481 lines
12 KiB
C
481 lines
12 KiB
C
/*
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* Copyright (c) 2010-2016 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
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*
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* @brief dynamic-size QUEUE object.
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*/
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#include <zephyr/kernel.h>
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#include <zephyr/kernel_structs.h>
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#include <zephyr/toolchain.h>
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#include <wait_q.h>
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#include <ksched.h>
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#include <zephyr/init.h>
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#include <zephyr/internal/syscall_handler.h>
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#include <kernel_internal.h>
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#include <zephyr/sys/check.h>
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struct alloc_node {
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sys_sfnode_t node;
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void *data;
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};
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void *z_queue_node_peek(sys_sfnode_t *node, bool needs_free)
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{
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void *ret;
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if ((node != NULL) && (sys_sfnode_flags_get(node) != (uint8_t)0)) {
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/* If the flag is set, then the enqueue operation for this item
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* did a behind-the scenes memory allocation of an alloc_node
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* struct, which is what got put in the queue. Free it and pass
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* back the data pointer.
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*/
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struct alloc_node *anode;
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anode = CONTAINER_OF(node, struct alloc_node, node);
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ret = anode->data;
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if (needs_free) {
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k_free(anode);
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}
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} else {
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/* Data was directly placed in the queue, the first word
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* reserved for the linked list. User mode isn't allowed to
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* do this, although it can get data sent this way.
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*/
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ret = (void *)node;
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}
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return ret;
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}
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void z_impl_k_queue_init(struct k_queue *queue)
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{
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sys_sflist_init(&queue->data_q);
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queue->lock = (struct k_spinlock) {};
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z_waitq_init(&queue->wait_q);
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#if defined(CONFIG_POLL)
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sys_dlist_init(&queue->poll_events);
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#endif
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SYS_PORT_TRACING_OBJ_INIT(k_queue, queue);
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k_object_init(queue);
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}
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#ifdef CONFIG_USERSPACE
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static inline void z_vrfy_k_queue_init(struct k_queue *queue)
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{
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K_OOPS(K_SYSCALL_OBJ_NEVER_INIT(queue, K_OBJ_QUEUE));
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z_impl_k_queue_init(queue);
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}
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#include <syscalls/k_queue_init_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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static void prepare_thread_to_run(struct k_thread *thread, void *data)
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{
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z_thread_return_value_set_with_data(thread, 0, data);
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z_ready_thread(thread);
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}
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static inline void handle_poll_events(struct k_queue *queue, uint32_t state)
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{
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#ifdef CONFIG_POLL
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z_handle_obj_poll_events(&queue->poll_events, state);
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#else
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ARG_UNUSED(queue);
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ARG_UNUSED(state);
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#endif /* CONFIG_POLL */
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}
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void z_impl_k_queue_cancel_wait(struct k_queue *queue)
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{
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SYS_PORT_TRACING_OBJ_FUNC(k_queue, cancel_wait, queue);
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k_spinlock_key_t key = k_spin_lock(&queue->lock);
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struct k_thread *first_pending_thread;
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first_pending_thread = z_unpend_first_thread(&queue->wait_q);
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if (first_pending_thread != NULL) {
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prepare_thread_to_run(first_pending_thread, NULL);
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}
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handle_poll_events(queue, K_POLL_STATE_CANCELLED);
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z_reschedule(&queue->lock, key);
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}
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#ifdef CONFIG_USERSPACE
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static inline void z_vrfy_k_queue_cancel_wait(struct k_queue *queue)
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{
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K_OOPS(K_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
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z_impl_k_queue_cancel_wait(queue);
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}
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#include <syscalls/k_queue_cancel_wait_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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static int32_t queue_insert(struct k_queue *queue, void *prev, void *data,
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bool alloc, bool is_append)
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{
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struct k_thread *first_pending_thread;
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k_spinlock_key_t key = k_spin_lock(&queue->lock);
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, queue_insert, queue, alloc);
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if (is_append) {
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prev = sys_sflist_peek_tail(&queue->data_q);
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}
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first_pending_thread = z_unpend_first_thread(&queue->wait_q);
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if (first_pending_thread != NULL) {
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SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_queue, queue_insert, queue, alloc, K_FOREVER);
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prepare_thread_to_run(first_pending_thread, data);
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z_reschedule(&queue->lock, key);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, queue_insert, queue, alloc, 0);
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return 0;
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}
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/* Only need to actually allocate if no threads are pending */
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if (alloc) {
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struct alloc_node *anode;
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anode = z_thread_malloc(sizeof(*anode));
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if (anode == NULL) {
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k_spin_unlock(&queue->lock, key);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, queue_insert, queue, alloc,
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-ENOMEM);
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return -ENOMEM;
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}
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anode->data = data;
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sys_sfnode_init(&anode->node, 0x1);
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data = anode;
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} else {
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sys_sfnode_init(data, 0x0);
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}
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SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_queue, queue_insert, queue, alloc, K_FOREVER);
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sys_sflist_insert(&queue->data_q, prev, data);
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handle_poll_events(queue, K_POLL_STATE_DATA_AVAILABLE);
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z_reschedule(&queue->lock, key);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, queue_insert, queue, alloc, 0);
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return 0;
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}
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void k_queue_insert(struct k_queue *queue, void *prev, void *data)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, insert, queue);
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(void)queue_insert(queue, prev, data, false, false);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, insert, queue);
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}
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void k_queue_append(struct k_queue *queue, void *data)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, append, queue);
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(void)queue_insert(queue, NULL, data, false, true);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, append, queue);
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}
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void k_queue_prepend(struct k_queue *queue, void *data)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, prepend, queue);
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(void)queue_insert(queue, NULL, data, false, false);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, prepend, queue);
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}
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int32_t z_impl_k_queue_alloc_append(struct k_queue *queue, void *data)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, alloc_append, queue);
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int32_t ret = queue_insert(queue, NULL, data, true, true);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, alloc_append, queue, ret);
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return ret;
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}
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#ifdef CONFIG_USERSPACE
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static inline int32_t z_vrfy_k_queue_alloc_append(struct k_queue *queue,
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void *data)
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{
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K_OOPS(K_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
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return z_impl_k_queue_alloc_append(queue, data);
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}
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#include <syscalls/k_queue_alloc_append_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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int32_t z_impl_k_queue_alloc_prepend(struct k_queue *queue, void *data)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, alloc_prepend, queue);
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int32_t ret = queue_insert(queue, NULL, data, true, false);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, alloc_prepend, queue, ret);
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return ret;
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}
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#ifdef CONFIG_USERSPACE
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static inline int32_t z_vrfy_k_queue_alloc_prepend(struct k_queue *queue,
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void *data)
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{
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K_OOPS(K_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
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return z_impl_k_queue_alloc_prepend(queue, data);
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}
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#include <syscalls/k_queue_alloc_prepend_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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int k_queue_append_list(struct k_queue *queue, void *head, void *tail)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, append_list, queue);
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/* invalid head or tail of list */
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CHECKIF(head == NULL || tail == NULL) {
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, append_list, queue, -EINVAL);
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return -EINVAL;
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}
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k_spinlock_key_t key = k_spin_lock(&queue->lock);
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struct k_thread *thread = NULL;
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if (head != NULL) {
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thread = z_unpend_first_thread(&queue->wait_q);
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}
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while ((head != NULL) && (thread != NULL)) {
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prepare_thread_to_run(thread, head);
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head = *(void **)head;
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thread = z_unpend_first_thread(&queue->wait_q);
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}
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if (head != NULL) {
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sys_sflist_append_list(&queue->data_q, head, tail);
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}
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, append_list, queue, 0);
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handle_poll_events(queue, K_POLL_STATE_DATA_AVAILABLE);
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z_reschedule(&queue->lock, key);
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return 0;
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}
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int k_queue_merge_slist(struct k_queue *queue, sys_slist_t *list)
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{
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int ret;
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, merge_slist, queue);
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/* list must not be empty */
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CHECKIF(sys_slist_is_empty(list)) {
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, merge_slist, queue, -EINVAL);
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return -EINVAL;
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}
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/*
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* note: this works as long as:
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* - the slist implementation keeps the next pointer as the first
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* field of the node object type
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* - list->tail->next = NULL.
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* - sflist implementation only differs from slist by stuffing
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* flag bytes in the lower order bits of the data pointer
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* - source list is really an slist and not an sflist with flags set
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*/
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ret = k_queue_append_list(queue, list->head, list->tail);
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CHECKIF(ret != 0) {
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, merge_slist, queue, ret);
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return ret;
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}
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sys_slist_init(list);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, merge_slist, queue, 0);
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return 0;
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}
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void *z_impl_k_queue_get(struct k_queue *queue, k_timeout_t timeout)
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{
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k_spinlock_key_t key = k_spin_lock(&queue->lock);
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void *data;
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, get, queue, timeout);
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if (likely(!sys_sflist_is_empty(&queue->data_q))) {
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sys_sfnode_t *node;
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node = sys_sflist_get_not_empty(&queue->data_q);
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data = z_queue_node_peek(node, true);
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k_spin_unlock(&queue->lock, key);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, get, queue, timeout, data);
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return data;
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}
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SYS_PORT_TRACING_OBJ_FUNC_BLOCKING(k_queue, get, queue, timeout);
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if (K_TIMEOUT_EQ(timeout, K_NO_WAIT)) {
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k_spin_unlock(&queue->lock, key);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, get, queue, timeout, NULL);
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return NULL;
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}
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int ret = z_pend_curr(&queue->lock, key, &queue->wait_q, timeout);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, get, queue, timeout,
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(ret != 0) ? NULL : _current->base.swap_data);
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return (ret != 0) ? NULL : _current->base.swap_data;
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}
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bool k_queue_remove(struct k_queue *queue, void *data)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, remove, queue);
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bool ret = sys_sflist_find_and_remove(&queue->data_q, (sys_sfnode_t *)data);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, remove, queue, ret);
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return ret;
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}
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bool k_queue_unique_append(struct k_queue *queue, void *data)
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{
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SYS_PORT_TRACING_OBJ_FUNC_ENTER(k_queue, unique_append, queue);
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sys_sfnode_t *test;
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SYS_SFLIST_FOR_EACH_NODE(&queue->data_q, test) {
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if (test == (sys_sfnode_t *) data) {
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, unique_append, queue, false);
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return false;
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}
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}
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k_queue_append(queue, data);
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SYS_PORT_TRACING_OBJ_FUNC_EXIT(k_queue, unique_append, queue, true);
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return true;
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}
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void *z_impl_k_queue_peek_head(struct k_queue *queue)
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{
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void *ret = z_queue_node_peek(sys_sflist_peek_head(&queue->data_q), false);
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SYS_PORT_TRACING_OBJ_FUNC(k_queue, peek_head, queue, ret);
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return ret;
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}
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void *z_impl_k_queue_peek_tail(struct k_queue *queue)
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{
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void *ret = z_queue_node_peek(sys_sflist_peek_tail(&queue->data_q), false);
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SYS_PORT_TRACING_OBJ_FUNC(k_queue, peek_tail, queue, ret);
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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_k_queue_get(struct k_queue *queue,
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k_timeout_t timeout)
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{
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K_OOPS(K_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
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return z_impl_k_queue_get(queue, timeout);
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}
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#include <syscalls/k_queue_get_mrsh.c>
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static inline int z_vrfy_k_queue_is_empty(struct k_queue *queue)
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{
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K_OOPS(K_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
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return z_impl_k_queue_is_empty(queue);
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}
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#include <syscalls/k_queue_is_empty_mrsh.c>
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static inline void *z_vrfy_k_queue_peek_head(struct k_queue *queue)
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{
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K_OOPS(K_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
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return z_impl_k_queue_peek_head(queue);
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}
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#include <syscalls/k_queue_peek_head_mrsh.c>
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static inline void *z_vrfy_k_queue_peek_tail(struct k_queue *queue)
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{
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K_OOPS(K_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
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return z_impl_k_queue_peek_tail(queue);
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}
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#include <syscalls/k_queue_peek_tail_mrsh.c>
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#endif /* CONFIG_USERSPACE */
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#ifdef CONFIG_OBJ_CORE_FIFO
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struct k_obj_type _obj_type_fifo;
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static int init_fifo_obj_core_list(void)
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{
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/* Initialize fifo object type */
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z_obj_type_init(&_obj_type_fifo, K_OBJ_TYPE_FIFO_ID,
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offsetof(struct k_fifo, obj_core));
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/* Initialize and link statically defined fifos */
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STRUCT_SECTION_FOREACH(k_fifo, fifo) {
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k_obj_core_init_and_link(K_OBJ_CORE(fifo), &_obj_type_fifo);
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}
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return 0;
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}
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SYS_INIT(init_fifo_obj_core_list, PRE_KERNEL_1,
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CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);
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#endif /* CONFIG_OBJ_CORE_FIFO */
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#ifdef CONFIG_OBJ_CORE_LIFO
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struct k_obj_type _obj_type_lifo;
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static int init_lifo_obj_core_list(void)
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{
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/* Initialize lifo object type */
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z_obj_type_init(&_obj_type_lifo, K_OBJ_TYPE_LIFO_ID,
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offsetof(struct k_lifo, obj_core));
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/* Initialize and link statically defined lifo */
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STRUCT_SECTION_FOREACH(k_lifo, lifo) {
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k_obj_core_init_and_link(K_OBJ_CORE(lifo), &_obj_type_lifo);
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}
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return 0;
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}
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SYS_INIT(init_lifo_obj_core_list, PRE_KERNEL_1,
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CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);
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#endif /* CONFIG_OBJ_CORE_LIFO */
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