1*3cab2bb3Spatrick // Mini-benchmark for creating a lot of threads.
2*3cab2bb3Spatrick //
3*3cab2bb3Spatrick // Some facts:
4*3cab2bb3Spatrick // a) clang -O1 takes <15ms to start N=500 threads,
5*3cab2bb3Spatrick // consuming ~4MB more RAM than N=1.
6*3cab2bb3Spatrick // b) clang -O1 -ftsan takes ~26s to start N=500 threads,
7*3cab2bb3Spatrick // eats 5GB more RAM than N=1 (which is somewhat expected but still a lot)
8*3cab2bb3Spatrick // but then it consumes ~4GB of extra memory when the threads shut down!
9*3cab2bb3Spatrick // (definitely not in the barrier_wait interceptor)
10*3cab2bb3Spatrick // Also, it takes 26s to run with N=500 vs just 1.1s to run with N=1.
11*3cab2bb3Spatrick #include <assert.h>
12*3cab2bb3Spatrick #include <pthread.h>
13*3cab2bb3Spatrick #include <stdio.h>
14*3cab2bb3Spatrick #include <stdlib.h>
15*3cab2bb3Spatrick #include <unistd.h>
16*3cab2bb3Spatrick
17*3cab2bb3Spatrick pthread_barrier_t all_threads_ready;
18*3cab2bb3Spatrick
Thread(void * unused)19*3cab2bb3Spatrick void* Thread(void *unused) {
20*3cab2bb3Spatrick pthread_barrier_wait(&all_threads_ready);
21*3cab2bb3Spatrick return 0;
22*3cab2bb3Spatrick }
23*3cab2bb3Spatrick
main(int argc,char ** argv)24*3cab2bb3Spatrick int main(int argc, char **argv) {
25*3cab2bb3Spatrick int n_threads;
26*3cab2bb3Spatrick if (argc == 1) {
27*3cab2bb3Spatrick n_threads = 100;
28*3cab2bb3Spatrick } else if (argc == 2) {
29*3cab2bb3Spatrick n_threads = atoi(argv[1]);
30*3cab2bb3Spatrick } else {
31*3cab2bb3Spatrick printf("Usage: %s n_threads\n", argv[0]);
32*3cab2bb3Spatrick return 1;
33*3cab2bb3Spatrick }
34*3cab2bb3Spatrick printf("%s: n_threads=%d\n", __FILE__, n_threads);
35*3cab2bb3Spatrick
36*3cab2bb3Spatrick pthread_barrier_init(&all_threads_ready, NULL, n_threads + 1);
37*3cab2bb3Spatrick
38*3cab2bb3Spatrick pthread_t *t = new pthread_t[n_threads];
39*3cab2bb3Spatrick for (int i = 0; i < n_threads; i++) {
40*3cab2bb3Spatrick int status = pthread_create(&t[i], 0, Thread, (void*)i);
41*3cab2bb3Spatrick assert(status == 0);
42*3cab2bb3Spatrick }
43*3cab2bb3Spatrick // sleep(5); // FIXME: simplify measuring the memory usage.
44*3cab2bb3Spatrick pthread_barrier_wait(&all_threads_ready);
45*3cab2bb3Spatrick for (int i = 0; i < n_threads; i++) {
46*3cab2bb3Spatrick pthread_join(t[i], 0);
47*3cab2bb3Spatrick }
48*3cab2bb3Spatrick // sleep(5); // FIXME: simplify measuring the memory usage.
49*3cab2bb3Spatrick delete [] t;
50*3cab2bb3Spatrick
51*3cab2bb3Spatrick return 0;
52*3cab2bb3Spatrick }
53