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#include <asm/spr-regs.h>
#ifdef __ATOMIC_LIB__
#ifdef CONFIG_FRV_OUTOFLINE_ATOMIC_OPS
#define ATOMIC_QUALS
#define ATOMIC_EXPORT(x) EXPORT_SYMBOL(x)
#else /* !OUTOFLINE && LIB */
#define ATOMIC_OP_RETURN(op)
#define ATOMIC_FETCH_OP(op)
#endif /* OUTOFLINE */
#else /* !__ATOMIC_LIB__ */
#define ATOMIC_EXPORT(x)
#ifdef CONFIG_FRV_OUTOFLINE_ATOMIC_OPS
#define ATOMIC_OP_RETURN(op) \
extern int __atomic_##op##_return(int i, int *v); \
extern long long __atomic64_##op##_return(long long i, long long *v);
#define ATOMIC_FETCH_OP(op) \
extern int __atomic32_fetch_##op(int i, int *v); \
extern long long __atomic64_fetch_##op(long long i, long long *v);
#else /* !OUTOFLINE && !LIB */
#define ATOMIC_QUALS static inline
#endif /* OUTOFLINE */
#endif /* __ATOMIC_LIB__ */
/*
* Note on the 64 bit inline asm variants...
*
* CSTD is a conditional instruction and needs a constrained memory reference.
* Normally 'U' provides the correct constraints for conditional instructions
* and this is used for the 32 bit version, however 'U' does not appear to work
* for 64 bit values (gcc-4.9)
*
* The exact constraint is that conditional instructions cannot deal with an
* immediate displacement in the memory reference, so what we do is we read the
* address through a volatile cast into a local variable in order to insure we
* _have_ to compute the correct address without displacement. This allows us
* to use the regular 'm' for the memory address.
*
* Furthermore, the %Ln operand, which prints the low word register (r+1),
* really only works for registers, this means we cannot allow immediate values
* for the 64 bit versions -- like we do for the 32 bit ones.
*
*/
#ifndef ATOMIC_OP_RETURN
#define ATOMIC_OP_RETURN(op) \
ATOMIC_QUALS int __atomic_##op##_return(int i, int *v) \
{ \
int val; \
\
asm volatile( \
"0: \n" \
" orcc gr0,gr0,gr0,icc3 \n" \
" ckeq icc3,cc7 \n" \
" ld.p %M0,%1 \n" \
" orcr cc7,cc7,cc3 \n" \
" "#op"%I2 %1,%2,%1 \n" \
" cst.p %1,%M0 ,cc3,#1 \n" \
" corcc gr29,gr29,gr0 ,cc3,#1 \n" \
" beq icc3,#0,0b \n" \
: "+U"(*v), "=&r"(val) \
: "NPr"(i) \
: "memory", "cc7", "cc3", "icc3" \
); \
\
return val; \
} \
ATOMIC_EXPORT(__atomic_##op##_return); \
\
ATOMIC_QUALS long long __atomic64_##op##_return(long long i, long long *v) \
{ \
long long *__v = READ_ONCE(v); \
long long val; \
\
asm volatile( \
"0: \n" \
" orcc gr0,gr0,gr0,icc3 \n" \
" ckeq icc3,cc7 \n" \
" ldd.p %M0,%1 \n" \
" orcr cc7,cc7,cc3 \n" \
" "#op"cc %L1,%L2,%L1,icc0 \n" \
" "#op"x %1,%2,%1,icc0 \n" \
" cstd.p %1,%M0 ,cc3,#1 \n" \
" corcc gr29,gr29,gr0 ,cc3,#1 \n" \
" beq icc3,#0,0b \n" \
: "+m"(*__v), "=&e"(val) \
: "e"(i) \
: "memory", "cc7", "cc3", "icc0", "icc3" \
); \
\
return val; \
} \
ATOMIC_EXPORT(__atomic64_##op##_return);
#endif
#ifndef ATOMIC_FETCH_OP
#define ATOMIC_FETCH_OP(op) \
ATOMIC_QUALS int __atomic32_fetch_##op(int i, int *v) \
{ \
int old, tmp; \
\
asm volatile( \
"0: \n" \
" orcc gr0,gr0,gr0,icc3 \n" \
" ckeq icc3,cc7 \n" \
" ld.p %M0,%1 \n" \
" orcr cc7,cc7,cc3 \n" \
" "#op"%I3 %1,%3,%2 \n" \
" cst.p %2,%M0 ,cc3,#1 \n" \
" corcc gr29,gr29,gr0 ,cc3,#1 \n" \
" beq icc3,#0,0b \n" \
: "+U"(*v), "=&r"(old), "=r"(tmp) \
: "NPr"(i) \
: "memory", "cc7", "cc3", "icc3" \
); \
\
return old; \
} \
ATOMIC_EXPORT(__atomic32_fetch_##op); \
\
ATOMIC_QUALS long long __atomic64_fetch_##op(long long i, long long *v) \
{ \
long long *__v = READ_ONCE(v); \
long long old, tmp; \
\
asm volatile( \
"0: \n" \
" orcc gr0,gr0,gr0,icc3 \n" \
" ckeq icc3,cc7 \n" \
" ldd.p %M0,%1 \n" \
" orcr cc7,cc7,cc3 \n" \
" "#op" %L1,%L3,%L2 \n" \
" "#op" %1,%3,%2 \n" \
" cstd.p %2,%M0 ,cc3,#1 \n" \
" corcc gr29,gr29,gr0 ,cc3,#1 \n" \
" beq icc3,#0,0b \n" \
: "+m"(*__v), "=&e"(old), "=e"(tmp) \
: "e"(i) \
: "memory", "cc7", "cc3", "icc3" \
); \
\
return old; \
} \
ATOMIC_EXPORT(__atomic64_fetch_##op);
#endif
ATOMIC_FETCH_OP(or)
ATOMIC_FETCH_OP(and)
ATOMIC_FETCH_OP(xor)
ATOMIC_OP_RETURN(add)
ATOMIC_OP_RETURN(sub)
#undef ATOMIC_FETCH_OP
#undef ATOMIC_OP_RETURN
#undef ATOMIC_QUALS
#undef ATOMIC_EXPORT
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