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- /* Copyright (c) 2001-2004, Roger Dingledine.
- * Copyright (c) 2004-2006, Roger Dingledine, Nick Mathewson.
- * Copyright (c) 2007-2017, The Tor Project, Inc. */
- /* See LICENSE for licensing information */
- extern const char tor_git_revision[];
- /* Ordinarily defined in tor_main.c; this bit is just here to provide one
- * since we're not linking to tor_main.c */
- const char tor_git_revision[] = "";
- /**
- * \file bench.c
- * \brief Benchmarks for lower level Tor modules.
- **/
- #include "orconfig.h"
- #include "or.h"
- #include "onion_tap.h"
- #include "relay.h"
- #include <openssl/opensslv.h>
- #include <openssl/evp.h>
- #include <openssl/ec.h>
- #include <openssl/ecdh.h>
- #include <openssl/obj_mac.h>
- #include "config.h"
- #include "crypto_curve25519.h"
- #include "onion_ntor.h"
- #include "crypto_ed25519.h"
- #include "consdiff.h"
- #if defined(HAVE_CLOCK_GETTIME) && defined(CLOCK_PROCESS_CPUTIME_ID)
- static uint64_t nanostart;
- static inline uint64_t
- timespec_to_nsec(const struct timespec *ts)
- {
- return ((uint64_t)ts->tv_sec)*1000000000 + ts->tv_nsec;
- }
- static void
- reset_perftime(void)
- {
- struct timespec ts;
- int r;
- r = clock_gettime(CLOCK_PROCESS_CPUTIME_ID, &ts);
- tor_assert(r == 0);
- nanostart = timespec_to_nsec(&ts);
- }
- static uint64_t
- perftime(void)
- {
- struct timespec ts;
- int r;
- r = clock_gettime(CLOCK_PROCESS_CPUTIME_ID, &ts);
- tor_assert(r == 0);
- return timespec_to_nsec(&ts) - nanostart;
- }
- #else
- static struct timeval tv_start = { 0, 0 };
- static void
- reset_perftime(void)
- {
- tor_gettimeofday(&tv_start);
- }
- static uint64_t
- perftime(void)
- {
- struct timeval now, out;
- tor_gettimeofday(&now);
- timersub(&now, &tv_start, &out);
- return ((uint64_t)out.tv_sec)*1000000000 + out.tv_usec*1000;
- }
- #endif
- #define NANOCOUNT(start,end,iters) \
- ( ((double)((end)-(start))) / (iters) )
- #define MICROCOUNT(start,end,iters) \
- ( NANOCOUNT((start), (end), (iters)) / 1000.0 )
- /** Run AES performance benchmarks. */
- static void
- bench_aes(void)
- {
- int len, i;
- char *b1, *b2;
- crypto_cipher_t *c;
- uint64_t start, end;
- const int bytes_per_iter = (1<<24);
- reset_perftime();
- char key[CIPHER_KEY_LEN];
- crypto_rand(key, sizeof(key));
- c = crypto_cipher_new(key);
- for (len = 1; len <= 8192; len *= 2) {
- int iters = bytes_per_iter / len;
- b1 = tor_malloc_zero(len);
- b2 = tor_malloc_zero(len);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- crypto_cipher_encrypt(c, b1, b2, len);
- }
- end = perftime();
- tor_free(b1);
- tor_free(b2);
- printf("%d bytes: %.2f nsec per byte\n", len,
- NANOCOUNT(start, end, iters*len));
- }
- crypto_cipher_free(c);
- }
- static void
- bench_onion_TAP(void)
- {
- const int iters = 1<<9;
- int i;
- crypto_pk_t *key, *key2;
- uint64_t start, end;
- char os[TAP_ONIONSKIN_CHALLENGE_LEN];
- char or[TAP_ONIONSKIN_REPLY_LEN];
- crypto_dh_t *dh_out = NULL;
- key = crypto_pk_new();
- key2 = crypto_pk_new();
- if (crypto_pk_generate_key_with_bits(key, 1024) < 0)
- goto done;
- if (crypto_pk_generate_key_with_bits(key2, 1024) < 0)
- goto done;
- reset_perftime();
- start = perftime();
- for (i = 0; i < iters; ++i) {
- onion_skin_TAP_create(key, &dh_out, os);
- crypto_dh_free(dh_out);
- }
- end = perftime();
- printf("Client-side, part 1: %f usec.\n", NANOCOUNT(start, end, iters)/1e3);
- onion_skin_TAP_create(key, &dh_out, os);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- char key_out[CPATH_KEY_MATERIAL_LEN];
- onion_skin_TAP_server_handshake(os, key, NULL, or,
- key_out, sizeof(key_out));
- }
- end = perftime();
- printf("Server-side, key guessed right: %f usec\n",
- NANOCOUNT(start, end, iters)/1e3);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- char key_out[CPATH_KEY_MATERIAL_LEN];
- onion_skin_TAP_server_handshake(os, key2, key, or,
- key_out, sizeof(key_out));
- }
- end = perftime();
- printf("Server-side, key guessed wrong: %f usec.\n",
- NANOCOUNT(start, end, iters)/1e3);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- crypto_dh_t *dh;
- char key_out[CPATH_KEY_MATERIAL_LEN];
- int s;
- dh = crypto_dh_dup(dh_out);
- s = onion_skin_TAP_client_handshake(dh, or, key_out, sizeof(key_out),
- NULL);
- crypto_dh_free(dh);
- tor_assert(s == 0);
- }
- end = perftime();
- printf("Client-side, part 2: %f usec.\n",
- NANOCOUNT(start, end, iters)/1e3);
- done:
- crypto_dh_free(dh_out);
- crypto_pk_free(key);
- crypto_pk_free(key2);
- }
- static void
- bench_onion_ntor_impl(void)
- {
- const int iters = 1<<10;
- int i;
- curve25519_keypair_t keypair1, keypair2;
- uint64_t start, end;
- uint8_t os[NTOR_ONIONSKIN_LEN];
- uint8_t or[NTOR_REPLY_LEN];
- ntor_handshake_state_t *state = NULL;
- uint8_t nodeid[DIGEST_LEN];
- di_digest256_map_t *keymap = NULL;
- curve25519_secret_key_generate(&keypair1.seckey, 0);
- curve25519_public_key_generate(&keypair1.pubkey, &keypair1.seckey);
- curve25519_secret_key_generate(&keypair2.seckey, 0);
- curve25519_public_key_generate(&keypair2.pubkey, &keypair2.seckey);
- dimap_add_entry(&keymap, keypair1.pubkey.public_key, &keypair1);
- dimap_add_entry(&keymap, keypair2.pubkey.public_key, &keypair2);
- reset_perftime();
- start = perftime();
- for (i = 0; i < iters; ++i) {
- onion_skin_ntor_create(nodeid, &keypair1.pubkey, &state, os);
- ntor_handshake_state_free(state);
- state = NULL;
- }
- end = perftime();
- printf("Client-side, part 1: %f usec.\n", NANOCOUNT(start, end, iters)/1e3);
- state = NULL;
- onion_skin_ntor_create(nodeid, &keypair1.pubkey, &state, os);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- uint8_t key_out[CPATH_KEY_MATERIAL_LEN];
- onion_skin_ntor_server_handshake(os, keymap, NULL, nodeid, or,
- key_out, sizeof(key_out));
- }
- end = perftime();
- printf("Server-side: %f usec\n",
- NANOCOUNT(start, end, iters)/1e3);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- uint8_t key_out[CPATH_KEY_MATERIAL_LEN];
- int s;
- s = onion_skin_ntor_client_handshake(state, or, key_out, sizeof(key_out),
- NULL);
- tor_assert(s == 0);
- }
- end = perftime();
- printf("Client-side, part 2: %f usec.\n",
- NANOCOUNT(start, end, iters)/1e3);
- ntor_handshake_state_free(state);
- dimap_free(keymap, NULL);
- }
- static void
- bench_onion_ntor(void)
- {
- int ed;
- for (ed = 0; ed <= 1; ++ed) {
- printf("Ed25519-based basepoint multiply = %s.\n",
- (ed == 0) ? "disabled" : "enabled");
- curve25519_set_impl_params(ed);
- bench_onion_ntor_impl();
- }
- }
- static void
- bench_ed25519_impl(void)
- {
- uint64_t start, end;
- const int iters = 1<<12;
- int i;
- const uint8_t msg[] = "but leaving, could not tell what they had heard";
- ed25519_signature_t sig;
- ed25519_keypair_t kp;
- curve25519_keypair_t curve_kp;
- ed25519_public_key_t pubkey_tmp;
- ed25519_secret_key_generate(&kp.seckey, 0);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- ed25519_public_key_generate(&kp.pubkey, &kp.seckey);
- }
- end = perftime();
- printf("Generate public key: %.2f usec\n",
- MICROCOUNT(start, end, iters));
- start = perftime();
- for (i = 0; i < iters; ++i) {
- ed25519_sign(&sig, msg, sizeof(msg), &kp);
- }
- end = perftime();
- printf("Sign a short message: %.2f usec\n",
- MICROCOUNT(start, end, iters));
- start = perftime();
- for (i = 0; i < iters; ++i) {
- ed25519_checksig(&sig, msg, sizeof(msg), &kp.pubkey);
- }
- end = perftime();
- printf("Verify signature: %.2f usec\n",
- MICROCOUNT(start, end, iters));
- curve25519_keypair_generate(&curve_kp, 0);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- ed25519_public_key_from_curve25519_public_key(&pubkey_tmp,
- &curve_kp.pubkey, 1);
- }
- end = perftime();
- printf("Convert public point from curve25519: %.2f usec\n",
- MICROCOUNT(start, end, iters));
- curve25519_keypair_generate(&curve_kp, 0);
- start = perftime();
- for (i = 0; i < iters; ++i) {
- ed25519_public_blind(&pubkey_tmp, &kp.pubkey, msg);
- }
- end = perftime();
- printf("Blind a public key: %.2f usec\n",
- MICROCOUNT(start, end, iters));
- }
- static void
- bench_ed25519(void)
- {
- int donna;
- for (donna = 0; donna <= 1; ++donna) {
- printf("Ed25519-donna = %s.\n",
- (donna == 0) ? "disabled" : "enabled");
- ed25519_set_impl_params(donna);
- bench_ed25519_impl();
- }
- }
- static void
- bench_cell_aes(void)
- {
- uint64_t start, end;
- const int len = 509;
- const int iters = (1<<16);
- const int max_misalign = 15;
- char *b = tor_malloc(len+max_misalign);
- crypto_cipher_t *c;
- int i, misalign;
- char key[CIPHER_KEY_LEN];
- crypto_rand(key, sizeof(key));
- c = crypto_cipher_new(key);
- reset_perftime();
- for (misalign = 0; misalign <= max_misalign; ++misalign) {
- start = perftime();
- for (i = 0; i < iters; ++i) {
- crypto_cipher_crypt_inplace(c, b+misalign, len);
- }
- end = perftime();
- printf("%d bytes, misaligned by %d: %.2f nsec per byte\n", len, misalign,
- NANOCOUNT(start, end, iters*len));
- }
- crypto_cipher_free(c);
- tor_free(b);
- }
- /** Run digestmap_t performance benchmarks. */
- static void
- bench_dmap(void)
- {
- smartlist_t *sl = smartlist_new();
- smartlist_t *sl2 = smartlist_new();
- uint64_t start, end, pt2, pt3, pt4;
- int iters = 8192;
- const int elts = 4000;
- const int fpostests = 100000;
- char d[20];
- int i,n=0, fp = 0;
- digestmap_t *dm = digestmap_new();
- digestset_t *ds = digestset_new(elts);
- for (i = 0; i < elts; ++i) {
- crypto_rand(d, 20);
- smartlist_add(sl, tor_memdup(d, 20));
- }
- for (i = 0; i < elts; ++i) {
- crypto_rand(d, 20);
- smartlist_add(sl2, tor_memdup(d, 20));
- }
- printf("nbits=%d\n", ds->mask+1);
- reset_perftime();
- start = perftime();
- for (i = 0; i < iters; ++i) {
- SMARTLIST_FOREACH(sl, const char *, cp, digestmap_set(dm, cp, (void*)1));
- }
- pt2 = perftime();
- printf("digestmap_set: %.2f ns per element\n",
- NANOCOUNT(start, pt2, iters*elts));
- for (i = 0; i < iters; ++i) {
- SMARTLIST_FOREACH(sl, const char *, cp, digestmap_get(dm, cp));
- SMARTLIST_FOREACH(sl2, const char *, cp, digestmap_get(dm, cp));
- }
- pt3 = perftime();
- printf("digestmap_get: %.2f ns per element\n",
- NANOCOUNT(pt2, pt3, iters*elts*2));
- for (i = 0; i < iters; ++i) {
- SMARTLIST_FOREACH(sl, const char *, cp, digestset_add(ds, cp));
- }
- pt4 = perftime();
- printf("digestset_add: %.2f ns per element\n",
- NANOCOUNT(pt3, pt4, iters*elts));
- for (i = 0; i < iters; ++i) {
- SMARTLIST_FOREACH(sl, const char *, cp, n += digestset_contains(ds, cp));
- SMARTLIST_FOREACH(sl2, const char *, cp, n += digestset_contains(ds, cp));
- }
- end = perftime();
- printf("digestset_contains: %.2f ns per element.\n",
- NANOCOUNT(pt4, end, iters*elts*2));
- /* We need to use this, or else the whole loop gets optimized out. */
- printf("Hits == %d\n", n);
- for (i = 0; i < fpostests; ++i) {
- crypto_rand(d, 20);
- if (digestset_contains(ds, d)) ++fp;
- }
- printf("False positive rate on digestset: %.2f%%\n",
- (fp/(double)fpostests)*100);
- digestmap_free(dm, NULL);
- digestset_free(ds);
- SMARTLIST_FOREACH(sl, char *, cp, tor_free(cp));
- SMARTLIST_FOREACH(sl2, char *, cp, tor_free(cp));
- smartlist_free(sl);
- smartlist_free(sl2);
- }
- static void
- bench_siphash(void)
- {
- char buf[128];
- int lens[] = { 7, 8, 15, 16, 20, 32, 111, 128, -1 };
- int i, j;
- uint64_t start, end;
- const int N = 300000;
- crypto_rand(buf, sizeof(buf));
- for (i = 0; lens[i] > 0; ++i) {
- reset_perftime();
- start = perftime();
- for (j = 0; j < N; ++j) {
- siphash24g(buf, lens[i]);
- }
- end = perftime();
- printf("siphash24g(%d): %.2f ns per call\n",
- lens[i], NANOCOUNT(start,end,N));
- }
- }
- static void
- bench_digest(void)
- {
- char buf[8192];
- char out[DIGEST512_LEN];
- const int lens[] = { 1, 16, 32, 64, 128, 512, 1024, 2048, -1 };
- const int N = 300000;
- uint64_t start, end;
- crypto_rand(buf, sizeof(buf));
- for (int alg = 0; alg < N_DIGEST_ALGORITHMS; alg++) {
- for (int i = 0; lens[i] > 0; ++i) {
- reset_perftime();
- start = perftime();
- for (int j = 0; j < N; ++j) {
- switch (alg) {
- case DIGEST_SHA1:
- crypto_digest(out, buf, lens[i]);
- break;
- case DIGEST_SHA256:
- case DIGEST_SHA3_256:
- crypto_digest256(out, buf, lens[i], alg);
- break;
- case DIGEST_SHA512:
- case DIGEST_SHA3_512:
- crypto_digest512(out, buf, lens[i], alg);
- break;
- default:
- tor_assert(0);
- }
- }
- end = perftime();
- printf("%s(%d): %.2f ns per call\n",
- crypto_digest_algorithm_get_name(alg),
- lens[i], NANOCOUNT(start,end,N));
- }
- }
- }
- static void
- bench_cell_ops(void)
- {
- const int iters = 1<<16;
- int i;
- /* benchmarks for cell ops at relay. */
- or_circuit_t *or_circ = tor_malloc_zero(sizeof(or_circuit_t));
- cell_t *cell = tor_malloc(sizeof(cell_t));
- int outbound;
- uint64_t start, end;
- crypto_rand((char*)cell->payload, sizeof(cell->payload));
- /* Mock-up or_circuit_t */
- or_circ->base_.magic = OR_CIRCUIT_MAGIC;
- or_circ->base_.purpose = CIRCUIT_PURPOSE_OR;
- /* Initialize crypto */
- char key1[CIPHER_KEY_LEN], key2[CIPHER_KEY_LEN];
- crypto_rand(key1, sizeof(key1));
- crypto_rand(key2, sizeof(key2));
- or_circ->p_crypto = crypto_cipher_new(key1);
- or_circ->n_crypto = crypto_cipher_new(key2);
- or_circ->p_digest = crypto_digest_new();
- or_circ->n_digest = crypto_digest_new();
- reset_perftime();
- for (outbound = 0; outbound <= 1; ++outbound) {
- cell_direction_t d = outbound ? CELL_DIRECTION_OUT : CELL_DIRECTION_IN;
- start = perftime();
- for (i = 0; i < iters; ++i) {
- char recognized = 0;
- crypt_path_t *layer_hint = NULL;
- relay_crypt(TO_CIRCUIT(or_circ), cell, d, &layer_hint, &recognized);
- }
- end = perftime();
- printf("%sbound cells: %.2f ns per cell. (%.2f ns per byte of payload)\n",
- outbound?"Out":" In",
- NANOCOUNT(start,end,iters),
- NANOCOUNT(start,end,iters*CELL_PAYLOAD_SIZE));
- }
- crypto_digest_free(or_circ->p_digest);
- crypto_digest_free(or_circ->n_digest);
- crypto_cipher_free(or_circ->p_crypto);
- crypto_cipher_free(or_circ->n_crypto);
- tor_free(or_circ);
- tor_free(cell);
- }
- static void
- bench_dh(void)
- {
- const int iters = 1<<10;
- int i;
- uint64_t start, end;
- reset_perftime();
- start = perftime();
- for (i = 0; i < iters; ++i) {
- char dh_pubkey_a[DH_BYTES], dh_pubkey_b[DH_BYTES];
- char secret_a[DH_BYTES], secret_b[DH_BYTES];
- ssize_t slen_a, slen_b;
- crypto_dh_t *dh_a = crypto_dh_new(DH_TYPE_TLS);
- crypto_dh_t *dh_b = crypto_dh_new(DH_TYPE_TLS);
- crypto_dh_generate_public(dh_a);
- crypto_dh_generate_public(dh_b);
- crypto_dh_get_public(dh_a, dh_pubkey_a, sizeof(dh_pubkey_a));
- crypto_dh_get_public(dh_b, dh_pubkey_b, sizeof(dh_pubkey_b));
- slen_a = crypto_dh_compute_secret(LOG_NOTICE,
- dh_a, dh_pubkey_b, sizeof(dh_pubkey_b),
- secret_a, sizeof(secret_a));
- slen_b = crypto_dh_compute_secret(LOG_NOTICE,
- dh_b, dh_pubkey_a, sizeof(dh_pubkey_a),
- secret_b, sizeof(secret_b));
- tor_assert(slen_a == slen_b);
- tor_assert(fast_memeq(secret_a, secret_b, slen_a));
- crypto_dh_free(dh_a);
- crypto_dh_free(dh_b);
- }
- end = perftime();
- printf("Complete DH handshakes (1024 bit, public and private ops):\n"
- " %f millisec each.\n", NANOCOUNT(start, end, iters)/1e6);
- }
- static void
- bench_ecdh_impl(int nid, const char *name)
- {
- const int iters = 1<<10;
- int i;
- uint64_t start, end;
- reset_perftime();
- start = perftime();
- for (i = 0; i < iters; ++i) {
- char secret_a[DH_BYTES], secret_b[DH_BYTES];
- ssize_t slen_a, slen_b;
- EC_KEY *dh_a = EC_KEY_new_by_curve_name(nid);
- EC_KEY *dh_b = EC_KEY_new_by_curve_name(nid);
- if (!dh_a || !dh_b) {
- puts("Skipping. (No implementation?)");
- return;
- }
- EC_KEY_generate_key(dh_a);
- EC_KEY_generate_key(dh_b);
- slen_a = ECDH_compute_key(secret_a, DH_BYTES,
- EC_KEY_get0_public_key(dh_b), dh_a,
- NULL);
- slen_b = ECDH_compute_key(secret_b, DH_BYTES,
- EC_KEY_get0_public_key(dh_a), dh_b,
- NULL);
- tor_assert(slen_a == slen_b);
- tor_assert(fast_memeq(secret_a, secret_b, slen_a));
- EC_KEY_free(dh_a);
- EC_KEY_free(dh_b);
- }
- end = perftime();
- printf("Complete ECDH %s handshakes (2 public and 2 private ops):\n"
- " %f millisec each.\n", name, NANOCOUNT(start, end, iters)/1e6);
- }
- static void
- bench_ecdh_p256(void)
- {
- bench_ecdh_impl(NID_X9_62_prime256v1, "P-256");
- }
- static void
- bench_ecdh_p224(void)
- {
- bench_ecdh_impl(NID_secp224r1, "P-224");
- }
- typedef void (*bench_fn)(void);
- typedef struct benchmark_t {
- const char *name;
- bench_fn fn;
- int enabled;
- } benchmark_t;
- #define ENT(s) { #s , bench_##s, 0 }
- static struct benchmark_t benchmarks[] = {
- ENT(dmap),
- ENT(siphash),
- ENT(digest),
- ENT(aes),
- ENT(onion_TAP),
- ENT(onion_ntor),
- ENT(ed25519),
- ENT(cell_aes),
- ENT(cell_ops),
- ENT(dh),
- ENT(ecdh_p256),
- ENT(ecdh_p224),
- {NULL,NULL,0}
- };
- static benchmark_t *
- find_benchmark(const char *name)
- {
- benchmark_t *b;
- for (b = benchmarks; b->name; ++b) {
- if (!strcmp(name, b->name)) {
- return b;
- }
- }
- return NULL;
- }
- /** Main entry point for benchmark code: parse the command line, and run
- * some benchmarks. */
- int
- main(int argc, const char **argv)
- {
- int i;
- int list=0, n_enabled=0;
- char *errmsg;
- or_options_t *options;
- tor_threads_init();
- if (argc == 4 && !strcmp(argv[1], "diff")) {
- init_logging(1);
- const int N = 200;
- char *f1 = read_file_to_str(argv[2], RFTS_BIN, NULL);
- char *f2 = read_file_to_str(argv[3], RFTS_BIN, NULL);
- if (! f1 || ! f2) {
- perror("X");
- return 1;
- }
- for (i = 0; i < N; ++i) {
- char *diff = consensus_diff_generate(f1, f2);
- tor_free(diff);
- }
- char *diff = consensus_diff_generate(f1, f2);
- printf("%s", diff);
- tor_free(f1);
- tor_free(f2);
- tor_free(diff);
- return 0;
- }
- for (i = 1; i < argc; ++i) {
- if (!strcmp(argv[i], "--list")) {
- list = 1;
- } else {
- benchmark_t *benchmark = find_benchmark(argv[i]);
- ++n_enabled;
- if (benchmark) {
- benchmark->enabled = 1;
- } else {
- printf("No such benchmark as %s\n", argv[i]);
- }
- }
- }
- reset_perftime();
- if (crypto_seed_rng() < 0) {
- printf("Couldn't seed RNG; exiting.\n");
- return 1;
- }
- crypto_init_siphash_key();
- options = options_new();
- init_logging(1);
- options->command = CMD_RUN_UNITTESTS;
- options->DataDirectory = tor_strdup("");
- options_init(options);
- if (set_options(options, &errmsg) < 0) {
- printf("Failed to set initial options: %s\n", errmsg);
- tor_free(errmsg);
- return 1;
- }
- for (benchmark_t *b = benchmarks; b->name; ++b) {
- if (b->enabled || n_enabled == 0) {
- printf("===== %s =====\n", b->name);
- if (!list)
- b->fn();
- }
- }
- return 0;
- }
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