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rt-thread-official/src/cpu_mp.c

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/*
* Copyright (c) 2006-2023, RT-Thread Development Team
*
* SPDX-License-Identifier: Apache-2.0
*
* Change Logs:
* Date Author Notes
* 2018-10-30 Bernard The first version
* 2023-09-15 xqyjlj perf rt_hw_interrupt_disable/enable
* 2023-12-10 xqyjlj spinlock should lock sched
* 2024-01-25 Shell Using rt_exit_critical_safe
*/
#include <rthw.h>
#include <rtthread.h>
#ifdef RT_USING_SMART
#include <lwp.h>
#endif
#ifdef RT_USING_DEBUG
rt_base_t _cpus_critical_level;
#endif /* RT_USING_DEBUG */
static struct rt_cpu _cpus[RT_CPUS_NR];
rt_hw_spinlock_t _cpus_lock;
#if defined(RT_DEBUGING_SPINLOCK)
void *_cpus_lock_owner = 0;
void *_cpus_lock_pc = 0;
#endif /* RT_DEBUGING_SPINLOCK */
/**
* @brief Initialize a static spinlock object.
*
* @param lock is a pointer to the spinlock to initialize.
*/
void rt_spin_lock_init(struct rt_spinlock *lock)
{
rt_hw_spin_lock_init(&lock->lock);
}
RTM_EXPORT(rt_spin_lock_init)
/**
* @brief This function will lock the spinlock, will lock the thread scheduler.
*
* @note If the spinlock is locked, the current CPU will keep polling the spinlock state
* until the spinlock is unlocked.
*
* @param lock is a pointer to the spinlock.
*/
void rt_spin_lock(struct rt_spinlock *lock)
{
rt_enter_critical();
rt_hw_spin_lock(&lock->lock);
RT_SPIN_LOCK_DEBUG(lock);
}
RTM_EXPORT(rt_spin_lock)
/**
* @brief This function will unlock the spinlock, will unlock the thread scheduler.
*
* @param lock is a pointer to the spinlock.
*/
void rt_spin_unlock(struct rt_spinlock *lock)
{
rt_base_t critical_level;
RT_SPIN_UNLOCK_DEBUG(lock, critical_level);
rt_hw_spin_unlock(&lock->lock);
rt_exit_critical_safe(critical_level);
}
RTM_EXPORT(rt_spin_unlock)
/**
* @brief This function will disable the local interrupt and then lock the spinlock, will lock the thread scheduler.
*
* @note If the spinlock is locked, the current CPU will keep polling the spinlock state
* until the spinlock is unlocked.
*
* @param lock is a pointer to the spinlock.
*
* @return Return current cpu interrupt status.
*/
rt_base_t rt_spin_lock_irqsave(struct rt_spinlock *lock)
{
rt_base_t level;
level = rt_hw_local_irq_disable();
rt_enter_critical();
rt_hw_spin_lock(&lock->lock);
RT_SPIN_LOCK_DEBUG(lock);
return level;
}
RTM_EXPORT(rt_spin_lock_irqsave)
/**
* @brief This function will unlock the spinlock and then restore current cpu interrupt status, will unlock the thread scheduler.
*
* @param lock is a pointer to the spinlock.
*
* @param level is interrupt status returned by rt_spin_lock_irqsave().
*/
void rt_spin_unlock_irqrestore(struct rt_spinlock *lock, rt_base_t level)
{
rt_base_t critical_level;
RT_SPIN_UNLOCK_DEBUG(lock, critical_level);
rt_hw_spin_unlock(&lock->lock);
rt_exit_critical_safe(critical_level);
rt_hw_local_irq_enable(level);
}
RTM_EXPORT(rt_spin_unlock_irqrestore)
/**
* @brief This fucntion will return current cpu object.
*
* @return Return a pointer to the current cpu object.
*/
struct rt_cpu *rt_cpu_self(void)
{
return &_cpus[rt_hw_cpu_id()];
}
/**
* @brief This fucntion will return the cpu object corresponding to index.
*
* @param index is the index of target cpu object.
*
* @return Return a pointer to the cpu object corresponding to index.
*/
struct rt_cpu *rt_cpu_index(int index)
{
return &_cpus[index];
}
/**
* @brief This function will lock all cpus's scheduler and disable local irq.
*
* @return Return current cpu interrupt status.
*/
rt_base_t rt_cpus_lock(void)
{
rt_base_t level;
struct rt_cpu* pcpu;
level = rt_hw_local_irq_disable();
pcpu = rt_cpu_self();
if (pcpu->current_thread != RT_NULL)
{
rt_ubase_t lock_nest = rt_atomic_load(&(pcpu->current_thread->cpus_lock_nest));
rt_atomic_add(&(pcpu->current_thread->cpus_lock_nest), 1);
if (lock_nest == 0)
{
rt_enter_critical();
rt_hw_spin_lock(&_cpus_lock);
#ifdef RT_USING_DEBUG
_cpus_critical_level = rt_critical_level();
#endif /* RT_USING_DEBUG */
#ifdef RT_DEBUGING_SPINLOCK
_cpus_lock_owner = pcpu->current_thread;
_cpus_lock_pc = __GET_RETURN_ADDRESS;
#endif /* RT_DEBUGING_SPINLOCK */
}
}
return level;
}
RTM_EXPORT(rt_cpus_lock);
/**
* @brief This function will restore all cpus's scheduler and restore local irq.
*
* @param level is interrupt status returned by rt_cpus_lock().
*/
void rt_cpus_unlock(rt_base_t level)
{
struct rt_cpu* pcpu = rt_cpu_self();
if (pcpu->current_thread != RT_NULL)
{
rt_base_t critical_level = 0;
RT_ASSERT(rt_atomic_load(&(pcpu->current_thread->cpus_lock_nest)) > 0);
rt_atomic_sub(&(pcpu->current_thread->cpus_lock_nest), 1);
if (pcpu->current_thread->cpus_lock_nest == 0)
{
#if defined(RT_DEBUGING_SPINLOCK)
_cpus_lock_owner = __OWNER_MAGIC;
_cpus_lock_pc = RT_NULL;
#endif /* RT_DEBUGING_SPINLOCK */
#ifdef RT_USING_DEBUG
critical_level = _cpus_critical_level;
_cpus_critical_level = 0;
#endif /* RT_USING_DEBUG */
rt_hw_spin_unlock(&_cpus_lock);
rt_exit_critical_safe(critical_level);
}
}
rt_hw_local_irq_enable(level);
}
RTM_EXPORT(rt_cpus_unlock);
/**
* This function is invoked by scheduler.
* It will restore the lock state to whatever the thread's counter expects.
* If target thread not locked the cpus then unlock the cpus lock.
*
* @param thread is a pointer to the target thread.
*/
void rt_cpus_lock_status_restore(struct rt_thread *thread)
{
#if defined(ARCH_MM_MMU) && defined(RT_USING_SMART)
lwp_aspace_switch(thread);
#endif
rt_sched_post_ctx_switch(thread);
}
RTM_EXPORT(rt_cpus_lock_status_restore);
/* A safe API with debugging feature to be called in most codes */
#undef rt_cpu_get_id
/**
* @brief Get logical CPU ID
*
* @return logical CPU ID
*/
rt_base_t rt_cpu_get_id(void)
{
RT_ASSERT(rt_sched_thread_is_binding(RT_NULL) ||
rt_hw_interrupt_is_disabled() ||
!rt_scheduler_is_available());
return rt_hw_cpu_id();
}
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