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- /* Atomic operations used inside libc. Linux/SH version.
- Copyright (C) 2003 Free Software Foundation, Inc.
- This file is part of the GNU C Library.
- The GNU C Library is free software; you can redistribute it and/or
- modify it under the terms of the GNU Lesser General Public
- License as published by the Free Software Foundation; either
- version 2.1 of the License, or (at your option) any later version.
- The GNU C Library 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
- Lesser General Public License for more details.
- You should have received a copy of the GNU Lesser General Public
- License along with the GNU C Library; if not, see
- <http://www.gnu.org/licenses/>. */
- #include <stdint.h>
- typedef int8_t atomic8_t;
- typedef uint8_t uatomic8_t;
- typedef int_fast8_t atomic_fast8_t;
- typedef uint_fast8_t uatomic_fast8_t;
- typedef int16_t atomic16_t;
- typedef uint16_t uatomic16_t;
- typedef int_fast16_t atomic_fast16_t;
- typedef uint_fast16_t uatomic_fast16_t;
- typedef int32_t atomic32_t;
- typedef uint32_t uatomic32_t;
- typedef int_fast32_t atomic_fast32_t;
- typedef uint_fast32_t uatomic_fast32_t;
- typedef int64_t atomic64_t;
- typedef uint64_t uatomic64_t;
- typedef int_fast64_t atomic_fast64_t;
- typedef uint_fast64_t uatomic_fast64_t;
- typedef intptr_t atomicptr_t;
- typedef uintptr_t uatomicptr_t;
- typedef intmax_t atomic_max_t;
- typedef uintmax_t uatomic_max_t;
- /* SH kernel has implemented a gUSA ("g" User Space Atomicity) support
- for the user space atomicity. The atomicity macros use this scheme.
- Reference:
- Niibe Yutaka, "gUSA: Simple and Efficient User Space Atomicity
- Emulation with Little Kernel Modification", Linux Conference 2002,
- Japan. http://lc.linux.or.jp/lc2002/papers/niibe0919h.pdf (in
- Japanese).
- Niibe Yutaka, "gUSA: User Space Atomicity with Little Kernel
- Modification", LinuxTag 2003, Rome.
- http://www.semmel.ch/Linuxtag-DVD/talks/170/paper.html (in English).
- B.N. Bershad, D. Redell, and J. Ellis, "Fast Mutual Exclusion for
- Uniprocessors", Proceedings of the Fifth Architectural Support for
- Programming Languages and Operating Systems (ASPLOS), pp. 223-233,
- October 1992. http://www.cs.washington.edu/homes/bershad/Papers/Rcs.ps
- SuperH ABI:
- r15: -(size of atomic instruction sequence) < 0
- r0: end point
- r1: saved stack pointer
- */
- #if __GNUC_PREREQ (4, 7)
- # define rNOSP "u"
- #else
- # define rNOSP "r"
- #endif
- /* Avoid having lots of different versions of compare and exchange,
- by having this one complicated version. Parameters:
- bwl: b, w or l for 8, 16 and 32 bit versions.
- version: val or bool, depending on whether the result is the
- previous value or a bool indicating whether the transfer
- did happen (note this needs inverting before being
- returned in atomic_compare_and_exchange_bool).
- */
- #define __arch_compare_and_exchange_n(mem, newval, oldval, bwl, version) \
- ({ signed long __arch_result; \
- __asm__ __volatile__ ("\
- .align 2\n\
- mova 1f,r0\n\
- nop\n\
- mov r15,r1\n\
- mov #-8,r15\n\
- 0: mov." #bwl " @%1,%0\n\
- cmp/eq %0,%3\n\
- bf 1f\n\
- mov." #bwl " %2,@%1\n\
- 1: mov r1,r15\n\
- .ifeqs \"bool\",\"" #version "\"\n\
- movt %0\n\
- .endif\n" \
- : "=&r" (__arch_result) \
- : rNOSP (mem), rNOSP (newval), rNOSP (oldval) \
- : "r0", "r1", "t", "memory"); \
- __arch_result; })
- #define __arch_compare_and_exchange_val_8_acq(mem, newval, oldval) \
- __arch_compare_and_exchange_n(mem, newval, (int8_t)(oldval), b, val)
- #define __arch_compare_and_exchange_val_16_acq(mem, newval, oldval) \
- __arch_compare_and_exchange_n(mem, newval, (int16_t)(oldval), w, val)
- #define __arch_compare_and_exchange_val_32_acq(mem, newval, oldval) \
- __arch_compare_and_exchange_n(mem, newval, (int32_t)(oldval), l, val)
- /* XXX We do not really need 64-bit compare-and-exchange. At least
- not in the moment. Using it would mean causing portability
- problems since not many other 32-bit architectures have support for
- such an operation. So don't define any code for now. */
- # define __arch_compare_and_exchange_val_64_acq(mem, newval, oldval) \
- (abort (), 0)
- /* For "bool" routines, return if the exchange did NOT occur */
- #define __arch_compare_and_exchange_bool_8_acq(mem, newval, oldval) \
- (! __arch_compare_and_exchange_n(mem, newval, (int8_t)(oldval), b, bool))
- #define __arch_compare_and_exchange_bool_16_acq(mem, newval, oldval) \
- (! __arch_compare_and_exchange_n(mem, newval, (int16_t)(oldval), w, bool))
- #define __arch_compare_and_exchange_bool_32_acq(mem, newval, oldval) \
- (! __arch_compare_and_exchange_n(mem, newval, (int32_t)(oldval), l, bool))
- # define __arch_compare_and_exchange_bool_64_acq(mem, newval, oldval) \
- (abort (), 0)
- /* Similar to the above, have one template which can be used in a
- number of places. This version returns both the old and the new
- values of the location. Parameters:
- bwl: b, w or l for 8, 16 and 32 bit versions.
- oper: The instruction to perform on the old value.
- Note old is not sign extended, so should be an unsigned long.
- */
- #define __arch_operate_old_new_n(mem, value, old, new, bwl, oper) \
- (void) ({ __asm__ __volatile__ ("\
- .align 2\n\
- mova 1f,r0\n\
- mov r15,r1\n\
- nop\n\
- mov #-8,r15\n\
- 0: mov." #bwl " @%2,%0\n\
- mov %0,%1\n\
- " #oper " %3,%1\n\
- mov." #bwl " %1,@%2\n\
- 1: mov r1,r15" \
- : "=&r" (old), "=&r"(new) \
- : rNOSP (mem), rNOSP (value) \
- : "r0", "r1", "memory"); \
- })
- #define __arch_exchange_and_add_8_int(mem, value) \
- ({ int32_t __value = (value), __new, __old; \
- __arch_operate_old_new_n((mem), __value, __old, __new, b, add); \
- __old; })
- #define __arch_exchange_and_add_16_int(mem, value) \
- ({ int32_t __value = (value), __new, __old; \
- __arch_operate_old_new_n((mem), __value, __old, __new, w, add); \
- __old; })
- #define __arch_exchange_and_add_32_int(mem, value) \
- ({ int32_t __value = (value), __new, __old; \
- __arch_operate_old_new_n((mem), __value, __old, __new, l, add); \
- __old; })
- #define __arch_exchange_and_add_64_int(mem, value) \
- (abort (), 0)
- #define atomic_exchange_and_add(mem, value) \
- __atomic_val_bysize (__arch_exchange_and_add, int, mem, value)
- /* Again, another template. We get a slight optimisation when the old value
- does not need to be returned. Parameters:
- bwl: b, w or l for 8, 16 and 32 bit versions.
- oper: The instruction to perform on the old value.
- */
- #define __arch_operate_new_n(mem, value, bwl, oper) \
- ({ int32_t __value = (value), __new; \
- __asm__ __volatile__ ("\
- .align 2\n\
- mova 1f,r0\n\
- mov r15,r1\n\
- mov #-6,r15\n\
- 0: mov." #bwl " @%1,%0\n\
- " #oper " %2,%0\n\
- mov." #bwl " %0,@%1\n\
- 1: mov r1,r15" \
- : "=&r" (__new) \
- : rNOSP (mem), rNOSP (__value) \
- : "r0", "r1", "memory"); \
- __new; \
- })
- #define __arch_add_8_int(mem, value) \
- __arch_operate_new_n(mem, value, b, add)
- #define __arch_add_16_int(mem, value) \
- __arch_operate_new_n(mem, value, w, add)
- #define __arch_add_32_int(mem, value) \
- __arch_operate_new_n(mem, value, l, add)
- #define __arch_add_64_int(mem, value) \
- (abort (), 0)
- #define atomic_add(mem, value) \
- ((void) __atomic_val_bysize (__arch_add, int, mem, value))
- #define __arch_add_negative_8_int(mem, value) \
- (__arch_operate_new_n(mem, value, b, add) < 0)
- #define __arch_add_negative_16_int(mem, value) \
- (__arch_operate_new_n(mem, value, w, add) < 0)
- #define __arch_add_negative_32_int(mem, value) \
- (__arch_operate_new_n(mem, value, l, add) < 0)
- #define __arch_add_negative_64_int(mem, value) \
- (abort (), 0)
- #define atomic_add_negative(mem, value) \
- __atomic_bool_bysize (__arch_add_negative, int, mem, value)
- #define __arch_add_zero_8_int(mem, value) \
- (__arch_operate_new_n(mem, value, b, add) == 0)
- #define __arch_add_zero_16_int(mem, value) \
- (__arch_operate_new_n(mem, value, w, add) == 0)
- #define __arch_add_zero_32_int(mem, value) \
- (__arch_operate_new_n(mem, value, l, add) == 0)
- #define __arch_add_zero_64_int(mem, value) \
- (abort (), 0)
- #define atomic_add_zero(mem, value) \
- __atomic_bool_bysize (__arch_add_zero, int, mem, value)
- #define atomic_increment_and_test(mem) atomic_add_zero((mem), 1)
- #define atomic_decrement_and_test(mem) atomic_add_zero((mem), -1)
- #define __arch_bit_set_8_int(mem, value) \
- __arch_operate_new_n(mem, 1<<(value), b, or)
- #define __arch_bit_set_16_int(mem, value) \
- __arch_operate_new_n(mem, 1<<(value), w, or)
- #define __arch_bit_set_32_int(mem, value) \
- __arch_operate_new_n(mem, 1<<(value), l, or)
- #define __arch_bit_set_64_int(mem, value) \
- (abort (), 0)
- #define __arch_add_64_int(mem, value) \
- (abort (), 0)
- #define atomic_bit_set(mem, value) \
- ((void) __atomic_val_bysize (__arch_bit_set, int, mem, value))
- #define __arch_bit_test_set_8_int(mem, value) \
- ({ int32_t __value = 1<<(value), __new, __old; \
- __arch_operate_old_new_n((mem), __value, __old, __new, b, or); \
- __old & __value; })
- #define __arch_bit_test_set_16_int(mem, value) \
- ({ int32_t __value = 1<<(value), __new, __old; \
- __arch_operate_old_new_n((mem), __value, __old, __new, w, or); \
- __old & __value; })
- #define __arch_bit_test_set_32_int(mem, value) \
- ({ int32_t __value = 1<<(value), __new, __old; \
- __arch_operate_old_new_n((mem), __value, __old, __new, l, or); \
- __old & __value; })
- #define __arch_bit_test_set_64_int(mem, value) \
- (abort (), 0)
- #define atomic_bit_test_set(mem, value) \
- __atomic_val_bysize (__arch_bit_test_set, int, mem, value)
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