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https://github.com/AuxXxilium/linux_dsm_epyc7002.git
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47d632f9f8
Use direct load/store for the get_user/put_user. Previously, we would call out to a helper routine that would do the appropriate thing and then return, handling the possible exception internally. Now we inline the load or store, along with a "we succeeded" indication in a register; if the load or store faults, we write a "we failed" indication into the same register and then return to the following instruction. This is more efficient and gives us more compact code, as well as being more in line with what other architectures do. The special futex assembly source file for TILE-Gx also disappears in this change; we just use the same inlining idiom there as well, putting the appropriate atomic operations directly into futex_atomic_op_inuser() (and thus into the FUTEX_WAIT function). The underlying atomic copy_from_user, copy_to_user functions were renamed using the (cryptic) x86 convention as copy_from_user_ll and copy_to_user_ll. Signed-off-by: Chris Metcalf <cmetcalf@tilera.com>
285 lines
8.3 KiB
C
285 lines
8.3 KiB
C
/*
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* Copyright 2010 Tilera Corporation. All Rights Reserved.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation, version 2.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, GOOD TITLE or
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* NON INFRINGEMENT. See the GNU General Public License for
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* more details.
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*/
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#include <linux/cache.h>
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#include <linux/delay.h>
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#include <linux/uaccess.h>
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#include <linux/module.h>
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#include <linux/mm.h>
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#include <linux/atomic.h>
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#include <arch/chip.h>
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/* See <asm/atomic_32.h> */
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#if ATOMIC_LOCKS_FOUND_VIA_TABLE()
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/*
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* A block of memory containing locks for atomic ops. Each instance of this
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* struct will be homed on a different CPU.
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*/
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struct atomic_locks_on_cpu {
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int lock[ATOMIC_HASH_L2_SIZE];
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} __attribute__((aligned(ATOMIC_HASH_L2_SIZE * 4)));
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static DEFINE_PER_CPU(struct atomic_locks_on_cpu, atomic_lock_pool);
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/* The locks we'll use until __init_atomic_per_cpu is called. */
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static struct atomic_locks_on_cpu __initdata initial_atomic_locks;
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/* Hash into this vector to get a pointer to lock for the given atomic. */
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struct atomic_locks_on_cpu *atomic_lock_ptr[ATOMIC_HASH_L1_SIZE]
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__write_once = {
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[0 ... ATOMIC_HASH_L1_SIZE-1] (&initial_atomic_locks)
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};
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#else /* ATOMIC_LOCKS_FOUND_VIA_TABLE() */
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/* This page is remapped on startup to be hash-for-home. */
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int atomic_locks[PAGE_SIZE / sizeof(int)] __page_aligned_bss;
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#endif /* ATOMIC_LOCKS_FOUND_VIA_TABLE() */
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int *__atomic_hashed_lock(volatile void *v)
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{
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/* NOTE: this code must match "sys_cmpxchg" in kernel/intvec_32.S */
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#if ATOMIC_LOCKS_FOUND_VIA_TABLE()
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unsigned long i =
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(unsigned long) v & ((PAGE_SIZE-1) & -sizeof(long long));
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unsigned long n = __insn_crc32_32(0, i);
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/* Grab high bits for L1 index. */
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unsigned long l1_index = n >> ((sizeof(n) * 8) - ATOMIC_HASH_L1_SHIFT);
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/* Grab low bits for L2 index. */
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unsigned long l2_index = n & (ATOMIC_HASH_L2_SIZE - 1);
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return &atomic_lock_ptr[l1_index]->lock[l2_index];
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#else
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/*
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* Use bits [3, 3 + ATOMIC_HASH_SHIFT) as the lock index.
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* Using mm works here because atomic_locks is page aligned.
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*/
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unsigned long ptr = __insn_mm((unsigned long)v >> 1,
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(unsigned long)atomic_locks,
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2, (ATOMIC_HASH_SHIFT + 2) - 1);
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return (int *)ptr;
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#endif
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}
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#ifdef CONFIG_SMP
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/* Return whether the passed pointer is a valid atomic lock pointer. */
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static int is_atomic_lock(int *p)
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{
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#if ATOMIC_LOCKS_FOUND_VIA_TABLE()
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int i;
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for (i = 0; i < ATOMIC_HASH_L1_SIZE; ++i) {
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if (p >= &atomic_lock_ptr[i]->lock[0] &&
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p < &atomic_lock_ptr[i]->lock[ATOMIC_HASH_L2_SIZE]) {
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return 1;
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}
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}
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return 0;
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#else
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return p >= &atomic_locks[0] && p < &atomic_locks[ATOMIC_HASH_SIZE];
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#endif
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}
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void __atomic_fault_unlock(int *irqlock_word)
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{
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BUG_ON(!is_atomic_lock(irqlock_word));
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BUG_ON(*irqlock_word != 1);
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*irqlock_word = 0;
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}
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#endif /* CONFIG_SMP */
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static inline int *__atomic_setup(volatile void *v)
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{
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/* Issue a load to the target to bring it into cache. */
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*(volatile int *)v;
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return __atomic_hashed_lock(v);
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}
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int _atomic_xchg(atomic_t *v, int n)
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{
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return __atomic_xchg(&v->counter, __atomic_setup(v), n).val;
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}
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EXPORT_SYMBOL(_atomic_xchg);
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int _atomic_xchg_add(atomic_t *v, int i)
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{
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return __atomic_xchg_add(&v->counter, __atomic_setup(v), i).val;
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}
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EXPORT_SYMBOL(_atomic_xchg_add);
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int _atomic_xchg_add_unless(atomic_t *v, int a, int u)
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{
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/*
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* Note: argument order is switched here since it is easier
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* to use the first argument consistently as the "old value"
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* in the assembly, as is done for _atomic_cmpxchg().
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*/
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return __atomic_xchg_add_unless(&v->counter, __atomic_setup(v), u, a)
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.val;
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}
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EXPORT_SYMBOL(_atomic_xchg_add_unless);
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int _atomic_cmpxchg(atomic_t *v, int o, int n)
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{
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return __atomic_cmpxchg(&v->counter, __atomic_setup(v), o, n).val;
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}
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EXPORT_SYMBOL(_atomic_cmpxchg);
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unsigned long _atomic_or(volatile unsigned long *p, unsigned long mask)
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{
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return __atomic_or((int *)p, __atomic_setup(p), mask).val;
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}
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EXPORT_SYMBOL(_atomic_or);
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unsigned long _atomic_andn(volatile unsigned long *p, unsigned long mask)
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{
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return __atomic_andn((int *)p, __atomic_setup(p), mask).val;
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}
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EXPORT_SYMBOL(_atomic_andn);
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unsigned long _atomic_xor(volatile unsigned long *p, unsigned long mask)
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{
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return __atomic_xor((int *)p, __atomic_setup(p), mask).val;
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}
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EXPORT_SYMBOL(_atomic_xor);
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u64 _atomic64_xchg(atomic64_t *v, u64 n)
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{
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return __atomic64_xchg(&v->counter, __atomic_setup(v), n);
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}
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EXPORT_SYMBOL(_atomic64_xchg);
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u64 _atomic64_xchg_add(atomic64_t *v, u64 i)
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{
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return __atomic64_xchg_add(&v->counter, __atomic_setup(v), i);
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}
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EXPORT_SYMBOL(_atomic64_xchg_add);
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u64 _atomic64_xchg_add_unless(atomic64_t *v, u64 a, u64 u)
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{
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/*
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* Note: argument order is switched here since it is easier
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* to use the first argument consistently as the "old value"
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* in the assembly, as is done for _atomic_cmpxchg().
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*/
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return __atomic64_xchg_add_unless(&v->counter, __atomic_setup(v),
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u, a);
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}
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EXPORT_SYMBOL(_atomic64_xchg_add_unless);
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u64 _atomic64_cmpxchg(atomic64_t *v, u64 o, u64 n)
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{
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return __atomic64_cmpxchg(&v->counter, __atomic_setup(v), o, n);
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}
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EXPORT_SYMBOL(_atomic64_cmpxchg);
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/*
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* If any of the atomic or futex routines hit a bad address (not in
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* the page tables at kernel PL) this routine is called. The futex
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* routines are never used on kernel space, and the normal atomics and
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* bitops are never used on user space. So a fault on kernel space
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* must be fatal, but a fault on userspace is a futex fault and we
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* need to return -EFAULT. Note that the context this routine is
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* invoked in is the context of the "_atomic_xxx()" routines called
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* by the functions in this file.
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*/
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struct __get_user __atomic_bad_address(int __user *addr)
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{
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if (unlikely(!access_ok(VERIFY_WRITE, addr, sizeof(int))))
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panic("Bad address used for kernel atomic op: %p\n", addr);
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return (struct __get_user) { .err = -EFAULT };
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}
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#if CHIP_HAS_CBOX_HOME_MAP()
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static int __init noatomichash(char *str)
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{
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pr_warning("noatomichash is deprecated.\n");
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return 1;
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}
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__setup("noatomichash", noatomichash);
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#endif
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void __init __init_atomic_per_cpu(void)
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{
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#if ATOMIC_LOCKS_FOUND_VIA_TABLE()
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unsigned int i;
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int actual_cpu;
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/*
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* Before this is called from setup, we just have one lock for
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* all atomic objects/operations. Here we replace the
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* elements of atomic_lock_ptr so that they point at per_cpu
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* integers. This seemingly over-complex approach stems from
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* the fact that DEFINE_PER_CPU defines an entry for each cpu
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* in the grid, not each cpu from 0..ATOMIC_HASH_SIZE-1. But
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* for efficient hashing of atomics to their locks we want a
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* compile time constant power of 2 for the size of this
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* table, so we use ATOMIC_HASH_SIZE.
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*
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* Here we populate atomic_lock_ptr from the per cpu
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* atomic_lock_pool, interspersing by actual cpu so that
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* subsequent elements are homed on consecutive cpus.
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*/
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actual_cpu = cpumask_first(cpu_possible_mask);
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for (i = 0; i < ATOMIC_HASH_L1_SIZE; ++i) {
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/*
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* Preincrement to slightly bias against using cpu 0,
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* which has plenty of stuff homed on it already.
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*/
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actual_cpu = cpumask_next(actual_cpu, cpu_possible_mask);
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if (actual_cpu >= nr_cpu_ids)
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actual_cpu = cpumask_first(cpu_possible_mask);
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atomic_lock_ptr[i] = &per_cpu(atomic_lock_pool, actual_cpu);
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}
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#else /* ATOMIC_LOCKS_FOUND_VIA_TABLE() */
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/* Validate power-of-two and "bigger than cpus" assumption */
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BUILD_BUG_ON(ATOMIC_HASH_SIZE & (ATOMIC_HASH_SIZE-1));
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BUG_ON(ATOMIC_HASH_SIZE < nr_cpu_ids);
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/*
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* On TILEPro we prefer to use a single hash-for-home
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* page, since this means atomic operations are less
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* likely to encounter a TLB fault and thus should
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* in general perform faster. You may wish to disable
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* this in situations where few hash-for-home tiles
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* are configured.
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*/
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BUG_ON((unsigned long)atomic_locks % PAGE_SIZE != 0);
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/* The locks must all fit on one page. */
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BUILD_BUG_ON(ATOMIC_HASH_SIZE * sizeof(int) > PAGE_SIZE);
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/*
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* We use the page offset of the atomic value's address as
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* an index into atomic_locks, excluding the low 3 bits.
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* That should not produce more indices than ATOMIC_HASH_SIZE.
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*/
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BUILD_BUG_ON((PAGE_SIZE >> 3) > ATOMIC_HASH_SIZE);
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#endif /* ATOMIC_LOCKS_FOUND_VIA_TABLE() */
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}
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