404 lines
9.5 KiB
C
404 lines
9.5 KiB
C
/*
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* Copyright (c) 2016 Intel Corporation
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* Copyright (c) 2011-2014 Wind River Systems, Inc.
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*
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* SPDX-License-Identifier: Apache-2.0
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*/
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/**
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* @file Atomic ops in pure C
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*
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* This module provides the atomic operators for processors
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* which do not support native atomic operations.
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*
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* The atomic operations are guaranteed to be atomic with respect
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* to interrupt service routines, and to operations performed by peer
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* processors.
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*
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* (originally from x86's atomic.c)
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*/
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#include <toolchain.h>
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#include <arch/cpu.h>
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#include <spinlock.h>
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#include <sys/atomic.h>
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#include <kernel_structs.h>
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/* Single global spinlock for atomic operations. This is fallback
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* code, not performance sensitive. At least by not using irq_lock()
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* in SMP contexts we won't content with legitimate users of the
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* global lock.
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*/
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static struct k_spinlock lock;
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/* For those rare CPUs which support user mode, but not native atomic
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* operations, the best we can do for them is implement the atomic
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* functions as system calls, since in user mode locking a spinlock is
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* forbidden.
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*/
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#ifdef CONFIG_USERSPACE
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#include <syscall_handler.h>
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#define ATOMIC_SYSCALL_HANDLER_TARGET(name) \
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static inline atomic_val_t z_vrfy_##name(atomic_t *target) \
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{ \
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Z_OOPS(Z_SYSCALL_MEMORY_WRITE(target, sizeof(atomic_t))); \
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return z_impl_##name((atomic_t *)target); \
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}
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#define ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(name) \
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static inline atomic_val_t z_vrfy_##name(atomic_t *target, \
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atomic_val_t value) \
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{ \
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Z_OOPS(Z_SYSCALL_MEMORY_WRITE(target, sizeof(atomic_t))); \
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return z_impl_##name((atomic_t *)target, value); \
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}
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#else
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#define ATOMIC_SYSCALL_HANDLER_TARGET(name)
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#define ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(name)
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#endif
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/**
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*
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* @brief Atomic compare-and-set primitive
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*
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* This routine provides the compare-and-set operator. If the original value at
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* <target> equals <oldValue>, then <newValue> is stored at <target> and the
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* function returns true.
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*
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* If the original value at <target> does not equal <oldValue>, then the store
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* is not done and the function returns false.
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*
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* The reading of the original value at <target>, the comparison,
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* and the write of the new value (if it occurs) all happen atomically with
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* respect to both interrupts and accesses of other processors to <target>.
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*
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* @param target address to be tested
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* @param old_value value to compare against
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* @param new_value value to compare against
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* @return Returns true if <new_value> is written, false otherwise.
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*/
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bool z_impl_atomic_cas(atomic_t *target, atomic_val_t old_value,
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atomic_val_t new_value)
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{
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k_spinlock_key_t key;
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int ret = false;
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key = k_spin_lock(&lock);
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if (*target == old_value) {
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*target = new_value;
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ret = true;
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}
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k_spin_unlock(&lock, key);
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return ret;
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}
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#ifdef CONFIG_USERSPACE
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bool z_vrfy_atomic_cas(atomic_t *target, atomic_val_t old_value,
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atomic_val_t new_value)
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{
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Z_OOPS(Z_SYSCALL_MEMORY_WRITE(target, sizeof(atomic_t)));
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return z_impl_atomic_cas((atomic_t *)target, old_value, new_value);
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}
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#include <syscalls/atomic_cas_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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bool z_impl_atomic_ptr_cas(atomic_ptr_t *target, void *old_value,
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void *new_value)
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{
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k_spinlock_key_t key;
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int ret = false;
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key = k_spin_lock(&lock);
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if (*target == old_value) {
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*target = new_value;
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ret = true;
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}
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k_spin_unlock(&lock, key);
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return ret;
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}
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#ifdef CONFIG_USERSPACE
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static inline bool z_vrfy_atomic_ptr_cas(atomic_ptr_t *target, void *old_value,
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void *new_value)
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{
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Z_OOPS(Z_SYSCALL_MEMORY_WRITE(target, sizeof(atomic_ptr_t)));
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return z_impl_atomic_ptr_cas(target, old_value, new_value);
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}
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#include <syscalls/atomic_ptr_cas_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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/**
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*
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* @brief Atomic addition primitive
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*
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* This routine provides the atomic addition operator. The <value> is
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* atomically added to the value at <target>, placing the result at <target>,
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* and the old value from <target> is returned.
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*
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* @param target memory location to add to
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* @param value the value to add
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*
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* @return The previous value from <target>
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*/
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atomic_val_t z_impl_atomic_add(atomic_t *target, atomic_val_t value)
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{
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k_spinlock_key_t key;
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atomic_val_t ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target += value;
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k_spin_unlock(&lock, key);
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return ret;
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}
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ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(atomic_add);
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/**
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*
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* @brief Atomic subtraction primitive
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*
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* This routine provides the atomic subtraction operator. The <value> is
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* atomically subtracted from the value at <target>, placing the result at
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* <target>, and the old value from <target> is returned.
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*
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* @param target the memory location to subtract from
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* @param value the value to subtract
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*
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* @return The previous value from <target>
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*/
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atomic_val_t z_impl_atomic_sub(atomic_t *target, atomic_val_t value)
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{
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k_spinlock_key_t key;
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atomic_val_t ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target -= value;
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k_spin_unlock(&lock, key);
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return ret;
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}
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ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(atomic_sub);
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/**
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*
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* @brief Atomic get primitive
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*
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* @param target memory location to read from
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*
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* This routine provides the atomic get primitive to atomically read
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* a value from <target>. It simply does an ordinary load. Note that <target>
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* is expected to be aligned to a 4-byte boundary.
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*
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* @return The value read from <target>
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*/
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atomic_val_t atomic_get(const atomic_t *target)
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{
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return *target;
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}
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void *atomic_ptr_get(const atomic_ptr_t *target)
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{
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return *target;
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}
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/**
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*
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* @brief Atomic get-and-set primitive
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*
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* This routine provides the atomic set operator. The <value> is atomically
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* written at <target> and the previous value at <target> is returned.
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*
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* @param target the memory location to write to
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* @param value the value to write
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*
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* @return The previous value from <target>
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*/
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atomic_val_t z_impl_atomic_set(atomic_t *target, atomic_val_t value)
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{
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k_spinlock_key_t key;
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atomic_val_t ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target = value;
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k_spin_unlock(&lock, key);
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return ret;
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}
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ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(atomic_set);
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void *z_impl_atomic_ptr_set(atomic_ptr_t *target, void *value)
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{
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k_spinlock_key_t key;
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void *ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target = value;
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k_spin_unlock(&lock, key);
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return ret;
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}
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#ifdef CONFIG_USERSPACE
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static inline void *z_vrfy_atomic_ptr_set(atomic_ptr_t *target, void *value)
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{
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Z_OOPS(Z_SYSCALL_MEMORY_WRITE(target, sizeof(atomic_ptr_t)));
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return z_impl_atomic_ptr_set(target, value);
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}
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#include <syscalls/atomic_ptr_set_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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/**
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*
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* @brief Atomic bitwise inclusive OR primitive
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*
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* This routine provides the atomic bitwise inclusive OR operator. The <value>
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* is atomically bitwise OR'ed with the value at <target>, placing the result
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* at <target>, and the previous value at <target> is returned.
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*
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* @param target the memory location to be modified
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* @param value the value to OR
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*
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* @return The previous value from <target>
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*/
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atomic_val_t z_impl_atomic_or(atomic_t *target, atomic_val_t value)
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{
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k_spinlock_key_t key;
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atomic_val_t ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target |= value;
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k_spin_unlock(&lock, key);
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return ret;
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}
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ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(atomic_or);
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/**
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*
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* @brief Atomic bitwise exclusive OR (XOR) primitive
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*
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* This routine provides the atomic bitwise exclusive OR operator. The <value>
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* is atomically bitwise XOR'ed with the value at <target>, placing the result
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* at <target>, and the previous value at <target> is returned.
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*
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* @param target the memory location to be modified
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* @param value the value to XOR
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*
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* @return The previous value from <target>
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*/
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atomic_val_t z_impl_atomic_xor(atomic_t *target, atomic_val_t value)
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{
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k_spinlock_key_t key;
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atomic_val_t ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target ^= value;
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k_spin_unlock(&lock, key);
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return ret;
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}
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ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(atomic_xor);
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/**
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*
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* @brief Atomic bitwise AND primitive
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*
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* This routine provides the atomic bitwise AND operator. The <value> is
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* atomically bitwise AND'ed with the value at <target>, placing the result
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* at <target>, and the previous value at <target> is returned.
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*
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* @param target the memory location to be modified
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* @param value the value to AND
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*
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* @return The previous value from <target>
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*/
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atomic_val_t z_impl_atomic_and(atomic_t *target, atomic_val_t value)
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{
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k_spinlock_key_t key;
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atomic_val_t ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target &= value;
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k_spin_unlock(&lock, key);
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return ret;
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}
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ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(atomic_and);
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/**
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*
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* @brief Atomic bitwise NAND primitive
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*
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* This routine provides the atomic bitwise NAND operator. The <value> is
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* atomically bitwise NAND'ed with the value at <target>, placing the result
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* at <target>, and the previous value at <target> is returned.
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*
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* @param target the memory location to be modified
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* @param value the value to NAND
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*
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* @return The previous value from <target>
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*/
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atomic_val_t z_impl_atomic_nand(atomic_t *target, atomic_val_t value)
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{
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k_spinlock_key_t key;
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atomic_val_t ret;
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key = k_spin_lock(&lock);
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ret = *target;
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*target = ~(*target & value);
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k_spin_unlock(&lock, key);
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return ret;
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}
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ATOMIC_SYSCALL_HANDLER_TARGET_VALUE(atomic_nand);
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#ifdef CONFIG_USERSPACE
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#include <syscalls/atomic_add_mrsh.c>
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#include <syscalls/atomic_sub_mrsh.c>
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#include <syscalls/atomic_set_mrsh.c>
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#include <syscalls/atomic_or_mrsh.c>
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#include <syscalls/atomic_xor_mrsh.c>
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#include <syscalls/atomic_and_mrsh.c>
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#include <syscalls/atomic_nand_mrsh.c>
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#endif
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