1
/*-
2
 * SPDX-License-Identifier: BSD-2-Clause
3
 *
4
 * Copyright (c) 1998 Doug Rabson
5
 * All rights reserved.
6
 *
7
 * Redistribution and use in source and binary forms, with or without
8
 * modification, are permitted provided that the following conditions
9
 * are met:
10
 * 1. Redistributions of source code must retain the above copyright
11
 *    notice, this list of conditions and the following disclaimer.
12
 * 2. Redistributions in binary form must reproduce the above copyright
13
 *    notice, this list of conditions and the following disclaimer in the
14
 *    documentation and/or other materials provided with the distribution.
15
 *
16
 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
17
 * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
18
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
19
 * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
20
 * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
21
 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
22
 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
23
 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
24
 * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
25
 * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
26
 * SUCH DAMAGE.
27
 */
28
#ifndef _MACHINE_ATOMIC_H_
29
#define	_MACHINE_ATOMIC_H_
30

31
#include <sys/atomic_common.h>
32

33
#ifdef _KERNEL
34
#include <machine/md_var.h>
35
#include <machine/specialreg.h>
36
#endif
37

38
#ifndef __OFFSETOF_MONITORBUF
39
/*
40
 * __OFFSETOF_MONITORBUF == __pcpu_offset(pc_monitorbuf).
41
 *
42
 * The open-coded number is used instead of the symbolic expression to
43
 * avoid a dependency on sys/pcpu.h in machine/atomic.h consumers.
44
 * An assertion in i386/vm_machdep.c ensures that the value is correct.
45
 */
46
#define	__OFFSETOF_MONITORBUF	0x80
47

48
static __inline void
49
__mbk(void)
50
{
51

52
	__asm __volatile("lock; addl $0,%%fs:%c0"
53
	    : : "i" (__OFFSETOF_MONITORBUF) : "memory", "cc");
54
}
55

56
static __inline void
57
__mbu(void)
58
{
59

60
	__asm __volatile("lock; addl $0,(%%esp)" : : : "memory", "cc");
61
}
62
#endif
63

64
/*
65
 * Various simple operations on memory, each of which is atomic in the
66
 * presence of interrupts and multiple processors.
67
 *
68
 * atomic_set_char(P, V)	(*(u_char *)(P) |= (V))
69
 * atomic_clear_char(P, V)	(*(u_char *)(P) &= ~(V))
70
 * atomic_add_char(P, V)	(*(u_char *)(P) += (V))
71
 * atomic_subtract_char(P, V)	(*(u_char *)(P) -= (V))
72
 *
73
 * atomic_set_short(P, V)	(*(u_short *)(P) |= (V))
74
 * atomic_clear_short(P, V)	(*(u_short *)(P) &= ~(V))
75
 * atomic_add_short(P, V)	(*(u_short *)(P) += (V))
76
 * atomic_subtract_short(P, V)	(*(u_short *)(P) -= (V))
77
 *
78
 * atomic_set_int(P, V)		(*(u_int *)(P) |= (V))
79
 * atomic_clear_int(P, V)	(*(u_int *)(P) &= ~(V))
80
 * atomic_add_int(P, V)		(*(u_int *)(P) += (V))
81
 * atomic_subtract_int(P, V)	(*(u_int *)(P) -= (V))
82
 * atomic_swap_int(P, V)	(return (*(u_int *)(P)); *(u_int *)(P) = (V);)
83
 * atomic_readandclear_int(P)	(return (*(u_int *)(P)); *(u_int *)(P) = 0;)
84
 *
85
 * atomic_set_long(P, V)	(*(u_long *)(P) |= (V))
86
 * atomic_clear_long(P, V)	(*(u_long *)(P) &= ~(V))
87
 * atomic_add_long(P, V)	(*(u_long *)(P) += (V))
88
 * atomic_subtract_long(P, V)	(*(u_long *)(P) -= (V))
89
 * atomic_swap_long(P, V)	(return (*(u_long *)(P)); *(u_long *)(P) = (V);)
90
 * atomic_readandclear_long(P)	(return (*(u_long *)(P)); *(u_long *)(P) = 0;)
91
 */
92

93
/*
94
 * Always use lock prefixes.  The result is slightly less optimal for
95
 * UP systems, but it matters less now, and sometimes UP is emulated
96
 * over SMP.
97
 *
98
 * The assembly is volatilized to avoid code chunk removal by the compiler.
99
 * GCC aggressively reorders operations and memory clobbering is necessary
100
 * in order to avoid that for memory barriers.
101
 */
102
#define	ATOMIC_ASM(NAME, TYPE, OP, CONS, V)		\
103
static __inline void					\
104
atomic_##NAME##_##TYPE(volatile u_##TYPE *p, u_##TYPE v)\
105
{							\
106
	__asm __volatile("lock; " OP			\
107
	: "+m" (*p)					\
108
	: CONS (V)					\
109
	: "cc");					\
110
}							\
111
							\
112
static __inline void					\
113
atomic_##NAME##_barr_##TYPE(volatile u_##TYPE *p, u_##TYPE v)\
114
{							\
115
	__asm __volatile("lock; " OP			\
116
	: "+m" (*p)					\
117
	: CONS (V)					\
118
	: "memory", "cc");				\
119
}							\
120
struct __hack
121

122
/*
123
 * Atomic compare and set, used by the mutex functions.
124
 *
125
 * cmpset:
126
 *	if (*dst == expect)
127
 *		*dst = src
128
 *
129
 * fcmpset:
130
 *	if (*dst == *expect)
131
 *		*dst = src
132
 *	else
133
 *		*expect = *dst
134
 *
135
 * Returns 0 on failure, non-zero on success.
136
 */
137
#define	ATOMIC_CMPSET(TYPE, CONS)			\
138
static __inline int					\
139
atomic_cmpset_##TYPE(volatile u_##TYPE *dst, u_##TYPE expect, u_##TYPE src) \
140
{							\
141
	u_char res;					\
142
							\
143
	__asm __volatile(				\
144
	"	lock; cmpxchg	%3,%1 ;	"		\
145
	"	sete	%0 ;		"		\
146
	"# atomic_cmpset_" #TYPE "	"		\
147
	: "=q" (res),			/* 0 */		\
148
	  "+m" (*dst),			/* 1 */		\
149
	  "+a" (expect)			/* 2 */		\
150
	: CONS (src)			/* 3 */		\
151
	: "memory", "cc");				\
152
	return (res);					\
153
}							\
154
							\
155
static __inline int					\
156
atomic_fcmpset_##TYPE(volatile u_##TYPE *dst, u_##TYPE *expect, u_##TYPE src) \
157
{							\
158
	u_char res;					\
159
							\
160
	__asm __volatile(				\
161
	"	lock; cmpxchg	%3,%1 ;	"		\
162
	"	sete	%0 ;		"		\
163
	"# atomic_fcmpset_" #TYPE "	"		\
164
	: "=q" (res),			/* 0 */		\
165
	  "+m" (*dst),			/* 1 */		\
166
	  "+a" (*expect)		/* 2 */		\
167
	: CONS (src)			/* 3 */		\
168
	: "memory", "cc");				\
169
	return (res);					\
170
}
171

172
ATOMIC_CMPSET(char, "q");
173
ATOMIC_CMPSET(short, "r");
174
ATOMIC_CMPSET(int, "r");
175

176
/*
177
 * Atomically add the value of v to the integer pointed to by p and return
178
 * the previous value of *p.
179
 */
180
static __inline u_int
181
atomic_fetchadd_int(volatile u_int *p, u_int v)
182
{
183

184
	__asm __volatile(
185
	"	lock; xaddl	%0,%1 ;	"
186
	"# atomic_fetchadd_int"
187
	: "+r" (v),			/* 0 */
188
	  "+m" (*p)			/* 1 */
189
	: : "cc");
190
	return (v);
191
}
192

193
static __inline int
194
atomic_testandset_int(volatile u_int *p, u_int v)
195
{
196
	u_char res;
197

198
	__asm __volatile(
199
	"	lock; btsl	%2,%1 ;	"
200
	"	setc	%0 ;		"
201
	"# atomic_testandset_int"
202
	: "=q" (res),			/* 0 */
203
	  "+m" (*p)			/* 1 */
204
	: "Ir" (v & 0x1f)		/* 2 */
205
	: "cc");
206
	return (res);
207
}
208

209
static __inline int
210
atomic_testandclear_int(volatile u_int *p, u_int v)
211
{
212
	u_char res;
213

214
	__asm __volatile(
215
	"	lock; btrl	%2,%1 ;	"
216
	"	setc	%0 ;		"
217
	"# atomic_testandclear_int"
218
	: "=q" (res),			/* 0 */
219
	  "+m" (*p)			/* 1 */
220
	: "Ir" (v & 0x1f)		/* 2 */
221
	: "cc");
222
	return (res);
223
}
224

225
/*
226
 * We assume that a = b will do atomic loads and stores.  Due to the
227
 * IA32 memory model, a simple store guarantees release semantics.
228
 *
229
 * However, a load may pass a store if they are performed on distinct
230
 * addresses, so we need Store/Load barrier for sequentially
231
 * consistent fences in SMP kernels.  We use "lock addl $0,mem" for a
232
 * Store/Load barrier, as recommended by the AMD Software Optimization
233
 * Guide, and not mfence.  In the kernel, we use a private per-cpu
234
 * cache line for "mem", to avoid introducing false data
235
 * dependencies.  In user space, we use the word at the top of the
236
 * stack.
237
 *
238
 * For UP kernels, however, the memory of the single processor is
239
 * always consistent, so we only need to stop the compiler from
240
 * reordering accesses in a way that violates the semantics of acquire
241
 * and release.
242
 */
243

244
#if defined(_KERNEL)
245
#define	__storeload_barrier()	__mbk()
246
#else /* !_KERNEL */
247
#define	__storeload_barrier()	__mbu()
248
#endif /* _KERNEL*/
249

250
#define	ATOMIC_LOAD(TYPE)					\
251
static __inline u_##TYPE					\
252
atomic_load_acq_##TYPE(const volatile u_##TYPE *p)		\
253
{								\
254
	u_##TYPE res;						\
255
								\
256
	res = *p;						\
257
	__compiler_membar();					\
258
	return (res);						\
259
}								\
260
struct __hack
261

262
#define	ATOMIC_STORE(TYPE)					\
263
static __inline void						\
264
atomic_store_rel_##TYPE(volatile u_##TYPE *p, u_##TYPE v)	\
265
{								\
266
								\
267
	__compiler_membar();					\
268
	*p = v;							\
269
}								\
270
struct __hack
271

272
static __inline void
273
atomic_thread_fence_acq(void)
274
{
275

276
	__compiler_membar();
277
}
278

279
static __inline void
280
atomic_thread_fence_rel(void)
281
{
282

283
	__compiler_membar();
284
}
285

286
static __inline void
287
atomic_thread_fence_acq_rel(void)
288
{
289

290
	__compiler_membar();
291
}
292

293
static __inline void
294
atomic_thread_fence_seq_cst(void)
295
{
296

297
	__storeload_barrier();
298
}
299

300
#ifdef _KERNEL
301

302
/* I486 does not support SMP or CMPXCHG8B. */
303
static __inline int
304
atomic_cmpset_64_i386(volatile uint64_t *dst, uint64_t expect, uint64_t src)
305
{
306
	volatile uint32_t *p;
307
	u_char res;
308

309
	p = (volatile uint32_t *)dst;
310
	__asm __volatile(
311
	"	pushfl ;		"
312
	"	cli ;			"
313
	"	xorl	%1,%%eax ;	"
314
	"	xorl	%2,%%edx ;	"
315
	"	orl	%%edx,%%eax ;	"
316
	"	jne	1f ;		"
317
	"	movl	%4,%1 ;		"
318
	"	movl	%5,%2 ;		"
319
	"1:				"
320
	"	sete	%3 ;		"
321
	"	popfl"
322
	: "+A" (expect),		/* 0 */
323
	  "+m" (*p),			/* 1 */
324
	  "+m" (*(p + 1)),		/* 2 */
325
	  "=q" (res)			/* 3 */
326
	: "r" ((uint32_t)src),		/* 4 */
327
	  "r" ((uint32_t)(src >> 32))	/* 5 */
328
	: "memory", "cc");
329
	return (res);
330
}
331

332
static __inline int
333
atomic_fcmpset_64_i386(volatile uint64_t *dst, uint64_t *expect, uint64_t src)
334
{
335

336
	if (atomic_cmpset_64_i386(dst, *expect, src)) {
337
		return (1);
338
	} else {
339
		*expect = *dst;
340
		return (0);
341
	}
342
}
343

344
static __inline uint64_t
345
atomic_load_acq_64_i386(const volatile uint64_t *p)
346
{
347
	const volatile uint32_t *q;
348
	uint64_t res;
349

350
	q = (const volatile uint32_t *)p;
351
	__asm __volatile(
352
	"	pushfl ;		"
353
	"	cli ;			"
354
	"	movl	%1,%%eax ;	"
355
	"	movl	%2,%%edx ;	"
356
	"	popfl"
357
	: "=&A" (res)			/* 0 */
358
	: "m" (*q),			/* 1 */
359
	  "m" (*(q + 1))		/* 2 */
360
	: "memory");
361
	return (res);
362
}
363

364
static __inline void
365
atomic_store_rel_64_i386(volatile uint64_t *p, uint64_t v)
366
{
367
	volatile uint32_t *q;
368

369
	q = (volatile uint32_t *)p;
370
	__asm __volatile(
371
	"	pushfl ;		"
372
	"	cli ;			"
373
	"	movl	%%eax,%0 ;	"
374
	"	movl	%%edx,%1 ;	"
375
	"	popfl"
376
	: "=m" (*q),			/* 0 */
377
	  "=m" (*(q + 1))		/* 1 */
378
	: "A" (v)			/* 2 */
379
	: "memory");
380
}
381

382
static __inline uint64_t
383
atomic_swap_64_i386(volatile uint64_t *p, uint64_t v)
384
{
385
	volatile uint32_t *q;
386
	uint64_t res;
387

388
	q = (volatile uint32_t *)p;
389
	__asm __volatile(
390
	"	pushfl ;		"
391
	"	cli ;			"
392
	"	movl	%1,%%eax ;	"
393
	"	movl	%2,%%edx ;	"
394
	"	movl	%4,%2 ;		"
395
	"	movl	%3,%1 ;		"
396
	"	popfl"
397
	: "=&A" (res),			/* 0 */
398
	  "+m" (*q),			/* 1 */
399
	  "+m" (*(q + 1))		/* 2 */
400
	: "r" ((uint32_t)v),		/* 3 */
401
	  "r" ((uint32_t)(v >> 32)));	/* 4 */
402
	return (res);
403
}
404

405
static __inline int
406
atomic_cmpset_64_i586(volatile uint64_t *dst, uint64_t expect, uint64_t src)
407
{
408
	u_char res;
409

410
	__asm __volatile(
411
	"	lock; cmpxchg8b %1 ;	"
412
	"	sete	%0"
413
	: "=q" (res),			/* 0 */
414
	  "+m" (*dst),			/* 1 */
415
	  "+A" (expect)			/* 2 */
416
	: "b" ((uint32_t)src),		/* 3 */
417
	  "c" ((uint32_t)(src >> 32))	/* 4 */
418
	: "memory", "cc");
419
	return (res);
420
}
421

422
static __inline int
423
atomic_fcmpset_64_i586(volatile uint64_t *dst, uint64_t *expect, uint64_t src)
424
{
425
	u_char res;
426

427
	__asm __volatile(
428
	"	lock; cmpxchg8b %1 ;	"
429
	"	sete	%0"
430
	: "=q" (res),			/* 0 */
431
	  "+m" (*dst),			/* 1 */
432
	  "+A" (*expect)		/* 2 */
433
	: "b" ((uint32_t)src),		/* 3 */
434
	  "c" ((uint32_t)(src >> 32))	/* 4 */
435
	: "memory", "cc");
436
	return (res);
437
}
438

439
/*
440
 * Architecturally always writes back some value to '*p' so will trigger
441
 * a #GP(0) on read-only mappings.
442
 */
443
static __inline uint64_t
444
atomic_load_acq_64_i586(const volatile uint64_t *p)
445
{
446
	uint64_t res;
447

448
	__asm __volatile(
449
	"	movl	%%ebx,%%eax ;	"
450
	"	movl	%%ecx,%%edx ;	"
451
	"	lock; cmpxchg8b %1"
452
	: "=&A" (res)			/* 0 */
453
	: "m" (*p)			/* 1 */
454
	: "memory", "cc");
455
	return (res);
456
}
457

458
static __inline void
459
atomic_store_rel_64_i586(volatile uint64_t *p, uint64_t v)
460
{
461

462
	__asm __volatile(
463
	"	movl	%%eax,%%ebx ;	"
464
	"	movl	%%edx,%%ecx ;	"
465
	"1:				"
466
	"	lock; cmpxchg8b %0 ;	"
467
	"	jne	1b"
468
	: "+m" (*p),			/* 0 */
469
	  "+A" (v)			/* 1 */
470
	: : "ebx", "ecx", "memory", "cc");
471
}
472

473
static __inline uint64_t
474
atomic_swap_64_i586(volatile uint64_t *p, uint64_t v)
475
{
476

477
	__asm __volatile(
478
	"	movl	%%eax,%%ebx ;	"
479
	"	movl	%%edx,%%ecx ;	"
480
	"1:				"
481
	"	lock; cmpxchg8b %0 ;	"
482
	"	jne	1b"
483
	: "+m" (*p),			/* 0 */
484
	  "+A" (v)			/* 1 */
485
	: : "ebx", "ecx", "memory", "cc");
486
	return (v);
487
}
488

489
static __inline int
490
atomic_cmpset_64(volatile uint64_t *dst, uint64_t expect, uint64_t src)
491
{
492

493
	if ((cpu_feature & CPUID_CX8) == 0)
494
		return (atomic_cmpset_64_i386(dst, expect, src));
495
	else
496
		return (atomic_cmpset_64_i586(dst, expect, src));
497
}
498

499
static __inline int
500
atomic_fcmpset_64(volatile uint64_t *dst, uint64_t *expect, uint64_t src)
501
{
502

503
  	if ((cpu_feature & CPUID_CX8) == 0)
504
		return (atomic_fcmpset_64_i386(dst, expect, src));
505
	else
506
		return (atomic_fcmpset_64_i586(dst, expect, src));
507
}
508

509
static __inline uint64_t
510
atomic_load_acq_64(const volatile uint64_t *p)
511
{
512

513
	if ((cpu_feature & CPUID_CX8) == 0)
514
		return (atomic_load_acq_64_i386(p));
515
	else
516
		return (atomic_load_acq_64_i586(p));
517
}
518

519
static __inline void
520
atomic_store_rel_64(volatile uint64_t *p, uint64_t v)
521
{
522

523
	if ((cpu_feature & CPUID_CX8) == 0)
524
		atomic_store_rel_64_i386(p, v);
525
	else
526
		atomic_store_rel_64_i586(p, v);
527
}
528

529
static __inline uint64_t
530
atomic_swap_64(volatile uint64_t *p, uint64_t v)
531
{
532

533
	if ((cpu_feature & CPUID_CX8) == 0)
534
		return (atomic_swap_64_i386(p, v));
535
	else
536
		return (atomic_swap_64_i586(p, v));
537
}
538

539
static __inline uint64_t
540
atomic_fetchadd_64(volatile uint64_t *p, uint64_t v)
541
{
542

543
	for (;;) {
544
		uint64_t t = *p;
545
		if (atomic_cmpset_64(p, t, t + v))
546
			return (t);
547
	}
548
}
549

550
static __inline void
551
atomic_add_64(volatile uint64_t *p, uint64_t v)
552
{
553
	uint64_t t;
554

555
	for (;;) {
556
		t = *p;
557
		if (atomic_cmpset_64(p, t, t + v))
558
			break;
559
	}
560
}
561

562
static __inline void
563
atomic_subtract_64(volatile uint64_t *p, uint64_t v)
564
{
565
	uint64_t t;
566

567
	for (;;) {
568
		t = *p;
569
		if (atomic_cmpset_64(p, t, t - v))
570
			break;
571
	}
572
}
573

574
#endif /* _KERNEL */
575

576
ATOMIC_ASM(set,	     char,  "orb %b1,%0",  "iq",  v);
577
ATOMIC_ASM(clear,    char,  "andb %b1,%0", "iq", ~v);
578
ATOMIC_ASM(add,	     char,  "addb %b1,%0", "iq",  v);
579
ATOMIC_ASM(subtract, char,  "subb %b1,%0", "iq",  v);
580

581
ATOMIC_ASM(set,	     short, "orw %w1,%0",  "ir",  v);
582
ATOMIC_ASM(clear,    short, "andw %w1,%0", "ir", ~v);
583
ATOMIC_ASM(add,	     short, "addw %w1,%0", "ir",  v);
584
ATOMIC_ASM(subtract, short, "subw %w1,%0", "ir",  v);
585

586
ATOMIC_ASM(set,	     int,   "orl %1,%0",   "ir",  v);
587
ATOMIC_ASM(clear,    int,   "andl %1,%0",  "ir", ~v);
588
ATOMIC_ASM(add,	     int,   "addl %1,%0",  "ir",  v);
589
ATOMIC_ASM(subtract, int,   "subl %1,%0",  "ir",  v);
590

591
ATOMIC_ASM(set,	     long,  "orl %1,%0",   "ir",  v);
592
ATOMIC_ASM(clear,    long,  "andl %1,%0",  "ir", ~v);
593
ATOMIC_ASM(add,	     long,  "addl %1,%0",  "ir",  v);
594
ATOMIC_ASM(subtract, long,  "subl %1,%0",  "ir",  v);
595

596
#define	ATOMIC_LOADSTORE(TYPE)				\
597
	ATOMIC_LOAD(TYPE);				\
598
	ATOMIC_STORE(TYPE)
599

600
ATOMIC_LOADSTORE(char);
601
ATOMIC_LOADSTORE(short);
602
ATOMIC_LOADSTORE(int);
603
ATOMIC_LOADSTORE(long);
604

605
#undef ATOMIC_ASM
606
#undef ATOMIC_LOAD
607
#undef ATOMIC_STORE
608
#undef ATOMIC_LOADSTORE
609

610
static __inline int
611
atomic_cmpset_long(volatile u_long *dst, u_long expect, u_long src)
612
{
613

614
	return (atomic_cmpset_int((volatile u_int *)dst, (u_int)expect,
615
	    (u_int)src));
616
}
617

618
static __inline int
619
atomic_fcmpset_long(volatile u_long *dst, u_long *expect, u_long src)
620
{
621

622
	return (atomic_fcmpset_int((volatile u_int *)dst, (u_int *)expect,
623
	    (u_int)src));
624
}
625

626
static __inline u_long
627
atomic_fetchadd_long(volatile u_long *p, u_long v)
628
{
629

630
	return (atomic_fetchadd_int((volatile u_int *)p, (u_int)v));
631
}
632

633
static __inline int
634
atomic_testandset_long(volatile u_long *p, u_int v)
635
{
636

637
	return (atomic_testandset_int((volatile u_int *)p, v));
638
}
639

640
static __inline int
641
atomic_testandclear_long(volatile u_long *p, u_int v)
642
{
643

644
	return (atomic_testandclear_int((volatile u_int *)p, v));
645
}
646

647
/* Read the current value and store a new value in the destination. */
648
static __inline u_int
649
atomic_swap_int(volatile u_int *p, u_int v)
650
{
651

652
	__asm __volatile(
653
	"	xchgl	%1,%0 ;		"
654
	"# atomic_swap_int"
655
	: "+r" (v),			/* 0 */
656
	  "+m" (*p));			/* 1 */
657
	return (v);
658
}
659

660
static __inline u_long
661
atomic_swap_long(volatile u_long *p, u_long v)
662
{
663

664
	return (atomic_swap_int((volatile u_int *)p, (u_int)v));
665
}
666

667
#define	atomic_set_acq_char		atomic_set_barr_char
668
#define	atomic_set_rel_char		atomic_set_barr_char
669
#define	atomic_clear_acq_char		atomic_clear_barr_char
670
#define	atomic_clear_rel_char		atomic_clear_barr_char
671
#define	atomic_add_acq_char		atomic_add_barr_char
672
#define	atomic_add_rel_char		atomic_add_barr_char
673
#define	atomic_subtract_acq_char	atomic_subtract_barr_char
674
#define	atomic_subtract_rel_char	atomic_subtract_barr_char
675
#define	atomic_cmpset_acq_char		atomic_cmpset_char
676
#define	atomic_cmpset_rel_char		atomic_cmpset_char
677
#define	atomic_fcmpset_acq_char		atomic_fcmpset_char
678
#define	atomic_fcmpset_rel_char		atomic_fcmpset_char
679

680
#define	atomic_set_acq_short		atomic_set_barr_short
681
#define	atomic_set_rel_short		atomic_set_barr_short
682
#define	atomic_clear_acq_short		atomic_clear_barr_short
683
#define	atomic_clear_rel_short		atomic_clear_barr_short
684
#define	atomic_add_acq_short		atomic_add_barr_short
685
#define	atomic_add_rel_short		atomic_add_barr_short
686
#define	atomic_subtract_acq_short	atomic_subtract_barr_short
687
#define	atomic_subtract_rel_short	atomic_subtract_barr_short
688
#define	atomic_cmpset_acq_short		atomic_cmpset_short
689
#define	atomic_cmpset_rel_short		atomic_cmpset_short
690
#define	atomic_fcmpset_acq_short	atomic_fcmpset_short
691
#define	atomic_fcmpset_rel_short	atomic_fcmpset_short
692

693
#define	atomic_set_acq_int		atomic_set_barr_int
694
#define	atomic_set_rel_int		atomic_set_barr_int
695
#define	atomic_clear_acq_int		atomic_clear_barr_int
696
#define	atomic_clear_rel_int		atomic_clear_barr_int
697
#define	atomic_add_acq_int		atomic_add_barr_int
698
#define	atomic_add_rel_int		atomic_add_barr_int
699
#define	atomic_subtract_acq_int		atomic_subtract_barr_int
700
#define	atomic_subtract_rel_int		atomic_subtract_barr_int
701
#define	atomic_cmpset_acq_int		atomic_cmpset_int
702
#define	atomic_cmpset_rel_int		atomic_cmpset_int
703
#define	atomic_fcmpset_acq_int		atomic_fcmpset_int
704
#define	atomic_fcmpset_rel_int		atomic_fcmpset_int
705

706
#define	atomic_set_acq_long		atomic_set_barr_long
707
#define	atomic_set_rel_long		atomic_set_barr_long
708
#define	atomic_clear_acq_long		atomic_clear_barr_long
709
#define	atomic_clear_rel_long		atomic_clear_barr_long
710
#define	atomic_add_acq_long		atomic_add_barr_long
711
#define	atomic_add_rel_long		atomic_add_barr_long
712
#define	atomic_subtract_acq_long	atomic_subtract_barr_long
713
#define	atomic_subtract_rel_long	atomic_subtract_barr_long
714
#define	atomic_cmpset_acq_long		atomic_cmpset_long
715
#define	atomic_cmpset_rel_long		atomic_cmpset_long
716
#define	atomic_fcmpset_acq_long		atomic_fcmpset_long
717
#define	atomic_fcmpset_rel_long		atomic_fcmpset_long
718

719
#define	atomic_readandclear_int(p)	atomic_swap_int(p, 0)
720
#define	atomic_readandclear_long(p)	atomic_swap_long(p, 0)
721
#define	atomic_testandset_acq_long	atomic_testandset_long
722

723
/* Operations on 8-bit bytes. */
724
#define	atomic_set_8		atomic_set_char
725
#define	atomic_set_acq_8	atomic_set_acq_char
726
#define	atomic_set_rel_8	atomic_set_rel_char
727
#define	atomic_clear_8		atomic_clear_char
728
#define	atomic_clear_acq_8	atomic_clear_acq_char
729
#define	atomic_clear_rel_8	atomic_clear_rel_char
730
#define	atomic_add_8		atomic_add_char
731
#define	atomic_add_acq_8	atomic_add_acq_char
732
#define	atomic_add_rel_8	atomic_add_rel_char
733
#define	atomic_subtract_8	atomic_subtract_char
734
#define	atomic_subtract_acq_8	atomic_subtract_acq_char
735
#define	atomic_subtract_rel_8	atomic_subtract_rel_char
736
#define	atomic_load_acq_8	atomic_load_acq_char
737
#define	atomic_store_rel_8	atomic_store_rel_char
738
#define	atomic_cmpset_8		atomic_cmpset_char
739
#define	atomic_cmpset_acq_8	atomic_cmpset_acq_char
740
#define	atomic_cmpset_rel_8	atomic_cmpset_rel_char
741
#define	atomic_fcmpset_8	atomic_fcmpset_char
742
#define	atomic_fcmpset_acq_8	atomic_fcmpset_acq_char
743
#define	atomic_fcmpset_rel_8	atomic_fcmpset_rel_char
744

745
/* Operations on 16-bit words. */
746
#define	atomic_set_16		atomic_set_short
747
#define	atomic_set_acq_16	atomic_set_acq_short
748
#define	atomic_set_rel_16	atomic_set_rel_short
749
#define	atomic_clear_16		atomic_clear_short
750
#define	atomic_clear_acq_16	atomic_clear_acq_short
751
#define	atomic_clear_rel_16	atomic_clear_rel_short
752
#define	atomic_add_16		atomic_add_short
753
#define	atomic_add_acq_16	atomic_add_acq_short
754
#define	atomic_add_rel_16	atomic_add_rel_short
755
#define	atomic_subtract_16	atomic_subtract_short
756
#define	atomic_subtract_acq_16	atomic_subtract_acq_short
757
#define	atomic_subtract_rel_16	atomic_subtract_rel_short
758
#define	atomic_load_acq_16	atomic_load_acq_short
759
#define	atomic_store_rel_16	atomic_store_rel_short
760
#define	atomic_cmpset_16	atomic_cmpset_short
761
#define	atomic_cmpset_acq_16	atomic_cmpset_acq_short
762
#define	atomic_cmpset_rel_16	atomic_cmpset_rel_short
763
#define	atomic_fcmpset_16	atomic_fcmpset_short
764
#define	atomic_fcmpset_acq_16	atomic_fcmpset_acq_short
765
#define	atomic_fcmpset_rel_16	atomic_fcmpset_rel_short
766

767
/* Operations on 32-bit double words. */
768
#define	atomic_set_32		atomic_set_int
769
#define	atomic_set_acq_32	atomic_set_acq_int
770
#define	atomic_set_rel_32	atomic_set_rel_int
771
#define	atomic_clear_32		atomic_clear_int
772
#define	atomic_clear_acq_32	atomic_clear_acq_int
773
#define	atomic_clear_rel_32	atomic_clear_rel_int
774
#define	atomic_add_32		atomic_add_int
775
#define	atomic_add_acq_32	atomic_add_acq_int
776
#define	atomic_add_rel_32	atomic_add_rel_int
777
#define	atomic_subtract_32	atomic_subtract_int
778
#define	atomic_subtract_acq_32	atomic_subtract_acq_int
779
#define	atomic_subtract_rel_32	atomic_subtract_rel_int
780
#define	atomic_load_acq_32	atomic_load_acq_int
781
#define	atomic_store_rel_32	atomic_store_rel_int
782
#define	atomic_cmpset_32	atomic_cmpset_int
783
#define	atomic_cmpset_acq_32	atomic_cmpset_acq_int
784
#define	atomic_cmpset_rel_32	atomic_cmpset_rel_int
785
#define	atomic_fcmpset_32	atomic_fcmpset_int
786
#define	atomic_fcmpset_acq_32	atomic_fcmpset_acq_int
787
#define	atomic_fcmpset_rel_32	atomic_fcmpset_rel_int
788
#define	atomic_swap_32		atomic_swap_int
789
#define	atomic_readandclear_32	atomic_readandclear_int
790
#define	atomic_fetchadd_32	atomic_fetchadd_int
791
#define	atomic_testandset_32	atomic_testandset_int
792
#define	atomic_testandclear_32	atomic_testandclear_int
793

794
#ifdef _KERNEL
795
/* Operations on 64-bit quad words. */
796
#define	atomic_cmpset_acq_64 atomic_cmpset_64
797
#define	atomic_cmpset_rel_64 atomic_cmpset_64
798
#define	atomic_fcmpset_acq_64 atomic_fcmpset_64
799
#define	atomic_fcmpset_rel_64 atomic_fcmpset_64
800
#define	atomic_fetchadd_acq_64	atomic_fetchadd_64
801
#define	atomic_fetchadd_rel_64	atomic_fetchadd_64
802
#define	atomic_add_acq_64 atomic_add_64
803
#define	atomic_add_rel_64 atomic_add_64
804
#define	atomic_subtract_acq_64 atomic_subtract_64
805
#define	atomic_subtract_rel_64 atomic_subtract_64
806
#define	atomic_load_64 atomic_load_acq_64
807
#define	atomic_store_64 atomic_store_rel_64
808
#endif
809

810
/* Operations on pointers. */
811
#define	atomic_set_ptr(p, v) \
812
	atomic_set_int((volatile u_int *)(p), (u_int)(v))
813
#define	atomic_set_acq_ptr(p, v) \
814
	atomic_set_acq_int((volatile u_int *)(p), (u_int)(v))
815
#define	atomic_set_rel_ptr(p, v) \
816
	atomic_set_rel_int((volatile u_int *)(p), (u_int)(v))
817
#define	atomic_clear_ptr(p, v) \
818
	atomic_clear_int((volatile u_int *)(p), (u_int)(v))
819
#define	atomic_clear_acq_ptr(p, v) \
820
	atomic_clear_acq_int((volatile u_int *)(p), (u_int)(v))
821
#define	atomic_clear_rel_ptr(p, v) \
822
	atomic_clear_rel_int((volatile u_int *)(p), (u_int)(v))
823
#define	atomic_add_ptr(p, v) \
824
	atomic_add_int((volatile u_int *)(p), (u_int)(v))
825
#define	atomic_add_acq_ptr(p, v) \
826
	atomic_add_acq_int((volatile u_int *)(p), (u_int)(v))
827
#define	atomic_add_rel_ptr(p, v) \
828
	atomic_add_rel_int((volatile u_int *)(p), (u_int)(v))
829
#define	atomic_subtract_ptr(p, v) \
830
	atomic_subtract_int((volatile u_int *)(p), (u_int)(v))
831
#define	atomic_subtract_acq_ptr(p, v) \
832
	atomic_subtract_acq_int((volatile u_int *)(p), (u_int)(v))
833
#define	atomic_subtract_rel_ptr(p, v) \
834
	atomic_subtract_rel_int((volatile u_int *)(p), (u_int)(v))
835
#define	atomic_load_acq_ptr(p) \
836
	atomic_load_acq_int((const volatile u_int *)(p))
837
#define	atomic_store_rel_ptr(p, v) \
838
	atomic_store_rel_int((volatile u_int *)(p), (v))
839
#define	atomic_cmpset_ptr(dst, old, new) \
840
	atomic_cmpset_int((volatile u_int *)(dst), (u_int)(old), (u_int)(new))
841
#define	atomic_cmpset_acq_ptr(dst, old, new) \
842
	atomic_cmpset_acq_int((volatile u_int *)(dst), (u_int)(old), \
843
	    (u_int)(new))
844
#define	atomic_cmpset_rel_ptr(dst, old, new) \
845
	atomic_cmpset_rel_int((volatile u_int *)(dst), (u_int)(old), \
846
	    (u_int)(new))
847
#define	atomic_fcmpset_ptr(dst, old, new) \
848
	atomic_fcmpset_int((volatile u_int *)(dst), (u_int *)(old), (u_int)(new))
849
#define	atomic_fcmpset_acq_ptr(dst, old, new) \
850
	atomic_fcmpset_acq_int((volatile u_int *)(dst), (u_int *)(old), \
851
	    (u_int)(new))
852
#define	atomic_fcmpset_rel_ptr(dst, old, new) \
853
	atomic_fcmpset_rel_int((volatile u_int *)(dst), (u_int *)(old), \
854
	    (u_int)(new))
855
#define	atomic_swap_ptr(p, v) \
856
	atomic_swap_int((volatile u_int *)(p), (u_int)(v))
857
#define	atomic_readandclear_ptr(p) \
858
	atomic_readandclear_int((volatile u_int *)(p))
859
#define	atomic_testandclear_ptr(p, val) \
860
	atomic_testandclear_int((volatile u_int *)(p), (val))
861
#define	atomic_testandset_ptr(p, val) \
862
	atomic_testandset_int((volatile u_int *)(p), (val))
863

864
#if defined(_KERNEL)
865
#define	mb()	__mbk()
866
#define	wmb()	__mbk()
867
#define	rmb()	__mbk()
868
#else
869
#define	mb()	__mbu()
870
#define	wmb()	__mbu()
871
#define	rmb()	__mbu()
872
#endif
873

874
#endif /* !_MACHINE_ATOMIC_H_ */
875

876