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|
/*
* %CopyrightBegin%
*
* Copyright Ericsson AB 2011-2012. All Rights Reserved.
*
* The contents of this file are subject to the Erlang Public License,
* Version 1.1, (the "License"); you may not use this file except in
* compliance with the License. You should have received a copy of the
* Erlang Public License along with this software. If not, it can be
* retrieved online at http://www.erlang.org/.
*
* Software distributed under the License is distributed on an "AS IS"
* basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See
* the License for the specific language governing rights and limitations
* under the License.
*
* %CopyrightEnd%
*/
/*
* Description: Lock-free queue for communication between threads.
*
* Currently only a many-to-one version has been,
* implemented, i.e., many threads can enqueue but
* only one thread can dequeue at a time. It doesn't
* have to be the same thread dequeuing every time, but
* synchronization so that only one thread dequeues
* at a time has to be provided by other means.
*
* When/If the need for a many-to-many queue arises,
* this implementation can relatively easy be extended
* to support that too.
*
* Usage instructions below.
*
* Author: Rickard Green
*/
/*
* ------ Usage instructions -----------------------------------------------
*
* Dequeuing generates garbage that needs to be cleaned up.
* erts_thr_q_dequeue() automatically cleans, but garbage may have to be
* cleaned up also when the queue is empty. This is done by calling
* erts_thr_q_clean(). In the SMP case thread progress may have to be made
* before cleaning can continue. If so, erts_thr_q_need_thr_progress() in
* combination with erts_thr_progress_wakeup() can be used in order to
* request a wakeup at appropriate time.
*
* Enqueuing implies memory allocation and dequeuing implies memory
* deallocation. Memory allocation can be moved to another more suitable
* thread using erts_thr_q_prepare_enqueue() together with
* erts_thr_q_enqueue_prepared() instead of using erts_thr_q_enqueue().
* Memory deallocation can can be moved to another more suitable thread by
* disabling auto_finalize_dequeue when initializing the queue and then use
* erts_thr_q_get_finalize_dequeue_data() together
* erts_thr_q_finalize_dequeue() after dequeuing or cleaning.
*
* Ending the life of the queue using either erts_thr_q_destroy()
* or erts_thr_q_finalize() impies cleaning the queue. Both functions
* return the cleaning result and may have to be called multiple times
* until the queue is clean. Once one of these functions have been called
* enqueuing is not allowed. This has to be synchronized by the user.
* If auto_finalize_dequeue has been disabled, the finalize dequeue
* functionality has to be called after ending the life of the queue just
* as when dequeuing or cleaning on a queue that is alive.
*
* -------------------------------------------------------------------------
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include "erl_thr_queue.h"
#if defined(DEBUG)
#define ERTS_THR_Q_DBG_CHK_DATA 1
#else
#define ERTS_THR_Q_DBG_CHK_DATA 0
#endif
#define ERTS_THR_Q_MAX_CLEAN_REACHED_HEAD_COUNT 100
#define ERTS_THR_Q_MAX_SCHED_CLEAN_OPS 50
#define ERTS_THR_Q_MAX_DEQUEUE_CLEAN_OPS 3
#define ERTS_THR_Q_MAX_FINI_DEQ_OPS 50
#ifdef ERTS_SMP
ERTS_SCHED_PREF_QUICK_ALLOC_IMPL(sl_element,
ErtsThrQElement_t,
1000,
ERTS_ALC_T_THR_Q_EL_SL)
#else
static void
init_sl_element_alloc(void)
{
}
static ErtsThrQElement_t *
sl_element_alloc(void)
{
return erts_alloc(ERTS_ALC_T_THR_Q_EL_SL,
sizeof(ErtsThrQElement_t));
}
static void
sl_element_free(ErtsThrQElement_t *p)
{
erts_free(ERTS_ALC_T_THR_Q_EL_SL, p);
}
#endif
#define ErtsThrQDirtyReadEl(A) \
((ErtsThrQElement_t *) erts_atomic_read_dirty((A)))
#define ErtsThrQDirtySetEl(A, V) \
erts_atomic_set_dirty((A), (erts_aint_t) (V))
typedef union {
ErtsThrQ_t q;
char align__[ERTS_ALC_CACHE_LINE_ALIGN_SIZE(sizeof(ErtsThrQ_t))];
} ErtsAlignedThrQ_t;
void
erts_thr_q_init(void)
{
init_sl_element_alloc();
}
static void noop_callback(void *arg) { }
void
erts_thr_q_initialize(ErtsThrQ_t *q, ErtsThrQInit_t *qi)
{
#ifndef USE_THREADS
q->init = *qi;
if (!q->init.notify)
q->init.notify = noop_callback;
q->first = NULL;
q->last = NULL;
q->q.blk = NULL;
#else
erts_atomic_init_nob(&q->tail.data.marker.next, ERTS_AINT_NULL);
q->tail.data.marker.data.ptr = NULL;
erts_atomic_init_nob(&q->tail.data.last,
(erts_aint_t) &q->tail.data.marker);
erts_atomic_init_nob(&q->tail.data.um_refc[0], 0);
erts_atomic_init_nob(&q->tail.data.um_refc[1], 0);
erts_atomic32_init_nob(&q->tail.data.um_refc_ix, 0);
q->tail.data.live = qi->live.objects;
q->tail.data.arg = qi->arg;
q->tail.data.notify = qi->notify;
if (!q->tail.data.notify)
q->tail.data.notify = noop_callback;
erts_atomic_init_nob(&q->head.head, (erts_aint_t) &q->tail.data.marker);
q->head.live = qi->live.objects;
q->head.first = &q->tail.data.marker;
q->head.unref_end = &q->tail.data.marker;
q->head.clean_reached_head_count = 0;
q->head.deq_fini.automatic = qi->auto_finalize_dequeue;
q->head.deq_fini.start = NULL;
q->head.deq_fini.end = NULL;
#ifdef ERTS_SMP
q->head.next.thr_progress = erts_thr_progress_current();
q->head.next.thr_progress_reached = 1;
#endif
q->head.next.um_refc_ix = 1;
q->head.next.unref_end = &q->tail.data.marker;
q->head.used_marker = 1;
q->head.arg = qi->arg;
q->head.notify = q->tail.data.notify;
q->q.finalizing = 0;
q->q.live = qi->live.queue;
q->q.blk = NULL;
#endif
}
ErtsThrQCleanState_t
erts_thr_q_finalize(ErtsThrQ_t *q)
{
#ifdef USE_THREADS
q->q.finalizing = 1;
#endif
while (erts_thr_q_dequeue(q));
return erts_thr_q_clean(q);
}
ErtsThrQ_t *
erts_thr_q_create(ErtsThrQInit_t *qi)
{
ErtsAlcType_t atype;
ErtsThrQ_t *q, *qblk;
UWord qw;
switch (qi->live.queue) {
case ERTS_THR_Q_LIVE_SHORT:
atype = ERTS_ALC_T_THR_Q_SL;
break;
case ERTS_THR_Q_LIVE_LONG:
atype = ERTS_ALC_T_THR_Q_LL;
break;
default:
atype = ERTS_ALC_T_THR_Q;
break;
}
qw = (UWord) erts_alloc(atype,
sizeof(ErtsThrQ_t) + (ERTS_CACHE_LINE_SIZE-1));
qblk = (ErtsThrQ_t *) qw;
if (qw & ERTS_CACHE_LINE_MASK)
qw = (qw & ~ERTS_CACHE_LINE_MASK) + ERTS_CACHE_LINE_SIZE;
ASSERT((qw & ERTS_CACHE_LINE_MASK) == 0);
q = (ErtsThrQ_t *) qw;
erts_thr_q_initialize(q, qi);
q->q.blk = qblk;
return q;
}
ErtsThrQCleanState_t
erts_thr_q_destroy(ErtsThrQ_t *q)
{
if (!q->q.blk)
erl_exit(ERTS_ABORT_EXIT,
"Trying to destroy not created thread queue\n");
return erts_thr_q_finalize(q);
}
#ifdef USE_THREADS
static void
destroy(ErtsThrQ_t *q)
{
ErtsAlcType_t atype;
switch (q->q.live) {
case ERTS_THR_Q_LIVE_SHORT:
atype = ERTS_ALC_T_THR_Q_SL;
break;
case ERTS_THR_Q_LIVE_LONG:
atype = ERTS_ALC_T_THR_Q_LL;
break;
default:
atype = ERTS_ALC_T_THR_Q;
break;
}
erts_free(atype, q->q.blk);
}
#endif
static ERTS_INLINE ErtsThrQElement_t *
element_live_alloc(ErtsThrQLive_t live)
{
switch (live) {
case ERTS_THR_Q_LIVE_SHORT:
return sl_element_alloc();
default:
return (ErtsThrQElement_t *) erts_alloc(ERTS_ALC_T_THR_Q_EL,
sizeof(ErtsThrQElement_t));
}
}
static ERTS_INLINE ErtsThrQElement_t *
element_alloc(ErtsThrQ_t *q)
{
ErtsThrQLive_t live;
#ifdef USE_THREADS
live = q->tail.data.live;
#else
live = q->init.live.objects;
#endif
return element_live_alloc(live);
}
static ERTS_INLINE void
element_live_free(ErtsThrQLive_t live, ErtsThrQElement_t *el)
{
switch (live) {
case ERTS_THR_Q_LIVE_SHORT:
sl_element_free(el);
break;
default:
erts_free(ERTS_ALC_T_THR_Q_EL, el);
}
}
static ERTS_INLINE void
element_free(ErtsThrQ_t *q, ErtsThrQElement_t *el)
{
ErtsThrQLive_t live;
#ifdef USE_THREADS
live = q->head.live;
#else
live = q->init.live.objects;
#endif
element_live_free(live, el);
}
#ifdef USE_THREADS
static ERTS_INLINE ErtsThrQElement_t *
enqueue_managed(ErtsThrQ_t *q, ErtsThrQElement_t *this, int want_last)
{
erts_aint_t ilast, itmp;
erts_atomic_init_nob(&this->next, ERTS_AINT_NULL);
/* Enqueue at end of list... */
ilast = erts_atomic_read_nob(&q->tail.data.last);
while (1) {
ErtsThrQElement_t *last = (ErtsThrQElement_t *) ilast;
itmp = erts_atomic_cmpxchg_mb(&last->next,
(erts_aint_t) this,
ERTS_AINT_NULL);
if (itmp == ERTS_AINT_NULL)
break;
ilast = itmp;
}
/* Move last pointer forward... */
while (1) {
if (want_last) {
if (erts_atomic_read_rb(&this->next) != ERTS_AINT_NULL) {
/* Someone else will move it forward */
ilast = erts_atomic_read_rb(&q->tail.data.last);
return (ErtsThrQElement_t *) ilast;
}
}
else {
if (erts_atomic_read_nob(&this->next) != ERTS_AINT_NULL) {
/* Someone else will move it forward */
return NULL;
}
}
itmp = erts_atomic_cmpxchg_mb(&q->tail.data.last,
(erts_aint_t) this,
ilast);
if (ilast == itmp)
return want_last ? this : NULL;
ilast = itmp;
}
}
static ErtsThrQCleanState_t
clean(ErtsThrQ_t *q, int max_ops, int do_notify)
{
ErtsThrQElement_t *head;
erts_aint_t ilast;
int um_refc_ix;
int ops;
for (ops = 0; ops < max_ops; ops++) {
ErtsThrQElement_t *tmp;
restart:
ASSERT(q->head.first);
head = ErtsThrQDirtyReadEl(&q->head.head);
if (q->head.first == head) {
q->head.clean_reached_head_count++;
if (q->head.clean_reached_head_count
>= ERTS_THR_Q_MAX_CLEAN_REACHED_HEAD_COUNT) {
q->head.clean_reached_head_count = 0;
break;
}
goto inspect_head;
}
if (q->head.first == q->head.unref_end)
break;
if (q->head.first == &q->tail.data.marker) {
q->head.used_marker = 0;
q->head.first = ErtsThrQDirtyReadEl(&q->head.first->next);
goto restart;
}
tmp = q->head.first;
q->head.first = ErtsThrQDirtyReadEl(&q->head.first->next);
if (q->head.deq_fini.automatic)
element_free(q, tmp);
else {
tmp->data.ptr = (void *) (UWord) q->head.live;
if (!q->head.deq_fini.start)
q->head.deq_fini.start = tmp;
else if (ErtsThrQDirtyReadEl(&q->head.deq_fini.end->next)
== &q->tail.data.marker)
ErtsThrQDirtySetEl(&q->head.deq_fini.end->next, tmp);
q->head.deq_fini.end = tmp;
}
}
ilast = erts_atomic_read_nob(&q->tail.data.last);
if (q->head.first == ((ErtsThrQElement_t *) ilast)
&& ((ErtsThrQElement_t *) ilast) == &q->tail.data.marker
&& q->head.first == &q->tail.data.marker) {
/* Empty and clean queue */
if (q->q.finalizing)
destroy(q);
return ERTS_THR_Q_CLEAN;
}
#ifdef ERTS_SMP
if (q->head.next.thr_progress_reached
|| erts_thr_progress_has_reached(q->head.next.thr_progress)) {
q->head.next.thr_progress_reached = 1;
#endif
um_refc_ix = q->head.next.um_refc_ix;
if (erts_atomic_read_acqb(&q->tail.data.um_refc[um_refc_ix]) == 0) {
/* Move unreferenced end pointer forward... */
q->head.clean_reached_head_count = 0;
q->head.unref_end = q->head.next.unref_end;
if (!q->head.used_marker
&& q->head.unref_end == (ErtsThrQElement_t *) ilast) {
q->head.used_marker = 1;
ilast = (erts_aint_t) enqueue_managed(q,
&q->tail.data.marker,
1);
head = ErtsThrQDirtyReadEl(&q->head.head);
if (head == q->head.unref_end) {
ErtsThrQElement_t *next;
next = ((ErtsThrQElement_t *)
erts_atomic_read_acqb(&head->next));
if (next == &q->tail.data.marker)
ErtsThrQDirtySetEl(&q->head.head, &q->tail.data.marker);
}
}
if (q->head.unref_end == (ErtsThrQElement_t *) ilast)
ERTS_SMP_MEMORY_BARRIER;
else {
q->head.next.unref_end = (ErtsThrQElement_t *) ilast;
#ifdef ERTS_SMP
q->head.next.thr_progress = erts_thr_progress_later(NULL);
#endif
erts_atomic32_set_relb(&q->tail.data.um_refc_ix,
um_refc_ix);
q->head.next.um_refc_ix = um_refc_ix == 0 ? 1 : 0;
#ifdef ERTS_SMP
q->head.next.thr_progress_reached = 0;
#endif
}
}
#ifdef ERTS_SMP
}
#endif
head = ErtsThrQDirtyReadEl(&q->head.head);
if (q->head.first == head) {
inspect_head:
if (!q->head.used_marker) {
erts_aint_t inext;
inext = erts_atomic_read_acqb(&head->next);
if (inext == ERTS_AINT_NULL) {
q->head.used_marker = 1;
(void) enqueue_managed(q, &q->tail.data.marker, 0);
inext = erts_atomic_read_acqb(&head->next);
if (inext == (erts_aint_t) &q->tail.data.marker) {
ErtsThrQDirtySetEl(&q->head.head, &q->tail.data.marker);
goto check_thr_progress;
}
}
}
if (q->q.finalizing) {
ilast = erts_atomic_read_nob(&q->tail.data.last);
if (q->head.first == ((ErtsThrQElement_t *) ilast)
&& ((ErtsThrQElement_t *) ilast) == &q->tail.data.marker
&& q->head.first == &q->tail.data.marker) {
destroy(q);
}
else {
goto dirty;
}
}
return ERTS_THR_Q_CLEAN;
}
if (q->head.first != q->head.unref_end)
goto dirty;
check_thr_progress:
#ifdef ERTS_SMP
if (q->head.next.thr_progress_reached)
#endif
{
int um_refc_ix = q->head.next.um_refc_ix;
if (erts_atomic_read_acqb(&q->tail.data.um_refc[um_refc_ix]) == 0) {
dirty:
if (do_notify)
q->head.notify(q->head.arg);
return ERTS_THR_Q_DIRTY;
}
}
return ERTS_THR_Q_NEED_THR_PRGR;
}
#endif
ErtsThrQCleanState_t
erts_thr_q_clean(ErtsThrQ_t *q)
{
#ifdef USE_THREADS
return clean(q, ERTS_THR_Q_MAX_SCHED_CLEAN_OPS, 0);
#else
return ERTS_THR_Q_CLEAN;
#endif
}
ErtsThrQCleanState_t
erts_thr_q_inspect(ErtsThrQ_t *q, int ensure_empty)
{
#ifndef USE_THREADS
return ERTS_THR_Q_CLEAN;
#else
ErtsThrQElement_t *head = ErtsThrQDirtyReadEl(&q->head.head);
if (ensure_empty) {
erts_aint_t inext;
inext = erts_atomic_read_acqb(&head->next);
if (inext != ERTS_AINT_NULL) {
if (&q->tail.data.marker != (ErtsThrQElement_t *) inext)
return ERTS_THR_Q_DIRTY;
else {
head = (ErtsThrQElement_t *) inext;
ErtsThrQDirtySetEl(&q->head.head, head);
inext = erts_atomic_read_acqb(&head->next);
if (inext != ERTS_AINT_NULL)
return ERTS_THR_Q_DIRTY;
}
}
}
if (q->head.first == head) {
if (!q->head.used_marker) {
erts_aint_t inext;
inext = erts_atomic_read_acqb(&head->next);
if (inext == ERTS_AINT_NULL)
return ERTS_THR_Q_DIRTY;
}
return ERTS_THR_Q_CLEAN;
}
if (q->head.first != q->head.unref_end)
return ERTS_THR_Q_DIRTY;
#ifdef ERTS_SMP
if (q->head.next.thr_progress_reached)
#endif
{
int um_refc_ix = q->head.next.um_refc_ix;
if (erts_atomic_read_acqb(&q->tail.data.um_refc[um_refc_ix]) == 0)
return ERTS_THR_Q_DIRTY;
}
return ERTS_THR_Q_NEED_THR_PRGR;
#endif
}
static void
enqueue(ErtsThrQ_t *q, void *data, ErtsThrQElement_t *this)
{
#ifndef USE_THREADS
ASSERT(data);
this->next = NULL;
this->data.ptr = data;
if (q->last)
q->last->next = this;
else {
q->first = q->last = this;
q->init.notify(q->init.arg);
}
#else
int notify;
int um_refc_ix = 0;
#ifdef ERTS_SMP
int unmanaged_thread;
#endif
#if ERTS_THR_Q_DBG_CHK_DATA
if (!data)
erl_exit(ERTS_ABORT_EXIT, "Missing data in enqueue\n");
#endif
ASSERT(!q->q.finalizing);
this->data.ptr = data;
#ifdef ERTS_SMP
unmanaged_thread = !erts_thr_progress_is_managed_thread();
if (unmanaged_thread)
#endif
{
um_refc_ix = erts_atomic32_read_acqb(&q->tail.data.um_refc_ix);
while (1) {
int tmp_um_refc_ix;
erts_atomic_inc_acqb(&q->tail.data.um_refc[um_refc_ix]);
tmp_um_refc_ix = erts_atomic32_read_acqb(&q->tail.data.um_refc_ix);
if (tmp_um_refc_ix == um_refc_ix)
break;
erts_atomic_dec_relb(&q->tail.data.um_refc[um_refc_ix]);
um_refc_ix = tmp_um_refc_ix;
}
}
notify = this == enqueue_managed(q, this, 1);
#ifdef ERTS_SMP
if (unmanaged_thread)
#endif
{
if (notify)
erts_atomic_dec_relb(&q->tail.data.um_refc[um_refc_ix]);
else if (erts_atomic_dec_read_relb(&q->tail.data.um_refc[um_refc_ix]) == 0)
notify = 1;
}
if (notify)
q->tail.data.notify(q->tail.data.arg);
#endif
}
void
erts_thr_q_enqueue(ErtsThrQ_t *q, void *data)
{
enqueue(q, data, element_alloc(q));
}
ErtsThrQPrepEnQ_t *
erts_thr_q_prepare_enqueue(ErtsThrQ_t *q)
{
return (ErtsThrQPrepEnQ_t *) element_alloc(q);
}
int
erts_thr_q_get_finalize_dequeue_data(ErtsThrQ_t *q, ErtsThrQFinDeQ_t *fdp)
{
#ifndef USE_THREADS
return 0;
#else
#ifdef DEBUG
if (!q->head.deq_fini.start) {
ASSERT(!q->head.deq_fini.end);
}
else {
ErtsThrQElement_t *e = q->head.deq_fini.start;
ErtsThrQElement_t *end = q->head.deq_fini.end;
while (e != end) {
ASSERT(ErtsThrQDirtyReadEl(&q->head.head) != e);
ASSERT(q->head.first != e);
ASSERT(q->head.unref_end != e);
e = ErtsThrQDirtyReadEl(&e->next);
}
}
#endif
fdp->start = q->head.deq_fini.start;
fdp->end = q->head.deq_fini.end;
if (fdp->end)
ErtsThrQDirtySetEl(&fdp->end->next, NULL);
q->head.deq_fini.start = NULL;
q->head.deq_fini.end = NULL;
return fdp->start != NULL;
#endif
}
void
erts_thr_q_append_finalize_dequeue_data(ErtsThrQFinDeQ_t *fdp0,
ErtsThrQFinDeQ_t *fdp1)
{
#ifdef USE_THREADS
if (fdp1->start) {
if (fdp0->end)
ErtsThrQDirtySetEl(&fdp0->end->next, fdp1->start);
else
fdp0->start = fdp1->start;
fdp0->end = fdp1->end;
}
#endif
}
int erts_thr_q_finalize_dequeue(ErtsThrQFinDeQ_t *state)
{
#ifdef USE_THREADS
ErtsThrQElement_t *start = state->start;
if (start) {
ErtsThrQLive_t live;
int i;
for (i = 0; i < ERTS_THR_Q_MAX_FINI_DEQ_OPS; i++) {
ErtsThrQElement_t *tmp;
if (!start)
break;
tmp = start;
start = ErtsThrQDirtyReadEl(&start->next);
live = (ErtsThrQLive_t) (UWord) tmp->data.ptr;
element_live_free(live, tmp);
}
state->start = start;
if (start)
return 1; /* More to do */
state->end = NULL;
}
#endif
return 0;
}
void
erts_thr_q_finalize_dequeue_state_init(ErtsThrQFinDeQ_t *state)
{
#ifdef USE_THREADS
state->start = NULL;
state->end = NULL;
#endif
}
void
erts_thr_q_enqueue_prepared(ErtsThrQ_t *q, void *data, ErtsThrQPrepEnQ_t *prep)
{
ASSERT(prep);
enqueue(q, data, (ErtsThrQElement_t *) prep);
}
void *
erts_thr_q_dequeue(ErtsThrQ_t *q)
{
#ifndef USE_THREADS
void *res;
ErtsThrQElement_t *tmp;
if (!q->first)
return NULL;
tmp = q->first;
res = tmp->data.ptr;
q->first = tmp->next;
if (!q->first)
q->last = NULL;
element_free(q, tmp);
return res;
#else
ErtsThrQElement_t *head;
erts_aint_t inext;
void *res;
head = ErtsThrQDirtyReadEl(&q->head.head);
inext = erts_atomic_read_acqb(&head->next);
if (inext == ERTS_AINT_NULL)
return NULL;
head = (ErtsThrQElement_t *) inext;
ErtsThrQDirtySetEl(&q->head.head, head);
if (head == &q->tail.data.marker) {
inext = erts_atomic_read_acqb(&head->next);
if (inext == ERTS_AINT_NULL)
return NULL;
head = (ErtsThrQElement_t *) inext;
ErtsThrQDirtySetEl(&q->head.head, head);
}
res = head->data.ptr;
#if ERTS_THR_Q_DBG_CHK_DATA
head->data.ptr = NULL;
if (!res)
erl_exit(ERTS_ABORT_EXIT, "Missing data in dequeue\n");
#endif
clean(q,
(q->head.deq_fini.automatic
? ERTS_THR_Q_MAX_DEQUEUE_CLEAN_OPS
: ERTS_THR_Q_MAX_SCHED_CLEAN_OPS), 1);
return res;
#endif
}
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