/* benchmark.c * * Copyright (C) 2006-2024 wolfSSL Inc. * * This file is part of wolfSSL. * * wolfSSL is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * wolfSSL is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335, USA */ /* wolfCrypt benchmark */ /* Some common, optional build settings: * these can also be set in wolfssl/options.h or user_settings.h * ------------------------------------------------------------- * make the binary always use CSV format: * WOLFSSL_BENCHMARK_FIXED_CSV * * choose to use the same units, regardless of scale. pick 1: * WOLFSSL_BENCHMARK_FIXED_UNITS_GB * WOLFSSL_BENCHMARK_FIXED_UNITS_MB * WOLFSSL_BENCHMARK_FIXED_UNITS_KB * WOLFSSL_BENCHMARK_FIXED_UNITS_B * * when the output should be in machine-parseable format: * GENERATE_MACHINE_PARSEABLE_REPORT * * use microseconds as the unit of time: * BENCH_MICROSECOND * * display mean, max, min and sd of operation durations: * MULTI_VALUE_STATISTICS * * Enable tracking of the stats into an allocated linked list: * (use -print to display results): * WC_BENCH_TRACK_STATS * * set the default devId for cryptocb to the value instead of INVALID_DEVID * WC_USE_DEVID=0x1234 * * Turn on benchmark timing debugging (CPU Cycles, RTOS ticks, etc) * DEBUG_WOLFSSL_BENCHMARK_TIMING * * Turn on timer debugging (used when CPU cycles not available) * WOLFSSL_BENCHMARK_TIMER_DEBUG */ #ifdef HAVE_CONFIG_H #include #endif #if !defined(WOLFSSL_USER_SETTINGS) && !defined(WOLFSSL_NO_OPTIONS_H) #include #endif #include /* also picks up user_settings.h */ /* Macro to disable benchmark */ #ifndef NO_CRYPT_BENCHMARK #define WC_ALLOC_DO_ON_FAILURE() do { printf("out of memory at benchmark.c L %d\n", __LINE__); ret = MEMORY_E; goto exit; } while (0) #include #include #include #include #include #include #include #include #ifdef WOLFSSL_LINUXKM /* remap current_time() -- collides with a function in kernel linux/fs.h */ #define current_time benchmark_current_time #endif /* WOLFSSL_LINUXKM */ #ifdef HAVE_CHACHA #include #endif #ifdef HAVE_POLY1305 #include #endif #if defined(HAVE_CHACHA) && defined(HAVE_POLY1305) #include #endif #ifndef NO_AES #include #endif #ifdef HAVE_CAMELLIA #include #endif #ifdef WOLFSSL_SM4 #include #endif #ifndef NO_MD5 #include #endif #ifndef NO_SHA #include #endif #ifndef NO_SHA256 #include #endif #if defined(WOLFSSL_SHA512) || defined(WOLFSSL_SHA384) #include #endif #ifdef WOLFSSL_SHA3 #include #endif #ifdef WOLFSSL_SM3 #include #endif #ifndef NO_RSA #include #endif #ifdef WOLFSSL_RIPEMD #include #endif #ifdef WOLFSSL_CMAC #include #endif #ifndef NO_DH #include #endif #ifndef NO_DES3 #include #endif #ifndef NO_RC4 #include #endif #ifndef NO_HMAC #include #endif #ifdef WOLFSSL_SIPHASH #include #endif #include #ifndef NO_PWDBASED #include #endif #ifdef HAVE_ECC #include #endif #ifdef WOLFSSL_SM2 #include #endif #ifdef HAVE_CURVE25519 #include #endif #ifdef HAVE_ED25519 #include #endif #ifdef HAVE_CURVE448 #include #endif #ifdef HAVE_ED448 #include #endif #ifdef WOLFSSL_HAVE_KYBER #include #ifdef WOLFSSL_WC_KYBER #include #endif #if defined(HAVE_LIBOQS) #include #endif #endif #if defined(WOLFSSL_HAVE_LMS) && !defined(WOLFSSL_LMS_VERIFY_ONLY) #include #ifdef HAVE_LIBLMS #include #else #include #endif #endif #if defined(WOLFSSL_HAVE_XMSS) && !defined(WOLFSSL_XMSS_VERIFY_ONLY) #include #ifdef HAVE_LIBXMSS #include #else #include #endif #endif #ifdef WOLFCRYPT_HAVE_ECCSI #include #endif #ifdef WOLFCRYPT_HAVE_SAKKE #include #endif #if defined(HAVE_FALCON) #include #endif #if defined(HAVE_DILITHIUM) #include #endif #if defined(HAVE_SPHINCS) #include #endif #ifdef WOLF_CRYPTO_CB #include #ifdef HAVE_INTEL_QA_SYNC #include #endif #ifdef HAVE_CAVIUM_OCTEON_SYNC #include #endif #ifdef HAVE_RENESAS_SYNC #include #endif #if defined(WOLFSSL_MAX3266X) || defined(WOLFSSL_MAX3266X_OLD) #include #endif #endif #ifdef WOLFSSL_ASYNC_CRYPT #include #endif #include #ifdef USE_FLAT_BENCHMARK_H #include "benchmark.h" #else #include "wolfcrypt/benchmark/benchmark.h" #endif /* define the max length for each string of metric reported */ #ifndef WC_BENCH_MAX_LINE_LEN #define WC_BENCH_MAX_LINE_LEN 150 #endif /* default units per second. See WOLFSSL_BENCHMARK_FIXED_UNITS_* to change */ #define WOLFSSL_FIXED_UNIT "MB" /* may be re-set by fixed units */ #define MILLION_VALUE 1000000.0 #ifdef BENCH_MICROSECOND #define WOLFSSL_FIXED_TIME_UNIT "μs" #define WOLFSSL_BENCHMARK_FIXED_UNITS_KB #else #define WOLFSSL_FIXED_TIME_UNIT "s" #endif #ifdef MULTI_VALUE_STATISTICS #define STATS_CLAUSE_SEPARATOR "" #define DECLARE_MULTI_VALUE_STATS_VARS() double max = 0, min = 0, sum = 0,\ squareSum = 0, prev = 0, delta;\ int runs = 0; #define RECORD_MULTI_VALUE_STATS() if (runs == 0) {\ delta = current_time(0) - start;\ min = delta;\ max = delta;\ }\ else {\ delta = current_time(0) - prev;\ }\ if (max < delta)\ max = delta;\ else if (min > delta)\ min = delta;\ sum += delta;\ squareSum += delta * delta;\ runs++;\ prev = current_time(0) #define RESET_MULTI_VALUE_STATS_VARS() prev = 0;\ runs = 0;\ sum = 0;\ squareSum = 0 #else #define STATS_CLAUSE_SEPARATOR "\n" #define DECLARE_MULTI_VALUE_STATS_VARS() #define RECORD_MULTI_VALUE_STATS() WC_DO_NOTHING #define RESET_MULTI_VALUE_STATS_VARS() WC_DO_NOTHING #endif #ifdef WOLFSSL_NO_FLOAT_FMT #define FLT_FMT "%0ld,%09lu" #define FLT_FMT_PREC "%0ld.%0*lu" #define FLT_FMT_PREC2 FLT_FMT_PREC #define FLT_FMT_ARGS(x) (long)(x), ((x) < 0) ? \ (unsigned long)(-(((x) - (double)(long)(x)) * 1000000000.0)) : \ (unsigned long)(((x) - (double)(long)(x)) * 1000000000.0) static const double pow_10_array[] = { 0.0, 1.0, 10.0, 100.0, 1000.0, \ 10000.0, 100000.0, 1000000.0, \ 10000000.0, 100000000.0, \ 1000000000.0 }; #define FLT_FMT_PREC_ARGS(p, x) \ (long)(x), \ p, \ (x) >= 0.0 ? \ (unsigned long int)((((x) - (double)(long)(x)) * \ pow_10_array[(p)+1]) + 0.5) : \ (unsigned long int)((((-(x)) - (double)((long)-(x))) * \ pow_10_array[(p)+1]) + 0.5) #define FLT_FMT_PREC2_ARGS(w, p, x) FLT_FMT_PREC_ARGS(p, x) #else #define FLT_FMT "%f" #define FLT_FMT_PREC "%.*f" #define FLT_FMT_PREC2 "%*.*f" #define FLT_FMT_ARGS(x) x #define FLT_FMT_PREC_ARGS(p, x) p, x #define FLT_FMT_PREC2_ARGS(w, p, x) w, p, x #endif /* WOLFSSL_NO_FLOAT_FMT */ #ifdef WOLFSSL_ESPIDF #include /* Benchmark uses 64 bit integer formatting support. When new nanolib is * enabled, all if the values in report are blank. */ #ifdef CONFIG_NEWLIB_NANO_FORMAT #if CONFIG_NEWLIB_NANO_FORMAT == 1 #error "Nano newlib formatting must not be enabled for benchmark" #endif #endif #if ESP_IDF_VERSION_MAJOR >= 5 #define TFMT "%lu" #else #define TFMT "%d" #endif #ifdef configTICK_RATE_HZ /* Define CPU clock cycles per tick of FreeRTOS clock * CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ is typically a value like 240 * configTICK_RATE_HZ is typically 100 or 1000. **/ #if defined(CONFIG_IDF_TARGET_ESP8266) #ifndef CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ #define CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ \ CONFIG_ESP8266_DEFAULT_CPU_FREQ_MHZ #endif #ifndef CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ #define CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ configCPU_CLOCK_HZ #endif #endif #ifndef CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ /* This section is for pre-v5 ESP-IDF */ #if defined(CONFIG_ESP32_DEFAULT_CPU_FREQ_MHZ) #define CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ \ CONFIG_ESP32_DEFAULT_CPU_FREQ_MHZ #elif defined(CONFIG_ESP32C2_DEFAULT_CPU_FREQ_MHZ) #define CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ \ CONFIG_ESP32C2_DEFAULT_CPU_FREQ_MHZ #elif defined(CONFIG_ESP32S2_DEFAULT_CPU_FREQ_MHZ) #define CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ \ CONFIG_ESP32S2_DEFAULT_CPU_FREQ_MHZ #elif defined(CONFIG_ESP32S3_DEFAULT_CPU_FREQ_MHZ) #define CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ \ CONFIG_ESP32S3_DEFAULT_CPU_FREQ_MHZ #elif defined(CONFIG_ESP32H2_DEFAULT_CPU_FREQ_MHZ) #define CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ \ CONFIG_ESP32H2_DEFAULT_CPU_FREQ_MHZ #else /* TODO unsupported */ #endif /* older CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ */ #endif #define CPU_TICK_CYCLES ( \ (CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ * MILLION_VALUE) \ / configTICK_RATE_HZ \ ) #endif /* WOLFSSL_ESPIDF configTICK_RATE_HZ */ #if defined(CONFIG_IDF_TARGET_ESP32C2) #include "driver/gptimer.h" static gptimer_handle_t esp_gptimer = NULL; static gptimer_config_t esp_timer_config = { .clk_src = GPTIMER_CLK_SRC_DEFAULT, .direction = GPTIMER_COUNT_UP, .resolution_hz = CONFIG_XTAL_FREQ * 100000, }; #elif defined(CONFIG_IDF_TARGET_ESP32C3) || \ defined(CONFIG_IDF_TARGET_ESP32C6) #include #if ESP_IDF_VERSION_MAJOR >= 5 #include #endif #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG #define RESOLUTION_SCALE 100 /* CONFIG_XTAL_FREQ = 40, CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ = 160 */ static gptimer_handle_t esp_gptimer = NULL; static gptimer_config_t esp_timer_config = { .clk_src = GPTIMER_CLK_SRC_DEFAULT, .direction = GPTIMER_COUNT_UP, /* CONFIG_XTAL_FREQ = 40, * CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ = 160 */ .resolution_hz = CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ * (MILLION_VALUE / RESOLUTION_SCALE), }; #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ #elif defined(CONFIG_IDF_TARGET_ESP32) || \ defined(CONFIG_IDF_TARGET_ESP32S2) || \ defined(CONFIG_IDF_TARGET_ESP32S3) #include #elif defined(CONFIG_IDF_TARGET_ESP8266) /* no CPU HAL for ESP8266, we'll use RTOS tick calc estimates */ #include #include #include #include #elif defined(CONFIG_IDF_TARGET_ESP32H2) /* TODO add ESP32-H2 benchmark support */ #else /* Other platform */ #endif #include #endif /* WOLFSSL_ESPIDF */ #if defined(HAVE_PTHREAD) || \ (!defined(NO_CRYPT_BENCHMARK) && !defined(NO_STDIO_FILESYSTEM) && \ !defined(NO_ERROR_STRINGS) && !defined(NO_MAIN_DRIVER) && \ !defined(BENCH_EMBEDDED)) #include #if !defined(WOLFSSL_ZEPHYR) && !defined(_WIN32) #include #endif #endif #if defined(WOLFSSL_ZEPHYR) || defined(NO_STDIO_FILESYSTEM) || !defined(XFFLUSH) /* fflush in Zephyr doesn't work on stdout and stderr. Use * CONFIG_LOG_MODE_IMMEDIATE compilation option instead. */ #undef XFFLUSH #define XFFLUSH(...) WC_DO_NOTHING #endif /* only for stack size check */ #include #if defined(WOLFSSL_ASYNC_CRYPT) && !defined(WC_NO_ASYNC_THREADING) #define WC_ENABLE_BENCH_THREADING #endif /* enable tracking of stats for threaded benchmark */ #if defined(WC_ENABLE_BENCH_THREADING) && !defined(WC_BENCH_TRACK_STATS) #define WC_BENCH_TRACK_STATS #endif #ifdef GENERATE_MACHINE_PARSEABLE_REPORT static const char info_prefix[] = "###, "; static const char err_prefix[] = "!!!, "; #else static const char info_prefix[] = ""; static const char err_prefix[] = ""; #endif /* printf mappings */ #ifdef FREESCALE_MQX #include /* see wc_port.h for fio.h and nio.h includes */ #elif defined(FREESCALE_KSDK_1_3) #include "fsl_debug_console.h" #include "fsl_os_abstraction.h" #undef printf #define printf PRINTF #elif defined(WOLFSSL_DEOS) #include #include #undef printf #define printf printx #elif defined(MICRIUM) #if (OS_VERSION < 50000) #include void BSP_Ser_Printf (CPU_CHAR* format, ...); #undef printf #define printf BSP_Ser_Printf #endif #elif defined(WOLFSSL_ZEPHYR) #include #include #define BENCH_EMBEDDED #define printf printfk static int printfk(const char *fmt, ...) { int ret; char line[WC_BENCH_MAX_LINE_LEN]; va_list ap; va_start(ap, fmt); ret = vsnprintf(line, sizeof(line), fmt, ap); line[sizeof(line)-1] = '\0'; printk("%s", line); va_end(ap); return ret; } #elif defined(WOLFSSL_TELIT_M2MB) #include #include #include #include "m2m_log.h" /* for M2M_LOG_INFO - not standard API */ /* remap printf */ #undef printf #define printf M2M_LOG_INFO /* OS requires occasional sleep() */ #ifndef TEST_SLEEP_MS #define TEST_SLEEP_MS 50 #endif #define TEST_SLEEP() m2mb_os_taskSleep(M2MB_OS_MS2TICKS(TEST_SLEEP_MS)) /* don't use file system for these tests, since ./certs dir isn't loaded */ #undef NO_FILESYSTEM #define NO_FILESYSTEM /* ANDROID_V454 (for android studio) displays information in a textview * and redirects printf to the textview output instead of using * __android_log_print() */ #elif defined(ANDROID) && !defined(ANDROID_V454) #ifdef XMALLOC_USER #include /* we're using malloc / free direct here */ #endif #ifndef STRING_USER #include #endif #include #define printf(...) \ __android_log_print(ANDROID_LOG_DEBUG, "[WOLFCRYPT]", __VA_ARGS__) #define fprintf(fp, ...) \ __android_log_print(ANDROID_LOG_DEBUG, "[WOLFCRYPT]", __VA_ARGS__) #else #if defined(XMALLOC_USER) || defined(FREESCALE_MQX) /* MQX classic needs for EXIT_FAILURE */ #include /* we're using malloc / free direct here */ #endif #if !defined(STRING_USER) && !defined(NO_STDIO_FILESYSTEM) #include #include #endif /* enable way for customer to override test/bench printf */ #ifdef XPRINTF #undef printf #define printf XPRINTF #elif defined(NETOS) #undef printf #define printf dc_log_printf #endif #endif #ifdef HAVE_FIPS #include static void myFipsCb(int ok, int err, const char* hash) { printf("%sin my Fips callback, ok = %d, err = %d\n", ok ? info_prefix : err_prefix, ok, err); printf("%smessage = %s\n", ok ? info_prefix : err_prefix, wc_GetErrorString(err)); printf("%shash = %s\n", ok ? info_prefix : err_prefix, hash); if (err == WC_NO_ERR_TRACE(IN_CORE_FIPS_E)) { printf("%sIn core integrity hash check failure, copy above hash\n", err_prefix); printf("%sinto verifyCore[] in fips_test.c and rebuild\n", err_prefix); } } #endif #ifdef WOLFSSL_STATIC_MEMORY static WOLFSSL_HEAP_HINT* HEAP_HINT; #else #define HEAP_HINT NULL #endif /* WOLFSSL_STATIC_MEMORY */ #ifndef EXIT_FAILURE #define EXIT_FAILURE 1 #endif #undef LIBCALL_CHECK_RET #if defined(NO_STDIO_FILESYSTEM) || defined(NO_ERROR_STRINGS) || \ defined(NO_MAIN_DRIVER) || defined(BENCH_EMBEDDED) #define LIBCALL_CHECK_RET(...) __VA_ARGS__ #else #define LIBCALL_CHECK_RET(...) do { \ int _libcall_ret = (__VA_ARGS__); \ if (_libcall_ret < 0) { \ printf("%s%s L%d error %d for \"%s\"\n", \ err_prefix, __FILE__, __LINE__, \ errno, #__VA_ARGS__); \ XFFLUSH(stdout); \ _exit(1); \ } \ } while(0) #endif #undef THREAD_CHECK_RET #define THREAD_CHECK_RET(...) do { \ int _thread_ret = (__VA_ARGS__); \ if (_thread_ret != 0) { \ errno = _thread_ret; \ printf("%s%s L%d error %d for \"%s\"\n", \ err_prefix, __FILE__, __LINE__, \ _thread_ret, #__VA_ARGS__); \ XFFLUSH(stdout); \ _exit(1); \ } \ } while(0) /* optional macro to add sleep between tests */ #ifndef TEST_SLEEP /* stub the sleep macro */ #define TEST_SLEEP() WC_DO_NOTHING #endif #define TEST_STRING "Everyone gets Friday off." #define TEST_STRING_SZ 25 /* Bit values for each algorithm that is able to be benchmarked. * Common grouping of algorithms also. * Each algorithm has a unique value for its type e.g. cipher. */ /* Cipher algorithms. */ #define BENCH_AES_CBC 0x00000001 #define BENCH_AES_GCM 0x00000002 #define BENCH_AES_ECB 0x00000004 #define BENCH_AES_XTS 0x00000008 #define BENCH_AES_CTR 0x00000010 #define BENCH_AES_CCM 0x00000020 #define BENCH_CAMELLIA 0x00000100 #define BENCH_ARC4 0x00000200 #define BENCH_CHACHA20 0x00001000 #define BENCH_CHACHA20_POLY1305 0x00002000 #define BENCH_DES 0x00004000 #define BENCH_AES_CFB 0x00010000 #define BENCH_AES_OFB 0x00020000 #define BENCH_AES_SIV 0x00040000 #define BENCH_SM4_CBC 0x00080000 #define BENCH_SM4_GCM 0x00100000 #define BENCH_SM4_CCM 0x00200000 #define BENCH_SM4 (BENCH_SM4_CBC | BENCH_SM4_GCM | BENCH_SM4_CCM) /* Digest algorithms. */ #define BENCH_MD5 0x00000001 #define BENCH_POLY1305 0x00000002 #define BENCH_SHA 0x00000004 #define BENCH_SHA224 0x00000010 #define BENCH_SHA256 0x00000020 #define BENCH_SHA384 0x00000040 #define BENCH_SHA512 0x00000080 #define BENCH_SHA2 (BENCH_SHA224 | BENCH_SHA256 | \ BENCH_SHA384 | BENCH_SHA512) #define BENCH_SHA3_224 0x00000100 #define BENCH_SHA3_256 0x00000200 #define BENCH_SHA3_384 0x00000400 #define BENCH_SHA3_512 0x00000800 #define BENCH_SHA3 (BENCH_SHA3_224 | BENCH_SHA3_256 | \ BENCH_SHA3_384 | BENCH_SHA3_512) #define BENCH_SHAKE128 0x00001000 #define BENCH_SHAKE256 0x00002000 #define BENCH_SHAKE (BENCH_SHAKE128 | BENCH_SHAKE256) #define BENCH_RIPEMD 0x00004000 #define BENCH_BLAKE2B 0x00008000 #define BENCH_BLAKE2S 0x00010000 #define BENCH_SM3 0x00020000 /* MAC algorithms. */ #define BENCH_CMAC 0x00000001 #define BENCH_HMAC_MD5 0x00000002 #define BENCH_HMAC_SHA 0x00000004 #define BENCH_HMAC_SHA224 0x00000010 #define BENCH_HMAC_SHA256 0x00000020 #define BENCH_HMAC_SHA384 0x00000040 #define BENCH_HMAC_SHA512 0x00000080 #define BENCH_HMAC (BENCH_HMAC_MD5 | BENCH_HMAC_SHA | \ BENCH_HMAC_SHA224 | BENCH_HMAC_SHA256 | \ BENCH_HMAC_SHA384 | BENCH_HMAC_SHA512) #define BENCH_PBKDF2 0x00000100 #define BENCH_SIPHASH 0x00000200 /* KDF algorithms */ #define BENCH_SRTP_KDF 0x00000001 /* Asymmetric algorithms. */ #define BENCH_RSA_KEYGEN 0x00000001 #define BENCH_RSA 0x00000002 #define BENCH_RSA_SZ 0x00000004 #define BENCH_DH 0x00000010 #define BENCH_ECC_MAKEKEY 0x00001000 #define BENCH_ECC 0x00002000 #define BENCH_ECC_ENCRYPT 0x00004000 #define BENCH_ECC_ALL 0x00008000 #define BENCH_CURVE25519_KEYGEN 0x00010000 #define BENCH_CURVE25519_KA 0x00020000 #define BENCH_ED25519_KEYGEN 0x00040000 #define BENCH_ED25519_SIGN 0x00080000 #define BENCH_CURVE448_KEYGEN 0x00100000 #define BENCH_CURVE448_KA 0x00200000 #define BENCH_ED448_KEYGEN 0x00400000 #define BENCH_ED448_SIGN 0x00800000 #define BENCH_ECC_P256 0x01000000 #define BENCH_ECC_P384 0x02000000 #define BENCH_ECC_P521 0x04000000 #define BENCH_SM2 0x08000000 #define BENCH_ECCSI_KEYGEN 0x00000020 #define BENCH_ECCSI_PAIRGEN 0x00000040 #define BENCH_ECCSI_VALIDATE 0x00000080 #define BENCH_ECCSI 0x00000400 #define BENCH_SAKKE_KEYGEN 0x10000000 #define BENCH_SAKKE_RSKGEN 0x20000000 #define BENCH_SAKKE_VALIDATE 0x40000000 #define BENCH_SAKKE 0x80000000 /* Post-Quantum Asymmetric algorithms. */ #define BENCH_KYBER512 0x00000020 #define BENCH_KYBER768 0x00000040 #define BENCH_KYBER1024 0x00000080 #define BENCH_KYBER (BENCH_KYBER512 | BENCH_KYBER768 | \ BENCH_KYBER1024) #define BENCH_ML_KEM_512 0x00000020 #define BENCH_ML_KEM_768 0x00000040 #define BENCH_ML_KEM_1024 0x00000080 #define BENCH_ML_KEM (BENCH_ML_KEM_512 | BENCH_ML_KEM_768 | \ BENCH_ML_KEM_1024) #define BENCH_FALCON_LEVEL1_SIGN 0x00000001 #define BENCH_FALCON_LEVEL5_SIGN 0x00000002 #define BENCH_DILITHIUM_LEVEL2_SIGN 0x04000000 #define BENCH_DILITHIUM_LEVEL3_SIGN 0x08000000 #define BENCH_DILITHIUM_LEVEL5_SIGN 0x10000000 #define BENCH_ML_DSA_44_SIGN 0x04000000 #define BENCH_ML_DSA_65_SIGN 0x08000000 #define BENCH_ML_DSA_87_SIGN 0x10000000 #define BENCH_ML_DSA_SIGN (BENCH_ML_DSA_44_SIGN | \ BENCH_ML_DSA_65_SIGN | \ BENCH_ML_DSA_87_SIGN) /* Post-Quantum Asymmetric algorithms. (Part 2) */ #define BENCH_SPHINCS_FAST_LEVEL1_SIGN 0x00000001 #define BENCH_SPHINCS_FAST_LEVEL3_SIGN 0x00000002 #define BENCH_SPHINCS_FAST_LEVEL5_SIGN 0x00000004 #define BENCH_SPHINCS_SMALL_LEVEL1_SIGN 0x00000008 #define BENCH_SPHINCS_SMALL_LEVEL3_SIGN 0x00000010 #define BENCH_SPHINCS_SMALL_LEVEL5_SIGN 0x00000020 /* Post-Quantum Stateful Hash-Based sig algorithms. */ #define BENCH_LMS_HSS 0x00000001 #define BENCH_XMSS_XMSSMT_SHA256 0x00000002 #define BENCH_XMSS_XMSSMT_SHA512 0x00000004 #define BENCH_XMSS_XMSSMT_SHAKE128 0x00000008 #define BENCH_XMSS_XMSSMT_SHAKE256 0x00000010 #ifndef NO_SHA256 #define BENCH_XMSS_XMSSMT BENCH_XMSS_XMSSMT_SHA256 #elif defined(WOLFSSL_SHA512) #define BENCH_XMSS_XMSSMT BENCH_XMSS_XMSSMT_SHA512 #elif defined(WOLFSSL_SHAKE128) #define BENCH_XMSS_XMSSMT BENCH_XMSS_XMSSMT_SHAKE128 #elif defined(WOLFSSL_SHAKE256) #define BENCH_XMSS_XMSSMT BENCH_XMSS_XMSSMT_SHAKE256 #else #define BENCH_XMSS_XMSSMT 0x00000000 #endif /* Other */ #define BENCH_RNG 0x00000001 #define BENCH_SCRYPT 0x00000002 #if defined(HAVE_AESGCM) || defined(HAVE_AESCCM) /* Define AES_AUTH_ADD_SZ already here, since it's used in the * static declaration of `bench_Usage_msg1`. */ #if !defined(AES_AUTH_ADD_SZ) && \ defined(STM32_CRYPTO) && !defined(STM32_AESGCM_PARTIAL) || \ defined(WOLFSSL_XILINX_CRYPT_VERSAL) /* For STM32 use multiple of 4 to leverage crypto hardware * Xilinx Versal requires to use multiples of 16 bytes */ #define AES_AUTH_ADD_SZ 16 #endif #ifndef AES_AUTH_ADD_SZ #define AES_AUTH_ADD_SZ 13 #endif #endif #if (defined(WOLFSSL_HAVE_LMS) && !defined(WOLFSSL_LMS_VERIFY_ONLY)) || \ (defined(WOLFSSL_HAVE_XMSS) && !defined(WOLFSSL_XMSS_VERIFY_ONLY)) #define BENCH_PQ_STATEFUL_HBS #endif /* Benchmark all compiled in algorithms. * When 1, ignore other benchmark algorithm values. * 0, only benchmark algorithm values set. */ static int bench_all = 1; /* Cipher algorithms to benchmark. */ static word32 bench_cipher_algs = 0; /* Digest algorithms to benchmark. */ static word32 bench_digest_algs = 0; /* MAC algorithms to benchmark. */ static word32 bench_mac_algs = 0; /* KDF algorithms to benchmark. */ static word32 bench_kdf_algs = 0; /* Asymmetric algorithms to benchmark. */ static word32 bench_asym_algs = 0; /* Post-Quantum Asymmetric algorithms to benchmark. */ static word32 bench_pq_asym_algs = 0; /* Post-Quantum Asymmetric algorithms to benchmark. (Part 2)*/ static word32 bench_pq_asym_algs2 = 0; /* Other cryptographic algorithms to benchmark. */ static word32 bench_other_algs = 0; /* Post-Quantum Stateful Hash-Based sig algorithms to benchmark. */ static word32 bench_pq_hash_sig_algs = 0; #if !defined(WOLFSSL_BENCHMARK_ALL) && !defined(NO_MAIN_DRIVER) /* The mapping of command line option to bit values. */ typedef struct bench_alg { /* Command line option string. */ const char* str; /* Bit values to set. */ word32 val; } bench_alg; #ifndef MAIN_NO_ARGS /* All recognized cipher algorithm choosing command line options. */ static const bench_alg bench_cipher_opt[] = { { "-cipher", 0xffffffff }, #ifdef HAVE_AES_CBC { "-aes-cbc", BENCH_AES_CBC }, #endif #ifdef HAVE_AESGCM { "-aes-gcm", BENCH_AES_GCM }, #endif #ifdef WOLFSSL_AES_DIRECT { "-aes-ecb", BENCH_AES_ECB }, #endif #ifdef WOLFSSL_AES_XTS { "-aes-xts", BENCH_AES_XTS }, #endif #ifdef WOLFSSL_AES_CFB { "-aes-cfb", BENCH_AES_CFB }, #endif #ifdef WOLFSSL_AES_OFB { "-aes-ofb", BENCH_AES_OFB }, #endif #ifdef WOLFSSL_AES_COUNTER { "-aes-ctr", BENCH_AES_CTR }, #endif #ifdef HAVE_AESCCM { "-aes-ccm", BENCH_AES_CCM }, #endif #ifdef WOLFSSL_AES_SIV { "-aes-siv", BENCH_AES_SIV }, #endif #ifdef HAVE_CAMELLIA { "-camellia", BENCH_CAMELLIA }, #endif #ifndef NO_RC4 { "-arc4", BENCH_ARC4 }, #endif #ifdef HAVE_CHACHA { "-chacha20", BENCH_CHACHA20 }, #endif #if defined(HAVE_CHACHA) && defined(HAVE_POLY1305) { "-chacha20-poly1305", BENCH_CHACHA20_POLY1305 }, #endif #ifdef WOLFSSL_SM4_CBC { "-sm4-cbc", BENCH_SM4_CBC }, #endif #ifdef WOLFSSL_SM4_GCM { "-sm4-gcm", BENCH_SM4_GCM }, #endif #ifdef WOLFSSL_SM4_CCM { "-sm4-ccm", BENCH_SM4_CCM }, #endif #ifdef WOLFSSL_SM4 { "-sm4", BENCH_SM4 }, #endif #ifndef NO_DES3 { "-des", BENCH_DES }, #endif { NULL, 0 } }; /* All recognized digest algorithm choosing command line options. */ static const bench_alg bench_digest_opt[] = { { "-digest", 0xffffffff }, #ifndef NO_MD5 { "-md5", BENCH_MD5 }, #endif #ifdef HAVE_POLY1305 { "-poly1305", BENCH_POLY1305 }, #endif #ifndef NO_SHA { "-sha", BENCH_SHA }, #endif #if defined(WOLFSSL_SHA224) || !defined(NO_SHA256) || defined(WOLFSSL_SHA384) \ || defined(WOLFSSL_SHA512) { "-sha2", BENCH_SHA2 }, #endif #ifdef WOLFSSL_SHA224 { "-sha224", BENCH_SHA224 }, #endif #ifndef NO_SHA256 { "-sha256", BENCH_SHA256 }, #endif #ifdef WOLFSSL_SHA384 { "-sha384", BENCH_SHA384 }, #endif #ifdef WOLFSSL_SHA512 { "-sha512", BENCH_SHA512 }, #endif #ifdef WOLFSSL_SHA3 { "-sha3", BENCH_SHA3 }, #ifndef WOLFSSL_NOSHA3_224 { "-sha3-224", BENCH_SHA3_224 }, #endif #ifndef WOLFSSL_NOSHA3_256 { "-sha3-256", BENCH_SHA3_256 }, #endif #ifndef WOLFSSL_NOSHA3_384 { "-sha3-384", BENCH_SHA3_384 }, #endif #ifndef WOLFSSL_NOSHA3_512 { "-sha3-512", BENCH_SHA3_512 }, #endif #if defined(WOLFSSL_SHAKE128) || defined(WOLFSSL_SHAKE256) { "-shake", BENCH_SHAKE }, #endif #ifdef WOLFSSL_SHAKE128 { "-shake128", BENCH_SHAKE128 }, #endif #ifdef WOLFSSL_SHAKE256 { "-shake256", BENCH_SHAKE256 }, #endif #endif #ifdef WOLFSSL_SM3 { "-sm3", BENCH_SM3 }, #endif #ifdef WOLFSSL_RIPEMD { "-ripemd", BENCH_RIPEMD }, #endif #ifdef HAVE_BLAKE2 { "-blake2b", BENCH_BLAKE2B }, #endif #ifdef HAVE_BLAKE2S { "-blake2s", BENCH_BLAKE2S }, #endif { NULL, 0 } }; /* All recognized MAC algorithm choosing command line options. */ static const bench_alg bench_mac_opt[] = { { "-mac", 0xffffffff }, #ifdef WOLFSSL_CMAC { "-cmac", BENCH_CMAC }, #endif #ifndef NO_HMAC { "-hmac", BENCH_HMAC }, #ifndef NO_MD5 { "-hmac-md5", BENCH_HMAC_MD5 }, #endif #ifndef NO_SHA { "-hmac-sha", BENCH_HMAC_SHA }, #endif #ifdef WOLFSSL_SHA224 { "-hmac-sha224", BENCH_HMAC_SHA224 }, #endif #ifndef NO_SHA256 { "-hmac-sha256", BENCH_HMAC_SHA256 }, #endif #ifdef WOLFSSL_SHA384 { "-hmac-sha384", BENCH_HMAC_SHA384 }, #endif #ifdef WOLFSSL_SHA512 { "-hmac-sha512", BENCH_HMAC_SHA512 }, #endif #ifndef NO_PWDBASED { "-pbkdf2", BENCH_PBKDF2 }, #endif #endif #ifdef WOLFSSL_SIPHASH { "-siphash", BENCH_SIPHASH }, #endif { NULL, 0 } }; /* All recognized KDF algorithm choosing command line options. */ static const bench_alg bench_kdf_opt[] = { { "-kdf", 0xffffffff }, #ifdef WC_SRTP_KDF { "-srtp-kdf", BENCH_SRTP_KDF }, #endif { NULL, 0 } }; /* All recognized asymmetric algorithm choosing command line options. */ static const bench_alg bench_asym_opt[] = { { "-asym", 0xffffffff }, #ifndef NO_RSA #ifdef WOLFSSL_KEY_GEN { "-rsa-kg", BENCH_RSA_KEYGEN }, #endif { "-rsa", BENCH_RSA }, #ifdef WOLFSSL_KEY_GEN { "-rsa-sz", BENCH_RSA_SZ }, #endif #endif #ifndef NO_DH { "-dh", BENCH_DH }, #endif #ifdef HAVE_ECC { "-ecc-kg", BENCH_ECC_MAKEKEY }, { "-ecc", BENCH_ECC }, #ifdef HAVE_ECC_ENCRYPT { "-ecc-enc", BENCH_ECC_ENCRYPT }, #endif { "-ecc-all", BENCH_ECC_ALL }, #endif #ifdef WOLFSSL_SM2 { "-sm2", BENCH_SM2 }, #endif #ifdef HAVE_CURVE25519 { "-curve25519-kg", BENCH_CURVE25519_KEYGEN }, #ifdef HAVE_CURVE25519_SHARED_SECRET { "-x25519", BENCH_CURVE25519_KA }, #endif #endif #ifdef HAVE_ED25519 { "-ed25519-kg", BENCH_ED25519_KEYGEN }, { "-ed25519", BENCH_ED25519_SIGN }, #endif #ifdef HAVE_CURVE448 { "-curve448-kg", BENCH_CURVE448_KEYGEN }, #ifdef HAVE_CURVE448_SHARED_SECRET { "-x448", BENCH_CURVE448_KA }, #endif #endif #ifdef HAVE_ED448 { "-ed448-kg", BENCH_ED448_KEYGEN }, { "-ed448", BENCH_ED448_SIGN }, #endif #ifdef WOLFCRYPT_HAVE_ECCSI { "-eccsi-kg", BENCH_ECCSI_KEYGEN }, { "-eccsi-pair", BENCH_ECCSI_PAIRGEN }, { "-eccsi-val", BENCH_ECCSI_VALIDATE }, { "-eccsi", BENCH_ECCSI }, #endif #ifdef WOLFCRYPT_HAVE_SAKKE { "-sakke-kg", BENCH_SAKKE_KEYGEN }, { "-sakke-rsk", BENCH_SAKKE_RSKGEN }, { "-sakke-val", BENCH_SAKKE_VALIDATE }, { "-sakke", BENCH_SAKKE }, #endif { NULL, 0 } }; /* All recognized other cryptographic algorithm choosing command line options. */ static const bench_alg bench_other_opt[] = { { "-other", 0xffffffff }, #ifndef WC_NO_RNG { "-rng", BENCH_RNG }, #endif #ifdef HAVE_SCRYPT { "-scrypt", BENCH_SCRYPT }, #endif { NULL, 0} }; #endif /* MAIN_NO_ARGS */ #endif /* !WOLFSSL_BENCHMARK_ALL && !NO_MAIN_DRIVER */ #if defined(BENCH_PQ_STATEFUL_HBS) typedef struct bench_pq_hash_sig_alg { /* Command line option string. */ const char* str; /* Bit values to set. */ word32 val; } bench_pq_hash_sig_alg; static const bench_pq_hash_sig_alg bench_pq_hash_sig_opt[] = { { "-pq_hash_sig", 0xffffffff}, #if defined(WOLFSSL_HAVE_LMS) && !defined(WOLFSSL_LMS_VERIFY_ONLY) { "-lms_hss", BENCH_LMS_HSS}, #endif #if defined(WOLFSSL_HAVE_XMSS) && !defined(WOLFSSL_XMSS_VERIFY_ONLY) { "-xmss_xmssmt", BENCH_XMSS_XMSSMT}, #ifdef WC_XMSS_SHA256 { "-xmss_xmssmt_sha256", BENCH_XMSS_XMSSMT_SHA256}, #endif #ifdef WC_XMSS_SHA512 #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 512 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 512 { "-xmss_xmssmt_sha512", BENCH_XMSS_XMSSMT_SHA512}, #endif #endif #ifdef WC_XMSS_SHAKE128 #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 256 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 256 { "-xmss_xmssmt_shake128", BENCH_XMSS_XMSSMT_SHAKE128}, #endif #endif #ifdef WC_XMSS_SHAKE256 { "-xmss_xmssmt_shake256", BENCH_XMSS_XMSSMT_SHAKE256}, #endif #endif { NULL, 0} }; #endif /* BENCH_PQ_STATEFUL_HBS */ #if defined(WOLFSSL_HAVE_KYBER) || defined(HAVE_FALCON) || \ defined(HAVE_DILITHIUM) || defined(HAVE_SPHINCS) /* The post-quantum-specific mapping of command line option to bit values and * OQS name. */ typedef struct bench_pq_alg { /* Command line option string. */ const char* str; /* Bit values to set. */ word32 val; } bench_pq_alg; /* All recognized post-quantum asymmetric algorithm choosing command line * options. */ static const bench_pq_alg bench_pq_asym_opt[] = { { "-pq", 0xffffffff }, #ifdef WOLFSSL_HAVE_KYBER { "-kyber", BENCH_KYBER }, { "-kyber512", BENCH_KYBER512 }, { "-kyber768", BENCH_KYBER768 }, { "-kyber1024", BENCH_KYBER1024 }, { "-ml-kem", BENCH_ML_KEM }, { "-ml-kem-512", BENCH_ML_KEM_512 }, { "-ml-kem-768", BENCH_ML_KEM_768 }, { "-ml-kem-1024", BENCH_ML_KEM_1024 }, #endif #if defined(HAVE_FALCON) { "-falcon_level1", BENCH_FALCON_LEVEL1_SIGN }, { "-falcon_level5", BENCH_FALCON_LEVEL5_SIGN }, #endif #if defined(HAVE_DILITHIUM) { "-dilithium_level2", BENCH_DILITHIUM_LEVEL2_SIGN }, { "-dilithium_level3", BENCH_DILITHIUM_LEVEL3_SIGN }, { "-dilithium_level5", BENCH_DILITHIUM_LEVEL5_SIGN }, { "-ml-dsa", BENCH_ML_DSA_SIGN }, { "-ml-dsa-44", BENCH_ML_DSA_44_SIGN }, { "-ml-dsa-65", BENCH_ML_DSA_65_SIGN }, { "-ml-dsa-87", BENCH_ML_DSA_87_SIGN }, #endif { NULL, 0 } }; #if defined(HAVE_SPHINCS) /* All recognized post-quantum asymmetric algorithm choosing command line * options. (Part 2) */ static const bench_pq_alg bench_pq_asym_opt2[] = { { "-pq", 0xffffffff }, { "-sphincs_fast_level1", BENCH_SPHINCS_FAST_LEVEL1_SIGN }, { "-sphincs_fast_level3", BENCH_SPHINCS_FAST_LEVEL3_SIGN }, { "-sphincs_fast_level5", BENCH_SPHINCS_FAST_LEVEL5_SIGN }, { "-sphincs_small_level1", BENCH_SPHINCS_SMALL_LEVEL1_SIGN }, { "-sphincs_small_level3", BENCH_SPHINCS_SMALL_LEVEL3_SIGN }, { "-sphincs_small_level5", BENCH_SPHINCS_SMALL_LEVEL5_SIGN }, { NULL, 0, } }; #endif /* HAVE_SPHINCS */ #endif #ifdef HAVE_WNR const char* wnrConfigFile = "wnr-example.conf"; #endif #if defined(WOLFSSL_MDK_ARM) extern XFILE wolfSSL_fopen(const char *fname, const char *mode); #define fopen wolfSSL_fopen #endif static int lng_index = 0; #ifndef NO_MAIN_DRIVER #ifndef MAIN_NO_ARGS static const char* bench_Usage_msg1[][25] = { /* 0 English */ { "-? Help, print this usage\n", " 0: English, 1: Japanese\n", "-csv Print terminal output in csv format\n", "-base10 Display bytes as power of 10 (eg 1 kB = 1000 Bytes)\n", "-no_aad No additional authentication data passed.\n", "-aad_size With bytes of AAD.\n", ("-all_aad With AAD length of 0, " WC_STRINGIFY(AES_AUTH_ADD_SZ) " and\n" " (if set via -aad_size) bytes.\n" ), "-dgst_full Full digest operation performed.\n", "-rsa_sign Measure RSA sign/verify instead of encrypt/decrypt.\n", " -rsa-sz\n Measure RSA performance.\n", "-ffhdhe2048 Measure DH using FFDHE 2048-bit parameters.\n", "-ffhdhe3072 Measure DH using FFDHE 3072-bit parameters.\n", "-p256 Measure ECC using P-256 curve.\n", "-p384 Measure ECC using P-384 curve.\n", "-p521 Measure ECC using P-521 curve.\n", "-ecc-all Bench all enabled ECC curves.\n", "- Algorithm to benchmark. Available algorithms include:\n", ("-lng Display benchmark result by specified language.\n" " 0: English, 1: Japanese\n" ), " Size of block in bytes\n", ("-blocks Number of blocks. Can be used together with the " "'Size of block'\n" " option, but must be used after that one.\n" ), "-threads Number of threads to run\n", "-print Show benchmark stats summary\n", "-hash_input Input data to use for hash benchmarking\n", "-cipher_input Input data to use for cipher benchmarking\n", "-min_runs Specify minimum number of operation runs\n" }, #ifndef NO_MULTIBYTE_PRINT /* 1 Japanese */ { "-? ヘルプ, 使い方を表示します。\n", " 0: 英語、 1: 日本語\n", "-csv csv 形式で端末に出力します。\n", "-base10 バイトを10のべき乗で表示します。(例 1 kB = 1000 Bytes)\n", "-no_aad 追加の認証データを使用しません.\n", "-aad_size TBD.\n", "-all_aad TBD.\n", "-dgst_full フルの digest 暗号操作を実施します。\n", "-rsa_sign 暗号/復号化の代わりに RSA の署名/検証を測定します。\n", " -rsa-sz\n RSA の性能を測定します。\n", "-ffhdhe2048 Measure DH using FFDHE 2048-bit parameters.\n", "-ffhdhe3072 Measure DH using FFDHE 3072-bit parameters.\n", "-p256 Measure ECC using P-256 curve.\n", "-p384 Measure ECC using P-384 curve.\n", "-p521 Measure ECC using P-521 curve.\n", "-ecc-all Bench all enabled ECC curves.\n", ("- アルゴリズムのベンチマークを実施します。\n" " 利用可能なアルゴリズムは下記を含みます:\n" ), ("-lng 指定された言語でベンチマーク結果を表示します。\n" " 0: 英語、 1: 日本語\n" ), " ブロックサイズをバイト単位で指定します。\n", "-blocks TBD.\n", "-threads 実行するスレッド数\n", "-print ベンチマーク統計の要約を表示する\n", /* TODO: translate below */ "-hash_input Input data to use for hash benchmarking\n", "-cipher_input Input data to use for cipher benchmarking\n", "-min_runs Specify minimum number of operation runs\n" }, #endif }; #endif /* MAIN_NO_ARGS */ #endif static const char* bench_result_words1[][4] = { { "took", #ifdef BENCH_MICROSECOND "microseconds" #else "seconds" #endif , "Cycles per byte", NULL }, /* 0 English */ #ifndef NO_MULTIBYTE_PRINT { "を" , "秒で処理", "1バイトあたりのサイクル数", NULL }, /* 1 Japanese */ #endif }; #if !defined(NO_RSA) || \ defined(HAVE_ECC) || !defined(NO_DH) || defined(HAVE_ECC_ENCRYPT) || \ defined(HAVE_CURVE25519) || defined(HAVE_CURVE25519_SHARED_SECRET) || \ defined(HAVE_ED25519) || defined(HAVE_CURVE448) || \ defined(HAVE_CURVE448_SHARED_SECRET) || defined(HAVE_ED448) || \ defined(WOLFSSL_HAVE_KYBER) || defined(HAVE_DILITHIUM) static const char* bench_desc_words[][15] = { /* 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 */ {"public", "private", "key gen", "agree" , "sign", "verify", "encrypt", "decrypt", "rsk gen", "encap", "derive", "valid", "pair gen", "decap", NULL}, /* 0 English */ #ifndef NO_MULTIBYTE_PRINT {"公開鍵", "秘密鍵" ,"鍵生成" , "鍵共有" , "署名", "検証" , "暗号化" , "復号化" , "rsk gen", "encap", "derive", "valid", "pair gen", "decap", NULL}, /* 1 Japanese */ #endif }; #endif #ifdef MULTI_VALUE_STATISTICS static const char* bench_result_words3[][5] = { /* 0 English */ { "max duration", "min duration" , "mean duration", "sd", NULL }, /* TODO: Add japenese version */ { "max duration", "min duration" , "mean duration", "sd", NULL } }; #endif #if defined(__GNUC__) && defined(__x86_64__) && !defined(NO_ASM) && !defined(WOLFSSL_SGX) #define HAVE_GET_CYCLES static WC_INLINE word64 get_intel_cycles(void); static THREAD_LS_T word64 total_cycles; #define INIT_CYCLE_COUNTER #define BEGIN_INTEL_CYCLES total_cycles = get_intel_cycles(); #define END_INTEL_CYCLES total_cycles = get_intel_cycles() - total_cycles; /* s == size in bytes that 1 count represents, normally BENCH_SIZE */ #define SHOW_INTEL_CYCLES(b, n, s) \ (void)XSNPRINTF((b) + XSTRLEN(b), (n) - XSTRLEN(b), \ " %s = " FLT_FMT_PREC2 STATS_CLAUSE_SEPARATOR, \ bench_result_words1[lng_index][2], \ FLT_FMT_PREC2_ARGS(6, 2, count == 0 ? 0 : \ (double)total_cycles / ((word64)count*(s)))) #define SHOW_INTEL_CYCLES_CSV(b, n, s) \ (void)XSNPRINTF((b) + XSTRLEN(b), (n) - XSTRLEN(b), FLT_FMT_PREC "," \ STATS_CLAUSE_SEPARATOR, FLT_FMT_PREC_ARGS(6, count == 0 ? 0 : \ (double)total_cycles / ((word64)count*(s)))) #elif defined(LINUX_CYCLE_COUNT) #include #include #include static THREAD_LS_T word64 begin_cycles; static THREAD_LS_T word64 total_cycles; static THREAD_LS_T int cycles = -1; static THREAD_LS_T struct perf_event_attr atr; #define INIT_CYCLE_COUNTER do { \ atr.type = PERF_TYPE_HARDWARE; \ atr.config = PERF_COUNT_HW_CPU_CYCLES; \ cycles = (int)syscall(__NR_perf_event_open, &atr, 0, -1, -1, 0); \ } while (0); #define BEGIN_INTEL_CYCLES read(cycles, &begin_cycles, sizeof(begin_cycles)); #define END_INTEL_CYCLES do { \ read(cycles, &total_cycles, sizeof(total_cycles)); \ total_cycles = total_cycles - begin_cycles; \ } while (0); /* s == size in bytes that 1 count represents, normally BENCH_SIZE */ #define SHOW_INTEL_CYCLES(b, n, s) \ (void)XSNPRINTF(b + XSTRLEN(b), n - XSTRLEN(b), \ " %s = " FLT_FMT_PREC2 STATS_CLAUSE_SEPARATOR, \ bench_result_words1[lng_index][2], \ FLT_FMT_PREC2_ARGS(6, 2, (double)total_cycles / \ (count*s))) #define SHOW_INTEL_CYCLES_CSV(b, n, s) \ (void)XSNPRINTF(b + XSTRLEN(b), n - XSTRLEN(b), FLT_FMT_PREC "," \ STATS_CLAUSE_SEPARATOR, FLT_FMT_PREC_ARGS(6, (double)total_cycles \ / (count*s))) #elif defined(SYNERGY_CYCLE_COUNT) #include "hal_data.h" static THREAD_LS_T word64 begin_cycles; static THREAD_LS_T word64 total_cycles; #define INIT_CYCLE_COUNTER #define BEGIN_INTEL_CYCLES begin_cycles = DWT->CYCCNT = 0; #define END_INTEL_CYCLES total_cycles = DWT->CYCCNT - begin_cycles; /* s == size in bytes that 1 count represents, normally BENCH_SIZE */ #define SHOW_INTEL_CYCLES(b, n, s) \ (void)XSNPRINTF(b + XSTRLEN(b), n - XSTRLEN(b), \ " %s = " FLT_FMT_PREC2 STATS_CLAUSE_SEPARATOR, \ bench_result_words1[lng_index][2], \ FLT_FMT_PREC2_ARGS(6, 2, (double)total_cycles / (count*s))) #define SHOW_INTEL_CYCLES_CSV(b, n, s) \ (void)XSNPRINTF(b + XSTRLEN(b), n - XSTRLEN(b), FLT_FMT_PREC ",\n", \ FLT_FMT_PREC_ARGS(6, (double)total_cycles / (count*s))) #elif defined(WOLFSSL_ESPIDF) /* TAG for ESP_LOGx() */ static const char* TAG = "wolfssl_benchmark"; static THREAD_LS_T word64 begin_cycles = 0; static THREAD_LS_T word64 begin_cycles_ticks = 0; static THREAD_LS_T word64 end_cycles = 0; static THREAD_LS_T word64 total_cycles = 0; /* the return value, as a global var */ static THREAD_LS_T word64 _esp_get_cycle_count_ex = 0; /* the last value seen, adjusted for an overflow, as a global var */ static THREAD_LS_T word64 _esp_cpu_count_last = 0; static THREAD_LS_T TickType_t last_tickCount = 0; /* last FreeRTOS value */ /* esp_get_cpu_benchmark_cycles(void): * * Architecture-independant CPU clock counter. * WARNING: the hal UINT xthal_get_ccount() quietly rolls over. */ static WC_INLINE word64 esp_get_cpu_benchmark_cycles(void); /* Some vars for debugging, compare ticks to cycles */ #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG static THREAD_LS_T word64 _esp_cpu_timer_last = 0; static THREAD_LS_T word64 _esp_cpu_timer_diff = 0; static THREAD_LS_T word64 _xthal_get_ccount_exAlt = 0; static THREAD_LS_T word64 _xthal_get_ccount_exDiff = 0; #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ /* The ESP32 (both Xtensa and RISC-V have raw CPU counters). */ #if ESP_IDF_VERSION_MAJOR >= 5 /* esp_cpu_set_cycle_count() introduced in ESP-IDF v5 */ #define HAVE_GET_CYCLES #define INIT_CYCLE_COUNTER do { \ ESP_LOGV(TAG, "INIT_CYCLE_COUNTER"); \ esp_cpu_set_cycle_count(0); \ } while (0); #else #define HAVE_GET_CYCLES #define INIT_CYCLE_COUNTER do { \ ESP_LOGV(TAG, "INIT_CYCLE_COUNTER"); \ } while (0); #endif #define BEGIN_ESP_CYCLES do { \ ESP_LOGV(TAG, "BEGIN_ESP_CYCLES"); \ begin_cycles = esp_get_cpu_benchmark_cycles(); \ begin_cycles_ticks = xTaskGetTickCount(); \ } while (0); /* since it rolls over, we have something that will tolerate one */ #define END_ESP_CYCLES \ end_cycles = esp_get_cpu_benchmark_cycles(); \ ESP_LOGV(TAG,"END_ESP_CYCLES %llu - %llu", \ end_cycles, \ begin_cycles \ ); \ total_cycles = (end_cycles - begin_cycles); #define SHOW_ESP_CYCLES(b, n, s) \ (void)XSNPRINTF(b + XSTRLEN(b), n - XSTRLEN(b), \ " %s = " FLT_FMT_PREC2 "\n", \ bench_result_words1[lng_index][2], \ FLT_FMT_PREC2_ARGS(6, 2, (double)total_cycles / (count*s)) \ ) #define SHOW_ESP_CYCLES_CSV(b, n, s) \ (void)XSNPRINTF(b + XSTRLEN(b), n - XSTRLEN(b), FLT_FMT_PREC ",\n", \ FLT_FMT_PREC_ARGS(6, (double)total_cycles / (count*s))) #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG /* 64 bit, unisgned, absolute difference * used in CPU cycle counter debug calcs. */ static uint64_t esp_cycle_abs_diff(uint64_t x, uint64_t y) { uint64_t ret; ret = (x > y) ? (x - y) : (y - x); return ret; } #endif /* esp_get_cycle_count_ex() is a single-overflow-tolerant extension to ** the Espressif `unsigned xthal_get_ccount()` (Xtensa) or ** `esp_cpu_get_cycle_count` (RISC-V) which are known to overflow ** at least once during full benchmark tests. ** ** To test timing overflow, add a delay longer than max cycles: ** vTaskDelay( (const TickType_t)(configTICK_RATE_HZ * 17 * 5) ); */ uint64_t esp_get_cycle_count_ex() { /* reminder: unsigned long long max = 18,446,744,073,709,551,615 */ /* unsigned int max = 4,294,967,295 */ uint64_t thisVal = 0; /* CPU counter, "this current value" as read. */ uint64_t thisIncrement = 0; /* The adjusted increment amount. */ uint64_t expected_diff = 0; /* FreeRTOS estimated expected CPU diff.*/ #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING uint64_t tickCount = 0; /* Current rtos tick counter. */ uint64_t tickDiff = 0; /* Tick difference from last check. */ uint64_t tickBeginDiff = 0; /* Tick difference from beginning. */ #endif #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG uint64_t thisTimerVal = 0; /* Timer Value as alternate to compare */ uint64_t diffDiff = 0; /* Difference between CPU & Timer differences: * (current - last) */ #endif #if defined(CONFIG_IDF_TARGET_ESP32C2) || \ defined(CONFIG_IDF_TARGET_ESP32C3) || \ defined(CONFIG_IDF_TARGET_ESP32C6) #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG ESP_ERROR_CHECK(gptimer_get_raw_count(esp_gptimer, &thisTimerVal)); thisTimerVal = thisTimerVal * RESOLUTION_SCALE; #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ #if ESP_IDF_VERSION_MAJOR >= 5 thisVal = esp_cpu_get_cycle_count(); #else thisVal = cpu_hal_get_cycle_count(); #endif #elif defined(CONFIG_IDF_TARGET_ESP32H2) thisVal = esp_cpu_get_cycle_count(); #elif defined(CONFIG_IDF_TARGET_ESP8266) thisVal = esp_timer_get_time(); #else /* TODO: Why doesn't esp_cpu_get_cycle_count work for Xtensa? * Calling current_time(1) to reset time causes thisVal overflow, * on Xtensa, but not on RISC-V architecture. See also, below */ #if defined(CONFIG_IDF_TARGET_ESP8266) || (ESP_IDF_VERSION_MAJOR < 5) #ifndef configCPU_CLOCK_HZ /* esp_cpu_get_cycle_count not available in ESP-IDF v4 */ #define configCPU_CLOCK_HZ \ (CONFIG_ESP32_DEFAULT_CPU_FREQ_MHZ * MILLION_VALUE) #endif /* There's no CPU counter on the ESP8266 (Tensilica). Using RTOS */ thisVal = (uint64_t)xTaskGetTickCount() * (uint64_t)(configCPU_CLOCK_HZ / CONFIG_FREERTOS_HZ); #elif defined(__XTENSA__) thisVal = esp_cpu_get_cycle_count(); #else /* Not Tensilica(ESP8266), not Xtensa(ESP32/-S2/-S3, then RISC-V */ thisVal = xthal_get_ccount(); /* or esp_cpu_get_cycle_count(); */ #endif #endif #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING { tickCount = xTaskGetTickCount(); /* Our local FreeRTOS tick count */ tickDiff = tickCount - last_tickCount; /* ticks since bench start */ expected_diff = CPU_TICK_CYCLES * tickDiff; /* CPU expected count */ ESP_LOGV(TAG, "CPU_TICK_CYCLES = %d", (int)CPU_TICK_CYCLES); ESP_LOGV(TAG, "tickCount = %llu", tickCount); ESP_LOGV(TAG, "last_tickCount = " TFMT, last_tickCount); ESP_LOGV(TAG, "tickDiff = %llu", tickDiff); ESP_LOGV(TAG, "expected_diff1 = %llu", expected_diff); } #endif /* If either thisVal is smaller than last (overflow), and/or the * expected value calculated from FreeRTOS tick difference that would * have never fit into an unsigned 32 bit integer anyhow... then we * need to adjust thisVal to save. */ if ( (thisVal < _esp_cpu_count_last) || (expected_diff > UINT_MAX) ) { /* Warning: we assume the return type of esp_cpu_get_cycle_count() ** will always be unsigned int (or uint32_t) to add UINT_MAX. ** ** NOTE for long duration between calls with multiple overflows: ** ** WILL NOT BE DETECTED - the return value will be INCORRECT. ** ** At this time no single test overflows. This is currently only a ** concern for cumulative counts over multiple tests. As long ** as well call xthal_get_ccount_ex() with no more than one ** overflow CPU tick count, all will be well. */ #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGW(TAG, "Alert: Detected xthal_get_ccount overflow at " "(%llu < %llu) adding UINT_MAX = %llu.", thisVal, _esp_cpu_count_last, (uint64_t) UINT_MAX); #endif #if !defined(CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ) && \ !defined(CONFIG_ESP32_DEFAULT_CPU_FREQ_MHZ) #error "CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ not found" #endif /* double check expected diff calc */ #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING #if defined(CONFIG_IDF_TARGET_ESP8266) expected_diff = (CONFIG_ESP8266_DEFAULT_CPU_FREQ_MHZ * MILLION_VALUE) * tickDiff / configTICK_RATE_HZ; #else expected_diff = (CONFIG_ESP_DEFAULT_CPU_FREQ_MHZ * MILLION_VALUE) * tickDiff / configTICK_RATE_HZ; #endif ESP_LOGI(TAG, "expected_diff2 = %llu", expected_diff); #endif if (expected_diff > UINT_MAX) { /* The number of cycles expected from FreeRTOS ticks is * greater than the maximum size of an unsigned 32-bit * integer, meaning multiple overflows occurred. */ #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGW(TAG, "expected_diff > UINT_MAX (%u)", UINT_MAX); #endif thisVal += expected_diff; /* FreeRTOS calc to our 64 bit val */ } else { thisVal += (word64)UINT_MAX; /* add 32 bit max to our 64 bit */ } #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING { tickBeginDiff = tickCount - begin_cycles_ticks; ESP_LOGI(TAG, "begin_cycles_ticks = %llu", begin_cycles_ticks); ESP_LOGI(TAG, "tickDiff = %llu", tickDiff); ESP_LOGI(TAG, "expected_diff = %llu", expected_diff); ESP_LOGI(TAG, "tickBeginDiff = %llu", tickBeginDiff); ESP_LOGW(TAG, WOLFSSL_ESPIDF_BLANKLINE_MESSAGE); } #endif } else { #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGI(TAG, "thisVal, read CPU = %llu", thisVal); #endif } /* if thisVal adjustment check */ #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG if (thisTimerVal < _esp_cpu_timer_last) { ESP_LOGW(TAG, "Alert: Detected xthal_get_ccountAlt overflow, " "adding %ull", UINT_MAX); thisTimerVal += (word64)UINT_MAX; } /* Check an alternate counter using a timer */ _esp_cpu_timer_diff = esp_cycle_abs_diff(_esp_cpu_count_last, _esp_cpu_timer_last); #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ /* Adjust our actual returned value that takes into account overflow, * increment 64 bit extended total by this 32 bit differential: */ thisIncrement = (thisVal - _esp_cpu_count_last); #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGI(TAG, "thisIncrement = %llu", thisIncrement); #endif /* Add our adjustment, taking into account overflows (see above) */ _esp_get_cycle_count_ex += thisIncrement; #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG _xthal_get_ccount_exDiff = esp_cycle_abs_diff(_esp_get_cycle_count_ex, _xthal_get_ccount_exAlt); _xthal_get_ccount_exAlt += (thisTimerVal - _esp_cpu_timer_last); diffDiff = esp_cycle_abs_diff(_xthal_get_ccount_exDiff, _esp_cpu_timer_diff); #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ /* all of this took some time, so reset the "last seen" value * for the next measurement. */ #if defined(CONFIG_IDF_TARGET_ESP32C2) || \ defined(CONFIG_IDF_TARGET_ESP32C3) || \ defined(CONFIG_IDF_TARGET_ESP32C6) { #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG ESP_ERROR_CHECK(gptimer_get_raw_count(esp_gptimer, &_esp_cpu_timer_last)); ESP_LOGI(TAG, "thisVal = %llu", thisVal); ESP_LOGI(TAG, "thisTimerVal = %llu", thisTimerVal); ESP_LOGI(TAG, "diffDiff = %llu", diffDiff); ESP_LOGI(TAG, "_xthal_get_ccount_exDiff = %llu", _xthal_get_ccount_exDiff); #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ #if ESP_IDF_VERSION_MAJOR >= 5 _esp_cpu_count_last = esp_cpu_get_cycle_count(); #else _esp_cpu_count_last = cpu_hal_get_cycle_count(); #endif ESP_LOGV(TAG, "_xthal_get_ccount_last = %llu", _esp_cpu_count_last); } #elif defined(CONFIG_IDF_TARGET_ESP32H2) _esp_cpu_count_last = esp_cpu_get_cycle_count(); #else /* TODO: Why doesn't esp_cpu_get_cycle_count work for Xtensa * when resetting CPU cycle counter? FreeRTOS tick collision? * thisVal = esp_cpu_get_cycle_count(); See also, above * or thisVal = xthal_get_ccount(); */ #if defined(CONFIG_IDF_TARGET_ESP8266) /* There's no CPU counter on the ESP8266, so we'll estimate * cycles based on defined CPU frequency from sdkconfig and * the RTOS tick frequency */ _esp_cpu_count_last = (uint64_t)xTaskGetTickCount() * (uint64_t)(configCPU_CLOCK_HZ / CONFIG_FREERTOS_HZ); #elif ESP_IDF_VERSION_MAJOR < 5 _esp_cpu_count_last = xthal_get_ccount(); #else _esp_cpu_count_last = esp_cpu_get_cycle_count(); #endif #endif #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGI(TAG, "_esp_cpu_count_last = %llu", _esp_cpu_count_last); #endif /* Return the 64 bit extended total from 32 bit counter. */ return _esp_get_cycle_count_ex; } /* esp_get_cycle_count_ex for esp_get_cpu_benchmark_cycles() */ /* implement other architecture cycle counters here */ #else /* if we don't know the platform, it is unlikely we can count CPU cycles */ #undef HAVE_GET_CYCLES #define INIT_CYCLE_COUNTER #define BEGIN_INTEL_CYCLES #define END_INTEL_CYCLES #ifdef MULTI_VALUE_STATISTICS #define SHOW_INTEL_CYCLES(b, n, s) WC_DO_NOTHING #define SHOW_INTEL_CYCLES_CSV(b, n, s) WC_DO_NOTHING #else #define SHOW_INTEL_CYCLES(b, n, s) b[XSTRLEN(b)] = '\n' #define SHOW_INTEL_CYCLES_CSV(b, n, s) b[XSTRLEN(b)] = '\n' #endif #endif /* determine benchmark buffer to use (if NO_FILESYSTEM) */ #if !defined(USE_CERT_BUFFERS_1024) && !defined(USE_CERT_BUFFERS_2048) && \ !defined(USE_CERT_BUFFERS_3072) && !defined(USE_CERT_BUFFERS_4096) #define USE_CERT_BUFFERS_2048 /* default to 2048 */ #endif #if defined(USE_CERT_BUFFERS_1024) || defined(USE_CERT_BUFFERS_2048) || \ defined(USE_CERT_BUFFERS_3072) || defined(USE_CERT_BUFFERS_4096) || \ !defined(NO_DH) /* include test cert and key buffers for use with NO_FILESYSTEM */ #include #endif #if defined(HAVE_BLAKE2) || defined(HAVE_BLAKE2S) #include #endif #ifdef _MSC_VER /* 4996 warning to use MS extensions e.g., strcpy_s instead of strncpy */ #pragma warning(disable: 4996) #endif #ifdef WOLFSSL_CURRTIME_REMAP #define current_time WOLFSSL_CURRTIME_REMAP #else double current_time(int reset); #endif #ifdef LINUX_RUSAGE_UTIME static void check_for_excessive_stime(const char *desc, const char *desc_extra); #endif #if !defined(WC_NO_RNG) && \ ((!defined(NO_RSA) && !defined(WOLFSSL_RSA_VERIFY_ONLY)) \ || !defined(NO_DH) || defined(WOLFSSL_KEY_GEN) || defined(HAVE_ECC) \ || defined(HAVE_CURVE25519) || defined(HAVE_ED25519) \ || defined(HAVE_CURVE448) || defined(HAVE_ED448) \ || defined(WOLFSSL_HAVE_KYBER)) #define HAVE_LOCAL_RNG static THREAD_LS_T WC_RNG gRng; #define GLOBAL_RNG &gRng #else #define GLOBAL_RNG NULL #endif #if defined(HAVE_ED25519) || defined(HAVE_CURVE25519) || \ defined(HAVE_CURVE448) || defined(HAVE_ED448) || \ defined(HAVE_ECC) || !defined(NO_DH) || \ !defined(NO_RSA) || defined(HAVE_SCRYPT) || \ defined(WOLFSSL_HAVE_KYBER) || defined(HAVE_DILITHIUM) || \ defined(WOLFSSL_HAVE_LMS) #define BENCH_ASYM #endif #if defined(BENCH_ASYM) #if defined(HAVE_ECC) || !defined(NO_RSA) || !defined(NO_DH) || \ defined(HAVE_CURVE25519) || defined(HAVE_ED25519) || \ defined(HAVE_CURVE448) || defined(HAVE_ED448) || \ defined(WOLFSSL_HAVE_KYBER) || defined(HAVE_DILITHIUM) || \ defined(WOLFSSL_HAVE_LMS) static const char* bench_result_words2[][5] = { #ifdef BENCH_MICROSECOND { "ops took", "μsec" , "avg" , "ops/μsec", NULL }, /* 0 English for μsec */ #else { "ops took", "sec" , "avg" , "ops/sec", NULL }, /* 0 English */ #endif #ifndef NO_MULTIBYTE_PRINT { "回処理を", "秒で実施", "平均", "処理/秒", NULL }, /* 1 Japanese */ #endif }; #endif #endif #ifdef WOLFSSL_CAAM #include #ifdef WOLFSSL_SECO_CAAM #define SECO_MAX_UPDATES 10000 #define SECO_BENCHMARK_NONCE 0x7777 #define SECO_KEY_STORE_ID 1 #endif static THREAD_LS_T int devId = WOLFSSL_CAAM_DEVID; #else #ifdef WC_USE_DEVID static THREAD_LS_T int devId = WC_USE_DEVID; #else static THREAD_LS_T int devId = INVALID_DEVID; #endif #endif /* Asynchronous helper macros */ #ifdef WC_ENABLE_BENCH_THREADING typedef struct ThreadData { pthread_t thread_id; } ThreadData; static ThreadData* g_threadData; static volatile int g_threadCount; #endif #if defined(WOLFSSL_ASYNC_CRYPT) || defined(WOLFSSL_CAAM) || defined(WC_USE_DEVID) #ifndef NO_HW_BENCH #define BENCH_DEVID #endif #ifndef HAVE_RENESAS_SYNC #define BENCH_DEVID_GET_NAME(useDeviceID) (useDeviceID) ? "HW" : "SW" #else #define BENCH_DEVID_GET_NAME(useDeviceID) "" #endif #else #define BENCH_DEVID_GET_NAME(useDeviceID) "" #endif #ifdef WOLFSSL_ASYNC_CRYPT static WOLF_EVENT_QUEUE eventQueue; #define BENCH_ASYNC_GET_DEV(obj) (&(obj)->asyncDev) #define BENCH_MAX_PENDING (WOLF_ASYNC_MAX_PENDING) static int bench_async_check(int* ret, WC_ASYNC_DEV* asyncDev, int callAgain, int* times, int limit, int* pending) { int allowNext = 0; /* this state can be set from a different thread */ WOLF_EVENT_STATE state = asyncDev->event.state; /* if algo doesn't require calling again then use this flow */ if (state == WOLF_EVENT_STATE_DONE) { if (callAgain) { /* needs called again, so allow it and handle completion in * bench_async_handle */ allowNext = 1; } else { *ret = asyncDev->event.ret; asyncDev->event.state = WOLF_EVENT_STATE_READY; (*times)++; if (*pending > 0) /* to support case where async blocks */ (*pending)--; if ((*times + *pending) < limit) allowNext = 1; } } /* if slot is available and we haven't reached limit, start another */ else if (state == WOLF_EVENT_STATE_READY && (*times + *pending) < limit) { allowNext = 1; } return allowNext; } static int bench_async_handle(int* ret, WC_ASYNC_DEV* asyncDev, int callAgain, int* times, int* pending) { WOLF_EVENT_STATE state = asyncDev->event.state; if (*ret == WC_NO_ERR_TRACE(WC_PENDING_E)) { if (state == WOLF_EVENT_STATE_DONE) { *ret = asyncDev->event.ret; asyncDev->event.state = WOLF_EVENT_STATE_READY; (*times)++; (*pending)--; } else { (*pending)++; *ret = wc_AsyncHandle(asyncDev, &eventQueue, callAgain ? WC_ASYNC_FLAG_CALL_AGAIN : WC_ASYNC_FLAG_NONE); } } else if (*ret >= 0) { *ret = asyncDev->event.ret; asyncDev->event.state = WOLF_EVENT_STATE_READY; (*times)++; if (*pending > 0) /* to support case where async blocks */ (*pending)--; } return (*ret >= 0) ? 1 : 0; } static WC_INLINE int bench_async_poll(int* pending) { int ret, asyncDone = 0; ret = wolfAsync_EventQueuePoll(&eventQueue, NULL, NULL, 0, WOLF_POLL_FLAG_CHECK_HW, &asyncDone); if (ret != 0) { printf("%sAsync poll failed %d\n", err_prefix, ret); return ret; } if (asyncDone == 0) { #ifndef WC_NO_ASYNC_THREADING /* give time to other threads */ wc_AsyncThreadYield(); #endif } (void)pending; return asyncDone; } #else #define BENCH_MAX_PENDING 1 #define BENCH_ASYNC_GET_DEV(obj) NULL static WC_INLINE int bench_async_check(int* ret, void* asyncDev, int callAgain, int* times, int limit, int* pending) { (void)ret; (void)asyncDev; (void)callAgain; (void)times; (void)limit; (void)pending; return 1; } static WC_INLINE int bench_async_handle(int* ret, void* asyncDev, int callAgain, int* times, int* pending) { (void)asyncDev; (void)callAgain; (void)pending; if (*ret >= 0) { /* operation completed */ (*times)++; return 1; } return 0; } #define bench_async_poll(p) WC_DO_NOTHING #endif /* WOLFSSL_ASYNC_CRYPT */ /* maximum runtime for each benchmark */ #ifndef BENCH_MIN_RUNTIME_SEC #define BENCH_MIN_RUNTIME_SEC 1.0F #endif #if defined(HAVE_AESGCM) || defined(HAVE_AESCCM) #define AES_AUTH_TAG_SZ 16 #define BENCH_CIPHER_ADD AES_AUTH_TAG_SZ static word32 aesAuthAddSz = AES_AUTH_ADD_SZ; #if !defined(AES_AAD_OPTIONS_DEFAULT) #if !defined(NO_MAIN_DRIVER) #define AES_AAD_OPTIONS_DEFAULT 0x1U #else #define AES_AAD_OPTIONS_DEFAULT 0x3U #endif #endif #define AES_AAD_STRING(s) \ (aesAuthAddSz == 0 ? (s "-no_AAD") : \ (aesAuthAddSz == AES_AUTH_ADD_SZ ? (s) : (s "-custom"))) enum en_aad_options { AAD_SIZE_DEFAULT = 0x1U, AAD_SIZE_ZERO = 0x2U, AAD_SIZE_CUSTOM = 0x4U, }; static word32 aes_aad_options = AES_AAD_OPTIONS_DEFAULT; static word32 aes_aad_size = 0; static void bench_aes_aad_options_wrap(void (*fn)(int), int i) { word32 aesAuthAddSz_orig = aesAuthAddSz; word32 options = aes_aad_options; while(options) { if (options & AAD_SIZE_DEFAULT) { aesAuthAddSz = AES_AUTH_ADD_SZ; options &= ~(word32)AAD_SIZE_DEFAULT; } else if (options & AAD_SIZE_ZERO) { aesAuthAddSz = 0; options &= ~(word32)AAD_SIZE_ZERO; } else if (options & AAD_SIZE_CUSTOM) { aesAuthAddSz = aes_aad_size; options &= ~(word32)AAD_SIZE_CUSTOM; } fn(i); aesAuthAddSz = aesAuthAddSz_orig; } } #endif #ifndef BENCH_CIPHER_ADD #define BENCH_CIPHER_ADD 0 #endif #if defined(WOLFSSL_DEVCRYPTO) && defined(WOLFSSL_AUTHSZ_BENCH) #warning Large/Unalligned AuthSz could result in errors with /dev/crypto #endif /* use kB instead of mB for embedded benchmarking */ #ifdef BENCH_EMBEDDED #ifndef BENCH_NTIMES #define BENCH_NTIMES 2 #endif #ifndef BENCH_AGREETIMES #define BENCH_AGREETIMES 2 #endif enum BenchmarkBounds { scryptCnt = 1, ntimes = BENCH_NTIMES, genTimes = BENCH_MAX_PENDING, agreeTimes = BENCH_AGREETIMES }; /* how many kB to test (en/de)cryption */ #define NUM_BLOCKS 25 #define BENCH_SIZE (1024uL) #else #ifndef BENCH_NTIMES #define BENCH_NTIMES 100 #endif #ifndef BENCH_AGREETIMES #define BENCH_AGREETIMES 100 #endif enum BenchmarkBounds { scryptCnt = 10, ntimes = BENCH_NTIMES, genTimes = BENCH_MAX_PENDING, /* must be at least BENCH_MAX_PENDING */ agreeTimes = BENCH_AGREETIMES }; /* how many megs to test (en/de)cryption */ #define NUM_BLOCKS 5 #define BENCH_SIZE (1024*1024uL) #endif static int numBlocks = NUM_BLOCKS; static word32 bench_size = BENCH_SIZE; static int base2 = 1; static int digest_stream = 1; #ifdef HAVE_CHACHA static int encrypt_only = 0; #endif #ifdef HAVE_AES_CBC static int cipher_same_buffer = 0; #endif #ifdef MULTI_VALUE_STATISTICS static int minimum_runs = 0; #endif #ifndef NO_RSA /* Don't measure RSA sign/verify by default */ static int rsa_sign_verify = 0; #endif #ifndef NO_DH /* Use the FFDHE parameters */ static int use_ffdhe = 0; #endif /* Don't print out in CSV format by default */ static int csv_format = 0; #ifdef WOLFSSL_XILINX_CRYPT_VERSAL /* Versal PLM maybe prints an error message to the same console. * In order to not mix those outputs up, sleep a little while * before erroring out. */ #define SLEEP_ON_ERROR(ret) do{ if (ret != 0) { sleep(1); } }while(0) #else #define SLEEP_ON_ERROR(ret) do{ /* noop */ }while(0) #endif /* globals for cipher tests */ static THREAD_LS_T byte* bench_plain = NULL; static THREAD_LS_T byte* bench_cipher = NULL; #ifndef NO_FILESYSTEM static THREAD_LS_T char* hash_input = NULL; static THREAD_LS_T char* cipher_input = NULL; #endif static const XGEN_ALIGN byte bench_key_buf[] = { 0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef, 0xfe,0xde,0xba,0x98,0x76,0x54,0x32,0x10, 0x89,0xab,0xcd,0xef,0x01,0x23,0x45,0x67, 0x01,0x23,0x45,0x67,0x89,0xab,0xcd,0xef, 0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7, 0xf8,0xf9,0xfa,0xfb,0xfc,0xfd,0xfe,0xff, 0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07, 0x08,0x09,0x0a,0x0b,0x0c,0x0d,0x0e,0x0f, }; static const XGEN_ALIGN byte bench_iv_buf[] = { 0x12,0x34,0x56,0x78,0x90,0xab,0xcd,0xef, 0x01,0x01,0x01,0x01,0x01,0x01,0x01,0x01, 0x11,0x21,0x31,0x41,0x51,0x61,0x71,0x81 }; static THREAD_LS_T byte* bench_key = NULL; static THREAD_LS_T byte* bench_iv = NULL; #ifdef HAVE_RENESAS_SYNC static THREAD_LS_T byte* bench_key1 = NULL; static THREAD_LS_T byte* bench_key2 = NULL; #endif #ifdef WOLFSSL_STATIC_MEMORY #ifdef WOLFSSL_STATIC_MEMORY_TEST_SZ static byte gBenchMemory[WOLFSSL_STATIC_MEMORY_TEST_SZ]; #elif defined(BENCH_EMBEDDED) static byte gBenchMemory[50000]; #else static byte gBenchMemory[400000]; #endif #endif /* This code handles cases with systems where static (non cost) ram variables aren't properly initialized with data */ static void benchmark_static_init(int force) { static int gBenchStaticInit = 0; if (gBenchStaticInit == 0 || force) { gBenchStaticInit = 1; /* Init static variables */ numBlocks = NUM_BLOCKS; bench_size = BENCH_SIZE; #if defined(HAVE_AESGCM) || defined(HAVE_AESCCM) aesAuthAddSz = AES_AUTH_ADD_SZ; aes_aad_options = AES_AAD_OPTIONS_DEFAULT; aes_aad_size = 0; #endif base2 = 1; digest_stream = 1; #ifdef MULTI_VALUE_STATISTICS minimum_runs = 0; #endif bench_all = 1; bench_cipher_algs = 0; bench_digest_algs = 0; bench_mac_algs = 0; bench_kdf_algs = 0; bench_asym_algs = 0; bench_pq_asym_algs = 0; bench_other_algs = 0; bench_pq_hash_sig_algs = 0; csv_format = 0; } } /*****************************************************************************/ /* Begin Stats Functions */ /*****************************************************************************/ typedef enum bench_stat_type { BENCH_STAT_ASYM, BENCH_STAT_SYM, BENCH_STAT_IGNORE, } bench_stat_type_t; #ifdef WC_BENCH_TRACK_STATS static int gPrintStats = 0; #ifdef WC_ENABLE_BENCH_THREADING static pthread_mutex_t bench_lock = PTHREAD_MUTEX_INITIALIZER; #endif #ifndef BENCH_MAX_NAME_SZ #define BENCH_MAX_NAME_SZ 24 #endif typedef struct bench_stats { struct bench_stats* next; struct bench_stats* prev; char algo[BENCH_MAX_NAME_SZ+1]; /* may not be static, so make copy */ const char* desc; double perfsec; int strength; int useDeviceID; int finishCount; bench_stat_type_t type; int lastRet; const char* perftype; } bench_stats_t; static bench_stats_t* bench_stats_head; static bench_stats_t* bench_stats_tail; static bench_stats_t* bench_stats_add(bench_stat_type_t type, const char* algo, int strength, const char* desc, int useDeviceID, double perfsec, const char* perftype, int ret) { bench_stats_t* bstat = NULL; #ifdef WC_ENABLE_BENCH_THREADING /* protect bench_stats_head and bench_stats_tail access */ THREAD_CHECK_RET(pthread_mutex_lock(&bench_lock)); #endif if (algo != NULL) { /* locate existing in list */ for (bstat = bench_stats_head; bstat != NULL; bstat = bstat->next) { /* match based on algo, strength and desc */ if (XSTRNCMP(bstat->algo, algo, BENCH_MAX_NAME_SZ) == 0 && bstat->strength == strength && bstat->desc == desc && bstat->useDeviceID == useDeviceID) { break; } } } if (bstat == NULL) { /* allocate new and put on list */ bstat = (bench_stats_t*)XMALLOC(sizeof(bench_stats_t), NULL, DYNAMIC_TYPE_INFO); if (bstat) { XMEMSET(bstat, 0, sizeof(bench_stats_t)); /* add to list */ bstat->next = NULL; if (bench_stats_tail == NULL) { bench_stats_head = bstat; } else { bench_stats_tail->next = bstat; bstat->prev = bench_stats_tail; } bench_stats_tail = bstat; /* add to the end either way */ } } if (bstat) { bstat->type = type; if (algo != NULL) XSTRNCPY(bstat->algo, algo, BENCH_MAX_NAME_SZ); bstat->strength = strength; bstat->desc = desc; bstat->useDeviceID = useDeviceID; bstat->perfsec += perfsec; bstat->finishCount++; bstat->perftype = perftype; if (bstat->lastRet > ret) bstat->lastRet = ret; /* track last error */ } #ifdef WC_ENABLE_BENCH_THREADING THREAD_CHECK_RET(pthread_mutex_unlock(&bench_lock)); #endif return bstat; } void bench_stats_print(void) { bench_stats_t* bstat; int digits; #ifdef WC_ENABLE_BENCH_THREADING /* protect bench_stats_head and bench_stats_tail access */ THREAD_CHECK_RET(pthread_mutex_lock(&bench_lock)); #endif #ifdef BENCH_MICROSECOND digits = 5; #else digits = 3; #endif for (bstat = bench_stats_head; bstat != NULL; ) { if (bstat->type == BENCH_STAT_SYM) { printf("%-16s%s " FLT_FMT_PREC2 " %s/" WOLFSSL_FIXED_TIME_UNIT "\n", bstat->desc, BENCH_DEVID_GET_NAME(bstat->useDeviceID), FLT_FMT_PREC2_ARGS(8, digits, bstat->perfsec), base2 ? "MB" : "mB"); } else { printf("%-5s %4d %-9s %s " FLT_FMT_PREC " ops/" WOLFSSL_FIXED_TIME_UNIT "ec\n", bstat->algo, bstat->strength, bstat->desc, BENCH_DEVID_GET_NAME(bstat->useDeviceID), FLT_FMT_PREC_ARGS(digits, bstat->perfsec)); } bstat = bstat->next; } #ifdef WC_ENABLE_BENCH_THREADING THREAD_CHECK_RET(pthread_mutex_unlock(&bench_lock)); #endif } #endif /* WC_BENCH_TRACK_STATS */ static WC_INLINE void bench_stats_init(void) { #ifdef WC_BENCH_TRACK_STATS bench_stats_head = NULL; bench_stats_tail = NULL; #endif INIT_CYCLE_COUNTER } static WC_INLINE void bench_stats_start(int* count, double* start) { *count = 0; *start = current_time(1); #ifdef WOLFSSL_ESPIDF #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGI(TAG, "bench_stats_start total_cycles = %llu" ", start=" FLT_FMT, total_cycles, FLT_FMT_ARGS(*start) ); #endif BEGIN_ESP_CYCLES #else BEGIN_INTEL_CYCLES #endif } #ifdef WOLFSSL_LINUXKM_USE_SAVE_VECTOR_REGISTERS #define bench_stats_start(count, start) do { \ SAVE_VECTOR_REGISTERS(pr_err( \ "SAVE_VECTOR_REGISTERS failed for benchmark run."); \ return; ); \ bench_stats_start(count, start); \ } while (0) #endif static WC_INLINE int bench_stats_check(double start) { int ret = 0; double this_current_time = 0.0; this_current_time = current_time(0); /* get the timestamp, no reset */ #if defined(DEBUG_WOLFSSL_BENCHMARK_TIMING) && defined(WOLFSSL_ESPIDF) #if defined(WOLFSSL_ESPIDF) ESP_LOGI(TAG, "bench_stats_check Current time = %f, start = %f", this_current_time, start ); #endif #endif ret = ((this_current_time - start) < BENCH_MIN_RUNTIME_SEC #ifdef BENCH_MICROSECOND * 1000000 #endif ); return ret; } /* return text for units and scale the value of blocks as needed */ static const char* get_blocktype(double* blocks) { const char* rt; #if ( defined(WOLFSSL_BENCHMARK_FIXED_UNITS_G) || \ defined(WOLFSSL_BENCHMARK_FIXED_UNITS_GB)) #undef WOLFSSL_FIXED_UNIT #define WOLFSSL_FIXED_UNIT "GB" *blocks /= (1024UL * 1024UL * 1024UL); rt = "GiB"; #elif (defined(WOLFSSL_BENCHMARK_FIXED_UNITS_M) || \ defined(WOLFSSL_BENCHMARK_FIXED_UNITS_MB)) #undef WOLFSSL_FIXED_UNIT #define WOLFSSL_FIXED_UNIT "MB" *blocks /= (1024UL * 1024UL); rt = "MiB"; #elif (defined(WOLFSSL_BENCHMARK_FIXED_UNITS_K) || \ defined(WOLFSSL_BENCHMARK_FIXED_UNITS_KB)) #undef WOLFSSL_FIXED_UNIT #define WOLFSSL_FIXED_UNIT "KB" *blocks /= 1024; rt = "KiB"; #elif defined (WOLFSSL_BENCHMARK_FIXED_UNITS_B) #undef WOLFSSL_FIXED_UNIT #define WOLFSSL_FIXED_UNIT "bytes" (void)(*blocks); /* no adjustment, just appease compiler for not used */ rt = "bytes"; #else /* If no user-specified, auto-scale each metric (results vary). * Determine if we should show as KB or MB or bytes. No GiB here. */ if (*blocks > (1024UL * 1024UL)) { *blocks /= (1024UL * 1024UL); rt = "MiB"; } else if (*blocks > 1024) { *blocks /= 1024; rt = "KiB"; } else { rt = "bytes"; } #endif return rt; } /* return text for units and scale the value of blocks as needed for base2 */ static const char* get_blocktype_base10(double* blocks) { const char* rt; #if ( defined(WOLFSSL_BENCHMARK_FIXED_UNITS_G) || \ defined(WOLFSSL_BENCHMARK_FIXED_UNITS_GB)) *blocks /= (1000UL * 1000UL * 1000UL); rt = "GB"; #elif (defined(WOLFSSL_BENCHMARK_FIXED_UNITS_M) || \ defined(WOLFSSL_BENCHMARK_FIXED_UNITS_MB)) *blocks /= (1000UL * 1000UL); rt = "MB"; #elif (defined(WOLFSSL_BENCHMARK_FIXED_UNITS_K) || \ defined(WOLFSSL_BENCHMARK_FIXED_UNITS_KB)) *blocks /= (1000UL); rt = "KB"; #elif defined (WOLFSSL_BENCHMARK_FIXED_UNITS_B) (void)(*blocks); /* no adjustment, just appease compiler */ rt = "bytes"; #else /* If not user-specified, auto-scale each metric (results vary). * Determine if we should show as KB or MB or bytes */ if (*blocks > (1000UL * 1000UL)) { *blocks /= (1000UL * 1000UL); rt = "MB"; } else if (*blocks > 1000) { *blocks /= 1000; /* make KB */ rt = "KB"; } else { rt = "bytes"; } #endif return rt; } #ifdef MULTI_VALUE_STATISTICS static double wc_sqroot(double in) { /* do 32 iterations for the sqroot */ int iter = 32; double root = in/3.0; if (in < 0.0) return -1; for (int i=0; i < iter; i++) root = (root + in / root) / 2.0; return root; } static void bench_multi_value_stats(double max, double min, double sum, double squareSum, int runs) { double mean = 0; double sd = 0; char msg[WC_BENCH_MAX_LINE_LEN]; const char** word = bench_result_words3[lng_index]; XMEMSET(msg, 0, sizeof(msg)); mean = sum / runs; /* Calculating standard deviation */ sd = (squareSum / runs) - (mean * mean); sd = wc_sqroot(sd); if (csv_format == 1) { (void)XSNPRINTF(msg, sizeof(msg), FLT_FMT_PREC2 "," FLT_FMT_PREC2 "," FLT_FMT_PREC2 "," FLT_FMT_PREC2 ",\n", FLT_FMT_PREC2_ARGS(3, 3, max), FLT_FMT_PREC2_ARGS(3, 3, min), FLT_FMT_PREC2_ARGS(3, 3, mean), FLT_FMT_PREC2_ARGS(3, 3, sd)); } else{ (void)XSNPRINTF(msg, sizeof(msg), ", %s " FLT_FMT_PREC2 " " WOLFSSL_FIXED_TIME_UNIT ", %s " FLT_FMT_PREC2 " " WOLFSSL_FIXED_TIME_UNIT ", %s " FLT_FMT_PREC2 " " WOLFSSL_FIXED_TIME_UNIT ", %s " FLT_FMT_PREC2 " " WOLFSSL_FIXED_TIME_UNIT "\n", word[0], FLT_FMT_PREC2_ARGS(3, 3, max), word[1], FLT_FMT_PREC2_ARGS(3, 3, min), word[2], FLT_FMT_PREC2_ARGS(3, 3, mean), word[3], FLT_FMT_PREC2_ARGS(3, 3, sd)); } printf("%s", msg); #ifndef WOLFSSL_SGX XFFLUSH(stdout); #endif } #endif /* countSz is number of bytes that 1 count represents. Normally bench_size, * except for AES direct that operates on WC_AES_BLOCK_SIZE blocks */ static void bench_stats_sym_finish(const char* desc, int useDeviceID, int count, word32 countSz, double start, int ret) { double total, persec = 0, blocks = (double)count; const char* blockType; char msg[WC_BENCH_MAX_LINE_LEN]; const char** word = bench_result_words1[lng_index]; static int sym_header_printed = 0; XMEMSET(msg, 0, sizeof(msg)); #ifdef WOLFSSL_ESPIDF END_ESP_CYCLES #else END_INTEL_CYCLES #endif total = current_time(0) - start; #if defined(WOLFSSL_ESPIDF) && defined(DEBUG_WOLFSSL_BENCHMARK_TIMING) ESP_LOGI(TAG, "%s total_cycles = %llu", desc, total_cycles); #endif #ifdef LINUX_RUSAGE_UTIME check_for_excessive_stime(desc, ""); #endif /* calculate actual bytes */ blocks *= countSz; if (csv_format == 1) { /* only print out header once */ if (sym_header_printed == 0) { #ifdef GENERATE_MACHINE_PARSEABLE_REPORT /* machine parseable CSV */ #ifdef HAVE_GET_CYCLES printf("%s", "\"sym\",Algorithm,HW/SW,bytes_total," WOLFSSL_FIXED_TIME_UNIT "econds_total," WOLFSSL_FIXED_UNIT "/" WOLFSSL_FIXED_TIME_UNIT ",cycles_total,Cycles per byte,"); #else printf("%s", "\"sym\",Algorithm,HW/SW,bytes_total," WOLFSSL_FIXED_TIME_UNIT "econds_total," WOLFSSL_FIXED_UNIT "/" WOLFSSL_FIXED_TIME_UNIT ",cycles_total,"); #endif #else /* normal CSV */ #ifdef BENCH_DEVID #define BENCH_DEVID_COLUMN_HEADER "HW/SW," #else #define BENCH_DEVID_COLUMN_HEADER #endif #ifdef HAVE_GET_CYCLES printf("\n\nSymmetric Ciphers:\n\n"); printf("Algorithm," BENCH_DEVID_COLUMN_HEADER WOLFSSL_FIXED_UNIT "/" WOLFSSL_FIXED_TIME_UNIT ",Cycles per byte,"); #else printf("\n\nSymmetric Ciphers:\n\n"); printf("Algorithm," BENCH_DEVID_COLUMN_HEADER WOLFSSL_FIXED_UNIT "/" WOLFSSL_FIXED_TIME_UNIT ","); #endif #endif #ifdef MULTI_VALUE_STATISTICS printf("max duration,min duration,mean duration,sd,\n"); #else printf("\n"); #endif sym_header_printed = 1; } } /* determine if we have fixed units, or auto-scale bits or bytes for units. * note that the blockType text is assigned AND the blocks param is scaled. */ if (base2) { blockType = get_blocktype(&blocks); } else { blockType = get_blocktype_base10(&blocks); } /* calculate blocks per second */ if (total > 0) { persec = (1 / total) * blocks; } SLEEP_ON_ERROR(ret); /* format and print to terminal */ if (csv_format == 1) { #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef WOLFSSL_ESPIDF unsigned long bytes_processed = (unsigned long)count * (unsigned long)countSz; #else word64 bytes_processed = (word64)count * (word64)countSz; #endif /* note this codepath brings in all the fields from the non-CSV case. */ #ifdef WOLFSSL_ESPIDF #ifdef HAVE_GET_CYCLES (void)XSNPRINTF(msg, sizeof(msg), "sym,%s,%s,%lu," FLT_FMT "," FLT_FMT ",%lu,", desc, BENCH_DEVID_GET_NAME(useDeviceID), bytes_processed, FLT_FMT_ARGS(total), FLT_FMT_ARGS(persec), (long unsigned int) total_cycles); #else #warning "HAVE_GET_CYCLES should be defined for WOLFSSL_ESPIDF" #endif /* implement other architectures here */ #else #ifdef HAVE_GET_CYCLES (void)XSNPRINTF(msg, sizeof(msg), "sym,%s,%s,%lu," FLT_FMT "," FLT_FMT ",%lu,", desc, BENCH_DEVID_GET_NAME(useDeviceID), bytes_processed, FLT_FMT_ARGS(total), FLT_FMT_ARGS(persec), total_cycles); #else (void)XSNPRINTF(msg, sizeof(msg), "sym,%s,%s,%lu," FLT_FMT "," FLT_FMT ",", desc, BENCH_DEVID_GET_NAME(useDeviceID), bytes_processed, FLT_FMT_ARGS(total), FLT_FMT_ARGS(persec)); #endif #endif #elif defined(BENCH_DEVID) (void)XSNPRINTF(msg, sizeof(msg), "%s,%s," FLT_FMT ",", desc, BENCH_DEVID_GET_NAME(useDeviceID), FLT_FMT_ARGS(persec)); #else (void)XSNPRINTF(msg, sizeof(msg), "%s," FLT_FMT ",", desc, FLT_FMT_ARGS(persec)); #endif #ifdef WOLFSSL_ESPIDF SHOW_ESP_CYCLES_CSV(msg, sizeof(msg), countSz); #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGI(TAG, "bench_stats_sym_finish total_cycles = %llu", total_cycles); #endif /* implement other cycle counters here */ #else /* the default cycle counter is Intel */ SHOW_INTEL_CYCLES_CSV(msg, sizeof(msg), (unsigned)countSz); #endif } /* if (csv_format == 1) */ else { #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef HAVE_GET_CYCLES (void)XSNPRINTF(msg, sizeof(msg), "%-24s%s " FLT_FMT_PREC2 " %s %s " FLT_FMT_PREC2 " %s, " FLT_FMT_PREC2 " %s/" WOLFSSL_FIXED_TIME_UNIT ", %lu cycles,", desc, BENCH_DEVID_GET_NAME(useDeviceID), FLT_FMT_PREC2_ARGS(5, 0, blocks), blockType, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], FLT_FMT_PREC2_ARGS(8, 3, persec), blockType, (unsigned long) total_cycles); #else (void)XSNPRINTF(msg, sizeof(msg), "%-24s%s " FLT_FMT_PREC2 " %s %s " FLT_FMT_PREC2 " %s, " FLT_FMT_PREC2 " %s/" WOLFSSL_FIXED_TIME_UNIT ",", desc, BENCH_DEVID_GET_NAME(useDeviceID), FLT_FMT_PREC2_ARGS(5, 0, blocks), blockType, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], FLT_FMT_PREC2_ARGS(8, 3, persec), blockType); #endif /* HAVE_GET_CYCLES */ #else (void)XSNPRINTF(msg, sizeof(msg), "%-24s%s " FLT_FMT_PREC2 " %s %s " FLT_FMT_PREC2 " %s, " FLT_FMT_PREC2 " %s/" WOLFSSL_FIXED_TIME_UNIT, desc, BENCH_DEVID_GET_NAME(useDeviceID), FLT_FMT_PREC2_ARGS(5, 0, blocks), blockType, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], FLT_FMT_PREC2_ARGS(8, 3, persec), blockType); #endif #ifdef WOLFSSL_ESPIDF SHOW_ESP_CYCLES(msg, sizeof(msg), countSz); /* implement other architecture cycle counters here */ #else SHOW_INTEL_CYCLES(msg, sizeof(msg), (unsigned)countSz); #endif } /* not CSV format */ printf("%s", msg); /* show errors */ if (ret < 0) { printf("%sBenchmark %s failed: %d\n", err_prefix, desc, ret); } #ifndef WOLFSSL_SGX XFFLUSH(stdout); #endif #ifdef WC_BENCH_TRACK_STATS /* Add to thread stats */ bench_stats_add(BENCH_STAT_SYM, desc, 0, desc, useDeviceID, persec, blockType, ret); #endif (void)useDeviceID; (void)ret; #ifdef WOLFSSL_LINUXKM_USE_SAVE_VECTOR_REGISTERS RESTORE_VECTOR_REGISTERS(); #endif TEST_SLEEP(); } /* bench_stats_sym_finish */ #ifdef BENCH_ASYM #if defined(HAVE_ECC) || !defined(NO_RSA) || !defined(NO_DH) || \ defined(HAVE_CURVE25519) || defined(HAVE_ED25519) || \ defined(HAVE_CURVE448) || defined(HAVE_ED448) || \ defined(WOLFSSL_HAVE_KYBER) || defined(HAVE_DILITHIUM) || \ defined(WOLFSSL_HAVE_LMS) static void bench_stats_asym_finish_ex(const char* algo, int strength, const char* desc, const char* desc_extra, int useDeviceID, int count, double start, int ret) { double total, each = 0, opsSec, milliEach; const char **word = bench_result_words2[lng_index]; #ifdef WC_BENCH_TRACK_STATS const char* kOpsSec = "Ops/Sec"; #endif char msg[256]; static int asym_header_printed = 0; #ifdef BENCH_MICROSECOND const int digits = 5; #else const int digits = 3; #endif XMEMSET(msg, 0, sizeof(msg)); total = current_time(0) - start; #ifdef LINUX_RUSAGE_UTIME check_for_excessive_stime(desc, desc_extra); #endif #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef WOLFSSL_ESPIDF END_ESP_CYCLES #else END_INTEL_CYCLES #endif #endif /* some sanity checks on the final numbers */ if (count > 0) { each = total / count; /* per second */ } else { count = 0; each = 0; } if (total > 0) { opsSec = count / total; /* ops second */ } else { opsSec = 0; } #ifdef BENCH_MICROSECOND milliEach = each / 1000; /* milliseconds */ #else milliEach = each * 1000; /* milliseconds */ #endif SLEEP_ON_ERROR(ret); #ifdef MULTI_VALUE_STATISTICS /* Print without avg ms */ (void)milliEach; /* format and print to terminal */ if (csv_format == 1) { /* only print out header once */ if (asym_header_printed == 0) { #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef HAVE_GET_CYCLES printf("%s", "\"asym\",Algorithm,key size,operation,ops/" WOLFSSL_FIXED_TIME_UNIT "ec,ops," WOLFSSL_FIXED_TIME_UNIT "ecs,cycles,cycles/op,"); #else printf("%s", "\"asym\",Algorithm,key size,operation,ops/" WOLFSSL_FIXED_TIME_UNIT "ec,ops," WOLFSSL_FIXED_TIME_UNIT "ecs,"); #endif #else printf("\n%sAsymmetric Ciphers:\n\n", info_prefix); printf("%sAlgorithm,key size,operation,ops/" WOLFSSL_FIXED_TIME_UNIT "ec,", info_prefix); #endif printf("max duration,min duration,mean duration,sd,\n"); asym_header_printed = 1; } #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef HAVE_GET_CYCLES (void)XSNPRINTF(msg, sizeof(msg), "asym,%s,%d,%s%s," FLT_FMT_PREC ",%d," FLT_FMT ",%lu," FLT_FMT_PREC STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, FLT_FMT_PREC_ARGS(digits, opsSec), count, FLT_FMT_ARGS(total), (unsigned long)total_cycles, FLT_FMT_PREC_ARGS(6, (double)total_cycles / (double)count)); #else (void)XSNPRINTF(msg, sizeof(msg), "asym,%s,%d,%s%s," FLT_FMT_PREC ",%d," FLT_FMT STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, FLT_FMT_PREC_ARGS(digits, opsSec), count, FLT_FMT_ARGS(total)); #endif #else (void)XSNPRINTF(msg, sizeof(msg), "%s,%d,%s%s," FLT_FMT_PREC "," STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, FLT_FMT_PREC_ARGS(digits, opsSec)); #endif } /* if (csv_format == 1) */ else { #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef HAVE_GET_CYCLES (void)XSNPRINTF(msg, sizeof(msg), "%-6s %5d %8s%-2s %s %6d %s " FLT_FMT_PREC2 " %s, " FLT_FMT_PREC " %s, %lu cycles" STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, BENCH_DEVID_GET_NAME(useDeviceID), count, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], FLT_FMT_PREC_ARGS(digits, opsSec), word[3], (unsigned long)total_cycles); #else (void)XSNPRINTF(msg, sizeof(msg), "%-6s %5d %8s%-2s %s %6d %s " FLT_FMT_PREC2 " %s, " FLT_FMT_PREC " %s" STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, BENCH_DEVID_GET_NAME(useDeviceID), count, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], FLT_FMT_PREC_ARGS(digits, opsSec), word[3]); #endif /* HAVE_GET_CYCLES */ #else (void)XSNPRINTF(msg, sizeof(msg), "%-6s %5d %8s%-2s %s %6d %s " FLT_FMT_PREC2 " %s, " FLT_FMT_PREC " %s" STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, BENCH_DEVID_GET_NAME(useDeviceID), count, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], FLT_FMT_PREC_ARGS(digits, opsSec), word[3]); #endif } #else /* MULTI_VALUE_STATISTICS. Print with avg ms */ /* format and print to terminal */ if (csv_format == 1) { /* only print out header once */ if (asym_header_printed == 0) { #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef HAVE_GET_CYCLES printf("%s", "\"asym\",Algorithm,key size,operation,avg ms,ops/" WOLFSSL_FIXED_TIME_UNIT "ec,ops," WOLFSSL_FIXED_TIME_UNIT "ecs,cycles,cycles/op,"); #else printf("%s", "\"asym\",Algorithm,key size,operation,avg ms,ops/" WOLFSSL_FIXED_TIME_UNIT "ec,ops," WOLFSSL_FIXED_TIME_UNIT "ecs,"); #endif #else printf("\n%sAsymmetric Ciphers:\n\n", info_prefix); printf("%sAlgorithm,key size,operation,avg ms,ops/" WOLFSSL_FIXED_TIME_UNIT "ec,", info_prefix); #endif printf("\n"); asym_header_printed = 1; } #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef HAVE_GET_CYCLES (void)XSNPRINTF(msg, sizeof(msg), "asym,%s,%d,%s%s," FLT_FMT_PREC "," FLT_FMT_PREC ",%d," FLT_FMT ",%lu," FLT_FMT_PREC STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, FLT_FMT_PREC_ARGS(3, milliEach), FLT_FMT_PREC_ARGS(digits, opsSec), count, FLT_FMT_ARGS(total), (unsigned long)total_cycles, FLT_FMT_PREC_ARGS(6, (double)total_cycles / (double)count)); #else (void)XSNPRINTF(msg, sizeof(msg), "asym,%s,%d,%s%s," FLT_FMT_PREC "," FLT_FMT_PREC ",%d," FLT_FMT STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, FLT_FMT_PREC_ARGS(3, milliEach), FLT_FMT_PREC_ARGS(digits, opsSec), count, FLT_FMT_ARGS(total)); #endif #else (void)XSNPRINTF(msg, sizeof(msg), "%s,%d,%s%s," FLT_FMT_PREC "," FLT_FMT_PREC "," STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, FLT_FMT_PREC_ARGS(3, milliEach), FLT_FMT_PREC_ARGS(digits, opsSec)); #endif } /* if (csv_format == 1) */ else { #ifdef GENERATE_MACHINE_PARSEABLE_REPORT #ifdef HAVE_GET_CYCLES (void)XSNPRINTF(msg, sizeof(msg), "%-6s %5d %8s%-2s %s %6d %s " FLT_FMT_PREC2 " %s, %s " FLT_FMT_PREC2 " ms, " FLT_FMT_PREC " %s, %lu cycles" STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, BENCH_DEVID_GET_NAME(useDeviceID), count, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], word[2], FLT_FMT_PREC2_ARGS(5, 3, milliEach), FLT_FMT_PREC_ARGS(digits, opsSec), word[3], (unsigned long)total_cycles); #else (void)XSNPRINTF(msg, sizeof(msg), "%-6s %5d %8s%-2s %s %6d %s " FLT_FMT_PREC2 " %s, %s " FLT_FMT_PREC2 " ms, " FLT_FMT_PREC " %s" STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, BENCH_DEVID_GET_NAME(useDeviceID), count, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], word[2], FLT_FMT_PREC2_ARGS(5, 3, milliEach), FLT_FMT_PREC_ARGS(digits, opsSec), word[3]); #endif /* HAVE_GET_CYCLES */ #else (void)XSNPRINTF(msg, sizeof(msg), "%-6s %5d %8s%-2s %s %6d %s " FLT_FMT_PREC2 " %s, %s " FLT_FMT_PREC2 " ms, " FLT_FMT_PREC " %s" STATS_CLAUSE_SEPARATOR, algo, strength, desc, desc_extra, BENCH_DEVID_GET_NAME(useDeviceID), count, word[0], FLT_FMT_PREC2_ARGS(5, 3, total), word[1], word[2], FLT_FMT_PREC2_ARGS(5, 3, milliEach), FLT_FMT_PREC_ARGS(digits, opsSec), word[3]); #endif } #endif /* MULTI_VALUE_STATISTICS */ printf("%s", msg); /* show errors */ if (ret < 0) { printf("%sBenchmark %s %s %d failed: %d\n", err_prefix, algo, desc, strength, ret); } #ifndef WOLFSSL_SGX XFFLUSH(stdout); #endif #ifdef WC_BENCH_TRACK_STATS /* Add to thread stats */ bench_stats_add(BENCH_STAT_ASYM, algo, strength, desc, useDeviceID, opsSec, kOpsSec, ret); #endif (void)useDeviceID; (void)ret; #ifdef WOLFSSL_LINUXKM_USE_SAVE_VECTOR_REGISTERS RESTORE_VECTOR_REGISTERS(); #endif TEST_SLEEP(); } /* bench_stats_asym_finish_ex */ static void bench_stats_asym_finish(const char* algo, int strength, const char* desc, int useDeviceID, int count, double start, int ret) { bench_stats_asym_finish_ex(algo, strength, desc, "", useDeviceID, count, start, ret); } #endif #endif /* BENCH_ASYM */ static WC_INLINE void bench_stats_free(void) { #ifdef WC_BENCH_TRACK_STATS bench_stats_t* bstat; for (bstat = bench_stats_head; bstat != NULL; ) { bench_stats_t* next = bstat->next; XFREE(bstat, NULL, DYNAMIC_TYPE_INFO); bstat = next; } bench_stats_head = NULL; bench_stats_tail = NULL; #endif } /*****************************************************************************/ /* End Stats Functions */ /*****************************************************************************/ static void* benchmarks_do(void* args) { long bench_buf_size; #ifdef WOLFSSL_ASYNC_CRYPT #ifndef WC_NO_ASYNC_THREADING ThreadData* threadData = (ThreadData*)args; if (wolfAsync_DevOpenThread(&devId, &threadData->thread_id) < 0) #else if (wolfAsync_DevOpen(&devId) < 0) #endif { printf("%sAsync device open failed\n%sRunning without async\n", err_prefix, err_prefix); } #endif /* WOLFSSL_ASYNC_CRYPT */ (void)args; #ifdef WOLFSSL_ASYNC_CRYPT if (wolfEventQueue_Init(&eventQueue) != 0) { printf("%sAsync event queue init failure!\n", err_prefix); } #endif #ifdef WOLF_CRYPTO_CB #ifdef HAVE_INTEL_QA_SYNC devId = wc_CryptoCb_InitIntelQa(); if (devId == INVALID_DEVID) { printf("%sCouldn't init the Intel QA\n", err_prefix); } #endif #ifdef HAVE_CAVIUM_OCTEON_SYNC devId = wc_CryptoCb_InitOcteon(); if (devId == INVALID_DEVID) { printf("%sCouldn't get the Octeon device ID\n", err_prefix); } #endif #ifdef HAVE_RENESAS_SYNC devId = wc_CryptoCb_CryptInitRenesasCmn(NULL, &guser_PKCbInfo); if (devId == INVALID_DEVID) { printf("%sCouldn't get the Renesas device ID\n", err_prefix); } #endif #endif #if defined(HAVE_LOCAL_RNG) { int rngRet; #ifndef HAVE_FIPS rngRet = wc_InitRng_ex(&gRng, HEAP_HINT, devId); #else rngRet = wc_InitRng(&gRng); #endif if (rngRet < 0) { printf("%sInitRNG failed\n", err_prefix); return NULL; } } #endif /* setup bench plain, cipher, key and iv globals */ /* make sure bench buffer is multiple of 16 (AES block size) */ bench_buf_size = (int)bench_size + BENCH_CIPHER_ADD; if (bench_buf_size % 16) bench_buf_size += 16 - (bench_buf_size % 16); #ifdef WOLFSSL_AFALG_XILINX_AES bench_plain = (byte*)aligned_alloc(64, (size_t)bench_buf_size + 16); /* native heap */ bench_cipher = (byte*)aligned_alloc(64, (size_t)bench_buf_size + 16); /* native heap */ #else bench_plain = (byte*)XMALLOC((size_t)bench_buf_size + 16, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); bench_cipher = (byte*)XMALLOC((size_t)bench_buf_size + 16, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); #endif if (bench_plain == NULL || bench_cipher == NULL) { XFREE(bench_plain, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); XFREE(bench_cipher, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); bench_plain = bench_cipher = NULL; printf("%sBenchmark block buffer alloc failed!\n", err_prefix); goto exit; } #ifndef NO_FILESYSTEM if (hash_input) { size_t rawSz; XFILE file; file = XFOPEN(hash_input, "rb"); if (file == XBADFILE) goto exit; if (XFSEEK(file, 0, XSEEK_END) != 0) { XFCLOSE(file); goto exit; } bench_buf_size = XFTELL(file); if(XFSEEK(file, 0, XSEEK_SET) != 0) { XFCLOSE(file); goto exit; } XFREE(bench_plain, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); rawSz = (size_t)bench_buf_size; if (bench_buf_size % 16) bench_buf_size += 16 - (bench_buf_size % 16); bench_size = (word32)bench_buf_size; bench_plain = (byte*)XMALLOC((size_t)bench_buf_size + 16*2, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); if (bench_plain == NULL) { XFCLOSE(file); goto exit; } if ((size_t)XFREAD(bench_plain, 1, rawSz, file) != rawSz) { XFCLOSE(file); goto exit; } XFCLOSE(file); } else { XMEMSET(bench_plain, 0, (size_t)bench_buf_size); } if (cipher_input) { size_t rawSz; XFILE file; file = XFOPEN(cipher_input, "rb"); if (file == XBADFILE) goto exit; if (XFSEEK(file, 0, XSEEK_END) != 0) { XFCLOSE(file); goto exit; } bench_buf_size = XFTELL(file); if(XFSEEK(file, 0, XSEEK_SET) != 0) { XFCLOSE(file); goto exit; } XFREE(bench_cipher, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); rawSz = (size_t)bench_buf_size; if (bench_buf_size % 16) bench_buf_size += 16 - (bench_buf_size % 16); if (bench_size > (word32)bench_buf_size) bench_size = (word32)bench_buf_size; bench_cipher = (byte*)XMALLOC((size_t)bench_buf_size + 16*2, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); if (bench_cipher == NULL) { XFCLOSE(file); goto exit; } if ((size_t)XFREAD(bench_cipher, 1, rawSz, file) != rawSz) { XFCLOSE(file); goto exit; } XFCLOSE(file); } else { XMEMSET(bench_cipher, 0, (size_t)bench_buf_size); } #endif #if defined(WOLFSSL_ASYNC_CRYPT) || defined(HAVE_INTEL_QA_SYNC) bench_key = (byte*)XMALLOC(sizeof(bench_key_buf), HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); bench_iv = (byte*)XMALLOC(sizeof(bench_iv_buf), HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); if (bench_key == NULL || bench_iv == NULL) { XFREE(bench_key, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); XFREE(bench_iv, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); bench_key = bench_iv = NULL; printf("%sBenchmark cipher buffer alloc failed!\n", err_prefix); goto exit; } XMEMCPY(bench_key, bench_key_buf, sizeof(bench_key_buf)); XMEMCPY(bench_iv, bench_iv_buf, sizeof(bench_iv_buf)); #elif defined(HAVE_RENESAS_SYNC) bench_key1 = (byte*)guser_PKCbInfo.wrapped_key_aes128; bench_key2 = (byte*)guser_PKCbInfo.wrapped_key_aes256; bench_key = (byte*)bench_key_buf; bench_iv = (byte*)bench_iv_buf; #else bench_key = (byte*)bench_key_buf; bench_iv = (byte*)bench_iv_buf; #endif #ifndef WC_NO_RNG if (bench_all || (bench_other_algs & BENCH_RNG)) bench_rng(); #endif /* WC_NO_RNG */ #ifndef NO_AES #ifdef HAVE_AES_CBC if (bench_all || (bench_cipher_algs & BENCH_AES_CBC)) { #ifndef NO_SW_BENCH bench_aescbc(0); #endif #if defined(BENCH_DEVID) bench_aescbc(1); #endif } #endif #ifdef HAVE_AESGCM if (bench_all || (bench_cipher_algs & BENCH_AES_GCM)) { #ifndef NO_SW_BENCH bench_aes_aad_options_wrap(bench_aesgcm, 0); #endif #if ((defined(WOLFSSL_ASYNC_CRYPT) && defined(WC_ASYNC_ENABLE_3DES)) || \ defined(HAVE_INTEL_QA_SYNC) || defined(HAVE_CAVIUM_OCTEON_SYNC) || \ defined(HAVE_RENESAS_SYNC) || defined(WOLFSSL_CAAM)) || \ ((defined(WOLFSSL_MAX3266X) || defined(WOLFSSL_MAX3266X_OLD)) && \ defined(WOLF_CRYPTO_CB)) && !defined(NO_HW_BENCH) bench_aes_aad_options_wrap(bench_aesgcm, 1); #endif #ifndef NO_SW_BENCH bench_gmac(0); #endif #if defined(BENCH_DEVID) bench_gmac(1); #endif } #endif #ifdef HAVE_AES_ECB if (bench_all || (bench_cipher_algs & BENCH_AES_ECB)) { #ifndef NO_SW_BENCH bench_aesecb(0); #endif #ifdef BENCH_DEVID bench_aesecb(1); #endif } #endif #ifdef WOLFSSL_AES_XTS if (bench_all || (bench_cipher_algs & BENCH_AES_XTS)) bench_aesxts(); #endif #ifdef WOLFSSL_AES_CFB if (bench_all || (bench_cipher_algs & BENCH_AES_CFB)) bench_aescfb(); #endif #ifdef WOLFSSL_AES_OFB if (bench_all || (bench_cipher_algs & BENCH_AES_OFB)) bench_aesofb(); #endif #ifdef WOLFSSL_AES_COUNTER if (bench_all || (bench_cipher_algs & BENCH_AES_CTR)) { bench_aesctr(0); #ifdef BENCH_DEVID bench_aesctr(1); #endif } #endif #ifdef HAVE_AESCCM if (bench_all || (bench_cipher_algs & BENCH_AES_CCM)) { bench_aes_aad_options_wrap(bench_aesccm, 0); #ifdef BENCH_DEVID bench_aes_aad_options_wrap(bench_aesccm, 1); #endif } #endif #ifdef WOLFSSL_AES_SIV if (bench_all || (bench_cipher_algs & BENCH_AES_SIV)) bench_aessiv(); #endif #endif /* !NO_AES */ #ifdef HAVE_CAMELLIA if (bench_all || (bench_cipher_algs & BENCH_CAMELLIA)) bench_camellia(); #endif #ifdef WOLFSSL_SM4_CBC if (bench_all || (bench_cipher_algs & BENCH_SM4_CBC)) bench_sm4_cbc(); #endif #ifdef WOLFSSL_SM4_GCM if (bench_all || (bench_cipher_algs & BENCH_SM4_GCM)) bench_sm4_gcm(); #endif #ifdef WOLFSSL_SM4_CCM if (bench_all || (bench_cipher_algs & BENCH_SM4_CCM)) bench_sm4_ccm(); #endif #ifndef NO_RC4 if (bench_all || (bench_cipher_algs & BENCH_ARC4)) { #ifndef NO_SW_BENCH bench_arc4(0); #endif #ifdef BENCH_DEVID bench_arc4(1); #endif } #endif #ifdef HAVE_CHACHA if (bench_all || (bench_cipher_algs & BENCH_CHACHA20)) bench_chacha(); #endif #if defined(HAVE_CHACHA) && defined(HAVE_POLY1305) if (bench_all || (bench_cipher_algs & BENCH_CHACHA20_POLY1305)) bench_chacha20_poly1305_aead(); #endif #ifndef NO_DES3 if (bench_all || (bench_cipher_algs & BENCH_DES)) { #ifndef NO_SW_BENCH bench_des(0); #endif #ifdef BENCH_DEVID bench_des(1); #endif } #endif #ifndef NO_MD5 if (bench_all || (bench_digest_algs & BENCH_MD5)) { #ifndef NO_SW_BENCH bench_md5(0); #endif #ifdef BENCH_DEVID bench_md5(1); #endif } #endif #ifdef HAVE_POLY1305 if (bench_all || (bench_digest_algs & BENCH_POLY1305)) bench_poly1305(); #endif #ifndef NO_SHA if (bench_all || (bench_digest_algs & BENCH_SHA)) { #ifndef NO_SW_BENCH bench_sha(0); #endif #ifdef BENCH_DEVID bench_sha(1); #endif } #endif #ifdef WOLFSSL_SHA224 if (bench_all || (bench_digest_algs & BENCH_SHA224)) { #ifndef NO_SW_BENCH bench_sha224(0); #endif #ifdef BENCH_DEVID bench_sha224(1); #endif } #endif #ifndef NO_SHA256 if (bench_all || (bench_digest_algs & BENCH_SHA256)) { #ifndef NO_SW_BENCH bench_sha256(0); #endif #ifdef BENCH_DEVID bench_sha256(1); #endif } #endif #ifdef WOLFSSL_SHA384 if (bench_all || (bench_digest_algs & BENCH_SHA384)) { #ifndef NO_SW_BENCH bench_sha384(0); #endif #ifdef BENCH_DEVID bench_sha384(1); #endif } #endif #ifdef WOLFSSL_SHA512 if (bench_all || (bench_digest_algs & BENCH_SHA512)) { #ifndef NO_SW_BENCH bench_sha512(0); #endif #ifdef BENCH_DEVID bench_sha512(1); #endif } #if !defined(WOLFSSL_NOSHA512_224) && \ (!defined(HAVE_FIPS) || FIPS_VERSION_GE(5, 3)) && !defined(HAVE_SELFTEST) if (bench_all || (bench_digest_algs & BENCH_SHA512)) { #ifndef NO_SW_BENCH bench_sha512_224(0); #endif #ifdef BENCH_DEVID bench_sha512_224(1); #endif } #endif /* WOLFSSL_NOSHA512_224 */ #if !defined(WOLFSSL_NOSHA512_256) && \ (!defined(HAVE_FIPS) || FIPS_VERSION_GE(5, 3)) && !defined(HAVE_SELFTEST) if (bench_all || (bench_digest_algs & BENCH_SHA512)) { #ifndef NO_SW_BENCH bench_sha512_256(0); #endif #ifdef BENCH_DEVID bench_sha512_256(1); #endif } #endif /* WOLFSSL_NOSHA512_256 */ #endif /* WOLFSSL_SHA512 */ #ifdef WOLFSSL_SHA3 #ifndef WOLFSSL_NOSHA3_224 if (bench_all || (bench_digest_algs & BENCH_SHA3_224)) { #ifndef NO_SW_BENCH bench_sha3_224(0); #endif #ifdef BENCH_DEVID bench_sha3_224(1); #endif } #endif /* WOLFSSL_NOSHA3_224 */ #ifndef WOLFSSL_NOSHA3_256 if (bench_all || (bench_digest_algs & BENCH_SHA3_256)) { #ifndef NO_SW_BENCH bench_sha3_256(0); #endif #ifdef BENCH_DEVID bench_sha3_256(1); #endif } #endif /* WOLFSSL_NOSHA3_256 */ #ifndef WOLFSSL_NOSHA3_384 if (bench_all || (bench_digest_algs & BENCH_SHA3_384)) { #ifndef NO_SW_BENCH bench_sha3_384(0); #endif #ifdef BENCH_DEVID bench_sha3_384(1); #endif } #endif /* WOLFSSL_NOSHA3_384 */ #ifndef WOLFSSL_NOSHA3_512 if (bench_all || (bench_digest_algs & BENCH_SHA3_512)) { #ifndef NO_SW_BENCH bench_sha3_512(0); #endif #ifdef BENCH_DEVID bench_sha3_512(1); #endif } #endif /* WOLFSSL_NOSHA3_512 */ #ifdef WOLFSSL_SHAKE128 if (bench_all || (bench_digest_algs & BENCH_SHAKE128)) { #ifndef NO_SW_BENCH bench_shake128(0); #endif #ifdef BENCH_DEVID bench_shake128(1); #endif } #endif /* WOLFSSL_SHAKE128 */ #ifdef WOLFSSL_SHAKE256 if (bench_all || (bench_digest_algs & BENCH_SHAKE256)) { #ifndef NO_SW_BENCH bench_shake256(0); #endif #ifdef BENCH_DEVID bench_shake256(1); #endif } #endif /* WOLFSSL_SHAKE256 */ #endif #ifdef WOLFSSL_SM3 if (bench_all || (bench_digest_algs & BENCH_SM3)) { #ifndef NO_SW_BENCH bench_sm3(0); #endif #ifdef BENCH_DEVID bench_sm3(1); #endif } #endif #ifdef WOLFSSL_RIPEMD if (bench_all || (bench_digest_algs & BENCH_RIPEMD)) bench_ripemd(); #endif #ifdef HAVE_BLAKE2 if (bench_all || (bench_digest_algs & BENCH_BLAKE2B)) bench_blake2b(); #endif #ifdef HAVE_BLAKE2S if (bench_all || (bench_digest_algs & BENCH_BLAKE2S)) bench_blake2s(); #endif #ifdef WOLFSSL_CMAC if (bench_all || (bench_mac_algs & BENCH_CMAC)) { bench_cmac(0); #ifdef BENCH_DEVID bench_cmac(1); #endif } #endif #ifndef NO_HMAC #ifndef NO_MD5 if (bench_all || (bench_mac_algs & BENCH_HMAC_MD5)) { #ifndef NO_SW_BENCH bench_hmac_md5(0); #endif #ifdef BENCH_DEVID bench_hmac_md5(1); #endif } #endif #ifndef NO_SHA if (bench_all || (bench_mac_algs & BENCH_HMAC_SHA)) { #ifndef NO_SW_BENCH bench_hmac_sha(0); #endif #ifdef BENCH_DEVID bench_hmac_sha(1); #endif } #endif #ifdef WOLFSSL_SHA224 if (bench_all || (bench_mac_algs & BENCH_HMAC_SHA224)) { #ifndef NO_SW_BENCH bench_hmac_sha224(0); #endif #ifdef BENCH_DEVID bench_hmac_sha224(1); #endif } #endif #ifndef NO_SHA256 if (bench_all || (bench_mac_algs & BENCH_HMAC_SHA256)) { #ifndef NO_SW_BENCH bench_hmac_sha256(0); #endif #ifdef BENCH_DEVID bench_hmac_sha256(1); #endif } #endif #ifdef WOLFSSL_SHA384 if (bench_all || (bench_mac_algs & BENCH_HMAC_SHA384)) { #ifndef NO_SW_BENCH bench_hmac_sha384(0); #endif #ifdef BENCH_DEVID bench_hmac_sha384(1); #endif } #endif #ifdef WOLFSSL_SHA512 if (bench_all || (bench_mac_algs & BENCH_HMAC_SHA512)) { #ifndef NO_SW_BENCH bench_hmac_sha512(0); #endif #ifdef BENCH_DEVID bench_hmac_sha512(1); #endif } #endif #ifndef NO_PWDBASED if (bench_all || (bench_mac_algs & BENCH_PBKDF2)) { bench_pbkdf2(); } #endif #endif /* NO_HMAC */ #ifdef WOLFSSL_SIPHASH if (bench_all || (bench_mac_algs & BENCH_SIPHASH)) { bench_siphash(); } #endif #ifdef WC_SRTP_KDF if (bench_all || (bench_kdf_algs & BENCH_SRTP_KDF)) { bench_srtpkdf(); } #endif #ifdef HAVE_SCRYPT if (bench_all || (bench_other_algs & BENCH_SCRYPT)) bench_scrypt(); #endif #ifndef NO_RSA #ifndef HAVE_RENESAS_SYNC #ifdef WOLFSSL_KEY_GEN if (bench_all || (bench_asym_algs & BENCH_RSA_KEYGEN)) { #ifndef NO_SW_BENCH if (((word32)bench_asym_algs == 0xFFFFFFFFU) || (bench_asym_algs & BENCH_RSA_SZ) == 0) { bench_rsaKeyGen(0); } else { bench_rsaKeyGen_size(0, bench_size); } #endif #ifdef BENCH_DEVID if (bench_asym_algs & BENCH_RSA_SZ) { bench_rsaKeyGen_size(1, bench_size); } else { bench_rsaKeyGen(1); } #endif } #endif if (bench_all || (bench_asym_algs & BENCH_RSA)) { #ifndef NO_SW_BENCH bench_rsa(0); #endif #ifdef BENCH_DEVID bench_rsa(1); #endif } #ifdef WOLFSSL_KEY_GEN if (bench_asym_algs & BENCH_RSA_SZ) { #ifndef NO_SW_BENCH bench_rsa_key(0, bench_size); #endif #ifdef BENCH_DEVID bench_rsa_key(1, bench_size); #endif } #endif #endif #endif #ifndef NO_DH if (bench_all || (bench_asym_algs & BENCH_DH)) { #ifndef NO_SW_BENCH bench_dh(0); #endif #ifdef BENCH_DEVID bench_dh(1); #endif } #endif #ifdef WOLFSSL_HAVE_KYBER if (bench_all || (bench_pq_asym_algs & BENCH_KYBER)) { #ifndef WOLFSSL_NO_ML_KEM #ifdef WOLFSSL_KYBER512 if (bench_all || (bench_pq_asym_algs & BENCH_KYBER512)) { bench_kyber(WC_ML_KEM_512); } #endif #ifdef WOLFSSL_KYBER768 if (bench_all || (bench_pq_asym_algs & BENCH_KYBER768)) { bench_kyber(WC_ML_KEM_768); } #endif #ifdef WOLFSSL_KYBER1024 if (bench_all || (bench_pq_asym_algs & BENCH_KYBER1024)) { bench_kyber(WC_ML_KEM_1024); } #endif #endif #ifdef WOLFSSL_KYBER_ORIGINAL #ifdef WOLFSSL_KYBER512 if (bench_all || (bench_pq_asym_algs & BENCH_KYBER512)) { bench_kyber(KYBER512); } #endif #ifdef WOLFSSL_KYBER768 if (bench_all || (bench_pq_asym_algs & BENCH_KYBER768)) { bench_kyber(KYBER768); } #endif #ifdef WOLFSSL_KYBER1024 if (bench_all || (bench_pq_asym_algs & BENCH_KYBER1024)) { bench_kyber(KYBER1024); } #endif #endif } #endif #if defined(WOLFSSL_HAVE_LMS) && !defined(WOLFSSL_LMS_VERIFY_ONLY) if (bench_all || (bench_pq_hash_sig_algs & BENCH_LMS_HSS)) { bench_lms(); } #endif /* if defined(WOLFSSL_HAVE_LMS) && !defined(WOLFSSL_LMS_VERIFY_ONLY) */ #if defined(WOLFSSL_HAVE_XMSS) && !defined(WOLFSSL_XMSS_VERIFY_ONLY) if (bench_all) { bench_pq_hash_sig_algs |= BENCH_XMSS_XMSSMT; } #ifndef NO_SHA256 if (bench_pq_hash_sig_algs & BENCH_XMSS_XMSSMT_SHA256) { bench_xmss(WC_HASH_TYPE_SHA256); } #endif #ifdef WOLFSSL_SHA512 if (bench_pq_hash_sig_algs & BENCH_XMSS_XMSSMT_SHA512) { bench_xmss(WC_HASH_TYPE_SHA512); } #endif #ifdef WOLFSSL_SHAKE128 if (bench_pq_hash_sig_algs & BENCH_XMSS_XMSSMT_SHAKE128) { bench_xmss(WC_HASH_TYPE_SHAKE128); } #endif #ifdef WOLFSSL_SHAKE256 if (bench_pq_hash_sig_algs & BENCH_XMSS_XMSSMT_SHAKE256) { bench_xmss(WC_HASH_TYPE_SHAKE256); } #endif #endif /* if defined(WOLFSSL_HAVE_XMSS) && !defined(WOLFSSL_XMSS_VERIFY_ONLY) */ #ifdef HAVE_ECC if (bench_all || (bench_asym_algs & BENCH_ECC_MAKEKEY) || (bench_asym_algs & BENCH_ECC) || (bench_asym_algs & BENCH_ECC_ALL) || (bench_asym_algs & BENCH_ECC_ENCRYPT)) { if (bench_asym_algs & BENCH_ECC_ALL) { #if defined(HAVE_FIPS) || defined(HAVE_SELFTEST) printf("%snot supported in FIPS mode (no ending enum value)\n", err_prefix); #else int curveId = (int)ECC_SECP192R1; /* set make key and encrypt */ bench_asym_algs |= BENCH_ECC_MAKEKEY | BENCH_ECC | BENCH_ECC_ENCRYPT; if (csv_format != 1) { printf("\n%sECC Benchmarks:\n", info_prefix); } do { #ifdef WOLFCRYPT_HAVE_SAKKE /* SAKKE is not usable with ECDH/ECDSA. Run separate test. */ if (curveId == ECC_SAKKE_1) { curveId++; continue; } #endif if (wc_ecc_get_curve_size_from_id(curveId) != WC_NO_ERR_TRACE(ECC_BAD_ARG_E)) { bench_ecc_curve(curveId); if (csv_format != 1) { printf("\n"); } } curveId++; } while (curveId != (int)ECC_CURVE_MAX); #endif } else if (bench_asym_algs & BENCH_ECC_P256) { bench_ecc_curve((int)ECC_SECP256R1); } else if (bench_asym_algs & BENCH_ECC_P384) { bench_ecc_curve((int)ECC_SECP384R1); } else if (bench_asym_algs & BENCH_ECC_P521) { bench_ecc_curve((int)ECC_SECP521R1); } else { #ifndef NO_ECC256 bench_ecc_curve((int)ECC_SECP256R1); #elif defined(HAVE_ECC384) bench_ecc_curve((int)ECC_SECP384R1); #elif defined(HAVE_ECC521) bench_ecc_curve((int)ECC_SECP521R1); #endif #ifdef HAVE_ECC_BRAINPOOL bench_ecc_curve((int)ECC_BRAINPOOLP256R1); #endif } } #endif #ifdef WOLFSSL_SM2 if (bench_all || (bench_asym_algs & BENCH_SM2)) { bench_sm2(0); } #endif #ifdef HAVE_CURVE25519 if (bench_all || (bench_asym_algs & BENCH_CURVE25519_KEYGEN)) { bench_curve25519KeyGen(0); #ifdef BENCH_DEVID bench_curve25519KeyGen(1); #endif } #ifdef HAVE_CURVE25519_SHARED_SECRET if (bench_all || (bench_asym_algs & BENCH_CURVE25519_KA)) { bench_curve25519KeyAgree(0); #ifdef BENCH_DEVID bench_curve25519KeyAgree(1); #endif } #endif #endif #ifdef HAVE_ED25519 if (bench_all || (bench_asym_algs & BENCH_ED25519_KEYGEN)) bench_ed25519KeyGen(); if (bench_all || (bench_asym_algs & BENCH_ED25519_SIGN)) bench_ed25519KeySign(); #endif #ifdef HAVE_CURVE448 if (bench_all || (bench_asym_algs & BENCH_CURVE448_KEYGEN)) bench_curve448KeyGen(); #ifdef HAVE_CURVE448_SHARED_SECRET if (bench_all || (bench_asym_algs & BENCH_CURVE448_KA)) bench_curve448KeyAgree(); #endif #endif #ifdef HAVE_ED448 if (bench_all || (bench_asym_algs & BENCH_ED448_KEYGEN)) bench_ed448KeyGen(); if (bench_all || (bench_asym_algs & BENCH_ED448_SIGN)) bench_ed448KeySign(); #endif #ifdef WOLFCRYPT_HAVE_ECCSI #ifdef WOLFCRYPT_ECCSI_KMS if (bench_all || (bench_asym_algs & BENCH_ECCSI_KEYGEN)) { bench_eccsiKeyGen(); } if (bench_all || (bench_asym_algs & BENCH_ECCSI_PAIRGEN)) { bench_eccsiPairGen(); } #endif #ifdef WOLFCRYPT_ECCSI_CLIENT if (bench_all || (bench_asym_algs & BENCH_ECCSI_VALIDATE)) { bench_eccsiValidate(); } if (bench_all || (bench_asym_algs & BENCH_ECCSI)) { bench_eccsi(); } #endif #endif #ifdef WOLFCRYPT_HAVE_SAKKE #ifdef WOLFCRYPT_SAKKE_KMS if (bench_all || (bench_asym_algs & BENCH_SAKKE_KEYGEN)) { bench_sakkeKeyGen(); } if (bench_all || (bench_asym_algs & BENCH_SAKKE_RSKGEN)) { bench_sakkeRskGen(); } #endif #ifdef WOLFCRYPT_SAKKE_CLIENT if (bench_all || (bench_asym_algs & BENCH_SAKKE_VALIDATE)) { bench_sakkeValidate(); } if (bench_all || (bench_asym_algs & BENCH_SAKKE)) { bench_sakke(); } #endif #endif #ifdef HAVE_FALCON if (bench_all || (bench_pq_asym_algs & BENCH_FALCON_LEVEL1_SIGN)) bench_falconKeySign(1); if (bench_all || (bench_pq_asym_algs & BENCH_FALCON_LEVEL5_SIGN)) bench_falconKeySign(5); #endif #ifdef HAVE_DILITHIUM #ifndef WOLFSSL_NO_ML_DSA_44 if (bench_all || (bench_pq_asym_algs & BENCH_DILITHIUM_LEVEL2_SIGN)) bench_dilithiumKeySign(2); #endif #ifndef WOLFSSL_NO_ML_DSA_65 if (bench_all || (bench_pq_asym_algs & BENCH_DILITHIUM_LEVEL3_SIGN)) bench_dilithiumKeySign(3); #endif #ifndef WOLFSSL_NO_ML_DSA_87 if (bench_all || (bench_pq_asym_algs & BENCH_DILITHIUM_LEVEL5_SIGN)) bench_dilithiumKeySign(5); #endif #endif #ifdef HAVE_SPHINCS if (bench_all || (bench_pq_asym_algs2 & BENCH_SPHINCS_FAST_LEVEL1_SIGN)) bench_sphincsKeySign(1, FAST_VARIANT); if (bench_all || (bench_pq_asym_algs2 & BENCH_SPHINCS_FAST_LEVEL3_SIGN)) bench_sphincsKeySign(3, FAST_VARIANT); if (bench_all || (bench_pq_asym_algs2 & BENCH_SPHINCS_FAST_LEVEL5_SIGN)) bench_sphincsKeySign(5, FAST_VARIANT); if (bench_all || (bench_pq_asym_algs2 & BENCH_SPHINCS_SMALL_LEVEL1_SIGN)) bench_sphincsKeySign(1, SMALL_VARIANT); if (bench_all || (bench_pq_asym_algs2 & BENCH_SPHINCS_SMALL_LEVEL3_SIGN)) bench_sphincsKeySign(3, SMALL_VARIANT); if (bench_all || (bench_pq_asym_algs2 & BENCH_SPHINCS_SMALL_LEVEL5_SIGN)) bench_sphincsKeySign(5, SMALL_VARIANT); #endif exit: /* free benchmark buffers */ XFREE(bench_plain, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); XFREE(bench_cipher, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); #ifdef WOLFSSL_ASYNC_CRYPT XFREE(bench_key, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); XFREE(bench_iv, HEAP_HINT, DYNAMIC_TYPE_WOLF_BIGINT); #endif #if defined(HAVE_LOCAL_RNG) wc_FreeRng(&gRng); #endif /* cleanup the thread if fixed point cache is enabled and have thread local */ #if defined(HAVE_THREAD_LS) && defined(HAVE_ECC) && defined(FP_ECC) wc_ecc_fp_free(); #endif (void)bench_cipher_algs; (void)bench_digest_algs; (void)bench_mac_algs; (void)bench_asym_algs; (void)bench_other_algs; (void)bench_pq_asym_algs; (void)bench_pq_asym_algs2; return NULL; } #if defined(HAVE_CPUID) && defined(WOLFSSL_TEST_STATIC_BUILD) static void print_cpu_features(void) { word32 cpuid_flags = cpuid_get_flags(); printf("CPU: "); #ifdef HAVE_CPUID_INTEL printf("Intel"); #ifdef WOLFSSL_X86_64_BUILD printf(" x86_64"); #else printf(" x86"); #endif printf(" -"); if (IS_INTEL_AVX1(cpuid_flags)) printf(" avx1"); if (IS_INTEL_AVX2(cpuid_flags)) printf(" avx2"); if (IS_INTEL_RDRAND(cpuid_flags)) printf(" rdrand"); if (IS_INTEL_RDSEED(cpuid_flags)) printf(" rdseed"); if (IS_INTEL_BMI2(cpuid_flags)) printf(" bmi2"); if (IS_INTEL_AESNI(cpuid_flags)) printf(" aesni"); if (IS_INTEL_ADX(cpuid_flags)) printf(" adx"); if (IS_INTEL_MOVBE(cpuid_flags)) printf(" movbe"); if (IS_INTEL_BMI1(cpuid_flags)) printf(" bmi1"); if (IS_INTEL_SHA(cpuid_flags)) printf(" sha"); #endif #ifdef __aarch64__ printf("Aarch64 -"); if (IS_AARCH64_AES(cpuid_flags)) printf(" aes"); if (IS_AARCH64_PMULL(cpuid_flags)) printf(" pmull"); if (IS_AARCH64_SHA256(cpuid_flags)) printf(" sha256"); if (IS_AARCH64_SHA512(cpuid_flags)) printf(" sha512"); if (IS_AARCH64_RDM(cpuid_flags)) printf(" rdm"); if (IS_AARCH64_SHA3(cpuid_flags)) printf(" sha3"); if (IS_AARCH64_SM3(cpuid_flags)) printf(" sm3"); if (IS_AARCH64_SM4(cpuid_flags)) printf(" sm4"); #endif printf("\n"); } #endif int benchmark_init(void) { int ret = 0; benchmark_static_init(0); #ifdef WOLFSSL_STATIC_MEMORY ret = wc_LoadStaticMemory(&HEAP_HINT, gBenchMemory, sizeof(gBenchMemory), WOLFMEM_GENERAL, 1); if (ret != 0) { printf("%sunable to load static memory %d\n", err_prefix, ret); } #endif /* WOLFSSL_STATIC_MEMORY */ if ((ret = wolfCrypt_Init()) != 0) { printf("%swolfCrypt_Init failed %d\n", err_prefix, ret); return EXIT_FAILURE; } #if defined(HAVE_CPUID) && defined(WOLFSSL_TEST_STATIC_BUILD) print_cpu_features(); #endif #ifdef HAVE_WC_INTROSPECTION printf("Math: %s\n", wc_GetMathInfo()); #endif #ifdef WOLFSSL_SECO_CAAM if (wc_SECO_OpenHSM(SECO_KEY_STORE_ID, SECO_BENCHMARK_NONCE, SECO_MAX_UPDATES, CAAM_KEYSTORE_CREATE) != 0) { printf("%sunable to open HSM\n", err_prefix); wolfCrypt_Cleanup(); return EXIT_FAILURE; } #endif #ifdef WC_RNG_SEED_CB wc_SetSeed_Cb(wc_GenerateSeed); #endif bench_stats_init(); #if defined(DEBUG_WOLFSSL) && !defined(HAVE_VALGRIND) wolfSSL_Debugging_ON(); #endif printf("%swolfCrypt Benchmark (block bytes %d, min " FLT_FMT_PREC " sec each)\n", info_prefix, (int)bench_size, FLT_FMT_PREC_ARGS(1, BENCH_MIN_RUNTIME_SEC)); #ifndef GENERATE_MACHINE_PARSEABLE_REPORT if (csv_format == 1) { printf("This format allows you to easily copy " "the output to a csv file."); } #endif #ifdef HAVE_WNR ret = wc_InitNetRandom(wnrConfigFile, NULL, 5000); if (ret != 0) { printf("%sWhitewood netRandom config init failed %d\n", err_prefix, ret); } #endif /* HAVE_WNR */ return ret; } int benchmark_free(void) { int ret; #ifdef WC_BENCH_TRACK_STATS if (gPrintStats || devId != INVALID_DEVID) { bench_stats_print(); } #endif bench_stats_free(); #ifdef WOLF_CRYPTO_CB #ifdef HAVE_INTEL_QA_SYNC wc_CryptoCb_CleanupIntelQa(&devId); #endif #ifdef HAVE_CAVIUM_OCTEON_SYNC wc_CryptoCb_CleanupOcteon(&devId); #endif #ifdef HAVE_RENESAS_SYNC wc_CryptoCb_CleanupRenesasCmn(&devId); #endif #endif #ifdef WOLFSSL_ASYNC_CRYPT /* free event queue */ wolfEventQueue_Free(&eventQueue); /* close device */ wolfAsync_DevClose(&devId); #endif #ifdef HAVE_WNR ret = wc_FreeNetRandom(); if (ret < 0) { printf("%sFailed to free netRandom context %d\n", err_prefix, ret); } #endif #ifdef WOLFSSL_SECO_CAAM if (wc_SECO_CloseHSM() != 0) { printf("%sError closing down the key store\n", err_prefix); } #endif if ((ret = wolfCrypt_Cleanup()) != 0) { printf("%serror %d with wolfCrypt_Cleanup\n", err_prefix, ret); } return ret; } #if defined(WC_ENABLE_BENCH_THREADING) && !defined(WOLFSSL_ASYNC_CRYPT) static THREAD_RETURN WOLFSSL_THREAD run_bench(void* args) { benchmark_test(args); EXIT_TEST(0); } static int benchmark_test_threaded(void* args) { int i; printf("%sThreads: %d\n", info_prefix, g_threadCount); g_threadData = (ThreadData*)XMALLOC(sizeof(ThreadData) * g_threadCount, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if (g_threadData == NULL) { printf("%sThread data alloc failed!\n", err_prefix); return EXIT_FAILURE; } for (i = 0; i < g_threadCount; i++) { THREAD_CHECK_RET(pthread_create(&g_threadData[i].thread_id, NULL, run_bench, args)); } for (i = 0; i < g_threadCount; i++) { THREAD_CHECK_RET(pthread_join(g_threadData[i].thread_id, 0)); } printf("\n"); bench_stats_print(); return 0; } #endif /* so embedded projects can pull in tests on their own */ #ifdef HAVE_STACK_SIZE THREAD_RETURN WOLFSSL_THREAD benchmark_test(void* args) #else int benchmark_test(void *args) #endif { int ret; (void)args; #ifdef HAVE_FIPS wolfCrypt_SetCb_fips(myFipsCb); #endif ret = benchmark_init(); if (ret != 0) EXIT_TEST(ret); #if defined(WOLFSSL_ASYNC_CRYPT) && !defined(WC_NO_ASYNC_THREADING) { /* See the documentation when turning on WOLFSSL_ASYNC_CRYPT ** ** Chapter Two, Build Options: ** ** https://www.wolfssl.com/documentation/manuals/wolfssl/wolfSSL-Manual.pdf ** ** asynchronous cryptography using hardware based adapters such as ** the Intel QuickAssist or Marvell (Cavium) Nitrox V. */ int i; if (g_threadCount == 0) { #ifdef WC_ASYNC_BENCH_THREAD_COUNT g_threadCount = WC_ASYNC_BENCH_THREAD_COUNT; #else g_threadCount = wc_AsyncGetNumberOfCpus(); if (g_threadCount > 0) { g_threadCount /= 2; /* use physical core count */ } #endif } if (g_threadCount <= 0) { g_threadCount = 1; } printf("%sCPUs: %d\n", info_prefix, g_threadCount); g_threadData = (ThreadData*)XMALLOC(sizeof(ThreadData) * g_threadCount, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if (g_threadData == NULL) { printf("%sThread data alloc failed!\n", err_prefix); EXIT_TEST(EXIT_FAILURE); } /* Create threads */ for (i = 0; i < g_threadCount; i++) { ret = wc_AsyncThreadCreate(&g_threadData[i].thread_id, benchmarks_do, &g_threadData[i]); if (ret != 0) { printf("%sError creating benchmark thread %d\n", err_prefix, ret); EXIT_TEST(EXIT_FAILURE); } } /* Start threads */ for (i = 0; i < g_threadCount; i++) { wc_AsyncThreadJoin(&g_threadData[i].thread_id); } XFREE(g_threadData, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); } #else benchmarks_do(NULL); #endif SLEEP_ON_ERROR(1); printf("%sBenchmark complete\n", info_prefix); ret = benchmark_free(); EXIT_TEST(ret); } #ifndef WC_NO_RNG void bench_rng(void) { int ret, i, count; double start; long pos, len, remain; WC_RNG myrng; DECLARE_MULTI_VALUE_STATS_VARS() #ifndef HAVE_FIPS ret = wc_InitRng_ex(&myrng, HEAP_HINT, devId); #else ret = wc_InitRng(&myrng); #endif if (ret < 0) { printf("InitRNG failed %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { /* Split request to handle large RNG request */ pos = 0; remain = (int)bench_size; while (remain > 0) { len = remain; if (len > RNG_MAX_BLOCK_LEN) len = RNG_MAX_BLOCK_LEN; ret = wc_RNG_GenerateBlock(&myrng, &bench_plain[pos], (word32)len); if (ret < 0) goto exit_rng; remain -= len; pos += len; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_rng: bench_stats_sym_finish("RNG", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_FreeRng(&myrng); } #endif /* WC_NO_RNG */ #ifndef NO_AES #ifdef HAVE_AES_CBC static void bench_aescbc_internal(int useDeviceID, const byte* key, word32 keySz, const byte* iv, const char* encLabel, const char* decLabel) { const byte* in = bench_cipher; byte* out = bench_plain; int ret = 0, i, count = 0, times, pending = 0; WC_DECLARE_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); double start; DECLARE_MULTI_VALUE_STATS_VARS() WC_CALLOC_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_AesInit(enc[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID)) != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); goto exit; } ret = wc_AesSetKey(enc[i], key, keySz, iv, AES_ENCRYPTION); if (ret != 0) { printf("AesSetKey failed, ret = %d\n", ret); goto exit; } } if (cipher_same_buffer) { in = bench_plain; } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, numBlocks, &pending)) { ret = wc_AesCbcEncrypt(enc[i], out, in, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_aes_enc; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_enc: bench_stats_sym_finish(encLabel, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret < 0) { goto exit; } #ifdef HAVE_AES_DECRYPT /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_AesSetKey(enc[i], key, keySz, iv, AES_DECRYPTION); if (ret != 0) { printf("AesSetKey failed, ret = %d\n", ret); goto exit; } } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, numBlocks, &pending)) { ret = wc_AesCbcDecrypt(enc[i], out, in, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_aes_dec; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_dec: bench_stats_sym_finish(decLabel, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_AES_DECRYPT */ (void)decLabel; exit: if (WC_ARRAY_OK(enc)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_AesFree(enc[i]); } WC_FREE_ARRAY(enc, BENCH_MAX_PENDING, HEAP_HINT); } } void bench_aescbc(int useDeviceID) { #ifdef WOLFSSL_AES_128 #ifdef HAVE_RENESAS_SYNC bench_aescbc_internal(useDeviceID, bench_key1, 16, bench_iv, "AES-128-CBC-enc", "AES-128-CBC-dec"); #else bench_aescbc_internal(useDeviceID, bench_key, 16, bench_iv, "AES-128-CBC-enc", "AES-128-CBC-dec"); #endif #endif #ifdef WOLFSSL_AES_192 bench_aescbc_internal(useDeviceID, bench_key, 24, bench_iv, "AES-192-CBC-enc", "AES-192-CBC-dec"); #endif #ifdef WOLFSSL_AES_256 #ifdef HAVE_RENESAS_SYNC bench_aescbc_internal(useDeviceID, bench_key2, 32, bench_iv, "AES-256-CBC-enc", "AES-256-CBC-dec"); #else bench_aescbc_internal(useDeviceID, bench_key, 32, bench_iv, "AES-256-CBC-enc", "AES-256-CBC-dec"); #endif #endif } #endif /* HAVE_AES_CBC */ #ifdef HAVE_AESGCM static void bench_aesgcm_internal(int useDeviceID, const byte* key, word32 keySz, const byte* iv, word32 ivSz, const char* encLabel, const char* decLabel) { int ret = 0, i, count = 0, times, pending = 0; WC_DECLARE_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #ifdef HAVE_AES_DECRYPT WC_DECLARE_ARRAY(dec, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #endif double start; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_DECLARE_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); WC_CALLOC_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #ifdef HAVE_AES_DECRYPT WC_CALLOC_ARRAY(dec, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #endif XMEMSET(bench_additional, 0, AES_AUTH_ADD_SZ); XMEMSET(bench_tag, 0, AES_AUTH_TAG_SZ); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_AesInit(enc[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID)) != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); goto exit; } ret = wc_AesGcmSetKey(enc[i], key, keySz); if (ret != 0) { printf("AesGcmSetKey failed, ret = %d\n", ret); goto exit; } } /* GCM uses same routine in backend for both encrypt and decrypt */ bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, numBlocks, &pending)) { ret = wc_AesGcmEncrypt(enc[i], bench_cipher, bench_plain, bench_size, iv, ivSz, bench_tag, AES_AUTH_TAG_SZ, bench_additional, aesAuthAddSz); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_aes_gcm; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_gcm: bench_stats_sym_finish(encLabel, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #ifdef HAVE_AES_DECRYPT RESET_MULTI_VALUE_STATS_VARS(); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_AesInit(dec[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID)) != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); goto exit; } ret = wc_AesGcmSetKey(dec[i], key, keySz); if (ret != 0) { printf("AesGcmSetKey failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(dec[i]), 0, ×, numBlocks, &pending)) { ret = wc_AesGcmDecrypt(dec[i], bench_plain, bench_cipher, bench_size, iv, ivSz, bench_tag, AES_AUTH_TAG_SZ, bench_additional, aesAuthAddSz); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(dec[i]), 0, ×, &pending)) { goto exit_aes_gcm_dec; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_gcm_dec: bench_stats_sym_finish(decLabel, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_AES_DECRYPT */ (void)decLabel; exit: if (ret < 0) { printf("bench_aesgcm failed: %d\n", ret); } #ifdef HAVE_AES_DECRYPT if (WC_ARRAY_OK(dec)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_AesFree(dec[i]); } WC_FREE_ARRAY(dec, BENCH_MAX_PENDING, HEAP_HINT); } #endif if (WC_ARRAY_OK(enc)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_AesFree(enc[i]); } WC_FREE_ARRAY(enc, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_VAR(bench_additional, HEAP_HINT); WC_FREE_VAR(bench_tag, HEAP_HINT); } #ifdef WOLFSSL_AESGCM_STREAM static void bench_aesgcm_stream_internal(int useDeviceID, const byte* key, word32 keySz, const byte* iv, word32 ivSz, const char* encLabel, const char* decLabel) { int ret = 0, i, count = 0, times, pending = 0; WC_DECLARE_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #ifdef HAVE_AES_DECRYPT WC_DECLARE_ARRAY(dec, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #endif double start; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_DECLARE_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); WC_CALLOC_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #ifdef HAVE_AES_DECRYPT WC_CALLOC_ARRAY(dec, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); #endif XMEMSET(bench_additional, 0, AES_AUTH_ADD_SZ); XMEMSET(bench_tag, 0, AES_AUTH_TAG_SZ); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_AesInit(enc[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID)) != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); goto exit; } ret = wc_AesGcmSetKey(enc[i], key, keySz); if (ret != 0) { printf("AesGcmSetKey failed, ret = %d\n", ret); goto exit; } } /* GCM uses same routine in backend for both encrypt and decrypt */ bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, numBlocks, &pending)) { ret = wc_AesGcmEncryptInit(enc[i], NULL, 0, iv, ivSz); if (ret == 0) { ret = wc_AesGcmEncryptUpdate(enc[i], bench_cipher, bench_plain, bench_size, bench_additional, aesAuthAddSz); } if (ret == 0) { ret = wc_AesGcmEncryptFinal(enc[i], bench_tag, AES_AUTH_TAG_SZ); } if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_aes_gcm; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_gcm: bench_stats_sym_finish(encLabel, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #ifdef HAVE_AES_DECRYPT /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_AesInit(dec[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID)) != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); goto exit; } ret = wc_AesGcmSetKey(dec[i], key, keySz); if (ret != 0) { printf("AesGcmSetKey failed, ret = %d\n", ret); goto exit; } } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(dec[i]), 0, ×, numBlocks, &pending)) { ret = wc_AesGcmDecryptInit(enc[i], NULL, 0, iv, ivSz); if (ret == 0) { ret = wc_AesGcmDecryptUpdate(enc[i], bench_plain, bench_cipher, bench_size, bench_additional, aesAuthAddSz); } if (ret == 0) { ret = wc_AesGcmDecryptFinal(enc[i], bench_tag, AES_AUTH_TAG_SZ); } if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(dec[i]), 0, ×, &pending)) { goto exit_aes_gcm_dec; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_gcm_dec: bench_stats_sym_finish(decLabel, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_AES_DECRYPT */ (void)decLabel; exit: if (ret < 0) { printf("bench_aesgcm failed: %d\n", ret); } #ifdef HAVE_AES_DECRYPT if (WC_ARRAY_OK(dec)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_AesFree(dec[i]); } WC_FREE_ARRAY(dec, BENCH_MAX_PENDING, HEAP_HINT); } #endif if (WC_ARRAY_OK(enc)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_AesFree(enc[i]); } WC_FREE_ARRAY(enc, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_VAR(bench_additional, HEAP_HINT); WC_FREE_VAR(bench_tag, HEAP_HINT); } #endif void bench_aesgcm(int useDeviceID) { #define AES_GCM_STRING(n, dir) AES_AAD_STRING("AES-" #n "-GCM-" #dir) #if defined(WOLFSSL_AES_128) && !defined(WOLFSSL_AFALG_XILINX_AES) \ && !defined(WOLFSSL_XILINX_CRYPT) \ || defined(WOLFSSL_XILINX_CRYPT_VERSAL) #ifdef HAVE_RENESAS_SYNC bench_aesgcm_internal(useDeviceID, bench_key1, 16, bench_iv, 12, AES_GCM_STRING(128, enc), AES_GCM_STRING(128, dec)); #else bench_aesgcm_internal(useDeviceID, bench_key, 16, bench_iv, 12, AES_GCM_STRING(128, enc), AES_GCM_STRING(128, dec)); #endif #endif #if defined(WOLFSSL_AES_192) && !defined(WOLFSSL_AFALG_XILINX_AES) \ && !defined(WOLFSSL_XILINX_CRYPT) bench_aesgcm_internal(useDeviceID, bench_key, 24, bench_iv, 12, AES_GCM_STRING(192, enc), AES_GCM_STRING(192, dec)); #endif #ifdef WOLFSSL_AES_256 #ifdef HAVE_RENESAS_SYNC bench_aesgcm_internal(useDeviceID, bench_key2, 32, bench_iv, 12, AES_GCM_STRING(256, enc), AES_GCM_STRING(256, dec)); #else bench_aesgcm_internal(useDeviceID, bench_key, 32, bench_iv, 12, AES_GCM_STRING(256, enc), AES_GCM_STRING(256, dec)); #endif #endif #ifdef WOLFSSL_AESGCM_STREAM #undef AES_GCM_STRING #define AES_GCM_STRING(n, dir) AES_AAD_STRING("AES-" #n "-GCM-STREAM-" #dir) #if defined(WOLFSSL_AES_128) && !defined(WOLFSSL_AFALG_XILINX_AES) \ && !defined(WOLFSSL_XILINX_CRYPT) \ || defined(WOLFSSL_XILINX_CRYPT_VERSAL) bench_aesgcm_stream_internal(useDeviceID, bench_key, 16, bench_iv, 12, AES_GCM_STRING(128, enc), AES_GCM_STRING(128, dec)); #endif #if defined(WOLFSSL_AES_192) && !defined(WOLFSSL_AFALG_XILINX_AES) \ && !defined(WOLFSSL_XILINX_CRYPT) bench_aesgcm_stream_internal(useDeviceID, bench_key, 24, bench_iv, 12, AES_GCM_STRING(192, enc), AES_GCM_STRING(192, dec)); #endif #ifdef WOLFSSL_AES_256 bench_aesgcm_stream_internal(useDeviceID, bench_key, 32, bench_iv, 12, AES_GCM_STRING(256, enc), AES_GCM_STRING(256, dec)); #endif #endif /* WOLFSSL_AESGCM_STREAM */ #undef AES_GCM_STRING } /* GMAC */ void bench_gmac(int useDeviceID) { int ret, count = 0; Gmac gmac; double start; byte tag[AES_AUTH_TAG_SZ]; DECLARE_MULTI_VALUE_STATS_VARS() /* determine GCM GHASH method */ #ifdef GCM_SMALL const char* gmacStr = "GMAC Small"; #elif defined(GCM_TABLE) const char* gmacStr = "GMAC Table"; #elif defined(GCM_TABLE_4BIT) const char* gmacStr = "GMAC Table 4-bit"; #elif defined(GCM_WORD32) const char* gmacStr = "GMAC Word32"; #else const char* gmacStr = "GMAC Default"; #endif /* Implementations of /Dev/Crypto will error out if the size of Auth in is */ /* greater than the system's page size */ #if defined(WOLFSSL_DEVCRYPTO) && defined(WOLFSSL_AUTHSZ_BENCH) bench_size = WOLFSSL_AUTHSZ_BENCH; #elif defined(WOLFSSL_DEVCRYPTO) bench_size = sysconf(_SC_PAGESIZE); #endif /* init keys */ XMEMSET(bench_plain, 0, bench_size); XMEMSET(tag, 0, sizeof(tag)); XMEMSET(&gmac, 0, sizeof(Gmac)); /* clear context */ (void)wc_AesInit((Aes*)&gmac, HEAP_HINT, useDeviceID ? devId: INVALID_DEVID); #ifdef HAVE_RENESAS_SYNC wc_GmacSetKey(&gmac, bench_key1, 16); #else wc_GmacSetKey(&gmac, bench_key, 16); #endif bench_stats_start(&count, &start); do { ret = wc_GmacUpdate(&gmac, bench_iv, 12, bench_plain, bench_size, tag, sizeof(tag)); count++; RECORD_MULTI_VALUE_STATS(); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); wc_AesFree((Aes*)&gmac); bench_stats_sym_finish(gmacStr, 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #if defined(WOLFSSL_DEVCRYPTO) if (ret != 0 && (bench_size > sysconf(_SC_PAGESIZE))) { printf("authIn Buffer Size[%d] greater than System Page Size[%ld]\n", bench_size, sysconf(_SC_PAGESIZE)); } bench_size = BENCH_SIZE; #endif } #endif /* HAVE_AESGCM */ #ifdef HAVE_AES_ECB static void bench_aesecb_internal(int useDeviceID, const byte* key, word32 keySz, const char* encLabel, const char* decLabel) { int ret = 0, i, count = 0, times, pending = 0; WC_DECLARE_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); double start; DECLARE_MULTI_VALUE_STATS_VARS() #ifdef HAVE_FIPS const word32 benchSz = WC_AES_BLOCK_SIZE; #else const word32 benchSz = bench_size; #endif WC_CALLOC_ARRAY(enc, Aes, BENCH_MAX_PENDING, sizeof(Aes), HEAP_HINT); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_AesInit(enc[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID)) != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); goto exit; } ret = wc_AesSetKey(enc[i], key, keySz, bench_iv, AES_ENCRYPTION); if (ret != 0) { printf("AesSetKey failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { int outer_loop_limit = (int)((bench_size / benchSz) * 10) + 1; for (times = 0; times < outer_loop_limit /* numBlocks */ || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, outer_loop_limit, &pending)) { #ifdef HAVE_FIPS wc_AesEncryptDirect(enc[i], bench_cipher, bench_plain); #else wc_AesEcbEncrypt(enc[i], bench_cipher, bench_plain, benchSz); #endif ret = 0; if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_aes_enc; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_enc: bench_stats_sym_finish(encLabel, useDeviceID, count, benchSz, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #ifdef HAVE_AES_DECRYPT /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_AesSetKey(enc[i], key, keySz, bench_iv, AES_DECRYPTION); if (ret != 0) { printf("AesSetKey failed, ret = %d\n", ret); goto exit; } } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { int outer_loop_limit = (int)(10 * (bench_size / benchSz)) + 1; for (times = 0; times < outer_loop_limit || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, outer_loop_limit, &pending)) { #ifdef HAVE_FIPS wc_AesDecryptDirect(enc[i], bench_plain, bench_cipher); #else wc_AesEcbDecrypt(enc[i], bench_plain, bench_cipher, benchSz); #endif ret = 0; if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_aes_dec; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_aes_dec: bench_stats_sym_finish(decLabel, useDeviceID, count, benchSz, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_AES_DECRYPT */ (void)decLabel; exit: if (WC_ARRAY_OK(enc)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_AesFree(enc[i]); } WC_FREE_ARRAY(enc, BENCH_MAX_PENDING, HEAP_HINT); } } void bench_aesecb(int useDeviceID) { #ifdef WOLFSSL_AES_128 bench_aesecb_internal(useDeviceID, bench_key, 16, "AES-128-ECB-enc", "AES-128-ECB-dec"); #endif #ifdef WOLFSSL_AES_192 bench_aesecb_internal(useDeviceID, bench_key, 24, "AES-192-ECB-enc", "AES-192-ECB-dec"); #endif #ifdef WOLFSSL_AES_256 bench_aesecb_internal(useDeviceID, bench_key, 32, "AES-256-ECB-enc", "AES-256-ECB-dec"); #endif } #endif /* HAVE_AES_ECB */ #ifdef WOLFSSL_AES_CFB static void bench_aescfb_internal(const byte* key, word32 keySz, const byte* iv, const char* label) { Aes enc; double start; int i, ret, count; DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_AesInit(&enc, HEAP_HINT, INVALID_DEVID); if (ret != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); return; } ret = wc_AesSetKey(&enc, key, keySz, iv, AES_ENCRYPTION); if (ret != 0) { printf("AesSetKey failed, ret = %d\n", ret); goto out; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { if((ret = wc_AesCfbEncrypt(&enc, bench_plain, bench_cipher, bench_size)) != 0) { printf("wc_AesCfbEncrypt failed, ret = %d\n", ret); goto out; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(label, 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif out: wc_AesFree(&enc); return; } void bench_aescfb(void) { #ifdef WOLFSSL_AES_128 bench_aescfb_internal(bench_key, 16, bench_iv, "AES-128-CFB"); #endif #ifdef WOLFSSL_AES_192 bench_aescfb_internal(bench_key, 24, bench_iv, "AES-192-CFB"); #endif #ifdef WOLFSSL_AES_256 bench_aescfb_internal(bench_key, 32, bench_iv, "AES-256-CFB"); #endif } #endif /* WOLFSSL_AES_CFB */ #ifdef WOLFSSL_AES_OFB static void bench_aesofb_internal(const byte* key, word32 keySz, const byte* iv, const char* label) { Aes enc; double start; int i, ret, count; DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_AesInit(&enc, NULL, INVALID_DEVID); if (ret != 0) { printf("AesInit failed at L%d, ret = %d\n", __LINE__, ret); return; } ret = wc_AesSetKey(&enc, key, keySz, iv, AES_ENCRYPTION); if (ret != 0) { printf("AesSetKey failed, ret = %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { if((ret = wc_AesOfbEncrypt(&enc, bench_plain, bench_cipher, bench_size)) != 0) { printf("wc_AesCfbEncrypt failed, ret = %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(label, 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_AesFree(&enc); } void bench_aesofb(void) { #ifdef WOLFSSL_AES_128 bench_aesofb_internal(bench_key, 16, bench_iv, "AES-128-OFB"); #endif #ifdef WOLFSSL_AES_192 bench_aesofb_internal(bench_key, 24, bench_iv, "AES-192-OFB"); #endif #ifdef WOLFSSL_AES_256 bench_aesofb_internal(bench_key, 32, bench_iv, "AES-256-OFB"); #endif } #endif /* WOLFSSL_AES_CFB */ #ifdef WOLFSSL_AES_XTS void bench_aesxts(void) { WC_DECLARE_VAR(aes, XtsAes, 1, HEAP_HINT); double start; int i, count, ret; DECLARE_MULTI_VALUE_STATS_VARS() static const unsigned char k1[] = { 0xa1, 0xb9, 0x0c, 0xba, 0x3f, 0x06, 0xac, 0x35, 0x3b, 0x2c, 0x34, 0x38, 0x76, 0x08, 0x17, 0x62, 0x09, 0x09, 0x23, 0x02, 0x6e, 0x91, 0x77, 0x18, 0x15, 0xf2, 0x9d, 0xab, 0x01, 0x93, 0x2f, 0x2f }; static const unsigned char i1[] = { 0x4f, 0xae, 0xf7, 0x11, 0x7c, 0xda, 0x59, 0xc6, 0x6e, 0x4b, 0x92, 0x01, 0x3e, 0x76, 0x8a, 0xd5 }; WC_ALLOC_VAR(aes, XtsAes, 1, HEAP_HINT); ret = wc_AesXtsSetKey(aes, k1, sizeof(k1), AES_ENCRYPTION, HEAP_HINT, devId); if (ret != 0) { printf("wc_AesXtsSetKey failed, ret = %d\n", ret); goto exit; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { if ((ret = wc_AesXtsEncrypt(aes, bench_cipher, bench_plain, bench_size, i1, sizeof(i1))) != 0) { printf("wc_AesXtsEncrypt failed, ret = %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("AES-XTS-enc", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_AesXtsFree(aes); /* decryption benchmark */ ret = wc_AesXtsSetKey(aes, k1, sizeof(k1), AES_DECRYPTION, HEAP_HINT, devId); if (ret != 0) { printf("wc_AesXtsSetKey failed, ret = %d\n", ret); goto exit; } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { if ((ret = wc_AesXtsDecrypt(aes, bench_plain, bench_cipher, bench_size, i1, sizeof(i1))) != 0) { printf("wc_AesXtsDecrypt failed, ret = %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("AES-XTS-dec", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: wc_AesXtsFree(aes); WC_FREE_VAR(aes, HEAP_HINT); } #endif /* WOLFSSL_AES_XTS */ #ifdef WOLFSSL_AES_COUNTER static void bench_aesctr_internal(const byte* key, word32 keySz, const byte* iv, const char* label, int useDeviceID) { Aes enc; double start; int i, count, ret = 0; DECLARE_MULTI_VALUE_STATS_VARS() if ((ret = wc_AesInit(&enc, HEAP_HINT, useDeviceID ? devId : INVALID_DEVID)) != 0) { printf("wc_AesInit failed, ret = %d\n", ret); } if (wc_AesSetKeyDirect(&enc, key, keySz, iv, AES_ENCRYPTION) < 0) { printf("wc_AesSetKeyDirect failed, ret = %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { if((ret = wc_AesCtrEncrypt(&enc, bench_plain, bench_cipher, bench_size)) != 0) { printf("wc_AesCtrEncrypt failed, ret = %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(label, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_AesFree(&enc); } void bench_aesctr(int useDeviceID) { #ifdef WOLFSSL_AES_128 bench_aesctr_internal(bench_key, 16, bench_iv, "AES-128-CTR", useDeviceID); #endif #ifdef WOLFSSL_AES_192 bench_aesctr_internal(bench_key, 24, bench_iv, "AES-192-CTR", useDeviceID); #endif #ifdef WOLFSSL_AES_256 bench_aesctr_internal(bench_key, 32, bench_iv, "AES-256-CTR", useDeviceID); #endif } #endif /* WOLFSSL_AES_COUNTER */ #ifdef HAVE_AESCCM void bench_aesccm(int useDeviceID) { Aes enc; int enc_inited = 0; double start; int ret, i, count; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_DECLARE_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); XMEMSET(bench_tag, 0, AES_AUTH_TAG_SZ); XMEMSET(bench_additional, 0, AES_AUTH_ADD_SZ); if ((ret = wc_AesInit(&enc, HEAP_HINT, useDeviceID ? devId : INVALID_DEVID)) != 0) { printf("wc_AesInit failed, ret = %d\n", ret); goto exit; } if ((ret = wc_AesCcmSetKey(&enc, bench_key, 16)) != 0) { printf("wc_AesCcmSetKey failed, ret = %d\n", ret); goto exit; } enc_inited = 1; bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret |= wc_AesCcmEncrypt(&enc, bench_cipher, bench_plain, bench_size, bench_iv, 12, bench_tag, AES_AUTH_TAG_SZ, bench_additional, 0); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(AES_AAD_STRING("AES-CCM-enc"), useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret != 0) { printf("wc_AesCcmEncrypt failed, ret = %d\n", ret); goto exit; } #ifdef HAVE_AES_DECRYPT RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret |= wc_AesCcmDecrypt(&enc, bench_plain, bench_cipher, bench_size, bench_iv, 12, bench_tag, AES_AUTH_TAG_SZ, bench_additional, 0); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(AES_AAD_STRING("AES-CCM-dec"), useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret != 0) { printf("wc_AesCcmEncrypt failed, ret = %d\n", ret); goto exit; } #endif exit: if (enc_inited) wc_AesFree(&enc); WC_FREE_VAR(bench_additional, HEAP_HINT); WC_FREE_VAR(bench_tag, HEAP_HINT); } #endif /* HAVE_AESCCM */ #ifdef WOLFSSL_AES_SIV static void bench_aessiv_internal(const byte* key, word32 keySz, const char* encLabel, const char* decLabel) { int i; int ret = 0; byte assoc[WC_AES_BLOCK_SIZE]; byte nonce[WC_AES_BLOCK_SIZE]; byte siv[WC_AES_BLOCK_SIZE]; int count = 0; double start; DECLARE_MULTI_VALUE_STATS_VARS() bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_AesSivEncrypt(key, keySz, assoc, WC_AES_BLOCK_SIZE, nonce, WC_AES_BLOCK_SIZE, bench_plain, bench_size, siv, bench_cipher); if (ret != 0) { printf("wc_AesSivEncrypt failed (%d)\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(encLabel, 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_AesSivDecrypt(key, keySz, assoc, WC_AES_BLOCK_SIZE, nonce, WC_AES_BLOCK_SIZE, bench_cipher, bench_size, siv, bench_plain); if (ret != 0) { printf("wc_AesSivDecrypt failed (%d)\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(decLabel, 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } void bench_aessiv(void) { bench_aessiv_internal(bench_key, 32, "AES-256-SIV-enc", "AES-256-SIV-dec"); bench_aessiv_internal(bench_key, 48, "AES-384-SIV-enc", "AES-384-SIV-dec"); bench_aessiv_internal(bench_key, 64, "AES-512-SIV-enc", "AES-512-SIV-dec"); } #endif /* WOLFSSL_AES_SIV */ #endif /* !NO_AES */ #ifdef HAVE_POLY1305 void bench_poly1305(void) { Poly1305 enc; byte mac[16]; double start; int ret = 0, i, count; DECLARE_MULTI_VALUE_STATS_VARS() if (digest_stream) { ret = wc_Poly1305SetKey(&enc, bench_key, 32); if (ret != 0) { printf("Poly1305SetKey failed, ret = %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Poly1305Update(&enc, bench_plain, bench_size); if (ret != 0) { printf("Poly1305Update failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } wc_Poly1305Final(&enc, mac); count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Poly1305SetKey(&enc, bench_key, 32); if (ret != 0) { printf("Poly1305SetKey failed, ret = %d\n", ret); return; } ret = wc_Poly1305Update(&enc, bench_plain, bench_size); if (ret != 0) { printf("Poly1305Update failed: %d\n", ret); break; } wc_Poly1305Final(&enc, mac); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } bench_stats_sym_finish("POLY1305", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif /* HAVE_POLY1305 */ #ifdef HAVE_CAMELLIA void bench_camellia(void) { wc_Camellia cam; double start; int ret, i, count; DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_CamelliaSetKey(&cam, bench_key, 16, bench_iv); if (ret != 0) { printf("CamelliaSetKey failed, ret = %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_CamelliaCbcEncrypt(&cam, bench_cipher, bench_plain, bench_size); if (ret < 0) { printf("CamelliaCbcEncrypt failed: %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("Camellia", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif #ifdef WOLFSSL_SM4_CBC void bench_sm4_cbc(void) { wc_Sm4 sm4; double start; int ret; int i; int count; DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_Sm4SetKey(&sm4, bench_key, SM4_KEY_SIZE); if (ret != 0) { printf("Sm4SetKey failed, ret = %d\n", ret); return; } ret = wc_Sm4SetIV(&sm4, bench_iv); if (ret != 0) { printf("Sm4SetIV failed, ret = %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Sm4CbcEncrypt(&sm4, bench_cipher, bench_plain, bench_size); if (ret < 0) { printf("Sm4CbcEncrypt failed: %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SM4-CBC-enc", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Sm4CbcDecrypt(&sm4, bench_plain, bench_cipher, bench_size); if (ret < 0) { printf("Sm4CbcDecrypt failed: %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SM4-CBC-dec", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif #ifdef WOLFSSL_SM4_GCM void bench_sm4_gcm(void) { wc_Sm4 sm4; double start; int ret; int i; int count; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_DECLARE_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); ret = wc_Sm4GcmSetKey(&sm4, bench_key, SM4_KEY_SIZE); if (ret != 0) { printf("Sm4GcmSetKey failed, ret = %d\n", ret); goto exit; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Sm4GcmEncrypt(&sm4, bench_cipher, bench_plain, bench_size, bench_iv, GCM_NONCE_MID_SZ, bench_tag, SM4_BLOCK_SIZE, bench_additional, aesAuthAddSz); if (ret < 0) { printf("Sm4GcmEncrypt failed: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SM4-GCM-enc", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Sm4GcmDecrypt(&sm4, bench_plain, bench_cipher, bench_size, bench_iv, GCM_NONCE_MID_SZ, bench_tag, SM4_BLOCK_SIZE, bench_additional, aesAuthAddSz); if (ret < 0) { printf("Sm4GcmDecrypt failed: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SM4-GCM-dec", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: WC_FREE_VAR(bench_additional, HEAP_HINT); WC_FREE_VAR(bench_tag, HEAP_HINT); } #endif #ifdef WOLFSSL_SM4_CCM void bench_sm4_ccm(void) { wc_Sm4 enc; double start; int ret, i, count; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_DECLARE_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_additional, byte, AES_AUTH_ADD_SZ, HEAP_HINT); WC_ALLOC_VAR(bench_tag, byte, AES_AUTH_TAG_SZ, HEAP_HINT); XMEMSET(bench_tag, 0, AES_AUTH_TAG_SZ); XMEMSET(bench_additional, 0, AES_AUTH_ADD_SZ); if ((ret = wc_Sm4SetKey(&enc, bench_key, 16)) != 0) { printf("wc_Sm4SetKey failed, ret = %d\n", ret); goto exit; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret |= wc_Sm4CcmEncrypt(&enc, bench_cipher, bench_plain, bench_size, bench_iv, 12, bench_tag, AES_AUTH_TAG_SZ, bench_additional, 0); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SM4-CCM-enc", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret != 0) { printf("wc_Sm4Encrypt failed, ret = %d\n", ret); goto exit; } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret |= wc_Sm4CcmDecrypt(&enc, bench_plain, bench_cipher, bench_size, bench_iv, 12, bench_tag, AES_AUTH_TAG_SZ, bench_additional, 0); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SM4-CCM-dec", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret != 0) { printf("wc_Sm4Decrypt failed, ret = %d\n", ret); goto exit; } exit: WC_FREE_VAR(bench_additional, HEAP_HINT); WC_FREE_VAR(bench_tag, HEAP_HINT); } #endif /* HAVE_AESCCM */ #ifndef NO_DES3 void bench_des(int useDeviceID) { int ret = 0, i, count = 0, times, pending = 0; WC_DECLARE_ARRAY(enc, Des3, BENCH_MAX_PENDING, sizeof(Des3), HEAP_HINT); double start; DECLARE_MULTI_VALUE_STATS_VARS() WC_CALLOC_ARRAY(enc, Des3, BENCH_MAX_PENDING, sizeof(Des3), HEAP_HINT); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_Des3Init(enc[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID)) != 0) { printf("Des3Init failed, ret = %d\n", ret); goto exit; } ret = wc_Des3_SetKey(enc[i], bench_key, bench_iv, DES_ENCRYPTION); if (ret != 0) { printf("Des3_SetKey failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, numBlocks, &pending)) { ret = wc_Des3_CbcEncrypt(enc[i], bench_cipher, bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_3des; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_3des: bench_stats_sym_finish("3DES", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(enc)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Des3Free(enc[i]); } WC_FREE_ARRAY(enc, BENCH_MAX_PENDING, HEAP_HINT); } } #endif /* !NO_DES3 */ #ifndef NO_RC4 void bench_arc4(int useDeviceID) { int ret = 0, i, count = 0, times, pending = 0; WC_DECLARE_ARRAY(enc, Arc4, BENCH_MAX_PENDING, sizeof(Arc4), HEAP_HINT); double start; DECLARE_MULTI_VALUE_STATS_VARS() WC_CALLOC_ARRAY(enc, Arc4, BENCH_MAX_PENDING, sizeof(Arc4), HEAP_HINT); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if ((ret = wc_Arc4Init(enc[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID)) != 0) { printf("Arc4Init failed, ret = %d\n", ret); goto exit; } ret = wc_Arc4SetKey(enc[i], bench_key, 16); if (ret != 0) { printf("Arc4SetKey failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, numBlocks, &pending)) { ret = wc_Arc4Process(enc[i], bench_cipher, bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(enc[i]), 0, ×, &pending)) { goto exit_arc4; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_arc4: bench_stats_sym_finish("ARC4", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(enc)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Arc4Free(enc[i]); } WC_FREE_ARRAY(enc, BENCH_MAX_PENDING, HEAP_HINT); } } #endif /* !NO_RC4 */ #ifdef HAVE_CHACHA void bench_chacha(void) { WC_DECLARE_VAR(enc, ChaCha, 1, HEAP_HINT); double start; int ret, i, count; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(enc, ChaCha, 1, HEAP_HINT); XMEMSET(enc, 0, sizeof(ChaCha)); wc_Chacha_SetKey(enc, bench_key, 16); if (encrypt_only) { ret = wc_Chacha_SetIV(enc, bench_iv, 0); if (ret < 0) { printf("wc_Chacha_SetIV error: %d\n", ret); goto exit; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Chacha_Process(enc, bench_cipher, bench_plain, bench_size); if (ret < 0) { printf("wc_Chacha_Process error: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Chacha_SetIV(enc, bench_iv, 0); if (ret < 0) { printf("wc_Chacha_SetIV error: %d\n", ret); goto exit; } ret = wc_Chacha_Process(enc, bench_cipher, bench_plain, bench_size); if (ret < 0) { printf("wc_Chacha_Process error: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } bench_stats_sym_finish("CHACHA", 0, count, bench_size, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: WC_FREE_VAR(enc, HEAP_HINT); } #endif /* HAVE_CHACHA*/ #if defined(HAVE_CHACHA) && defined(HAVE_POLY1305) void bench_chacha20_poly1305_aead(void) { double start; int ret = 0, i, count; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_VAR(authTag, byte, CHACHA20_POLY1305_AEAD_AUTHTAG_SIZE, HEAP_HINT); WC_ALLOC_VAR(authTag, byte, CHACHA20_POLY1305_AEAD_AUTHTAG_SIZE, HEAP_HINT); XMEMSET(authTag, 0, CHACHA20_POLY1305_AEAD_AUTHTAG_SIZE); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_ChaCha20Poly1305_Encrypt(bench_key, bench_iv, NULL, 0, bench_plain, bench_size, bench_cipher, authTag); if (ret < 0) { printf("wc_ChaCha20Poly1305_Encrypt error: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("CHA-POLY", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: WC_FREE_VAR(authTag, HEAP_HINT); } #endif /* HAVE_CHACHA && HAVE_POLY1305 */ #ifndef NO_MD5 void bench_md5(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Md5, BENCH_MAX_PENDING, sizeof(wc_Md5), HEAP_HINT); double start = 0; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_MD5_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Md5, BENCH_MAX_PENDING, sizeof(wc_Md5), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_MD5_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitMd5_ex(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitMd5_ex failed, ret = %d\n", ret); goto exit; } #ifdef WOLFSSL_PIC32MZ_HASH wc_Md5SizeSet(hash[i], numBlocks * bench_size); #endif } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Md5Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_md5; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Md5Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_md5; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitMd5_ex(hash[0], HEAP_HINT, INVALID_DEVID); if (ret == 0) ret = wc_Md5Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Md5Final(hash[0], digest[0]); if (ret != 0) goto exit_md5; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_md5: bench_stats_sym_finish("MD5", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: #ifdef WOLFSSL_ASYNC_CRYPT if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Md5Free(hash[i]); } } #endif WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* !NO_MD5 */ #ifndef NO_SHA void bench_sha(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha, BENCH_MAX_PENDING, sizeof(wc_Sha), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha, BENCH_MAX_PENDING, sizeof(wc_Sha), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha_ex(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha failed, ret = %d\n", ret); goto exit; } #ifdef WOLFSSL_PIC32MZ_HASH wc_ShaSizeSet(hash[i], numBlocks * bench_size); #endif } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_ShaUpdate(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_ShaFinal(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha_ex(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_ShaUpdate(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_ShaFinal(hash[0], digest[0]); if (ret != 0) goto exit_sha; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha: bench_stats_sym_finish("SHA", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_ShaFree(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* NO_SHA */ #ifdef WOLFSSL_SHA224 void bench_sha224(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha224, BENCH_MAX_PENDING, sizeof(wc_Sha224), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA224_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha224, BENCH_MAX_PENDING, sizeof(wc_Sha224), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA224_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha224_ex(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha224_ex failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha224Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha224; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha224Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha224; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha224_ex(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha224Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha224Final(hash[0], digest[0]); if (ret != 0) goto exit_sha224; } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha224: bench_stats_sym_finish("SHA-224", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha224Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif #ifndef NO_SHA256 void bench_sha256(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha256, BENCH_MAX_PENDING, sizeof(wc_Sha256), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA256_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha256, BENCH_MAX_PENDING, sizeof(wc_Sha256), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA256_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha256_ex(hash[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID); if (ret != 0) { printf("InitSha256_ex failed, ret = %d\n", ret); goto exit; } #ifdef WOLFSSL_PIC32MZ_HASH wc_Sha256SizeSet(hash[i], numBlocks * bench_size); #endif } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha256Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha256; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha256Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha256; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha256_ex(hash[0], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID); if (ret == 0) ret = wc_Sha256Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha256Final(hash[0], digest[0]); if (ret != 0) goto exit_sha256; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha256: bench_stats_sym_finish("SHA-256", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha256Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif #ifdef WOLFSSL_SHA384 void bench_sha384(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha384, BENCH_MAX_PENDING, sizeof(wc_Sha384), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA384_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha384, BENCH_MAX_PENDING, sizeof(wc_Sha384), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA384_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha384_ex(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha384_ex failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha384Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha384; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha384Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha384; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha384_ex(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha384Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha384Final(hash[0], digest[0]); if (ret != 0) goto exit_sha384; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha384: bench_stats_sym_finish("SHA-384", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha384Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif #ifdef WOLFSSL_SHA512 void bench_sha512(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha512, BENCH_MAX_PENDING, sizeof(wc_Sha512), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA512_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha512, BENCH_MAX_PENDING, sizeof(wc_Sha512), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA512_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha512_ex(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha512_ex failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha512Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha512; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha512Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha512; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha512_ex(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha512Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha512Final(hash[0], digest[0]); if (ret != 0) goto exit_sha512; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha512: bench_stats_sym_finish("SHA-512", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha512Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #if !defined(WOLFSSL_NOSHA512_224) && \ (!defined(HAVE_FIPS) || FIPS_VERSION_GE(5, 3)) && !defined(HAVE_SELFTEST) void bench_sha512_224(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha512_224, BENCH_MAX_PENDING, sizeof(wc_Sha512_224), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA512_224_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha512_224, BENCH_MAX_PENDING, sizeof(wc_Sha512_224), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA512_224_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha512_224_ex(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha512_224_ex failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha512_224Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha512_224; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha512_224Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha512_224; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha512_224_ex(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha512_224Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha512_224Final(hash[0], digest[0]); if (ret != 0) goto exit_sha512_224; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha512_224: bench_stats_sym_finish("SHA-512/224", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha512_224Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_NOSHA512_224 && !FIPS ... */ #if !defined(WOLFSSL_NOSHA512_256) && \ (!defined(HAVE_FIPS) || FIPS_VERSION_GE(5, 3)) && !defined(HAVE_SELFTEST) void bench_sha512_256(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha512_256, BENCH_MAX_PENDING, sizeof(wc_Sha512_256), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA512_256_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha512_256, BENCH_MAX_PENDING, sizeof(wc_Sha512_256), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA512_256_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha512_256_ex(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha512_256_ex failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha512_256Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha512_256; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha512_256Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha512_256; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha512_256_ex(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha512_256Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha512_256Final(hash[0], digest[0]); if (ret != 0) goto exit_sha512_256; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha512_256: bench_stats_sym_finish("SHA-512/256", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha512_256Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_NOSHA512_256 && !FIPS ... */ #endif /* WOLFSSL_SHA512 */ #ifdef WOLFSSL_SHA3 #ifndef WOLFSSL_NOSHA3_224 void bench_sha3_224(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_224_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_224_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha3_224(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha3_224 failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_224_Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_224; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_224_Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_224; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha3_224(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha3_224_Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha3_224_Final(hash[0], digest[0]); if (ret != 0) goto exit_sha3_224; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha3_224: bench_stats_sym_finish("SHA3-224", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha3_224_Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_NOSHA3_224 */ #ifndef WOLFSSL_NOSHA3_256 void bench_sha3_256(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); double start; DECLARE_MULTI_VALUE_STATS_VARS() int ret = 0, i, count = 0, times, pending = 0; WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_256_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_256_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha3_256(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha3_256 failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_256_Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_256; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_256_Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_256; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha3_256(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha3_256_Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha3_256_Final(hash[0], digest[0]); if (ret != 0) goto exit_sha3_256; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha3_256: bench_stats_sym_finish("SHA3-256", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha3_256_Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_NOSHA3_256 */ #ifndef WOLFSSL_NOSHA3_384 void bench_sha3_384(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_384_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_384_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha3_384(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha3_384 failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_384_Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_384; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_384_Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_384; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha3_384(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha3_384_Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha3_384_Final(hash[0], digest[0]); if (ret != 0) goto exit_sha3_384; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha3_384: bench_stats_sym_finish("SHA3-384", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha3_384_Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_NOSHA3_384 */ #ifndef WOLFSSL_NOSHA3_512 void bench_sha3_512(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_512_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sha3, BENCH_MAX_PENDING, sizeof(wc_Sha3), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_512_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSha3_512(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitSha3_512 failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_512_Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_512; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sha3_512_Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sha3_512; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSha3_512(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Sha3_512_Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sha3_512_Final(hash[0], digest[0]); if (ret != 0) goto exit_sha3_512; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sha3_512: bench_stats_sym_finish("SHA3-512", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sha3_512_Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_NOSHA3_512 */ #ifdef WOLFSSL_SHAKE128 void bench_shake128(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Shake, BENCH_MAX_PENDING, sizeof(wc_Shake), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_128_BLOCK_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Shake, BENCH_MAX_PENDING, sizeof(wc_Shake), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_128_BLOCK_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitShake128(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitShake128 failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Shake128_Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_shake128; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Shake128_Final(hash[i], digest[i], WC_SHA3_128_BLOCK_SIZE); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_shake128; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitShake128(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Shake128_Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Shake128_Final(hash[0], digest[0], WC_SHA3_128_BLOCK_SIZE); if (ret != 0) goto exit_shake128; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_shake128: bench_stats_sym_finish("SHAKE128", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Shake128_Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_SHAKE128 */ #ifdef WOLFSSL_SHAKE256 void bench_shake256(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Shake, BENCH_MAX_PENDING, sizeof(wc_Shake), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_256_BLOCK_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Shake, BENCH_MAX_PENDING, sizeof(wc_Shake), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SHA3_256_BLOCK_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitShake256(hash[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("InitShake256 failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Shake256_Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_shake256; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Shake256_Final(hash[i], digest[i], WC_SHA3_256_BLOCK_SIZE); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_shake256; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitShake256(hash[0], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret == 0) ret = wc_Shake256_Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Shake256_Final(hash[0], digest[0], WC_SHA3_256_BLOCK_SIZE); if (ret != 0) goto exit_shake256; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_shake256: bench_stats_sym_finish("SHAKE256", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Shake256_Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* WOLFSSL_SHAKE256 */ #endif #ifdef WOLFSSL_SM3 void bench_sm3(int useDeviceID) { WC_DECLARE_ARRAY(hash, wc_Sm3, BENCH_MAX_PENDING, sizeof(wc_Sm3), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SM3_DIGEST_SIZE, HEAP_HINT); WC_CALLOC_ARRAY(hash, wc_Sm3, BENCH_MAX_PENDING, sizeof(wc_Sm3), HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_SM3_DIGEST_SIZE, HEAP_HINT); if (digest_stream) { /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_InitSm3(hash[i], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID); if (ret != 0) { printf("InitSm3 failed, ret = %d\n", ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sm3Update(hash[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sm3; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, numBlocks, &pending)) { ret = wc_Sm3Final(hash[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hash[i]), 0, ×, &pending)) { goto exit_sm3; } } } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks; times++) { ret = wc_InitSm3(hash[0], HEAP_HINT, useDeviceID ? devId: INVALID_DEVID); if (ret == 0) ret = wc_Sm3Update(hash[0], bench_plain, bench_size); if (ret == 0) ret = wc_Sm3Final(hash[0], digest[0]); if (ret != 0) goto exit_sm3; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } exit_sm3: bench_stats_sym_finish("SM3", useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: if (WC_ARRAY_OK(hash)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_Sm3Free(hash[i]); } WC_FREE_ARRAY(hash, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); } #endif #ifdef WOLFSSL_RIPEMD void bench_ripemd(void) { RipeMd hash; byte digest[RIPEMD_DIGEST_SIZE]; double start; int i, count, ret = 0; DECLARE_MULTI_VALUE_STATS_VARS() if (digest_stream) { ret = wc_InitRipeMd(&hash); if (ret != 0) { printf("wc_InitRipeMd failed, retval %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_RipeMdUpdate(&hash, bench_plain, bench_size); if (ret != 0) { printf("wc_RipeMdUpdate failed, retval %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } ret = wc_RipeMdFinal(&hash, digest); if (ret != 0) { printf("wc_RipeMdFinal failed, retval %d\n", ret); return; } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_InitRipeMd(&hash); if (ret != 0) { printf("wc_InitRipeMd failed, retval %d\n", ret); return; } ret = wc_RipeMdUpdate(&hash, bench_plain, bench_size); if (ret != 0) { printf("wc_RipeMdUpdate failed, retval %d\n", ret); return; } ret = wc_RipeMdFinal(&hash, digest); if (ret != 0) { printf("wc_RipeMdFinal failed, retval %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } bench_stats_sym_finish("RIPEMD", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif return; } #endif #ifdef HAVE_BLAKE2 void bench_blake2b(void) { Blake2b b2b; byte digest[64]; double start; int ret = 0, i, count; DECLARE_MULTI_VALUE_STATS_VARS() if (digest_stream) { ret = wc_InitBlake2b(&b2b, 64); if (ret != 0) { printf("InitBlake2b failed, ret = %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Blake2bUpdate(&b2b, bench_plain, bench_size); if (ret != 0) { printf("Blake2bUpdate failed, ret = %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } ret = wc_Blake2bFinal(&b2b, digest, 64); if (ret != 0) { printf("Blake2bFinal failed, ret = %d\n", ret); return; } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_InitBlake2b(&b2b, 64); if (ret != 0) { printf("InitBlake2b failed, ret = %d\n", ret); return; } ret = wc_Blake2bUpdate(&b2b, bench_plain, bench_size); if (ret != 0) { printf("Blake2bUpdate failed, ret = %d\n", ret); return; } ret = wc_Blake2bFinal(&b2b, digest, 64); if (ret != 0) { printf("Blake2bFinal failed, ret = %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } bench_stats_sym_finish("BLAKE2b", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif #if defined(HAVE_BLAKE2S) void bench_blake2s(void) { Blake2s b2s; byte digest[32]; double start; int ret = 0, i, count; DECLARE_MULTI_VALUE_STATS_VARS() if (digest_stream) { ret = wc_InitBlake2s(&b2s, 32); if (ret != 0) { printf("InitBlake2s failed, ret = %d\n", ret); return; } bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_Blake2sUpdate(&b2s, bench_plain, bench_size); if (ret != 0) { printf("Blake2sUpdate failed, ret = %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } ret = wc_Blake2sFinal(&b2s, digest, 32); if (ret != 0) { printf("Blake2sFinal failed, ret = %d\n", ret); return; } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } else { bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_InitBlake2s(&b2s, 32); if (ret != 0) { printf("InitBlake2b failed, ret = %d\n", ret); return; } ret = wc_Blake2sUpdate(&b2s, bench_plain, bench_size); if (ret != 0) { printf("Blake2bUpdate failed, ret = %d\n", ret); return; } ret = wc_Blake2sFinal(&b2s, digest, 32); if (ret != 0) { printf("Blake2sFinal failed, ret = %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); } bench_stats_sym_finish("BLAKE2s", 0, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif #ifdef WOLFSSL_CMAC static void bench_cmac_helper(word32 keySz, const char* outMsg, int useDeviceID) { Cmac cmac; byte digest[WC_AES_BLOCK_SIZE]; word32 digestSz = sizeof(digest); double start; int ret, i, count; DECLARE_MULTI_VALUE_STATS_VARS() #ifdef WOLFSSL_SECO_CAAM unsigned int keyID; int keyGroup = 1; /* group one was chosen arbitrarily */ int keyInfo = CAAM_KEY_TRANSIENT; int keyType = CAAM_KEYTYPE_AES128; byte pubKey[AES_256_KEY_SIZE]; if (keySz == AES_256_KEY_SIZE) { keyType = CAAM_KEYTYPE_AES256; } if (useDeviceID && wc_SECO_GenerateKey(CAAM_GENERATE_KEY, keyGroup, pubKey, 0, keyType, keyInfo, &keyID) != 0) { printf("Error generating key in hsm\n"); return; } #endif (void)useDeviceID; bench_stats_start(&count, &start); do { #ifdef HAVE_FIPS ret = wc_InitCmac(&cmac, bench_key, keySz, WC_CMAC_AES, NULL); #else ret = wc_InitCmac_ex(&cmac, bench_key, keySz, WC_CMAC_AES, NULL, HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); #endif if (ret != 0) { printf("InitCmac failed, ret = %d\n", ret); return; } #ifdef WOLFSSL_SECO_CAAM if (useDeviceID) { wc_SECO_CMACSetKeyID(&cmac, keyID); } #endif for (i = 0; i < numBlocks; i++) { ret = wc_CmacUpdate(&cmac, bench_plain, bench_size); if (ret != 0) { printf("CmacUpdate failed, ret = %d\n", ret); return; } RECORD_MULTI_VALUE_STATS(); } /* Note: final force zero's the Cmac struct */ ret = wc_CmacFinal(&cmac, digest, &digestSz); if (ret != 0) { printf("CmacFinal failed, ret = %d\n", ret); return; } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish(outMsg, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } void bench_cmac(int useDeviceID) { #ifdef WOLFSSL_AES_128 bench_cmac_helper(16, "AES-128-CMAC", useDeviceID); #endif #ifdef WOLFSSL_AES_256 bench_cmac_helper(32, "AES-256-CMAC", useDeviceID); #endif } #endif /* WOLFSSL_CMAC */ #ifdef HAVE_SCRYPT void bench_scrypt(void) { byte derived[64]; double start; int ret, i, count; DECLARE_MULTI_VALUE_STATS_VARS() bench_stats_start(&count, &start); do { for (i = 0; i < scryptCnt; i++) { ret = wc_scrypt(derived, (byte*)"pleaseletmein", 13, (byte*)"SodiumChloride", 14, 14, 8, 1, sizeof(derived)); if (ret != 0) { printf("scrypt failed, ret = %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit: bench_stats_asym_finish("scrypt", 17, "", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif /* HAVE_SCRYPT */ #ifndef NO_HMAC static void bench_hmac(int useDeviceID, int type, int digestSz, const byte* key, word32 keySz, const char* label) { WC_DECLARE_ARRAY(hmac, Hmac, BENCH_MAX_PENDING, sizeof(Hmac), HEAP_HINT); double start; int ret = 0, i, count = 0, times, pending = 0; DECLARE_MULTI_VALUE_STATS_VARS() #ifdef WOLFSSL_ASYNC_CRYPT WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_MAX_DIGEST_SIZE, HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, WC_MAX_DIGEST_SIZE, HEAP_HINT); #else byte digest[BENCH_MAX_PENDING][WC_MAX_DIGEST_SIZE]; #endif (void)digestSz; WC_CALLOC_ARRAY(hmac, Hmac, BENCH_MAX_PENDING, sizeof(Hmac), HEAP_HINT); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { ret = wc_HmacInit(hmac[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("wc_HmacInit failed for %s, ret = %d\n", label, ret); goto exit; } ret = wc_HmacSetKey(hmac[i], type, key, keySz); if (ret != 0) { printf("wc_HmacSetKey failed for %s, ret = %d\n", label, ret); goto exit; } } bench_stats_start(&count, &start); do { for (times = 0; times < numBlocks || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hmac[i]), 0, ×, numBlocks, &pending)) { ret = wc_HmacUpdate(hmac[i], bench_plain, bench_size); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hmac[i]), 0, ×, &pending)) { goto exit_hmac; } } } /* for i */ } /* for times */ count += times; times = 0; do { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(hmac[i]), 0, ×, numBlocks, &pending)) { ret = wc_HmacFinal(hmac[i], digest[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(hmac[i]), 0, ×, &pending)) { goto exit_hmac; } } RECORD_MULTI_VALUE_STATS(); } /* for i */ } while (pending > 0); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_hmac: bench_stats_sym_finish(label, useDeviceID, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_HmacFree(hmac[i]); } WC_FREE_ARRAY(hmac, BENCH_MAX_PENDING, HEAP_HINT); #ifdef WOLFSSL_ASYNC_CRYPT WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); #endif } #ifndef NO_MD5 void bench_hmac_md5(int useDeviceID) { WOLFSSL_SMALL_STACK_STATIC const byte key[] = { 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b }; bench_hmac(useDeviceID, WC_MD5, WC_MD5_DIGEST_SIZE, key, sizeof(key), "HMAC-MD5"); } #endif /* NO_MD5 */ #ifndef NO_SHA void bench_hmac_sha(int useDeviceID) { WOLFSSL_SMALL_STACK_STATIC const byte key[] = { 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b }; bench_hmac(useDeviceID, WC_SHA, WC_SHA_DIGEST_SIZE, key, sizeof(key), "HMAC-SHA"); } #endif /* NO_SHA */ #ifdef WOLFSSL_SHA224 void bench_hmac_sha224(int useDeviceID) { WOLFSSL_SMALL_STACK_STATIC const byte key[] = { 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b }; bench_hmac(useDeviceID, WC_SHA224, WC_SHA224_DIGEST_SIZE, key, sizeof(key), "HMAC-SHA224"); } #endif /* WOLFSSL_SHA224 */ #ifndef NO_SHA256 void bench_hmac_sha256(int useDeviceID) { WOLFSSL_SMALL_STACK_STATIC const byte key[] = { 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b }; bench_hmac(useDeviceID, WC_SHA256, WC_SHA256_DIGEST_SIZE, key, sizeof(key), "HMAC-SHA256"); } #endif /* NO_SHA256 */ #ifdef WOLFSSL_SHA384 void bench_hmac_sha384(int useDeviceID) { WOLFSSL_SMALL_STACK_STATIC const byte key[] = { 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b }; bench_hmac(useDeviceID, WC_SHA384, WC_SHA384_DIGEST_SIZE, key, sizeof(key), "HMAC-SHA384"); } #endif /* WOLFSSL_SHA384 */ #ifdef WOLFSSL_SHA512 void bench_hmac_sha512(int useDeviceID) { WOLFSSL_SMALL_STACK_STATIC const byte key[] = { 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b, 0x0b }; bench_hmac(useDeviceID, WC_SHA512, WC_SHA512_DIGEST_SIZE, key, sizeof(key), "HMAC-SHA512"); } #endif /* WOLFSSL_SHA512 */ #ifndef NO_PWDBASED void bench_pbkdf2(void) { double start; int ret = 0, count = 0; const char* passwd32 = "passwordpasswordpasswordpassword"; WOLFSSL_SMALL_STACK_STATIC const byte salt32[] = { 0x78, 0x57, 0x8E, 0x5a, 0x5d, 0x63, 0xcb, 0x06, 0x78, 0x57, 0x8E, 0x5a, 0x5d, 0x63, 0xcb, 0x06, 0x78, 0x57, 0x8E, 0x5a, 0x5d, 0x63, 0xcb, 0x06, 0x78, 0x57, 0x8E, 0x5a, 0x5d, 0x63, 0xcb, 0x06 }; byte derived[32]; DECLARE_MULTI_VALUE_STATS_VARS() bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { ret = wc_PBKDF2(derived, (const byte*)passwd32, (int)XSTRLEN(passwd32), salt32, (int)sizeof(salt32), 1000, 32, WC_SHA256); count++; RECORD_MULTI_VALUE_STATS(); } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_LOCK(); bench_stats_sym_finish("PBKDF2", 32, count, 32, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif /* !NO_PWDBASED */ #endif /* NO_HMAC */ #ifdef WOLFSSL_SIPHASH void bench_siphash(void) { double start; int ret = 0, count; const char* passwd16 = "passwordpassword"; byte out[16]; int i; DECLARE_MULTI_VALUE_STATS_VARS() bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_SipHash((const byte*)passwd16, bench_plain, bench_size, out, 8); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SipHash-8", 1, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < numBlocks; i++) { ret = wc_SipHash((const byte*)passwd16, bench_plain, bench_size, out, 16); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_sym_finish("SipHash-16", 1, count, bench_size, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif #ifdef WC_SRTP_KDF void bench_srtpkdf(void) { double start; int count; int ret = 0; byte keyE[32]; byte keyA[20]; byte keyS[14]; const byte *key = bench_key_buf; const byte salt[14] = { 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e }; const byte index[6] = { 0x55, 0xAA, 0x55, 0xAA, 0x55, 0xAA }; int kdrIdx = 0; int i; DECLARE_MULTI_VALUE_STATS_VARS() bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { for (i = 0; i < numBlocks; i++) { ret = wc_SRTP_KDF(key, AES_128_KEY_SIZE, salt, sizeof(salt), kdrIdx, index, keyE, AES_128_KEY_SIZE, keyA, sizeof(keyA), keyS, sizeof(keyS)); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_LOCK(); bench_stats_asym_finish("KDF", 128, "SRTP", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { for (i = 0; i < numBlocks; i++) { ret = wc_SRTP_KDF(key, AES_256_KEY_SIZE, salt, sizeof(salt), kdrIdx, index, keyE, AES_256_KEY_SIZE, keyA, sizeof(keyA), keyS, sizeof(keyS)); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_LOCK(); bench_stats_asym_finish("KDF", 256, "SRTP", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { for (i = 0; i < numBlocks; i++) { ret = wc_SRTCP_KDF(key, AES_128_KEY_SIZE, salt, sizeof(salt), kdrIdx, index, keyE, AES_128_KEY_SIZE, keyA, sizeof(keyA), keyS, sizeof(keyS)); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_LOCK(); bench_stats_asym_finish("KDF", 128, "SRTCP", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { for (i = 0; i < numBlocks; i++) { ret = wc_SRTCP_KDF(key, AES_256_KEY_SIZE, salt, sizeof(salt), kdrIdx, index, keyE, AES_256_KEY_SIZE, keyA, sizeof(keyA), keyS, sizeof(keyS)); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_LOCK(); bench_stats_asym_finish("KDF", 256, "SRTCP", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif #ifndef NO_RSA #if defined(WOLFSSL_KEY_GEN) static void bench_rsaKeyGen_helper(int useDeviceID, word32 keySz) { WC_DECLARE_ARRAY(genKey, RsaKey, BENCH_MAX_PENDING, sizeof(RsaKey), HEAP_HINT); double start = 0; int ret = 0, i, count = 0, times, pending = 0; const long rsa_e_val = WC_RSA_EXPONENT; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() WC_CALLOC_ARRAY(genKey, RsaKey, BENCH_MAX_PENDING, sizeof(RsaKey), HEAP_HINT); bench_stats_start(&count, &start); do { /* while free pending slots in queue, submit ops */ for (times = 0; times < genTimes || pending > 0; ) { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 0, ×, genTimes, &pending)) { wc_FreeRsaKey(genKey[i]); ret = wc_InitRsaKey_ex(genKey[i], HEAP_HINT, devId); if (ret < 0) { goto exit; } ret = wc_MakeRsaKey(genKey[i], (int)keySz, rsa_e_val, &gRng); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 0, ×, &pending)) { goto exit; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit: bench_stats_asym_finish("RSA", (int)keySz, desc[2], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif /* cleanup */ for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_FreeRsaKey(genKey[i]); } WC_FREE_ARRAY(genKey, BENCH_MAX_PENDING, HEAP_HINT); } void bench_rsaKeyGen(int useDeviceID) { int k; #if !defined(RSA_MAX_SIZE) || !defined(RSA_MIN_SIZE) static const word32 keySizes[2] = {1024, 2048 }; #elif RSA_MAX_SIZE >= 4096 #if (!defined(WOLFSSL_SP_MATH) || defined(WOLFSSL_SP_MATH_ALL)) && \ (RSA_MIN_SIZE <= 1024) static const word32 keySizes[4] = {1024, 2048, 3072, 4096 }; #else static const word32 keySizes[3] = {2048, 3072, 4096}; #endif #elif RSA_MAX_SIZE >= 3072 #if (!defined(WOLFSSL_SP_MATH) || defined(WOLFSSL_SP_MATH_ALL)) && \ (RSA_MIN_SIZE <= 1024) static const word32 keySizes[3] = {1024, 2048, 3072 }; #else static const word32 keySizes[2] = {2048, 3072 }; #endif #elif RSA_MAX_SIZE >= 2048 #if (!defined(WOLFSSL_SP_MATH) || defined(WOLFSSL_SP_MATH_ALL)) && \ (RSA_MIN_SIZE <= 1024) static const word32 keySizes[2] = {1024, 2048 }; #else static const word32 keySizes[1] = {2048}; #endif #else #if (!defined(WOLFSSL_SP_MATH) || defined(WOLFSSL_SP_MATH_ALL)) && \ (RSA_MIN_SIZE <= 1024) static const word32 keySizes[1] = {1024 }; #else #error No candidate RSA key sizes to benchmark. #endif #endif for (k = 0; k < (int)(sizeof(keySizes)/sizeof(int)); k++) { bench_rsaKeyGen_helper(useDeviceID, keySizes[k]); } } void bench_rsaKeyGen_size(int useDeviceID, word32 keySz) { bench_rsaKeyGen_helper(useDeviceID, keySz); } #endif /* WOLFSSL_KEY_GEN */ #if !defined(USE_CERT_BUFFERS_1024) && !defined(USE_CERT_BUFFERS_2048) && \ !defined(USE_CERT_BUFFERS_3072) && !defined(USE_CERT_BUFFERS_4096) #if defined(WOLFSSL_MDK_SHELL) static char *certRSAname = "certs/rsa2048.der"; /* set by shell command */ static void set_Bench_RSA_File(char * cert) { certRSAname = cert ; } #elif defined(FREESCALE_MQX) static char *certRSAname = "a:\\certs\\rsa2048.der"; #else static const char *certRSAname = "certs/rsa2048.der"; #endif #endif #define RSA_BUF_SIZE 384 /* for up to 3072 bit */ #if defined(WOLFSSL_RSA_VERIFY_INLINE) || defined(WOLFSSL_RSA_PUBLIC_ONLY) #if defined(USE_CERT_BUFFERS_2048) static const unsigned char rsa_2048_sig[] = { 0x8c, 0x9e, 0x37, 0xbf, 0xc3, 0xa6, 0xba, 0x1c, 0x53, 0x22, 0x40, 0x4b, 0x8b, 0x0d, 0x3c, 0x0e, 0x2e, 0x8c, 0x31, 0x2c, 0x47, 0xbf, 0x03, 0x48, 0x18, 0x46, 0x73, 0x8d, 0xd7, 0xdd, 0x17, 0x64, 0x0d, 0x7f, 0xdc, 0x74, 0xed, 0x80, 0xc3, 0xe8, 0x9a, 0x18, 0x33, 0xd4, 0xe6, 0xc5, 0xe1, 0x54, 0x75, 0xd1, 0xbb, 0x40, 0xde, 0xa8, 0xb9, 0x1b, 0x14, 0xe8, 0xc1, 0x39, 0xeb, 0xa0, 0x69, 0x8a, 0xc6, 0x9b, 0xef, 0x53, 0xb5, 0x23, 0x2b, 0x78, 0x06, 0x43, 0x37, 0x11, 0x81, 0x84, 0x73, 0x33, 0x33, 0xfe, 0xf7, 0x5d, 0x2b, 0x84, 0xd6, 0x83, 0xd6, 0xdd, 0x55, 0x33, 0xef, 0xd1, 0xf7, 0x12, 0xb0, 0xc2, 0x0e, 0xb1, 0x78, 0xd4, 0xa8, 0xa3, 0x25, 0xeb, 0xed, 0x9a, 0xb3, 0xee, 0xc3, 0x7e, 0xce, 0x13, 0x18, 0x86, 0x31, 0xe1, 0xef, 0x01, 0x0f, 0x6e, 0x67, 0x24, 0x74, 0xbd, 0x0b, 0x7f, 0xa9, 0xca, 0x6f, 0xaa, 0x83, 0x28, 0x90, 0x40, 0xf1, 0xb5, 0x10, 0x0e, 0x26, 0x03, 0x05, 0x5d, 0x87, 0xb4, 0xe0, 0x4c, 0x98, 0xd8, 0xc6, 0x42, 0x89, 0x77, 0xeb, 0xb6, 0xd4, 0xe6, 0x26, 0xf3, 0x31, 0x25, 0xde, 0x28, 0x38, 0x58, 0xe8, 0x2c, 0xf4, 0x56, 0x7c, 0xb6, 0xfd, 0x99, 0xb0, 0xb0, 0xf4, 0x83, 0xb6, 0x74, 0xa9, 0x5b, 0x9f, 0xe8, 0xe9, 0xf1, 0xa1, 0x2a, 0xbd, 0xf6, 0x83, 0x28, 0x09, 0xda, 0xa6, 0xd6, 0xcd, 0x61, 0x60, 0xf7, 0x13, 0x4e, 0x46, 0x57, 0x38, 0x1e, 0x11, 0x92, 0x6b, 0x6b, 0xcf, 0xd3, 0xf4, 0x8b, 0x66, 0x03, 0x25, 0xa3, 0x7a, 0x2f, 0xce, 0xc1, 0x85, 0xa5, 0x48, 0x91, 0x8a, 0xb3, 0x4f, 0x5d, 0x98, 0xb1, 0x69, 0x58, 0x47, 0x69, 0x0c, 0x52, 0xdc, 0x42, 0x4c, 0xef, 0xe8, 0xd4, 0x4d, 0x6a, 0x33, 0x7d, 0x9e, 0xd2, 0x51, 0xe6, 0x41, 0xbf, 0x4f, 0xa2 }; #elif defined(USE_CERT_BUFFERS_3072) static const unsigned char rsa_3072_sig[] = { 0x1a, 0xd6, 0x0d, 0xfd, 0xe3, 0x41, 0x95, 0x76, 0x27, 0x16, 0x7d, 0xc7, 0x94, 0x16, 0xca, 0xa8, 0x26, 0x08, 0xbe, 0x78, 0x87, 0x72, 0x4c, 0xd9, 0xa7, 0xfc, 0x33, 0x77, 0x2d, 0x53, 0x07, 0xb5, 0x8c, 0xce, 0x48, 0x17, 0x9b, 0xff, 0x9f, 0x9b, 0x17, 0xc4, 0xbb, 0x72, 0xed, 0xdb, 0xa0, 0x34, 0x69, 0x5b, 0xc7, 0x4e, 0xbf, 0xec, 0x13, 0xc5, 0x98, 0x71, 0x9a, 0x4e, 0x18, 0x0e, 0xcb, 0xe7, 0xc6, 0xd5, 0x21, 0x31, 0x7c, 0x0d, 0xae, 0x14, 0x2b, 0x87, 0x4f, 0x77, 0x95, 0x2e, 0x26, 0xe2, 0x83, 0xfe, 0x49, 0x1e, 0x87, 0x19, 0x4a, 0x63, 0x73, 0x75, 0xf1, 0xf5, 0x71, 0xd2, 0xce, 0xd4, 0x39, 0x2b, 0xd9, 0xe0, 0x76, 0x70, 0xc8, 0xf8, 0xed, 0xdf, 0x90, 0x57, 0x17, 0xb9, 0x16, 0xf6, 0xe9, 0x49, 0x48, 0xce, 0x5a, 0x8b, 0xe4, 0x84, 0x7c, 0xf3, 0x31, 0x68, 0x97, 0x45, 0x68, 0x38, 0x50, 0x3a, 0x70, 0xbd, 0xb3, 0xd3, 0xd2, 0xe0, 0x56, 0x5b, 0xc2, 0x0c, 0x2c, 0x10, 0x70, 0x7b, 0xd4, 0x99, 0xf9, 0x38, 0x31, 0xb1, 0x86, 0xa0, 0x07, 0xf1, 0xf6, 0x53, 0xb0, 0x44, 0x82, 0x40, 0xd2, 0xab, 0x0e, 0x71, 0x5d, 0xe1, 0xea, 0x3a, 0x77, 0xc9, 0xef, 0xfe, 0x54, 0x65, 0xa3, 0x49, 0xfd, 0xa5, 0x33, 0xaa, 0x16, 0x1a, 0x38, 0xe7, 0xaa, 0xb7, 0x13, 0xb2, 0x3b, 0xc7, 0x00, 0x87, 0x12, 0xfe, 0xfd, 0xf4, 0x55, 0x6d, 0x1d, 0x4a, 0x0e, 0xad, 0xd0, 0x4c, 0x55, 0x91, 0x60, 0xd9, 0xef, 0x74, 0x69, 0x22, 0x8c, 0x51, 0x65, 0xc2, 0x04, 0xac, 0xd3, 0x8d, 0xf7, 0x35, 0x29, 0x13, 0x6d, 0x61, 0x7c, 0x39, 0x2f, 0x41, 0x4c, 0xdf, 0x38, 0xfd, 0x1a, 0x7d, 0x42, 0xa7, 0x6f, 0x3f, 0x3d, 0x9b, 0xd1, 0x97, 0xab, 0xc0, 0xa7, 0x28, 0x1c, 0xc0, 0x02, 0x26, 0xeb, 0xce, 0xf9, 0xe1, 0x34, 0x45, 0xaf, 0xbf, 0x8d, 0xb8, 0xe0, 0xff, 0xd9, 0x6f, 0x77, 0xf3, 0xf7, 0xed, 0x6a, 0xbb, 0x03, 0x52, 0xfb, 0x38, 0xfc, 0xea, 0x9f, 0xc9, 0x98, 0xed, 0x21, 0x45, 0xaf, 0x43, 0x2b, 0x64, 0x96, 0x82, 0x30, 0xe9, 0xb4, 0x36, 0x89, 0x77, 0x07, 0x4a, 0xc6, 0x1f, 0x38, 0x7a, 0xee, 0xb6, 0x86, 0xf6, 0x2f, 0x03, 0xec, 0xa2, 0xe5, 0x48, 0xe5, 0x5a, 0xf5, 0x1c, 0xd2, 0xd9, 0xd8, 0x2d, 0x9d, 0x06, 0x07, 0xc9, 0x8b, 0x5d, 0xe0, 0x0f, 0x5e, 0x0c, 0x53, 0x27, 0xff, 0x23, 0xee, 0xca, 0x5e, 0x4d, 0xf1, 0x95, 0x77, 0x78, 0x1f, 0xf2, 0x44, 0x5b, 0x7d, 0x01, 0x49, 0x61, 0x6f, 0x6d, 0xbf, 0xf5, 0x19, 0x06, 0x39, 0xe9, 0xe9, 0x29, 0xde, 0x47, 0x5e, 0x2e, 0x1f, 0x68, 0xf4, 0x32, 0x5e, 0xe9, 0xd0, 0xa7, 0xb4, 0x2a, 0x45, 0xdf, 0x15, 0x7d, 0x0d, 0x5b, 0xef, 0xc6, 0x23, 0xac }; #else #error Not Supported Yet! #endif #endif /* WOLFSSL_RSA_VERIFY_INLINE || WOLFSSL_RSA_PUBLIC_ONLY */ static void bench_rsa_helper(int useDeviceID, WC_ARRAY_ARG(rsaKey, RsaKey, BENCH_MAX_PENDING, sizeof(RsaKey)), word32 rsaKeySz) { int ret = 0, i, times, count = 0, pending = 0; word32 idx = 0; #ifndef WOLFSSL_RSA_VERIFY_ONLY const char* messageStr = TEST_STRING; const int len = (int)TEST_STRING_SZ; #endif double start = 0.0F; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() #ifndef WOLFSSL_RSA_VERIFY_ONLY WC_DECLARE_VAR(message, byte, TEST_STRING_SZ, HEAP_HINT); #endif WC_DECLARE_HEAP_ARRAY(enc, byte, BENCH_MAX_PENDING, rsaKeySz, HEAP_HINT); #if (!defined(WOLFSSL_RSA_VERIFY_INLINE) && \ !defined(WOLFSSL_RSA_PUBLIC_ONLY)) WC_DECLARE_HEAP_ARRAY(out, byte, BENCH_MAX_PENDING, rsaKeySz, HEAP_HINT); #else byte* out[BENCH_MAX_PENDING]; #endif XMEMSET(out, 0, sizeof(out)); WC_ALLOC_HEAP_ARRAY(enc, byte, BENCH_MAX_PENDING, rsaKeySz, HEAP_HINT); #if (!defined(WOLFSSL_RSA_VERIFY_INLINE) && \ !defined(WOLFSSL_RSA_PUBLIC_ONLY)) WC_ALLOC_HEAP_ARRAY(out, byte, BENCH_MAX_PENDING, rsaKeySz, HEAP_HINT); if (out[0] == NULL) { ret = MEMORY_E; goto exit; } #endif if (enc[0] == NULL) { ret = MEMORY_E; goto exit; } #ifndef WOLFSSL_RSA_VERIFY_ONLY WC_ALLOC_VAR(message, byte, TEST_STRING_SZ, HEAP_HINT); XMEMCPY(message, messageStr, len); #endif if (!rsa_sign_verify) { #ifndef WOLFSSL_RSA_VERIFY_ONLY /* begin public RSA */ bench_stats_start(&count, &start); do { for (times = 0; times < ntimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(rsaKey[i]), 1, ×, ntimes, &pending)) { ret = wc_RsaPublicEncrypt(message, (word32)len, enc[i], rsaKeySz/8, rsaKey[i], GLOBAL_RNG); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV( rsaKey[i]), 1, ×, &pending)) { goto exit_rsa_verify; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_rsa_verify: bench_stats_asym_finish("RSA", (int)rsaKeySz, desc[0], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* !WOLFSSL_RSA_VERIFY_ONLY */ #ifndef WOLFSSL_RSA_PUBLIC_ONLY if (ret < 0) { goto exit; } RESET_MULTI_VALUE_STATS_VARS(); /* capture resulting encrypt length */ idx = (word32)(rsaKeySz/8); /* begin private async RSA */ bench_stats_start(&count, &start); do { for (times = 0; times < ntimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(rsaKey[i]), 1, ×, ntimes, &pending)) { ret = wc_RsaPrivateDecrypt(enc[i], idx, out[i], rsaKeySz/8, rsaKey[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(rsaKey[i]), 1, ×, &pending)) { goto exit_rsa_pub; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_rsa_pub: bench_stats_asym_finish("RSA", (int)rsaKeySz, desc[1], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* !WOLFSSL_RSA_PUBLIC_ONLY */ } else { #if !defined(WOLFSSL_RSA_PUBLIC_ONLY) && !defined(WOLFSSL_RSA_VERIFY_ONLY) /* begin RSA sign */ bench_stats_start(&count, &start); do { for (times = 0; times < ntimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(rsaKey[i]), 1, ×, ntimes, &pending)) { ret = wc_RsaSSL_Sign(message, len, enc[i], rsaKeySz/8, rsaKey[i], GLOBAL_RNG); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(rsaKey[i]), 1, ×, &pending)) { goto exit_rsa_sign; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_rsa_sign: bench_stats_asym_finish("RSA", (int)rsaKeySz, desc[4], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret < 0) { goto exit; } RESET_MULTI_VALUE_STATS_VARS(); #endif /* !WOLFSSL_RSA_PUBLIC_ONLY && !WOLFSSL_RSA_VERIFY_ONLY */ /* capture resulting encrypt length */ idx = rsaKeySz/8; /* begin RSA verify */ bench_stats_start(&count, &start); do { for (times = 0; times < ntimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(rsaKey[i]), 1, ×, ntimes, &pending)) { #if !defined(WOLFSSL_RSA_VERIFY_INLINE) && \ !defined(WOLFSSL_RSA_PUBLIC_ONLY) ret = wc_RsaSSL_Verify(enc[i], idx, out[i], rsaKeySz/8, rsaKey[i]); #elif defined(USE_CERT_BUFFERS_2048) XMEMCPY(enc[i], rsa_2048_sig, sizeof(rsa_2048_sig)); idx = sizeof(rsa_2048_sig); out[i] = NULL; ret = wc_RsaSSL_VerifyInline(enc[i], idx, &out[i], rsaKey[i]); if (ret > 0) { ret = 0; } #elif defined(USE_CERT_BUFFERS_3072) XMEMCPY(enc[i], rsa_3072_sig, sizeof(rsa_3072_sig)); idx = sizeof(rsa_3072_sig); out[i] = NULL; ret = wc_RsaSSL_VerifyInline(enc[i], idx, &out[i], rsaKey[i]); if (ret > 0) ret = 0; #endif if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(rsaKey[i]), 1, ×, &pending)) { goto exit_rsa_verifyinline; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_rsa_verifyinline: bench_stats_asym_finish("RSA", (int)rsaKeySz, desc[5], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } exit: WC_FREE_HEAP_ARRAY(enc, BENCH_MAX_PENDING, HEAP_HINT); #if !defined(WOLFSSL_RSA_VERIFY_INLINE) && !defined(WOLFSSL_RSA_PUBLIC_ONLY) WC_FREE_HEAP_ARRAY(out, BENCH_MAX_PENDING, HEAP_HINT); #endif #ifndef WOLFSSL_RSA_VERIFY_ONLY WC_FREE_VAR(message, HEAP_HINT); #endif } void bench_rsa(int useDeviceID) { int i; WC_DECLARE_ARRAY(rsaKey, RsaKey, BENCH_MAX_PENDING, sizeof(RsaKey), HEAP_HINT); int ret = 0; word32 rsaKeySz = 0; const byte* tmp; size_t bytes; #if !defined(WOLFSSL_RSA_PUBLIC_ONLY) && !defined(WOLFSSL_RSA_VERIFY_ONLY) word32 idx; #endif WC_CALLOC_ARRAY(rsaKey, RsaKey, BENCH_MAX_PENDING, sizeof(RsaKey), HEAP_HINT); #ifdef USE_CERT_BUFFERS_1024 tmp = rsa_key_der_1024; bytes = (size_t)sizeof_rsa_key_der_1024; rsaKeySz = 1024; #elif defined(USE_CERT_BUFFERS_2048) tmp = rsa_key_der_2048; bytes = (size_t)sizeof_rsa_key_der_2048; rsaKeySz = 2048; #elif defined(USE_CERT_BUFFERS_3072) tmp = rsa_key_der_3072; bytes = (size_t)sizeof_rsa_key_der_3072; rsaKeySz = 3072; #elif defined(USE_CERT_BUFFERS_4096) tmp = client_key_der_4096; bytes = (size_t)sizeof_client_key_der_4096; rsaKeySz = 4096; #else #error "need a cert buffer size" #endif /* USE_CERT_BUFFERS */ /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { /* setup an async context for each key */ ret = wc_InitRsaKey_ex(rsaKey[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret < 0) { goto exit; } #if !defined(WOLFSSL_RSA_PUBLIC_ONLY) && !defined(WOLFSSL_RSA_VERIFY_ONLY) #ifdef WC_RSA_BLINDING ret = wc_RsaSetRNG(rsaKey[i], &gRng); if (ret != 0) goto exit; #endif #endif #if !defined(WOLFSSL_RSA_PUBLIC_ONLY) && !defined(WOLFSSL_RSA_VERIFY_ONLY) /* decode the private key */ idx = 0; if ((ret = wc_RsaPrivateKeyDecode(tmp, &idx, rsaKey[i], (word32)bytes)) != 0) { printf("wc_RsaPrivateKeyDecode failed! %d\n", ret); goto exit; } #elif defined(WOLFSSL_PUBLIC_MP) /* get offset to public portion of the RSA key */ #ifdef USE_CERT_BUFFERS_1024 bytes = 11; #elif defined(USE_CERT_BUFFERS_2048) || defined(USE_CERT_BUFFERS_3072) bytes = 12; #endif ret = mp_read_unsigned_bin(&rsaKey[i]->n, &tmp[bytes], rsaKeySz/8); if (ret != 0) { printf("wc_RsaPrivateKeyDecode failed! %d\n", ret); goto exit; } ret = mp_set_int(&rsaKey[i]->e, WC_RSA_EXPONENT); if (ret != 0) { printf("wc_RsaPrivateKeyDecode failed! %d\n", ret); goto exit; } #else /* Note: To benchmark public only define WOLFSSL_PUBLIC_MP */ rsaKeySz = 0; #endif } if (rsaKeySz > 0) { bench_rsa_helper(useDeviceID, rsaKey, rsaKeySz); } (void)bytes; (void)tmp; exit: /* cleanup */ if (WC_ARRAY_OK(rsaKey)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_FreeRsaKey(rsaKey[i]); } WC_FREE_ARRAY(rsaKey, BENCH_MAX_PENDING, HEAP_HINT); } } #ifdef WOLFSSL_KEY_GEN /* bench any size of RSA key */ void bench_rsa_key(int useDeviceID, word32 rsaKeySz) { int ret = 0, i, pending = 0; WC_DECLARE_ARRAY(rsaKey, RsaKey, BENCH_MAX_PENDING, sizeof(RsaKey), HEAP_HINT); int isPending[BENCH_MAX_PENDING]; long exp = 65537L; /* clear for done cleanup */ XMEMSET(isPending, 0, sizeof(isPending)); WC_CALLOC_ARRAY(rsaKey, RsaKey, BENCH_MAX_PENDING, sizeof(RsaKey), HEAP_HINT); /* init keys */ do { pending = 0; for (i = 0; i < BENCH_MAX_PENDING; i++) { if (!isPending[i]) { /* if making the key is pending then just call * wc_MakeRsaKey again */ /* setup an async context for each key */ if (wc_InitRsaKey_ex(rsaKey[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID) < 0) { goto exit; } #ifdef WC_RSA_BLINDING ret = wc_RsaSetRNG(rsaKey[i], &gRng); if (ret != 0) goto exit; #endif } /* create the RSA key */ ret = wc_MakeRsaKey(rsaKey[i], (int)rsaKeySz, exp, &gRng); if (ret == WC_NO_ERR_TRACE(WC_PENDING_E)) { isPending[i] = 1; pending = 1; } else if (ret != 0) { printf("wc_MakeRsaKey failed! %d\n", ret); goto exit; } } /* for i */ } while (pending > 0); bench_rsa_helper(useDeviceID, rsaKey, rsaKeySz); exit: /* cleanup */ if (WC_ARRAY_OK(rsaKey)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_FreeRsaKey(rsaKey[i]); } WC_FREE_ARRAY(rsaKey, BENCH_MAX_PENDING, HEAP_HINT); } } #endif /* WOLFSSL_KEY_GEN */ #endif /* !NO_RSA */ #ifndef NO_DH #if !defined(USE_CERT_BUFFERS_1024) && !defined(USE_CERT_BUFFERS_2048) && \ !defined(USE_CERT_BUFFERS_3072) && !defined(USE_CERT_BUFFERS_4096) #if defined(WOLFSSL_MDK_SHELL) static char *certDHname = "certs/dh2048.der"; /* set by shell command */ void set_Bench_DH_File(char * cert) { certDHname = cert ; } #elif defined(FREESCALE_MQX) static char *certDHname = "a:\\certs\\dh2048.der"; #elif defined(NO_ASN) /* do nothing, but don't need a file */ #else static const char *certDHname = "certs/dh2048.der"; #endif #endif #ifdef HAVE_FFDHE_4096 #define BENCH_DH_KEY_SIZE 512 /* for 4096 bit */ #else #define BENCH_DH_KEY_SIZE 384 /* for 3072 bit */ #endif #define BENCH_DH_PRIV_SIZE (BENCH_DH_KEY_SIZE/8) void bench_dh(int useDeviceID) { int ret = 0, i; int count = 0, times, pending = 0; const byte* tmp = NULL; double start = 0.0F; WC_DECLARE_ARRAY(dhKey, DhKey, BENCH_MAX_PENDING, sizeof(DhKey), HEAP_HINT); int dhKeySz = BENCH_DH_KEY_SIZE * 8; /* used in printf */ const char**desc = bench_desc_words[lng_index]; #ifndef NO_ASN size_t bytes = 0; word32 idx; #endif word32 pubSz[BENCH_MAX_PENDING]; word32 privSz[BENCH_MAX_PENDING]; word32 pubSz2 = BENCH_DH_KEY_SIZE; word32 privSz2 = BENCH_DH_PRIV_SIZE; word32 agreeSz[BENCH_MAX_PENDING]; #if defined(HAVE_FFDHE_2048) || defined(HAVE_FFDHE_3072) || defined(HAVE_FFDHE_4096) #ifdef HAVE_PUBLIC_FFDHE const DhParams *params = NULL; #else int paramName = 0; #endif #endif DECLARE_MULTI_VALUE_STATS_VARS() WC_DECLARE_ARRAY(pub, byte, BENCH_MAX_PENDING, BENCH_DH_KEY_SIZE, HEAP_HINT); WC_DECLARE_VAR(pub2, byte, BENCH_DH_KEY_SIZE, HEAP_HINT); WC_DECLARE_ARRAY(agree, byte, BENCH_MAX_PENDING, BENCH_DH_KEY_SIZE, HEAP_HINT); WC_DECLARE_ARRAY(priv, byte, BENCH_MAX_PENDING, BENCH_DH_PRIV_SIZE, HEAP_HINT); WC_DECLARE_VAR(priv2, byte, BENCH_DH_PRIV_SIZE, HEAP_HINT); /* old scan-build misfires -Wmaybe-uninitialized on these. */ XMEMSET(pub, 0, sizeof(pub)); XMEMSET(agree, 0, sizeof(agree)); XMEMSET(priv, 0, sizeof(priv)); WC_CALLOC_ARRAY(dhKey, DhKey, BENCH_MAX_PENDING, sizeof(DhKey), HEAP_HINT); WC_ALLOC_ARRAY(pub, byte, BENCH_MAX_PENDING, BENCH_DH_KEY_SIZE, HEAP_HINT); WC_ALLOC_ARRAY(agree, byte, BENCH_MAX_PENDING, BENCH_DH_KEY_SIZE, HEAP_HINT); WC_ALLOC_ARRAY(priv, byte, BENCH_MAX_PENDING, BENCH_DH_PRIV_SIZE, HEAP_HINT); WC_ALLOC_VAR(pub2, byte, BENCH_DH_KEY_SIZE, HEAP_HINT); WC_ALLOC_VAR(priv2, byte, BENCH_DH_PRIV_SIZE, HEAP_HINT); (void)tmp; if (!use_ffdhe) { #if defined(NO_ASN) dhKeySz = 1024; /* do nothing, but don't use default FILE */ #elif defined(USE_CERT_BUFFERS_1024) tmp = dh_key_der_1024; bytes = (size_t)sizeof_dh_key_der_1024; dhKeySz = 1024; #elif defined(USE_CERT_BUFFERS_2048) tmp = dh_key_der_2048; bytes = (size_t)sizeof_dh_key_der_2048; dhKeySz = 2048; #elif defined(USE_CERT_BUFFERS_3072) tmp = dh_key_der_3072; bytes = (size_t)sizeof_dh_key_der_3072; dhKeySz = 3072; #elif defined(USE_CERT_BUFFERS_4096) tmp = dh_key_der_4096; bytes = (size_t)sizeof_dh_key_der_4096; dhKeySz = 4096; #else #error "need to define a cert buffer size" #endif /* USE_CERT_BUFFERS */ } #ifdef HAVE_FFDHE_2048 else if (use_ffdhe == 2048) { #ifdef HAVE_PUBLIC_FFDHE params = wc_Dh_ffdhe2048_Get(); #else paramName = WC_FFDHE_2048; #endif dhKeySz = 2048; } #endif #ifdef HAVE_FFDHE_3072 else if (use_ffdhe == 3072) { #ifdef HAVE_PUBLIC_FFDHE params = wc_Dh_ffdhe3072_Get(); #else paramName = WC_FFDHE_3072; #endif dhKeySz = 3072; } #endif #ifdef HAVE_FFDHE_4096 else if (use_ffdhe == 4096) { #ifdef HAVE_PUBLIC_FFDHE params = wc_Dh_ffdhe4096_Get(); #else paramName = WC_FFDHE_4096; #endif dhKeySz = 4096; } #endif /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { /* setup an async context for each key */ ret = wc_InitDhKey_ex(dhKey[i], HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) goto exit; /* setup key */ if (!use_ffdhe) { #ifdef NO_ASN ret = wc_DhSetKey(dhKey[i], dh_p, sizeof(dh_p), dh_g, sizeof(dh_g)); #else idx = 0; ret = wc_DhKeyDecode(tmp, &idx, dhKey[i], (word32)bytes); #endif } #if defined(HAVE_FFDHE_2048) || defined(HAVE_FFDHE_3072) #ifdef HAVE_PUBLIC_FFDHE else if (params != NULL) { ret = wc_DhSetKey(dhKey[i], params->p, params->p_len, params->g, params->g_len); } #else else if (paramName != 0) { ret = wc_DhSetNamedKey(dhKey[i], paramName); } #endif #endif if (ret != 0) { printf("DhKeyDecode failed %d, can't benchmark\n", ret); goto exit; } } /* Key Gen */ bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { /* while free pending slots in queue, submit ops */ for (times = 0; times < genTimes || pending > 0; ) { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(dhKey[i]), 0, ×, genTimes, &pending)) { privSz[i] = BENCH_DH_PRIV_SIZE; pubSz[i] = BENCH_DH_KEY_SIZE; ret = wc_DhGenerateKeyPair(dhKey[i], &gRng, priv[i], &privSz[i], pub[i], &pubSz[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(dhKey[i]), 0, ×, &pending)) { goto exit_dh_gen; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_LOCK(); exit_dh_gen: bench_stats_asym_finish("DH", dhKeySz, desc[2], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret < 0) { goto exit; } RESET_MULTI_VALUE_STATS_VARS(); /* Generate key to use as other public */ PRIVATE_KEY_UNLOCK(); ret = wc_DhGenerateKeyPair(dhKey[0], &gRng, priv2, &privSz2, pub2, &pubSz2); PRIVATE_KEY_LOCK(); #ifdef WOLFSSL_ASYNC_CRYPT ret = wc_AsyncWait(ret, &dhKey[0]->asyncDev, WC_ASYNC_FLAG_NONE); #endif /* Key Agree */ bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(dhKey[i]), 0, ×, agreeTimes, &pending)) { ret = wc_DhAgree(dhKey[i], agree[i], &agreeSz[i], priv[i], privSz[i], pub2, pubSz2); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(dhKey[i]), 0, ×, &pending)) { goto exit; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_LOCK(); exit: bench_stats_asym_finish("DH", dhKeySz, desc[3], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif /* cleanup */ if (WC_ARRAY_OK(dhKey)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_FreeDhKey(dhKey[i]); } WC_FREE_ARRAY(dhKey, BENCH_MAX_PENDING, HEAP_HINT); } WC_FREE_ARRAY(pub, BENCH_MAX_PENDING, HEAP_HINT); WC_FREE_VAR(pub2, HEAP_HINT); WC_FREE_ARRAY(priv, BENCH_MAX_PENDING, HEAP_HINT); WC_FREE_VAR(priv2, HEAP_HINT); WC_FREE_ARRAY(agree, BENCH_MAX_PENDING, HEAP_HINT); } #endif /* !NO_DH */ #ifdef WOLFSSL_HAVE_KYBER static void bench_kyber_keygen(int type, const char* name, int keySize, KyberKey* key) { int ret = 0, times, count, pending = 0; double start; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() /* KYBER Make Key */ bench_stats_start(&count, &start); do { /* while free pending slots in queue, submit ops */ for (times = 0; times < agreeTimes || pending > 0; times++) { wc_KyberKey_Free(key); ret = wc_KyberKey_Init(type, key, HEAP_HINT, INVALID_DEVID); if (ret != 0) goto exit; #ifdef KYBER_NONDETERMINISTIC ret = wc_KyberKey_MakeKey(key, &gRng); #else unsigned char rand[KYBER_MAKEKEY_RAND_SZ] = {0,}; ret = wc_KyberKey_MakeKeyWithRandom(key, rand, sizeof(rand)); #endif if (ret != 0) goto exit; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit: bench_stats_asym_finish(name, keySize, desc[2], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } static void bench_kyber_encap(const char* name, int keySize, KyberKey* key) { int ret = 0, times, count, pending = 0; double start; const char**desc = bench_desc_words[lng_index]; byte ct[KYBER_MAX_CIPHER_TEXT_SIZE]; byte ss[KYBER_SS_SZ]; word32 ctSz; DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_KyberKey_CipherTextSize(key, &ctSz); if (ret != 0) { return; } /* KYBER Encapsulate */ bench_stats_start(&count, &start); do { /* while free pending slots in queue, submit ops */ for (times = 0; times < agreeTimes || pending > 0; times++) { #ifdef KYBER_NONDETERMINISTIC ret = wc_KyberKey_Encapsulate(key, ct, ss, &gRng); #else unsigned char rand[KYBER_ENC_RAND_SZ] = {0,}; ret = wc_KyberKey_EncapsulateWithRandom(key, ct, ss, rand, sizeof(rand)); #endif if (ret != 0) goto exit_encap; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_encap: bench_stats_asym_finish(name, keySize, desc[9], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); /* KYBER Decapsulate */ bench_stats_start(&count, &start); do { /* while free pending slots in queue, submit ops */ for (times = 0; times < agreeTimes || pending > 0; times++) { ret = wc_KyberKey_Decapsulate(key, ss, ct, ctSz); if (ret != 0) goto exit_decap; RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_decap: bench_stats_asym_finish(name, keySize, desc[13], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } void bench_kyber(int type) { KyberKey key; const char* name = NULL; int keySize = 0; switch (type) { #ifndef WOLFSSL_NO_ML_KEM #ifdef WOLFSSL_WC_ML_KEM_512 case WC_ML_KEM_512: name = "ML-KEM 512 "; keySize = 128; break; #endif #ifdef WOLFSSL_WC_ML_KEM_768 case WC_ML_KEM_768: name = "ML-KEM 768 "; keySize = 192; break; #endif #ifdef WOLFSSL_WC_ML_KEM_1024 case WC_ML_KEM_1024: name = "ML-KEM 1024 "; keySize = 256; break; #endif #endif #ifdef WOLFSSL_KYBER_ORIGINAL #ifdef WOLFSSL_KYBER512 case KYBER512: name = "KYBER512 "; keySize = 128; break; #endif #ifdef WOLFSSL_KYBER768 case KYBER768: name = "KYBER768 "; keySize = 192; break; #endif #ifdef WOLFSSL_KYBER1024 case KYBER1024: name = "KYBER1024"; keySize = 256; break; #endif #endif } bench_kyber_keygen(type, name, keySize, &key); bench_kyber_encap(name, keySize, &key); wc_KyberKey_Free(&key); } #endif #if defined(WOLFSSL_HAVE_LMS) && !defined(WOLFSSL_LMS_VERIFY_ONLY) #ifndef WOLFSSL_NO_LMS_SHA256_256 /* WC_LMS_PARM_L2_H10_W2 * signature length: 9300 */ static const byte lms_priv_L2_H10_W2[64] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x62,0x62,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF, 0xC7,0x74,0x25,0x5B,0x2C,0xE8,0xDA,0x53, 0xF0,0x7C,0x04,0x3F,0x64,0x2D,0x26,0x2C, 0x46,0x1D,0xC8,0x90,0x77,0x59,0xD6,0xC0, 0x56,0x46,0x7D,0x97,0x64,0xF2,0xA3,0xA1, 0xF8,0xD0,0x3B,0x5F,0xAC,0x40,0xB9,0x9E, 0x83,0x67,0xBF,0x92,0x8D,0xFE,0x45,0x79 }; static const byte lms_pub_L2_H10_W2[60] = { 0x00,0x00,0x00,0x02,0x00,0x00,0x00,0x06, 0x00,0x00,0x00,0x02,0xF8,0xD0,0x3B,0x5F, 0xAC,0x40,0xB9,0x9E,0x83,0x67,0xBF,0x92, 0x8D,0xFE,0x45,0x79,0x41,0xBC,0x2A,0x3B, 0x9F,0xC0,0x11,0x12,0x93,0xF0,0x5A,0xA5, 0xC1,0x88,0x29,0x79,0x6C,0x3E,0x0A,0x0F, 0xEC,0x3B,0x3E,0xE4,0x38,0xD3,0xD2,0x34, 0x7F,0xC8,0x91,0xB0 }; /* WC_LMS_PARM_L2_H10_W4 * signature length: 5076 */ static const byte lms_priv_L2_H10_W4[64] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x63,0x63,0xFF,0xFF,0xFF,0xFF,0xFF,0xFF, 0xAE,0x28,0x87,0x19,0x4F,0x4B,0x68,0x61, 0x93,0x9A,0xC7,0x0E,0x33,0xB8,0xCE,0x96, 0x66,0x0D,0xC7,0xB1,0xFA,0x94,0x80,0xA2, 0x28,0x9B,0xCF,0xE2,0x08,0xB5,0x25,0xAC, 0xFB,0xB8,0x65,0x5E,0xD1,0xCC,0x31,0xDA, 0x2E,0x49,0x3A,0xEE,0xAF,0x63,0x70,0x5E }; static const byte lms_pub_L2_H10_W4[60] = { 0x00,0x00,0x00,0x02,0x00,0x00,0x00,0x06, 0x00,0x00,0x00,0x03,0xFB,0xB8,0x65,0x5E, 0xD1,0xCC,0x31,0xDA,0x2E,0x49,0x3A,0xEE, 0xAF,0x63,0x70,0x5E,0xA2,0xD5,0xB6,0x15, 0x33,0x8C,0x9B,0xE9,0xE1,0x91,0x40,0x1A, 0x12,0xE0,0xD7,0xBD,0xE4,0xE0,0x76,0xF5, 0x04,0x90,0x76,0xA5,0x9A,0xA7,0x4E,0xFE, 0x6B,0x9A,0xD3,0x14 }; /* WC_LMS_PARM_L3_H5_W4 * signature length: 7160 */ static const byte lms_priv_L3_H5_W4[64] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x53,0x53,0x53,0xFF,0xFF,0xFF,0xFF,0xFF, 0x38,0xD1,0xBE,0x68,0xD1,0x93,0xE1,0x14, 0x6C,0x8B,0xED,0xE2,0x25,0x88,0xED,0xAC, 0x57,0xBD,0x87,0x9F,0x54,0xF3,0x58,0xD9, 0x4D,0xF5,0x6A,0xBD,0x71,0x99,0x6A,0x28, 0x2F,0xE1,0xFC,0xD1,0xD1,0x0C,0x7C,0xF8, 0xB4,0xDC,0xDF,0x7F,0x14,0x1A,0x7B,0x50 }; static const byte lms_pub_L3_H5_W4[60] = { 0x00,0x00,0x00,0x03,0x00,0x00,0x00,0x05, 0x00,0x00,0x00,0x03,0x2F,0xE1,0xFC,0xD1, 0xD1,0x0C,0x7C,0xF8,0xB4,0xDC,0xDF,0x7F, 0x14,0x1A,0x7B,0x50,0x8E,0x3A,0xD4,0x05, 0x0C,0x95,0x59,0xA0,0xCA,0x7A,0xD8,0xD6, 0x5D,0xBD,0x42,0xBB,0xD5,0x82,0xB8,0x9C, 0x52,0x37,0xB7,0x45,0x03,0xC2,0x06,0xCE, 0xAB,0x4B,0x51,0x39 }; /* WC_LMS_PARM_L3_H5_W8 * signature length: 3992 */ static const byte lms_priv_L3_H5_W8[64] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x54,0x54,0x54,0xFF,0xFF,0xFF,0xFF,0xFF, 0xA5,0x46,0x97,0x0C,0xA1,0x3C,0xEA,0x17, 0x5C,0x9D,0x59,0xF4,0x0E,0x27,0x37,0xF3, 0x6A,0x1C,0xF7,0x29,0x4A,0xCC,0xCD,0x7B, 0x4F,0xE7,0x37,0x6E,0xEF,0xC1,0xBD,0xBD, 0x04,0x5D,0x8E,0xDD,0xAA,0x47,0xCC,0xE6, 0xCE,0x78,0x46,0x20,0x41,0x87,0xE0,0x85 }; static const byte lms_pub_L3_H5_W8[60] = { 0x00,0x00,0x00,0x03,0x00,0x00,0x00,0x05, 0x00,0x00,0x00,0x04,0x04,0x5D,0x8E,0xDD, 0xAA,0x47,0xCC,0xE6,0xCE,0x78,0x46,0x20, 0x41,0x87,0xE0,0x85,0x0D,0x2C,0x46,0xB9, 0x39,0x8C,0xA3,0x92,0x4F,0xCE,0x50,0x96, 0x90,0x9C,0xF3,0x36,0x2E,0x09,0x15,0x3B, 0x4B,0x34,0x17,0xE7,0xE2,0x55,0xFC,0x5B, 0x83,0xAB,0x43,0xAF }; /* WC_LMS_PARM_L3_H10_W4 * signature length: 7640 */ static const byte lms_priv_L3_H10_W4[64] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x63,0x63,0x63,0xFF,0xFF,0xFF,0xFF,0xFF, 0xDF,0x98,0xAB,0xEC,0xFE,0x13,0x9F,0xF8, 0xD7,0x2B,0x4F,0x4C,0x79,0x34,0xB8,0x89, 0x24,0x6B,0x26,0x7D,0x7A,0x2E,0xA2,0xCB, 0x82,0x75,0x4E,0x96,0x54,0x49,0xED,0xA0, 0xAF,0xC7,0xA5,0xEE,0x8A,0xA2,0x83,0x99, 0x4B,0x18,0x59,0x2B,0x66,0xC0,0x32,0xDB }; static const byte lms_pub_L3_H10_W4[60] = { 0x00,0x00,0x00,0x03,0x00,0x00,0x00,0x06, 0x00,0x00,0x00,0x03,0xAF,0xC7,0xA5,0xEE, 0x8A,0xA2,0x83,0x99,0x4B,0x18,0x59,0x2B, 0x66,0xC0,0x32,0xDB,0xC4,0x18,0xEB,0x11, 0x17,0x7D,0xAA,0x93,0xFD,0xA0,0x70,0x4D, 0x68,0x4B,0x63,0x8F,0xC2,0xE7,0xCA,0x34, 0x14,0x31,0x0D,0xAA,0x18,0xBF,0x9B,0x32, 0x8D,0x78,0xD5,0xA8 }; /* WC_LMS_PARM_L4_H5_W8 * signature length: 5340 */ static const byte lms_priv_L4_H5_W8[64] = { 0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00, 0x54,0x54,0x54,0x54,0xFF,0xFF,0xFF,0xFF, 0x46,0x8F,0x2A,0x4A,0x14,0x26,0xF0,0x89, 0xFE,0xED,0x66,0x0F,0x73,0x69,0xB1,0x4C, 0x47,0xA1,0x35,0x9F,0x7B,0xBA,0x08,0x03, 0xEE,0xA2,0xEB,0xAD,0xB4,0x82,0x52,0x1F, 0xFD,0x9B,0x22,0x82,0x42,0x1A,0x96,0x1E, 0xE4,0xA1,0x9C,0x33,0xED,0xE6,0x9F,0xAB }; static const byte lms_pub_L4_H5_W8[60] = { 0x00,0x00,0x00,0x04,0x00,0x00,0x00,0x05, 0x00,0x00,0x00,0x04,0xFD,0x9B,0x22,0x82, 0x42,0x1A,0x96,0x1E,0xE4,0xA1,0x9C,0x33, 0xED,0xE6,0x9F,0xAB,0x6B,0x47,0x05,0x5B, 0xA7,0xAD,0xF6,0x88,0xA5,0x4F,0xCD,0xF1, 0xDA,0x29,0x67,0xC3,0x7F,0x2C,0x11,0xFE, 0x85,0x1A,0x7A,0xD8,0xD5,0x46,0x74,0x3B, 0x74,0x24,0x12,0xC8 }; #endif static int lms_write_key_mem(const byte* priv, word32 privSz, void* context) { /* WARNING: THIS IS AN INSECURE WRITE CALLBACK THAT SHOULD ONLY * BE USED FOR TESTING PURPOSES! Production applications should * write only to non-volatile storage. */ XMEMCPY(context, priv, privSz); return WC_LMS_RC_SAVED_TO_NV_MEMORY; } static int lms_read_key_mem(byte* priv, word32 privSz, void* context) { /* WARNING: THIS IS AN INSECURE READ CALLBACK THAT SHOULD ONLY * BE USED FOR TESTING PURPOSES! */ XMEMCPY(priv, context, privSz); return WC_LMS_RC_READ_TO_MEMORY; } static byte lms_priv[HSS_MAX_PRIVATE_KEY_LEN]; static void bench_lms_keygen(enum wc_LmsParm parm, byte* pub) { WC_RNG rng; LmsKey key; int ret; word32 pubLen = HSS_MAX_PUBLIC_KEY_LEN; int times = 0; int count = 0; double start = 0.0F; int levels; int height; int winternitz; const char* str = wc_LmsKey_ParmToStr(parm); DECLARE_MULTI_VALUE_STATS_VARS() #ifndef HAVE_FIPS ret = wc_InitRng_ex(&rng, HEAP_HINT, INVALID_DEVID); #else ret = wc_InitRng(&rng); #endif if (ret != 0) { fprintf(stderr, "error: wc_InitRng failed: %d\n", ret); return; } ret = wc_LmsKey_Init(&key, NULL, INVALID_DEVID); if (ret) { printf("wc_LmsKey_Init failed: %d\n", ret); wc_FreeRng(&rng); return; } count = 0; bench_stats_start(&count, &start); do { /* LMS is stateful. Async queuing not practical. */ for (times = 0; times < 1; ++times) { wc_LmsKey_Free(&key); ret = wc_LmsKey_Init(&key, NULL, INVALID_DEVID); if (ret) { printf("wc_LmsKey_Init failed: %d\n", ret); goto exit_lms_keygen; } ret = wc_LmsKey_SetLmsParm(&key, parm); if (ret) { printf("wc_LmsKey_SetLmsParm failed: %d\n", ret); goto exit_lms_keygen; } ret = wc_LmsKey_GetParameters(&key, &levels, &height, &winternitz); if (ret) { fprintf(stderr, "error: wc_LmsKey_GetParameters failed: %d\n", ret); goto exit_lms_keygen; } ret = wc_LmsKey_SetWriteCb(&key, lms_write_key_mem); if (ret) { fprintf(stderr, "error: wc_LmsKey_SetWriteCb failed: %d\n", ret); goto exit_lms_keygen; } ret = wc_LmsKey_SetReadCb(&key, lms_read_key_mem); if (ret) { fprintf(stderr, "error: wc_LmsKey_SetReadCb failed: %d\n", ret); goto exit_lms_keygen; } ret = wc_LmsKey_SetContext(&key, (void*)lms_priv); if (ret) { fprintf(stderr, "error: wc_LmsKey_SetContext failed: %d\n", ret); goto exit_lms_keygen; } ret = wc_LmsKey_MakeKey(&key, &rng); if (ret) { printf("wc_LmsKey_MakeKey failed: %d\n", ret); goto exit_lms_keygen; } RECORD_MULTI_VALUE_STATS(); } count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish(str, levels * height, "keygen", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif ret = wc_LmsKey_ExportPubRaw(&key, pub, &pubLen); if (ret) { fprintf(stderr, "error: wc_LmsKey_ExportPubRaw failed: %d\n", ret); } exit_lms_keygen: wc_LmsKey_Free(&key); wc_FreeRng(&rng); } static void bench_lms_sign_verify(enum wc_LmsParm parm, byte* pub) { LmsKey key; int ret = 0; const char * msg = TEST_STRING; word32 msgSz = TEST_STRING_SZ; byte * sig = NULL; word32 sigSz = 0; word32 privLen = 0; int loaded = 0; int times = 0; int count = 0; double start = 0.0F; const char * str = wc_LmsKey_ParmToStr(parm); DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_LmsKey_Init(&key, NULL, INVALID_DEVID); if (ret) { printf("wc_LmsKey_Init failed: %d\n", ret); goto exit_lms_sign_verify; } ret = wc_LmsKey_SetLmsParm(&key, parm); if (ret) { printf("wc_LmsKey_SetLmsParm failed: %d\n", ret); goto exit_lms_sign_verify; } switch (parm) { #ifndef WOLFSSL_NO_LMS_SHA256_256 case WC_LMS_PARM_L2_H10_W2: XMEMCPY(lms_priv, lms_priv_L2_H10_W2, sizeof(lms_priv_L2_H10_W2)); XMEMCPY(key.pub, lms_pub_L2_H10_W2, HSS_MAX_PUBLIC_KEY_LEN); break; case WC_LMS_PARM_L2_H10_W4: XMEMCPY(lms_priv, lms_priv_L2_H10_W4, sizeof(lms_priv_L2_H10_W4)); XMEMCPY(key.pub, lms_pub_L2_H10_W4, HSS_MAX_PUBLIC_KEY_LEN); break; case WC_LMS_PARM_L3_H5_W4: XMEMCPY(lms_priv, lms_priv_L3_H5_W4, sizeof(lms_priv_L3_H5_W4)); XMEMCPY(key.pub, lms_pub_L3_H5_W4, HSS_MAX_PUBLIC_KEY_LEN); break; case WC_LMS_PARM_L3_H5_W8: XMEMCPY(lms_priv, lms_priv_L3_H5_W8, sizeof(lms_priv_L3_H5_W8)); XMEMCPY(key.pub, lms_pub_L3_H5_W8, HSS_MAX_PUBLIC_KEY_LEN); break; case WC_LMS_PARM_L3_H10_W4: XMEMCPY(lms_priv, lms_priv_L3_H10_W4, sizeof(lms_priv_L3_H10_W4)); XMEMCPY(key.pub, lms_pub_L3_H10_W4, HSS_MAX_PUBLIC_KEY_LEN); break; case WC_LMS_PARM_L4_H5_W8: XMEMCPY(lms_priv, lms_priv_L4_H5_W8, sizeof(lms_priv_L4_H5_W8)); XMEMCPY(key.pub, lms_pub_L4_H5_W8, HSS_MAX_PUBLIC_KEY_LEN); break; case WC_LMS_PARM_NONE: case WC_LMS_PARM_L1_H15_W2: case WC_LMS_PARM_L1_H15_W4: case WC_LMS_PARM_L2_H10_W8: case WC_LMS_PARM_L3_H5_W2: case WC_LMS_PARM_L1_H5_W1: case WC_LMS_PARM_L1_H5_W2: case WC_LMS_PARM_L1_H5_W4: case WC_LMS_PARM_L1_H5_W8: case WC_LMS_PARM_L1_H10_W2: case WC_LMS_PARM_L1_H10_W4: case WC_LMS_PARM_L1_H10_W8: case WC_LMS_PARM_L1_H15_W8: case WC_LMS_PARM_L1_H20_W2: case WC_LMS_PARM_L1_H20_W4: case WC_LMS_PARM_L1_H20_W8: case WC_LMS_PARM_L2_H5_W2: case WC_LMS_PARM_L2_H5_W4: case WC_LMS_PARM_L2_H5_W8: case WC_LMS_PARM_L2_H15_W2: case WC_LMS_PARM_L2_H15_W4: case WC_LMS_PARM_L2_H15_W8: case WC_LMS_PARM_L2_H20_W2: case WC_LMS_PARM_L2_H20_W4: case WC_LMS_PARM_L2_H20_W8: case WC_LMS_PARM_L3_H10_W8: case WC_LMS_PARM_L4_H5_W2: case WC_LMS_PARM_L4_H5_W4: case WC_LMS_PARM_L4_H10_W4: case WC_LMS_PARM_L4_H10_W8: #endif #ifdef WOLFSSL_LMS_SHA256_192 case WC_LMS_PARM_SHA256_192_L1_H5_W1: case WC_LMS_PARM_SHA256_192_L1_H5_W2: case WC_LMS_PARM_SHA256_192_L1_H5_W4: case WC_LMS_PARM_SHA256_192_L1_H5_W8: case WC_LMS_PARM_SHA256_192_L1_H10_W2: case WC_LMS_PARM_SHA256_192_L1_H10_W4: case WC_LMS_PARM_SHA256_192_L1_H10_W8: case WC_LMS_PARM_SHA256_192_L1_H15_W2: case WC_LMS_PARM_SHA256_192_L1_H15_W4: case WC_LMS_PARM_SHA256_192_L2_H10_W2: case WC_LMS_PARM_SHA256_192_L2_H10_W4: case WC_LMS_PARM_SHA256_192_L2_H10_W8: case WC_LMS_PARM_SHA256_192_L3_H5_W2: case WC_LMS_PARM_SHA256_192_L3_H5_W4: case WC_LMS_PARM_SHA256_192_L3_H5_W8: case WC_LMS_PARM_SHA256_192_L3_H10_W4: case WC_LMS_PARM_SHA256_192_L4_H5_W8: #endif default: XMEMCPY(key.pub, pub, HSS_MAX_PUBLIC_KEY_LEN); break; } ret = wc_LmsKey_SetWriteCb(&key, lms_write_key_mem); if (ret) { fprintf(stderr, "error: wc_LmsKey_SetWriteCb failed: %d\n", ret); goto exit_lms_sign_verify; } ret = wc_LmsKey_SetReadCb(&key, lms_read_key_mem); if (ret) { fprintf(stderr, "error: wc_LmsKey_SetReadCb failed: %d\n", ret); goto exit_lms_sign_verify; } ret = wc_LmsKey_SetContext(&key, (void*)lms_priv); if (ret) { fprintf(stderr, "error: wc_LmsKey_SetContext failed: %d\n", ret); goto exit_lms_sign_verify; } /* Even with saved priv/pub keys, we must still reload the private * key before using it. Reloading the private key is the bottleneck * for larger heights. Only print load time in debug builds. */ count = 0; bench_stats_start(&count, &start); #ifndef WOLFSSL_WC_LMS_SMALL do { #ifdef WOLFSSL_WC_LMS key.priv.inited = 0; key.state = WC_LMS_STATE_PARMSET; #endif ret = wc_LmsKey_Reload(&key); if (ret) { printf("wc_LmsKey_Reload failed: %d\n", ret); goto exit_lms_sign_verify; } RECORD_MULTI_VALUE_STATS(); count++; ret = wc_LmsKey_GetSigLen(&key, &sigSz); if (ret) { printf("wc_LmsKey_GetSigLen failed: %d\n", ret); goto exit_lms_sign_verify; } ret = wc_LmsKey_GetPrivLen(&key, &privLen); if (ret) { printf("wc_LmsKey_GetPrivLen failed: %d\n", ret); goto exit_lms_sign_verify; } #ifdef HAVE_LIBLMS break; #endif } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish(str, (int)privLen, "load", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); #else ret = wc_LmsKey_Reload(&key); if (ret) { printf("wc_LmsKey_Reload failed: %d\n", ret); goto exit_lms_sign_verify; } ret = wc_LmsKey_GetSigLen(&key, &sigSz); if (ret) { printf("wc_LmsKey_GetSigLen failed: %d\n", ret); goto exit_lms_sign_verify; } ret = wc_LmsKey_GetPrivLen(&key, &privLen); if (ret) { printf("wc_LmsKey_GetPrivLen failed: %d\n", ret); goto exit_lms_sign_verify; } #endif loaded = 1; sig = (byte *)XMALLOC(sigSz, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if (sig == NULL) { printf("bench_lms_sign_verify malloc failed\n"); goto exit_lms_sign_verify; } count = 0; bench_stats_start(&count, &start); do { /* LMS is stateful. Async queuing not practical. */ #ifndef WOLFSSL_WC_LMS_SMALL for (times = 0; times < ntimes; ++times) #else for (times = 0; times < 1; ++times) #endif { ret = wc_LmsKey_Sign(&key, sig, &sigSz, (byte *) msg, msgSz); if (ret) { printf("wc_LmsKey_Sign failed: %d\n", ret); goto exit_lms_sign_verify; } RECORD_MULTI_VALUE_STATS(); if (!wc_LmsKey_SigsLeft(&key)) { break; } } count += times; } while (wc_LmsKey_SigsLeft(&key) && (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif )); bench_stats_asym_finish(str, (int)sigSz, "sign", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); count = 0; bench_stats_start(&count, &start); do { /* LMS is stateful. Async queuing not practical. */ for (times = 0; times < ntimes; ++times) { ret = wc_LmsKey_Verify(&key, sig, sigSz, (byte *) msg, msgSz); if (ret) { printf("wc_LmsKey_Verify failed: %d\n", ret); goto exit_lms_sign_verify; } RECORD_MULTI_VALUE_STATS(); } count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_lms_sign_verify: bench_stats_asym_finish(str, (int)sigSz, "verify", 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (loaded) { wc_LmsKey_Free(&key); } XFREE(sig, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); return; } void bench_lms(void) { byte pub[HSS_MAX_PUBLIC_KEY_LEN]; #ifndef WOLFSSL_NO_LMS_SHA256_256 #ifdef BENCH_LMS_SLOW_KEYGEN #if !defined(WOLFSSL_WC_LMS) || (LMS_MAX_HEIGHT >= 15) bench_lms_keygen(WC_LMS_PARM_L1_H15_W2, pub); bench_lms_sign_verify(WC_LMS_PARM_L1_H15_W2, pub); bench_lms_keygen(WC_LMS_PARM_L1_H15_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_L1_H15_W4, pub); #undef LMS_PARAMS_BENCHED #define LMS_PARAMS_BENCHED #endif #endif #if !defined(WOLFSSL_WC_LMS) || ((LMS_MAX_LEVELS >= 2) && \ (LMS_MAX_HEIGHT >= 10)) bench_lms_keygen(WC_LMS_PARM_L2_H10_W2, pub); bench_lms_sign_verify(WC_LMS_PARM_L2_H10_W2, pub); bench_lms_keygen(WC_LMS_PARM_L2_H10_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_L2_H10_W4, pub); #undef LMS_PARAMS_BENCHED #define LMS_PARAMS_BENCHED #ifdef BENCH_LMS_SLOW_KEYGEN bench_lms_keygen(WC_LMS_PARM_L2_H10_W8, pub); bench_lms_sign_verify(WC_LMS_PARM_L2_H10_W8, pub); #endif #endif #if !defined(WOLFSSL_WC_LMS) || (LMS_MAX_LEVELS >= 3) bench_lms_keygen(WC_LMS_PARM_L3_H5_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_L3_H5_W4, pub); bench_lms_keygen(WC_LMS_PARM_L3_H5_W8, pub); bench_lms_sign_verify(WC_LMS_PARM_L3_H5_W8, pub); #undef LMS_PARAMS_BENCHED #define LMS_PARAMS_BENCHED #endif #if !defined(WOLFSSL_WC_LMS) || ((LMS_MAX_LEVELS >= 3) && \ (LMS_MAX_HEIGHT >= 10)) bench_lms_keygen(WC_LMS_PARM_L3_H10_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_L3_H10_W4, pub); #endif #if !defined(WOLFSSL_WC_LMS) || (LMS_MAX_LEVELS >= 4) bench_lms_keygen(WC_LMS_PARM_L4_H5_W8, pub); bench_lms_sign_verify(WC_LMS_PARM_L4_H5_W8, pub); #endif #if defined(WOLFSSL_WC_LMS) && !defined(LMS_PARAMS_BENCHED) bench_lms_keygen(WC_LMS_PARM_L1_H5_W1, pub); bench_lms_sign_verify(WC_LMS_PARM_L1_H5_W1, pub); #endif #endif /* !WOLFSSL_NO_LMS_SHA256_256 */ #ifdef WOLFSSL_LMS_SHA256_192 #ifdef BENCH_LMS_SLOW_KEYGEN #if !defined(WOLFSSL_WC_LMS) || (LMS_MAX_HEIGHT >= 15) bench_lms_keygen(WC_LMS_PARM_SHA256_192_L1_H15_W2, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L1_H15_W2, pub); bench_lms_keygen(WC_LMS_PARM_SHA256_192_L1_H15_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L1_H15_W4, pub); #undef LMS_PARAMS_BENCHED #define LMS_PARAMS_BENCHED #endif #endif #if !defined(WOLFSSL_WC_LMS) || ((LMS_MAX_LEVELS >= 2) && \ (LMS_MAX_HEIGHT >= 10)) bench_lms_keygen(WC_LMS_PARM_SHA256_192_L2_H10_W2, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L2_H10_W2, pub); bench_lms_keygen(WC_LMS_PARM_SHA256_192_L2_H10_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L2_H10_W4, pub); #undef LMS_PARAMS_BENCHED #define LMS_PARAMS_BENCHED #ifdef BENCH_LMS_SLOW_KEYGEN bench_lms_keygen(WC_LMS_PARM_SHA256_192_L2_H10_W8, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L2_H10_W8, pub); #endif #endif #if !defined(WOLFSSL_WC_LMS) || (LMS_MAX_LEVELS >= 3) bench_lms_keygen(WC_LMS_PARM_SHA256_192_L3_H5_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L3_H5_W4, pub); bench_lms_keygen(WC_LMS_PARM_SHA256_192_L3_H5_W8, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L3_H5_W8, pub); #undef LMS_PARAMS_BENCHED #define LMS_PARAMS_BENCHED #endif #if !defined(WOLFSSL_WC_LMS) || ((LMS_MAX_LEVELS >= 3) && \ (LMS_MAX_HEIGHT >= 10)) bench_lms_keygen(WC_LMS_PARM_SHA256_192_L3_H10_W4, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L3_H10_W4, pub); #endif #if !defined(WOLFSSL_WC_LMS) || (LMS_MAX_LEVELS >= 4) bench_lms_keygen(WC_LMS_PARM_SHA256_192_L4_H5_W8, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L4_H5_W8, pub); #endif #if defined(WOLFSSL_WC_LMS) && !defined(LMS_PARAMS_BENCHED) bench_lms_keygen(WC_LMS_PARM_SHA256_192_L1_H5_W1, pub); bench_lms_sign_verify(WC_LMS_PARM_SHA256_192_L1_H5_W1, pub); #endif #endif /* WOLFSSL_LMS_SHA256_192 */ return; } #endif /* if defined(WOLFSSL_HAVE_LMS) && !defined(WOLFSSL_LMS_VERIFY_ONLY) */ #if defined(WOLFSSL_HAVE_XMSS) && !defined(WOLFSSL_XMSS_VERIFY_ONLY) static enum wc_XmssRc xmss_write_key_mem(const byte * priv, word32 privSz, void *context) { /* WARNING: THIS IS AN INSECURE WRITE CALLBACK THAT SHOULD ONLY * BE USED FOR TESTING PURPOSES! Production applications should * write only to non-volatile storage. */ XMEMCPY(context, priv, privSz); return WC_XMSS_RC_SAVED_TO_NV_MEMORY; } static enum wc_XmssRc xmss_read_key_mem(byte * priv, word32 privSz, void *context) { /* WARNING: THIS IS AN INSECURE READ CALLBACK THAT SHOULD ONLY * BE USED FOR TESTING PURPOSES! */ XMEMCPY(priv, context, privSz); return WC_XMSS_RC_READ_TO_MEMORY; } static void bench_xmss_sign_verify(const char * params) { WC_RNG rng; XmssKey key; word32 pkSz = 0; word32 skSz = 0; int freeRng = 0; int freeKey = 0; unsigned char * sk = NULL; const char * msg = "XMSS post quantum signature test"; word32 msgSz = (word32) XSTRLEN(msg); int ret = 0; byte * sig = NULL; word32 sigSz = 0; int times = 0; int count = 0; double start = 0.0F; #ifndef HAVE_FIPS ret = wc_InitRng_ex(&rng, HEAP_HINT, INVALID_DEVID); #else ret = wc_InitRng(&rng); #endif if (ret != 0) { fprintf(stderr, "error: wc_InitRng failed: %d\n", ret); goto exit_xmss_sign_verify; } freeRng = 1; ret = wc_XmssKey_Init(&key, NULL, INVALID_DEVID); if (ret != 0) { fprintf(stderr, "wc_XmssKey_Init failed: %d\n", ret); goto exit_xmss_sign_verify; } ret = wc_XmssKey_SetParamStr(&key, params); if (ret != 0) { fprintf(stderr, "wc_XmssKey_SetParamStr failed: %d\n", ret); goto exit_xmss_sign_verify; } ret = wc_XmssKey_GetPubLen(&key, &pkSz); if (ret != 0) { fprintf(stderr, "wc_XmssKey_GetPubLen failed: %d\n", ret); goto exit_xmss_sign_verify; } #ifndef WOLFSSL_WC_XMSS if (pkSz != XMSS_SHA256_PUBLEN) { fprintf(stderr, "error: xmss pub len: got %u, expected %d\n", pkSz, XMSS_SHA256_PUBLEN); goto exit_xmss_sign_verify; } #endif ret = wc_XmssKey_GetPrivLen(&key, &skSz); if (ret != 0 || skSz <= 0) { fprintf(stderr, "error: wc_XmssKey_GetPrivLen failed\n"); goto exit_xmss_sign_verify; } ret = wc_XmssKey_GetSigLen(&key, &sigSz); if (ret != 0 || sigSz <= 0) { fprintf(stderr, "error: wc_XmssKey_GetSigLen failed\n"); goto exit_xmss_sign_verify; } /* Allocate secret keys.*/ sk = (unsigned char *)XMALLOC(skSz, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if (sk == NULL) { fprintf(stderr, "error: allocate xmss sk failed\n"); goto exit_xmss_sign_verify; } /* Allocate signature array. */ sig = (byte *)XMALLOC(sigSz, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if (sig == NULL) { fprintf(stderr, "error: allocate xmss sig failed\n"); goto exit_xmss_sign_verify; } ret = wc_XmssKey_SetWriteCb(&key, xmss_write_key_mem); if (ret != 0) { fprintf(stderr, "error: wc_XmssKey_SetWriteCb failed: %d\n", ret); goto exit_xmss_sign_verify; } ret = wc_XmssKey_SetReadCb(&key, xmss_read_key_mem); if (ret != 0) { fprintf(stderr, "error: wc_XmssKey_SetReadCb failed: %d\n", ret); goto exit_xmss_sign_verify; } ret = wc_XmssKey_SetContext(&key, (void *)sk); if (ret != 0) { fprintf(stderr, "error: wc_XmssKey_SetContext failed: %d\n", ret); goto exit_xmss_sign_verify; } #if defined(DEBUG_WOLFSSL) || defined(WOLFSSL_DEBUG_NONBLOCK) fprintf(stderr, "params: %s\n", params); fprintf(stderr, "pkSz: %d\n", pkSz); fprintf(stderr, "skSz: %d\n", skSz); fprintf(stderr, "sigSz: %d\n", sigSz); #endif /* Making the private key is the bottleneck for larger heights. */ count = 0; bench_stats_start(&count, &start); ret = wc_XmssKey_MakeKey(&key, &rng); if (ret != 0) { printf("wc_XmssKey_MakeKey failed: %d\n", ret); goto exit_xmss_sign_verify; } /* Can only do one at a time - state changes after make key. */ count +=1; bench_stats_check(start); bench_stats_asym_finish(params, (int)skSz, "gen", 0, count, start, ret); freeKey = 1; count = 0; bench_stats_start(&count, &start); do { /* XMSS is stateful. Async queuing not practical. */ #ifndef WOLFSSL_WC_XMSS_SMALL for (times = 0; times < ntimes; ++times) #else for (times = 0; times < 1; ++times) #endif { if (!wc_XmssKey_SigsLeft(&key)) break; ret = wc_XmssKey_Sign(&key, sig, &sigSz, (byte *) msg, msgSz); if (ret) { printf("wc_XmssKey_Sign failed: %d\n", ret); goto exit_xmss_sign_verify; } } count += times; } while (wc_XmssKey_SigsLeft(&key) && bench_stats_check(start)); bench_stats_asym_finish(params, (int)sigSz, "sign", 0, count, start, ret); count = 0; bench_stats_start(&count, &start); do { /* XMSS is stateful. Async queuing not practical. */ for (times = 0; times < ntimes; ++times) { ret = wc_XmssKey_Verify(&key, sig, sigSz, (byte *) msg, msgSz); if (ret) { printf("wc_XmssKey_Verify failed: %d\n", ret); goto exit_xmss_sign_verify; } } count += times; } while (bench_stats_check(start)); exit_xmss_sign_verify: bench_stats_asym_finish(params, (int)sigSz, "verify", 0, count, start, ret); /* Cleanup everything. */ XFREE(sig, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); sig = NULL; XFREE(sk, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); sk = NULL; if (freeRng) { wc_FreeRng(&rng); } if (freeKey) { wc_XmssKey_Free(&key); } return; } void bench_xmss(int hash) { /* All NIST SP 800-208 approved SHA256 XMSS/XMSS^MT parameter * sets. * * Note: not testing "XMSS-SHA2_16_256", "XMSS-SHA2_20_256", * and "XMSSMT-SHA2_60/3_256", because their keygen can be * very slow, their signatures and private keys quite large, * and xmss private keys are not portable across different * XMSS/XMSS^MT implementations. * * The bottleneck in key generation is the height of the first * level tree (or h/d). * * h is the total height of the hyper tree, and d the number of * trees. */ /* h/d h d */ #ifdef WC_XMSS_SHA256 if (hash == WC_HASH_TYPE_SHA256) { #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 256 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 256 #if WOLFSSL_XMSS_MIN_HEIGHT <= 10 && WOLFSSL_XMSS_MAX_HEIGHT >= 10 bench_xmss_sign_verify("XMSS-SHA2_10_256"); /* 10 10 1 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 16 && WOLFSSL_XMSS_MAX_HEIGHT >= 16 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHA2_16_256"); /* 16 16 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHA2_20_256"); /* 20 20 1 */ #endif #endif #endif /* HASH_SIZE 256 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 192 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 192 #if WOLFSSL_XMSS_MIN_HEIGHT <= 10 && WOLFSSL_XMSS_MAX_HEIGHT >= 10 bench_xmss_sign_verify("XMSS-SHA2_10_192"); /* 10 10 1 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 16 && WOLFSSL_XMSS_MAX_HEIGHT >= 16 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHA2_16_192"); /* 16 16 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHA2_20_192"); /* 20 20 1 */ #endif #endif #endif /* HASH_SIZE 192 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 256 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 256 #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 bench_xmss_sign_verify("XMSSMT-SHA2_20/2_256"); /* 10 20 2 */ bench_xmss_sign_verify("XMSSMT-SHA2_20/4_256"); /* 5 20 4 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 40 && WOLFSSL_XMSS_MAX_HEIGHT >= 40 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_40/2_256"); /* 20 40 4 */ #endif bench_xmss_sign_verify("XMSSMT-SHA2_40/4_256"); /* 10 40 4 */ bench_xmss_sign_verify("XMSSMT-SHA2_40/8_256"); /* 5 40 8 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 60 && WOLFSSL_XMSS_MAX_HEIGHT >= 60 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_60/3_256"); /* 20 60 3 */ #endif bench_xmss_sign_verify("XMSSMT-SHA2_60/6_256"); /* 10 60 6 */ bench_xmss_sign_verify("XMSSMT-SHA2_60/12_256"); /* 5 60 12 */ #endif #endif /* HASH_SIZE 256 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 192 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 192 #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 bench_xmss_sign_verify("XMSSMT-SHA2_20/2_192"); /* 10 20 2 */ bench_xmss_sign_verify("XMSSMT-SHA2_20/4_192"); /* 5 20 4 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 40 && WOLFSSL_XMSS_MAX_HEIGHT >= 40 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_40/2_192"); /* 20 40 4 */ #endif bench_xmss_sign_verify("XMSSMT-SHA2_40/4_192"); /* 10 40 4 */ bench_xmss_sign_verify("XMSSMT-SHA2_40/8_192"); /* 5 40 8 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 60 && WOLFSSL_XMSS_MAX_HEIGHT >= 60 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_60/3_192"); /* 20 60 3 */ #endif bench_xmss_sign_verify("XMSSMT-SHA2_60/6_192"); /* 10 60 6 */ bench_xmss_sign_verify("XMSSMT-SHA2_60/12_192"); /* 5 60 12 */ #endif #endif /* HASH_SIZE 192 */ } #endif #ifdef WC_XMSS_SHA512 #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 512 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 512 if (hash == WC_HASH_TYPE_SHA512) { #if WOLFSSL_XMSS_MIN_HEIGHT <= 10 && WOLFSSL_XMSS_MAX_HEIGHT >= 10 bench_xmss_sign_verify("XMSS-SHA2_10_512"); /* 10 10 1 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 16 && WOLFSSL_XMSS_MAX_HEIGHT >= 16 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHA2_16_512"); /* 16 16 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHA2_20_512"); /* 20 20 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 bench_xmss_sign_verify("XMSSMT-SHA2_20/2_512"); /* 10 20 2 */ bench_xmss_sign_verify("XMSSMT-SHA2_20/4_512"); /* 5 20 4 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 40 && WOLFSSL_XMSS_MAX_HEIGHT >= 40 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_40/2_512"); /* 20 40 4 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_40/4_512"); /* 10 40 4 */ #endif bench_xmss_sign_verify("XMSSMT-SHA2_40/8_512"); /* 5 40 8 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 60 && WOLFSSL_XMSS_MAX_HEIGHT >= 60 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_60/3_512"); /* 20 60 3 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHA2_60/6_512"); /* 10 60 6 */ #endif bench_xmss_sign_verify("XMSSMT-SHA2_60/12_512"); /* 5 60 12 */ #endif } #endif /* HASH_SIZE 512 */ #endif #ifdef WC_XMSS_SHAKE128 #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 256 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 256 if (hash == WC_HASH_TYPE_SHAKE128) { #if WOLFSSL_XMSS_MIN_HEIGHT <= 10 && WOLFSSL_XMSS_MAX_HEIGHT >= 10 bench_xmss_sign_verify("XMSS-SHAKE_10_256"); /* 10 10 1 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 16 && WOLFSSL_XMSS_MAX_HEIGHT >= 16 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE_16_256"); /* 16 16 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE_20_256"); /* 20 20 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 bench_xmss_sign_verify("XMSSMT-SHAKE_20/2_256"); /* 10 20 2 */ bench_xmss_sign_verify("XMSSMT-SHAKE_20/4_256"); /* 5 20 4 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 40 && WOLFSSL_XMSS_MAX_HEIGHT >= 40 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_40/2_256"); /* 20 40 4 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_40/4_256"); /* 10 40 4 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE_40/8_256"); /* 5 40 8 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 60 && WOLFSSL_XMSS_MAX_HEIGHT >= 60 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_60/3_256"); /* 20 60 3 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_60/6_256"); /* 10 60 6 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE_60/12_256"); /* 5 60 12 */ #endif } #endif /* HASH_SIZE 256 */ #endif #ifdef WC_XMSS_SHAKE256 if (hash == WC_HASH_TYPE_SHAKE256) { #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 512 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 512 #if WOLFSSL_XMSS_MIN_HEIGHT <= 10 && WOLFSSL_XMSS_MAX_HEIGHT >= 10 bench_xmss_sign_verify("XMSS-SHAKE_10_512"); /* 10 10 1 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 16 && WOLFSSL_XMSS_MAX_HEIGHT >= 16 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE_16_512"); /* 16 16 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE_20_512"); /* 20 20 1 */ #endif #endif #endif /* HASH_SIZE 512 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 256 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 256 #if WOLFSSL_XMSS_MIN_HEIGHT <= 10 && WOLFSSL_XMSS_MAX_HEIGHT >= 10 bench_xmss_sign_verify("XMSS-SHAKE256_10_256"); /* 10 10 1 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 16 && WOLFSSL_XMSS_MAX_HEIGHT >= 16 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE256_16_256"); /* 16 16 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE256_20_256"); /* 20 20 1 */ #endif #endif #endif /* HASH_SIZE 256 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 192 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 192 #if WOLFSSL_XMSS_MIN_HEIGHT <= 10 && WOLFSSL_XMSS_MAX_HEIGHT >= 10 bench_xmss_sign_verify("XMSS-SHAKE256_10_192"); /* 10 10 1 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 16 && WOLFSSL_XMSS_MAX_HEIGHT >= 16 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE256_16_192"); /* 16 16 1 */ #endif #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSS-SHAKE256_20_192"); /* 20 20 1 */ #endif #endif #endif /* HASH_SIZE 192 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 512 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 512 #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_20/2_512"); /* 10 20 2 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE_20/4_512"); /* 5 20 4 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 40 && WOLFSSL_XMSS_MAX_HEIGHT >= 40 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_40/2_512"); /* 20 40 4 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_40/4_512"); /* 10 40 4 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE_40/8_512"); /* 5 40 8 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 60 && WOLFSSL_XMSS_MAX_HEIGHT >= 60 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_60/3_512"); /* 20 60 3 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE_60/6_512"); /* 10 60 6 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE_60/12_512"); /* 5 60 12 */ #endif #endif /* HASH_SIZE 512 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 256 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 256 #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 bench_xmss_sign_verify("XMSSMT-SHAKE256_20/2_256"); /* 10 20 2 */ bench_xmss_sign_verify("XMSSMT-SHAKE256_20/4_256"); /* 5 20 4 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 40 && WOLFSSL_XMSS_MAX_HEIGHT >= 40 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_40/2_256"); /* 20 40 4 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_40/4_256"); /* 10 40 4 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE256_40/8_256"); /* 5 40 8 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 60 && WOLFSSL_XMSS_MAX_HEIGHT >= 60 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_60/3_256"); /* 20 60 3 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_60/6_256"); /* 10 60 6 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE256_60/12_256");/* 5 60 12 */ #endif #endif /* HASH_SIZE 256 */ #if WOLFSSL_WC_XMSS_MIN_HASH_SIZE <= 192 && WOLFSSL_WC_XMSS_MAX_HASH_SIZE >= 192 #if WOLFSSL_XMSS_MIN_HEIGHT <= 20 && WOLFSSL_XMSS_MAX_HEIGHT >= 20 bench_xmss_sign_verify("XMSSMT-SHAKE256_20/2_192"); /* 10 20 2 */ bench_xmss_sign_verify("XMSSMT-SHAKE256_20/4_192"); /* 5 20 4 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 40 && WOLFSSL_XMSS_MAX_HEIGHT >= 40 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_40/2_192"); /* 20 40 4 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_40/4_192"); /* 10 40 4 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE256_40/8_192"); /* 5 40 8 */ #endif #if WOLFSSL_XMSS_MIN_HEIGHT <= 60 && WOLFSSL_XMSS_MAX_HEIGHT >= 60 #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_60/3_192"); /* 20 60 3 */ #endif #ifdef BENCH_XMSS_SLOW_KEYGEN bench_xmss_sign_verify("XMSSMT-SHAKE256_60/6_192"); /* 10 60 6 */ #endif bench_xmss_sign_verify("XMSSMT-SHAKE256_60/12_192");/* 5 60 12 */ #endif #endif /* HASH_SIZE 192 */ } #endif return; } #endif /* if defined(WOLFSSL_HAVE_XMSS) && !defined(WOLFSSL_XMSS_VERIFY_ONLY) */ #ifdef HAVE_ECC /* Maximum ECC name plus null terminator: * "ECC [%15s]" and "ECDHE [%15s]" and "ECDSA [%15s]" */ #define BENCH_ECC_NAME_SZ (ECC_MAXNAME + 8) /* run all benchmarks on a curve */ void bench_ecc_curve(int curveId) { if (bench_all || (bench_asym_algs & BENCH_ECC_MAKEKEY)) { #ifndef NO_SW_BENCH bench_eccMakeKey(0, curveId); #endif #if defined(BENCH_DEVID) bench_eccMakeKey(1, curveId); #endif } if (bench_all || (bench_asym_algs & BENCH_ECC)) { #ifndef NO_SW_BENCH bench_ecc(0, curveId); #endif #if defined(BENCH_DEVID) bench_ecc(1, curveId); #endif } #ifdef HAVE_ECC_ENCRYPT if (bench_all || (bench_asym_algs & BENCH_ECC_ENCRYPT)) bench_eccEncrypt(curveId); #endif } void bench_eccMakeKey(int useDeviceID, int curveId) { int ret = 0, i, times, count = 0, pending = 0; int deviceID; int keySize = 0; WC_DECLARE_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); char name[BENCH_ECC_NAME_SZ]; double start = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() WC_CALLOC_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); deviceID = useDeviceID ? devId : INVALID_DEVID; keySize = wc_ecc_get_curve_size_from_id(curveId); /* ECC Make Key */ bench_stats_start(&count, &start); do { /* while free pending slots in queue, submit ops */ for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 0, ×, agreeTimes, &pending)) { wc_ecc_free(genKey[i]); ret = wc_ecc_init_ex(genKey[i], HEAP_HINT, deviceID); if (ret < 0) { goto exit; } ret = wc_ecc_make_key_ex(&gRng, keySize, genKey[i], curveId); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 0, ×, &pending)) { goto exit; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECC [%15s]", wc_ecc_get_name(curveId)); bench_stats_asym_finish(name, keySize * 8, desc[2], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif /* cleanup */ if (WC_ARRAY_OK(genKey)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_ecc_free(genKey[i]); } WC_FREE_ARRAY(genKey, BENCH_MAX_PENDING, HEAP_HINT); } } void bench_ecc(int useDeviceID, int curveId) { int ret = 0, i, times, count, pending = 0; int deviceID; int keySize; char name[BENCH_ECC_NAME_SZ]; WC_DECLARE_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); #ifdef HAVE_ECC_DHE WC_DECLARE_ARRAY(genKey2, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) #ifdef HAVE_ECC_VERIFY int verify[BENCH_MAX_PENDING]; #endif #endif word32 x[BENCH_MAX_PENDING]; double start = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() #ifdef HAVE_ECC_DHE WC_DECLARE_ARRAY(shared, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) WC_DECLARE_ARRAY(sig, byte, BENCH_MAX_PENDING, ECC_MAX_SIG_SIZE, HEAP_HINT); WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) /* old scan-build misfires -Wmaybe-uninitialized on these. */ XMEMSET(sig, 0, sizeof(sig)); XMEMSET(digest, 0, sizeof(digest)); #endif #ifdef HAVE_ECC_DHE XMEMSET(shared, 0, sizeof(shared)); #endif WC_CALLOC_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); #ifdef HAVE_ECC_DHE WC_CALLOC_ARRAY(genKey2, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); WC_ALLOC_ARRAY(shared, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) WC_ALLOC_ARRAY(sig, byte, BENCH_MAX_PENDING, ECC_MAX_SIG_SIZE, HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif deviceID = useDeviceID ? devId : INVALID_DEVID; keySize = wc_ecc_get_curve_size_from_id(curveId); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { /* setup an context for each key */ if ((ret = wc_ecc_init_ex(genKey[i], HEAP_HINT, deviceID)) < 0) { goto exit; } ret = wc_ecc_make_key_ex(&gRng, keySize, genKey[i], curveId); #ifdef WOLFSSL_ASYNC_CRYPT ret = wc_AsyncWait(ret, &genKey[i]->asyncDev, WC_ASYNC_FLAG_NONE); #endif if (ret < 0) { goto exit; } #ifdef HAVE_ECC_DHE if ((ret = wc_ecc_init_ex(genKey2[i], HEAP_HINT, deviceID)) < 0) { goto exit; } if ((ret = wc_ecc_make_key_ex(&gRng, keySize, genKey2[i], curveId)) > 0) { goto exit; } #endif } #ifdef HAVE_ECC_DHE #if defined(ECC_TIMING_RESISTANT) && (!defined(HAVE_FIPS) || \ (!defined(HAVE_FIPS_VERSION) || (HAVE_FIPS_VERSION != 2))) && \ !defined(HAVE_SELFTEST) for (i = 0; i < BENCH_MAX_PENDING; i++) { (void)wc_ecc_set_rng(genKey[i], &gRng); } #endif /* ECC Shared Secret */ bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, agreeTimes, &pending)) { x[i] = (word32)keySize; ret = wc_ecc_shared_secret(genKey[i], genKey2[i], shared[i], &x[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, &pending)) { goto exit_ecdhe; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_UNLOCK(); exit_ecdhe: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECDHE [%15s]", wc_ecc_get_name(curveId)); bench_stats_asym_finish(name, keySize * 8, desc[3], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); if (ret < 0) { goto exit; } #endif /* HAVE_ECC_DHE */ #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) /* Init digest to sign */ for (i = 0; i < BENCH_MAX_PENDING; i++) { for (count = 0; count < keySize; count++) { digest[i][count] = (byte)count; } } /* ECC Sign */ bench_stats_start(&count, &start); do { for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, agreeTimes, &pending)) { if (genKey[i]->state == 0) { x[i] = ECC_MAX_SIG_SIZE; } ret = wc_ecc_sign_hash(digest[i], (word32)keySize, sig[i], &x[i], GLOBAL_RNG, genKey[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, &pending)) { goto exit_ecdsa_sign; } } /* bench_async_check */ } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_ecdsa_sign: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECDSA [%15s]", wc_ecc_get_name(curveId)); bench_stats_asym_finish(name, keySize * 8, desc[4], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); if (ret < 0) { goto exit; } #ifdef HAVE_ECC_VERIFY /* ECC Verify */ bench_stats_start(&count, &start); do { for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, agreeTimes, &pending)) { if (genKey[i]->state == 0) { verify[i] = 0; } ret = wc_ecc_verify_hash(sig[i], x[i], digest[i], (word32)keySize, &verify[i], genKey[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, &pending)) { goto exit_ecdsa_verify; } } /* if bench_async_check */ } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_ecdsa_verify: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECDSA [%15s]", wc_ecc_get_name(curveId)); bench_stats_asym_finish(name, keySize * 8, desc[5], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_ECC_VERIFY */ #endif /* !NO_ASN && HAVE_ECC_SIGN */ exit: /* cleanup */ if (WC_ARRAY_OK(genKey)) { for (i = 0; i < BENCH_MAX_PENDING; i++) wc_ecc_free(genKey[i]); WC_FREE_ARRAY(genKey, BENCH_MAX_PENDING, HEAP_HINT); } #ifdef HAVE_ECC_DHE if (WC_ARRAY_OK(genKey2)) { for (i = 0; i < BENCH_MAX_PENDING; i++) wc_ecc_free(genKey2[i]); WC_FREE_ARRAY(genKey2, BENCH_MAX_PENDING, HEAP_HINT); } #endif #ifdef HAVE_ECC_DHE WC_FREE_ARRAY(shared, BENCH_MAX_PENDING, HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) WC_FREE_ARRAY(sig, BENCH_MAX_PENDING, HEAP_HINT); WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); #endif (void)useDeviceID; (void)pending; (void)x; (void)count; (void)times; (void)desc; (void)start; (void)name; } #ifdef HAVE_ECC_ENCRYPT void bench_eccEncrypt(int curveId) { #define BENCH_ECCENCRYPT_MSG_SIZE 48 #define BENCH_ECCENCRYPT_OUT_SIZE (BENCH_ECCENCRYPT_MSG_SIZE + \ WC_SHA256_DIGEST_SIZE + \ (MAX_ECC_BITS+3)/4 + 2) word32 outSz = BENCH_ECCENCRYPT_OUT_SIZE; #ifdef WOLFSSL_SMALL_STACK ecc_key *userA = NULL, *userB = NULL; byte *msg = NULL; byte *out = NULL; #else ecc_key userA[1], userB[1]; byte msg[BENCH_ECCENCRYPT_MSG_SIZE]; byte out[BENCH_ECCENCRYPT_OUT_SIZE]; #endif char name[BENCH_ECC_NAME_SZ]; int keySize; word32 bench_plainSz = bench_size; int ret, i, count; double start; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() #ifdef WOLFSSL_SMALL_STACK userA = (ecc_key *)XMALLOC(sizeof(*userA), HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); userB = (ecc_key *)XMALLOC(sizeof(*userB), HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); msg = (byte *)XMALLOC(BENCH_ECCENCRYPT_MSG_SIZE, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); out = (byte *)XMALLOC(outSz, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if ((! userA) || (! userB) || (! msg) || (! out)) { printf("bench_eccEncrypt malloc failed\n"); goto exit; } #endif keySize = wc_ecc_get_curve_size_from_id(curveId); ret = wc_ecc_init_ex(userA, HEAP_HINT, devId); if (ret != 0) { printf("wc_ecc_encrypt make key A failed: %d\n", ret); goto exit; } ret = wc_ecc_init_ex(userB, HEAP_HINT, devId); if (ret != 0) { printf("wc_ecc_encrypt make key B failed: %d\n", ret); goto exit; } #if defined(ECC_TIMING_RESISTANT) && (!defined(HAVE_FIPS) || \ (!defined(HAVE_FIPS_VERSION) || (HAVE_FIPS_VERSION != 2))) && \ !defined(HAVE_SELFTEST) ret = wc_ecc_set_rng(userA, &gRng); if (ret != 0) { goto exit; } ret = wc_ecc_set_rng(userB, &gRng); if (ret != 0) { goto exit; } #endif ret = wc_ecc_make_key_ex(&gRng, keySize, userA, curveId); #ifdef WOLFSSL_ASYNC_CRYPT ret = wc_AsyncWait(ret, &userA->asyncDev, WC_ASYNC_FLAG_NONE); #endif if (ret != 0) goto exit; ret = wc_ecc_make_key_ex(&gRng, keySize, userB, curveId); #ifdef WOLFSSL_ASYNC_CRYPT ret = wc_AsyncWait(ret, &userB->asyncDev, WC_ASYNC_FLAG_NONE); #endif if (ret != 0) goto exit; for (i = 0; i < BENCH_ECCENCRYPT_MSG_SIZE; i++) { msg[i] = (byte)i; } bench_stats_start(&count, &start); do { for (i = 0; i < ntimes; i++) { /* encrypt msg to B */ ret = wc_ecc_encrypt(userA, userB, msg, BENCH_ECCENCRYPT_MSG_SIZE, out, &outSz, NULL); if (ret != 0) { printf("wc_ecc_encrypt failed! %d\n", ret); goto exit_enc; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_enc: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECC [%15s]", wc_ecc_get_name(curveId)); bench_stats_asym_finish(name, keySize * 8, desc[6], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); if (ret != 0) goto exit; bench_stats_start(&count, &start); do { for (i = 0; i < ntimes; i++) { /* decrypt msg from A */ ret = wc_ecc_decrypt(userB, userA, out, outSz, bench_plain, &bench_plainSz, NULL); if (ret != 0) { printf("wc_ecc_decrypt failed! %d\n", ret); goto exit_dec; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_dec: bench_stats_asym_finish(name, keySize * 8, desc[7], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: /* cleanup */ #ifdef WOLFSSL_SMALL_STACK if (userA) { wc_ecc_free(userA); XFREE(userA, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); } if (userB) { wc_ecc_free(userB); XFREE(userB, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); } XFREE(msg, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); XFREE(out, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); #else wc_ecc_free(userB); wc_ecc_free(userA); #endif } #endif #ifdef WOLFSSL_SM2 static void bench_sm2_MakeKey(int useDeviceID) { int ret = 0, i, times, count = 0, pending = 0; int deviceID; int keySize; WC_DECLARE_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); char name[BENCH_ECC_NAME_SZ]; double start = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() deviceID = useDeviceID ? devId : INVALID_DEVID; keySize = wc_ecc_get_curve_size_from_id(ECC_SM2P256V1); WC_CALLOC_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); /* ECC Make Key */ bench_stats_start(&count, &start); do { /* while free pending slots in queue, submit ops */ for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 0, ×, agreeTimes, &pending)) { wc_ecc_free(genKey[i]); ret = wc_ecc_init_ex(genKey[i], HEAP_HINT, deviceID); if (ret < 0) { goto exit; } ret = wc_ecc_sm2_make_key(&gRng, genKey[i], WC_ECC_FLAG_NONE); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 0, ×, &pending)) { goto exit; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECC [%15s]", wc_ecc_get_name(ECC_SM2P256V1)); bench_stats_asym_finish(name, keySize * 8, desc[2], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif /* cleanup */ if (WC_ARRAY_OK(genKey)) { for (i = 0; i < BENCH_MAX_PENDING; i++) { wc_ecc_free(genKey[i]); } WC_FREE_ARRAY(genKey, BENCH_MAX_PENDING, HEAP_HINT); } } void bench_sm2(int useDeviceID) { int ret = 0, i, times, count, pending = 0; int deviceID; int keySize; char name[BENCH_ECC_NAME_SZ]; WC_DECLARE_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); #ifdef HAVE_ECC_DHE WC_DECLARE_ARRAY(genKey2, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) #ifdef HAVE_ECC_VERIFY int verify[BENCH_MAX_PENDING]; #endif #endif word32 x[BENCH_MAX_PENDING]; double start = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() #ifdef HAVE_ECC_DHE WC_DECLARE_ARRAY(shared, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) WC_DECLARE_ARRAY(sig, byte, BENCH_MAX_PENDING, ECC_MAX_SIG_SIZE, HEAP_HINT); WC_DECLARE_ARRAY(digest, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif #ifdef HAVE_ECC_DHE WC_ALLOC_ARRAY(shared, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) WC_ALLOC_ARRAY(sig, byte, BENCH_MAX_PENDING, ECC_MAX_SIG_SIZE, HEAP_HINT); WC_ALLOC_ARRAY(digest, byte, BENCH_MAX_PENDING, MAX_ECC_BYTES, HEAP_HINT); #endif deviceID = useDeviceID ? devId : INVALID_DEVID; bench_sm2_MakeKey(useDeviceID); WC_CALLOC_ARRAY(genKey, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); #ifdef HAVE_ECC_DHE WC_CALLOC_ARRAY(genKey2, ecc_key, BENCH_MAX_PENDING, sizeof(ecc_key), HEAP_HINT); #endif keySize = wc_ecc_get_curve_size_from_id(ECC_SM2P256V1); /* init keys */ for (i = 0; i < BENCH_MAX_PENDING; i++) { /* setup an context for each key */ if ((ret = wc_ecc_init_ex(genKey[i], HEAP_HINT, deviceID)) < 0) { goto exit; } ret = wc_ecc_sm2_make_key(&gRng, genKey[i], WC_ECC_FLAG_NONE); #ifdef WOLFSSL_ASYNC_CRYPT ret = wc_AsyncWait(ret, genKey[i].asyncDev, WC_ASYNC_FLAG_NONE); #endif if (ret < 0) { goto exit; } #ifdef HAVE_ECC_DHE if ((ret = wc_ecc_init_ex(genKey2[i], HEAP_HINT, deviceID)) < 0) { goto exit; } if ((ret = wc_ecc_sm2_make_key(&gRng, genKey2[i], WC_ECC_FLAG_NONE)) > 0) { goto exit; } #endif } #ifdef HAVE_ECC_DHE #if defined(ECC_TIMING_RESISTANT) && (!defined(HAVE_FIPS) || \ (!defined(HAVE_FIPS_VERSION) || (HAVE_FIPS_VERSION != 2))) && \ !defined(HAVE_SELFTEST) for (i = 0; i < BENCH_MAX_PENDING; i++) { (void)wc_ecc_set_rng(genKey[i], &gRng); } #endif /* ECC Shared Secret */ bench_stats_start(&count, &start); PRIVATE_KEY_UNLOCK(); do { for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, agreeTimes, &pending)) { x[i] = (word32)keySize; ret = wc_ecc_sm2_shared_secret(genKey[i], genKey2[i], shared[i], &x[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, &pending)) { goto exit_ecdhe; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); PRIVATE_KEY_UNLOCK(); exit_ecdhe: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECDHE [%15s]", wc_ecc_get_name(ECC_SM2P256V1)); bench_stats_asym_finish(name, keySize * 8, desc[3], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret < 0) { goto exit; } #endif /* HAVE_ECC_DHE */ #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) /* Init digest to sign */ for (i = 0; i < BENCH_MAX_PENDING; i++) { for (count = 0; count < keySize; count++) { digest[i][count] = (byte)count; } } RESET_MULTI_VALUE_STATS_VARS(); /* ECC Sign */ bench_stats_start(&count, &start); do { for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, agreeTimes, &pending)) { if (genKey[i]->state == 0) x[i] = ECC_MAX_SIG_SIZE; ret = wc_ecc_sm2_sign_hash(digest[i], (word32)keySize, sig[i], &x[i], &gRng, genKey[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, &pending)) { goto exit_ecdsa_sign; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_ecdsa_sign: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECDSA [%15s]", wc_ecc_get_name(ECC_SM2P256V1)); bench_stats_asym_finish(name, keySize * 8, desc[4], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif if (ret < 0) { goto exit; } #ifdef HAVE_ECC_VERIFY /* ECC Verify */ bench_stats_start(&count, &start); do { for (times = 0; times < agreeTimes || pending > 0; ) { bench_async_poll(&pending); /* while free pending slots in queue, submit ops */ for (i = 0; i < BENCH_MAX_PENDING; i++) { if (bench_async_check(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, agreeTimes, &pending)) { if (genKey[i]->state == 0) verify[i] = 0; ret = wc_ecc_sm2_verify_hash(sig[i], x[i], digest[i], (word32)keySize, &verify[i], genKey[i]); if (!bench_async_handle(&ret, BENCH_ASYNC_GET_DEV(genKey[i]), 1, ×, &pending)) { goto exit_ecdsa_verify; } } } /* for i */ RECORD_MULTI_VALUE_STATS(); } /* for times */ count += times; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_ecdsa_verify: (void)XSNPRINTF(name, BENCH_ECC_NAME_SZ, "ECDSA [%15s]", wc_ecc_get_name(ECC_SM2P256V1)); bench_stats_asym_finish(name, keySize * 8, desc[5], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_ECC_VERIFY */ #endif /* !NO_ASN && HAVE_ECC_SIGN */ exit: /* cleanup */ if (WC_ARRAY_OK(genKey)) { for (i = 0; i < BENCH_MAX_PENDING; i++) wc_ecc_free(genKey[i]); WC_FREE_ARRAY(genKey, BENCH_MAX_PENDING, HEAP_HINT); } #ifdef HAVE_ECC_DHE if (WC_ARRAY_OK(genKey2)) { for (i = 0; i < BENCH_MAX_PENDING; i++) wc_ecc_free(genKey2[i]); WC_FREE_ARRAY(genKey2, BENCH_MAX_PENDING, HEAP_HINT); } #endif #ifdef HAVE_ECC_DHE WC_FREE_ARRAY(shared, BENCH_MAX_PENDING, HEAP_HINT); #endif #if !defined(NO_ASN) && defined(HAVE_ECC_SIGN) WC_FREE_ARRAY(sig, BENCH_MAX_PENDING, HEAP_HINT); WC_FREE_ARRAY(digest, BENCH_MAX_PENDING, HEAP_HINT); #endif (void)useDeviceID; (void)pending; (void)x; (void)count; (void)times; (void)desc; (void)start; (void)name; } #endif /* WOLFSSL_SM2 */ #endif /* HAVE_ECC */ #ifdef HAVE_CURVE25519 void bench_curve25519KeyGen(int useDeviceID) { curve25519_key genKey; double start; int ret = 0, i, count; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() /* Key Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_curve25519_init_ex(&genKey, HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); if (ret != 0) { printf("wc_curve25519_init_ex failed: %d\n", ret); break; } ret = wc_curve25519_make_key(&gRng, 32, &genKey); wc_curve25519_free(&genKey); if (ret != 0) { printf("wc_curve25519_make_key failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("CURVE", 25519, desc[2], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #ifdef HAVE_CURVE25519_SHARED_SECRET void bench_curve25519KeyAgree(int useDeviceID) { curve25519_key genKey, genKey2; double start; int ret, i, count; byte shared[32]; const char**desc = bench_desc_words[lng_index]; word32 x = 0; DECLARE_MULTI_VALUE_STATS_VARS() wc_curve25519_init_ex(&genKey, HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); wc_curve25519_init_ex(&genKey2, HEAP_HINT, useDeviceID ? devId : INVALID_DEVID); ret = wc_curve25519_make_key(&gRng, 32, &genKey); if (ret != 0) { printf("curve25519_make_key failed\n"); return; } ret = wc_curve25519_make_key(&gRng, 32, &genKey2); if (ret != 0) { printf("curve25519_make_key failed: %d\n", ret); wc_curve25519_free(&genKey); return; } /* Shared secret */ bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { x = sizeof(shared); ret = wc_curve25519_shared_secret(&genKey, &genKey2, shared, &x); if (ret != 0) { printf("curve25519_shared_secret failed: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit: bench_stats_asym_finish("CURVE", 25519, desc[3], useDeviceID, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_curve25519_free(&genKey2); wc_curve25519_free(&genKey); } #endif /* HAVE_CURVE25519_SHARED_SECRET */ #endif /* HAVE_CURVE25519 */ #ifdef HAVE_ED25519 void bench_ed25519KeyGen(void) { #ifdef HAVE_ED25519_MAKE_KEY ed25519_key genKey; double start; int i, count; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() /* Key Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { wc_ed25519_init(&genKey); (void)wc_ed25519_make_key(&gRng, 32, &genKey); wc_ed25519_free(&genKey); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ED", 25519, desc[2], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_ED25519_MAKE_KEY */ } void bench_ed25519KeySign(void) { #ifdef HAVE_ED25519_MAKE_KEY int ret; #endif ed25519_key genKey; #ifdef HAVE_ED25519_SIGN double start; int i, count; byte sig[ED25519_SIG_SIZE]; byte msg[512]; word32 x = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() #endif wc_ed25519_init(&genKey); #ifdef HAVE_ED25519_MAKE_KEY ret = wc_ed25519_make_key(&gRng, ED25519_KEY_SIZE, &genKey); if (ret != 0) { printf("ed25519_make_key failed\n"); return; } #endif #ifdef HAVE_ED25519_SIGN /* make dummy msg */ for (i = 0; i < (int)sizeof(msg); i++) msg[i] = (byte)i; bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { x = sizeof(sig); ret = wc_ed25519_sign_msg(msg, sizeof(msg), sig, &x, &genKey); if (ret != 0) { printf("ed25519_sign_msg failed\n"); goto exit_ed_sign; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_ed_sign: bench_stats_asym_finish("ED", 25519, desc[4], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); #ifdef HAVE_ED25519_VERIFY bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { int verify = 0; ret = wc_ed25519_verify_msg(sig, x, msg, sizeof(msg), &verify, &genKey); if (ret != 0 || verify != 1) { printf("ed25519_verify_msg failed\n"); goto exit_ed_verify; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit_ed_verify: bench_stats_asym_finish("ED", 25519, desc[5], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_ED25519_VERIFY */ #endif /* HAVE_ED25519_SIGN */ wc_ed25519_free(&genKey); } #endif /* HAVE_ED25519 */ #ifdef HAVE_CURVE448 void bench_curve448KeyGen(void) { curve448_key genKey; double start; int ret = 0, i, count; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() /* Key Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_curve448_make_key(&gRng, 56, &genKey); wc_curve448_free(&genKey); if (ret != 0) { printf("wc_curve448_make_key failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("CURVE", 448, desc[2], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #ifdef HAVE_CURVE448_SHARED_SECRET void bench_curve448KeyAgree(void) { curve448_key genKey, genKey2; double start; int ret, i, count; byte shared[56]; const char**desc = bench_desc_words[lng_index]; word32 x = 0; DECLARE_MULTI_VALUE_STATS_VARS() wc_curve448_init(&genKey); wc_curve448_init(&genKey2); ret = wc_curve448_make_key(&gRng, 56, &genKey); if (ret != 0) { printf("curve448_make_key failed\n"); return; } ret = wc_curve448_make_key(&gRng, 56, &genKey2); if (ret != 0) { printf("curve448_make_key failed: %d\n", ret); wc_curve448_free(&genKey); return; } /* Shared secret */ bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { x = sizeof(shared); ret = wc_curve448_shared_secret(&genKey, &genKey2, shared, &x); if (ret != 0) { printf("curve448_shared_secret failed: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); exit: bench_stats_asym_finish("CURVE", 448, desc[3], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_curve448_free(&genKey2); wc_curve448_free(&genKey); } #endif /* HAVE_CURVE448_SHARED_SECRET */ #endif /* HAVE_CURVE448 */ #ifdef HAVE_ED448 void bench_ed448KeyGen(void) { ed448_key genKey; double start; int i, count; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() /* Key Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { wc_ed448_init(&genKey); (void)wc_ed448_make_key(&gRng, ED448_KEY_SIZE, &genKey); wc_ed448_free(&genKey); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ED", 448, desc[2], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } void bench_ed448KeySign(void) { int ret; WC_DECLARE_VAR(genKey, ed448_key, 1, HEAP_HINT); #ifdef HAVE_ED448_SIGN double start; int i, count; byte sig[ED448_SIG_SIZE]; byte msg[512]; word32 x = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() #endif WC_ALLOC_VAR(genKey, ed448_key, 1, HEAP_HINT); wc_ed448_init(genKey); ret = wc_ed448_make_key(&gRng, ED448_KEY_SIZE, genKey); if (ret != 0) { printf("ed448_make_key failed\n"); goto exit; } #ifdef HAVE_ED448_SIGN /* make dummy msg */ for (i = 0; i < (int)sizeof(msg); i++) msg[i] = (byte)i; bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { x = sizeof(sig); ret = wc_ed448_sign_msg(msg, sizeof(msg), sig, &x, genKey, NULL, 0); if (ret != 0) { printf("ed448_sign_msg failed\n"); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ED", 448, desc[4], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); #ifdef HAVE_ED448_VERIFY bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { int verify = 0; ret = wc_ed448_verify_msg(sig, x, msg, sizeof(msg), &verify, genKey, NULL, 0); if (ret != 0 || verify != 1) { printf("ed448_verify_msg failed\n"); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ED", 448, desc[5], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif #endif /* HAVE_ED448_VERIFY */ #endif /* HAVE_ED448_SIGN */ exit: wc_ed448_free(genKey); WC_FREE_VAR(genKey, HEAP_HINT); } #endif /* HAVE_ED448 */ #ifdef WOLFCRYPT_HAVE_ECCSI #ifdef WOLFCRYPT_ECCSI_KMS void bench_eccsiKeyGen(void) { WC_DECLARE_VAR(genKey, EccsiKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; int ret; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, EccsiKey, 1, HEAP_HINT); /* Key Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { wc_InitEccsiKey(genKey, NULL, INVALID_DEVID); ret = wc_MakeEccsiKey(genKey, &gRng); wc_FreeEccsiKey(genKey); if (ret != 0) { printf("wc_MakeEccsiKey failed: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ECCSI", 256, desc[2], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: WC_FREE_VAR(genKey, HEAP_HINT); } void bench_eccsiPairGen(void) { WC_DECLARE_VAR(genKey, EccsiKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; WC_DECLARE_VAR(ssk, mp_int, 1, HEAP_HINT); ecc_point* pvt; static const byte id[] = { 0x01, 0x23, 0x34, 0x45 }; int ret; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, EccsiKey, 1, HEAP_HINT); WC_ALLOC_VAR(ssk, mp_int, 1, HEAP_HINT); (void)mp_init(ssk); pvt = wc_ecc_new_point(); wc_InitEccsiKey(genKey, NULL, INVALID_DEVID); (void)wc_MakeEccsiKey(genKey, &gRng); /* RSK Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_MakeEccsiPair(genKey, &gRng, WC_HASH_TYPE_SHA256, id, sizeof(id), ssk, pvt); if (ret != 0) { printf("wc_MakeEccsiPair failed: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ECCSI", 256, desc[12], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_FreeEccsiKey(genKey); wc_ecc_del_point(pvt); mp_free(ssk); exit: WC_FREE_VAR(genKey, HEAP_HINT); WC_FREE_VAR(ssk, HEAP_HINT); } #endif #ifdef WOLFCRYPT_ECCSI_CLIENT void bench_eccsiValidate(void) { WC_DECLARE_VAR(genKey, EccsiKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; WC_DECLARE_VAR(ssk, mp_int, 1, HEAP_HINT); ecc_point* pvt; static const byte id[] = { 0x01, 0x23, 0x34, 0x45 }; int valid; int ret; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, EccsiKey, 1, HEAP_HINT); WC_ALLOC_VAR(ssk, mp_int, 1, HEAP_HINT); (void)mp_init(ssk); pvt = wc_ecc_new_point(); wc_InitEccsiKey(genKey, NULL, INVALID_DEVID); (void)wc_MakeEccsiKey(genKey, &gRng); (void)wc_MakeEccsiPair(genKey, &gRng, WC_HASH_TYPE_SHA256, id, sizeof(id), ssk, pvt); /* Validation of RSK */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_ValidateEccsiPair(genKey, WC_HASH_TYPE_SHA256, id, sizeof(id), ssk, pvt, &valid); if (ret != 0 || !valid) { printf("wc_ValidateEccsiPair failed: %d (valid=%d))\n", ret, valid); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ECCSI", 256, desc[11], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_FreeEccsiKey(genKey); wc_ecc_del_point(pvt); mp_free(ssk); exit: WC_FREE_VAR(genKey, HEAP_HINT); WC_FREE_VAR(ssk, HEAP_HINT); } void bench_eccsi(void) { WC_DECLARE_VAR(genKey, EccsiKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; WC_DECLARE_VAR(ssk, mp_int, 1, HEAP_HINT); ecc_point* pvt; static const byte id[] = { 0x01, 0x23, 0x34, 0x45 }; static const byte msg[] = { 0x01, 0x23, 0x34, 0x45 }; byte hash[WC_SHA256_DIGEST_SIZE]; byte hashSz = (byte)sizeof(hash); byte sig[257]; word32 sigSz = sizeof(sig); int ret; int verified; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, EccsiKey, 1, HEAP_HINT); WC_ALLOC_VAR(ssk, mp_int, 1, HEAP_HINT); (void)mp_init(ssk); pvt = wc_ecc_new_point(); (void)wc_InitEccsiKey(genKey, NULL, INVALID_DEVID); (void)wc_MakeEccsiKey(genKey, &gRng); (void)wc_MakeEccsiPair(genKey, &gRng, WC_HASH_TYPE_SHA256, id, sizeof(id), ssk, pvt); (void)wc_HashEccsiId(genKey, WC_HASH_TYPE_SHA256, id, sizeof(id), pvt, hash, &hashSz); (void)wc_SetEccsiHash(genKey, hash, hashSz); (void)wc_SetEccsiPair(genKey, ssk, pvt); /* Encapsulate */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_SignEccsiHash(genKey, &gRng, WC_HASH_TYPE_SHA256, msg, sizeof(msg), sig, &sigSz); if (ret != 0) { printf("wc_SignEccsiHash failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ECCSI", 256, desc[4], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); /* Derive */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_VerifyEccsiHash(genKey, WC_HASH_TYPE_SHA256, msg, sizeof(msg), sig, sigSz, &verified); if (ret != 0 || !verified) { printf("wc_VerifyEccsiHash failed: %d (verified: %d)\n", ret, verified); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("ECCSI", 256, desc[5], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_FreeEccsiKey(genKey); wc_ecc_del_point(pvt); exit: WC_FREE_VAR(genKey, HEAP_HINT); WC_FREE_VAR(ssk, HEAP_HINT); } #endif /* WOLFCRYPT_ECCSI_CLIENT */ #endif /* WOLFCRYPT_HAVE_ECCSI */ #ifdef WOLFCRYPT_HAVE_SAKKE #ifdef WOLFCRYPT_SAKKE_KMS void bench_sakkeKeyGen(void) { WC_DECLARE_VAR(genKey, SakkeKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; int ret; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, SakkeKey, 1, HEAP_HINT); /* Key Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { wc_InitSakkeKey_ex(genKey, 128, ECC_SAKKE_1, NULL, INVALID_DEVID); ret = wc_MakeSakkeKey(genKey, &gRng); if (ret != 0) { printf("wc_MakeSakkeKey failed: %d\n", ret); goto exit; } wc_FreeSakkeKey(genKey); RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("SAKKE", 1024, desc[2], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif exit: WC_FREE_VAR(genKey, HEAP_HINT); } void bench_sakkeRskGen(void) { WC_DECLARE_VAR(genKey, SakkeKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; ecc_point* rsk; static const byte id[] = { 0x01, 0x23, 0x34, 0x45 }; int ret; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, SakkeKey, 1, HEAP_HINT); rsk = wc_ecc_new_point(); wc_InitSakkeKey_ex(genKey, 128, ECC_SAKKE_1, NULL, INVALID_DEVID); (void)wc_MakeSakkeKey(genKey, &gRng); /* RSK Gen */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_MakeSakkeRsk(genKey, id, sizeof(id), rsk); if (ret != 0) { printf("wc_MakeSakkeRsk failed: %d\n", ret); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("SAKKE", 1024, desc[8], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_FreeSakkeKey(genKey); wc_ecc_del_point(rsk); exit: WC_FREE_VAR(genKey, HEAP_HINT); } #endif #ifdef WOLFCRYPT_SAKKE_CLIENT void bench_sakkeValidate(void) { WC_DECLARE_VAR(genKey, SakkeKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; ecc_point* rsk; static const byte id[] = { 0x01, 0x23, 0x34, 0x45 }; int valid; int ret; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, SakkeKey, 1, HEAP_HINT); rsk = wc_ecc_new_point(); (void)wc_InitSakkeKey_ex(genKey, 128, ECC_SAKKE_1, NULL, INVALID_DEVID); (void)wc_MakeSakkeKey(genKey, &gRng); (void)wc_MakeSakkeRsk(genKey, id, sizeof(id), rsk); (void)wc_ValidateSakkeRsk(genKey, id, sizeof(id), rsk, &valid); /* Validation of RSK */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_ValidateSakkeRsk(genKey, id, sizeof(id), rsk, &valid); if (ret != 0 || !valid) { printf("wc_ValidateSakkeRsk failed: %d (valid=%d))\n", ret, valid); goto exit; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish("SAKKE", 1024, desc[11], 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_FreeSakkeKey(genKey); wc_ecc_del_point(rsk); exit: WC_FREE_VAR(genKey, HEAP_HINT); } void bench_sakke(void) { WC_DECLARE_VAR(genKey, SakkeKey, 1, HEAP_HINT); double start; int i, count; const char**desc = bench_desc_words[lng_index]; ecc_point* rsk; static const byte id[] = { 0x01, 0x23, 0x34, 0x45 }; static const byte ssv_init[] = { 0x01, 0x23, 0x34, 0x45 }; byte ssv[sizeof(ssv_init)]; byte derSSV[sizeof(ssv)]; byte auth[257]; word16 authSz = sizeof(auth); int ret = 0; byte* table = NULL; word32 len = 0; byte* iTable = NULL; word32 iTableLen = 0; DECLARE_MULTI_VALUE_STATS_VARS() WC_ALLOC_VAR(genKey, SakkeKey, 1, HEAP_HINT); XMEMCPY(ssv, ssv_init, sizeof ssv); rsk = wc_ecc_new_point(); (void)wc_InitSakkeKey_ex(genKey, 128, ECC_SAKKE_1, NULL, INVALID_DEVID); (void)wc_MakeSakkeKey(genKey, &gRng); (void)wc_MakeSakkeRsk(genKey, id, sizeof(id), rsk); (void)wc_SetSakkeRsk(genKey, rsk, NULL, 0); (void)wc_SetSakkeIdentity(genKey, id, sizeof(id)); /* Encapsulate */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_MakeSakkeEncapsulatedSSV(genKey, WC_HASH_TYPE_SHA256, ssv, sizeof(ssv), auth, &authSz); if (ret != 0) { printf("wc_MakeSakkeEncapsulatedSSV failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } /* for */ count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish_ex("SAKKE", 1024, desc[9], "-1", 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); /* Derive */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { XMEMCPY(derSSV, ssv, sizeof(ssv)); ret = wc_DeriveSakkeSSV(genKey, WC_HASH_TYPE_SHA256, derSSV, sizeof(derSSV), auth, authSz); if (ret != 0) { printf("wc_DeriveSakkeSSV failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } if (ret != 0) break; count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish_ex("SAKKE", 1024, desc[10], "-1", 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif /* Calculate Point I and generate table. */ (void)wc_MakeSakkePointI(genKey, id, sizeof(id)); iTableLen = 0; (void)wc_GenerateSakkePointITable(genKey, NULL, &iTableLen); if (iTableLen != 0) { iTable = (byte*)XMALLOC(iTableLen, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if (iTable == NULL) WC_ALLOC_DO_ON_FAILURE(); (void)wc_GenerateSakkePointITable(genKey, iTable, &iTableLen); } /* Encapsulate with Point I table */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { ret = wc_MakeSakkeEncapsulatedSSV(genKey, WC_HASH_TYPE_SHA256, ssv, sizeof(ssv), auth, &authSz); if (ret != 0) { printf("wc_MakeSakkeEncapsulatedSSV failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish_ex("SAKKE", 1024, desc[9], "-2", 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); (void)wc_SetSakkeRsk(genKey, rsk, table, len); /* Derive with Point I table */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { XMEMCPY(derSSV, ssv, sizeof(ssv)); ret = wc_DeriveSakkeSSV(genKey, WC_HASH_TYPE_SHA256, derSSV, sizeof(derSSV), auth, authSz); if (ret != 0) { printf("wc_DeriveSakkeSSV failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } if (ret != 0) break; count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish_ex("SAKKE", 1024, desc[10], "-2", 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); len = 0; (void)wc_GenerateSakkeRskTable(genKey, rsk, NULL, &len); if (len > 0) { table = (byte*)XMALLOC(len, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); if (table == NULL) WC_ALLOC_DO_ON_FAILURE(); (void)wc_GenerateSakkeRskTable(genKey, rsk, table, &len); } (void)wc_SetSakkeRsk(genKey, rsk, table, len); /* Derive with Point I table and RSK table */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { XMEMCPY(derSSV, ssv, sizeof(ssv)); ret = wc_DeriveSakkeSSV(genKey, WC_HASH_TYPE_SHA256, derSSV, sizeof(derSSV), auth, authSz); if (ret != 0) { printf("wc_DeriveSakkeSSV failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } if (ret != 0) break; count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish_ex("SAKKE", 1024, desc[10], "-3", 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif RESET_MULTI_VALUE_STATS_VARS(); wc_ClearSakkePointITable(genKey); /* Derive with RSK table */ bench_stats_start(&count, &start); do { for (i = 0; i < genTimes; i++) { XMEMCPY(derSSV, ssv, sizeof(ssv)); ret = wc_DeriveSakkeSSV(genKey, WC_HASH_TYPE_SHA256, derSSV, sizeof(derSSV), auth, authSz); if (ret != 0) { printf("wc_DeriveSakkeSSV failed: %d\n", ret); break; } RECORD_MULTI_VALUE_STATS(); } if (ret != 0) break; count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); bench_stats_asym_finish_ex("SAKKE", 1024, desc[10], "-4", 0, count, start, 0); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif wc_FreeSakkeKey(genKey); wc_ecc_del_point(rsk); exit: XFREE(iTable, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); XFREE(table, HEAP_HINT, DYNAMIC_TYPE_TMP_BUFFER); WC_FREE_VAR(genKey, HEAP_HINT); } #endif /* WOLFCRYPT_SAKKE_CLIENT */ #endif /* WOLFCRYPT_HAVE_SAKKE */ #ifdef HAVE_FALCON void bench_falconKeySign(byte level) { int ret = 0; falcon_key key; double start; int i, count; byte sig[FALCON_MAX_SIG_SIZE]; byte msg[512]; word32 x = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_falcon_init(&key); if (ret != 0) { printf("wc_falcon_init failed %d\n", ret); return; } ret = wc_falcon_set_level(&key, level); if (ret != 0) { printf("wc_falcon_set_level failed %d\n", ret); } if (ret == 0) { if (level == 1) { ret = wc_falcon_import_private_key(bench_falcon_level1_key, sizeof_bench_falcon_level1_key, NULL, 0, &key); } else { ret = wc_falcon_import_private_key(bench_falcon_level5_key, sizeof_bench_falcon_level5_key, NULL, 0, &key); } if (ret != 0) { printf("wc_falcon_import_private_key failed %d\n", ret); } } /* make dummy msg */ for (i = 0; i < (int)sizeof(msg); i++) { msg[i] = (byte)i; } bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { if (ret == 0) { if (level == 1) { x = FALCON_LEVEL1_SIG_SIZE; } else { x = FALCON_LEVEL5_SIG_SIZE; } ret = wc_falcon_sign_msg(msg, sizeof(msg), sig, &x, &key, GLOBAL_RNG); if (ret != 0) { printf("wc_falcon_sign_msg failed\n"); } } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); if (ret == 0) { bench_stats_asym_finish("FALCON", level, desc[4], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { if (ret == 0) { int verify = 0; ret = wc_falcon_verify_msg(sig, x, msg, sizeof(msg), &verify, &key); if (ret != 0 || verify != 1) { printf("wc_falcon_verify_msg failed %d, verify %d\n", ret, verify); ret = -1; } } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); if (ret == 0) { bench_stats_asym_finish("FALCON", level, desc[5], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } wc_falcon_free(&key); } #endif /* HAVE_FALCON */ #ifdef HAVE_DILITHIUM #if defined(WOLFSSL_DILITHIUM_NO_SIGN) && !defined(WOLFSSL_DILITHIUM_NO_VERIFY) #ifndef WOLFSSL_NO_ML_DSA_44 static const unsigned char bench_dilithium_level2_sig[] = { 0x5e, 0xc1, 0xce, 0x0e, 0x31, 0xea, 0x10, 0x52, 0xa3, 0x7a, 0xfe, 0x4d, 0xac, 0x07, 0x89, 0x5a, 0x45, 0xbd, 0x5a, 0xe5, 0x22, 0xed, 0x98, 0x4d, 0x2f, 0xc8, 0x27, 0x00, 0x99, 0x40, 0x00, 0x79, 0xcd, 0x93, 0x27, 0xd0, 0x40, 0x33, 0x79, 0x4f, 0xe5, 0x16, 0x89, 0x9f, 0xbd, 0xa6, 0x3f, 0xdd, 0x68, 0x74, 0x73, 0xc3, 0x97, 0x54, 0x11, 0x1d, 0xc8, 0xb8, 0xc8, 0xfd, 0x3a, 0xbe, 0xca, 0x17, 0x0f, 0x10, 0x6d, 0x89, 0x6d, 0xe0, 0xb2, 0xff, 0x3b, 0xe5, 0xa1, 0x75, 0xea, 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0x6b, 0x79, 0x7b, 0xc7, 0xcd, 0xef, 0x21, 0x2a, 0x50, 0x7e, 0xba, 0xdd, 0x02, 0x45, 0x7e, 0xc1, 0xdd, 0xeb, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x03, 0x0c, 0x15, 0x1c, 0x22, 0x28, }; static const int sizeof_bench_dilithium_level3_sig = sizeof(bench_dilithium_level3_sig); #endif #ifndef WOLFSSL_NO_ML_DSA_87 static const unsigned char bench_dilithium_level5_sig[] = { 0x78, 0xed, 0x1a, 0x3f, 0x41, 0xab, 0xf8, 0x93, 0x80, 0xf0, 0xc6, 0xbf, 0x4a, 0xde, 0xaf, 0x29, 0x93, 0xe5, 0x9a, 0xbf, 0x38, 0x08, 0x18, 0x33, 0xca, 0x7d, 0x5e, 0x65, 0xa4, 0xd2, 0xd7, 0x45, 0xe3, 0xe7, 0x58, 0xfb, 0x05, 0xab, 0x65, 0x57, 0xac, 0x6f, 0xf5, 0x43, 0x28, 0x5f, 0x9c, 0x9a, 0x3e, 0x35, 0x84, 0xe4, 0xef, 0xa5, 0x57, 0x17, 0xad, 0x51, 0x44, 0x70, 0x09, 0x00, 0x81, 0xbe, 0xfe, 0x14, 0x01, 0xfe, 0x0c, 0x94, 0xbe, 0xa9, 0x89, 0xfd, 0x47, 0xfc, 0xb9, 0xd8, 0x17, 0x4d, 0xd8, 0x73, 0xd5, 0x50, 0x9f, 0x13, 0x6c, 0x07, 0x71, 0x47, 0xaa, 0x3c, 0xc0, 0x64, 0x00, 0x19, 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0x34, 0x3c, 0x3f, 0x45, 0x4b, 0x80, 0x9e, 0xa4, 0xe6, 0x02, 0x13, 0x38, 0x40, 0x7e, 0x87, 0x92, 0x96, 0x51, 0x63, 0x87, 0xae, 0xc8, 0x02, 0x6a, 0x70, 0xc8, 0xcd, 0xd0, 0xe2, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x08, 0x12, 0x1c, 0x22, 0x2b, 0x33, 0x38, 0x3f, }; static const int sizeof_bench_dilithium_level5_sig = sizeof(bench_dilithium_level5_sig); #endif #endif /* !WOLFSSL_DILITHIUM_NO_VERIFY */ void bench_dilithiumKeySign(byte level) { int ret = 0; dilithium_key key; double start; int i, count; #if !defined(WOLFSSL_DILITHIUM_NO_SIGN) || !defined(WOLFSSL_DILITHIUM_NO_VERIFY) byte sig[DILITHIUM_MAX_SIG_SIZE]; byte msg[512]; word32 x = 0; #endif const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() byte params = 0; if (level == 2) { params = 44; } else if (level == 3) { params = 65; } else if (level == 5) { params = 87; } #if !defined(WOLFSSL_DILITHIUM_NO_SIGN) || !defined(WOLFSSL_DILITHIUM_NO_VERIFY) /* make dummy msg */ for (i = 0; i < (int)sizeof(msg); i++) { msg[i] = (byte)i; } #endif ret = wc_dilithium_init(&key); if (ret != 0) { printf("wc_dilithium_init failed %d\n", ret); return; } ret = wc_dilithium_set_level(&key, level); if (ret != 0) { printf("wc_dilithium_set_level() failed %d\n", ret); } #ifndef WOLFSSL_DILITHIUM_NO_MAKE_KEY bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { ret = wc_dilithium_make_key(&key, GLOBAL_RNG); if (ret != 0) { printf("wc_dilithium_import_private_key failed %d\n", ret); return; } } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); if (ret == 0) { bench_stats_asym_finish("ML-DSA", params, desc[2], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #elif !defined WOLFSSL_DILITHIUM_NO_SIGN #ifndef WOLFSSL_NO_ML_DSA_44 if (level == 2) { ret = wc_dilithium_import_private(bench_dilithium_level2_key, sizeof_bench_dilithium_level2_key, &key); } #endif #ifndef WOLFSSL_NO_ML_DSA_65 if (level == 3) { ret = wc_dilithium_import_private(bench_dilithium_level3_key, sizeof_bench_dilithium_level3_key, &key); } #endif #ifndef WOLFSSL_NO_ML_DSA_87 if (level == 5) { ret = wc_dilithium_import_private(bench_dilithium_level5_key, sizeof_bench_dilithium_level5_key, &key); } #endif if (ret != 0) { printf("Failed to load private key\n"); return; } #endif #ifndef WOLFSSL_DILITHIUM_NO_SIGN if (level == 2) { x = DILITHIUM_LEVEL2_SIG_SIZE; } else if (level == 3) { x = DILITHIUM_LEVEL3_SIG_SIZE; } else { x = DILITHIUM_LEVEL5_SIG_SIZE; } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { if (ret == 0) { ret = wc_dilithium_sign_msg(msg, sizeof(msg), sig, &x, &key, GLOBAL_RNG); if (ret != 0) { printf("wc_dilithium_sign_msg failed\n"); } } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); if (ret == 0) { bench_stats_asym_finish("ML-DSA", params, desc[4], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif #if !defined(WOLFSSL_DILITHIUM_NO_VERIFY) && \ (defined(WOLFSSL_DILITHIUM_NO_SIGN) || \ defined(WOLFSSL_DILITHIUM_NO_MAKE_KEY)) #ifndef WOLFSSL_NO_ML_DSA_44 if (level == 2) { #ifdef WOLFSSL_DILITHIUM_NO_SIGN x = sizeof_bench_dilithium_level2_sig; XMEMCPY(sig, bench_dilithium_level2_sig, x); #endif ret = wc_dilithium_import_public(bench_dilithium_level2_pubkey, sizeof_bench_dilithium_level2_pubkey, &key); } #endif #ifndef WOLFSSL_NO_ML_DSA_65 if (level == 3) { #ifdef WOLFSSL_DILITHIUM_NO_SIGN x = sizeof_bench_dilithium_level3_sig; XMEMCPY(sig, bench_dilithium_level3_sig, x); #endif ret = wc_dilithium_import_public(bench_dilithium_level3_pubkey, sizeof_bench_dilithium_level3_pubkey, &key); } #endif #ifndef WOLFSSL_NO_ML_DSA_87 if (level == 5) { #ifdef WOLFSSL_DILITHIUM_NO_SIGN x = sizeof_bench_dilithium_level5_sig; XMEMCPY(sig, bench_dilithium_level5_sig, x); #endif ret = wc_dilithium_import_public(bench_dilithium_level5_pubkey, sizeof_bench_dilithium_level5_pubkey, &key); } #endif if (ret != 0) { printf("Failed to load public key\n"); return; } #endif #ifndef WOLFSSL_DILITHIUM_NO_VERIFY RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { if (ret == 0) { int verify = 0; ret = wc_dilithium_verify_msg(sig, x, msg, sizeof(msg), &verify, &key); if (ret != 0 || verify != 1) { printf("wc_dilithium_verify_msg failed %d, verify %d\n", ret, verify); ret = -1; } } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); if (ret == 0) { bench_stats_asym_finish("ML-DSA", params, desc[5], 0, count, start, ret); #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } #endif wc_dilithium_free(&key); } #endif /* HAVE_DILITHIUM */ #ifdef HAVE_SPHINCS void bench_sphincsKeySign(byte level, byte optim) { int ret = 0; sphincs_key key; double start; int i, count; byte sig[SPHINCS_MAX_SIG_SIZE]; byte msg[512]; word32 x = 0; const char**desc = bench_desc_words[lng_index]; DECLARE_MULTI_VALUE_STATS_VARS() ret = wc_sphincs_init(&key); if (ret != 0) { printf("wc_sphincs_init failed %d\n", ret); return; } ret = wc_sphincs_set_level_and_optim(&key, level, optim); if (ret != 0) { printf("wc_sphincs_set_level_and_optim() failed %d\n", ret); } if (ret == 0) { ret = -1; if ((level == 1) && (optim == FAST_VARIANT)) { ret = wc_sphincs_import_private_key(bench_sphincs_fast_level1_key, sizeof_bench_sphincs_fast_level1_key, NULL, 0, &key); } else if ((level == 3) && (optim == FAST_VARIANT)) { ret = wc_sphincs_import_private_key(bench_sphincs_fast_level3_key, sizeof_bench_sphincs_fast_level3_key, NULL, 0, &key); } else if ((level == 5) && (optim == FAST_VARIANT)) { ret = wc_sphincs_import_private_key(bench_sphincs_fast_level5_key, sizeof_bench_sphincs_fast_level5_key, NULL, 0, &key); } else if ((level == 1) && (optim == SMALL_VARIANT)) { ret = wc_sphincs_import_private_key( bench_sphincs_small_level1_key, sizeof_bench_sphincs_small_level1_key, NULL, 0, &key); } else if ((level == 3) && (optim == SMALL_VARIANT)) { ret = wc_sphincs_import_private_key( bench_sphincs_small_level3_key, sizeof_bench_sphincs_small_level3_key, NULL, 0, &key); } else if ((level == 5) && (optim == SMALL_VARIANT)) { ret = wc_sphincs_import_private_key( bench_sphincs_small_level5_key, sizeof_bench_sphincs_small_level5_key, NULL, 0, &key); } if (ret != 0) { printf("wc_sphincs_import_private_key failed %d\n", ret); } } /* make dummy msg */ for (i = 0; i < (int)sizeof(msg); i++) { msg[i] = (byte)i; } bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { if (ret == 0) { if ((level == 1) && (optim == FAST_VARIANT)) { x = SPHINCS_FAST_LEVEL1_SIG_SIZE; } else if ((level == 3) && (optim == FAST_VARIANT)) { x = SPHINCS_FAST_LEVEL3_SIG_SIZE; } else if ((level == 5) && (optim == FAST_VARIANT)) { x = SPHINCS_FAST_LEVEL5_SIG_SIZE; } else if ((level == 1) && (optim == SMALL_VARIANT)) { x = SPHINCS_SMALL_LEVEL1_SIG_SIZE; } else if ((level == 3) && (optim == SMALL_VARIANT)) { x = SPHINCS_SMALL_LEVEL3_SIG_SIZE; } else if ((level == 5) && (optim == SMALL_VARIANT)) { x = SPHINCS_SMALL_LEVEL5_SIG_SIZE; } ret = wc_sphincs_sign_msg(msg, sizeof(msg), sig, &x, &key, GLOBAL_RNG); if (ret != 0) { printf("wc_sphincs_sign_msg failed\n"); } } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); if (ret == 0) { if (optim == FAST_VARIANT) { bench_stats_asym_finish("SPHINCS-FAST", level, desc[4], 0, count, start, ret); } else { bench_stats_asym_finish("SPHINCS-SMALL", level, desc[4], 0, count, start, ret); } #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } RESET_MULTI_VALUE_STATS_VARS(); bench_stats_start(&count, &start); do { for (i = 0; i < agreeTimes; i++) { if (ret == 0) { int verify = 0; ret = wc_sphincs_verify_msg(sig, x, msg, sizeof(msg), &verify, &key); if (ret != 0 || verify != 1) { printf("wc_sphincs_verify_msg failed %d, verify %d\n", ret, verify); ret = -1; } } RECORD_MULTI_VALUE_STATS(); } count += i; } while (bench_stats_check(start) #ifdef MULTI_VALUE_STATISTICS || runs < minimum_runs #endif ); if (ret == 0) { if (optim == FAST_VARIANT) { bench_stats_asym_finish("SPHINCS-FAST", level, desc[5], 0, count, start, ret); } else { bench_stats_asym_finish("SPHINCS-SMALL", level, desc[5], 0, count, start, ret); } #ifdef MULTI_VALUE_STATISTICS bench_multi_value_stats(max, min, sum, squareSum, runs); #endif } wc_sphincs_free(&key); } #endif /* HAVE_SPHINCS */ #if defined(_WIN32) && !defined(INTIME_RTOS) #define WIN32_LEAN_AND_MEAN #include double current_time(int reset) { static int init = 0; static LARGE_INTEGER freq; LARGE_INTEGER count; (void)reset; if (!init) { QueryPerformanceFrequency(&freq); init = 1; } QueryPerformanceCounter(&count); #ifdef BENCH_MICROSECOND return ((double)count.QuadPart * 1000000) / freq.QuadPart; #else return (double)count.QuadPart / freq.QuadPart; #endif } #elif defined MICROCHIP_PIC32 #if defined(WOLFSSL_MICROCHIP_PIC32MZ) #define CLOCK 80000000.0 #else #define CLOCK 40000000.0 #endif extern void WriteCoreTimer(word32 t); extern word32 ReadCoreTimer(void); double current_time(int reset) { unsigned int ns; if (reset) { WriteCoreTimer(0); } /* get timer in ns */ ns = ReadCoreTimer(); /* return seconds as a double */ return ( ns / CLOCK * 2.0); } #elif defined(WOLFSSL_IAR_ARM_TIME) || defined (WOLFSSL_MDK_ARM) || \ defined(WOLFSSL_USER_CURRTIME) || defined(WOLFSSL_CURRTIME_REMAP) /* declared above at line 239 */ /* extern double current_time(int reset); */ #elif defined(FREERTOS) #ifdef PLATFORMIO #include #include #else #include "task.h" #endif #if defined(WOLFSSL_ESPIDF) /* prototype definition */ int construct_argv(); extern char* __argv[22]; /* current_time(reset) * * Benchmark passage of time, in fractional seconds. * [reset] is non zero to adjust timer or counter to zero * * Use care when repeatedly calling calling. See implementation. */ double current_time(int reset) { double ret; #if ESP_IDF_VERSION_MAJOR >= 4 TickType_t tickCount; /* typically 32 bit, local FreeRTOS ticks */ #else portTickType tickCount; #endif #if defined(__XTENSA__) (void)reset; if (reset) { /* TODO: Determine a mechanism for reset that does not interfere * with freeRTOS tick. Using this code for Xtensa appears to cause * RTOS tick timer to stick. See "last_tickCount unchanged". ESP_LOGW(TAG, "Current_time() reset!"); portTICK_TYPE_ENTER_CRITICAL(); { esp_cpu_set_cycle_count((esp_cpu_cycle_count_t)0); _esp_cpu_count_last = xthal_get_ccount(); _esp_cpu_count_last = esp_cpu_get_cycle_count(); } portTICK_TYPE_EXIT_CRITICAL(); */ } #else /* Only reset the CPU counter for RISC-V */ if (reset) { ESP_LOGV(TAG, "current_time() reset!"); /* TODO: why does Espressif esp_cpu_get_cycle_count() cause * unexpected rollovers in return values for Xtensa but not RISC-V? * See also esp_get_cycle_count_ex() */ #ifdef __XTENSA__ _esp_cpu_count_last = xthal_get_ccount(); #else #if ESP_IDF_VERSION_MAJOR >= 5 esp_cpu_set_cycle_count((esp_cpu_cycle_count_t)0); _esp_cpu_count_last = esp_cpu_get_cycle_count(); #else cpu_hal_set_cycle_count((uint32_t)0); _esp_cpu_count_last = cpu_hal_get_cycle_count(); #endif #endif } #endif /* tick count == ms, if configTICK_RATE_HZ is set to 1000 */ tickCount = xTaskGetTickCount(); /* RTOS ticks, not CPU cycles! The count of ticks since vTaskStartScheduler was called, typiclly in app_startup.c */ #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGV(TAG, "tickCount = " TFMT, tickCount); if (tickCount == last_tickCount) { ESP_LOGW(TAG, "last_tickCount unchanged?" TFMT, tickCount); } if (tickCount < last_tickCount) { ESP_LOGW(TAG, "last_tickCount overflow?"); } #endif if (reset) { #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGW(TAG, "Assign last_tickCount = " TFMT, tickCount); #endif last_tickCount = tickCount; } else { #ifdef DEBUG_WOLFSSL_BENCHMARK_TIMING ESP_LOGV(TAG, "No Reset last_tickCount = " TFMT, tickCount); #endif } #if defined(configTICK_RATE_HZ) && defined(CONFIG_FREERTOS_HZ) ret = (double)tickCount / configTICK_RATE_HZ; #else ESP_LOGW(TAG, "Warning: configTICK_RATE_HZ not defined," "assuming 1000 Hz."); ret = (double)(tickCount / 1000.0); #endif /* configTICK_RATE_HZ */ return ret; } /* current_time */ #else /* current_time(reset) * * Benchmark passage of time, in fractional seconds. * [reset] is non zero to adjust timer or counter to zero * * Use care when repeatedly calling calling. See implementation. */ double current_time(int reset) { portTickType tickCount = xTaskGetTickCount(); /* if configTICK_RATE_HZ is available use if (default is 1000) */ #ifdef configTICK_RATE_HZ return (double)tickCount / configTICK_RATE_HZ; #else return (double)tickCount / 1000; #endif } #endif #elif defined (WOLFSSL_TIRTOS) extern double current_time(int reset); #elif defined(FREESCALE_MQX) double current_time(int reset) { TIME_STRUCT tv; _time_get(&tv); return (double)tv.SECONDS + (double)tv.MILLISECONDS / 1000; } #elif (defined(WOLFSSL_MAX3266X_OLD) || defined(WOLFSSL_MAX3266X)) \ && defined(MAX3266X_RTC) double current_time(int reset) { (void)reset; return wc_MXC_RTC_Time(); } #elif defined(FREESCALE_KSDK_BM) double current_time(int reset) { return (double)OSA_TimeGetMsec() / 1000; } #elif defined(WOLFSSL_CMSIS_RTOS) || defined(WOLFSSL_CMSIS_RTOSv2) double current_time(int reset) { (void)reset; return (double)osKernelGetTickCount() / 1000.0; } #elif defined(WOLFSSL_EMBOS) #include "RTOS.h" double current_time(int reset) { double time_now; double current_s = OS_GetTime() / 1000.0; double current_us = OS_GetTime_us() / MILLION_VALUE; time_now = (double)( current_s + current_us); (void) reset; return time_now; } #elif defined(WOLFSSL_SGX) double current_time(int reset); #elif defined(WOLFSSL_DEOS) double current_time(int reset) { const uint32_t systemTickTimeInHz = 1000000 / systemTickInMicroseconds(); const volatile uint32_t *systemTickPtr = systemTickPointer(); (void)reset; return (double) *systemTickPtr/systemTickTimeInHz; } #elif defined(MICRIUM) double current_time(int reset) { #if (OS_VERSION < 50000) CPU_ERR err; (void)reset; return (double) CPU_TS_Get32()/CPU_TS_TmrFreqGet(&err); #else RTOS_ERR err; double ret = 0; OS_TICK tick = OSTimeGet(&err); OS_RATE_HZ rate = OSTimeTickRateHzGet(&err); (void)reset; if (RTOS_ERR_CODE_GET(err) == RTOS_ERR_NONE) { ret = ((double)tick)/rate; } return ret; #endif } #elif defined(WOLFSSL_ZEPHYR) #include double current_time(int reset) { int64_t t; (void)reset; #if defined(CONFIG_ARCH_POSIX) k_cpu_idle(); #endif t = k_uptime_get(); /* returns current uptime in milliseconds */ return (double)(t / 1000); } #elif defined(WOLFSSL_NETBURNER) #include #include #include double current_time(int reset) { DWORD ticks = TimeTick; /* ticks since system start */ (void)reset; return (double) ticks/TICKS_PER_SECOND; } #elif defined(WOLFSSL_RPIPICO) #include "pico/stdlib.h" double current_time(int reset) { (void)reset; return (double) time_us_64() / 1000000; } #elif defined(THREADX) #include "tx_api.h" double current_time(int reset) { (void)reset; return (double) tx_time_get() / TX_TIMER_TICKS_PER_SECOND; } #elif defined(WOLFSSL_XILINX) #ifdef XPAR_VERSAL_CIPS_0_PSPMC_0_PSV_CORTEXA72_0_TIMESTAMP_CLK_FREQ #define COUNTS_PER_SECOND \ XPAR_VERSAL_CIPS_0_PSPMC_0_PSV_CORTEXA72_0_TIMESTAMP_CLK_FREQ #else #define COUNTS_PER_SECOND \ XPAR_CPU_CORTEXA53_0_TIMESTAMP_CLK_FREQ #endif double current_time(int reset) { double timer; uint64_t cntPct = 0; asm volatile("mrs %0, CNTPCT_EL0" : "=r" (cntPct)); /* Convert to milliseconds */ timer = (double)(cntPct / (COUNTS_PER_SECOND / 1000)); /* Convert to seconds.millisecond */ timer /= 1000; return timer; } #elif defined(LINUX_RUSAGE_UTIME) #include #include static struct rusage base_rusage; static struct rusage cur_rusage; double current_time(int reset) { struct rusage rusage; (void)reset; LIBCALL_CHECK_RET(getrusage(RUSAGE_SELF, &rusage)); if (reset) base_rusage = rusage; else cur_rusage = rusage; /* only consider user time, as system time is host-related overhead * outside wolfcrypt. */ return (double)rusage.ru_utime.tv_sec + (double)rusage.ru_utime.tv_usec / MILLION_VALUE; } static void check_for_excessive_stime(const char *desc, const char *desc_extra) { double start_utime = (double)base_rusage.ru_utime.tv_sec + (double)base_rusage.ru_utime.tv_usec / MILLION_VALUE; double start_stime = (double)base_rusage.ru_stime.tv_sec + (double)base_rusage.ru_stime.tv_usec / MILLION_VALUE; double cur_utime = (double)cur_rusage.ru_utime.tv_sec + (double)cur_rusage.ru_utime.tv_usec / MILLION_VALUE; double cur_stime = (double)cur_rusage.ru_stime.tv_sec + (double)cur_rusage.ru_stime.tv_usec / MILLION_VALUE; double stime_utime_ratio = (cur_stime - start_stime) / (cur_utime - start_utime); if (stime_utime_ratio > .1) printf("%swarning, " "excessive system time ratio for %s%s (" FLT_FMT_PREC "%%).\n", err_prefix, desc, desc_extra, FLT_FMT_PREC_ARGS(3, stime_utime_ratio * 100.0)); } #elif defined(WOLFSSL_LINUXKM) double current_time(int reset) { (void)reset; u64 ns = ktime_get_ns(); return (double)ns / 1000000000.0; } #else #include #include double current_time(int reset) { struct timespec tv; (void)reset; LIBCALL_CHECK_RET(clock_gettime(CLOCK_REALTIME, &tv)); #ifdef BENCH_MICROSECOND return (double)tv.tv_sec * 1000000 + (double)tv.tv_nsec / 1000; #else return (double)tv.tv_sec + (double)tv.tv_nsec / 1000000000; #endif } #endif /* _WIN32 */ #if defined(HAVE_GET_CYCLES) #if defined(WOLFSSL_ESPIDF) /* Generic CPU cycle counter for either Xtensa or RISC-V */ static WC_INLINE word64 esp_get_cpu_benchmark_cycles(void) { /* Reminder for long duration between calls with * multiple overflows will not be detected. */ return esp_get_cycle_count_ex(); } /* implement other architectures here */ #else static WC_INLINE word64 get_intel_cycles(void) { unsigned int lo_c, hi_c; __asm__ __volatile__ ( "cpuid\n\t" "rdtsc" : "=a"(lo_c), "=d"(hi_c) /* out */ : "a"(0) /* in */ : "%ebx", "%ecx"); /* clobber */ return ((word64)lo_c) | (((word64)hi_c) << 32); } #endif #endif /* HAVE_GET_CYCLES */ void benchmark_configure(word32 block_size) { /* must be greater than 0 */ if (block_size > 0) { numBlocks = (int)((word32)numBlocks * bench_size / block_size); bench_size = block_size; } } #ifndef NO_MAIN_DRIVER #ifndef MAIN_NO_ARGS #ifndef WOLFSSL_BENCHMARK_ALL /* Display the algorithm string and keep to 80 characters per line. * * str Algorithm string to print. * line Length of line used so far. */ #ifndef BENCH_MAX_LINE #define BENCH_MAX_LINE 80 #endif static void print_alg(const char* str, int* line) { const char* const ident = " "; if (*line == 0) { printf("%s", ident); *line = (int)XSTRLEN(ident); } printf(" %s", str); *line += (int)XSTRLEN(str) + 1; if (*line > BENCH_MAX_LINE) { printf("\n"); *line = 0; } } #endif /* WOLFSSL_BENCHMARK_ALL */ /* Display the usage options of the benchmark program. */ static void Usage(void) { int e = 0; #ifndef WOLFSSL_BENCHMARK_ALL int i; int line; #endif printf("benchmark\n"); printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -? */ printf("%s", bench_Usage_msg1[lng_index][e++]); /* English / Japanese */ printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -csv */ printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -base10 */ #if defined(HAVE_AESGCM) || defined(HAVE_AESCCM) printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -no_aad */ printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -aad_size */ printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -all_aad */ #else e += 3; #endif printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -dgst_full */ #ifndef NO_RSA printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -ras_sign */ #ifdef WOLFSSL_KEY_GEN printf("%s", bench_Usage_msg1[lng_index][e]); /* option -rsa-sz */ #endif e++; #else e += 2; #endif #if !defined(NO_DH) && defined(HAVE_FFDHE_2048) printf("%s", bench_Usage_msg1[lng_index][e]); /* option -ffdhe2048 */ #endif e++; #if !defined(NO_DH) && defined(HAVE_FFDHE_3072) printf("%s", bench_Usage_msg1[lng_index][e]); /* option -ffdhe3072 */ #endif e++; #if defined(HAVE_ECC) && !defined(NO_ECC256) printf("%s", bench_Usage_msg1[lng_index][e]); /* option -p256 */ #endif e++; #if defined(HAVE_ECC) && defined(HAVE_ECC384) printf("%s", bench_Usage_msg1[lng_index][e]); /* option -p384 */ #endif e++; #if defined(HAVE_ECC) && defined(HAVE_ECC521) printf("%s", bench_Usage_msg1[lng_index][e]); /* option -p521 */ #endif e++; #if defined(HAVE_ECC) printf("%s", bench_Usage_msg1[lng_index][e]); /* option -ecc-all */ #endif e++; #ifndef WOLFSSL_BENCHMARK_ALL printf("%s", bench_Usage_msg1[lng_index][e]); /* option - */ line = 0; for (i=0; bench_cipher_opt[i].str != NULL; i++) print_alg(bench_cipher_opt[i].str, &line); for (i=0; bench_digest_opt[i].str != NULL; i++) print_alg(bench_digest_opt[i].str, &line); for (i=0; bench_mac_opt[i].str != NULL; i++) print_alg(bench_mac_opt[i].str, &line); for (i=0; bench_kdf_opt[i].str != NULL; i++) print_alg(bench_kdf_opt[i].str, &line); for (i=0; bench_asym_opt[i].str != NULL; i++) print_alg(bench_asym_opt[i].str, &line); for (i=0; bench_other_opt[i].str != NULL; i++) print_alg(bench_other_opt[i].str, &line); #if defined(WOLFSSL_HAVE_KYBER) || defined(HAVE_FALCON) || \ defined(HAVE_DILITHIUM) || defined(HAVE_SPHINCS) for (i=0; bench_pq_asym_opt[i].str != NULL; i++) print_alg(bench_pq_asym_opt[i].str, &line); #if defined(HAVE_SPHINCS) for (i=0; bench_pq_asym_opt2[i].str != NULL; i++) print_alg(bench_pq_asym_opt2[i].str, &line); #endif /* HAVE_SPHINCS */ #endif #if defined(BENCH_PQ_STATEFUL_HBS) for (i=0; bench_pq_hash_sig_opt[i].str != NULL; i++) print_alg(bench_pq_hash_sig_opt[i].str, &line); #endif /* BENCH_PQ_STATEFUL_HBS */ printf("\n"); #endif /* !WOLFSSL_BENCHMARK_ALL */ e++; printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -lng */ printf("%s", bench_Usage_msg1[lng_index][e++]); /* option */ printf("%s", bench_Usage_msg1[lng_index][e++]); /* option -blocks */ #ifdef WC_ENABLE_BENCH_THREADING printf("%s", bench_Usage_msg1[lng_index][e]); /* option -threads */ #endif e++; #ifdef WC_BENCH_TRACK_STATS printf("%s", bench_Usage_msg1[lng_index][e]); /* option -print */ #endif e++; #ifndef NO_FILESYSTEM printf("%s", bench_Usage_msg1[lng_index][e]); /* option -hash_input */ #endif e++; #ifndef NO_FILESYSTEM printf("%s", bench_Usage_msg1[lng_index][e]); /* option -cipher_input */ #endif #ifdef MULTI_VALUE_STATISTICS e++; printf("%s", bench_Usage_msg1[lng_index][e]); /* option -min_runs */ #endif } /* Match the command line argument with the string. * * arg Command line argument. * str String to check for. * return 1 if the command line argument matches the string, 0 otherwise. */ static int string_matches(const char* arg, const char* str) { return XSTRCMP(arg, str) == 0; } #endif /* MAIN_NO_ARGS */ /* ** ---------------------------------------------------------------------------- ** determine how the benchmarks are called, the function name varies: ** ---------------------------------------------------------------------------- */ #if !defined(NO_MAIN_DRIVER) && !defined(NO_MAIN_FUNCTION) #if defined(WOLFSSL_ESPIDF) || defined(_WIN32_WCE) /* for some environments, we'll call a function wolf_benchmark_task: */ int wolf_benchmark_task(void) #elif defined(MAIN_NO_ARGS) /* otherwise we'll use main() with no arguments as desired: */ int main() #else /* else we'll be calling main with default arg parameters */ int main(int argc, char** argv) #endif { /* Code for main() or wolf_benchmark_task() */ #ifdef WOLFSSL_ESPIDF int argc = construct_argv(); char** argv = (char**)__argv; #elif defined(MAIN_NO_ARGS) int argc = 0; char** argv = NULL; #endif return wolfcrypt_benchmark_main(argc, argv); } #endif /* !NO_MAIN_DRIVER && !NO_MAIN_FUNCTION */ int wolfcrypt_benchmark_main(int argc, char** argv) { int ret = 0; #ifndef MAIN_NO_ARGS int optMatched; #ifndef WOLFSSL_BENCHMARK_ALL int i; #endif #endif benchmark_static_init(1); printf("%s------------------------------------------------------------------------------\n", info_prefix); printf("%s wolfSSL version %s\n", info_prefix, LIBWOLFSSL_VERSION_STRING); printf("%s------------------------------------------------------------------------------\n", info_prefix); #ifndef MAIN_NO_ARGS while (argc > 1) { if (string_matches(argv[1], "-?")) { if (--argc > 1) { lng_index = XATOI((++argv)[1]); if (lng_index<0 || lng_index>1) { lng_index = 0; } } Usage(); return 0; } else if (string_matches(argv[1], "-lng")) { argc--; argv++; if (argc > 1) { lng_index = XATOI(argv[1]); if (lng_index<0 || lng_index>1) { printf("invalid number(%d) is specified. [ :0-1]\n", lng_index); lng_index = 0; } } } else if (string_matches(argv[1], "-base10")) base2 = 0; #if defined(HAVE_AESGCM) || defined(HAVE_AESCCM) else if (string_matches(argv[1], "-no_aad")) aes_aad_options = AAD_SIZE_ZERO; else if (string_matches(argv[1], "-all_aad")) aes_aad_options |= AAD_SIZE_ZERO | AAD_SIZE_DEFAULT; else if (string_matches(argv[1], "-aad_size")) { argc--; argv++; if (argc > 1) { aes_aad_size = (word32)XATOI(argv[1]); aes_aad_options |= AAD_SIZE_CUSTOM; } } #endif else if (string_matches(argv[1], "-dgst_full")) digest_stream = 0; #ifdef HAVE_CHACHA else if (string_matches(argv[1], "-enc_only")) encrypt_only = 1; #endif #ifndef NO_RSA else if (string_matches(argv[1], "-rsa_sign")) rsa_sign_verify = 1; #endif #if !defined(NO_DH) && defined(HAVE_FFDHE_2048) else if (string_matches(argv[1], "-ffdhe2048")) use_ffdhe = 2048; #endif #if !defined(NO_DH) && defined(HAVE_FFDHE_3072) else if (string_matches(argv[1], "-ffdhe3072")) use_ffdhe = 3072; #endif #if !defined(NO_DH) && defined(HAVE_FFDHE_4096) else if (string_matches(argv[1], "-ffdhe4096")) use_ffdhe = 4096; #endif #if defined(HAVE_ECC) && !defined(NO_ECC256) else if (string_matches(argv[1], "-p256")) bench_asym_algs |= BENCH_ECC_P256; #endif #if defined(HAVE_ECC) && defined(HAVE_ECC384) else if (string_matches(argv[1], "-p384")) bench_asym_algs |= BENCH_ECC_P384; #endif #if defined(HAVE_ECC) && defined(HAVE_ECC521) else if (string_matches(argv[1], "-p521")) bench_asym_algs |= BENCH_ECC_P521; #endif #ifdef BENCH_ASYM else if (string_matches(argv[1], "-csv")) { csv_format = 1; } #endif #ifdef WC_ENABLE_BENCH_THREADING else if (string_matches(argv[1], "-threads")) { argc--; argv++; if (argc > 1) { g_threadCount = XATOI(argv[1]); if (g_threadCount < 1 || lng_index > 128){ printf("invalid number(%d) is specified. [ :1-128]\n", g_threadCount); g_threadCount = 0; } } } #endif #ifdef WC_BENCH_TRACK_STATS else if (string_matches(argv[1], "-print")) { gPrintStats = 1; } #endif else if (string_matches(argv[1], "-blocks")) { argc--; argv++; if (argc > 1) numBlocks = XATOI(argv[1]); } #ifndef NO_FILESYSTEM else if (string_matches(argv[1], "-hash_input")) { argc--; argv++; if (argc > 1) hash_input = argv[1]; } else if (string_matches(argv[1], "-cipher_input")) { argc--; argv++; if (argc > 1) cipher_input = argv[1]; } #endif #ifdef MULTI_VALUE_STATISTICS else if (string_matches(argv[1], "-min_runs")) { argc--; argv++; if (argc > 1) { minimum_runs = XATOI(argv[1]); } } #endif else if (argv[1][0] == '-') { optMatched = 0; #ifndef WOLFSSL_BENCHMARK_ALL /* Check known algorithm choosing command line options. */ /* Known cipher algorithms */ for (i=0; !optMatched && bench_cipher_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_cipher_opt[i].str)) { bench_cipher_algs |= bench_cipher_opt[i].val; bench_all = 0; optMatched = 1; } } /* Known digest algorithms */ for (i=0; !optMatched && bench_digest_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_digest_opt[i].str)) { bench_digest_algs |= bench_digest_opt[i].val; bench_all = 0; optMatched = 1; } } /* Known MAC algorithms */ for (i=0; !optMatched && bench_mac_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_mac_opt[i].str)) { bench_mac_algs |= bench_mac_opt[i].val; bench_all = 0; optMatched = 1; } } /* Known KDF algorithms */ for (i=0; !optMatched && bench_kdf_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_kdf_opt[i].str)) { bench_kdf_algs |= bench_kdf_opt[i].val; bench_all = 0; optMatched = 1; } } /* Known asymmetric algorithms */ for (i=0; !optMatched && bench_asym_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_asym_opt[i].str)) { bench_asym_algs |= bench_asym_opt[i].val; bench_all = 0; optMatched = 1; } } #if defined(WOLFSSL_HAVE_KYBER) || defined(HAVE_FALCON) || \ defined(HAVE_DILITHIUM) || defined(HAVE_SPHINCS) /* Known asymmetric post-quantum algorithms */ for (i=0; !optMatched && bench_pq_asym_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_pq_asym_opt[i].str)) { bench_pq_asym_algs |= bench_pq_asym_opt[i].val; bench_all = 0; optMatched = 1; } } #ifdef HAVE_SPHINCS /* Both bench_pq_asym_opt and bench_pq_asym_opt2 are looking for * -pq, so we need to do a special case for -pq since optMatched * was set to 1 just above. */ if ((bench_pq_asym_opt[0].str != NULL) && string_matches(argv[1], bench_pq_asym_opt[0].str)) { bench_pq_asym_algs2 |= bench_pq_asym_opt2[0].val; bench_all = 0; optMatched = 1; } for (i=1; !optMatched && bench_pq_asym_opt2[i].str != NULL; i++) { if (string_matches(argv[1], bench_pq_asym_opt2[i].str)) { bench_pq_asym_algs2 |= bench_pq_asym_opt2[i].val; bench_all = 0; optMatched = 1; } } #endif #endif /* Other known cryptographic algorithms */ for (i=0; !optMatched && bench_other_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_other_opt[i].str)) { bench_other_algs |= bench_other_opt[i].val; bench_all = 0; optMatched = 1; } } #if defined(BENCH_PQ_STATEFUL_HBS) /* post-quantum stateful hash-based signatures */ for (i=0; !optMatched && bench_pq_hash_sig_opt[i].str != NULL; i++) { if (string_matches(argv[1], bench_pq_hash_sig_opt[i].str)) { bench_pq_hash_sig_algs |= bench_pq_hash_sig_opt[i].val; bench_all = 0; optMatched = 1; } } #endif /* BENCH_PQ_STATEFUL_HBS */ #endif if (!optMatched) { printf("Option not recognized: %s\n", argv[1]); Usage(); return 1; } } else { /* parse for block size */ benchmark_configure((word32)XATOI(argv[1])); } argc--; argv++; } #endif /* MAIN_NO_ARGS */ #if defined(WOLFSSL_BENCHMARK_FIXED_CSV) /* when defined, we'll always output CSV regardless of params. ** this is typically convenient in embedded environments. */ csv_format = 1; #endif #if defined(WC_ENABLE_BENCH_THREADING) && !defined(WOLFSSL_ASYNC_CRYPT) if (g_threadCount > 1) { ret = benchmark_test_threaded(NULL); } else #endif { #if defined(CONFIG_IDF_TARGET_ESP32C2) || \ defined(CONFIG_IDF_TARGET_ESP32C3) || \ defined(CONFIG_IDF_TARGET_ESP32C6) { #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG if (esp_gptimer == NULL) { ESP_ERROR_CHECK(gptimer_new_timer(&esp_timer_config, &esp_gptimer) ); } ESP_ERROR_CHECK(gptimer_enable(esp_gptimer)); ESP_ERROR_CHECK(gptimer_start(esp_gptimer)); ESP_LOGI(TAG, "Enable %s timer", CONFIG_IDF_TARGET); #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ } #endif #ifdef HAVE_STACK_SIZE ret = StackSizeCheck(NULL, benchmark_test); #else ret = benchmark_test(NULL); #endif } #if defined(CONFIG_IDF_TARGET_ESP32C2) || \ defined(CONFIG_IDF_TARGET_ESP32C3) || \ defined(CONFIG_IDF_TARGET_ESP32C6) { #ifdef WOLFSSL_BENCHMARK_TIMER_DEBUG ESP_ERROR_CHECK(gptimer_stop(esp_gptimer)); ESP_ERROR_CHECK(gptimer_disable(esp_gptimer)); #endif /* WOLFSSL_BENCHMARK_TIMER_DEBUG */ } #endif return ret; } #endif /* !NO_MAIN_DRIVER */ #else #if !defined(NO_MAIN_DRIVER) && !defined(NO_MAIN_FUNCTION) int main(void) { return 0; } #endif #endif /* !NO_CRYPT_BENCHMARK */