/* * Tests */ static void test_gf_mem_acct_enable_set(void **state) { (void) state; glusterfs_ctx_t test_ctx; expect_assert_failure(gf_mem_acct_enable_set(NULL)); memset(&test_ctx, 0, sizeof(test_ctx)); assert_true(NULL == test_ctx.process_uuid); gf_mem_acct_enable_set((void *)&test_ctx); assert_true(1 == test_ctx.mem_acct_enable); assert_true(NULL == test_ctx.process_uuid); }
int32_t main(int32_t argc, char **argv) { struct mem_pool *test_mem_pool; struct mem_pool *test_mem_pool_2; struct mem_pool *test_mem_pool_3; gf_mem_init_mempool_list(); gf_mem_acct_enable_set (); signals_setup(); mem_acct_init(gf_common_mt_end+1); test_mem_t ** mem_array = CALLOC(size,sizeof(test_mem_t * )); test_mem_2_t ** mem_array2 = CALLOC(size,sizeof(test_mem_2_t * )); test_mem_3_t ** mem_array3 = CALLOC(size,sizeof(test_mem_3_t * )); int j; int i; CPU_TIME_START; test_mem_pool = mem_pool_new (test_mem_t, size); test_mem_pool_2 = mem_pool_new (test_mem_2_t, size); test_mem_pool_3 = mem_pool_new (test_mem_3_t, size); CPU_TIME_END_PRINT("mem pool"); CPU_TIME_START; for(j=0; j<10000; j++){ if (!test_mem_pool) { DBG_PRINT("create mem pool error"); return -1; } for(i=0; i<size; i++) mem_array[i] = (test_mem_t *)mem_get(test_mem_pool); mem_array2[i] = (test_mem_2_t *)mem_get(test_mem_pool_2); mem_array3[i] = (test_mem_3_t *)mem_get(test_mem_pool_3); for(i=0; i<size; i++) mem_put(mem_array[i]) ; mem_put(mem_array2[i]) ; mem_put(mem_array3[i]) ; } CPU_TIME_END_PRINT("mem pool"); mem_pool_destroy(test_mem_pool); mem_pool_destroy(test_mem_pool_2); mem_pool_destroy(test_mem_pool_3); CPU_TIME_START; for(j=0; j<100; j++){ for(i=0; i<size; i++) mem_array[i] = (test_mem_t *)MALLOC(sizeof(test_mem_t)); mem_array2[i] = (test_mem_2_t *)MALLOC(sizeof(test_mem_2_t)); mem_array3[i] = (test_mem_3_t *)MALLOC(sizeof(test_mem_3_t)); for(i=0; i<size; i++) free (mem_array[i]); free (mem_array2[i]); free (mem_array3[i]); } CPU_TIME_END_PRINT("not mem pool"); //getchar(); return 0; }