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zephyr/kernel/queue.c
Patrik Flykt 4344e27c26 all: Update reserved function names 
Update reserved function names starting with one underscore, replacing
them as follows:
   '_k_' with 'z_'
   '_K_' with 'Z_'
   '_handler_' with 'z_handl_'
   '_Cstart' with 'z_cstart'
   '_Swap' with 'z_swap'

This renaming is done on both global and those static function names
in kernel/include and include/. Other static function names in kernel/
are renamed by removing the leading underscore. Other function names
not starting with any prefix listed above are renamed starting with
a 'z_' or 'Z_' prefix.

Function names starting with two or three leading underscores are not
automatcally renamed since these names will collide with the variants
with two or three leading underscores.

Various generator scripts have also been updated as well as perf,
linker and usb files. These are
   drivers/serial/uart_handlers.c
   include/linker/kobject-text.ld
   kernel/include/syscall_handler.h
   scripts/gen_kobject_list.py
   scripts/gen_syscall_header.py

Signed-off-by: Patrik Flykt <patrik.flykt@intel.com>
2019-03-11 13:48:42 -04:00

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/*
* Copyright (c) 2010-2016 Wind River Systems, Inc.
*
* SPDX-License-Identifier: Apache-2.0
*/
/**
* @file
*
* @brief dynamic-size QUEUE object.
*/
#include <kernel.h>
#include <kernel_structs.h>
#include <debug/object_tracing_common.h>
#include <toolchain.h>
#include <linker/sections.h>
#include <wait_q.h>
#include <ksched.h>
#include <misc/sflist.h>
#include <init.h>
#include <syscall_handler.h>
#include <kernel_internal.h>
extern struct k_queue _k_queue_list_start[];
extern struct k_queue _k_queue_list_end[];
struct alloc_node {
sys_sfnode_t node;
void *data;
};
void *z_queue_node_peek(sys_sfnode_t *node, bool needs_free)
{
void *ret;
if ((node != NULL) && (sys_sfnode_flags_get(node) != (u8_t)0)) {
/* If the flag is set, then the enqueue operation for this item
* did a behind-the scenes memory allocation of an alloc_node
* struct, which is what got put in the queue. Free it and pass
* back the data pointer.
*/
struct alloc_node *anode;
anode = CONTAINER_OF(node, struct alloc_node, node);
ret = anode->data;
if (needs_free) {
k_free(anode);
}
} else {
/* Data was directly placed in the queue, the first 4 bytes
* reserved for the linked list. User mode isn't allowed to
* do this, although it can get data sent this way.
*/
ret = (void *)node;
}
return ret;
}
#ifdef CONFIG_OBJECT_TRACING
struct k_queue *_trace_list_k_queue;
/*
* Complete initialization of statically defined queues.
*/
static int init_queue_module(struct device *dev)
{
ARG_UNUSED(dev);
struct k_queue *queue;
for (queue = _k_queue_list_start; queue < _k_queue_list_end; queue++) {
SYS_TRACING_OBJ_INIT(k_queue, queue);
}
return 0;
}
SYS_INIT(init_queue_module, PRE_KERNEL_1, CONFIG_KERNEL_INIT_PRIORITY_OBJECTS);
#endif /* CONFIG_OBJECT_TRACING */
void z_impl_k_queue_init(struct k_queue *queue)
{
sys_sflist_init(&queue->data_q);
queue->lock = (struct k_spinlock) {};
z_waitq_init(&queue->wait_q);
#if defined(CONFIG_POLL)
sys_dlist_init(&queue->poll_events);
#endif
SYS_TRACING_OBJ_INIT(k_queue, queue);
z_object_init(queue);
}
#ifdef CONFIG_USERSPACE
Z_SYSCALL_HANDLER(k_queue_init, queue_ptr)
{
struct k_queue *queue = (struct k_queue *)queue_ptr;
Z_OOPS(Z_SYSCALL_OBJ_NEVER_INIT(queue, K_OBJ_QUEUE));
z_impl_k_queue_init(queue);
return 0;
}
#endif
#if !defined(CONFIG_POLL)
static void prepare_thread_to_run(struct k_thread *thread, void *data)
{
z_ready_thread(thread);
z_set_thread_return_value_with_data(thread, 0, data);
}
#endif /* CONFIG_POLL */
#ifdef CONFIG_POLL
static inline void handle_poll_events(struct k_queue *queue, u32_t state)
{
z_handle_obj_poll_events(&queue->poll_events, state);
}
#endif
void z_impl_k_queue_cancel_wait(struct k_queue *queue)
{
k_spinlock_key_t key = k_spin_lock(&queue->lock);
#if !defined(CONFIG_POLL)
struct k_thread *first_pending_thread;
first_pending_thread = z_unpend_first_thread(&queue->wait_q);
if (first_pending_thread != NULL) {
prepare_thread_to_run(first_pending_thread, NULL);
}
#else
handle_poll_events(queue, K_POLL_STATE_CANCELLED);
#endif /* !CONFIG_POLL */
z_reschedule(&queue->lock, key);
}
#ifdef CONFIG_USERSPACE
Z_SYSCALL_HANDLER1_SIMPLE_VOID(k_queue_cancel_wait, K_OBJ_QUEUE,
struct k_queue *);
#endif
static s32_t queue_insert(struct k_queue *queue, void *prev, void *data,
bool alloc)
{
k_spinlock_key_t key = k_spin_lock(&queue->lock);
#if !defined(CONFIG_POLL)
struct k_thread *first_pending_thread;
first_pending_thread = z_unpend_first_thread(&queue->wait_q);
if (first_pending_thread != NULL) {
prepare_thread_to_run(first_pending_thread, data);
z_reschedule(&queue->lock, key);
return 0;
}
#endif /* !CONFIG_POLL */
/* Only need to actually allocate if no threads are pending */
if (alloc) {
struct alloc_node *anode;
anode = z_thread_malloc(sizeof(*anode));
if (anode == NULL) {
k_spin_unlock(&queue->lock, key);
return -ENOMEM;
}
anode->data = data;
sys_sfnode_init(&anode->node, 0x1);
data = anode;
} else {
sys_sfnode_init(data, 0x0);
}
sys_sflist_insert(&queue->data_q, prev, data);
#if defined(CONFIG_POLL)
handle_poll_events(queue, K_POLL_STATE_DATA_AVAILABLE);
#endif /* CONFIG_POLL */
z_reschedule(&queue->lock, key);
return 0;
}
void k_queue_insert(struct k_queue *queue, void *prev, void *data)
{
(void)queue_insert(queue, prev, data, false);
}
void k_queue_append(struct k_queue *queue, void *data)
{
(void)queue_insert(queue, sys_sflist_peek_tail(&queue->data_q),
data, false);
}
void k_queue_prepend(struct k_queue *queue, void *data)
{
(void)queue_insert(queue, NULL, data, false);
}
s32_t z_impl_k_queue_alloc_append(struct k_queue *queue, void *data)
{
return queue_insert(queue, sys_sflist_peek_tail(&queue->data_q), data,
true);
}
#ifdef CONFIG_USERSPACE
Z_SYSCALL_HANDLER(k_queue_alloc_append, queue, data)
{
Z_OOPS(Z_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
return z_impl_k_queue_alloc_append((struct k_queue *)queue,
(void *)data);
}
#endif
s32_t z_impl_k_queue_alloc_prepend(struct k_queue *queue, void *data)
{
return queue_insert(queue, NULL, data, true);
}
#ifdef CONFIG_USERSPACE
Z_SYSCALL_HANDLER(k_queue_alloc_prepend, queue, data)
{
Z_OOPS(Z_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
return z_impl_k_queue_alloc_prepend((struct k_queue *)queue,
(void *)data);
}
#endif
void k_queue_append_list(struct k_queue *queue, void *head, void *tail)
{
__ASSERT(head && tail, "invalid head or tail");
k_spinlock_key_t key = k_spin_lock(&queue->lock);
#if !defined(CONFIG_POLL)
struct k_thread *thread = NULL;
if (head != NULL) {
thread = z_unpend_first_thread(&queue->wait_q);
}
while ((head != NULL) && (thread != NULL)) {
prepare_thread_to_run(thread, head);
head = *(void **)head;
thread = z_unpend_first_thread(&queue->wait_q);
}
if (head != NULL) {
sys_sflist_append_list(&queue->data_q, head, tail);
}
#else
sys_sflist_append_list(&queue->data_q, head, tail);
handle_poll_events(queue, K_POLL_STATE_DATA_AVAILABLE);
#endif /* !CONFIG_POLL */
z_reschedule(&queue->lock, key);
}
void k_queue_merge_slist(struct k_queue *queue, sys_slist_t *list)
{
__ASSERT(!sys_slist_is_empty(list), "list must not be empty");
/*
* note: this works as long as:
* - the slist implementation keeps the next pointer as the first
* field of the node object type
* - list->tail->next = NULL.
* - sflist implementation only differs from slist by stuffing
* flag bytes in the lower order bits of the data pointer
* - source list is really an slist and not an sflist with flags set
*/
k_queue_append_list(queue, list->head, list->tail);
sys_slist_init(list);
}
#if defined(CONFIG_POLL)
static void *k_queue_poll(struct k_queue *queue, s32_t timeout)
{
struct k_poll_event event;
int err, elapsed = 0, done = 0;
k_spinlock_key_t key;
void *val;
u32_t start;
k_poll_event_init(&event, K_POLL_TYPE_FIFO_DATA_AVAILABLE,
K_POLL_MODE_NOTIFY_ONLY, queue);
if (timeout != K_FOREVER) {
start = k_uptime_get_32();
}
do {
event.state = K_POLL_STATE_NOT_READY;
err = k_poll(&event, 1, timeout - elapsed);
if (err && err != -EAGAIN) {
return NULL;
}
key = k_spin_lock(&queue->lock);
val = z_queue_node_peek(sys_sflist_get(&queue->data_q), true);
k_spin_unlock(&queue->lock, key);
if ((val == NULL) && (timeout != K_FOREVER)) {
elapsed = k_uptime_get_32() - start;
done = elapsed > timeout;
}
} while (!val && !done);
return val;
}
#endif /* CONFIG_POLL */
void *z_impl_k_queue_get(struct k_queue *queue, s32_t timeout)
{
k_spinlock_key_t key = k_spin_lock(&queue->lock);
void *data;
if (likely(!sys_sflist_is_empty(&queue->data_q))) {
sys_sfnode_t *node;
node = sys_sflist_get_not_empty(&queue->data_q);
data = z_queue_node_peek(node, true);
k_spin_unlock(&queue->lock, key);
return data;
}
if (timeout == K_NO_WAIT) {
k_spin_unlock(&queue->lock, key);
return NULL;
}
#if defined(CONFIG_POLL)
k_spin_unlock(&queue->lock, key);
return k_queue_poll(queue, timeout);
#else
int ret = z_pend_curr(&queue->lock, key, &queue->wait_q, timeout);
return (ret != 0) ? NULL : _current->base.swap_data;
#endif /* CONFIG_POLL */
}
#ifdef CONFIG_USERSPACE
Z_SYSCALL_HANDLER(k_queue_get, queue, timeout_p)
{
s32_t timeout = timeout_p;
Z_OOPS(Z_SYSCALL_OBJ(queue, K_OBJ_QUEUE));
return (u32_t)z_impl_k_queue_get((struct k_queue *)queue, timeout);
}
Z_SYSCALL_HANDLER1_SIMPLE(k_queue_is_empty, K_OBJ_QUEUE, struct k_queue *);
Z_SYSCALL_HANDLER1_SIMPLE(k_queue_peek_head, K_OBJ_QUEUE, struct k_queue *);
Z_SYSCALL_HANDLER1_SIMPLE(k_queue_peek_tail, K_OBJ_QUEUE, struct k_queue *);
#endif /* CONFIG_USERSPACE */
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