Mercurial > hg > CbC > CbC_gcc
view libgcc/config/pa/linux-atomic.c @ 119:9d1ff3ae1824
fix conv1 example
| author | kono |
|---|---|
| date | Thu, 08 Mar 2018 12:20:02 +0900 |
| parents | 04ced10e8804 |
| children | 84e7813d76e9 |
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/* Linux-specific atomic operations for PA Linux. Copyright (C) 2008-2017 Free Software Foundation, Inc. Based on code contributed by CodeSourcery for ARM EABI Linux. Modifications for PA Linux by Helge Deller <deller@gmx.de> This file is part of GCC. GCC 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. GCC 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/>. */ #define EFAULT 14 #define EBUSY 16 #define ENOSYS 251 /* All PA-RISC implementations supported by linux have strongly ordered loads and stores. Only cache flushes and purges can be delayed. The data cache implementations are all globally coherent. Thus, there is no need to synchonize memory accesses. GCC automatically issues a asm memory barrier when it encounters a __sync_synchronize builtin. Thus, we do not need to define this builtin. We implement byte, short and int versions of each atomic operation using the kernel helper defined below. There is no support for 64-bit operations yet. */ /* Determine kernel LWS function call (0=32-bit, 1=64-bit userspace). */ #define LWS_CAS (sizeof(long) == 4 ? 0 : 1) /* Kernel helper for compare-and-exchange a 32-bit value. */ static inline long __kernel_cmpxchg (int *mem, int oldval, int newval) { register unsigned long lws_mem asm("r26") = (unsigned long) (mem); register int lws_old asm("r25") = oldval; register int lws_new asm("r24") = newval; register long lws_ret asm("r28"); register long lws_errno asm("r21"); asm volatile ( "ble 0xb0(%%sr2, %%r0) \n\t" "ldi %2, %%r20 \n\t" : "=r" (lws_ret), "=r" (lws_errno) : "i" (LWS_CAS), "r" (lws_mem), "r" (lws_old), "r" (lws_new) : "r1", "r20", "r22", "r23", "r29", "r31", "memory" ); if (__builtin_expect (lws_errno == -EFAULT || lws_errno == -ENOSYS, 0)) __builtin_trap (); /* If the kernel LWS call succeeded (lws_errno == 0), lws_ret contains the old value from memory. If this value is equal to OLDVAL, the new value was written to memory. If not, return -EBUSY. */ if (!lws_errno && lws_ret != oldval) lws_errno = -EBUSY; return lws_errno; } static inline long __kernel_cmpxchg2 (void *mem, const void *oldval, const void *newval, int val_size) { register unsigned long lws_mem asm("r26") = (unsigned long) (mem); register unsigned long lws_old asm("r25") = (unsigned long) oldval; register unsigned long lws_new asm("r24") = (unsigned long) newval; register int lws_size asm("r23") = val_size; register long lws_ret asm("r28"); register long lws_errno asm("r21"); asm volatile ( "ble 0xb0(%%sr2, %%r0) \n\t" "ldi %6, %%r20 \n\t" : "=r" (lws_ret), "=r" (lws_errno), "+r" (lws_mem), "+r" (lws_old), "+r" (lws_new), "+r" (lws_size) : "i" (2) : "r1", "r20", "r22", "r29", "r31", "fr4", "memory" ); /* If the kernel LWS call is successful, lws_ret contains 0. */ if (__builtin_expect (lws_ret == 0, 1)) return 0; if (__builtin_expect (lws_errno == -EFAULT || lws_errno == -ENOSYS, 0)) __builtin_trap (); /* If the kernel LWS call fails with no error, return -EBUSY */ if (__builtin_expect (!lws_errno, 0)) return -EBUSY; return lws_errno; } #define HIDDEN __attribute__ ((visibility ("hidden"))) /* Big endian masks */ #define INVERT_MASK_1 24 #define INVERT_MASK_2 16 #define MASK_1 0xffu #define MASK_2 0xffffu #define FETCH_AND_OP_2(OP, PFX_OP, INF_OP, TYPE, WIDTH, INDEX) \ TYPE HIDDEN \ __sync_fetch_and_##OP##_##WIDTH (TYPE *ptr, TYPE val) \ { \ TYPE tmp, newval; \ long failure; \ \ do { \ tmp = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); \ newval = PFX_OP (tmp INF_OP val); \ failure = __kernel_cmpxchg2 (ptr, &tmp, &newval, INDEX); \ } while (failure != 0); \ \ return tmp; \ } FETCH_AND_OP_2 (add, , +, long long, 8, 3) FETCH_AND_OP_2 (sub, , -, long long, 8, 3) FETCH_AND_OP_2 (or, , |, long long, 8, 3) FETCH_AND_OP_2 (and, , &, long long, 8, 3) FETCH_AND_OP_2 (xor, , ^, long long, 8, 3) FETCH_AND_OP_2 (nand, ~, &, long long, 8, 3) FETCH_AND_OP_2 (add, , +, short, 2, 1) FETCH_AND_OP_2 (sub, , -, short, 2, 1) FETCH_AND_OP_2 (or, , |, short, 2, 1) FETCH_AND_OP_2 (and, , &, short, 2, 1) FETCH_AND_OP_2 (xor, , ^, short, 2, 1) FETCH_AND_OP_2 (nand, ~, &, short, 2, 1) FETCH_AND_OP_2 (add, , +, signed char, 1, 0) FETCH_AND_OP_2 (sub, , -, signed char, 1, 0) FETCH_AND_OP_2 (or, , |, signed char, 1, 0) FETCH_AND_OP_2 (and, , &, signed char, 1, 0) FETCH_AND_OP_2 (xor, , ^, signed char, 1, 0) FETCH_AND_OP_2 (nand, ~, &, signed char, 1, 0) #define OP_AND_FETCH_2(OP, PFX_OP, INF_OP, TYPE, WIDTH, INDEX) \ TYPE HIDDEN \ __sync_##OP##_and_fetch_##WIDTH (TYPE *ptr, TYPE val) \ { \ TYPE tmp, newval; \ long failure; \ \ do { \ tmp = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); \ newval = PFX_OP (tmp INF_OP val); \ failure = __kernel_cmpxchg2 (ptr, &tmp, &newval, INDEX); \ } while (failure != 0); \ \ return PFX_OP (tmp INF_OP val); \ } OP_AND_FETCH_2 (add, , +, long long, 8, 3) OP_AND_FETCH_2 (sub, , -, long long, 8, 3) OP_AND_FETCH_2 (or, , |, long long, 8, 3) OP_AND_FETCH_2 (and, , &, long long, 8, 3) OP_AND_FETCH_2 (xor, , ^, long long, 8, 3) OP_AND_FETCH_2 (nand, ~, &, long long, 8, 3) OP_AND_FETCH_2 (add, , +, short, 2, 1) OP_AND_FETCH_2 (sub, , -, short, 2, 1) OP_AND_FETCH_2 (or, , |, short, 2, 1) OP_AND_FETCH_2 (and, , &, short, 2, 1) OP_AND_FETCH_2 (xor, , ^, short, 2, 1) OP_AND_FETCH_2 (nand, ~, &, short, 2, 1) OP_AND_FETCH_2 (add, , +, signed char, 1, 0) OP_AND_FETCH_2 (sub, , -, signed char, 1, 0) OP_AND_FETCH_2 (or, , |, signed char, 1, 0) OP_AND_FETCH_2 (and, , &, signed char, 1, 0) OP_AND_FETCH_2 (xor, , ^, signed char, 1, 0) OP_AND_FETCH_2 (nand, ~, &, signed char, 1, 0) #define FETCH_AND_OP_WORD(OP, PFX_OP, INF_OP) \ int HIDDEN \ __sync_fetch_and_##OP##_4 (int *ptr, int val) \ { \ int tmp; \ long failure; \ \ do { \ tmp = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); \ failure = __kernel_cmpxchg (ptr, tmp, PFX_OP (tmp INF_OP val)); \ } while (failure != 0); \ \ return tmp; \ } FETCH_AND_OP_WORD (add, , +) FETCH_AND_OP_WORD (sub, , -) FETCH_AND_OP_WORD (or, , |) FETCH_AND_OP_WORD (and, , &) FETCH_AND_OP_WORD (xor, , ^) FETCH_AND_OP_WORD (nand, ~, &) #define OP_AND_FETCH_WORD(OP, PFX_OP, INF_OP) \ int HIDDEN \ __sync_##OP##_and_fetch_4 (int *ptr, int val) \ { \ int tmp; \ long failure; \ \ do { \ tmp = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); \ failure = __kernel_cmpxchg (ptr, tmp, PFX_OP (tmp INF_OP val)); \ } while (failure != 0); \ \ return PFX_OP (tmp INF_OP val); \ } OP_AND_FETCH_WORD (add, , +) OP_AND_FETCH_WORD (sub, , -) OP_AND_FETCH_WORD (or, , |) OP_AND_FETCH_WORD (and, , &) OP_AND_FETCH_WORD (xor, , ^) OP_AND_FETCH_WORD (nand, ~, &) typedef unsigned char bool; #define COMPARE_AND_SWAP_2(TYPE, WIDTH, INDEX) \ TYPE HIDDEN \ __sync_val_compare_and_swap_##WIDTH (TYPE *ptr, TYPE oldval, \ TYPE newval) \ { \ TYPE actual_oldval; \ long fail; \ \ while (1) \ { \ actual_oldval = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); \ \ if (__builtin_expect (oldval != actual_oldval, 0)) \ return actual_oldval; \ \ fail = __kernel_cmpxchg2 (ptr, &actual_oldval, &newval, INDEX); \ \ if (__builtin_expect (!fail, 1)) \ return actual_oldval; \ } \ } \ \ bool HIDDEN \ __sync_bool_compare_and_swap_##WIDTH (TYPE *ptr, TYPE oldval, \ TYPE newval) \ { \ long failure = __kernel_cmpxchg2 (ptr, &oldval, &newval, INDEX); \ return (failure == 0); \ } COMPARE_AND_SWAP_2 (long long, 8, 3) COMPARE_AND_SWAP_2 (short, 2, 1) COMPARE_AND_SWAP_2 (char, 1, 0) int HIDDEN __sync_val_compare_and_swap_4 (int *ptr, int oldval, int newval) { long fail; int actual_oldval; while (1) { actual_oldval = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); if (__builtin_expect (oldval != actual_oldval, 0)) return actual_oldval; fail = __kernel_cmpxchg (ptr, actual_oldval, newval); if (__builtin_expect (!fail, 1)) return actual_oldval; } } bool HIDDEN __sync_bool_compare_and_swap_4 (int *ptr, int oldval, int newval) { long failure = __kernel_cmpxchg (ptr, oldval, newval); return (failure == 0); } #define SYNC_LOCK_TEST_AND_SET_2(TYPE, WIDTH, INDEX) \ TYPE HIDDEN \ __sync_lock_test_and_set_##WIDTH (TYPE *ptr, TYPE val) \ { \ TYPE oldval; \ long failure; \ \ do { \ oldval = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); \ failure = __kernel_cmpxchg2 (ptr, &oldval, &val, INDEX); \ } while (failure != 0); \ \ return oldval; \ } SYNC_LOCK_TEST_AND_SET_2 (long long, 8, 3) SYNC_LOCK_TEST_AND_SET_2 (short, 2, 1) SYNC_LOCK_TEST_AND_SET_2 (signed char, 1, 0) int HIDDEN __sync_lock_test_and_set_4 (int *ptr, int val) { long failure; int oldval; do { oldval = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); failure = __kernel_cmpxchg (ptr, oldval, val); } while (failure != 0); return oldval; } #define SYNC_LOCK_RELEASE_2(TYPE, WIDTH, INDEX) \ void HIDDEN \ __sync_lock_release_##WIDTH (TYPE *ptr) \ { \ TYPE oldval, zero = 0; \ long failure; \ \ do { \ oldval = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); \ failure = __kernel_cmpxchg2 (ptr, &oldval, &zero, INDEX); \ } while (failure != 0); \ } SYNC_LOCK_RELEASE_2 (long long, 8, 3) SYNC_LOCK_RELEASE_2 (short, 2, 1) SYNC_LOCK_RELEASE_2 (signed char, 1, 0) void HIDDEN __sync_lock_release_4 (int *ptr) { long failure; int oldval; do { oldval = __atomic_load_n (ptr, __ATOMIC_SEQ_CST); failure = __kernel_cmpxchg (ptr, oldval, 0); } while (failure != 0); }