/* -*- Mode: C; c-basic-offset:4 ; indent-tabs-mode:nil ; -*- */ /* * * (C) 2015 by Argonne National Laboratory. * See COPYRIGHT in top-level directory. */ /* This test is going to test the atomicity for "read-modify-write" in FOP * operations */ /* There are three processes involved in this test: P0 (origin_shm), P1 (origin_am), * and P2 (dest). P0 and P1 issues multiple FOP with MPI_SUM and integer (value 1) * to P2 via SHM and AM respectively. The correct results should be that the * results on P0 and P1 never be the same. */ #include "mpi.h" #include #define AM_BUF_SIZE 10 #define SHM_BUF_SIZE 1000 #define WIN_BUF_SIZE 1 #define LOOP_SIZE 15 #define CHECK_TAG 123 int main(int argc, char *argv[]) { int rank, size, i, j, k; int errors = 0, all_errors = 0; int origin_shm, origin_am, dest; int my_buf_size; int *orig_buf = NULL, *result_buf = NULL, *target_buf = NULL, *check_buf = NULL; MPI_Win win; MPI_Status status; MPI_Init(&argc, &argv); MPI_Comm_rank(MPI_COMM_WORLD, &rank); MPI_Comm_size(MPI_COMM_WORLD, &size); if (size != 3) { /* run this test with three processes */ goto exit_test; } /* this works when MPIR_PARAM_CH3_ODD_EVEN_CLIQUES is set */ dest = 2; origin_shm = 0; origin_am = 1; if (rank == origin_am) my_buf_size = AM_BUF_SIZE; else if (rank == origin_shm) my_buf_size = SHM_BUF_SIZE; if (rank != dest) { MPI_Alloc_mem(sizeof(int) * my_buf_size, MPI_INFO_NULL, &orig_buf); MPI_Alloc_mem(sizeof(int) * my_buf_size, MPI_INFO_NULL, &result_buf); } MPI_Win_allocate(sizeof(int) * WIN_BUF_SIZE, sizeof(int), MPI_INFO_NULL, MPI_COMM_WORLD, &target_buf, &win); for (k = 0; k < LOOP_SIZE; k++) { /* init buffers */ if (rank != dest) { for (i = 0; i < my_buf_size; i++) { orig_buf[i] = 1; result_buf[i] = 0; } } else { MPI_Win_lock(MPI_LOCK_SHARED, rank, 0, win); for (i = 0; i < WIN_BUF_SIZE; i++) { target_buf[i] = 0; } MPI_Win_unlock(rank, win); } MPI_Barrier(MPI_COMM_WORLD); /* perform FOP */ MPI_Win_lock_all(0, win); if (rank != dest) { for (i = 0; i < my_buf_size; i++) { MPI_Fetch_and_op(&(orig_buf[i]), &(result_buf[i]), MPI_INT, dest, 0, MPI_SUM, win); MPI_Win_flush(dest, win); } } MPI_Win_unlock_all(win); MPI_Barrier(MPI_COMM_WORLD); if (rank != dest) { /* check results on P0 and P2 (origin) */ if (rank == origin_am) { MPI_Send(result_buf, AM_BUF_SIZE, MPI_INT, origin_shm, CHECK_TAG, MPI_COMM_WORLD); } else if (rank == origin_shm) { MPI_Alloc_mem(sizeof(int) * AM_BUF_SIZE, MPI_INFO_NULL, &check_buf); MPI_Recv(check_buf, AM_BUF_SIZE, MPI_INT, origin_am, CHECK_TAG, MPI_COMM_WORLD, &status); for (i = 0; i < AM_BUF_SIZE; i++) { for (j = 0; j < SHM_BUF_SIZE; j++) { if (check_buf[i] == result_buf[j]) { printf ("LOOP=%d, rank=%d, FOP, both check_buf[%d] and result_buf[%d] equal to %d, expected to be different. \n", k, rank, i, j, check_buf[i]); errors++; } } } MPI_Free_mem(check_buf); } } else { MPI_Win_lock(MPI_LOCK_SHARED, rank, 0, win); /* check results on P1 */ if (target_buf[0] != AM_BUF_SIZE + SHM_BUF_SIZE) { printf("LOOP=%d, rank=%d, FOP, target_buf[0] = %d, expected %d. \n", k, rank, target_buf[0], AM_BUF_SIZE + SHM_BUF_SIZE); errors++; } MPI_Win_unlock(rank, win); } } MPI_Win_free(&win); if (rank == origin_am || rank == origin_shm) { MPI_Free_mem(orig_buf); MPI_Free_mem(result_buf); } exit_test: MPI_Reduce(&errors, &all_errors, 1, MPI_INT, MPI_SUM, 0, MPI_COMM_WORLD); if (rank == 0 && all_errors == 0) printf(" No Errors\n"); MPI_Finalize(); return 0; }