include/linux/lwq.h - kernel/common - Git at Google

 /* SPDX-License-Identifier: GPL-2.0-only */

 #ifndef LWQ_H
 #define LWQ_H
 /*
  * Light-weight single-linked queue built from llist
  *
  * Entries can be enqueued from any context with no locking.
  * Entries can be dequeued from process context with integrated locking.
  *
  * This is particularly suitable when work items are queued in
  * BH or IRQ context, and where work items are handled one at a time
  * by dedicated threads.
  */
 #include <linux/container_of.h>
 #include <linux/spinlock.h>
 #include <linux/llist.h>

 struct lwq_node {
 	struct llist_node node;
 };

 struct lwq {
 	spinlock_t		lock;
 	struct llist_node	*ready;		/* entries to be dequeued */
 	struct llist_head	new;		/* entries being enqueued */
 };

 /**
  * lwq_init - initialise a lwq
  * @q:	the lwq object
  */
 static inline void lwq_init(struct lwq *q)
 {
 	spin_lock_init(&q->lock);
 	q->ready = NULL;
 	init_llist_head(&q->new);
 }

 /**
  * lwq_empty - test if lwq contains any entry
  * @q:	the lwq object
  *
  * This empty test contains an acquire barrier so that if a wakeup
  * is sent when lwq_dequeue returns true, it is safe to go to sleep after
  * a test on lwq_empty().
  */
 static inline bool lwq_empty(struct lwq *q)
 {
 	/* acquire ensures ordering wrt lwq_enqueue() */
 	return smp_load_acquire(&q->ready) == NULL && llist_empty(&q->new);
 }

 struct llist_node *__lwq_dequeue(struct lwq *q);
 /**
  * lwq_dequeue - dequeue first (oldest) entry from lwq
  * @q:		the queue to dequeue from
  * @type:	the type of object to return
  * @member:	them member in returned object which is an lwq_node.
  *
  * Remove a single object from the lwq and return it.  This will take
  * a spinlock and so must always be called in the same context, typcially
  * process contet.
  */
 #define lwq_dequeue(q, type, member)					\
 	({ struct llist_node *_n = __lwq_dequeue(q);			\
 	  _n ? container_of(_n, type, member.node) : NULL; })

 struct llist_node *lwq_dequeue_all(struct lwq *q);

 /**
  * lwq_for_each_safe - iterate over detached queue allowing deletion
  * @_n:		iterator variable
  * @_t1:	temporary struct llist_node **
  * @_t2:	temporary struct llist_node *
  * @_l:		address of llist_node pointer from lwq_dequeue_all()
  * @_member:	member in _n where lwq_node is found.
  *
  * Iterate over members in a dequeued list.  If the iterator variable
  * is set to NULL, the iterator removes that entry from the queue.
  */
 #define lwq_for_each_safe(_n, _t1, _t2, _l, _member)			\
 	for (_t1 = (_l);						\
 	     *(_t1) ? (_n = container_of(*(_t1), typeof(*(_n)), _member.node),\
 		       _t2 = ((*_t1)->next),				\
 		       true)						\
 	     : false;							\
 	     (_n) ? (_t1 = &(_n)->_member.node.next, 0)			\
 	     : ((*(_t1) = (_t2)),  0))

 /**
  * lwq_enqueue - add a new item to the end of the queue
  * @n	- the lwq_node embedded in the item to be added
  * @q	- the lwq to append to.
  *
  * No locking is needed to append to the queue so this can
  * be called from any context.
  * Return %true is the list may have previously been empty.
  */
 static inline bool lwq_enqueue(struct lwq_node *n, struct lwq *q)
 {
 	/* acquire enqures ordering wrt lwq_dequeue */
 	return llist_add(&n->node, &q->new) &&
 		smp_load_acquire(&q->ready) == NULL;
 }

 /**
  * lwq_enqueue_batch - add a list of new items to the end of the queue
  * @n	- the lwq_node embedded in the first item to be added
  * @q	- the lwq to append to.
  *
  * No locking is needed to append to the queue so this can
  * be called from any context.
  * Return %true is the list may have previously been empty.
  */
 static inline bool lwq_enqueue_batch(struct llist_node *n, struct lwq *q)
 {
 	struct llist_node *e = n;

 	/* acquire enqures ordering wrt lwq_dequeue */
 	return llist_add_batch(llist_reverse_order(n), e, &q->new) &&
 		smp_load_acquire(&q->ready) == NULL;
 }
 #endif /* LWQ_H */
	/* SPDX-License-Identifier: GPL-2.0-only */

	#ifndef LWQ_H
	#define LWQ_H
	/*
	* Light-weight single-linked queue built from llist
	*
	* Entries can be enqueued from any context with no locking.
	* Entries can be dequeued from process context with integrated locking.
	*
	* This is particularly suitable when work items are queued in
	* BH or IRQ context, and where work items are handled one at a time
	* by dedicated threads.
	*/
	#include <linux/container_of.h>
	#include <linux/spinlock.h>
	#include <linux/llist.h>

	struct lwq_node {
	struct llist_node node;
	};

	struct lwq {
	spinlock_t lock;
	struct llist_node ready; / entries to be dequeued */
	struct llist_head new; /* entries being enqueued */
	};

	/**
	* lwq_init - initialise a lwq
	* @q: the lwq object
	*/
	static inline void lwq_init(struct lwq *q)
	{
	spin_lock_init(&q->lock);
	q->ready = NULL;
	init_llist_head(&q->new);
	}

	/**
	* lwq_empty - test if lwq contains any entry
	* @q: the lwq object
	*
	* This empty test contains an acquire barrier so that if a wakeup
	* is sent when lwq_dequeue returns true, it is safe to go to sleep after
	* a test on lwq_empty().
	*/
	static inline bool lwq_empty(struct lwq *q)
	{
	/* acquire ensures ordering wrt lwq_enqueue() */
	return smp_load_acquire(&q->ready) == NULL && llist_empty(&q->new);
	}

	struct llist_node __lwq_dequeue(struct lwq q);
	/**
	* lwq_dequeue - dequeue first (oldest) entry from lwq
	* @q: the queue to dequeue from
	* @type: the type of object to return
	* @member: them member in returned object which is an lwq_node.
	*
	* Remove a single object from the lwq and return it. This will take
	* a spinlock and so must always be called in the same context, typcially
	* process contet.
	*/
	#define lwq_dequeue(q, type, member) \
	({ struct llist_node *_n = __lwq_dequeue(q); \
	_n ? container_of(_n, type, member.node) : NULL; })

	struct llist_node lwq_dequeue_all(struct lwq q);

	/**
	* lwq_for_each_safe - iterate over detached queue allowing deletion
	* @_n: iterator variable
	* @_t1: temporary struct llist_node **
	* @_t2: temporary struct llist_node *
	* @_l: address of llist_node pointer from lwq_dequeue_all()
	* @_member: member in _n where lwq_node is found.
	*
	* Iterate over members in a dequeued list. If the iterator variable
	* is set to NULL, the iterator removes that entry from the queue.
	*/
	#define lwq_for_each_safe(_n, _t1, _t2, _l, _member) \
	for (_t1 = (_l); \
	(_t1) ? (_n = container_of((_t1), typeof(*(_n)), _member.node),\
	_t2 = ((*_t1)->next), \
	true) \
	: false; \
	(_n) ? (_t1 = &(_n)->_member.node.next, 0) \
	: ((*(_t1) = (_t2)), 0))

	/**
	* lwq_enqueue - add a new item to the end of the queue
	* @n - the lwq_node embedded in the item to be added
	* @q - the lwq to append to.
	*
	* No locking is needed to append to the queue so this can
	* be called from any context.
	* Return %true is the list may have previously been empty.
	*/
	static inline bool lwq_enqueue(struct lwq_node n, struct lwq q)
	{
	/* acquire enqures ordering wrt lwq_dequeue */
	return llist_add(&n->node, &q->new) &&
	smp_load_acquire(&q->ready) == NULL;
	}

	/**
	* lwq_enqueue_batch - add a list of new items to the end of the queue
	* @n - the lwq_node embedded in the first item to be added
	* @q - the lwq to append to.
	*
	* No locking is needed to append to the queue so this can
	* be called from any context.
	* Return %true is the list may have previously been empty.
	*/
	static inline bool lwq_enqueue_batch(struct llist_node n, struct lwq q)
	{
	struct llist_node *e = n;

	/* acquire enqures ordering wrt lwq_dequeue */
	return llist_add_batch(llist_reverse_order(n), e, &q->new) &&
	smp_load_acquire(&q->ready) == NULL;
	}
	#endif /* LWQ_H */