Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Will Deacon | 507 | 76.24% | 9 | 47.37% |
Peter Zijlstra | 82 | 12.33% | 3 | 15.79% |
Andrew Murray | 50 | 7.52% | 2 | 10.53% |
Catalin Marinas | 12 | 1.80% | 1 | 5.26% |
Mark Rutland | 12 | 1.80% | 3 | 15.79% |
Thomas Gleixner | 2 | 0.30% | 1 | 5.26% |
Total | 665 | 19 |
/* SPDX-License-Identifier: GPL-2.0-only */ /* * Based on arch/arm/include/asm/atomic.h * * Copyright (C) 1996 Russell King. * Copyright (C) 2002 Deep Blue Solutions Ltd. * Copyright (C) 2012 ARM Ltd. */ #ifndef __ASM_ATOMIC_LL_SC_H #define __ASM_ATOMIC_LL_SC_H #include <linux/stringify.h> #ifndef CONFIG_CC_HAS_K_CONSTRAINT #define K #endif /* * AArch64 UP and SMP safe atomic ops. We use load exclusive and * store exclusive to ensure that these are atomic. We may loop * to ensure that the update happens. */ #define ATOMIC_OP(op, asm_op, constraint) \ static __always_inline void \ __ll_sc_atomic_##op(int i, atomic_t *v) \ { \ unsigned long tmp; \ int result; \ \ asm volatile("// atomic_" #op "\n" \ " prfm pstl1strm, %2\n" \ "1: ldxr %w0, %2\n" \ " " #asm_op " %w0, %w0, %w3\n" \ " stxr %w1, %w0, %2\n" \ " cbnz %w1, 1b\n" \ : "=&r" (result), "=&r" (tmp), "+Q" (v->counter) \ : __stringify(constraint) "r" (i)); \ } #define ATOMIC_OP_RETURN(name, mb, acq, rel, cl, op, asm_op, constraint)\ static __always_inline int \ __ll_sc_atomic_##op##_return##name(int i, atomic_t *v) \ { \ unsigned long tmp; \ int result; \ \ asm volatile("// atomic_" #op "_return" #name "\n" \ " prfm pstl1strm, %2\n" \ "1: ld" #acq "xr %w0, %2\n" \ " " #asm_op " %w0, %w0, %w3\n" \ " st" #rel "xr %w1, %w0, %2\n" \ " cbnz %w1, 1b\n" \ " " #mb \ : "=&r" (result), "=&r" (tmp), "+Q" (v->counter) \ : __stringify(constraint) "r" (i) \ : cl); \ \ return result; \ } #define ATOMIC_FETCH_OP(name, mb, acq, rel, cl, op, asm_op, constraint) \ static __always_inline int \ __ll_sc_atomic_fetch_##op##name(int i, atomic_t *v) \ { \ unsigned long tmp; \ int val, result; \ \ asm volatile("// atomic_fetch_" #op #name "\n" \ " prfm pstl1strm, %3\n" \ "1: ld" #acq "xr %w0, %3\n" \ " " #asm_op " %w1, %w0, %w4\n" \ " st" #rel "xr %w2, %w1, %3\n" \ " cbnz %w2, 1b\n" \ " " #mb \ : "=&r" (result), "=&r" (val), "=&r" (tmp), "+Q" (v->counter) \ : __stringify(constraint) "r" (i) \ : cl); \ \ return result; \ } #define ATOMIC_OPS(...) \ ATOMIC_OP(__VA_ARGS__) \ ATOMIC_OP_RETURN( , dmb ish, , l, "memory", __VA_ARGS__)\ ATOMIC_OP_RETURN(_relaxed, , , , , __VA_ARGS__)\ ATOMIC_OP_RETURN(_acquire, , a, , "memory", __VA_ARGS__)\ ATOMIC_OP_RETURN(_release, , , l, "memory", __VA_ARGS__)\ ATOMIC_FETCH_OP ( , dmb ish, , l, "memory", __VA_ARGS__)\ ATOMIC_FETCH_OP (_relaxed, , , , , __VA_ARGS__)\ ATOMIC_FETCH_OP (_acquire, , a, , "memory", __VA_ARGS__)\ ATOMIC_FETCH_OP (_release, , , l, "memory", __VA_ARGS__) ATOMIC_OPS(add, add, I) ATOMIC_OPS(sub, sub, J) #undef ATOMIC_OPS #define ATOMIC_OPS(...) \ ATOMIC_OP(__VA_ARGS__) \ ATOMIC_FETCH_OP ( , dmb ish, , l, "memory", __VA_ARGS__)\ ATOMIC_FETCH_OP (_relaxed, , , , , __VA_ARGS__)\ ATOMIC_FETCH_OP (_acquire, , a, , "memory", __VA_ARGS__)\ ATOMIC_FETCH_OP (_release, , , l, "memory", __VA_ARGS__) ATOMIC_OPS(and, and, K) ATOMIC_OPS(or, orr, K) ATOMIC_OPS(xor, eor, K) /* * GAS converts the mysterious and undocumented BIC (immediate) alias to * an AND (immediate) instruction with the immediate inverted. We don't * have a constraint for this, so fall back to register. */ ATOMIC_OPS(andnot, bic, ) #undef ATOMIC_OPS #undef ATOMIC_FETCH_OP #undef ATOMIC_OP_RETURN #undef ATOMIC_OP #define ATOMIC64_OP(op, asm_op, constraint) \ static __always_inline void \ __ll_sc_atomic64_##op(s64 i, atomic64_t *v) \ { \ s64 result; \ unsigned long tmp; \ \ asm volatile("// atomic64_" #op "\n" \ " prfm pstl1strm, %2\n" \ "1: ldxr %0, %2\n" \ " " #asm_op " %0, %0, %3\n" \ " stxr %w1, %0, %2\n" \ " cbnz %w1, 1b" \ : "=&r" (result), "=&r" (tmp), "+Q" (v->counter) \ : __stringify(constraint) "r" (i)); \ } #define ATOMIC64_OP_RETURN(name, mb, acq, rel, cl, op, asm_op, constraint)\ static __always_inline long \ __ll_sc_atomic64_##op##_return##name(s64 i, atomic64_t *v) \ { \ s64 result; \ unsigned long tmp; \ \ asm volatile("// atomic64_" #op "_return" #name "\n" \ " prfm pstl1strm, %2\n" \ "1: ld" #acq "xr %0, %2\n" \ " " #asm_op " %0, %0, %3\n" \ " st" #rel "xr %w1, %0, %2\n" \ " cbnz %w1, 1b\n" \ " " #mb \ : "=&r" (result), "=&r" (tmp), "+Q" (v->counter) \ : __stringify(constraint) "r" (i) \ : cl); \ \ return result; \ } #define ATOMIC64_FETCH_OP(name, mb, acq, rel, cl, op, asm_op, constraint)\ static __always_inline long \ __ll_sc_atomic64_fetch_##op##name(s64 i, atomic64_t *v) \ { \ s64 result, val; \ unsigned long tmp; \ \ asm volatile("// atomic64_fetch_" #op #name "\n" \ " prfm pstl1strm, %3\n" \ "1: ld" #acq "xr %0, %3\n" \ " " #asm_op " %1, %0, %4\n" \ " st" #rel "xr %w2, %1, %3\n" \ " cbnz %w2, 1b\n" \ " " #mb \ : "=&r" (result), "=&r" (val), "=&r" (tmp), "+Q" (v->counter) \ : __stringify(constraint) "r" (i) \ : cl); \ \ return result; \ } #define ATOMIC64_OPS(...) \ ATOMIC64_OP(__VA_ARGS__) \ ATOMIC64_OP_RETURN(, dmb ish, , l, "memory", __VA_ARGS__) \ ATOMIC64_OP_RETURN(_relaxed,, , , , __VA_ARGS__) \ ATOMIC64_OP_RETURN(_acquire,, a, , "memory", __VA_ARGS__) \ ATOMIC64_OP_RETURN(_release,, , l, "memory", __VA_ARGS__) \ ATOMIC64_FETCH_OP (, dmb ish, , l, "memory", __VA_ARGS__) \ ATOMIC64_FETCH_OP (_relaxed,, , , , __VA_ARGS__) \ ATOMIC64_FETCH_OP (_acquire,, a, , "memory", __VA_ARGS__) \ ATOMIC64_FETCH_OP (_release,, , l, "memory", __VA_ARGS__) ATOMIC64_OPS(add, add, I) ATOMIC64_OPS(sub, sub, J) #undef ATOMIC64_OPS #define ATOMIC64_OPS(...) \ ATOMIC64_OP(__VA_ARGS__) \ ATOMIC64_FETCH_OP (, dmb ish, , l, "memory", __VA_ARGS__) \ ATOMIC64_FETCH_OP (_relaxed,, , , , __VA_ARGS__) \ ATOMIC64_FETCH_OP (_acquire,, a, , "memory", __VA_ARGS__) \ ATOMIC64_FETCH_OP (_release,, , l, "memory", __VA_ARGS__) ATOMIC64_OPS(and, and, L) ATOMIC64_OPS(or, orr, L) ATOMIC64_OPS(xor, eor, L) /* * GAS converts the mysterious and undocumented BIC (immediate) alias to * an AND (immediate) instruction with the immediate inverted. We don't * have a constraint for this, so fall back to register. */ ATOMIC64_OPS(andnot, bic, ) #undef ATOMIC64_OPS #undef ATOMIC64_FETCH_OP #undef ATOMIC64_OP_RETURN #undef ATOMIC64_OP static __always_inline s64 __ll_sc_atomic64_dec_if_positive(atomic64_t *v) { s64 result; unsigned long tmp; asm volatile("// atomic64_dec_if_positive\n" " prfm pstl1strm, %2\n" "1: ldxr %0, %2\n" " subs %0, %0, #1\n" " b.lt 2f\n" " stlxr %w1, %0, %2\n" " cbnz %w1, 1b\n" " dmb ish\n" "2:" : "=&r" (result), "=&r" (tmp), "+Q" (v->counter) : : "cc", "memory"); return result; } #define __CMPXCHG_CASE(w, sfx, name, sz, mb, acq, rel, cl, constraint) \ static __always_inline u##sz \ __ll_sc__cmpxchg_case_##name##sz(volatile void *ptr, \ unsigned long old, \ u##sz new) \ { \ unsigned long tmp; \ u##sz oldval; \ \ /* \ * Sub-word sizes require explicit casting so that the compare \ * part of the cmpxchg doesn't end up interpreting non-zero \ * upper bits of the register containing "old". \ */ \ if (sz < 32) \ old = (u##sz)old; \ \ asm volatile( \ " prfm pstl1strm, %[v]\n" \ "1: ld" #acq "xr" #sfx "\t%" #w "[oldval], %[v]\n" \ " eor %" #w "[tmp], %" #w "[oldval], %" #w "[old]\n" \ " cbnz %" #w "[tmp], 2f\n" \ " st" #rel "xr" #sfx "\t%w[tmp], %" #w "[new], %[v]\n" \ " cbnz %w[tmp], 1b\n" \ " " #mb "\n" \ "2:" \ : [tmp] "=&r" (tmp), [oldval] "=&r" (oldval), \ [v] "+Q" (*(u##sz *)ptr) \ : [old] __stringify(constraint) "r" (old), [new] "r" (new) \ : cl); \ \ return oldval; \ } /* * Earlier versions of GCC (no later than 8.1.0) appear to incorrectly * handle the 'K' constraint for the value 4294967295 - thus we use no * constraint for 32 bit operations. */ __CMPXCHG_CASE(w, b, , 8, , , , , K) __CMPXCHG_CASE(w, h, , 16, , , , , K) __CMPXCHG_CASE(w, , , 32, , , , , K) __CMPXCHG_CASE( , , , 64, , , , , L) __CMPXCHG_CASE(w, b, acq_, 8, , a, , "memory", K) __CMPXCHG_CASE(w, h, acq_, 16, , a, , "memory", K) __CMPXCHG_CASE(w, , acq_, 32, , a, , "memory", K) __CMPXCHG_CASE( , , acq_, 64, , a, , "memory", L) __CMPXCHG_CASE(w, b, rel_, 8, , , l, "memory", K) __CMPXCHG_CASE(w, h, rel_, 16, , , l, "memory", K) __CMPXCHG_CASE(w, , rel_, 32, , , l, "memory", K) __CMPXCHG_CASE( , , rel_, 64, , , l, "memory", L) __CMPXCHG_CASE(w, b, mb_, 8, dmb ish, , l, "memory", K) __CMPXCHG_CASE(w, h, mb_, 16, dmb ish, , l, "memory", K) __CMPXCHG_CASE(w, , mb_, 32, dmb ish, , l, "memory", K) __CMPXCHG_CASE( , , mb_, 64, dmb ish, , l, "memory", L) #undef __CMPXCHG_CASE union __u128_halves { u128 full; struct { u64 low, high; }; }; #define __CMPXCHG128(name, mb, rel, cl...) \ static __always_inline u128 \ __ll_sc__cmpxchg128##name(volatile u128 *ptr, u128 old, u128 new) \ { \ union __u128_halves r, o = { .full = (old) }, \ n = { .full = (new) }; \ unsigned int tmp; \ \ asm volatile("// __cmpxchg128" #name "\n" \ " prfm pstl1strm, %[v]\n" \ "1: ldxp %[rl], %[rh], %[v]\n" \ " cmp %[rl], %[ol]\n" \ " ccmp %[rh], %[oh], 0, eq\n" \ " b.ne 2f\n" \ " st" #rel "xp %w[tmp], %[nl], %[nh], %[v]\n" \ " cbnz %w[tmp], 1b\n" \ " " #mb "\n" \ "2:" \ : [v] "+Q" (*(u128 *)ptr), \ [rl] "=&r" (r.low), [rh] "=&r" (r.high), \ [tmp] "=&r" (tmp) \ : [ol] "r" (o.low), [oh] "r" (o.high), \ [nl] "r" (n.low), [nh] "r" (n.high) \ : "cc", ##cl); \ \ return r.full; \ } __CMPXCHG128( , , ) __CMPXCHG128(_mb, dmb ish, l, "memory") #undef __CMPXCHG128 #undef K #endif /* __ASM_ATOMIC_LL_SC_H */
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