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freebsd-dev/sys/arm/include/atomic-v4.h
Conrad Meyer ca0ec73c11 Expand generic subword atomic primitives 
The goal of this change is to make the atomic_load_acq_{8,16},
atomic_testandset{,_acq}_long, and atomic_testandclear_long primitives
available in MI-namespace.

The second goal is to get this draft out of my local tree, as anything that
requires a full tinderbox is a big burden out of tree.  MD specifics can be
refined individually afterwards.

The generic implementations may not be ideal for your architecture; feel
free to implement better versions.  If no subword_atomic definitions are
needed, the include can be removed from your arch's machine/atomic.h.
Generic definitions are guarded by defined macros of the same name.  To
avoid picking up conflicting generic definitions, some macro defines are
added to various MD machine/atomic.h to register an existing implementation.

Include _atomic_subword.h in arm and arm64 machine/atomic.h.

For some odd reason, KCSAN only generates some versions of primitives.
Generate the _acq variants of atomic_load.*_8, atomic_load.*_16, and
atomic_testandset.*_long.  There are other questionably disabled primitives,
but I didn't run into them, so I left them alone.  KCSAN is only built for
amd64 in tinderbox for now.

Add atomic_subword implementations of atomic_load_acq_{8,16} implemented
using masking and atomic_load_acq_32.

Add generic atomic_subword implementations of atomic_testandset_long(),
atomic_testandclear_long(), and atomic_testandset_acq_long(), using
atomic_fcmpset_long() and atomic_fcmpset_acq_long().

On x86, add atomic_testandset_acq_long as an alias for
atomic_testandset_long.

Reviewed by:	kevans, rlibby (previous versions both)
Differential Revision:	https://reviews.freebsd.org/D22963
2020-03-25 23:12:43 +00:00

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/* $NetBSD: atomic.h,v 1.1 2002/10/19 12:22:34 bsh Exp $ */
/*-
* Copyright (C) 2003-2004 Olivier Houchard
* Copyright (C) 1994-1997 Mark Brinicombe
* Copyright (C) 1994 Brini
* All rights reserved.
*
* This code is derived from software written for Brini by Mark Brinicombe
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Brini.
* 4. The name of Brini may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY BRINI ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL BRINI BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
* OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
* OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
* ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* $FreeBSD$
*/
#ifndef _MACHINE_ATOMIC_V4_H_
#define _MACHINE_ATOMIC_V4_H_
#ifndef _MACHINE_ATOMIC_H_
#error Do not include this file directly, use <machine/atomic.h>
#endif
#if __ARM_ARCH <= 5
#define isb() __asm __volatile("mcr p15, 0, %0, c7, c5, 4" : : "r" (0) : "memory")
#define dsb() __asm __volatile("mcr p15, 0, %0, c7, c10, 4" : : "r" (0) : "memory")
#define dmb() dsb()
#else
#error Only use this file with ARMv5 and earlier
#endif
#define mb() dmb()
#define wmb() dmb()
#define rmb() dmb()
#define __with_interrupts_disabled(expr) \
do { \
u_int cpsr_save, tmp; \
\
__asm __volatile( \
"mrs %0, cpsr;" \
"orr %1, %0, %2;" \
"msr cpsr_fsxc, %1;" \
: "=r" (cpsr_save), "=r" (tmp) \
: "I" (PSR_I | PSR_F) \
: "cc" ); \
(expr); \
__asm __volatile( \
"msr cpsr_fsxc, %0" \
: /* no output */ \
: "r" (cpsr_save) \
: "cc" ); \
} while(0)
static __inline uint32_t
__swp(uint32_t val, volatile uint32_t *ptr)
{
__asm __volatile("swp %0, %2, [%3]"
: "=&r" (val), "=m" (*ptr)
: "r" (val), "r" (ptr), "m" (*ptr)
: "memory");
return (val);
}
#ifdef _KERNEL
#define ARM_HAVE_ATOMIC64
static __inline void
atomic_add_32(volatile u_int32_t *p, u_int32_t val)
{
__with_interrupts_disabled(*p += val);
}
static __inline void
atomic_add_64(volatile u_int64_t *p, u_int64_t val)
{
__with_interrupts_disabled(*p += val);
}
static __inline void
atomic_clear_32(volatile uint32_t *address, uint32_t clearmask)
{
__with_interrupts_disabled(*address &= ~clearmask);
}
static __inline void
atomic_clear_64(volatile uint64_t *address, uint64_t clearmask)
{
__with_interrupts_disabled(*address &= ~clearmask);
}
static __inline int
atomic_fcmpset_8(volatile uint8_t *p, volatile uint8_t *cmpval, volatile uint8_t newval)
{
int ret;
__with_interrupts_disabled(
{
ret = *p;
if (*p == *cmpval) {
*p = newval;
ret = 1;
} else {
*cmpval = *p;
ret = 0;
}
});
return (ret);
}
static __inline int
atomic_fcmpset_16(volatile uint16_t *p, volatile uint16_t *cmpval, volatile uint16_t newval)
{
int ret;
__with_interrupts_disabled(
{
ret = *p;
if (*p == *cmpval) {
*p = newval;
ret = 1;
} else {
*cmpval = *p;
ret = 0;
}
});
return (ret);
}
static __inline int
atomic_fcmpset_32(volatile u_int32_t *p, volatile u_int32_t *cmpval, volatile u_int32_t newval)
{
int ret;
__with_interrupts_disabled(
{
ret = *p;
if (*p == *cmpval) {
*p = newval;
ret = 1;
} else {
*cmpval = *p;
ret = 0;
}
});
return (ret);
}
static __inline int
atomic_fcmpset_64(volatile u_int64_t *p, volatile u_int64_t *cmpval, volatile u_int64_t newval)
{
int ret;
__with_interrupts_disabled(
{
if (*p == *cmpval) {
*p = newval;
ret = 1;
} else {
*cmpval = *p;
ret = 0;
}
});
return (ret);
}
static __inline int
atomic_cmpset_8(volatile uint8_t *p, volatile uint8_t cmpval, volatile uint8_t newval)
{
int ret;
__with_interrupts_disabled(
{
if (*p == cmpval) {
*p = newval;
ret = 1;
} else {
ret = 0;
}
});
return (ret);
}
static __inline int
atomic_cmpset_16(volatile uint16_t *p, volatile uint16_t cmpval, volatile uint16_t newval)
{
int ret;
__with_interrupts_disabled(
{
if (*p == cmpval) {
*p = newval;
ret = 1;
} else {
ret = 0;
}
});
return (ret);
}
static __inline int
atomic_cmpset_32(volatile u_int32_t *p, volatile u_int32_t cmpval, volatile u_int32_t newval)
{
int ret;
__with_interrupts_disabled(
{
if (*p == cmpval) {
*p = newval;
ret = 1;
} else {
ret = 0;
}
});
return (ret);
}
static __inline int
atomic_cmpset_64(volatile u_int64_t *p, volatile u_int64_t cmpval, volatile u_int64_t newval)
{
int ret;
__with_interrupts_disabled(
{
if (*p == cmpval) {
*p = newval;
ret = 1;
} else {
ret = 0;
}
});
return (ret);
}
static __inline uint32_t
atomic_fetchadd_32(volatile uint32_t *p, uint32_t v)
{
uint32_t value;
__with_interrupts_disabled(
{
value = *p;
*p += v;
});
return (value);
}
static __inline uint64_t
atomic_fetchadd_64(volatile uint64_t *p, uint64_t v)
{
uint64_t value;
__with_interrupts_disabled(
{
value = *p;
*p += v;
});
return (value);
}
static __inline uint64_t
atomic_load_64(volatile uint64_t *p)
{
uint64_t value;
__with_interrupts_disabled(value = *p);
return (value);
}
static __inline void
atomic_set_32(volatile uint32_t *address, uint32_t setmask)
{
__with_interrupts_disabled(*address |= setmask);
}
static __inline void
atomic_set_64(volatile uint64_t *address, uint64_t setmask)
{
__with_interrupts_disabled(*address |= setmask);
}
static __inline void
atomic_store_64(volatile uint64_t *p, uint64_t value)
{
__with_interrupts_disabled(*p = value);
}
static __inline void
atomic_subtract_32(volatile u_int32_t *p, u_int32_t val)
{
__with_interrupts_disabled(*p -= val);
}
static __inline void
atomic_subtract_64(volatile u_int64_t *p, u_int64_t val)
{
__with_interrupts_disabled(*p -= val);
}
static __inline uint64_t
atomic_swap_64(volatile uint64_t *p, uint64_t v)
{
uint64_t value;
__with_interrupts_disabled(
{
value = *p;
*p = v;
});
return (value);
}
#else /* !_KERNEL */
static __inline void
atomic_add_32(volatile u_int32_t *p, u_int32_t val)
{
int start, ras_start = ARM_RAS_START;
__asm __volatile("1:\n"
"adr %1, 1b\n"
"str %1, [%0]\n"
"adr %1, 2f\n"
"str %1, [%0, #4]\n"
"ldr %1, [%2]\n"
"add %1, %1, %3\n"
"str %1, [%2]\n"
"2:\n"
"mov %1, #0\n"
"str %1, [%0]\n"
"mov %1, #0xffffffff\n"
"str %1, [%0, #4]\n"
: "+r" (ras_start), "=r" (start), "+r" (p), "+r" (val)
: : "memory");
}
static __inline void
atomic_clear_32(volatile uint32_t *address, uint32_t clearmask)
{
int start, ras_start = ARM_RAS_START;
__asm __volatile("1:\n"
"adr %1, 1b\n"
"str %1, [%0]\n"
"adr %1, 2f\n"
"str %1, [%0, #4]\n"
"ldr %1, [%2]\n"
"bic %1, %1, %3\n"
"str %1, [%2]\n"
"2:\n"
"mov %1, #0\n"
"str %1, [%0]\n"
"mov %1, #0xffffffff\n"
"str %1, [%0, #4]\n"
: "+r" (ras_start), "=r" (start), "+r" (address), "+r" (clearmask)
: : "memory");
}
static __inline int
atomic_cmpset_32(volatile u_int32_t *p, volatile u_int32_t cmpval, volatile u_int32_t newval)
{
int done, ras_start = ARM_RAS_START;
__asm __volatile("1:\n"
"adr %1, 1b\n"
"str %1, [%0]\n"
"adr %1, 2f\n"
"str %1, [%0, #4]\n"
"ldr %1, [%2]\n"
"cmp %1, %3\n"
"streq %4, [%2]\n"
"2:\n"
"mov %1, #0\n"
"str %1, [%0]\n"
"mov %1, #0xffffffff\n"
"str %1, [%0, #4]\n"
"moveq %1, #1\n"
"movne %1, #0\n"
: "+r" (ras_start), "=r" (done)
,"+r" (p), "+r" (cmpval), "+r" (newval) : : "cc", "memory");
return (done);
}
static __inline int
atomic_fcmpset_32(volatile u_int32_t *p, volatile u_int32_t *cmpval, volatile u_int32_t newval)
{
int done, oldval, ras_start = ARM_RAS_START;
__asm __volatile("1:\n"
"adr %1, 1b\n"
"str %1, [%0]\n"
"adr %1, 2f\n"
"str %1, [%0, #4]\n"
"ldr %1, [%2]\n"
"ldr %5, [%3]\n"
"cmp %1, %5\n"
"streq %4, [%2]\n"
"2:\n"
"mov %5, #0\n"
"str %5, [%0]\n"
"mov %5, #0xffffffff\n"
"str %5, [%0, #4]\n"
"strne %1, [%3]\n"
"moveq %1, #1\n"
"movne %1, #0\n"
: "+r" (ras_start), "=r" (done) ,"+r" (p)
, "+r" (cmpval), "+r" (newval), "+r" (oldval) : : "cc", "memory");
return (done);
}
static __inline uint32_t
atomic_fetchadd_32(volatile uint32_t *p, uint32_t v)
{
uint32_t start, tmp, ras_start = ARM_RAS_START;
__asm __volatile("1:\n"
"adr %1, 1b\n"
"str %1, [%0]\n"
"adr %1, 2f\n"
"str %1, [%0, #4]\n"
"ldr %1, [%3]\n"
"mov %2, %1\n"
"add %2, %2, %4\n"
"str %2, [%3]\n"
"2:\n"
"mov %2, #0\n"
"str %2, [%0]\n"
"mov %2, #0xffffffff\n"
"str %2, [%0, #4]\n"
: "+r" (ras_start), "=r" (start), "=r" (tmp), "+r" (p), "+r" (v)
: : "memory");
return (start);
}
static __inline void
atomic_set_32(volatile uint32_t *address, uint32_t setmask)
{
int start, ras_start = ARM_RAS_START;
__asm __volatile("1:\n"
"adr %1, 1b\n"
"str %1, [%0]\n"
"adr %1, 2f\n"
"str %1, [%0, #4]\n"
"ldr %1, [%2]\n"
"orr %1, %1, %3\n"
"str %1, [%2]\n"
"2:\n"
"mov %1, #0\n"
"str %1, [%0]\n"
"mov %1, #0xffffffff\n"
"str %1, [%0, #4]\n"
: "+r" (ras_start), "=r" (start), "+r" (address), "+r" (setmask)
: : "memory");
}
static __inline void
atomic_subtract_32(volatile u_int32_t *p, u_int32_t val)
{
int start, ras_start = ARM_RAS_START;
__asm __volatile("1:\n"
"adr %1, 1b\n"
"str %1, [%0]\n"
"adr %1, 2f\n"
"str %1, [%0, #4]\n"
"ldr %1, [%2]\n"
"sub %1, %1, %3\n"
"str %1, [%2]\n"
"2:\n"
"mov %1, #0\n"
"str %1, [%0]\n"
"mov %1, #0xffffffff\n"
"str %1, [%0, #4]\n"
: "+r" (ras_start), "=r" (start), "+r" (p), "+r" (val)
: : "memory");
}
#endif /* _KERNEL */
static __inline uint32_t
atomic_readandclear_32(volatile u_int32_t *p)
{
return (__swp(0, p));
}
static __inline uint32_t
atomic_swap_32(volatile u_int32_t *p, u_int32_t v)
{
return (__swp(v, p));
}
#define atomic_fcmpset_rel_32 atomic_fcmpset_32
#define atomic_fcmpset_acq_32 atomic_fcmpset_32
#ifdef _KERNEL
#define atomic_fcmpset_8 atomic_fcmpset_8
#define atomic_fcmpset_rel_8 atomic_fcmpset_8
#define atomic_fcmpset_acq_8 atomic_fcmpset_8
#define atomic_fcmpset_16 atomic_fcmpset_16
#define atomic_fcmpset_rel_16 atomic_fcmpset_16
#define atomic_fcmpset_acq_16 atomic_fcmpset_16
#define atomic_fcmpset_rel_64 atomic_fcmpset_64
#define atomic_fcmpset_acq_64 atomic_fcmpset_64
#endif
#define atomic_fcmpset_acq_long atomic_fcmpset_long
#define atomic_fcmpset_rel_long atomic_fcmpset_long
#define atomic_cmpset_rel_32 atomic_cmpset_32
#define atomic_cmpset_acq_32 atomic_cmpset_32
#ifdef _KERNEL
#define atomic_cmpset_8 atomic_cmpset_8
#define atomic_cmpset_rel_8 atomic_cmpset_8
#define atomic_cmpset_acq_8 atomic_cmpset_8
#define atomic_cmpset_16 atomic_cmpset_16
#define atomic_cmpset_rel_16 atomic_cmpset_16
#define atomic_cmpset_acq_16 atomic_cmpset_16
#define atomic_cmpset_rel_64 atomic_cmpset_64
#define atomic_cmpset_acq_64 atomic_cmpset_64
#endif
#define atomic_set_rel_32 atomic_set_32
#define atomic_set_acq_32 atomic_set_32
#define atomic_clear_rel_32 atomic_clear_32
#define atomic_clear_acq_32 atomic_clear_32
#define atomic_add_rel_32 atomic_add_32
#define atomic_add_acq_32 atomic_add_32
#define atomic_subtract_rel_32 atomic_subtract_32
#define atomic_subtract_acq_32 atomic_subtract_32
#define atomic_store_rel_32 atomic_store_32
#define atomic_store_rel_long atomic_store_long
#define atomic_load_acq_32 atomic_load_32
#define atomic_load_acq_long atomic_load_long
#define atomic_add_acq_long atomic_add_long
#define atomic_add_rel_long atomic_add_long
#define atomic_subtract_acq_long atomic_subtract_long
#define atomic_subtract_rel_long atomic_subtract_long
#define atomic_clear_acq_long atomic_clear_long
#define atomic_clear_rel_long atomic_clear_long
#define atomic_set_acq_long atomic_set_long
#define atomic_set_rel_long atomic_set_long
#define atomic_cmpset_acq_long atomic_cmpset_long
#define atomic_cmpset_rel_long atomic_cmpset_long
#define atomic_load_acq_long atomic_load_long
#undef __with_interrupts_disabled
static __inline void
atomic_add_long(volatile u_long *p, u_long v)
{
atomic_add_32((volatile uint32_t *)p, v);
}
static __inline void
atomic_clear_long(volatile u_long *p, u_long v)
{
atomic_clear_32((volatile uint32_t *)p, v);
}
static __inline int
atomic_cmpset_long(volatile u_long *dst, u_long old, u_long newe)
{
return (atomic_cmpset_32((volatile uint32_t *)dst, old, newe));
}
static __inline u_long
atomic_fcmpset_long(volatile u_long *dst, u_long *old, u_long newe)
{
return (atomic_fcmpset_32((volatile uint32_t *)dst,
(uint32_t *)old, newe));
}
static __inline u_long
atomic_fetchadd_long(volatile u_long *p, u_long v)
{
return (atomic_fetchadd_32((volatile uint32_t *)p, v));
}
static __inline void
atomic_readandclear_long(volatile u_long *p)
{
atomic_readandclear_32((volatile uint32_t *)p);
}
static __inline void
atomic_set_long(volatile u_long *p, u_long v)
{
atomic_set_32((volatile uint32_t *)p, v);
}
static __inline void
atomic_subtract_long(volatile u_long *p, u_long v)
{
atomic_subtract_32((volatile uint32_t *)p, v);
}
/*
* ARMv5 does not support SMP. For both kernel and user modes, only a
* compiler barrier is needed for fences, since CPU is always
* self-consistent.
*/
static __inline void
atomic_thread_fence_acq(void)
{
__compiler_membar();
}
static __inline void
atomic_thread_fence_rel(void)
{
__compiler_membar();
}
static __inline void
atomic_thread_fence_acq_rel(void)
{
__compiler_membar();
}
static __inline void
atomic_thread_fence_seq_cst(void)
{
__compiler_membar();
}
#endif /* _MACHINE_ATOMIC_H_ */
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