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Commit	Line	Data
	1	#include <darwintest.h>
	2	#include <darwintest_utils.h>
	3	#include <stdio.h>
	4	#include <assert.h>
	5	#include <setjmp.h>
	6
	7	#define DEVELOPMENT 1
	8	#define DEBUG 0
	9	#define XNU_KERNEL_PRIVATE 1
	10
	11	#define OS_REFCNT_DEBUG 1
	12	#define STRESS_TESTS 0
	13
	14	#pragma clang diagnostic ignored "-Watomic-implicit-seq-cst"
	15	#pragma clang diagnostic ignored "-Wc++98-compat"
	16
	17	void handle_panic(const char func, char str, ...);
	18	#define panic(...) handle_panic(__func__, __VA_ARGS__)
	19
	20	#include "../libkern/os/refcnt.h"
	21	#include "../libkern/os/refcnt.c"
	22
	23	T_GLOBAL_META(T_META_RUN_CONCURRENTLY(true));
	24
	25	/* import some of the refcnt internal state for testing */
	26	extern bool ref_debug_enable;
	27	os_refgrp_decl_extern(global_ref_group);
	28
	29	T_GLOBAL_META(
	30	T_META_NAMESPACE("os_refcnt"),
	31	T_META_CHECK_LEAKS(false)
	32	);
	33
	34	T_DECL(os_refcnt, "Basic atomic refcount")
	35	{
	36	struct os_refcnt rc;
	37	os_ref_init(&rc, NULL);
	38	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 1, "refcount correctly initialized");
	39
	40	os_ref_retain(&rc);
	41	os_ref_retain(&rc);
	42	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 3, "retain increased count");
	43
	44	os_ref_count_t x = os_ref_release(&rc);
	45	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 2, "release decreased count");
	46	T_ASSERT_EQ_UINT(x, 2, "release returned correct count");
	47
	48	os_ref_release_live(&rc);
	49	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 1, "release_live decreased count");
	50
	51	x = os_ref_release(&rc);
	52	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 0, "released");
	53	T_ASSERT_EQ_UINT(x, 0, "returned released");
	54
	55	os_ref_init(&rc, NULL);
	56	T_ASSERT_TRUE(os_ref_retain_try(&rc), "try retained");
	57
	58	(void)os_ref_release(&rc);
	59	(void)os_ref_release(&rc);
	60	T_QUIET; T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 0, "release");
	61
	62	T_ASSERT_FALSE(os_ref_retain_try(&rc), "try failed");
	63	}
	64
	65	T_DECL(refcnt_raw, "Raw refcount")
	66	{
	67	os_ref_atomic_t rc;
	68	os_ref_init_raw(&rc, NULL);
	69	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 1, "refcount correctly initialized");
	70
	71	os_ref_retain_raw(&rc, NULL);
	72	os_ref_retain_raw(&rc, NULL);
	73	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 3, "retain increased count");
	74
	75	os_ref_count_t x = os_ref_release_raw(&rc, NULL);
	76	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 2, "release decreased count");
	77	T_ASSERT_EQ_UINT(x, 2, "release returned correct count");
	78
	79	os_ref_release_live_raw(&rc, NULL);
	80	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 1, "release_live decreased count");
	81
	82	x = os_ref_release_raw(&rc, NULL);
	83	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 0, "released");
	84	T_ASSERT_EQ_UINT(x, 0, "returned released");
	85
	86	os_ref_init_raw(&rc, NULL);
	87	T_ASSERT_TRUE(os_ref_retain_try_raw(&rc, NULL), "try retained");
	88
	89	(void)os_ref_release_raw(&rc, NULL);
	90	(void)os_ref_release_raw(&rc, NULL);
	91	T_QUIET; T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 0, "release");
	92
	93	T_ASSERT_FALSE(os_ref_retain_try_raw(&rc, NULL), "try failed");
	94	}
	95
	96	T_DECL(refcnt_locked, "Locked refcount")
	97	{
	98	struct os_refcnt rc;
	99	os_ref_init(&rc, NULL);
	100
	101	os_ref_retain_locked(&rc);
	102	os_ref_retain_locked(&rc);
	103	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 3, "retain increased count");
	104
	105	os_ref_count_t x = os_ref_release_locked(&rc);
	106	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 2, "release decreased count");
	107	T_ASSERT_EQ_UINT(x, 2, "release returned correct count");
	108
	109	(void)os_ref_release_locked(&rc);
	110	x = os_ref_release_locked(&rc);
	111	T_ASSERT_EQ_UINT(os_ref_get_count(&rc), 0, "released");
	112	T_ASSERT_EQ_UINT(x, 0, "returned released");
	113	}
	114
	115	T_DECL(refcnt_raw_locked, "Locked raw refcount")
	116	{
	117	os_ref_atomic_t rc;
	118	os_ref_init_raw(&rc, NULL);
	119
	120	os_ref_retain_locked_raw(&rc, NULL);
	121	os_ref_retain_locked_raw(&rc, NULL);
	122	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 3, "retain increased count");
	123
	124	os_ref_count_t x = os_ref_release_locked_raw(&rc, NULL);
	125	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 2, "release decreased count");
	126	T_ASSERT_EQ_UINT(x, 2, "release returned correct count");
	127
	128	(void)os_ref_release_locked_raw(&rc, NULL);
	129	x = os_ref_release_locked_raw(&rc, NULL);
	130	T_ASSERT_EQ_UINT(os_ref_get_count_raw(&rc), 0, "released");
	131	T_ASSERT_EQ_UINT(x, 0, "returned released");
	132	}
	133
	134	static void
	135	do_bitwise_test(const os_ref_count_t bits)
	136	{
	137	os_ref_atomic_t rc;
	138	os_ref_count_t reserved = 0xaaaaaaaaU & ((1U << bits) - 1);
	139
	140	T_LOG("do_bitwise_test(nbits:%d, reserved:%#x)", bits, reserved);
	141
	142	os_ref_init_count_mask(&rc, bits, NULL, 1, reserved);
	143
	144	T_ASSERT_EQ_UINT(os_ref_get_count_mask(&rc, bits), 1, "[%u bits] refcount initialized", bits);
	145
	146	os_ref_retain_mask(&rc, bits, NULL);
	147	os_ref_retain_mask(&rc, bits, NULL);
	148	T_ASSERT_EQ_UINT(os_ref_get_count_mask(&rc, bits), 3, "retain increased count");
	149
	150	os_ref_count_t x = os_ref_release_mask(&rc, bits, NULL);
	151	T_ASSERT_EQ_UINT(x, 2, "release returned correct count");
	152
	153	os_ref_release_live_mask(&rc, bits, NULL);
	154	T_ASSERT_EQ_UINT(os_ref_get_count_mask(&rc, bits), 1, "release_live decreased count");
	155
	156	x = os_ref_release_mask(&rc, bits, NULL);
	157	T_ASSERT_EQ_UINT(os_ref_get_count_mask(&rc, bits), 0, "released");
	158	T_ASSERT_EQ_UINT(x, 0, "returned released");
	159
	160	T_ASSERT_EQ_UINT(rc & ((1U << bits) - 1), reserved, "Reserved bits not modified");
	161
	162	os_ref_init_count_mask(&rc, bits, NULL, 1, reserved);
	163	T_ASSERT_TRUE(os_ref_retain_try_mask(&rc, bits, 0, NULL), "try retained");
	164	if (reserved) {
	165	T_ASSERT_FALSE(os_ref_retain_try_mask(&rc, bits, reserved, NULL), "try reject");
	166	}
	167
	168	(void)os_ref_release_mask(&rc, bits, NULL);
	169	(void)os_ref_release_mask(&rc, bits, NULL);
	170	T_QUIET; T_ASSERT_EQ_UINT(os_ref_get_count_mask(&rc, bits), 0, "release");
	171
	172	T_ASSERT_FALSE(os_ref_retain_try_mask(&rc, bits, 0, NULL), "try fail");
	173
	174	T_ASSERT_EQ_UINT(os_ref_get_bits_mask(&rc, bits), reserved, "Reserved bits not modified");
	175	}
	176
	177	T_DECL(refcnt_bitwise, "Bitwise refcount")
	178	{
	179	do_bitwise_test(0);
	180	do_bitwise_test(1);
	181	do_bitwise_test(8);
	182	do_bitwise_test(26);
	183
	184	os_ref_atomic_t rc = 0xaaaaaaaa;
	185
	186	const os_ref_count_t nbits = 3;
	187	const os_ref_count_t count = 5;
	188	const os_ref_count_t bits = 7;
	189	os_ref_init_count_mask(&rc, nbits, NULL, count, bits);
	190
	191	os_ref_count_t mask = (1U << nbits) - 1;
	192	T_ASSERT_EQ_UINT(rc & mask, bits, "bits correctly initialized");
	193	T_ASSERT_EQ_UINT(rc >> nbits, count, "count correctly initialized");
	194	}
	195
	196	os_refgrp_decl(static, g1, "test group", NULL);
	197	os_refgrp_decl_extern(g1);
	198
	199	T_DECL(refcnt_groups, "Group accounting")
	200	{
	201	#if OS_REFCNT_DEBUG
	202	ref_debug_enable = true;
	203
	204	struct os_refcnt rc;
	205	os_ref_init(&rc, &g1);
	206
	207	T_ASSERT_EQ_UINT(g1.grp_children, 1, "group attached");
	208	T_ASSERT_EQ_UINT(global_ref_group.grp_children, 1, "global group attached");
	209	T_ASSERT_EQ_UINT(g1.grp_count, 1, "group count");
	210	T_ASSERT_EQ_ULLONG(g1.grp_retain_total, 1ULL, "group retains");
	211	T_ASSERT_EQ_ULLONG(g1.grp_release_total, 0ULL, "group releases");
	212
	213	os_ref_retain(&rc);
	214	os_ref_retain(&rc);
	215	os_ref_release_live(&rc);
	216	os_ref_release_live(&rc);
	217
	218	T_EXPECT_EQ_ULLONG(g1.grp_retain_total, 3ULL, "group retains");
	219	T_EXPECT_EQ_ULLONG(g1.grp_release_total, 2ULL, "group releases");
	220
	221	os_ref_count_t x = os_ref_release(&rc);
	222	T_QUIET; T_ASSERT_EQ_UINT(x, 0, "released");
	223
	224	T_ASSERT_EQ_UINT(g1.grp_children, 0, "group detatched");
	225	T_ASSERT_EQ_UINT(g1.grp_count, 0, "group count");
	226	#else
	227	T_SKIP("Refcount debugging disabled");
	228	#endif
	229	}
	230
	231	enum {
	232	OSREF_UNDERFLOW = 1,
	233	OSREF_OVERFLOW = 2,
	234	OSREF_RESURRECTION = 3,
	235	OSREF_DEALLOC_LIVE = 4,
	236	};
	237
	238	static jmp_buf jb;
	239	static bool expect_panic = false;
	240
	241	void
	242	handle_panic(const char func, char __unused str, ...)
	243	{
	244	int ret = -1;
	245	if (!expect_panic) {
	246	T_FAIL("unexpected panic from %s", func);
	247	T_LOG("corrupt program state, aborting");
	248	abort();
	249	}
	250	expect_panic = false;
	251
	252	if (strcmp(func, "os_ref_panic_underflow") == 0) {
	253	ret = OSREF_UNDERFLOW;
	254	} else if (strcmp(func, "os_ref_panic_overflow") == 0) {
	255	ret = OSREF_OVERFLOW;
	256	} else if (strcmp(func, "os_ref_panic_resurrection") == 0) {
	257	ret = OSREF_RESURRECTION;
	258	} else if (strcmp(func, "os_ref_panic_live") == 0) {
	259	ret = OSREF_DEALLOC_LIVE;
	260	} else {
	261	T_LOG("unexpected panic from %s", func);
	262	}
	263
	264	longjmp(jb, ret);
	265	}
	266
	267	T_DECL(refcnt_underflow, "Underflow")
	268	{
	269	os_ref_atomic_t rc;
	270	os_ref_init_raw(&rc, NULL);
	271	(void)os_ref_release_raw(&rc, NULL);
	272
	273	int x = setjmp(jb);
	274	if (x == 0) {
	275	expect_panic = true;
	276	(void)os_ref_release_raw(&rc, NULL);
	277	T_FAIL("underflow not caught");
	278	} else {
	279	T_ASSERT_EQ_INT(x, OSREF_UNDERFLOW, "underflow caught");
	280	}
	281	}
	282
	283	T_DECL(refcnt_overflow, "Overflow")
	284	{
	285	os_ref_atomic_t rc;
	286	os_ref_init_count_raw(&rc, NULL, 0x0fffffffU);
	287
	288	int x = setjmp(jb);
	289	if (x == 0) {
	290	expect_panic = true;
	291	(void)os_ref_retain_raw(&rc, NULL);
	292	T_FAIL("overflow not caught");
	293	} else {
	294	T_ASSERT_EQ_INT(x, OSREF_OVERFLOW, "overflow caught");
	295	}
	296	}
	297
	298	T_DECL(refcnt_resurrection, "Resurrection")
	299	{
	300	os_ref_atomic_t rc;
	301	os_ref_init_raw(&rc, NULL);
	302	os_ref_count_t n = os_ref_release_raw(&rc, NULL);
	303
	304	T_QUIET; T_EXPECT_EQ_UINT(n, 0, "reference not released");
	305
	306	int x = setjmp(jb);
	307	if (x == 0) {
	308	expect_panic = true;
	309	(void)os_ref_retain_raw(&rc, NULL);
	310	T_FAIL("resurrection not caught");
	311	} else {
	312	T_ASSERT_EQ_INT(x, OSREF_RESURRECTION, "resurrection caught");
	313	}
	314	}
	315
	316	T_DECL(refcnt_dealloc_live, "Dealloc expected live object")
	317	{
	318	os_ref_atomic_t rc;
	319	os_ref_init_raw(&rc, NULL);
	320
	321	expect_panic = true;
	322	int x = setjmp(jb);
	323	if (x == 0) {
	324	expect_panic = true;
	325	os_ref_release_live_raw(&rc, NULL);
	326	T_FAIL("dealloc live not caught");
	327	} else {
	328	T_ASSERT_EQ_INT(x, OSREF_DEALLOC_LIVE, "dealloc live caught");
	329	}
	330	}
	331
	332	T_DECL(refcnt_initializer, "Static intializers")
	333	{
	334	struct os_refcnt rc = OS_REF_INITIALIZER;
	335	os_ref_atomic_t rca = OS_REF_ATOMIC_INITIALIZER;
	336
	337	T_ASSERT_EQ_INT(0, os_ref_retain_try(&rc), NULL);
	338	T_ASSERT_EQ_INT(0, os_ref_get_count_raw(&rca), NULL);
	339	}
	340
	341	#if STRESS_TESTS
	342
	343	static const unsigned long iters = 1024 * 1024 * 32;
	344
	345	static void *
	346	func(void *_rc)
	347	{
	348	struct os_refcnt *rc = _rc;
	349	for (unsigned long i = 0; i < iters; i++) {
	350	os_ref_retain(rc);
	351	os_ref_release_live(rc);
	352	}
	353	return NULL;
	354	}
	355
	356	T_DECL(refcnt_stress, "Stress test")
	357	{
	358	pthread_t th1, th2;
	359
	360	struct os_refcnt rc;
	361	os_ref_init(&rc, NULL);
	362
	363	T_ASSERT_POSIX_ZERO(pthread_create(&th1, NULL, func, &rc), "pthread_create");
	364	T_ASSERT_POSIX_ZERO(pthread_create(&th2, NULL, func, &rc), "pthread_create");
	365
	366	void r1, r2;
	367	T_ASSERT_POSIX_ZERO(pthread_join(th1, &r1), "pthread_join");
	368	T_ASSERT_POSIX_ZERO(pthread_join(th2, &r2), "pthread_join");
	369
	370	os_ref_count_t x = os_ref_release(&rc);
	371	T_ASSERT_EQ_INT(x, 0, "Consistent refcount");
	372	}
	373
	374	#endif