gcc/libgcc/config/tilepro/atomic.c
Jakub Jelinek 8d9254fc8a Update copyright years.
From-SVN: r279813
2020-01-01 12:51:42 +01:00

398 lines
14 KiB
C

/* TILE atomics.
Copyright (C) 2011-2020 Free Software Foundation, Inc.
Contributed by Walter Lee (walt@tilera.com)
This file is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 3, or (at your option) any
later version.
This file is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
Under Section 7 of GPL version 3, you are granted additional
permissions described in the GCC Runtime Library Exception, version
3.1, as published by the Free Software Foundation.
You should have received a copy of the GNU General Public License and
a copy of the GCC Runtime Library Exception along with this program;
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
<http://www.gnu.org/licenses/>. */
#include "tconfig.h"
#include "coretypes.h"
#include "atomic.h"
#define bool unsigned char
/* This code should be inlined by the compiler, but for now support
it as out-of-line methods in libgcc. */
static inline void
pre_atomic_barrier (int model)
{
switch (model)
{
case __ATOMIC_RELEASE:
case __ATOMIC_ACQ_REL:
case __ATOMIC_SEQ_CST:
__atomic_thread_fence (model);
break;
default:
break;
}
return;
}
static inline void
post_atomic_barrier (int model)
{
switch (model)
{
case __ATOMIC_ACQUIRE:
case __ATOMIC_ACQ_REL:
case __ATOMIC_SEQ_CST:
__atomic_thread_fence (model);
break;
default:
break;
}
return;
}
#define __unused __attribute__((unused))
#define __fetch_and_do(proto, type, size, opname, top, bottom) \
proto \
{ \
top; \
type rv = arch_atomic_##opname(p, i); \
bottom; \
return rv; \
}
#define __atomic_fetch_and_do(type, size, opname) \
__fetch_and_do(type __atomic_fetch_##opname##_##size(type* p, type i, int model), \
type, size, opname, \
pre_atomic_barrier(model), \
post_atomic_barrier(model)) \
__atomic_fetch_and_do (int, 4, add)
__atomic_fetch_and_do (int, 4, sub)
__atomic_fetch_and_do (int, 4, or)
__atomic_fetch_and_do (int, 4, and)
__atomic_fetch_and_do (int, 4, xor)
__atomic_fetch_and_do (int, 4, nand)
__atomic_fetch_and_do (long long, 8, add)
__atomic_fetch_and_do (long long, 8, sub)
__atomic_fetch_and_do (long long, 8, or)
__atomic_fetch_and_do (long long, 8, and)
__atomic_fetch_and_do (long long, 8, xor)
__atomic_fetch_and_do (long long, 8, nand)
#define __sync_fetch_and_do(type, size, opname) \
__fetch_and_do(type __sync_fetch_and_##opname##_##size(type* p, type i), \
type, size, opname, \
arch_atomic_write_barrier(), \
arch_atomic_read_barrier())
__sync_fetch_and_do (int, 4, add)
__sync_fetch_and_do (int, 4, sub)
__sync_fetch_and_do (int, 4, or)
__sync_fetch_and_do (int, 4, and)
__sync_fetch_and_do (int, 4, xor)
__sync_fetch_and_do (int, 4, nand)
__sync_fetch_and_do (long long, 8, add)
__sync_fetch_and_do (long long, 8, sub)
__sync_fetch_and_do (long long, 8, or)
__sync_fetch_and_do (long long, 8, and)
__sync_fetch_and_do (long long, 8, xor)
__sync_fetch_and_do (long long, 8, nand)
#define __do_and_fetch(proto, type, size, opname, op, op2, top, bottom) \
proto \
{ \
top; \
type rv = op2 (arch_atomic_##opname(p, i) op i); \
bottom; \
return rv; \
}
#define __atomic_do_and_fetch(type, size, opname, op, op2) \
__do_and_fetch(type __atomic_##opname##_fetch_##size(type* p, type i, int model), \
type, size, opname, op, op2, \
pre_atomic_barrier(model), \
post_atomic_barrier(model)) \
__atomic_do_and_fetch (int, 4, add, +, )
__atomic_do_and_fetch (int, 4, sub, -, )
__atomic_do_and_fetch (int, 4, or, |, )
__atomic_do_and_fetch (int, 4, and, &, )
__atomic_do_and_fetch (int, 4, xor, |, )
__atomic_do_and_fetch (int, 4, nand, &, ~)
__atomic_do_and_fetch (long long, 8, add, +, )
__atomic_do_and_fetch (long long, 8, sub, -, )
__atomic_do_and_fetch (long long, 8, or, |, )
__atomic_do_and_fetch (long long, 8, and, &, )
__atomic_do_and_fetch (long long, 8, xor, |, )
__atomic_do_and_fetch (long long, 8, nand, &, ~)
#define __sync_do_and_fetch(type, size, opname, op, op2) \
__do_and_fetch(type __sync_##opname##_and_fetch_##size(type* p, type i), \
type, size, opname, op, op2, \
arch_atomic_write_barrier(), \
arch_atomic_read_barrier()) \
__sync_do_and_fetch (int, 4, add, +, )
__sync_do_and_fetch (int, 4, sub, -, )
__sync_do_and_fetch (int, 4, or, |, )
__sync_do_and_fetch (int, 4, and, &, )
__sync_do_and_fetch (int, 4, xor, |, )
__sync_do_and_fetch (int, 4, nand, &, ~)
__sync_do_and_fetch (long long, 8, add, +, )
__sync_do_and_fetch (long long, 8, sub, -, )
__sync_do_and_fetch (long long, 8, or, |, )
__sync_do_and_fetch (long long, 8, and, &, )
__sync_do_and_fetch (long long, 8, xor, |, )
__sync_do_and_fetch (long long, 8, nand, &, ~)
#define __atomic_exchange_methods(type, size) \
bool \
__atomic_compare_exchange_##size(volatile type* ptr, type* oldvalp, \
type newval, bool weak __unused, \
int models, int modelf __unused) \
{ \
type oldval = *oldvalp; \
pre_atomic_barrier(models); \
type retval = arch_atomic_val_compare_and_exchange(ptr, oldval, newval); \
post_atomic_barrier(models); \
bool success = (retval == oldval); \
*oldvalp = retval; \
return success; \
} \
\
type \
__atomic_exchange_##size(volatile type* ptr, type val, int model) \
{ \
pre_atomic_barrier(model); \
type retval = arch_atomic_exchange(ptr, val); \
post_atomic_barrier(model); \
return retval; \
}
__atomic_exchange_methods (int, 4)
__atomic_exchange_methods (long long, 8)
#define __sync_exchange_methods(type, size) \
type \
__sync_val_compare_and_swap_##size(type* ptr, type oldval, type newval) \
{ \
arch_atomic_write_barrier(); \
type retval = arch_atomic_val_compare_and_exchange(ptr, oldval, newval); \
arch_atomic_read_barrier(); \
return retval; \
} \
\
bool \
__sync_bool_compare_and_swap_##size(type* ptr, type oldval, type newval) \
{ \
arch_atomic_write_barrier(); \
bool retval = arch_atomic_bool_compare_and_exchange(ptr, oldval, newval); \
arch_atomic_read_barrier(); \
return retval; \
} \
\
type \
__sync_lock_test_and_set_##size(type* ptr, type val) \
{ \
type retval = arch_atomic_exchange(ptr, val); \
arch_atomic_acquire_barrier_value(retval); \
return retval; \
}
__sync_exchange_methods (int, 4)
__sync_exchange_methods (long long, 8)
#ifdef __LITTLE_ENDIAN__
#define BIT_OFFSET(n, type) ((n) * 8)
#else
#define BIT_OFFSET(n, type) ((4 - sizeof(type) - (n)) * 8)
#endif
/* Subword methods require the same approach for both TILEPro and
TILE-Gx. We load the background data for the word, insert the
desired subword piece, then compare-and-exchange it into place. */
#define u8 unsigned char
#define u16 unsigned short
#define __subword_cmpxchg_body(type, size, ptr, guess, val) \
({ \
unsigned int *p = (unsigned int *)((unsigned long)ptr & ~3UL); \
const int shift = BIT_OFFSET((unsigned long)ptr & 3UL, type); \
const unsigned int valmask = (1 << (sizeof(type) * 8)) - 1; \
const unsigned int bgmask = ~(valmask << shift); \
unsigned int oldword = *p; \
type oldval = (oldword >> shift) & valmask; \
if (__builtin_expect((oldval == guess), 1)) { \
unsigned int word = (oldword & bgmask) | ((val & valmask) << shift); \
oldword = arch_atomic_val_compare_and_exchange(p, oldword, word); \
oldval = (oldword >> shift) & valmask; \
} \
oldval; \
}) \
#define __atomic_subword_cmpxchg(type, size) \
\
bool \
__atomic_compare_exchange_##size(volatile type* ptr, type* guess_ptr, \
type val, bool weak __unused, int models, \
int modelf __unused) \
{ \
pre_atomic_barrier(models); \
type guess = *guess_ptr; \
type oldval = __subword_cmpxchg_body(type, size, ptr, guess, val); \
post_atomic_barrier(models); \
bool success = (oldval == guess); \
*guess_ptr = oldval; \
return success; \
}
__atomic_subword_cmpxchg (u8, 1)
__atomic_subword_cmpxchg (u16, 2)
#define __sync_subword_cmpxchg(type, size) \
\
type \
__sync_val_compare_and_swap_##size(type* ptr, type guess, type val) \
{ \
arch_atomic_write_barrier(); \
type oldval = __subword_cmpxchg_body(type, size, ptr, guess, val); \
arch_atomic_read_barrier(); \
return oldval; \
} \
\
bool \
__sync_bool_compare_and_swap_##size(type* ptr, type guess, type val) \
{ \
type oldval = __sync_val_compare_and_swap_##size(ptr, guess, val); \
return oldval == guess; \
}
__sync_subword_cmpxchg (u8, 1)
__sync_subword_cmpxchg (u16, 2)
/* For the atomic-update subword methods, we use the same approach as
above, but we retry until we succeed if the compare-and-exchange
fails. */
#define __subword(type, proto, top, expr, bottom) \
proto \
{ \
top \
unsigned int *p = (unsigned int *)((unsigned long)ptr & ~3UL); \
const int shift = BIT_OFFSET((unsigned long)ptr & 3UL, type); \
const unsigned int valmask = (1 << (sizeof(type) * 8)) - 1; \
const unsigned int bgmask = ~(valmask << shift); \
unsigned int oldword, xword = *p; \
type val, oldval; \
do { \
oldword = xword; \
oldval = (oldword >> shift) & valmask; \
val = expr; \
unsigned int word = (oldword & bgmask) | ((val & valmask) << shift); \
xword = arch_atomic_val_compare_and_exchange(p, oldword, word); \
} while (__builtin_expect(xword != oldword, 0)); \
bottom \
}
#define __atomic_subword_fetch(type, funcname, expr, retval) \
__subword(type, \
type __atomic_ ## funcname(volatile type *ptr, type i, int model), \
pre_atomic_barrier(model);, \
expr, \
post_atomic_barrier(model); return retval;)
__atomic_subword_fetch (u8, fetch_add_1, oldval + i, oldval)
__atomic_subword_fetch (u8, fetch_sub_1, oldval - i, oldval)
__atomic_subword_fetch (u8, fetch_or_1, oldval | i, oldval)
__atomic_subword_fetch (u8, fetch_and_1, oldval & i, oldval)
__atomic_subword_fetch (u8, fetch_xor_1, oldval ^ i, oldval)
__atomic_subword_fetch (u8, fetch_nand_1, ~(oldval & i), oldval)
__atomic_subword_fetch (u16, fetch_add_2, oldval + i, oldval)
__atomic_subword_fetch (u16, fetch_sub_2, oldval - i, oldval)
__atomic_subword_fetch (u16, fetch_or_2, oldval | i, oldval)
__atomic_subword_fetch (u16, fetch_and_2, oldval & i, oldval)
__atomic_subword_fetch (u16, fetch_xor_2, oldval ^ i, oldval)
__atomic_subword_fetch (u16, fetch_nand_2, ~(oldval & i), oldval)
__atomic_subword_fetch (u8, add_fetch_1, oldval + i, val)
__atomic_subword_fetch (u8, sub_fetch_1, oldval - i, val)
__atomic_subword_fetch (u8, or_fetch_1, oldval | i, val)
__atomic_subword_fetch (u8, and_fetch_1, oldval & i, val)
__atomic_subword_fetch (u8, xor_fetch_1, oldval ^ i, val)
__atomic_subword_fetch (u8, nand_fetch_1, ~(oldval & i), val)
__atomic_subword_fetch (u16, add_fetch_2, oldval + i, val)
__atomic_subword_fetch (u16, sub_fetch_2, oldval - i, val)
__atomic_subword_fetch (u16, or_fetch_2, oldval | i, val)
__atomic_subword_fetch (u16, and_fetch_2, oldval & i, val)
__atomic_subword_fetch (u16, xor_fetch_2, oldval ^ i, val)
__atomic_subword_fetch (u16, nand_fetch_2, ~(oldval & i), val)
#define __sync_subword_fetch(type, funcname, expr, retval) \
__subword(type, \
type __sync_ ## funcname(type *ptr, type i), \
arch_atomic_read_barrier();, \
expr, \
arch_atomic_write_barrier(); return retval;)
__sync_subword_fetch (u8, fetch_and_add_1, oldval + i, oldval)
__sync_subword_fetch (u8, fetch_and_sub_1, oldval - i, oldval)
__sync_subword_fetch (u8, fetch_and_or_1, oldval | i, oldval)
__sync_subword_fetch (u8, fetch_and_and_1, oldval & i, oldval)
__sync_subword_fetch (u8, fetch_and_xor_1, oldval ^ i, oldval)
__sync_subword_fetch (u8, fetch_and_nand_1, ~(oldval & i), oldval)
__sync_subword_fetch (u16, fetch_and_add_2, oldval + i, oldval)
__sync_subword_fetch (u16, fetch_and_sub_2, oldval - i, oldval)
__sync_subword_fetch (u16, fetch_and_or_2, oldval | i, oldval)
__sync_subword_fetch (u16, fetch_and_and_2, oldval & i, oldval)
__sync_subword_fetch (u16, fetch_and_xor_2, oldval ^ i, oldval)
__sync_subword_fetch (u16, fetch_and_nand_2, ~(oldval & i), oldval)
__sync_subword_fetch (u8, add_and_fetch_1, oldval + i, val)
__sync_subword_fetch (u8, sub_and_fetch_1, oldval - i, val)
__sync_subword_fetch (u8, or_and_fetch_1, oldval | i, val)
__sync_subword_fetch (u8, and_and_fetch_1, oldval & i, val)
__sync_subword_fetch (u8, xor_and_fetch_1, oldval ^ i, val)
__sync_subword_fetch (u8, nand_and_fetch_1, ~(oldval & i), val)
__sync_subword_fetch (u16, add_and_fetch_2, oldval + i, val)
__sync_subword_fetch (u16, sub_and_fetch_2, oldval - i, val)
__sync_subword_fetch (u16, or_and_fetch_2, oldval | i, val)
__sync_subword_fetch (u16, and_and_fetch_2, oldval & i, val)
__sync_subword_fetch (u16, xor_and_fetch_2, oldval ^ i, val)
__sync_subword_fetch (u16, nand_and_fetch_2, ~(oldval & i), val)
#define __atomic_subword_lock(type, size) \
__subword(type, \
type __atomic_exchange_##size(volatile type* ptr, type nval, int model), \
pre_atomic_barrier(model);, \
nval, \
post_atomic_barrier(model); return oldval;)
__atomic_subword_lock (u8, 1)
__atomic_subword_lock (u16, 2)
#define __sync_subword_lock(type, size) \
__subword(type, \
type __sync_lock_test_and_set_##size(type* ptr, type nval), \
, \
nval, \
arch_atomic_acquire_barrier_value(oldval); return oldval;)
__sync_subword_lock (u8, 1)
__sync_subword_lock (u16, 2)