#include "kremlib.h" #include "testlib.h" #include "Hacl_Chacha20.h" #include "sodium.h" #include "openssl/evp.h" #include "hacl_test_utils.h" void ossl_chacha20(uint8_t* cipher, uint8_t* plain, int len, uint8_t* nonce, uint8_t* key){ EVP_CIPHER_CTX *ctx; int clen; ctx = EVP_CIPHER_CTX_new(); EVP_EncryptInit_ex(ctx, EVP_chacha20(), NULL, key, nonce); EVP_EncryptUpdate(ctx, cipher, &clen, plain, len); EVP_EncryptFinal_ex(ctx, cipher + clen, &clen); EVP_CIPHER_CTX_free(ctx); } void print_results(char *txt, double t1, uint64_t d1, int rounds, int plainlen){ printf("Testing: %s\n", txt); printf("Cycles for %d * %d bytes: %" PRIu64 " (%.2fcycles/byte)\n", rounds, plainlen, d1, (double)d1/plainlen/rounds); double ts = t1/CLOCKS_PER_SEC; printf("User time for %d times %d bytes: %fs (%fus/byte)\n", rounds, plainlen, ts, (double)(ts*1000000)/(plainlen*rounds)); } void flush_results(char *txt, uint64_t hacl_cy, uint64_t sodium_cy, uint64_t ossl_cy, uint64_t tweet_cy, double hacl_utime, double sodium_utime, double ossl_utime, double tweet_utime, int rounds, int plainlen){ FILE *fp; char hacl_cy_s[24], sodium_cy_s[24], ossl_cy_s[24], tweet_cy_s[24], hacl_utime_s[24], sodium_utime_s[24], ossl_utime_s[24], tweet_utime_s[24]; if (hacl_cy == 0) { sprintf(hacl_cy_s, "NA"); } else { sprintf(hacl_cy_s, "%.2f", (double)hacl_cy/plainlen/rounds); } if (sodium_cy == 0) { sprintf(sodium_cy_s, "NA"); } else { sprintf(sodium_cy_s, "%.2f", (double)sodium_cy/plainlen/rounds); } if (ossl_cy == 0) { sprintf(ossl_cy_s, "NA"); } else { sprintf(ossl_cy_s, "%.2f", (double)ossl_cy/plainlen/rounds); } if (tweet_cy == 0) { sprintf(tweet_cy_s, "NA"); } else { sprintf(tweet_cy_s, "%.2f", (double)tweet_cy/plainlen/rounds); } if (hacl_utime == 0) { sprintf(hacl_utime_s, "NA"); } else { sprintf(hacl_utime_s, "%f", (double)(hacl_utime/CLOCKS_PER_SEC*1000000)/(plainlen*rounds)); } if (sodium_utime == 0) { sprintf(sodium_utime_s, "NA"); } else { sprintf(sodium_utime_s, "%f", (double)(sodium_utime/CLOCKS_PER_SEC*1000000)/(plainlen*rounds)); } if (ossl_utime == 0) { sprintf(ossl_utime_s, "NA"); } else { sprintf(ossl_utime_s, "%f", (double)(ossl_utime/CLOCKS_PER_SEC*1000000)/(plainlen*rounds)); } if (tweet_utime == 0) { sprintf(tweet_utime_s, "NA"); } else { sprintf(tweet_utime_s, "%f", (double)(tweet_utime/CLOCKS_PER_SEC*1000000)/(plainlen*rounds)); } fp = fopen("./bench.txt", "a"); fprintf(fp, "%-16s%-16s%-16s%-16s%-16s%-16s%-16s%-16s%-16s\n", txt, hacl_cy_s, sodium_cy_s, ossl_cy_s, tweet_cy_s, hacl_utime_s, sodium_utime_s, ossl_utime_s, tweet_utime_s); fclose(fp); } #define PLAINLEN (16*1024) #define ROUNDS 1000 #define MACSIZE 32 uint8_t plaintext[114] = { (uint8_t )0x4c, (uint8_t )0x61, (uint8_t )0x64, (uint8_t )0x69, (uint8_t )0x65, (uint8_t )0x73, (uint8_t )0x20, (uint8_t )0x61, (uint8_t )0x6e, (uint8_t )0x64, (uint8_t )0x20, (uint8_t )0x47, (uint8_t )0x65, (uint8_t )0x6e, (uint8_t )0x74, (uint8_t )0x6c, (uint8_t )0x65, (uint8_t )0x6d, (uint8_t )0x65, (uint8_t )0x6e, (uint8_t )0x20, (uint8_t )0x6f, (uint8_t )0x66, (uint8_t )0x20, (uint8_t )0x74, (uint8_t )0x68, (uint8_t )0x65, (uint8_t )0x20, (uint8_t )0x63, (uint8_t )0x6c, (uint8_t )0x61, (uint8_t )0x73, (uint8_t )0x73, (uint8_t )0x20, (uint8_t )0x6f, (uint8_t )0x66, (uint8_t )0x20, (uint8_t )0x27, (uint8_t )0x39, (uint8_t )0x39, (uint8_t )0x3a, (uint8_t )0x20, (uint8_t )0x49, (uint8_t )0x66, (uint8_t )0x20, (uint8_t )0x49, (uint8_t )0x20, (uint8_t )0x63, (uint8_t )0x6f, (uint8_t )0x75, (uint8_t )0x6c, (uint8_t )0x64, (uint8_t )0x20, (uint8_t )0x6f, (uint8_t )0x66, (uint8_t )0x66, (uint8_t )0x65, (uint8_t )0x72, (uint8_t )0x20, (uint8_t )0x79, (uint8_t )0x6f, (uint8_t )0x75, (uint8_t )0x20, (uint8_t )0x6f, (uint8_t )0x6e, (uint8_t )0x6c, (uint8_t )0x79, (uint8_t )0x20, (uint8_t )0x6f, (uint8_t )0x6e, (uint8_t )0x65, (uint8_t )0x20, (uint8_t )0x74, (uint8_t )0x69, (uint8_t )0x70, (uint8_t )0x20, (uint8_t )0x66, (uint8_t )0x6f, (uint8_t )0x72, (uint8_t )0x20, (uint8_t )0x74, (uint8_t )0x68, (uint8_t )0x65, (uint8_t )0x20, (uint8_t )0x66, (uint8_t )0x75, (uint8_t )0x74, (uint8_t )0x75, (uint8_t )0x72, (uint8_t )0x65, (uint8_t )0x2c, (uint8_t )0x20, (uint8_t )0x73, (uint8_t )0x75, (uint8_t )0x6e, (uint8_t )0x73, (uint8_t )0x63, (uint8_t )0x72, (uint8_t )0x65, (uint8_t )0x65, (uint8_t )0x6e, (uint8_t )0x20, (uint8_t )0x77, (uint8_t )0x6f, (uint8_t )0x75, (uint8_t )0x6c, (uint8_t )0x64, (uint8_t )0x20, (uint8_t )0x62, (uint8_t )0x65, (uint8_t )0x20, (uint8_t )0x69, (uint8_t )0x74, (uint8_t )0x2e }; uint8_t expected[114] = { (uint8_t )0x6e, (uint8_t )0x2e, (uint8_t )0x35, (uint8_t )0x9a, (uint8_t )0x25, (uint8_t )0x68, (uint8_t )0xf9, (uint8_t )0x80, (uint8_t )0x41, (uint8_t )0xba, (uint8_t )0x07, (uint8_t )0x28, (uint8_t )0xdd, (uint8_t )0x0d, (uint8_t )0x69, (uint8_t )0x81, (uint8_t )0xe9, (uint8_t )0x7e, (uint8_t )0x7a, (uint8_t )0xec, (uint8_t )0x1d, (uint8_t )0x43, (uint8_t )0x60, (uint8_t )0xc2, (uint8_t )0x0a, (uint8_t )0x27, (uint8_t )0xaf, (uint8_t )0xcc, (uint8_t )0xfd, (uint8_t )0x9f, (uint8_t )0xae, (uint8_t )0x0b, (uint8_t )0xf9, (uint8_t )0x1b, (uint8_t )0x65, (uint8_t )0xc5, (uint8_t )0x52, (uint8_t )0x47, (uint8_t )0x33, (uint8_t )0xab, (uint8_t )0x8f, (uint8_t )0x59, (uint8_t )0x3d, (uint8_t )0xab, (uint8_t )0xcd, (uint8_t )0x62, (uint8_t )0xb3, (uint8_t )0x57, (uint8_t )0x16, (uint8_t )0x39, (uint8_t )0xd6, (uint8_t )0x24, (uint8_t )0xe6, (uint8_t )0x51, (uint8_t )0x52, (uint8_t )0xab, (uint8_t )0x8f, (uint8_t )0x53, (uint8_t )0x0c, (uint8_t )0x35, (uint8_t )0x9f, (uint8_t )0x08, (uint8_t )0x61, (uint8_t )0xd8, (uint8_t )0x07, (uint8_t )0xca, (uint8_t )0x0d, (uint8_t )0xbf, (uint8_t )0x50, (uint8_t )0x0d, (uint8_t )0x6a, (uint8_t )0x61, (uint8_t )0x56, (uint8_t )0xa3, (uint8_t )0x8e, (uint8_t )0x08, (uint8_t )0x8a, (uint8_t )0x22, (uint8_t )0xb6, (uint8_t )0x5e, (uint8_t )0x52, (uint8_t )0xbc, (uint8_t )0x51, (uint8_t )0x4d, (uint8_t )0x16, (uint8_t )0xcc, (uint8_t )0xf8, (uint8_t )0x06, (uint8_t )0x81, (uint8_t )0x8c, (uint8_t )0xe9, (uint8_t )0x1a, (uint8_t )0xb7, (uint8_t )0x79, (uint8_t )0x37, (uint8_t )0x36, (uint8_t )0x5a, (uint8_t )0xf9, (uint8_t )0x0b, (uint8_t )0xbf, (uint8_t )0x74, (uint8_t )0xa3, (uint8_t )0x5b, (uint8_t )0xe6, (uint8_t )0xb4, (uint8_t )0x0b, (uint8_t )0x8e, (uint8_t )0xed, (uint8_t )0xf2, (uint8_t )0x78, (uint8_t )0x5e, (uint8_t )0x42, (uint8_t )0x87, (uint8_t )0x4d }; uint8_t key[32] = { (uint8_t )0, (uint8_t )1, (uint8_t )2, (uint8_t )3, (uint8_t )4, (uint8_t )5, (uint8_t )6, (uint8_t )7, (uint8_t )8, (uint8_t )9, (uint8_t )10, (uint8_t )11, (uint8_t )12, (uint8_t )13, (uint8_t )14, (uint8_t )15, (uint8_t )16, (uint8_t )17, (uint8_t )18, (uint8_t )19, (uint8_t )20, (uint8_t )21, (uint8_t )22, (uint8_t )23, (uint8_t )24, (uint8_t )25, (uint8_t )26, (uint8_t )27, (uint8_t )28, (uint8_t )29, (uint8_t )30, (uint8_t )31 }; uint8_t nonce[12] = { (uint8_t )0, (uint8_t )0, (uint8_t )0, (uint8_t )0, (uint8_t )0, (uint8_t )0, (uint8_t )0, (uint8_t )0x4a, (uint8_t )0, (uint8_t )0, (uint8_t )0, (uint8_t )0 }; int32_t test_chacha() { uint8_t ciphertext[114]; memset(ciphertext, 0, 114 * sizeof ciphertext[0]); uint32_t counter = (uint32_t )1; uint32_t ctx[32] = { 0 }; Hacl_Chacha20_chacha20(ciphertext,plaintext,114, key, nonce, counter); TestLib_compare_and_print("HACL Chacha20", expected, ciphertext, 114); crypto_stream_chacha20_ietf_xor_ic(ciphertext,plaintext, 114, nonce, 1, key); TestLib_compare_and_print("Sodium Chacha20", expected, ciphertext, 114); return exit_success; } int32_t perf_chacha() { double hacl_cy, sodium_cy, ossl_cy, hacl_utime, sodium_utime, ossl_utime; uint32_t len = PLAINLEN * sizeof(char); uint64_t res = 0; uint8_t* plain = malloc(len); uint8_t* cipher = malloc(len); if (! (read_random_bytes(len, plain))) return 1; uint32_t counter = (uint32_t )1; uint32_t ctx[32] = { 0 }; cycles a,b; clock_t t1,t2; t1 = clock(); a = TestLib_cpucycles_begin(); for (int i = 0; i < ROUNDS; i++){ Hacl_Chacha20_chacha20(plain,plain,len, key, nonce, counter); plain[0] = cipher[0]; } b = TestLib_cpucycles_end(); t2 = clock(); hacl_cy = (double) b - a; hacl_utime = (double) t2 - t1; print_results("HACL ChaCha20 speed", (double) t2 - t1, (double) b - a, ROUNDS, PLAINLEN); for (int i = 0; i < PLAINLEN; i++) res += (uint64_t) plain[i]; printf("Composite result (ignore): %" PRIx64 "\n", res); t1 = clock(); a = TestLib_cpucycles_begin(); for (int i = 0; i < ROUNDS; i++){ crypto_stream_chacha20_ietf_xor(plain,plain, len, nonce, key); } b = TestLib_cpucycles_end(); t2 = clock(); sodium_cy = (double) b - a; sodium_utime = (double) t2 - t1; print_results("Sodium ChaCha20 speed", (double)t2-t1, (double) b - a, ROUNDS, PLAINLEN); for (int i = 0; i < PLAINLEN; i++) res += (uint64_t) plain[i]; printf("Composite result (ignore): %" PRIx64 "\n", res); t1 = clock(); a = TestLib_cpucycles_begin(); for (int i = 0; i < ROUNDS; i++){ ossl_chacha20(plain,plain, len, nonce, key); } b = TestLib_cpucycles_end(); t2 = clock(); ossl_cy = (double) b - a; ossl_utime = (double) t2 - t1; print_results("OpenSSL ChaCha20 speed", (double)t2-t1, (double) b - a, ROUNDS, PLAINLEN); for (int i = 0; i < PLAINLEN; i++) res += (uint64_t) plain[i]; printf("Composite result (ignore): %" PRIx64 "\n", res); flush_results("CHACHA20", hacl_cy, sodium_cy, ossl_cy, 0, hacl_utime, sodium_utime, ossl_utime, 0, ROUNDS, PLAINLEN); return exit_success; } int32_t main(int argc, char *argv[]) { if (argc < 2 || strcmp(argv[1], "perf") == 0 ) { int32_t res = test_chacha(); if (res == exit_success) { res = perf_chacha(); } return res; } else if (argc == 2 && strcmp(argv[1], "unit-test") == 0 ) { return test_chacha(); } else { printf("Error: expected arguments 'perf' (default) or 'unit-test'.\n"); return exit_failure; } }