289 lines
7.2 KiB
C
289 lines
7.2 KiB
C
/*
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* Copyright (c) 2016 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 @brief mutex kernel services
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*
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* This module contains routines for handling mutex locking and unlocking.
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*
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* Mutexes implement a priority inheritance algorithm that boosts the priority
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* level of the owning thread to match the priority level of the highest
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* priority thread waiting on the mutex.
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*
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* Each mutex that contributes to priority inheritance must be released in the
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* reverse order in which it was acquired. Furthermore each subsequent mutex
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* that contributes to raising the owning thread's priority level must be
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* acquired at a point after the most recent "bumping" of the priority level.
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*
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* For example, if thread A has two mutexes contributing to the raising of its
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* priority level, the second mutex M2 must be acquired by thread A after
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* thread A's priority level was bumped due to owning the first mutex M1.
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* When releasing the mutex, thread A must release M2 before it releases M1.
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* Failure to follow this nested model may result in threads running at
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* unexpected priority levels (too high, or too low).
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*/
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#include <kernel.h>
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#include <kernel_structs.h>
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#include <toolchain.h>
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#include <linker/sections.h>
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#include <ksched.h>
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#include <wait_q.h>
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#include <sys/dlist.h>
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#include <debug/object_tracing_common.h>
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#include <errno.h>
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#include <init.h>
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#include <syscall_handler.h>
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#include <tracing/tracing.h>
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#include <sys/check.h>
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/* We use a global spinlock here because some of the synchronization
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* is protecting things like owner thread priorities which aren't
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* "part of" a single k_mutex. Should move those bits of the API
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* under the scheduler lock so we can break this up.
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*/
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static struct k_spinlock lock;
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#ifdef CONFIG_OBJECT_TRACING
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struct k_mutex *_trace_list_k_mutex;
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/*
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* Complete initialization of statically defined mutexes.
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*/
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static int init_mutex_module(struct device *dev)
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{
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ARG_UNUSED(dev);
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Z_STRUCT_SECTION_FOREACH(k_mutex, mutex) {
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SYS_TRACING_OBJ_INIT(k_mutex, mutex);
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}
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return 0;
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}
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SYS_INIT(init_mutex_module, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);
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#endif /* CONFIG_OBJECT_TRACING */
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int z_impl_k_mutex_init(struct k_mutex *mutex)
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{
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mutex->owner = NULL;
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mutex->lock_count = 0U;
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sys_trace_void(SYS_TRACE_ID_MUTEX_INIT);
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z_waitq_init(&mutex->wait_q);
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SYS_TRACING_OBJ_INIT(k_mutex, mutex);
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z_object_init(mutex);
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sys_trace_end_call(SYS_TRACE_ID_MUTEX_INIT);
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return 0;
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}
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#ifdef CONFIG_USERSPACE
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static inline int z_vrfy_k_mutex_init(struct k_mutex *mutex)
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{
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Z_OOPS(Z_SYSCALL_OBJ_INIT(mutex, K_OBJ_MUTEX));
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return z_impl_k_mutex_init(mutex);
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}
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#include <syscalls/k_mutex_init_mrsh.c>
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#endif
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static s32_t new_prio_for_inheritance(s32_t target, s32_t limit)
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{
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int new_prio = z_is_prio_higher(target, limit) ? target : limit;
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new_prio = z_get_new_prio_with_ceiling(new_prio);
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return new_prio;
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}
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static bool adjust_owner_prio(struct k_mutex *mutex, s32_t new_prio)
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{
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if (mutex->owner->base.prio != new_prio) {
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K_DEBUG("%p (ready (y/n): %c) prio changed to %d (was %d)\n",
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mutex->owner, z_is_thread_ready(mutex->owner) ?
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'y' : 'n',
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new_prio, mutex->owner->base.prio);
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return z_set_prio(mutex->owner, new_prio);
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}
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return false;
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}
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int z_impl_k_mutex_lock(struct k_mutex *mutex, k_timeout_t timeout)
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{
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int new_prio;
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k_spinlock_key_t key;
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bool resched = false;
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sys_trace_void(SYS_TRACE_ID_MUTEX_LOCK);
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key = k_spin_lock(&lock);
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if (likely((mutex->lock_count == 0U) || (mutex->owner == _current))) {
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mutex->owner_orig_prio = (mutex->lock_count == 0U) ?
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_current->base.prio :
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mutex->owner_orig_prio;
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mutex->lock_count++;
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mutex->owner = _current;
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K_DEBUG("%p took mutex %p, count: %d, orig prio: %d\n",
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_current, mutex, mutex->lock_count,
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mutex->owner_orig_prio);
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k_spin_unlock(&lock, key);
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sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK);
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return 0;
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}
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if (unlikely(K_TIMEOUT_EQ(timeout, K_NO_WAIT))) {
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k_spin_unlock(&lock, key);
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sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK);
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return -EBUSY;
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}
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new_prio = new_prio_for_inheritance(_current->base.prio,
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mutex->owner->base.prio);
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K_DEBUG("adjusting prio up on mutex %p\n", mutex);
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if (z_is_prio_higher(new_prio, mutex->owner->base.prio)) {
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resched = adjust_owner_prio(mutex, new_prio);
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}
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int got_mutex = z_pend_curr(&lock, key, &mutex->wait_q, timeout);
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K_DEBUG("on mutex %p got_mutex value: %d\n", mutex, got_mutex);
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K_DEBUG("%p got mutex %p (y/n): %c\n", _current, mutex,
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got_mutex ? 'y' : 'n');
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if (got_mutex == 0) {
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sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK);
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return 0;
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}
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/* timed out */
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K_DEBUG("%p timeout on mutex %p\n", _current, mutex);
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key = k_spin_lock(&lock);
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struct k_thread *waiter = z_waitq_head(&mutex->wait_q);
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new_prio = (waiter != NULL) ?
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new_prio_for_inheritance(waiter->base.prio, mutex->owner_orig_prio) :
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mutex->owner_orig_prio;
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K_DEBUG("adjusting prio down on mutex %p\n", mutex);
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resched = adjust_owner_prio(mutex, new_prio) || resched;
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if (resched) {
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z_reschedule(&lock, key);
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} else {
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k_spin_unlock(&lock, key);
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}
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sys_trace_end_call(SYS_TRACE_ID_MUTEX_LOCK);
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return -EAGAIN;
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}
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#ifdef CONFIG_USERSPACE
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static inline int z_vrfy_k_mutex_lock(struct k_mutex *mutex,
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k_timeout_t timeout)
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{
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Z_OOPS(Z_SYSCALL_OBJ(mutex, K_OBJ_MUTEX));
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return z_impl_k_mutex_lock(mutex, timeout);
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}
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#include <syscalls/k_mutex_lock_mrsh.c>
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#endif
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int z_impl_k_mutex_unlock(struct k_mutex *mutex)
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{
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struct k_thread *new_owner;
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CHECKIF(mutex->owner == NULL) {
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return -EINVAL;
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}
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/*
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* The current thread does not own the mutex.
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*/
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CHECKIF(mutex->owner != _current) {
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return -EPERM;
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}
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/*
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* Attempt to unlock a mutex which is unlocked. mutex->lock_count
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* cannot be zero if the current thread is equal to mutex->owner,
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* therefore no underflow check is required. Use assert to catch
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* undefined behavior.
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*/
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__ASSERT_NO_MSG(mutex->lock_count > 0U);
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sys_trace_void(SYS_TRACE_ID_MUTEX_UNLOCK);
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z_sched_lock();
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K_DEBUG("mutex %p lock_count: %d\n", mutex, mutex->lock_count);
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/*
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* If we are the owner and count is greater than 1, then decrement
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* the count and return and keep current thread as the owner.
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*/
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if (mutex->lock_count - 1U != 0U) {
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mutex->lock_count--;
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goto k_mutex_unlock_return;
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}
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k_spinlock_key_t key = k_spin_lock(&lock);
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adjust_owner_prio(mutex, mutex->owner_orig_prio);
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/* Get the new owner, if any */
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new_owner = z_unpend_first_thread(&mutex->wait_q);
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mutex->owner = new_owner;
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K_DEBUG("new owner of mutex %p: %p (prio: %d)\n",
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mutex, new_owner, new_owner ? new_owner->base.prio : -1000);
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if (new_owner != NULL) {
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/*
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* new owner is already of higher or equal prio than first
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* waiter since the wait queue is priority-based: no need to
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* ajust its priority
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*/
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mutex->owner_orig_prio = new_owner->base.prio;
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arch_thread_return_value_set(new_owner, 0);
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z_ready_thread(new_owner);
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z_reschedule(&lock, key);
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} else {
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mutex->lock_count = 0U;
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k_spin_unlock(&lock, key);
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}
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k_mutex_unlock_return:
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k_sched_unlock();
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sys_trace_end_call(SYS_TRACE_ID_MUTEX_UNLOCK);
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return 0;
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}
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#ifdef CONFIG_USERSPACE
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static inline int z_vrfy_k_mutex_unlock(struct k_mutex *mutex)
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{
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Z_OOPS(Z_SYSCALL_OBJ(mutex, K_OBJ_MUTEX));
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return z_impl_k_mutex_unlock(mutex);
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}
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#include <syscalls/k_mutex_unlock_mrsh.c>
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#endif
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