[urcu.git] / src / workqueue.c

/*
 * workqueue.c
 *
 * Userspace RCU library - Userspace workqeues
 *
 * Copyright (c) 2010 Paul E. McKenney <paulmck@linux.vnet.ibm.com>
 * Copyright (c) 2017 Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
 *
 * This library is free software; you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public
 * License as published by the Free Software Foundation; either
 * version 2.1 of the License, or (at your option) any later version.
 *
 * This library is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
 * Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public
 * License along with this library; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
 */

#define _LGPL_SOURCE
#include <stdio.h>
#include <pthread.h>
#include <signal.h>
#include <assert.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <errno.h>
#include <poll.h>
#include <sys/time.h>
#include <unistd.h>
#include <sched.h>

#include "compat-getcpu.h"
#include <urcu/wfcqueue.h>
#include <urcu/pointer.h>
#include <urcu/list.h>
#include <urcu/futex.h>
#include <urcu/tls-compat.h>
#include <urcu/ref.h>
#include "urcu-die.h"

#include "workqueue.h"

#define SET_AFFINITY_CHECK_PERIOD		(1U << 8)	/* 256 */
#define SET_AFFINITY_CHECK_PERIOD_MASK		(SET_AFFINITY_CHECK_PERIOD - 1)

/* Data structure that identifies a workqueue. */

struct urcu_workqueue {
	/*
	 * We do not align head on a different cache-line than tail
	 * mainly because workqueue threads use batching ("splice") to
	 * get an entire list of callbacks, which effectively empties
	 * the queue, and requires to touch the tail anyway.
	 */
	struct cds_wfcq_tail cbs_tail;
	struct cds_wfcq_head cbs_head;
	unsigned long flags;
	int32_t futex;
	unsigned long qlen; /* maintained for debugging. */
	pthread_t tid;
	int cpu_affinity;
	unsigned long loop_count;
	void *priv;
	void (*grace_period_fct)(struct urcu_workqueue *workqueue, void *priv);
	void (*initialize_worker_fct)(struct urcu_workqueue *workqueue, void *priv);
	void (*finalize_worker_fct)(struct urcu_workqueue *workqueue, void *priv);
	void (*worker_before_pause_fct)(struct urcu_workqueue *workqueue, void *priv);
	void (*worker_after_resume_fct)(struct urcu_workqueue *workqueue, void *priv);
	void (*worker_before_wait_fct)(struct urcu_workqueue *workqueue, void *priv);
	void (*worker_after_wake_up_fct)(struct urcu_workqueue *workqueue, void *priv);
} __attribute__((aligned(CAA_CACHE_LINE_SIZE)));

struct urcu_workqueue_completion {
	int barrier_count;
	int32_t futex;
	struct urcu_ref ref;
};

struct urcu_workqueue_completion_work {
	struct urcu_work work;
	struct urcu_workqueue_completion *completion;
};

/*
 * Periodically retry setting CPU affinity if we migrate.
 * Losing affinity can be caused by CPU hotunplug/hotplug, or by
 * cpuset(7).
 */
#ifdef HAVE_SCHED_SETAFFINITY
static int set_thread_cpu_affinity(struct urcu_workqueue *workqueue)
{
	cpu_set_t mask;
	int ret;

	if (workqueue->cpu_affinity < 0)
		return 0;
	if (++workqueue->loop_count & SET_AFFINITY_CHECK_PERIOD_MASK)
		return 0;
	if (urcu_sched_getcpu() == workqueue->cpu_affinity)
		return 0;

	CPU_ZERO(&mask);
	CPU_SET(workqueue->cpu_affinity, &mask);
	ret = sched_setaffinity(0, sizeof(mask), &mask);

	/*
	 * EINVAL is fine: can be caused by hotunplugged CPUs, or by
	 * cpuset(7). This is why we should always retry if we detect
	 * migration.
	 */
	if (ret && errno == EINVAL) {
		ret = 0;
		errno = 0;
	}
	return ret;
}
#else
static int set_thread_cpu_affinity(struct urcu_workqueue *workqueue)
{
	return 0;
}
#endif

static void futex_wait(int32_t *futex)
{
	/* Read condition before read futex */
	cmm_smp_mb();
	if (uatomic_read(futex) != -1)
		return;
	while (futex_async(futex, FUTEX_WAIT, -1, NULL, NULL, 0)) {
		switch (errno) {
		case EWOULDBLOCK:
			/* Value already changed. */
			return;
		case EINTR:
			/* Retry if interrupted by signal. */
			break;	/* Get out of switch. */
		default:
			/* Unexpected error. */
			urcu_die(errno);
		}
	}
}

static void futex_wake_up(int32_t *futex)
{
	/* Write to condition before reading/writing futex */
	cmm_smp_mb();
	if (caa_unlikely(uatomic_read(futex) == -1)) {
		uatomic_set(futex, 0);
		if (futex_async(futex, FUTEX_WAKE, 1,
				NULL, NULL, 0) < 0)
			urcu_die(errno);
	}
}

/* This is the code run by each worker thread. */

static void *workqueue_thread(void *arg)
{
	unsigned long cbcount;
	struct urcu_workqueue *workqueue = (struct urcu_workqueue *) arg;
	int rt = !!(uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_RT);

	if (set_thread_cpu_affinity(workqueue))
		urcu_die(errno);

	if (workqueue->initialize_worker_fct)
		workqueue->initialize_worker_fct(workqueue, workqueue->priv);

	if (!rt) {
		uatomic_dec(&workqueue->futex);
		/* Decrement futex before reading workqueue */
		cmm_smp_mb();
	}
	for (;;) {
		struct cds_wfcq_head cbs_tmp_head;
		struct cds_wfcq_tail cbs_tmp_tail;
		struct cds_wfcq_node *cbs, *cbs_tmp_n;
		enum cds_wfcq_ret splice_ret;

		if (set_thread_cpu_affinity(workqueue))
			urcu_die(errno);

		if (uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSE) {
			/*
			 * Pause requested. Become quiescent: remove
			 * ourself from all global lists, and don't
			 * process any callback. The callback lists may
			 * still be non-empty though.
			 */
			if (workqueue->worker_before_pause_fct)
				workqueue->worker_before_pause_fct(workqueue, workqueue->priv);
			cmm_smp_mb__before_uatomic_or();
			uatomic_or(&workqueue->flags, URCU_WORKQUEUE_PAUSED);
			while ((uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSE) != 0)
				(void) poll(NULL, 0, 1);
			uatomic_and(&workqueue->flags, ~URCU_WORKQUEUE_PAUSED);
			cmm_smp_mb__after_uatomic_and();
			if (workqueue->worker_after_resume_fct)
				workqueue->worker_after_resume_fct(workqueue, workqueue->priv);
		}

		cds_wfcq_init(&cbs_tmp_head, &cbs_tmp_tail);
		splice_ret = __cds_wfcq_splice_blocking(&cbs_tmp_head,
			&cbs_tmp_tail, &workqueue->cbs_head, &workqueue->cbs_tail);
		assert(splice_ret != CDS_WFCQ_RET_WOULDBLOCK);
		assert(splice_ret != CDS_WFCQ_RET_DEST_NON_EMPTY);
		if (splice_ret != CDS_WFCQ_RET_SRC_EMPTY) {
			if (workqueue->grace_period_fct)
				workqueue->grace_period_fct(workqueue, workqueue->priv);
			cbcount = 0;
			__cds_wfcq_for_each_blocking_safe(&cbs_tmp_head,
					&cbs_tmp_tail, cbs, cbs_tmp_n) {
				struct urcu_work *uwp;

				uwp = caa_container_of(cbs,
					struct urcu_work, next);
				uwp->func(uwp);
				cbcount++;
			}
			uatomic_sub(&workqueue->qlen, cbcount);
		}
		if (uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_STOP)
			break;
		if (workqueue->worker_before_wait_fct)
			workqueue->worker_before_wait_fct(workqueue, workqueue->priv);
		if (!rt) {
			if (cds_wfcq_empty(&workqueue->cbs_head,
					&workqueue->cbs_tail)) {
				futex_wait(&workqueue->futex);
				uatomic_dec(&workqueue->futex);
				/*
				 * Decrement futex before reading
				 * urcu_work list.
				 */
				cmm_smp_mb();
			}
		} else {
			if (cds_wfcq_empty(&workqueue->cbs_head,
					&workqueue->cbs_tail)) {
				(void) poll(NULL, 0, 10);
			}
		}
		if (workqueue->worker_after_wake_up_fct)
			workqueue->worker_after_wake_up_fct(workqueue, workqueue->priv);
	}
	if (!rt) {
		/*
		 * Read urcu_work list before write futex.
		 */
		cmm_smp_mb();
		uatomic_set(&workqueue->futex, 0);
	}
	if (workqueue->finalize_worker_fct)
		workqueue->finalize_worker_fct(workqueue, workqueue->priv);
	return NULL;
}

struct urcu_workqueue *urcu_workqueue_create(unsigned long flags,
		int cpu_affinity, void *priv,
		void (*grace_period_fct)(struct urcu_workqueue *workqueue, void *priv),
		void (*initialize_worker_fct)(struct urcu_workqueue *workqueue, void *priv),
		void (*finalize_worker_fct)(struct urcu_workqueue *workqueue, void *priv),
		void (*worker_before_wait_fct)(struct urcu_workqueue *workqueue, void *priv),
		void (*worker_after_wake_up_fct)(struct urcu_workqueue *workqueue, void *priv),
		void (*worker_before_pause_fct)(struct urcu_workqueue *workqueue, void *priv),
		void (*worker_after_resume_fct)(struct urcu_workqueue *workqueue, void *priv))
{
	struct urcu_workqueue *workqueue;
	int ret;

	workqueue = malloc(sizeof(*workqueue));
	if (workqueue == NULL)
		urcu_die(errno);
	memset(workqueue, '\0', sizeof(*workqueue));
	cds_wfcq_init(&workqueue->cbs_head, &workqueue->cbs_tail);
	workqueue->qlen = 0;
	workqueue->futex = 0;
	workqueue->flags = flags;
	workqueue->priv = priv;
	workqueue->grace_period_fct = grace_period_fct;
	workqueue->initialize_worker_fct = initialize_worker_fct;
	workqueue->finalize_worker_fct = finalize_worker_fct;
	workqueue->worker_before_wait_fct = worker_before_wait_fct;
	workqueue->worker_after_wake_up_fct = worker_after_wake_up_fct;
	workqueue->worker_before_pause_fct = worker_before_pause_fct;
	workqueue->worker_after_resume_fct = worker_after_resume_fct;
	workqueue->cpu_affinity = cpu_affinity;
	workqueue->loop_count = 0;
	cmm_smp_mb();  /* Structure initialized before pointer is planted. */
	ret = pthread_create(&workqueue->tid, NULL, workqueue_thread, workqueue);
	if (ret) {
		urcu_die(ret);
	}
	return workqueue;
}

static void wake_worker_thread(struct urcu_workqueue *workqueue)
{
	if (!(_CMM_LOAD_SHARED(workqueue->flags) & URCU_WORKQUEUE_RT))
		futex_wake_up(&workqueue->futex);
}

static int urcu_workqueue_destroy_worker(struct urcu_workqueue *workqueue)
{
	int ret;
	void *retval;

	uatomic_or(&workqueue->flags, URCU_WORKQUEUE_STOP);
	wake_worker_thread(workqueue);

	ret = pthread_join(workqueue->tid, &retval);
	if (ret) {
		urcu_die(ret);
	}
	if (retval != NULL) {
		urcu_die(EINVAL);
	}
	workqueue->flags &= ~URCU_WORKQUEUE_STOP;
	workqueue->tid = 0;
	return 0;
}

void urcu_workqueue_destroy(struct urcu_workqueue *workqueue)
{
	if (workqueue == NULL) {
		return;
	}
	if (urcu_workqueue_destroy_worker(workqueue)) {
		urcu_die(errno);
	}
	assert(cds_wfcq_empty(&workqueue->cbs_head, &workqueue->cbs_tail));
	free(workqueue);
}

void urcu_workqueue_queue_work(struct urcu_workqueue *workqueue,
		      struct urcu_work *work,
		      void (*func)(struct urcu_work *work))
{
	cds_wfcq_node_init(&work->next);
	work->func = func;
	cds_wfcq_enqueue(&workqueue->cbs_head, &workqueue->cbs_tail, &work->next);
	uatomic_inc(&workqueue->qlen);
	wake_worker_thread(workqueue);
}

static
void free_completion(struct urcu_ref *ref)
{
	struct urcu_workqueue_completion *completion;

	completion = caa_container_of(ref, struct urcu_workqueue_completion, ref);
	free(completion);
}

static
void _urcu_workqueue_wait_complete(struct urcu_work *work)
{
	struct urcu_workqueue_completion_work *completion_work;
	struct urcu_workqueue_completion *completion;

	completion_work = caa_container_of(work, struct urcu_workqueue_completion_work, work);
	completion = completion_work->completion;
	if (!uatomic_sub_return(&completion->barrier_count, 1))
		futex_wake_up(&completion->futex);
	urcu_ref_put(&completion->ref, free_completion);
	free(completion_work);
}

struct urcu_workqueue_completion *urcu_workqueue_create_completion(void)
{
	struct urcu_workqueue_completion *completion;

	completion = calloc(sizeof(*completion), 1);
	if (!completion)
		urcu_die(errno);
	urcu_ref_set(&completion->ref, 1);
	completion->barrier_count = 0;
	return completion;
}

void urcu_workqueue_destroy_completion(struct urcu_workqueue_completion *completion)
{
	urcu_ref_put(&completion->ref, free_completion);
}

void urcu_workqueue_wait_completion(struct urcu_workqueue_completion *completion)
{
	/* Wait for them */
	for (;;) {
		uatomic_dec(&completion->futex);
		/* Decrement futex before reading barrier_count */
		cmm_smp_mb();
		if (!uatomic_read(&completion->barrier_count))
			break;
		futex_wait(&completion->futex);
	}
}

void urcu_workqueue_queue_completion(struct urcu_workqueue *workqueue,
		struct urcu_workqueue_completion *completion)
{
	struct urcu_workqueue_completion_work *work;

	work = calloc(sizeof(*work), 1);
	if (!work)
		urcu_die(errno);
	work->completion = completion;
	urcu_ref_get(&completion->ref);
	uatomic_inc(&completion->barrier_count);
	urcu_workqueue_queue_work(workqueue, &work->work, _urcu_workqueue_wait_complete);
}

/*
 * Wait for all in-flight work to complete execution.
 */
void urcu_workqueue_flush_queued_work(struct urcu_workqueue *workqueue)
{
	struct urcu_workqueue_completion *completion;

	completion = urcu_workqueue_create_completion();
	if (!completion)
		urcu_die(ENOMEM);
	urcu_workqueue_queue_completion(workqueue, completion);
	urcu_workqueue_wait_completion(completion);
	urcu_workqueue_destroy_completion(completion);
}

/* To be used in before fork handler. */
void urcu_workqueue_pause_worker(struct urcu_workqueue *workqueue)
{
	uatomic_or(&workqueue->flags, URCU_WORKQUEUE_PAUSE);
	cmm_smp_mb__after_uatomic_or();
	wake_worker_thread(workqueue);

	while ((uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSED) == 0)
		(void) poll(NULL, 0, 1);
}

/* To be used in after fork parent handler. */
void urcu_workqueue_resume_worker(struct urcu_workqueue *workqueue)
{
	uatomic_and(&workqueue->flags, ~URCU_WORKQUEUE_PAUSE);
	while ((uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSED) != 0)
		(void) poll(NULL, 0, 1);
}

void urcu_workqueue_create_worker(struct urcu_workqueue *workqueue)
{
	int ret;

	/* Clear workqueue state from parent. */
	workqueue->flags &= ~URCU_WORKQUEUE_PAUSED;
	workqueue->flags &= ~URCU_WORKQUEUE_PAUSE;
	workqueue->tid = 0;
	ret = pthread_create(&workqueue->tid, NULL, workqueue_thread, workqueue);
	if (ret) {
		urcu_die(ret);
	}
}
Commit	Line	Data
ccacf27f MD	1	/*
	2	* workqueue.c
	3	*
	4	* Userspace RCU library - Userspace workqeues
	5	*
	6	* Copyright (c) 2010 Paul E. McKenney <paulmck@linux.vnet.ibm.com>
	7	* Copyright (c) 2017 Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
	8	*
	9	* This library is free software; you can redistribute it and/or
	10	* modify it under the terms of the GNU Lesser General Public
	11	* License as published by the Free Software Foundation; either
	12	* version 2.1 of the License, or (at your option) any later version.
	13	*
	14	* This library is distributed in the hope that it will be useful,
	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
	17	* Lesser General Public License for more details.
	18	*
	19	* You should have received a copy of the GNU Lesser General Public
	20	* License along with this library; if not, write to the Free Software
	21	* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
	22	*/
	23
	24	#define _LGPL_SOURCE
	25	#include <stdio.h>
	26	#include <pthread.h>
	27	#include <signal.h>
	28	#include <assert.h>
	29	#include <stdlib.h>
	30	#include <stdint.h>
	31	#include <string.h>
	32	#include <errno.h>
	33	#include <poll.h>
	34	#include <sys/time.h>
	35	#include <unistd.h>
	36	#include <sched.h>
	37
	38	#include "compat-getcpu.h"
6cd23d47 MD	39	#include <urcu/wfcqueue.h>
	40	#include <urcu/pointer.h>
	41	#include <urcu/list.h>
	42	#include <urcu/futex.h>
	43	#include <urcu/tls-compat.h>
	44	#include <urcu/ref.h>
ccacf27f MD	45	#include "urcu-die.h"
	46
	47	#include "workqueue.h"
	48
	49	#define SET_AFFINITY_CHECK_PERIOD (1U << 8) /* 256 */
	50	#define SET_AFFINITY_CHECK_PERIOD_MASK (SET_AFFINITY_CHECK_PERIOD - 1)
	51
	52	/* Data structure that identifies a workqueue. */
	53
	54	struct urcu_workqueue {
	55	/*
	56	* We do not align head on a different cache-line than tail
1b6fc173 MD	57	* mainly because workqueue threads use batching ("splice") to
	58	* get an entire list of callbacks, which effectively empties
	59	* the queue, and requires to touch the tail anyway.
ccacf27f MD	60	*/
	61	struct cds_wfcq_tail cbs_tail;
	62	struct cds_wfcq_head cbs_head;
	63	unsigned long flags;
	64	int32_t futex;
	65	unsigned long qlen; /* maintained for debugging. */
	66	pthread_t tid;
	67	int cpu_affinity;
	68	unsigned long loop_count;
	69	void *priv;
	70	void (grace_period_fct)(struct urcu_workqueue workqueue, void *priv);
	71	void (initialize_worker_fct)(struct urcu_workqueue workqueue, void *priv);
	72	void (finalize_worker_fct)(struct urcu_workqueue workqueue, void *priv);
	73	void (worker_before_pause_fct)(struct urcu_workqueue workqueue, void *priv);
	74	void (worker_after_resume_fct)(struct urcu_workqueue workqueue, void *priv);
	75	void (worker_before_wait_fct)(struct urcu_workqueue workqueue, void *priv);
	76	void (worker_after_wake_up_fct)(struct urcu_workqueue workqueue, void *priv);
	77	} __attribute__((aligned(CAA_CACHE_LINE_SIZE)));
	78
	79	struct urcu_workqueue_completion {
	80	int barrier_count;
	81	int32_t futex;
	82	struct urcu_ref ref;
	83	};
	84
	85	struct urcu_workqueue_completion_work {
	86	struct urcu_work work;
	87	struct urcu_workqueue_completion *completion;
	88	};
	89
	90	/*
	91	* Periodically retry setting CPU affinity if we migrate.
	92	* Losing affinity can be caused by CPU hotunplug/hotplug, or by
	93	* cpuset(7).
	94	*/
2388c075	95	#ifdef HAVE_SCHED_SETAFFINITY
ccacf27f MD	96	static int set_thread_cpu_affinity(struct urcu_workqueue *workqueue)
	97	{
	98	cpu_set_t mask;
	99	int ret;
	100
	101	if (workqueue->cpu_affinity < 0)
	102	return 0;
	103	if (++workqueue->loop_count & SET_AFFINITY_CHECK_PERIOD_MASK)
	104	return 0;
	105	if (urcu_sched_getcpu() == workqueue->cpu_affinity)
	106	return 0;
	107
	108	CPU_ZERO(&mask);
	109	CPU_SET(workqueue->cpu_affinity, &mask);
ccacf27f	110	ret = sched_setaffinity(0, sizeof(mask), &mask);
0614a2e6	111
ccacf27f MD	112	/*
	113	* EINVAL is fine: can be caused by hotunplugged CPUs, or by
	114	* cpuset(7). This is why we should always retry if we detect
	115	* migration.
	116	*/
	117	if (ret && errno == EINVAL) {
	118	ret = 0;
	119	errno = 0;
	120	}
	121	return ret;
	122	}
	123	#else
	124	static int set_thread_cpu_affinity(struct urcu_workqueue *workqueue)
	125	{
	126	return 0;
	127	}
	128	#endif
	129
	130	static void futex_wait(int32_t *futex)
	131	{
	132	/* Read condition before read futex */
	133	cmm_smp_mb();
	134	if (uatomic_read(futex) != -1)
	135	return;
	136	while (futex_async(futex, FUTEX_WAIT, -1, NULL, NULL, 0)) {
	137	switch (errno) {
	138	case EWOULDBLOCK:
	139	/* Value already changed. */
	140	return;
	141	case EINTR:
	142	/* Retry if interrupted by signal. */
	143	break; /* Get out of switch. */
	144	default:
	145	/* Unexpected error. */
	146	urcu_die(errno);
	147	}
	148	}
	149	}
	150
	151	static void futex_wake_up(int32_t *futex)
	152	{
	153	/* Write to condition before reading/writing futex */
	154	cmm_smp_mb();
	155	if (caa_unlikely(uatomic_read(futex) == -1)) {
	156	uatomic_set(futex, 0);
	157	if (futex_async(futex, FUTEX_WAKE, 1,
	158	NULL, NULL, 0) < 0)
	159	urcu_die(errno);
	160	}
	161	}
	162
	163	/* This is the code run by each worker thread. */
	164
	165	static void workqueue_thread(void arg)
	166	{
	167	unsigned long cbcount;
	168	struct urcu_workqueue workqueue = (struct urcu_workqueue ) arg;
	169	int rt = !!(uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_RT);
	170
	171	if (set_thread_cpu_affinity(workqueue))
	172	urcu_die(errno);
	173
	174	if (workqueue->initialize_worker_fct)
	175	workqueue->initialize_worker_fct(workqueue, workqueue->priv);
176
177	if (!rt) {
178	uatomic_dec(&workqueue->futex);
179	/* Decrement futex before reading workqueue */
180	cmm_smp_mb();
181	}
182	for (;;) {
183	struct cds_wfcq_head cbs_tmp_head;
184	struct cds_wfcq_tail cbs_tmp_tail;
185	struct cds_wfcq_node cbs, cbs_tmp_n;
186	enum cds_wfcq_ret splice_ret;
187
188	if (set_thread_cpu_affinity(workqueue))
189	urcu_die(errno);
190
191	if (uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSE) {
192	/*
193	* Pause requested. Become quiescent: remove
194	* ourself from all global lists, and don't
195	* process any callback. The callback lists may
196	* still be non-empty though.
197	*/
198	if (workqueue->worker_before_pause_fct)
199	workqueue->worker_before_pause_fct(workqueue, workqueue->priv);
200	cmm_smp_mb__before_uatomic_or();
201	uatomic_or(&workqueue->flags, URCU_WORKQUEUE_PAUSED);
202	while ((uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSE) != 0)
203	(void) poll(NULL, 0, 1);
204	uatomic_and(&workqueue->flags, ~URCU_WORKQUEUE_PAUSED);
205	cmm_smp_mb__after_uatomic_and();
206	if (workqueue->worker_after_resume_fct)
207	workqueue->worker_after_resume_fct(workqueue, workqueue->priv);
208	}
209
210	cds_wfcq_init(&cbs_tmp_head, &cbs_tmp_tail);
211	splice_ret = __cds_wfcq_splice_blocking(&cbs_tmp_head,
212	&cbs_tmp_tail, &workqueue->cbs_head, &workqueue->cbs_tail);
213	assert(splice_ret != CDS_WFCQ_RET_WOULDBLOCK);
214	assert(splice_ret != CDS_WFCQ_RET_DEST_NON_EMPTY);
215	if (splice_ret != CDS_WFCQ_RET_SRC_EMPTY) {
216	if (workqueue->grace_period_fct)
217	workqueue->grace_period_fct(workqueue, workqueue->priv);
218	cbcount = 0;
219	__cds_wfcq_for_each_blocking_safe(&cbs_tmp_head,
220	&cbs_tmp_tail, cbs, cbs_tmp_n) {
d25f25df	221	struct urcu_work *uwp;
ccacf27f	222
d25f25df MD	223	uwp = caa_container_of(cbs,
	224	struct urcu_work, next);
	225	uwp->func(uwp);
ccacf27f MD	226	cbcount++;
	227	}
	228	uatomic_sub(&workqueue->qlen, cbcount);
	229	}
	230	if (uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_STOP)
	231	break;
	232	if (workqueue->worker_before_wait_fct)
	233	workqueue->worker_before_wait_fct(workqueue, workqueue->priv);
	234	if (!rt) {
	235	if (cds_wfcq_empty(&workqueue->cbs_head,
	236	&workqueue->cbs_tail)) {
	237	futex_wait(&workqueue->futex);
ccacf27f MD	238	uatomic_dec(&workqueue->futex);
	239	/*
	240	* Decrement futex before reading
1b6fc173	241	* urcu_work list.
ccacf27f MD	242	*/
ccacf27f MD	243	cmm_smp_mb();
ccacf27f MD	244	}
ccacf27f MD	245	} else {
5bbe95bb JG	246	if (cds_wfcq_empty(&workqueue->cbs_head,
	247	&workqueue->cbs_tail)) {
	248	(void) poll(NULL, 0, 10);
	249	}
ccacf27f MD	250	}
	251	if (workqueue->worker_after_wake_up_fct)
	252	workqueue->worker_after_wake_up_fct(workqueue, workqueue->priv);
	253	}
	254	if (!rt) {
	255	/*
1b6fc173	256	* Read urcu_work list before write futex.
ccacf27f MD	257	*/
	258	cmm_smp_mb();
	259	uatomic_set(&workqueue->futex, 0);
	260	}
	261	if (workqueue->finalize_worker_fct)
	262	workqueue->finalize_worker_fct(workqueue, workqueue->priv);
	263	return NULL;
	264	}
	265
	266	struct urcu_workqueue *urcu_workqueue_create(unsigned long flags,
	267	int cpu_affinity, void *priv,
	268	void (grace_period_fct)(struct urcu_workqueue workqueue, void *priv),
	269	void (initialize_worker_fct)(struct urcu_workqueue workqueue, void *priv),
	270	void (finalize_worker_fct)(struct urcu_workqueue workqueue, void *priv),
	271	void (worker_before_wait_fct)(struct urcu_workqueue workqueue, void *priv),
	272	void (worker_after_wake_up_fct)(struct urcu_workqueue workqueue, void *priv),
	273	void (worker_before_pause_fct)(struct urcu_workqueue workqueue, void *priv),
	274	void (worker_after_resume_fct)(struct urcu_workqueue workqueue, void *priv))
	275	{
	276	struct urcu_workqueue *workqueue;
	277	int ret;
	278
	279	workqueue = malloc(sizeof(*workqueue));
	280	if (workqueue == NULL)
	281	urcu_die(errno);
	282	memset(workqueue, '\0', sizeof(*workqueue));
	283	cds_wfcq_init(&workqueue->cbs_head, &workqueue->cbs_tail);
	284	workqueue->qlen = 0;
	285	workqueue->futex = 0;
	286	workqueue->flags = flags;
	287	workqueue->priv = priv;
	288	workqueue->grace_period_fct = grace_period_fct;
	289	workqueue->initialize_worker_fct = initialize_worker_fct;
	290	workqueue->finalize_worker_fct = finalize_worker_fct;
	291	workqueue->worker_before_wait_fct = worker_before_wait_fct;
	292	workqueue->worker_after_wake_up_fct = worker_after_wake_up_fct;
	293	workqueue->worker_before_pause_fct = worker_before_pause_fct;
	294	workqueue->worker_after_resume_fct = worker_after_resume_fct;
	295	workqueue->cpu_affinity = cpu_affinity;
	296	workqueue->loop_count = 0;
	297	cmm_smp_mb(); /* Structure initialized before pointer is planted. */
	298	ret = pthread_create(&workqueue->tid, NULL, workqueue_thread, workqueue);
	299	if (ret) {
	300	urcu_die(ret);
	301	}
	302	return workqueue;
	303	}
	304
	305	static void wake_worker_thread(struct urcu_workqueue *workqueue)
	306	{
9db9edcc	307	if (!(_CMM_LOAD_SHARED(workqueue->flags) & URCU_WORKQUEUE_RT))
ccacf27f MD	308	futex_wake_up(&workqueue->futex);
	309	}
	310
	311	static int urcu_workqueue_destroy_worker(struct urcu_workqueue *workqueue)
	312	{
	313	int ret;
	314	void *retval;
	315
	316	uatomic_or(&workqueue->flags, URCU_WORKQUEUE_STOP);
	317	wake_worker_thread(workqueue);
	318
	319	ret = pthread_join(workqueue->tid, &retval);
	320	if (ret) {
	321	urcu_die(ret);
	322	}
	323	if (retval != NULL) {
	324	urcu_die(EINVAL);
	325	}
	326	workqueue->flags &= ~URCU_WORKQUEUE_STOP;
	327	workqueue->tid = 0;
	328	return 0;
	329	}
	330
	331	void urcu_workqueue_destroy(struct urcu_workqueue *workqueue)
	332	{
	333	if (workqueue == NULL) {
	334	return;
	335	}
	336	if (urcu_workqueue_destroy_worker(workqueue)) {
	337	urcu_die(errno);
	338	}
	339	assert(cds_wfcq_empty(&workqueue->cbs_head, &workqueue->cbs_tail));
	340	free(workqueue);
	341	}
	342
	343	void urcu_workqueue_queue_work(struct urcu_workqueue *workqueue,
	344	struct urcu_work *work,
	345	void (func)(struct urcu_work work))
	346	{
	347	cds_wfcq_node_init(&work->next);
	348	work->func = func;
	349	cds_wfcq_enqueue(&workqueue->cbs_head, &workqueue->cbs_tail, &work->next);
	350	uatomic_inc(&workqueue->qlen);
	351	wake_worker_thread(workqueue);
	352	}
	353
	354	static
	355	void free_completion(struct urcu_ref *ref)
	356	{
	357	struct urcu_workqueue_completion *completion;
	358
	359	completion = caa_container_of(ref, struct urcu_workqueue_completion, ref);
	360	free(completion);
	361	}
	362
	363	static
	364	void _urcu_workqueue_wait_complete(struct urcu_work *work)
	365	{
	366	struct urcu_workqueue_completion_work *completion_work;
	367	struct urcu_workqueue_completion *completion;
	368
	369	completion_work = caa_container_of(work, struct urcu_workqueue_completion_work, work);
	370	completion = completion_work->completion;
	371	if (!uatomic_sub_return(&completion->barrier_count, 1))
372	futex_wake_up(&completion->futex);
373	urcu_ref_put(&completion->ref, free_completion);
374	free(completion_work);
375	}
376
377	struct urcu_workqueue_completion *urcu_workqueue_create_completion(void)
378	{
379	struct urcu_workqueue_completion *completion;
380
381	completion = calloc(sizeof(*completion), 1);
382	if (!completion)
383	urcu_die(errno);
384	urcu_ref_set(&completion->ref, 1);
385	completion->barrier_count = 0;
386	return completion;
387	}
388
389	void urcu_workqueue_destroy_completion(struct urcu_workqueue_completion *completion)
390	{
391	urcu_ref_put(&completion->ref, free_completion);
392	}
393
394	void urcu_workqueue_wait_completion(struct urcu_workqueue_completion *completion)
395	{
396	/* Wait for them */
397	for (;;) {
398	uatomic_dec(&completion->futex);
399	/* Decrement futex before reading barrier_count */
400	cmm_smp_mb();
401	if (!uatomic_read(&completion->barrier_count))
402	break;
403	futex_wait(&completion->futex);
404	}
405	}
406
407	void urcu_workqueue_queue_completion(struct urcu_workqueue *workqueue,
408	struct urcu_workqueue_completion *completion)
409	{
410	struct urcu_workqueue_completion_work *work;
411
412	work = calloc(sizeof(*work), 1);
413	if (!work)
414	urcu_die(errno);
415	work->completion = completion;
416	urcu_ref_get(&completion->ref);
417	uatomic_inc(&completion->barrier_count);
418	urcu_workqueue_queue_work(workqueue, &work->work, _urcu_workqueue_wait_complete);
419	}
420
421	/*
422	* Wait for all in-flight work to complete execution.
423	*/
424	void urcu_workqueue_flush_queued_work(struct urcu_workqueue *workqueue)
425	{
426	struct urcu_workqueue_completion *completion;
427
428	completion = urcu_workqueue_create_completion();
429	if (!completion)
430	urcu_die(ENOMEM);
431	urcu_workqueue_queue_completion(workqueue, completion);
432	urcu_workqueue_wait_completion(completion);
433	urcu_workqueue_destroy_completion(completion);
434	}
435
436	/* To be used in before fork handler. */
437	void urcu_workqueue_pause_worker(struct urcu_workqueue *workqueue)
438	{
439	uatomic_or(&workqueue->flags, URCU_WORKQUEUE_PAUSE);
440	cmm_smp_mb__after_uatomic_or();
441	wake_worker_thread(workqueue);
442
443	while ((uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSED) == 0)
444	(void) poll(NULL, 0, 1);
445	}
446
447	/* To be used in after fork parent handler. */
448	void urcu_workqueue_resume_worker(struct urcu_workqueue *workqueue)
449	{
450	uatomic_and(&workqueue->flags, ~URCU_WORKQUEUE_PAUSE);
451	while ((uatomic_read(&workqueue->flags) & URCU_WORKQUEUE_PAUSED) != 0)
452	(void) poll(NULL, 0, 1);
453	}
454
455	void urcu_workqueue_create_worker(struct urcu_workqueue *workqueue)
456	{
457	int ret;
458
459	/* Clear workqueue state from parent. */
460	workqueue->flags &= ~URCU_WORKQUEUE_PAUSED;
461	workqueue->flags &= ~URCU_WORKQUEUE_PAUSE;
462	workqueue->tid = 0;
463	ret = pthread_create(&workqueue->tid, NULL, workqueue_thread, workqueue);
464	if (ret) {
465	urcu_die(ret);
466	}
467	}