a7b36ee6ba
Even if no policies are defined, we spend ~2% of the total IO time checking. Move the fast path inline. Acked-by: Tejun Heo <tj@kernel.org> Signed-off-by: Jens Axboe <axboe@kernel.dk>
183 lines
5.7 KiB
C
183 lines
5.7 KiB
C
#ifndef BLK_THROTTLE_H
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#define BLK_THROTTLE_H
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#include "blk-cgroup-rwstat.h"
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/*
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* To implement hierarchical throttling, throtl_grps form a tree and bios
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* are dispatched upwards level by level until they reach the top and get
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* issued. When dispatching bios from the children and local group at each
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* level, if the bios are dispatched into a single bio_list, there's a risk
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* of a local or child group which can queue many bios at once filling up
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* the list starving others.
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*
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* To avoid such starvation, dispatched bios are queued separately
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* according to where they came from. When they are again dispatched to
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* the parent, they're popped in round-robin order so that no single source
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* hogs the dispatch window.
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*
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* throtl_qnode is used to keep the queued bios separated by their sources.
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* Bios are queued to throtl_qnode which in turn is queued to
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* throtl_service_queue and then dispatched in round-robin order.
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*
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* It's also used to track the reference counts on blkg's. A qnode always
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* belongs to a throtl_grp and gets queued on itself or the parent, so
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* incrementing the reference of the associated throtl_grp when a qnode is
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* queued and decrementing when dequeued is enough to keep the whole blkg
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* tree pinned while bios are in flight.
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*/
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struct throtl_qnode {
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struct list_head node; /* service_queue->queued[] */
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struct bio_list bios; /* queued bios */
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struct throtl_grp *tg; /* tg this qnode belongs to */
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};
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struct throtl_service_queue {
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struct throtl_service_queue *parent_sq; /* the parent service_queue */
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/*
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* Bios queued directly to this service_queue or dispatched from
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* children throtl_grp's.
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*/
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struct list_head queued[2]; /* throtl_qnode [READ/WRITE] */
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unsigned int nr_queued[2]; /* number of queued bios */
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/*
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* RB tree of active children throtl_grp's, which are sorted by
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* their ->disptime.
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*/
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struct rb_root_cached pending_tree; /* RB tree of active tgs */
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unsigned int nr_pending; /* # queued in the tree */
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unsigned long first_pending_disptime; /* disptime of the first tg */
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struct timer_list pending_timer; /* fires on first_pending_disptime */
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};
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enum {
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LIMIT_LOW,
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LIMIT_MAX,
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LIMIT_CNT,
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};
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struct throtl_grp {
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/* must be the first member */
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struct blkg_policy_data pd;
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/* active throtl group service_queue member */
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struct rb_node rb_node;
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/* throtl_data this group belongs to */
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struct throtl_data *td;
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/* this group's service queue */
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struct throtl_service_queue service_queue;
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/*
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* qnode_on_self is used when bios are directly queued to this
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* throtl_grp so that local bios compete fairly with bios
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* dispatched from children. qnode_on_parent is used when bios are
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* dispatched from this throtl_grp into its parent and will compete
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* with the sibling qnode_on_parents and the parent's
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* qnode_on_self.
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*/
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struct throtl_qnode qnode_on_self[2];
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struct throtl_qnode qnode_on_parent[2];
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/*
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* Dispatch time in jiffies. This is the estimated time when group
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* will unthrottle and is ready to dispatch more bio. It is used as
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* key to sort active groups in service tree.
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*/
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unsigned long disptime;
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unsigned int flags;
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/* are there any throtl rules between this group and td? */
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bool has_rules[2];
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/* internally used bytes per second rate limits */
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uint64_t bps[2][LIMIT_CNT];
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/* user configured bps limits */
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uint64_t bps_conf[2][LIMIT_CNT];
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/* internally used IOPS limits */
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unsigned int iops[2][LIMIT_CNT];
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/* user configured IOPS limits */
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unsigned int iops_conf[2][LIMIT_CNT];
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/* Number of bytes dispatched in current slice */
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uint64_t bytes_disp[2];
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/* Number of bio's dispatched in current slice */
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unsigned int io_disp[2];
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unsigned long last_low_overflow_time[2];
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uint64_t last_bytes_disp[2];
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unsigned int last_io_disp[2];
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unsigned long last_check_time;
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unsigned long latency_target; /* us */
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unsigned long latency_target_conf; /* us */
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/* When did we start a new slice */
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unsigned long slice_start[2];
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unsigned long slice_end[2];
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unsigned long last_finish_time; /* ns / 1024 */
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unsigned long checked_last_finish_time; /* ns / 1024 */
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unsigned long avg_idletime; /* ns / 1024 */
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unsigned long idletime_threshold; /* us */
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unsigned long idletime_threshold_conf; /* us */
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unsigned int bio_cnt; /* total bios */
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unsigned int bad_bio_cnt; /* bios exceeding latency threshold */
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unsigned long bio_cnt_reset_time;
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atomic_t io_split_cnt[2];
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atomic_t last_io_split_cnt[2];
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struct blkg_rwstat stat_bytes;
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struct blkg_rwstat stat_ios;
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};
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extern struct blkcg_policy blkcg_policy_throtl;
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static inline struct throtl_grp *pd_to_tg(struct blkg_policy_data *pd)
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{
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return pd ? container_of(pd, struct throtl_grp, pd) : NULL;
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}
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static inline struct throtl_grp *blkg_to_tg(struct blkcg_gq *blkg)
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{
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return pd_to_tg(blkg_to_pd(blkg, &blkcg_policy_throtl));
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}
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/*
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* Internal throttling interface
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*/
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#ifndef CONFIG_BLK_DEV_THROTTLING
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static inline int blk_throtl_init(struct request_queue *q) { return 0; }
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static inline void blk_throtl_exit(struct request_queue *q) { }
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static inline void blk_throtl_register_queue(struct request_queue *q) { }
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static inline void blk_throtl_charge_bio_split(struct bio *bio) { }
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static inline bool blk_throtl_bio(struct bio *bio) { return false; }
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#else /* CONFIG_BLK_DEV_THROTTLING */
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int blk_throtl_init(struct request_queue *q);
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void blk_throtl_exit(struct request_queue *q);
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void blk_throtl_register_queue(struct request_queue *q);
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void blk_throtl_charge_bio_split(struct bio *bio);
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bool __blk_throtl_bio(struct bio *bio);
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static inline bool blk_throtl_bio(struct bio *bio)
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{
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struct throtl_grp *tg = blkg_to_tg(bio->bi_blkg);
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if (bio_flagged(bio, BIO_THROTTLED))
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return false;
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if (!tg->has_rules[bio_data_dir(bio)])
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return false;
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return __blk_throtl_bio(bio);
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}
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#endif /* CONFIG_BLK_DEV_THROTTLING */
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#endif
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