xref: /freebsd/tools/regression/include/stdatomic/logic.c (revision 17b945433d5fabc104d5f98fb247c82f3ed14336) 
1*17b94543SEd Schouten /*-
2*17b94543SEd Schouten  * Copyright (c) 2013 Ed Schouten <ed@FreeBSD.org>
3*17b94543SEd Schouten  * All rights reserved.
4*17b94543SEd Schouten  *
5*17b94543SEd Schouten  * Redistribution and use in source and binary forms, with or without
6*17b94543SEd Schouten  * modification, are permitted provided that the following conditions
7*17b94543SEd Schouten  * are met:
8*17b94543SEd Schouten  * 1. Redistributions of source code must retain the above copyright
9*17b94543SEd Schouten  *    notice, this list of conditions and the following disclaimer.
10*17b94543SEd Schouten  * 2. Redistributions in binary form must reproduce the above copyright
11*17b94543SEd Schouten  *    notice, this list of conditions and the following disclaimer in the
12*17b94543SEd Schouten  *    documentation and/or other materials provided with the distribution.
13*17b94543SEd Schouten  *
14*17b94543SEd Schouten  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
15*17b94543SEd Schouten  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
16*17b94543SEd Schouten  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
17*17b94543SEd Schouten  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
18*17b94543SEd Schouten  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
19*17b94543SEd Schouten  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
20*17b94543SEd Schouten  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
21*17b94543SEd Schouten  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
22*17b94543SEd Schouten  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
23*17b94543SEd Schouten  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
24*17b94543SEd Schouten  * SUCH DAMAGE.
25*17b94543SEd Schouten  */
26*17b94543SEd Schouten 
27*17b94543SEd Schouten #include <sys/cdefs.h>
28*17b94543SEd Schouten __FBSDID("$FreeBSD$");
29*17b94543SEd Schouten 
30*17b94543SEd Schouten #include <assert.h>
31*17b94543SEd Schouten #include <stdatomic.h>
32*17b94543SEd Schouten #include <stdint.h>
33*17b94543SEd Schouten #include <stdlib.h>
34*17b94543SEd Schouten #include <string.h>
35*17b94543SEd Schouten 
36*17b94543SEd Schouten /*
37*17b94543SEd Schouten  * Tool for testing the logical behaviour of operations on atomic
38*17b94543SEd Schouten  * integer types. These tests make no attempt to actually test whether
39*17b94543SEd Schouten  * the functions are atomic or provide the right barrier semantics.
40*17b94543SEd Schouten  *
41*17b94543SEd Schouten  * For every type, we create an array of 16 elements and repeat the test
42*17b94543SEd Schouten  * on every element in the array. This allows us to test whether the
43*17b94543SEd Schouten  * atomic operations have no effect on surrounding values. This is
44*17b94543SEd Schouten  * especially useful for the smaller integer types, as it may be the
45*17b94543SEd Schouten  * case that these operations are implemented by processing entire words
46*17b94543SEd Schouten  * (e.g. on MIPS).
47*17b94543SEd Schouten  */
48*17b94543SEd Schouten 
49*17b94543SEd Schouten static inline intmax_t
50*17b94543SEd Schouten rndnum(void)
51*17b94543SEd Schouten {
52*17b94543SEd Schouten 	intmax_t v;
53*17b94543SEd Schouten 
54*17b94543SEd Schouten 	arc4random_buf(&v, sizeof(v));
55*17b94543SEd Schouten 	return (v);
56*17b94543SEd Schouten }
57*17b94543SEd Schouten 
58*17b94543SEd Schouten #define	DO_FETCH_TEST(T, a, name, result) do {				\
59*17b94543SEd Schouten 	T v1 = atomic_load(a);						\
60*17b94543SEd Schouten 	T v2 = rndnum();						\
61*17b94543SEd Schouten 	assert(atomic_##name(a, v2) == v1); 				\
62*17b94543SEd Schouten 	assert(atomic_load(a) == (T)(result)); 				\
63*17b94543SEd Schouten } while (0)
64*17b94543SEd Schouten 
65*17b94543SEd Schouten #define	DO_COMPARE_EXCHANGE_TEST(T, a, name) do {			\
66*17b94543SEd Schouten 	T v1 = atomic_load(a);						\
67*17b94543SEd Schouten 	T v2 = rndnum();						\
68*17b94543SEd Schouten 	T v3 = rndnum();						\
69*17b94543SEd Schouten 	if (atomic_compare_exchange_##name(a, &v2, v3))			\
70*17b94543SEd Schouten 		assert(v1 == v2);					\
71*17b94543SEd Schouten 	else								\
72*17b94543SEd Schouten 		assert(atomic_compare_exchange_##name(a, &v2, v3));	\
73*17b94543SEd Schouten 	assert(atomic_load(a) == v3);					\
74*17b94543SEd Schouten } while (0)
75*17b94543SEd Schouten 
76*17b94543SEd Schouten #define	DO_ALL_TESTS(T, a) do {						\
77*17b94543SEd Schouten 	{								\
78*17b94543SEd Schouten 		T v1 = rndnum();					\
79*17b94543SEd Schouten 		atomic_init(a, v1);					\
80*17b94543SEd Schouten 		assert(atomic_load(a) == v1);				\
81*17b94543SEd Schouten 	}								\
82*17b94543SEd Schouten 	{								\
83*17b94543SEd Schouten 		T v1 = rndnum();					\
84*17b94543SEd Schouten 		atomic_store(a, v1);					\
85*17b94543SEd Schouten 		assert(atomic_load(a) == v1);				\
86*17b94543SEd Schouten 	}								\
87*17b94543SEd Schouten 									\
88*17b94543SEd Schouten 	DO_FETCH_TEST(T, a, exchange, v2);				\
89*17b94543SEd Schouten 	DO_FETCH_TEST(T, a, fetch_add, v1 + v2);			\
90*17b94543SEd Schouten 	DO_FETCH_TEST(T, a, fetch_and, v1 & v2);			\
91*17b94543SEd Schouten 	DO_FETCH_TEST(T, a, fetch_or, v1 | v2);				\
92*17b94543SEd Schouten 	DO_FETCH_TEST(T, a, fetch_sub, v1 - v2);			\
93*17b94543SEd Schouten 	DO_FETCH_TEST(T, a, fetch_xor, v1 ^ v2);			\
94*17b94543SEd Schouten 									\
95*17b94543SEd Schouten 	DO_COMPARE_EXCHANGE_TEST(T, a, weak);				\
96*17b94543SEd Schouten 	DO_COMPARE_EXCHANGE_TEST(T, a, strong);				\
97*17b94543SEd Schouten } while (0)
98*17b94543SEd Schouten 
99*17b94543SEd Schouten #define	TEST_TYPE(T) do {						\
100*17b94543SEd Schouten 	int j;								\
101*17b94543SEd Schouten 	struct { _Atomic(T) v[16]; } list, cmp;				\
102*17b94543SEd Schouten 	arc4random_buf(&cmp, sizeof(cmp));				\
103*17b94543SEd Schouten 	for (j = 0; j < 16; j++) {					\
104*17b94543SEd Schouten 		list = cmp;						\
105*17b94543SEd Schouten 		DO_ALL_TESTS(T, &list.v[j]);				\
106*17b94543SEd Schouten 		list.v[j] = cmp.v[j];					\
107*17b94543SEd Schouten 		assert(memcmp(&list, &cmp, sizeof(list)) == 0);		\
108*17b94543SEd Schouten 	}								\
109*17b94543SEd Schouten } while (0)
110*17b94543SEd Schouten 
111*17b94543SEd Schouten int
112*17b94543SEd Schouten main(void)
113*17b94543SEd Schouten {
114*17b94543SEd Schouten 	int i;
115*17b94543SEd Schouten 
116*17b94543SEd Schouten 	for (i = 0; i < 1000; i++) {
117*17b94543SEd Schouten 		TEST_TYPE(int8_t);
118*17b94543SEd Schouten 		TEST_TYPE(uint8_t);
119*17b94543SEd Schouten 		TEST_TYPE(int16_t);
120*17b94543SEd Schouten 		TEST_TYPE(uint16_t);
121*17b94543SEd Schouten 		TEST_TYPE(int32_t);
122*17b94543SEd Schouten 		TEST_TYPE(uint32_t);
123*17b94543SEd Schouten 		TEST_TYPE(int64_t);
124*17b94543SEd Schouten 		TEST_TYPE(uint64_t);
125*17b94543SEd Schouten 	}
126*17b94543SEd Schouten 
127*17b94543SEd Schouten 	return (0);
128*17b94543SEd Schouten }
129