/* * Copyright (c) 2012 Deng Hengyi. * * This test case is to test atomic add operation. * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.rtems.com/license/LICENSE. * */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "system.h" #include #include #define TEST_REPEAT 1000 #define ATOMIC_FETCH_ADD_NO_BARRIER(NAME, TYPE, R_TYPE, cpuid, mem_bar)\ { \ Atomic_##TYPE t; \ R_TYPE a; \ R_TYPE b; \ R_TYPE c; \ unsigned int i; \ for (i = 0; i < TEST_REPEAT; i++){ \ a = (R_TYPE)(rand() % ((R_TYPE)-1 / 2)); \ b = (R_TYPE)(rand() % ((R_TYPE)-1 / 2)); \ _Atomic_Store_##NAME(&t, a, mem_bar); \ _Atomic_Fetch_add_##NAME(&t, b, mem_bar); \ c = _Atomic_Load_##NAME(&t, mem_bar); \ rtems_test_assert(c == (R_TYPE)(a + b)); \ } \ locked_printf("\nCPU%d Atomic_Fetch_add_" #NAME ": SUCCESS\n", cpuid); \ } rtems_task Test_task( rtems_task_argument argument ) { int cpu_num; char name[5]; char *p; /* Get the task name */ p = rtems_object_get_name( RTEMS_SELF, 5, name ); rtems_test_assert( p != NULL ); /* Get the CPU Number */ cpu_num = bsp_smp_processor_id(); /* Print that the task is up and running. */ /* test relaxed barrier */ ATOMIC_FETCH_ADD_NO_BARRIER(uint, Uint, uint_fast32_t, cpu_num, ATOMIC_ORDER_RELAXED); ATOMIC_FETCH_ADD_NO_BARRIER(ptr, Pointer, uintptr_t, cpu_num, ATOMIC_ORDER_RELAXED); /* test acquire barrier */ ATOMIC_FETCH_ADD_NO_BARRIER(uint, Uint, uint_fast32_t, cpu_num, ATOMIC_ORDER_ACQUIRE); ATOMIC_FETCH_ADD_NO_BARRIER(ptr, Pointer, uintptr_t, cpu_num, ATOMIC_ORDER_ACQUIRE); /* test release barrier */ ATOMIC_FETCH_ADD_NO_BARRIER(uint, Uint, uint_fast32_t, cpu_num, ATOMIC_ORDER_RELEASE); ATOMIC_FETCH_ADD_NO_BARRIER(ptr, Pointer, uintptr_t, cpu_num, ATOMIC_ORDER_RELEASE); // ATOMIC_FETCH_ADD_NO_BARRIER(64, cpu_num); /* Set the flag that the task is up and running */ TaskRan[cpu_num] = true; /* Drop into a loop which will keep this task on * running on the cpu. */ while(1); }