kernel/unified/include/timeout_q.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /** @file
  * @brief timeout queue for fibers on nanokernel objects
  *
  * This file is meant to be included by nanokernel/include/wait_q.h only
  */

 /*
  * Copyright (c) 2015 Wind River Systems, Inc.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef _kernel_nanokernel_include_timeout_q__h_
 #define _kernel_nanokernel_include_timeout_q__h_

 #include <misc/dlist.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /* initialize the nano timeouts part of k_thread when enabled in the kernel */

 static inline void _init_timeout(struct _timeout *t, _timeout_func_t func)
 {
 	/*
 	 * Must be initialized here and when dequeueing a timeout so that code
 	 * not dealing with timeouts does not have to handle this, such as when
 	 * waiting forever on a semaphore.
 	 */
 	t->delta_ticks_from_prev = -1;

 	/*
 	 * Must be initialized here so that the _fiber_wakeup family of APIs can
 	 * verify the fiber is not on a wait queue before aborting a timeout.
 	 */
 	t->wait_q = NULL;

 	/*
 	 * Must be initialized here, so the _handle_one_timeout()
 	 * routine can check if there is a fiber waiting on this timeout
 	 */
 	t->thread = NULL;

 	/*
 	 * Function must be initialized before being potentially called.
 	 */
 	t->func = func;

 	/*
 	 * These are initialized when enqueing on the timeout queue:
 	 *
 	 *   thread->timeout.node.next
 	 *   thread->timeout.node.prev
 	 */
 }

 static ALWAYS_INLINE void
 _init_thread_timeout(struct _thread_base *thread_base)
 {
 	_init_timeout(&thread_base->timeout, NULL);
 }

 /* remove a thread timing out from kernel object's wait queue */

 static inline void _unpend_thread_timing_out(struct k_thread *thread,
 					     struct _timeout *timeout_obj)
 {
 	if (timeout_obj->wait_q) {
 		_unpend_thread(thread);
 		thread->base.timeout.wait_q = NULL;
 	}
 }

 /*
  * Handle one expired timeout.
  *
  * This removes the thread from the timeout queue head, and also removes it
  * from the wait queue it is on if waiting for an object. In that case,
  * the return value is kept as -EAGAIN, set previously in _Swap().
  *
  * Must be called with interrupts locked.
  */

 static inline struct _timeout *_handle_one_timeout(
 	sys_dlist_t *timeout_q)
 {
 	struct _timeout *t = (void *)sys_dlist_get(timeout_q);
 	struct k_thread *thread = t->thread;

 	t->delta_ticks_from_prev = -1;

 	K_DEBUG("timeout %p\n", t);
 	if (thread != NULL) {
 		_unpend_thread_timing_out(thread, t);
 		_ready_thread(thread);
 	} else if (t->func) {
 		t->func(t);
 	}

 	return (struct _timeout *)sys_dlist_peek_head(timeout_q);
 }

 /*
  * Loop over all expired timeouts and handle them one by one.
  * Must be called with interrupts locked.
  */

 static inline void _handle_timeouts(void)
 {
 	sys_dlist_t *timeout_q = &_timeout_q;
 	struct _timeout *next;

 	next = (struct _timeout *)sys_dlist_peek_head(timeout_q);
 	while (next && next->delta_ticks_from_prev == 0) {
 		next = _handle_one_timeout(timeout_q);
 	}
 }

 /* returns 0 in success and -1 if the timer has expired */

 static inline int _abort_timeout(struct _timeout *t)
 {
 	sys_dlist_t *timeout_q = &_timeout_q;

 	if (-1 == t->delta_ticks_from_prev) {
 		return -1;
 	}

 	if (!sys_dlist_is_tail(timeout_q, &t->node)) {
 		struct _timeout *next =
 			(struct _timeout *)sys_dlist_peek_next(timeout_q,
 								    &t->node);
 		next->delta_ticks_from_prev += t->delta_ticks_from_prev;
 	}
 	sys_dlist_remove(&t->node);
 	t->delta_ticks_from_prev = -1;

 	return 0;
 }

 static inline int _abort_thread_timeout(struct k_thread *thread)
 {
 	return _abort_timeout(&thread->base.timeout);
 }

 /*
  * callback for sys_dlist_insert_at():
  *
  * Returns 1 if the timeout to insert is lower or equal than the next timeout
  * in the queue, signifying that it should be inserted before the next.
  * Returns 0 if it is greater.
  *
  * If it is greater, the timeout to insert is decremented by the next timeout,
  * since the timeout queue is a delta queue.  If it lower or equal, decrement
  * the timeout of the insert point to update its delta queue value, since the
  * current timeout will be inserted before it.
  */

 static int _is_timeout_insert_point(sys_dnode_t *test, void *timeout)
 {
 	struct _timeout *t = (void *)test;
 	int32_t *timeout_to_insert = timeout;

 	if (*timeout_to_insert > t->delta_ticks_from_prev) {
 		*timeout_to_insert -= t->delta_ticks_from_prev;
 		return 0;
 	}

 	t->delta_ticks_from_prev -= *timeout_to_insert;
 	return 1;
 }

 /*
  * Add timeout to timeout queue. Record waiting thread and wait queue if any.
  *
  * Cannot handle timeout == 0 and timeout == K_FOREVER.
  */

 static inline void _add_timeout(struct k_thread *thread,
 				struct _timeout *timeout_obj,
 				_wait_q_t *wait_q, int32_t timeout)
 {
 	__ASSERT(timeout > 0, "");

 	K_DEBUG("thread %p on wait_q %p, for timeout: %d\n",
 		thread, wait_q, timeout);

 	sys_dlist_t *timeout_q = &_timeout_q;

 	K_DEBUG("timeout_q %p before: head: %p, tail: %p\n",
 		&_timeout_q,
 		sys_dlist_peek_head(&_timeout_q),
 		_timeout_q.tail);

 	K_DEBUG("timeout   %p before: next: %p, prev: %p\n",
 		timeout_obj, timeout_obj->node.next, timeout_obj->node.prev);

 	timeout_obj->thread = thread;
 	timeout_obj->delta_ticks_from_prev = timeout;
 	timeout_obj->wait_q = (sys_dlist_t *)wait_q;
 	sys_dlist_insert_at(timeout_q, (void *)timeout_obj,
 			    _is_timeout_insert_point,
 			    &timeout_obj->delta_ticks_from_prev);

 	K_DEBUG("timeout_q %p after:  head: %p, tail: %p\n",
 		&_timeout_q,
 		sys_dlist_peek_head(&_timeout_q),
 		_timeout_q.tail);

 	K_DEBUG("timeout   %p after:  next: %p, prev: %p\n",
 		timeout_obj, timeout_obj->node.next, timeout_obj->node.prev);
 }

 /*
  * Put thread on timeout queue. Record wait queue if any.
  *
  * Cannot handle timeout == 0 and timeout == K_FOREVER.
  */

 static inline void _add_thread_timeout(struct k_thread *thread,
 				       _wait_q_t *wait_q, int32_t timeout)
 {
 	_add_timeout(thread, &thread->base.timeout, wait_q, timeout);
 }

 /* find the closest deadline in the timeout queue */

 static inline int32_t _get_next_timeout_expiry(void)
 {
 	struct _timeout *t = (struct _timeout *)
 			     sys_dlist_peek_head(&_timeout_q);

 	return t ? t->delta_ticks_from_prev : K_FOREVER;
 }

 #ifdef __cplusplus
 }
 #endif

 #endif /* _kernel_nanokernel_include_timeout_q__h_ */
	/** @file
	* @brief timeout queue for fibers on nanokernel objects
	*
	* This file is meant to be included by nanokernel/include/wait_q.h only
	*/

	/*
	* Copyright (c) 2015 Wind River Systems, Inc.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef _kernel_nanokernel_include_timeout_q__h_
	#define _kernel_nanokernel_include_timeout_q__h_

	#include <misc/dlist.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/* initialize the nano timeouts part of k_thread when enabled in the kernel */

	static inline void _init_timeout(struct _timeout *t, _timeout_func_t func)
	{
	/*
	* Must be initialized here and when dequeueing a timeout so that code
	* not dealing with timeouts does not have to handle this, such as when
	* waiting forever on a semaphore.
	*/
	t->delta_ticks_from_prev = -1;

	/*
	* Must be initialized here so that the _fiber_wakeup family of APIs can
	* verify the fiber is not on a wait queue before aborting a timeout.
	*/
	t->wait_q = NULL;

	/*
	* Must be initialized here, so the _handle_one_timeout()
	* routine can check if there is a fiber waiting on this timeout
	*/
	t->thread = NULL;

	/*
	* Function must be initialized before being potentially called.
	*/
	t->func = func;

	/*
	* These are initialized when enqueing on the timeout queue:
	*
	* thread->timeout.node.next
	* thread->timeout.node.prev
	*/
	}

	static ALWAYS_INLINE void
	_init_thread_timeout(struct _thread_base *thread_base)
	{
	_init_timeout(&thread_base->timeout, NULL);
	}

	/* remove a thread timing out from kernel object's wait queue */

	static inline void _unpend_thread_timing_out(struct k_thread *thread,
	struct _timeout *timeout_obj)
	{
	if (timeout_obj->wait_q) {
	_unpend_thread(thread);
	thread->base.timeout.wait_q = NULL;
	}
	}

	/*
	* Handle one expired timeout.
	*
	* This removes the thread from the timeout queue head, and also removes it
	* from the wait queue it is on if waiting for an object. In that case,
	* the return value is kept as -EAGAIN, set previously in _Swap().
	*
	* Must be called with interrupts locked.
	*/

	static inline struct _timeout *_handle_one_timeout(
	sys_dlist_t *timeout_q)
	{
	struct _timeout t = (void )sys_dlist_get(timeout_q);
	struct k_thread *thread = t->thread;

	t->delta_ticks_from_prev = -1;

	K_DEBUG("timeout %p\n", t);
	if (thread != NULL) {
	_unpend_thread_timing_out(thread, t);
	_ready_thread(thread);
	} else if (t->func) {
	t->func(t);
	}

	return (struct _timeout *)sys_dlist_peek_head(timeout_q);
	}

	/*
	* Loop over all expired timeouts and handle them one by one.
	* Must be called with interrupts locked.
	*/

	static inline void _handle_timeouts(void)
	{
	sys_dlist_t *timeout_q = &_timeout_q;
	struct _timeout *next;

	next = (struct _timeout *)sys_dlist_peek_head(timeout_q);
	while (next && next->delta_ticks_from_prev == 0) {
	next = _handle_one_timeout(timeout_q);
	}
	}

	/* returns 0 in success and -1 if the timer has expired */

	static inline int _abort_timeout(struct _timeout *t)
	{
	sys_dlist_t *timeout_q = &_timeout_q;

	if (-1 == t->delta_ticks_from_prev) {
	return -1;
	}

	if (!sys_dlist_is_tail(timeout_q, &t->node)) {
	struct _timeout *next =
	(struct _timeout *)sys_dlist_peek_next(timeout_q,
	&t->node);
	next->delta_ticks_from_prev += t->delta_ticks_from_prev;
	}
	sys_dlist_remove(&t->node);
	t->delta_ticks_from_prev = -1;

	return 0;
	}

	static inline int _abort_thread_timeout(struct k_thread *thread)
	{
	return _abort_timeout(&thread->base.timeout);
	}

	/*
	* callback for sys_dlist_insert_at():
	*
	* Returns 1 if the timeout to insert is lower or equal than the next timeout
	* in the queue, signifying that it should be inserted before the next.
	* Returns 0 if it is greater.
	*
	* If it is greater, the timeout to insert is decremented by the next timeout,
	* since the timeout queue is a delta queue. If it lower or equal, decrement
	* the timeout of the insert point to update its delta queue value, since the
	* current timeout will be inserted before it.
	*/

	static int _is_timeout_insert_point(sys_dnode_t test, void timeout)
	{
	struct _timeout t = (void )test;
	int32_t *timeout_to_insert = timeout;

	if (*timeout_to_insert > t->delta_ticks_from_prev) {
	*timeout_to_insert -= t->delta_ticks_from_prev;
	return 0;
	}

	t->delta_ticks_from_prev -= *timeout_to_insert;
	return 1;
	}

	/*
	* Add timeout to timeout queue. Record waiting thread and wait queue if any.
	*
	* Cannot handle timeout == 0 and timeout == K_FOREVER.
	*/

	static inline void _add_timeout(struct k_thread *thread,
	struct _timeout *timeout_obj,
	_wait_q_t *wait_q, int32_t timeout)
	{
	__ASSERT(timeout > 0, "");

	K_DEBUG("thread %p on wait_q %p, for timeout: %d\n",
	thread, wait_q, timeout);

	sys_dlist_t *timeout_q = &_timeout_q;

	K_DEBUG("timeout_q %p before: head: %p, tail: %p\n",
	&_timeout_q,
	sys_dlist_peek_head(&_timeout_q),
	_timeout_q.tail);

	K_DEBUG("timeout %p before: next: %p, prev: %p\n",
	timeout_obj, timeout_obj->node.next, timeout_obj->node.prev);

	timeout_obj->thread = thread;
	timeout_obj->delta_ticks_from_prev = timeout;
	timeout_obj->wait_q = (sys_dlist_t *)wait_q;
	sys_dlist_insert_at(timeout_q, (void *)timeout_obj,
	_is_timeout_insert_point,
	&timeout_obj->delta_ticks_from_prev);

	K_DEBUG("timeout_q %p after: head: %p, tail: %p\n",
	&_timeout_q,
	sys_dlist_peek_head(&_timeout_q),
	_timeout_q.tail);

	K_DEBUG("timeout %p after: next: %p, prev: %p\n",
	timeout_obj, timeout_obj->node.next, timeout_obj->node.prev);
	}

	/*
	* Put thread on timeout queue. Record wait queue if any.
	*
	* Cannot handle timeout == 0 and timeout == K_FOREVER.
	*/

	static inline void _add_thread_timeout(struct k_thread *thread,
	_wait_q_t *wait_q, int32_t timeout)
	{
	_add_timeout(thread, &thread->base.timeout, wait_q, timeout);
	}

	/* find the closest deadline in the timeout queue */

	static inline int32_t _get_next_timeout_expiry(void)
	{
	struct _timeout t = (struct _timeout )
	sys_dlist_peek_head(&_timeout_q);

	return t ? t->delta_ticks_from_prev : K_FOREVER;
	}

	#ifdef __cplusplus
	}
	#endif

	#endif /* _kernel_nanokernel_include_timeout_q__h_ */