Commit cfd69712 authored by Paolo Valente's avatar Paolo Valente Committed by Jens Axboe

block, bfq: reduce latency during request-pool saturation

This patch introduces an heuristic that reduces latency when the
I/O-request pool is saturated. This goal is achieved by disabling
device idling, for non-weight-raised queues, when there are weight-
raised queues with pending or in-flight requests. In fact, as
explained in more detail in the comment on the function
bfq_bfqq_may_idle(), this reduces the rate at which processes
associated with non-weight-raised queues grab requests from the pool,
thereby increasing the probability that processes associated with
weight-raised queues get a request immediately (or at least soon) when
they need one. Along the same line, if there are weight-raised queues,
then this patch halves the service rate of async (write) requests for
non-weight-raised queues.
Signed-off-by: default avatarPaolo Valente <paolo.valente@linaro.org>
Signed-off-by: default avatarArianna Avanzini <avanzini.arianna@gmail.com>
Signed-off-by: default avatarJens Axboe <axboe@fb.com>
parent bcd56426
......@@ -420,6 +420,8 @@ struct bfq_data {
* queue in service, even if it is idling).
*/
int busy_queues;
/* number of weight-raised busy @bfq_queues */
int wr_busy_queues;
/* number of queued requests */
int queued;
/* number of requests dispatched and waiting for completion */
......@@ -2490,6 +2492,9 @@ static void bfq_del_bfqq_busy(struct bfq_data *bfqd, struct bfq_queue *bfqq,
bfqd->busy_queues--;
if (bfqq->wr_coeff > 1)
bfqd->wr_busy_queues--;
bfqg_stats_update_dequeue(bfqq_group(bfqq));
bfq_deactivate_bfqq(bfqd, bfqq, true, expiration);
......@@ -2506,6 +2511,9 @@ static void bfq_add_bfqq_busy(struct bfq_data *bfqd, struct bfq_queue *bfqq)
bfq_mark_bfqq_busy(bfqq);
bfqd->busy_queues++;
if (bfqq->wr_coeff > 1)
bfqd->wr_busy_queues++;
}
#ifdef CONFIG_BFQ_GROUP_IOSCHED
......@@ -3779,7 +3787,16 @@ static unsigned long bfq_serv_to_charge(struct request *rq,
if (bfq_bfqq_sync(bfqq) || bfqq->wr_coeff > 1)
return blk_rq_sectors(rq);
return blk_rq_sectors(rq) * bfq_async_charge_factor;
/*
* If there are no weight-raised queues, then amplify service
* by just the async charge factor; otherwise amplify service
* by twice the async charge factor, to further reduce latency
* for weight-raised queues.
*/
if (bfqq->bfqd->wr_busy_queues == 0)
return blk_rq_sectors(rq) * bfq_async_charge_factor;
return blk_rq_sectors(rq) * 2 * bfq_async_charge_factor;
}
/**
......@@ -4234,6 +4251,7 @@ static void bfq_add_request(struct request *rq)
bfqq->wr_coeff = bfqd->bfq_wr_coeff;
bfqq->wr_cur_max_time = bfq_wr_duration(bfqd);
bfqd->wr_busy_queues++;
bfqq->entity.prio_changed = 1;
}
if (prev != bfqq->next_rq)
......@@ -4474,6 +4492,8 @@ static void bfq_requests_merged(struct request_queue *q, struct request *rq,
/* Must be called with bfqq != NULL */
static void bfq_bfqq_end_wr(struct bfq_queue *bfqq)
{
if (bfq_bfqq_busy(bfqq))
bfqq->bfqd->wr_busy_queues--;
bfqq->wr_coeff = 1;
bfqq->wr_cur_max_time = 0;
bfqq->last_wr_start_finish = jiffies;
......@@ -5497,7 +5517,8 @@ static bool bfq_may_expire_for_budg_timeout(struct bfq_queue *bfqq)
static bool bfq_bfqq_may_idle(struct bfq_queue *bfqq)
{
struct bfq_data *bfqd = bfqq->bfqd;
bool idling_boosts_thr, asymmetric_scenario;
bool idling_boosts_thr, idling_boosts_thr_without_issues,
asymmetric_scenario;
if (bfqd->strict_guarantees)
return true;
......@@ -5519,6 +5540,44 @@ static bool bfq_bfqq_may_idle(struct bfq_queue *bfqq)
*/
idling_boosts_thr = !bfqd->hw_tag || bfq_bfqq_IO_bound(bfqq);
/*
* The value of the next variable,
* idling_boosts_thr_without_issues, is equal to that of
* idling_boosts_thr, unless a special case holds. In this
* special case, described below, idling may cause problems to
* weight-raised queues.
*
* When the request pool is saturated (e.g., in the presence
* of write hogs), if the processes associated with
* non-weight-raised queues ask for requests at a lower rate,
* then processes associated with weight-raised queues have a
* higher probability to get a request from the pool
* immediately (or at least soon) when they need one. Thus
* they have a higher probability to actually get a fraction
* of the device throughput proportional to their high
* weight. This is especially true with NCQ-capable drives,
* which enqueue several requests in advance, and further
* reorder internally-queued requests.
*
* For this reason, we force to false the value of
* idling_boosts_thr_without_issues if there are weight-raised
* busy queues. In this case, and if bfqq is not weight-raised,
* this guarantees that the device is not idled for bfqq (if,
* instead, bfqq is weight-raised, then idling will be
* guaranteed by another variable, see below). Combined with
* the timestamping rules of BFQ (see [1] for details), this
* behavior causes bfqq, and hence any sync non-weight-raised
* queue, to get a lower number of requests served, and thus
* to ask for a lower number of requests from the request
* pool, before the busy weight-raised queues get served
* again. This often mitigates starvation problems in the
* presence of heavy write workloads and NCQ, thereby
* guaranteeing a higher application and system responsiveness
* in these hostile scenarios.
*/
idling_boosts_thr_without_issues = idling_boosts_thr &&
bfqd->wr_busy_queues == 0;
/*
* There is then a case where idling must be performed not for
* throughput concerns, but to preserve service guarantees. To
......@@ -5593,7 +5652,7 @@ static bool bfq_bfqq_may_idle(struct bfq_queue *bfqq)
* is necessary to preserve service guarantees.
*/
return bfq_bfqq_sync(bfqq) &&
(idling_boosts_thr || asymmetric_scenario);
(idling_boosts_thr_without_issues || asymmetric_scenario);
}
/*
......@@ -6801,6 +6860,7 @@ static int bfq_init_queue(struct request_queue *q, struct elevator_type *e)
* high-definition compressed
* video.
*/
bfqd->wr_busy_queues = 0;
/*
* Begin by assuming, optimistically, that the device is a
......
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