/* * Copyright (c) 2004-2005 The Trustees of Indiana University and Indiana * University Research and Technology * Corporation. All rights reserved. * Copyright (c) 2004-2014 The University of Tennessee and The University * of Tennessee Research Foundation. All rights * reserved. * Copyright (c) 2004-2005 High Performance Computing Center Stuttgart, * University of Stuttgart. All rights reserved. * Copyright (c) 2004-2005 The Regents of the University of California. * All rights reserved. * Copyright (c) 2010 Cisco Systems, Inc. All rights reserved. * Copyright (c) 2015 Research Organization for Information Science * and Technology (RIST). All rights reserved. * $COPYRIGHT$ * * Additional copyrights may follow * * $HEADER$ */ #define OMPI_BUILDING 0 #include "opal_config.h" #ifdef HAVE_PTHREAD_H #include #endif #include #include #include "opal/sys/atomic.h" #define TEST_REPS 500 opal_atomic_int32_t val32 = 0; opal_atomic_int64_t val64 = 0; opal_atomic_int_t valint = 0; static void* atomic_math_test(void* arg) { int count = *((int*) arg); int i; for (i = 0 ; i < count ; ++i) { (void)opal_atomic_add_fetch_32(&val32, 5); (void)opal_atomic_add_fetch_64(&val64, 6); opal_atomic_add (&valint, 4); } return NULL; } static int atomic_math_test_th(int count, int thr_count) { int value; pthread_t *th; int tid; th = (pthread_t *) malloc(thr_count * sizeof(pthread_t)); if (!th) { perror("malloc"); exit(EXIT_FAILURE); } /* Ok to use a single instance of ip_union_t from the stack here because a) we're passing the same count to all threads, and b) we're waiting for all the threads to finish before leaving this function, so there's no race condition of the instance disappearing before the threads start. */ value = count; for (tid = 0; tid < thr_count; tid++) { if (pthread_create(&th[tid], NULL, atomic_math_test, (void*) &value) != 0) { perror("pthread_create"); exit(EXIT_FAILURE); } } /* -- wait for the thread set to finish -- */ for (tid = 0; tid < thr_count; tid++) { void *thread_return; if (pthread_join(th[tid], &thread_return) != 0) { perror("pthread_join"); exit(EXIT_FAILURE); } } free(th); return 0; } int main(int argc, char *argv[]) { int32_t test32; int64_t test64; int ret = 77; int num_threads = 1; if (argc != 2) { printf("*** Incorrect number of arguments. Skipping test\n"); return 77; } num_threads = atoi(argv[1]); test32 = opal_atomic_add_fetch_32 (&val32, 17); if (test32 != 17 || val32 != 17) { fprintf (stderr, "error in opal_atomic_add_fetch_32. expected (17, 17), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_fetch_add_32 (&val32, 13); if (test32 != 17 || val32 != 30) { fprintf (stderr, "error in opal_atomic_fetch_add_32. expected (17, 30), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_and_fetch_32 (&val32, 0x18); if (test32 != 24 || val32 != 24) { fprintf (stderr, "error in opal_atomic_and_fetch_32. expected (24, 24), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_fetch_and_32 (&val32, 0x10); if (test32 != 24 || val32 != 16) { fprintf (stderr, "error in opal_atomic_fetch_and_32. expected (24, 16), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_or_fetch_32 (&val32, 0x03); if (test32 != 19 || val32 != 19) { fprintf (stderr, "error in opal_atomic_or_fetch_32. expected (19, 19), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_fetch_or_32 (&val32, 0x04); if (test32 != 19 || val32 != 23) { fprintf (stderr, "error in opal_atomic_fetch_or_32. expected (19, 23), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_xor_fetch_32 (&val32, 0x03); if (test32 != 20 || val32 != 20) { fprintf (stderr, "error in opal_atomic_xor_fetch_32. expected (20, 20), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_fetch_xor_32 (&val32, 0x05); if (test32 != 20 || val32 != 17) { fprintf (stderr, "error in opal_atomic_fetch_xor_32. expected (20, 17), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_sub_fetch_32 (&val32, 14); if (test32 != 3 || val32 != 3) { fprintf (stderr, "error in opal_atomic_sub_fetch_32. expected (3, 3), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test32 = opal_atomic_fetch_xor_32 (&val32, 3); if (test32 != 3 || val32 != 0) { fprintf (stderr, "error in opal_atomic_fetch_sub_32. expected (3, 0), got (%d, %d)\n", test32, val32); exit(EXIT_FAILURE); } test64 = opal_atomic_add_fetch_64 (&val64, 17); if (test64 != 17 || val64 != 17) { fprintf (stderr, "error in opal_atomic_add_fetch_64. expected (17, 17), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_fetch_add_64 (&val64, 13); if (test64 != 17 || val64 != 30) { fprintf (stderr, "error in opal_atomic_fetch_add_64. expected (17, 30), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_and_fetch_64 (&val64, 0x18); if (test64 != 24 || val64 != 24) { fprintf (stderr, "error in opal_atomic_and_fetch_64. expected (24, 24), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_fetch_and_64 (&val64, 0x10); if (test64 != 24 || val64 != 16) { fprintf (stderr, "error in opal_atomic_fetch_and_64. expected (24, 16), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_or_fetch_64 (&val64, 0x03); if (test64 != 19 || val64 != 19) { fprintf (stderr, "error in opal_atomic_or_fetch_64. expected (19, 19), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_fetch_or_64 (&val64, 0x04); if (test64 != 19 || val64 != 23) { fprintf (stderr, "error in opal_atomic_fetch_or_64. expected (19, 23), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_xor_fetch_64 (&val64, 0x03); if (test64 != 20 || val64 != 20) { fprintf (stderr, "error in opal_atomic_xor_fetch_64. expected (20, 20), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_fetch_xor_64 (&val64, 0x05); if (test64 != 20 || val64 != 17) { fprintf (stderr, "error in opal_atomic_fetch_xor_64. expected (20, 17), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_sub_fetch_64 (&val64, 14); if (test64 != 3 || val64 != 3) { fprintf (stderr, "error in opal_atomic_sub_fetch_64. expected (3, 3), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } test64 = opal_atomic_fetch_xor_64 (&val64, 3); if (test64 != 3 || val64 != 0) { fprintf (stderr, "error in opal_atomic_fetch_sub_64. expected (3, 0), got (%" PRId64 ", %" PRId64 ")\n", test64, val64); exit(EXIT_FAILURE); } ret = atomic_math_test_th(TEST_REPS, num_threads); if (ret == 77) return ret; opal_atomic_mb(); if (val32 != TEST_REPS * num_threads * 5) { printf("opal_atomic_add_fetch32 failed. Expected %d, got %d.\n", TEST_REPS * num_threads * 5, val32); ret = 1; } if (val64 != TEST_REPS * num_threads * 6) { /* Safe to case to (int) here because we know it's going to be a small value */ printf("opal_atomic_add_fetch32 failed. Expected %d, got %d.\n", TEST_REPS * num_threads * 6, (int) val64); ret = 1; } if (valint != TEST_REPS * num_threads * 4) { printf("opal_atomic_add_fetch32 failed. Expected %d, got %d.\n", TEST_REPS * num_threads * 4, valint); ret = 1; } return ret; }