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kernel / tools / testing / selftests / bpf / bench.c
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1// SPDX-License-Identifier: GPL-2.0 2/* Copyright (c) 2020 Facebook */ 3#define _GNU_SOURCE 4#include <argp.h> 5#include <linux/compiler.h> 6#include <sys/time.h> 7#include <sched.h> 8#include <fcntl.h> 9#include <pthread.h> 10#include <sys/sysinfo.h> 11#include <signal.h> 12#include "bench.h" 13#include "testing_helpers.h" 14 15struct env env = { 16 .warmup_sec = 1, 17 .duration_sec = 5, 18 .affinity = false, 19 .quiet = false, 20 .consumer_cnt = 1, 21 .producer_cnt = 1, 22}; 23 24static int libbpf_print_fn(enum libbpf_print_level level, 25 const char *format, va_list args) 26{ 27 if (level == LIBBPF_DEBUG && !env.verbose) 28 return 0; 29 return vfprintf(stderr, format, args); 30} 31 32void setup_libbpf(void) 33{ 34 libbpf_set_strict_mode(LIBBPF_STRICT_ALL); 35 libbpf_set_print(libbpf_print_fn); 36} 37 38void false_hits_report_progress(int iter, struct bench_res *res, long delta_ns) 39{ 40 long total = res->false_hits + res->hits + res->drops; 41 42 printf("Iter %3d (%7.3lfus): ", 43 iter, (delta_ns - 1000000000) / 1000.0); 44 45 printf("%ld false hits of %ld total operations. Percentage = %2.2f %%\n", 46 res->false_hits, total, ((float)res->false_hits / total) * 100); 47} 48 49void false_hits_report_final(struct bench_res res[], int res_cnt) 50{ 51 long total_hits = 0, total_drops = 0, total_false_hits = 0, total_ops = 0; 52 int i; 53 54 for (i = 0; i < res_cnt; i++) { 55 total_hits += res[i].hits; 56 total_false_hits += res[i].false_hits; 57 total_drops += res[i].drops; 58 } 59 total_ops = total_hits + total_false_hits + total_drops; 60 61 printf("Summary: %ld false hits of %ld total operations. ", 62 total_false_hits, total_ops); 63 printf("Percentage = %2.2f %%\n", 64 ((float)total_false_hits / total_ops) * 100); 65} 66 67void hits_drops_report_progress(int iter, struct bench_res *res, long delta_ns) 68{ 69 double hits_per_sec, drops_per_sec; 70 double hits_per_prod; 71 72 hits_per_sec = res->hits / 1000000.0 / (delta_ns / 1000000000.0); 73 hits_per_prod = hits_per_sec / env.producer_cnt; 74 drops_per_sec = res->drops / 1000000.0 / (delta_ns / 1000000000.0); 75 76 printf("Iter %3d (%7.3lfus): ", 77 iter, (delta_ns - 1000000000) / 1000.0); 78 79 printf("hits %8.3lfM/s (%7.3lfM/prod), drops %8.3lfM/s, total operations %8.3lfM/s\n", 80 hits_per_sec, hits_per_prod, drops_per_sec, hits_per_sec + drops_per_sec); 81} 82 83void 84grace_period_latency_basic_stats(struct bench_res res[], int res_cnt, struct basic_stats *gp_stat) 85{ 86 int i; 87 88 memset(gp_stat, 0, sizeof(struct basic_stats)); 89 90 for (i = 0; i < res_cnt; i++) 91 gp_stat->mean += res[i].gp_ns / 1000.0 / (double)res[i].gp_ct / (0.0 + res_cnt); 92 93#define IT_MEAN_DIFF (res[i].gp_ns / 1000.0 / (double)res[i].gp_ct - gp_stat->mean) 94 if (res_cnt > 1) { 95 for (i = 0; i < res_cnt; i++) 96 gp_stat->stddev += (IT_MEAN_DIFF * IT_MEAN_DIFF) / (res_cnt - 1.0); 97 } 98 gp_stat->stddev = sqrt(gp_stat->stddev); 99#undef IT_MEAN_DIFF 100} 101 102void 103grace_period_ticks_basic_stats(struct bench_res res[], int res_cnt, struct basic_stats *gp_stat) 104{ 105 int i; 106 107 memset(gp_stat, 0, sizeof(struct basic_stats)); 108 for (i = 0; i < res_cnt; i++) 109 gp_stat->mean += res[i].stime / (double)res[i].gp_ct / (0.0 + res_cnt); 110 111#define IT_MEAN_DIFF (res[i].stime / (double)res[i].gp_ct - gp_stat->mean) 112 if (res_cnt > 1) { 113 for (i = 0; i < res_cnt; i++) 114 gp_stat->stddev += (IT_MEAN_DIFF * IT_MEAN_DIFF) / (res_cnt - 1.0); 115 } 116 gp_stat->stddev = sqrt(gp_stat->stddev); 117#undef IT_MEAN_DIFF 118} 119 120void hits_drops_report_final(struct bench_res res[], int res_cnt) 121{ 122 int i; 123 double hits_mean = 0.0, drops_mean = 0.0, total_ops_mean = 0.0; 124 double hits_stddev = 0.0, drops_stddev = 0.0, total_ops_stddev = 0.0; 125 double total_ops; 126 127 for (i = 0; i < res_cnt; i++) { 128 hits_mean += res[i].hits / 1000000.0 / (0.0 + res_cnt); 129 drops_mean += res[i].drops / 1000000.0 / (0.0 + res_cnt); 130 } 131 total_ops_mean = hits_mean + drops_mean; 132 133 if (res_cnt > 1) { 134 for (i = 0; i < res_cnt; i++) { 135 hits_stddev += (hits_mean - res[i].hits / 1000000.0) * 136 (hits_mean - res[i].hits / 1000000.0) / 137 (res_cnt - 1.0); 138 drops_stddev += (drops_mean - res[i].drops / 1000000.0) * 139 (drops_mean - res[i].drops / 1000000.0) / 140 (res_cnt - 1.0); 141 total_ops = res[i].hits + res[i].drops; 142 total_ops_stddev += (total_ops_mean - total_ops / 1000000.0) * 143 (total_ops_mean - total_ops / 1000000.0) / 144 (res_cnt - 1.0); 145 } 146 hits_stddev = sqrt(hits_stddev); 147 drops_stddev = sqrt(drops_stddev); 148 total_ops_stddev = sqrt(total_ops_stddev); 149 } 150 printf("Summary: hits %8.3lf \u00B1 %5.3lfM/s (%7.3lfM/prod), ", 151 hits_mean, hits_stddev, hits_mean / env.producer_cnt); 152 printf("drops %8.3lf \u00B1 %5.3lfM/s, ", 153 drops_mean, drops_stddev); 154 printf("total operations %8.3lf \u00B1 %5.3lfM/s\n", 155 total_ops_mean, total_ops_stddev); 156} 157 158void ops_report_progress(int iter, struct bench_res *res, long delta_ns) 159{ 160 double hits_per_sec, hits_per_prod; 161 162 hits_per_sec = res->hits / 1000000.0 / (delta_ns / 1000000000.0); 163 hits_per_prod = hits_per_sec / env.producer_cnt; 164 165 printf("Iter %3d (%7.3lfus): ", iter, (delta_ns - 1000000000) / 1000.0); 166 167 printf("hits %8.3lfM/s (%7.3lfM/prod)\n", hits_per_sec, hits_per_prod); 168} 169 170void ops_report_final(struct bench_res res[], int res_cnt) 171{ 172 double hits_mean = 0.0, hits_stddev = 0.0; 173 int i; 174 175 for (i = 0; i < res_cnt; i++) 176 hits_mean += res[i].hits / 1000000.0 / (0.0 + res_cnt); 177 178 if (res_cnt > 1) { 179 for (i = 0; i < res_cnt; i++) 180 hits_stddev += (hits_mean - res[i].hits / 1000000.0) * 181 (hits_mean - res[i].hits / 1000000.0) / 182 (res_cnt - 1.0); 183 184 hits_stddev = sqrt(hits_stddev); 185 } 186 printf("Summary: throughput %8.3lf \u00B1 %5.3lf M ops/s (%7.3lfM ops/prod), ", 187 hits_mean, hits_stddev, hits_mean / env.producer_cnt); 188 printf("latency %8.3lf ns/op\n", 1000.0 / hits_mean * env.producer_cnt); 189} 190 191void local_storage_report_progress(int iter, struct bench_res *res, 192 long delta_ns) 193{ 194 double important_hits_per_sec, hits_per_sec; 195 double delta_sec = delta_ns / 1000000000.0; 196 197 hits_per_sec = res->hits / 1000000.0 / delta_sec; 198 important_hits_per_sec = res->important_hits / 1000000.0 / delta_sec; 199 200 printf("Iter %3d (%7.3lfus): ", iter, (delta_ns - 1000000000) / 1000.0); 201 202 printf("hits %8.3lfM/s ", hits_per_sec); 203 printf("important_hits %8.3lfM/s\n", important_hits_per_sec); 204} 205 206void local_storage_report_final(struct bench_res res[], int res_cnt) 207{ 208 double important_hits_mean = 0.0, important_hits_stddev = 0.0; 209 double hits_mean = 0.0, hits_stddev = 0.0; 210 int i; 211 212 for (i = 0; i < res_cnt; i++) { 213 hits_mean += res[i].hits / 1000000.0 / (0.0 + res_cnt); 214 important_hits_mean += res[i].important_hits / 1000000.0 / (0.0 + res_cnt); 215 } 216 217 if (res_cnt > 1) { 218 for (i = 0; i < res_cnt; i++) { 219 hits_stddev += (hits_mean - res[i].hits / 1000000.0) * 220 (hits_mean - res[i].hits / 1000000.0) / 221 (res_cnt - 1.0); 222 important_hits_stddev += 223 (important_hits_mean - res[i].important_hits / 1000000.0) * 224 (important_hits_mean - res[i].important_hits / 1000000.0) / 225 (res_cnt - 1.0); 226 } 227 228 hits_stddev = sqrt(hits_stddev); 229 important_hits_stddev = sqrt(important_hits_stddev); 230 } 231 printf("Summary: hits throughput %8.3lf \u00B1 %5.3lf M ops/s, ", 232 hits_mean, hits_stddev); 233 printf("hits latency %8.3lf ns/op, ", 1000.0 / hits_mean); 234 printf("important_hits throughput %8.3lf \u00B1 %5.3lf M ops/s\n", 235 important_hits_mean, important_hits_stddev); 236} 237 238const char *argp_program_version = "benchmark"; 239const char *argp_program_bug_address = "<bpf@vger.kernel.org>"; 240const char argp_program_doc[] = 241"benchmark Generic benchmarking framework.\n" 242"\n" 243"This tool runs benchmarks.\n" 244"\n" 245"USAGE: benchmark <bench-name>\n" 246"\n" 247"EXAMPLES:\n" 248" # run 'count-local' benchmark with 1 producer and 1 consumer\n" 249" benchmark count-local\n" 250" # run 'count-local' with 16 producer and 8 consumer thread, pinned to CPUs\n" 251" benchmark -p16 -c8 -a count-local\n"; 252 253enum { 254 ARG_PROD_AFFINITY_SET = 1000, 255 ARG_CONS_AFFINITY_SET = 1001, 256}; 257 258static const struct argp_option opts[] = { 259 { "list", 'l', NULL, 0, "List available benchmarks"}, 260 { "duration", 'd', "SEC", 0, "Duration of benchmark, seconds"}, 261 { "warmup", 'w', "SEC", 0, "Warm-up period, seconds"}, 262 { "producers", 'p', "NUM", 0, "Number of producer threads"}, 263 { "consumers", 'c', "NUM", 0, "Number of consumer threads"}, 264 { "verbose", 'v', NULL, 0, "Verbose debug output"}, 265 { "affinity", 'a', NULL, 0, "Set consumer/producer thread affinity"}, 266 { "quiet", 'q', NULL, 0, "Be more quiet"}, 267 { "prod-affinity", ARG_PROD_AFFINITY_SET, "CPUSET", 0, 268 "Set of CPUs for producer threads; implies --affinity"}, 269 { "cons-affinity", ARG_CONS_AFFINITY_SET, "CPUSET", 0, 270 "Set of CPUs for consumer threads; implies --affinity"}, 271 {}, 272}; 273 274extern struct argp bench_ringbufs_argp; 275extern struct argp bench_bloom_map_argp; 276extern struct argp bench_bpf_loop_argp; 277extern struct argp bench_local_storage_argp; 278extern struct argp bench_local_storage_rcu_tasks_trace_argp; 279extern struct argp bench_strncmp_argp; 280extern struct argp bench_hashmap_lookup_argp; 281extern struct argp bench_local_storage_create_argp; 282 283static const struct argp_child bench_parsers[] = { 284 { &bench_ringbufs_argp, 0, "Ring buffers benchmark", 0 }, 285 { &bench_bloom_map_argp, 0, "Bloom filter map benchmark", 0 }, 286 { &bench_bpf_loop_argp, 0, "bpf_loop helper benchmark", 0 }, 287 { &bench_local_storage_argp, 0, "local_storage benchmark", 0 }, 288 { &bench_strncmp_argp, 0, "bpf_strncmp helper benchmark", 0 }, 289 { &bench_local_storage_rcu_tasks_trace_argp, 0, 290 "local_storage RCU Tasks Trace slowdown benchmark", 0 }, 291 { &bench_hashmap_lookup_argp, 0, "Hashmap lookup benchmark", 0 }, 292 { &bench_local_storage_create_argp, 0, "local-storage-create benchmark", 0 }, 293 {}, 294}; 295 296/* Make pos_args global, so that we can run argp_parse twice, if necessary */ 297static int pos_args; 298 299static error_t parse_arg(int key, char *arg, struct argp_state *state) 300{ 301 switch (key) { 302 case 'v': 303 env.verbose = true; 304 break; 305 case 'l': 306 env.list = true; 307 break; 308 case 'd': 309 env.duration_sec = strtol(arg, NULL, 10); 310 if (env.duration_sec <= 0) { 311 fprintf(stderr, "Invalid duration: %s\n", arg); 312 argp_usage(state); 313 } 314 break; 315 case 'w': 316 env.warmup_sec = strtol(arg, NULL, 10); 317 if (env.warmup_sec <= 0) { 318 fprintf(stderr, "Invalid warm-up duration: %s\n", arg); 319 argp_usage(state); 320 } 321 break; 322 case 'p': 323 env.producer_cnt = strtol(arg, NULL, 10); 324 if (env.producer_cnt <= 0) { 325 fprintf(stderr, "Invalid producer count: %s\n", arg); 326 argp_usage(state); 327 } 328 break; 329 case 'c': 330 env.consumer_cnt = strtol(arg, NULL, 10); 331 if (env.consumer_cnt <= 0) { 332 fprintf(stderr, "Invalid consumer count: %s\n", arg); 333 argp_usage(state); 334 } 335 break; 336 case 'a': 337 env.affinity = true; 338 break; 339 case 'q': 340 env.quiet = true; 341 break; 342 case ARG_PROD_AFFINITY_SET: 343 env.affinity = true; 344 if (parse_num_list(arg, &env.prod_cpus.cpus, 345 &env.prod_cpus.cpus_len)) { 346 fprintf(stderr, "Invalid format of CPU set for producers."); 347 argp_usage(state); 348 } 349 break; 350 case ARG_CONS_AFFINITY_SET: 351 env.affinity = true; 352 if (parse_num_list(arg, &env.cons_cpus.cpus, 353 &env.cons_cpus.cpus_len)) { 354 fprintf(stderr, "Invalid format of CPU set for consumers."); 355 argp_usage(state); 356 } 357 break; 358 case ARGP_KEY_ARG: 359 if (pos_args++) { 360 fprintf(stderr, 361 "Unrecognized positional argument: %s\n", arg); 362 argp_usage(state); 363 } 364 env.bench_name = strdup(arg); 365 break; 366 default: 367 return ARGP_ERR_UNKNOWN; 368 } 369 return 0; 370} 371 372static void parse_cmdline_args_init(int argc, char **argv) 373{ 374 static const struct argp argp = { 375 .options = opts, 376 .parser = parse_arg, 377 .doc = argp_program_doc, 378 .children = bench_parsers, 379 }; 380 if (argp_parse(&argp, argc, argv, 0, NULL, NULL)) 381 exit(1); 382} 383 384static void parse_cmdline_args_final(int argc, char **argv) 385{ 386 struct argp_child bench_parsers[2] = {}; 387 const struct argp argp = { 388 .options = opts, 389 .parser = parse_arg, 390 .doc = argp_program_doc, 391 .children = bench_parsers, 392 }; 393 394 /* Parse arguments the second time with the correct set of parsers */ 395 if (bench->argp) { 396 bench_parsers[0].argp = bench->argp; 397 bench_parsers[0].header = bench->name; 398 pos_args = 0; 399 if (argp_parse(&argp, argc, argv, 0, NULL, NULL)) 400 exit(1); 401 } 402} 403 404static void collect_measurements(long delta_ns); 405 406static __u64 last_time_ns; 407static void sigalarm_handler(int signo) 408{ 409 long new_time_ns = get_time_ns(); 410 long delta_ns = new_time_ns - last_time_ns; 411 412 collect_measurements(delta_ns); 413 414 last_time_ns = new_time_ns; 415} 416 417/* set up periodic 1-second timer */ 418static void setup_timer() 419{ 420 static struct sigaction sigalarm_action = { 421 .sa_handler = sigalarm_handler, 422 }; 423 struct itimerval timer_settings = {}; 424 int err; 425 426 last_time_ns = get_time_ns(); 427 err = sigaction(SIGALRM, &sigalarm_action, NULL); 428 if (err < 0) { 429 fprintf(stderr, "failed to install SIGALRM handler: %d\n", -errno); 430 exit(1); 431 } 432 timer_settings.it_interval.tv_sec = 1; 433 timer_settings.it_value.tv_sec = 1; 434 err = setitimer(ITIMER_REAL, &timer_settings, NULL); 435 if (err < 0) { 436 fprintf(stderr, "failed to arm interval timer: %d\n", -errno); 437 exit(1); 438 } 439} 440 441static void set_thread_affinity(pthread_t thread, int cpu) 442{ 443 cpu_set_t cpuset; 444 445 CPU_ZERO(&cpuset); 446 CPU_SET(cpu, &cpuset); 447 if (pthread_setaffinity_np(thread, sizeof(cpuset), &cpuset)) { 448 fprintf(stderr, "setting affinity to CPU #%d failed: %d\n", 449 cpu, errno); 450 exit(1); 451 } 452} 453 454static int next_cpu(struct cpu_set *cpu_set) 455{ 456 if (cpu_set->cpus) { 457 int i; 458 459 /* find next available CPU */ 460 for (i = cpu_set->next_cpu; i < cpu_set->cpus_len; i++) { 461 if (cpu_set->cpus[i]) { 462 cpu_set->next_cpu = i + 1; 463 return i; 464 } 465 } 466 fprintf(stderr, "Not enough CPUs specified, need CPU #%d or higher.\n", i); 467 exit(1); 468 } 469 470 return cpu_set->next_cpu++; 471} 472 473static struct bench_state { 474 int res_cnt; 475 struct bench_res *results; 476 pthread_t *consumers; 477 pthread_t *producers; 478} state; 479 480const struct bench *bench = NULL; 481 482extern const struct bench bench_count_global; 483extern const struct bench bench_count_local; 484extern const struct bench bench_rename_base; 485extern const struct bench bench_rename_kprobe; 486extern const struct bench bench_rename_kretprobe; 487extern const struct bench bench_rename_rawtp; 488extern const struct bench bench_rename_fentry; 489extern const struct bench bench_rename_fexit; 490extern const struct bench bench_trig_base; 491extern const struct bench bench_trig_tp; 492extern const struct bench bench_trig_rawtp; 493extern const struct bench bench_trig_kprobe; 494extern const struct bench bench_trig_fentry; 495extern const struct bench bench_trig_fentry_sleep; 496extern const struct bench bench_trig_fmodret; 497extern const struct bench bench_trig_uprobe_base; 498extern const struct bench bench_trig_uprobe_with_nop; 499extern const struct bench bench_trig_uretprobe_with_nop; 500extern const struct bench bench_trig_uprobe_without_nop; 501extern const struct bench bench_trig_uretprobe_without_nop; 502extern const struct bench bench_rb_libbpf; 503extern const struct bench bench_rb_custom; 504extern const struct bench bench_pb_libbpf; 505extern const struct bench bench_pb_custom; 506extern const struct bench bench_bloom_lookup; 507extern const struct bench bench_bloom_update; 508extern const struct bench bench_bloom_false_positive; 509extern const struct bench bench_hashmap_without_bloom; 510extern const struct bench bench_hashmap_with_bloom; 511extern const struct bench bench_bpf_loop; 512extern const struct bench bench_strncmp_no_helper; 513extern const struct bench bench_strncmp_helper; 514extern const struct bench bench_bpf_hashmap_full_update; 515extern const struct bench bench_local_storage_cache_seq_get; 516extern const struct bench bench_local_storage_cache_interleaved_get; 517extern const struct bench bench_local_storage_cache_hashmap_control; 518extern const struct bench bench_local_storage_tasks_trace; 519extern const struct bench bench_bpf_hashmap_lookup; 520extern const struct bench bench_local_storage_create; 521 522static const struct bench *benchs[] = { 523 &bench_count_global, 524 &bench_count_local, 525 &bench_rename_base, 526 &bench_rename_kprobe, 527 &bench_rename_kretprobe, 528 &bench_rename_rawtp, 529 &bench_rename_fentry, 530 &bench_rename_fexit, 531 &bench_trig_base, 532 &bench_trig_tp, 533 &bench_trig_rawtp, 534 &bench_trig_kprobe, 535 &bench_trig_fentry, 536 &bench_trig_fentry_sleep, 537 &bench_trig_fmodret, 538 &bench_trig_uprobe_base, 539 &bench_trig_uprobe_with_nop, 540 &bench_trig_uretprobe_with_nop, 541 &bench_trig_uprobe_without_nop, 542 &bench_trig_uretprobe_without_nop, 543 &bench_rb_libbpf, 544 &bench_rb_custom, 545 &bench_pb_libbpf, 546 &bench_pb_custom, 547 &bench_bloom_lookup, 548 &bench_bloom_update, 549 &bench_bloom_false_positive, 550 &bench_hashmap_without_bloom, 551 &bench_hashmap_with_bloom, 552 &bench_bpf_loop, 553 &bench_strncmp_no_helper, 554 &bench_strncmp_helper, 555 &bench_bpf_hashmap_full_update, 556 &bench_local_storage_cache_seq_get, 557 &bench_local_storage_cache_interleaved_get, 558 &bench_local_storage_cache_hashmap_control, 559 &bench_local_storage_tasks_trace, 560 &bench_bpf_hashmap_lookup, 561 &bench_local_storage_create, 562}; 563 564static void find_benchmark(void) 565{ 566 int i; 567 568 if (!env.bench_name) { 569 fprintf(stderr, "benchmark name is not specified\n"); 570 exit(1); 571 } 572 for (i = 0; i < ARRAY_SIZE(benchs); i++) { 573 if (strcmp(benchs[i]->name, env.bench_name) == 0) { 574 bench = benchs[i]; 575 break; 576 } 577 } 578 if (!bench) { 579 fprintf(stderr, "benchmark '%s' not found\n", env.bench_name); 580 exit(1); 581 } 582} 583 584static void setup_benchmark(void) 585{ 586 int i, err; 587 588 if (!env.quiet) 589 printf("Setting up benchmark '%s'...\n", bench->name); 590 591 state.producers = calloc(env.producer_cnt, sizeof(*state.producers)); 592 state.consumers = calloc(env.consumer_cnt, sizeof(*state.consumers)); 593 state.results = calloc(env.duration_sec + env.warmup_sec + 2, 594 sizeof(*state.results)); 595 if (!state.producers || !state.consumers || !state.results) 596 exit(1); 597 598 if (bench->validate) 599 bench->validate(); 600 if (bench->setup) 601 bench->setup(); 602 603 for (i = 0; i < env.consumer_cnt; i++) { 604 err = pthread_create(&state.consumers[i], NULL, 605 bench->consumer_thread, (void *)(long)i); 606 if (err) { 607 fprintf(stderr, "failed to create consumer thread #%d: %d\n", 608 i, -errno); 609 exit(1); 610 } 611 if (env.affinity) 612 set_thread_affinity(state.consumers[i], 613 next_cpu(&env.cons_cpus)); 614 } 615 616 /* unless explicit producer CPU list is specified, continue after 617 * last consumer CPU 618 */ 619 if (!env.prod_cpus.cpus) 620 env.prod_cpus.next_cpu = env.cons_cpus.next_cpu; 621 622 for (i = 0; i < env.producer_cnt; i++) { 623 err = pthread_create(&state.producers[i], NULL, 624 bench->producer_thread, (void *)(long)i); 625 if (err) { 626 fprintf(stderr, "failed to create producer thread #%d: %d\n", 627 i, -errno); 628 exit(1); 629 } 630 if (env.affinity) 631 set_thread_affinity(state.producers[i], 632 next_cpu(&env.prod_cpus)); 633 } 634 635 if (!env.quiet) 636 printf("Benchmark '%s' started.\n", bench->name); 637} 638 639static pthread_mutex_t bench_done_mtx = PTHREAD_MUTEX_INITIALIZER; 640static pthread_cond_t bench_done = PTHREAD_COND_INITIALIZER; 641 642static void collect_measurements(long delta_ns) { 643 int iter = state.res_cnt++; 644 struct bench_res *res = &state.results[iter]; 645 646 bench->measure(res); 647 648 if (bench->report_progress) 649 bench->report_progress(iter, res, delta_ns); 650 651 if (iter == env.duration_sec + env.warmup_sec) { 652 pthread_mutex_lock(&bench_done_mtx); 653 pthread_cond_signal(&bench_done); 654 pthread_mutex_unlock(&bench_done_mtx); 655 } 656} 657 658int main(int argc, char **argv) 659{ 660 parse_cmdline_args_init(argc, argv); 661 662 if (env.list) { 663 int i; 664 665 printf("Available benchmarks:\n"); 666 for (i = 0; i < ARRAY_SIZE(benchs); i++) { 667 printf("- %s\n", benchs[i]->name); 668 } 669 return 0; 670 } 671 672 find_benchmark(); 673 parse_cmdline_args_final(argc, argv); 674 675 setup_benchmark(); 676 677 setup_timer(); 678 679 pthread_mutex_lock(&bench_done_mtx); 680 pthread_cond_wait(&bench_done, &bench_done_mtx); 681 pthread_mutex_unlock(&bench_done_mtx); 682 683 if (bench->report_final) 684 /* skip first sample */ 685 bench->report_final(state.results + env.warmup_sec, 686 state.res_cnt - env.warmup_sec); 687 688 return 0; 689}