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613471549f
Provided the device driver does not implement dispatch budget accounting (which only SCSI does) the loop in __blk_mq_do_dispatch_sched() pulls requests from the IO scheduler as long as it is willing to give out any. That defeats scheduling heuristics inside the scheduler by creating false impression that the device can take more IO when it in fact cannot. For example with BFQ IO scheduler on top of virtio-blk device setting blkio cgroup weight has barely any impact on observed throughput of async IO because __blk_mq_do_dispatch_sched() always sucks out all the IO queued in BFQ. BFQ first submits IO from higher weight cgroups but when that is all dispatched, it will give out IO of lower weight cgroups as well. And then we have to wait for all this IO to be dispatched to the disk (which means lot of it actually has to complete) before the IO scheduler is queried again for dispatching more requests. This completely destroys any service differentiation. So grab request tag for a request pulled out of the IO scheduler already in __blk_mq_do_dispatch_sched() and do not pull any more requests if we cannot get it because we are unlikely to be able to dispatch it. That way only single request is going to wait in the dispatch list for some tag to free. Reviewed-by: Ming Lei <ming.lei@redhat.com> Signed-off-by: Jan Kara <jack@suse.cz> Link: https://lore.kernel.org/r/20210603104721.6309-1-jack@suse.cz Signed-off-by: Jens Axboe <axboe@kernel.dk>
348 lines
9.8 KiB
C
348 lines
9.8 KiB
C
/* SPDX-License-Identifier: GPL-2.0 */
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#ifndef INT_BLK_MQ_H
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#define INT_BLK_MQ_H
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#include "blk-stat.h"
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#include "blk-mq-tag.h"
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struct blk_mq_tag_set;
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struct blk_mq_ctxs {
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struct kobject kobj;
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struct blk_mq_ctx __percpu *queue_ctx;
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};
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/**
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* struct blk_mq_ctx - State for a software queue facing the submitting CPUs
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*/
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struct blk_mq_ctx {
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struct {
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spinlock_t lock;
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struct list_head rq_lists[HCTX_MAX_TYPES];
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} ____cacheline_aligned_in_smp;
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unsigned int cpu;
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unsigned short index_hw[HCTX_MAX_TYPES];
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struct blk_mq_hw_ctx *hctxs[HCTX_MAX_TYPES];
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/* incremented at dispatch time */
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unsigned long rq_dispatched[2];
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unsigned long rq_merged;
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/* incremented at completion time */
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unsigned long ____cacheline_aligned_in_smp rq_completed[2];
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struct request_queue *queue;
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struct blk_mq_ctxs *ctxs;
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struct kobject kobj;
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} ____cacheline_aligned_in_smp;
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void blk_mq_exit_queue(struct request_queue *q);
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int blk_mq_update_nr_requests(struct request_queue *q, unsigned int nr);
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void blk_mq_wake_waiters(struct request_queue *q);
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bool blk_mq_dispatch_rq_list(struct blk_mq_hw_ctx *hctx, struct list_head *,
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unsigned int);
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void blk_mq_add_to_requeue_list(struct request *rq, bool at_head,
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bool kick_requeue_list);
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void blk_mq_flush_busy_ctxs(struct blk_mq_hw_ctx *hctx, struct list_head *list);
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struct request *blk_mq_dequeue_from_ctx(struct blk_mq_hw_ctx *hctx,
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struct blk_mq_ctx *start);
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void blk_mq_put_rq_ref(struct request *rq);
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/*
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* Internal helpers for allocating/freeing the request map
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*/
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void blk_mq_free_rqs(struct blk_mq_tag_set *set, struct blk_mq_tags *tags,
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unsigned int hctx_idx);
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void blk_mq_free_rq_map(struct blk_mq_tags *tags, unsigned int flags);
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struct blk_mq_tags *blk_mq_alloc_rq_map(struct blk_mq_tag_set *set,
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unsigned int hctx_idx,
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unsigned int nr_tags,
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unsigned int reserved_tags,
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unsigned int flags);
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int blk_mq_alloc_rqs(struct blk_mq_tag_set *set, struct blk_mq_tags *tags,
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unsigned int hctx_idx, unsigned int depth);
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/*
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* Internal helpers for request insertion into sw queues
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*/
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void __blk_mq_insert_request(struct blk_mq_hw_ctx *hctx, struct request *rq,
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bool at_head);
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void blk_mq_request_bypass_insert(struct request *rq, bool at_head,
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bool run_queue);
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void blk_mq_insert_requests(struct blk_mq_hw_ctx *hctx, struct blk_mq_ctx *ctx,
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struct list_head *list);
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/* Used by blk_insert_cloned_request() to issue request directly */
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blk_status_t blk_mq_request_issue_directly(struct request *rq, bool last);
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void blk_mq_try_issue_list_directly(struct blk_mq_hw_ctx *hctx,
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struct list_head *list);
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/*
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* CPU -> queue mappings
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*/
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extern int blk_mq_hw_queue_to_node(struct blk_mq_queue_map *qmap, unsigned int);
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/*
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* blk_mq_map_queue_type() - map (hctx_type,cpu) to hardware queue
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* @q: request queue
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* @type: the hctx type index
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* @cpu: CPU
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*/
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static inline struct blk_mq_hw_ctx *blk_mq_map_queue_type(struct request_queue *q,
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enum hctx_type type,
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unsigned int cpu)
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{
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return q->queue_hw_ctx[q->tag_set->map[type].mq_map[cpu]];
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}
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/*
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* blk_mq_map_queue() - map (cmd_flags,type) to hardware queue
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* @q: request queue
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* @flags: request command flags
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* @ctx: software queue cpu ctx
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*/
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static inline struct blk_mq_hw_ctx *blk_mq_map_queue(struct request_queue *q,
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unsigned int flags,
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struct blk_mq_ctx *ctx)
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{
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enum hctx_type type = HCTX_TYPE_DEFAULT;
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/*
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* The caller ensure that if REQ_HIPRI, poll must be enabled.
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*/
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if (flags & REQ_HIPRI)
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type = HCTX_TYPE_POLL;
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else if ((flags & REQ_OP_MASK) == REQ_OP_READ)
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type = HCTX_TYPE_READ;
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return ctx->hctxs[type];
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}
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/*
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* sysfs helpers
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*/
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extern void blk_mq_sysfs_init(struct request_queue *q);
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extern void blk_mq_sysfs_deinit(struct request_queue *q);
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extern int __blk_mq_register_dev(struct device *dev, struct request_queue *q);
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extern int blk_mq_sysfs_register(struct request_queue *q);
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extern void blk_mq_sysfs_unregister(struct request_queue *q);
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extern void blk_mq_hctx_kobj_init(struct blk_mq_hw_ctx *hctx);
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void blk_mq_release(struct request_queue *q);
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static inline struct blk_mq_ctx *__blk_mq_get_ctx(struct request_queue *q,
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unsigned int cpu)
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{
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return per_cpu_ptr(q->queue_ctx, cpu);
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}
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/*
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* This assumes per-cpu software queueing queues. They could be per-node
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* as well, for instance. For now this is hardcoded as-is. Note that we don't
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* care about preemption, since we know the ctx's are persistent. This does
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* mean that we can't rely on ctx always matching the currently running CPU.
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*/
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static inline struct blk_mq_ctx *blk_mq_get_ctx(struct request_queue *q)
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{
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return __blk_mq_get_ctx(q, raw_smp_processor_id());
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}
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struct blk_mq_alloc_data {
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/* input parameter */
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struct request_queue *q;
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blk_mq_req_flags_t flags;
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unsigned int shallow_depth;
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unsigned int cmd_flags;
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/* input & output parameter */
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struct blk_mq_ctx *ctx;
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struct blk_mq_hw_ctx *hctx;
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};
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static inline bool blk_mq_is_sbitmap_shared(unsigned int flags)
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{
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return flags & BLK_MQ_F_TAG_HCTX_SHARED;
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}
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static inline struct blk_mq_tags *blk_mq_tags_from_data(struct blk_mq_alloc_data *data)
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{
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if (data->q->elevator)
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return data->hctx->sched_tags;
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return data->hctx->tags;
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}
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static inline bool blk_mq_hctx_stopped(struct blk_mq_hw_ctx *hctx)
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{
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return test_bit(BLK_MQ_S_STOPPED, &hctx->state);
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}
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static inline bool blk_mq_hw_queue_mapped(struct blk_mq_hw_ctx *hctx)
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{
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return hctx->nr_ctx && hctx->tags;
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}
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unsigned int blk_mq_in_flight(struct request_queue *q,
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struct block_device *part);
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void blk_mq_in_flight_rw(struct request_queue *q, struct block_device *part,
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unsigned int inflight[2]);
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static inline void blk_mq_put_dispatch_budget(struct request_queue *q,
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int budget_token)
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{
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if (q->mq_ops->put_budget)
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q->mq_ops->put_budget(q, budget_token);
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}
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static inline int blk_mq_get_dispatch_budget(struct request_queue *q)
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{
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if (q->mq_ops->get_budget)
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return q->mq_ops->get_budget(q);
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return 0;
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}
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static inline void blk_mq_set_rq_budget_token(struct request *rq, int token)
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{
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if (token < 0)
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return;
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if (rq->q->mq_ops->set_rq_budget_token)
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rq->q->mq_ops->set_rq_budget_token(rq, token);
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}
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static inline int blk_mq_get_rq_budget_token(struct request *rq)
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{
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if (rq->q->mq_ops->get_rq_budget_token)
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return rq->q->mq_ops->get_rq_budget_token(rq);
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return -1;
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}
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static inline void __blk_mq_inc_active_requests(struct blk_mq_hw_ctx *hctx)
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{
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if (blk_mq_is_sbitmap_shared(hctx->flags))
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atomic_inc(&hctx->queue->nr_active_requests_shared_sbitmap);
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else
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atomic_inc(&hctx->nr_active);
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}
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static inline void __blk_mq_dec_active_requests(struct blk_mq_hw_ctx *hctx)
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{
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if (blk_mq_is_sbitmap_shared(hctx->flags))
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atomic_dec(&hctx->queue->nr_active_requests_shared_sbitmap);
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else
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atomic_dec(&hctx->nr_active);
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}
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static inline int __blk_mq_active_requests(struct blk_mq_hw_ctx *hctx)
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{
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if (blk_mq_is_sbitmap_shared(hctx->flags))
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return atomic_read(&hctx->queue->nr_active_requests_shared_sbitmap);
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return atomic_read(&hctx->nr_active);
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}
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static inline void __blk_mq_put_driver_tag(struct blk_mq_hw_ctx *hctx,
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struct request *rq)
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{
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blk_mq_put_tag(hctx->tags, rq->mq_ctx, rq->tag);
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rq->tag = BLK_MQ_NO_TAG;
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if (rq->rq_flags & RQF_MQ_INFLIGHT) {
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rq->rq_flags &= ~RQF_MQ_INFLIGHT;
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__blk_mq_dec_active_requests(hctx);
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}
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}
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static inline void blk_mq_put_driver_tag(struct request *rq)
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{
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if (rq->tag == BLK_MQ_NO_TAG || rq->internal_tag == BLK_MQ_NO_TAG)
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return;
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__blk_mq_put_driver_tag(rq->mq_hctx, rq);
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}
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bool blk_mq_get_driver_tag(struct request *rq);
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static inline void blk_mq_clear_mq_map(struct blk_mq_queue_map *qmap)
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{
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int cpu;
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for_each_possible_cpu(cpu)
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qmap->mq_map[cpu] = 0;
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}
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/*
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* blk_mq_plug() - Get caller context plug
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* @q: request queue
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* @bio : the bio being submitted by the caller context
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*
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* Plugging, by design, may delay the insertion of BIOs into the elevator in
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* order to increase BIO merging opportunities. This however can cause BIO
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* insertion order to change from the order in which submit_bio() is being
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* executed in the case of multiple contexts concurrently issuing BIOs to a
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* device, even if these context are synchronized to tightly control BIO issuing
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* order. While this is not a problem with regular block devices, this ordering
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* change can cause write BIO failures with zoned block devices as these
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* require sequential write patterns to zones. Prevent this from happening by
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* ignoring the plug state of a BIO issuing context if the target request queue
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* is for a zoned block device and the BIO to plug is a write operation.
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*
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* Return current->plug if the bio can be plugged and NULL otherwise
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*/
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static inline struct blk_plug *blk_mq_plug(struct request_queue *q,
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struct bio *bio)
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{
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/*
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* For regular block devices or read operations, use the context plug
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* which may be NULL if blk_start_plug() was not executed.
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*/
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if (!blk_queue_is_zoned(q) || !op_is_write(bio_op(bio)))
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return current->plug;
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/* Zoned block device write operation case: do not plug the BIO */
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return NULL;
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}
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/*
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* For shared tag users, we track the number of currently active users
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* and attempt to provide a fair share of the tag depth for each of them.
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*/
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static inline bool hctx_may_queue(struct blk_mq_hw_ctx *hctx,
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struct sbitmap_queue *bt)
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{
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unsigned int depth, users;
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if (!hctx || !(hctx->flags & BLK_MQ_F_TAG_QUEUE_SHARED))
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return true;
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/*
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* Don't try dividing an ant
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*/
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if (bt->sb.depth == 1)
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return true;
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if (blk_mq_is_sbitmap_shared(hctx->flags)) {
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struct request_queue *q = hctx->queue;
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struct blk_mq_tag_set *set = q->tag_set;
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if (!test_bit(QUEUE_FLAG_HCTX_ACTIVE, &q->queue_flags))
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return true;
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users = atomic_read(&set->active_queues_shared_sbitmap);
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} else {
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if (!test_bit(BLK_MQ_S_TAG_ACTIVE, &hctx->state))
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return true;
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users = atomic_read(&hctx->tags->active_queues);
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}
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if (!users)
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return true;
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/*
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* Allow at least some tags
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*/
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depth = max((bt->sb.depth + users - 1) / users, 4U);
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return __blk_mq_active_requests(hctx) < depth;
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}
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#endif
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