TEST_STAGE[i].check_encr[j][k], ¶m) != EXIT_SUCCESS) { return EXIT_FAILURE; } } } } const slunkparam_t param = { SLUNKCRYPT_PARAM_VERSION, thread_count, 0 }; for (size_t i = 0U; i < ITERATIONS; ++i) { for (size_t j = 0U; j < ARRAY_SIZE(TEST_NONCE); ++j) { FPRINTF(stderr, T("\b\b\b\b\b\b%2u/%2u "), (unsigned)++count, (unsigned)total); fflush(stderr); if (run_stresstest(TEST_NONCE[j], ¶m) != EXIT_SUCCESS) { return EXIT_FAILURE; } } } FPRINTF(stderr, T("\b\b\b\b\b\b%2u/%2u\n\nCompleted successfully.\n\n"), (unsigned)total, (unsigned)total); fflush(stderr); return EXIT_SUCCESS; }