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path: root/block/blk-throttle.c
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/*
 * Interface for controlling IO bandwidth on a request queue
 *
 * Copyright (C) 2010 Vivek Goyal <vgoyal@redhat.com>
 */

#include <linux/module.h>
#include <linux/slab.h>
#include <linux/blkdev.h>
#include <linux/bio.h>
#include <linux/blktrace_api.h>
#include "blk-cgroup.h"

/* Max dispatch from a group in 1 round */
static int throtl_grp_quantum = 8;

/* Total max dispatch from all groups in one round */
static int throtl_quantum = 32;

/* Throttling is performed over 100ms slice and after that slice is renewed */
static unsigned long throtl_slice = HZ/10;	/* 100 ms */

struct throtl_rb_root {
	struct rb_root rb;
	struct rb_node *left;
	unsigned int count;
	unsigned long min_disptime;
};

#define THROTL_RB_ROOT	(struct throtl_rb_root) { .rb = RB_ROOT, .left = NULL, \
			.count = 0, .min_disptime = 0}

#define rb_entry_tg(node)	rb_entry((node), struct throtl_grp, rb_node)

struct throtl_grp {
	/* List of throtl groups on the request queue*/
	struct hlist_node tg_node;

	/* active throtl group service_tree member */
	struct rb_node rb_node;

	/*
	 * Dispatch time in jiffies. This is the estimated time when group
	 * will unthrottle and is ready to dispatch more bio. It is used as
	 * key to sort active groups in service tree.
	 */
	unsigned long disptime;

	struct blkio_group blkg;
	atomic_t ref;
	unsigned int flags;

	/* Two lists for READ and WRITE */
	struct bio_list bio_lists[2];

	/* Number of queued bios on READ and WRITE lists */
	unsigned int nr_queued[2];

	/* bytes per second rate limits */
	uint64_t bps[2];

	/* IOPS limits */
	unsigned int iops[2];

	/* Number of bytes disptached in current slice */
	uint64_t bytes_disp[2];
	/* Number of bio's dispatched in current slice */
	unsigned int io_disp[2];

	/* When did we start a new slice */
	unsigned long slice_start[2];
	unsigned long slice_end[2];

	/* Some throttle limits got updated for the group */
	bool limits_changed;
};

struct throtl_data
{
	/* List of throtl groups */
	struct hlist_head tg_list;

	/* service tree for active throtl groups */
	struct throtl_rb_root tg_service_tree;

	struct throtl_grp root_tg;
	struct request_queue *queue;

	/* Total Number of queued bios on READ and WRITE lists */
	unsigned int nr_queued[2];

	/*
	 * number of total undestroyed groups
	 */
	unsigned int nr_undestroyed_grps;

	/* Work for dispatching throttled bios */
	struct delayed_work throtl_work;

	atomic_t limits_changed;
};

enum tg_state_flags {
	THROTL_TG_FLAG_on_rr = 0,	/* on round-robin busy list */
};

#define THROTL_TG_FNS(name)						\
static inline void throtl_mark_tg_##name(struct throtl_grp *tg)		\
{									\
	(tg)->flags |= (1 << THROTL_TG_FLAG_##name);			\
}									\
static inline void throtl_clear_tg_##name(struct throtl_grp *tg)	\
{									\
	(tg)->flags &= ~(1 << THROTL_TG_FLAG_##name);			\
}									\
static inline int throtl_tg_##name(const struct throtl_grp *tg)		\
{									\
	return ((tg)->flags & (1 << THROTL_TG_FLAG_##name)) != 0;	\
}

THROTL_TG_FNS(on_rr);

#define throtl_log_tg(td, tg, fmt, args...)				\
	blk_add_trace_msg((td)->queue, "throtl %s " fmt,		\
				blkg_path(&(tg)->blkg), ##args);      	\

#define throtl_log(td, fmt, args...)	\
	blk_add_trace_msg((td)->queue, "throtl " fmt, ##args)

static inline struct throtl_grp *tg_of_blkg(struct blkio_group *blkg)
{
	if (blkg)
		return container_of(blkg, struct throtl_grp, blkg);

	return NULL;
}

static inline int total_nr_queued(struct throtl_data *td)
{
	return (td->nr_queued[0] + td->nr_queued[1]);
}

static inline struct throtl_grp *throtl_ref_get_tg(struct throtl_grp *tg)
{
	atomic_inc(&tg->ref);
	return tg;
}

static void throtl_put_tg(struct throtl_grp *tg)
{
	BUG_ON(atomic_read(&tg->ref) <= 0);
	if (!atomic_dec_and_test(&tg->ref))
		return;
	kfree(tg);
}

static struct throtl_grp * throtl_find_alloc_tg(struct throtl_data *td,
			struct cgroup *cgroup)
{
	struct blkio_cgroup *blkcg = cgroup_to_blkio_cgroup(cgroup);
	struct throtl_grp *tg = NULL;
	void *key = td;
	struct backing_dev_info *bdi = &td->queue->backing_dev_info;
	unsigned int major, minor;

	/*
	 * TODO: Speed up blkiocg_lookup_group() by maintaining a radix
	 * tree of blkg (instead of traversing through hash list all
	 * the time.
	 */
	tg = tg_of_blkg(blkiocg_lookup_group(blkcg, key));

	/* Fill in device details for root group */
	if (tg && !tg->blkg.dev && bdi->dev && dev_name(bdi->dev)) {
		sscanf(dev_name(bdi->dev), "%u:%u", &major, &minor);
		tg->blkg.dev = MKDEV(major, minor);
		goto done;
	}

	if (tg)
		goto done;

	tg = kzalloc_node(sizeof(*tg), GFP_ATOMIC, td->queue->node);
	if (!tg)
		goto done;

	INIT_HLIST_NODE(&tg->tg_node);
	RB_CLEAR_NODE(&tg->rb_node);
	bio_list_init(&tg->bio_lists[0]);
	bio_list_init(&tg->bio_lists[1]);

	/*
	 * Take the initial reference that will be released on destroy
	 * This can be thought of a joint reference by cgroup and
	 * request queue which will be dropped by either request queue
	 * exit or cgroup deletion path depending on who is exiting first.
	 */
	atomic_set(&tg->ref, 1);

	/* Add group onto cgroup list */
	sscanf(dev_name(bdi->dev), "%u:%u", &major, &minor);
	blkiocg_add_blkio_group(blkcg, &tg->blkg, (void *)td,
				MKDEV(major, minor), BLKIO_POLICY_THROTL);

	tg->bps[READ] = blkcg_get_read_bps(blkcg, tg->blkg.dev);
	tg->bps[WRITE] = blkcg_get_write_bps(blkcg, tg->blkg.dev);
	tg->iops[READ] = blkcg_get_read_iops(blkcg, tg->blkg.dev);
	tg->iops[WRITE] = blkcg_get_write_iops(blkcg, tg->blkg.dev);

	hlist_add_head(&tg->tg_node, &td->tg_list);
	td->nr_undestroyed_grps++;
done:
	return tg;
}

static struct throtl_grp * throtl_get_tg(struct throtl_data *td)
{
	struct cgroup *cgroup;
	struct throtl_grp *tg = NULL;

	rcu_read_lock();
	cgroup = task_cgroup(current, blkio_subsys_id);
	tg = throtl_find_alloc_tg(td, cgroup);
	if (!tg)
		tg = &td->root_tg;
	rcu_read_unlock();
	return tg;
}

static struct throtl_grp *throtl_rb_first(struct throtl_rb_root *root)
{
	/* Service tree is empty */
	if (!root->count)
		return NULL;

	if (!root->left)
		root->left = rb_first(&root->rb);

	if (root->left)
		return rb_entry_tg(root->left);

	return NULL;
}

static void rb_erase_init(struct rb_node *n, struct rb_root *root)
{
	rb_erase(n, root);
	RB_CLEAR_NODE(n);
}

static void throtl_rb_erase(struct rb_node *n, struct throtl_rb_root *root)
{
	if (root->left == n)
		root->left = NULL;
	rb_erase_init(n, &root->rb);
	--root->count;
}

static void update_min_dispatch_time(struct throtl_rb_root *st)
{
	struct throtl_grp *tg;

	tg = throtl_rb_first(st);
	if (!tg)
		return;

	st->min_disptime = tg->disptime;
}

static void
tg_service_tree_add(struct throtl_rb_root *st, struct throtl_grp *tg)
{
	struct rb_node **node = &st->rb.rb_node;
	struct rb_node *parent = NULL;
	struct throtl_grp *__tg;
	unsigned long key = tg->disptime;
	int left = 1;

	while (*node != NULL) {
		parent = *node;
		__tg = rb_entry_tg(parent);

		if (time_before(key, __tg->disptime))
			node = &parent->rb_left;
		else {
			node = &parent->rb_right;
			left = 0;
		}
	}

	if (left)
		st->left = &tg->rb_node;

	rb_link_node(&tg->rb_node, parent, node);
	rb_insert_color(&tg->rb_node, &st->rb);
}

static void __throtl_enqueue_tg(struct throtl_data *td, struct throtl_grp *tg)
{
	struct throtl_rb_root *st = &td->tg_service_tree;

	tg_service_tree_add(st, tg);
	throtl_mark_tg_on_rr(tg);
	st->count++;
}

static void throtl_enqueue_tg(struct throtl_data *td, struct throtl_grp *tg)
{
	if (!throtl_tg_on_rr(tg))
		__throtl_enqueue_tg(td, tg);
}

static void __throtl_dequeue_tg(struct throtl_data *td, struct throtl_grp *tg)
{
	throtl_rb_erase(&tg->rb_node, &td->tg_service_tree);
	throtl_clear_tg_on_rr(tg);
}

static void throtl_dequeue_tg(struct throtl_data *td, struct throtl_grp *tg)
{
	if (throtl_tg_on_rr(tg))
		__throtl_dequeue_tg(td, tg);
}

static void throtl_schedule_next_dispatch(struct throtl_data *td)
{
	struct throtl_rb_root *st = &td->tg_service_tree;

	/*
	 * If there are more bios pending, schedule more work.
	 */
	if (!total_nr_queued(td))
		return;

	BUG_ON(!st->count);

	update_min_dispatch_time(st);

	if (time_before_eq(st->min_disptime, jiffies))
		throtl_schedule_delayed_work(td->queue, 0);
	else
		throtl_schedule_delayed_work(td->queue,
				(st->min_disptime - jiffies));
}

static inline void
throtl_start_new_slice(struct throtl_data *td, struct throtl_grp *tg, bool rw)
{
	tg->bytes_disp[rw] = 0;
	tg->io_disp[rw] = 0;
	tg->slice_start[rw] = jiffies;
	tg->slice_end[rw] = jiffies + throtl_slice;
	throtl_log_tg(td, tg, "[%c] new slice start=%lu end=%lu jiffies=%lu",
			rw == READ ? 'R' : 'W', tg->slice_start[rw],
			tg->slice_end[rw], jiffies);
}

static inline void throtl_extend_slice(struct throtl_data *td,
		struct throtl_grp *tg, bool rw, unsigned long jiffy_end)
{
	tg->slice_end[rw] = roundup(jiffy_end, throtl_slice);
	throtl_log_tg(td, tg, "[%c] extend slice start=%lu end=%lu jiffies=%lu",
			rw == READ ? 'R' : 'W', tg->slice_start[rw],
			tg->slice_end[rw], jiffies);
}

/* Determine if previously allocated or extended slice is complete or not */
static bool
throtl_slice_used(struct throtl_data *td, struct throtl_grp *tg, bool rw)
{
	if (time_in_range(jiffies, tg->slice_start[rw], tg->slice_end[rw]))
		return 0;

	return 1;
}

/* Trim the used slices and adjust slice start accordingly */
static inline void
throtl_trim_slice(struct throtl_data *td, struct throtl_grp *tg, bool rw)
{
	unsigned long nr_slices, time_elapsed, io_trim;
	u64 bytes_trim, tmp;

	BUG_ON(time_before(tg->slice_end[rw], tg->slice_start[rw]));

	/*
	 * If bps are unlimited (-1), then time slice don't get
	 * renewed. Don't try to trim the slice if slice is used. A new
	 * slice will start when appropriate.
	 */
	if (throtl_slice_used(td, tg, rw))
		return;

	time_elapsed = jiffies - tg->slice_start[rw];

	nr_slices = time_elapsed / throtl_slice;

	if (!nr_slices)
		return;
	tmp = tg->bps[rw] * throtl_slice * nr_slices;
	do_div(tmp, HZ);
	bytes_trim = tmp;

	io_trim = (tg->iops[rw] * throtl_slice * nr_slices)/HZ;

	if (!bytes_trim && !io_trim)
		return;

	if (tg->bytes_disp[rw] >= bytes_trim)
		tg->bytes_disp[rw] -= bytes_trim;
	else
		tg->bytes_disp[rw] = 0;

	if (tg->io_disp[rw] >= io_trim)
		tg->io_disp[rw] -= io_trim;
	else
		tg->io_disp[rw] = 0;

	tg->slice_start[rw] += nr_slices * throtl_slice;

	throtl_log_tg(td, tg, "[%c] trim slice nr=%lu bytes=%llu io=%lu"
			" start=%lu end=%lu jiffies=%lu",
			rw == READ ? 'R' : 'W', nr_slices, bytes_trim, io_trim,
			tg->slice_start[rw], tg->slice_end[rw], jiffies);
}

static bool tg_with_in_iops_limit(struct throtl_data *td, struct throtl_grp *tg,
		struct bio *bio, unsigned long *wait)
{
	bool rw = bio_data_dir(bio);
	unsigned int io_allowed;
	unsigned long jiffy_elapsed, jiffy_wait, jiffy_elapsed_rnd;
	u64 tmp;

	jiffy_elapsed = jiffy_elapsed_rnd = jiffies - tg->slice_start[rw];

	/* Slice has just started. Consider one slice interval */
	if (!jiffy_elapsed)
		jiffy_elapsed_rnd = throtl_slice;

	jiffy_elapsed_rnd = roundup(jiffy_elapsed_rnd, throtl_slice);

	/*
	 * jiffy_elapsed_rnd should not be a big value as minimum iops can be
	 * 1 then at max jiffy elapsed should be equivalent of 1 second as we
	 * will allow dispatch after 1 second and after that slice should
	 * have been trimmed.
	 */

	tmp = (u64)tg->iops[rw] * jiffy_elapsed_rnd;
	do_div(tmp, HZ);

	if (tmp > UINT_MAX)
		io_allowed = UINT_MAX;
	else
		io_allowed = tmp;

	if (tg->io_disp[rw] + 1 <= io_allowed) {
		if (wait)
			*wait = 0;
		return 1;
	}

	/* Calc approx time to dispatch */
	jiffy_wait = ((tg->io_disp[rw] + 1) * HZ)/tg->iops[rw] + 1;

	if (jiffy_wait > jiffy_elapsed)
		jiffy_wait = jiffy_wait - jiffy_elapsed;
	else
		jiffy_wait = 1;

	if (wait)
		*wait = jiffy_wait;
	return 0;
}

static bool tg_with_in_bps_limit(struct throtl_data *td, struct throtl_grp *tg,
		struct bio *bio, unsigned long *wait)
{
	bool rw = bio_data_dir(bio);
	u64 bytes_allowed, extra_bytes, tmp;
	unsigned long jiffy_elapsed, jiffy_wait, jiffy_elapsed_rnd;

	jiffy_elapsed = jiffy_elapsed_rnd = jiffies - tg->slice_start[rw];

	/* Slice has just started. Consider one slice interval */
	if (!jiffy_elapsed)
		jiffy_elapsed_rnd = throtl_slice;

	jiffy_elapsed_rnd = roundup(jiffy_elapsed_rnd, throtl_slice);

	tmp = tg->bps[rw] * jiffy_elapsed_rnd;
	do_div(tmp, HZ);
	bytes_allowed = tmp;

	if (tg->bytes_disp[rw] + bio->bi_size <= bytes_allowed) {
		if (wait)
			*wait = 0;
		return 1;
	}

	/* Calc approx time to dispatch */
	extra_bytes = tg->bytes_disp[rw] + bio->bi_size - bytes_allowed;
	jiffy_wait = div64_u64(extra_bytes * HZ, tg->bps[rw]);

	if (!jiffy_wait)
		jiffy_wait = 1;

	/*
	 * This wait time is without taking into consideration the rounding
	 * up we did. Add that time also.
	 */
	jiffy_wait = jiffy_wait + (jiffy_elapsed_rnd - jiffy_elapsed);
	if (wait)
		*wait = jiffy_wait;
	return 0;
}

/*
 * Returns whether one can dispatch a bio or not. Also returns approx number
 * of jiffies to wait before this bio is with-in IO rate and can be dispatched
 */
static bool tg_may_dispatch(struct throtl_data *td, struct throtl_grp *tg,
				struct bio *bio, unsigned long *wait)
{
	bool rw = bio_data_dir(bio);
	unsigned long bps_wait = 0, iops_wait = 0, max_wait = 0;

	/*
 	 * Currently whole state machine of group depends on first bio
	 * queued in the group bio list. So one should not be calling
	 * this function with a different bio if there are other bios
	 * queued.
	 */
	BUG_ON(tg->nr_queued[rw] && bio != bio_list_peek(&tg->bio_lists[rw]));

	/* If tg->bps = -1, then BW is unlimited */
	if (tg->bps[rw] == -1 && tg->iops[rw] == -1) {
		if (wait)
			*wait = 0;
		return 1;
	}

	/*
	 * If previous slice expired, start a new one otherwise renew/extend
	 * existing slice to make sure it is at least throtl_slice interval
	 * long since now.
	 */
	if (throtl_slice_used(td, tg, rw))
		throtl_start_new_slice(td, tg, rw);
	else {
		if (time_before(tg->slice_end[rw], jiffies + throtl_slice))
			throtl_extend_slice(td, tg, rw, jiffies + throtl_slice);
	}

	if (tg_with_in_bps_limit(td, tg, bio, &bps_wait)
	    && tg_with_in_iops_limit(td, tg, bio, &iops_wait)) {
		if (wait)
			*wait = 0;
		return 1;
	}

	max_wait = max(bps_wait, iops_wait);

	if (wait)
		*wait = max_wait;

	if (time_before(tg->slice_end[rw], jiffies + max_wait))
		throtl_extend_slice(td, tg, rw, jiffies + max_wait);

	return 0;
}

static void throtl_charge_bio(struct throtl_grp *tg, struct bio *bio)
{
	bool rw = bio_data_dir(bio);
	bool sync = bio->bi_rw & REQ_SYNC;

	/* Charge the bio to the group */
	tg->bytes_disp[rw] += bio->bi_size;
	tg->io_disp[rw]++;

	/*
	 * TODO: This will take blkg->stats_lock. Figure out a way
	 * to avoid this cost.
	 */
	blkiocg_update_dispatch_stats(&tg->blkg, bio->bi_size, rw, sync);
}

static void throtl_add_bio_tg(struct throtl_data *td, struct throtl_grp *tg,
			struct bio *bio)
{
	bool rw = bio_data_dir(bio);

	bio_list_add(&tg->bio_lists[rw], bio);
	/* Take a bio reference on tg */
	throtl_ref_get_tg(tg);
	tg->nr_queued[rw]++;
	td->nr_queued[rw]++;
	throtl_enqueue_tg(td, tg);
}

static void tg_update_disptime(struct throtl_data *td, struct throtl_grp *tg)
{
	unsigned long read_wait = -1, write_wait = -1, min_wait = -1, disptime;
	struct bio *bio;

	if ((bio = bio_list_peek(&tg->bio_lists[READ])))
		tg_may_dispatch(td, tg, bio, &read_wait);

	if ((bio = bio_list_peek(&tg->bio_lists[WRITE])))
		tg_may_dispatch(td, tg, bio, &write_wait);

	min_wait = min(read_wait, write_wait);
	disptime = jiffies + min_wait;

	/* Update dispatch time */
	throtl_dequeue_tg(td, tg);
	tg->disptime = disptime;
	throtl_enqueue_tg(td, tg);
}

static void tg_dispatch_one_bio(struct throtl_data *td, struct throtl_grp *tg,
				bool rw, struct bio_list *bl)
{
	struct bio *bio;

	bio = bio_list_pop(&tg->bio_lists[rw]);
	tg->nr_queued[rw]--;
	/* Drop bio reference on tg */
	throtl_put_tg(tg);

	BUG_ON(td->nr_queued[rw] <= 0);
	td->nr_queued[rw]--;

	throtl_charge_bio(tg, bio);
	bio_list_add(bl, bio);
	bio->bi_rw |= REQ_THROTTLED;

	throtl_trim_slice(td, tg, rw);
}

static int throtl_dispatch_tg(struct throtl_data *td, struct throtl_grp *tg,
				struct bio_list *bl)
{
	unsigned int nr_reads = 0, nr_writes = 0;
	unsigned int max_nr_reads = throtl_grp_quantum*3/4;
	unsigned int max_nr_writes = throtl_grp_quantum - max_nr_reads;
	struct bio *bio;

	/* Try to dispatch 75% READS and 25% WRITES */

	while ((bio = bio_list_peek(&tg->bio_lists[READ]))
		&& tg_may_dispatch(td, tg, bio, NULL)) {

		tg_dispatch_one_bio(td, tg, bio_data_dir(bio), bl);
		nr_reads++;

		if (nr_reads >= max_nr_reads)
			break;
	}

	while ((bio = bio_list_peek(&tg->bio_lists[WRITE]))
		&& tg_may_dispatch(td, tg, bio, NULL)) {

		tg_dispatch_one_bio(td, tg, bio_data_dir(bio), bl);
		nr_writes++;

		if (nr_writes >= max_nr_writes)
			break;
	}

	return nr_reads + nr_writes;
}

static int throtl_select_dispatch(struct throtl_data *td, struct bio_list *bl)
{
	unsigned int nr_disp = 0;
	struct throtl_grp *tg;
	struct throtl_rb_root *st = &td->tg_service_tree;

	while (1) {
		tg = throtl_rb_first(st);

		if (!tg)
			break;

		if (time_before(jiffies, tg->disptime))
			break;

		throtl_dequeue_tg(td, tg);

		nr_disp += throtl_dispatch_tg(td, tg, bl);

		if (tg->nr_queued[0] || tg->nr_queued[1]) {
			tg_update_disptime(td, tg);
			throtl_enqueue_tg(td, tg);
		}

		if (nr_disp >= throtl_quantum)
			break;
	}

	return nr_disp;
}

static void throtl_process_limit_change(struct throtl_data *td)
{
	struct throtl_grp *tg;
	struct hlist_node *pos, *n;

	/*
	 * Make sure atomic_inc() effects from
	 * throtl_update_blkio_group_read_bps(), group of functions are
	 * visible.
	 * Is this required or smp_mb__after_atomic_inc() was suffcient
	 * after the atomic_inc().
	 */
	smp_rmb();
	if (!atomic_read(&td->limits_changed))
		return;

	throtl_log(td, "limit changed =%d", atomic_read(&td->limits_changed));

	hlist_for_each_entry_safe(tg, pos, n, &td->tg_list, tg_node) {
		/*
		 * Do I need an smp_rmb() here to make sure tg->limits_changed
		 * update is visible. I am relying on smp_rmb() at the
		 * beginning of function and not putting a new one here.
		 */

		if (throtl_tg_on_rr(tg) && tg->limits_changed) {
			throtl_log_tg(td, tg, "limit change rbps=%llu wbps=%llu"
				" riops=%u wiops=%u", tg->bps[READ],
				tg->bps[WRITE], tg->iops[READ],
				tg->iops[WRITE]);
			tg_update_disptime(td, tg);
			tg->limits_changed = false;
		}
	}

	smp_mb__before_atomic_dec();
	atomic_dec(&td->limits_changed);
	smp_mb__after_atomic_dec();
}

/* Dispatch throttled bios. Should be called without queue lock held. */
static int throtl_dispatch(struct request_queue *q)
{
	struct throtl_data *td = q->td;
	unsigned int nr_disp = 0;
	struct bio_list bio_list_on_stack;
	struct bio *bio;

	spin_lock_irq(q->queue_lock);

	throtl_process_limit_change(td);

	if (!total_nr_queued(td))
		goto out;

	bio_list_init(&bio_list_on_stack);

	throtl_log(td, "dispatch nr_queued=%lu read=%u write=%u",
			total_nr_queued(td), td->nr_queued[READ],
			td->nr_queued[WRITE]);

	nr_disp = throtl_select_dispatch(td, &bio_list_on_stack);

	if (nr_disp)
		throtl_log(td, "bios disp=%u", nr_disp);

	throtl_schedule_next_dispatch(td);
out:
	spin_unlock_irq(q->queue_lock);

	/*
	 * If we dispatched some requests, unplug the queue to make sure
	 * immediate dispatch
	 */
	if (nr_disp) {
		while((bio = bio_list_pop(&bio_list_on_stack)))
			generic_make_request(bio);
		blk_unplug(q);
	}
	return nr_disp;
}

void blk_throtl_work(struct work_struct *work)
{
	struct throtl_data *td = container_of(work, struct throtl_data,
					throtl_work.work);
	struct request_queue *q = td->queue;

	throtl_dispatch(q);
}

/* Call with queue lock held */
void throtl_schedule_delayed_work(struct request_queue *q, unsigned long delay)
{

	struct throtl_data *td = q->td;
	struct delayed_work *dwork = &td->throtl_work;

	if (total_nr_queued(td) > 0) {
		/*
		 * We might have a work scheduled to be executed in future.
		 * Cancel that and schedule a new one.
		 */
		__cancel_delayed_work(dwork);
		kblockd_schedule_delayed_work(q, dwork, delay);
		throtl_log(td, "schedule work. delay=%lu jiffies=%lu",
				delay, jiffies);
	}
}
EXPORT_SYMBOL(throtl_schedule_delayed_work);

static void
throtl_destroy_tg(struct throtl_data *td, struct throtl_grp *tg)
{
	/* Something wrong if we are trying to remove same group twice */
	BUG_ON(hlist_unhashed(&tg->tg_node));

	hlist_del_init(&tg->tg_node);

	/*
	 * Put the reference taken at the time of creation so that when all
	 * queues are gone, group can be destroyed.
	 */
	throtl_put_tg(tg);
	td->nr_undestroyed_grps--;
}

static void throtl_release_tgs(struct throtl_data *td)
{
	struct hlist_node *pos, *n;
	struct throtl_grp *tg;

	hlist_for_each_entry_safe(tg, pos, n, &td->tg_list, tg_node) {
		/*
		 * If cgroup removal path got to blk_group first and removed
		 * it from cgroup list, then it will take care of destroying
		 * cfqg also.
		 */
		if (!blkiocg_del_blkio_group(&tg->blkg))
			throtl_destroy_tg(td, tg);
	}
}

static void throtl_td_free(struct throtl_data *td)
{
	kfree(td);
}

/*
 * Blk cgroup controller notification saying that blkio_group object is being
 * delinked as associated cgroup object is going away. That also means that
 * no new IO will come in this group. So get rid of this group as soon as
 * any pending IO in the group is finished.
 *
 * This function is called under rcu_read_lock(). key is the rcu protected
 * pointer. That means "key" is a valid throtl_data pointer as long as we are
 * rcu read lock.
 *
 * "key" was fetched from blkio_group under blkio_cgroup->lock. That means
 * it should not be NULL as even if queue was going away, cgroup deltion
 * path got to it first.
 */
void throtl_unlink_blkio_group(void *key, struct blkio_group *blkg)
{
	unsigned long flags;
	struct throtl_data *td = key;

	spin_lock_irqsave(td->queue->queue_lock, flags);
	throtl_destroy_tg(td, tg_of_blkg(blkg));
	spin_unlock_irqrestore(td->queue->queue_lock, flags);
}

/*
 * For all update functions, key should be a valid pointer because these
 * update functions are called under blkcg_lock, that means, blkg is
 * valid and in turn key is valid. queue exit path can not race becuase
 * of blkcg_lock
 *
 * Can not take queue lock in update functions as queue lock under blkcg_lock
 * is not allowed. Under other paths we take blkcg_lock under queue_lock.
 */
static void throtl_update_blkio_group_read_bps(void *key,
				struct blkio_group *blkg, u64 read_bps)
{
	struct throtl_data *td = key;

	tg_of_blkg(blkg)->bps[READ] = read_bps;
	/* Make sure read_bps is updated before setting limits_changed */
	smp_wmb();
	tg_of_blkg(blkg)->limits_changed = true;

	/* Make sure tg->limits_changed is updated before td->limits_changed */
	smp_mb__before_atomic_inc();
	atomic_inc(&td->limits_changed);
	smp_mb__after_atomic_inc();

	/* Schedule a work now to process the limit change */
	throtl_schedule_delayed_work(td->queue, 0);
}

static void throtl_update_blkio_group_write_bps(void *key,
				struct blkio_group *blkg, u64 write_bps)
{
	struct throtl_data *td = key;

	tg_of_blkg(blkg)->bps[WRITE] = write_bps;
	smp_wmb();
	tg_of_blkg(blkg)->limits_changed = true;
	smp_mb__before_atomic_inc();
	atomic_inc(&td->limits_changed);
	smp_mb__after_atomic_inc();
	throtl_schedule_delayed_work(td->queue, 0);
}

static void throtl_update_blkio_group_read_iops(void *key,
			struct blkio_group *blkg, unsigned int read_iops)
{
	struct throtl_data *td = key;

	tg_of_blkg(blkg)->iops[READ] = read_iops;
	smp_wmb();
	tg_of_blkg(blkg)->limits_changed = true;
	smp_mb__before_atomic_inc();
	atomic_inc(&td->limits_changed);
	smp_mb__after_atomic_inc();
	throtl_schedule_delayed_work(td->queue, 0);
}

static void throtl_update_blkio_group_write_iops(void *key,
			struct blkio_group *blkg, unsigned int write_iops)
{
	struct throtl_data *td = key;

	tg_of_blkg(blkg)->iops[WRITE] = write_iops;
	smp_wmb();
	tg_of_blkg(blkg)->limits_changed = true;
	smp_mb__before_atomic_inc();
	atomic_inc(&td->limits_changed);
	smp_mb__after_atomic_inc();
	throtl_schedule_delayed_work(td->queue, 0);
}

void throtl_shutdown_timer_wq(struct request_queue *q)
{
	struct throtl_data *td = q->td;

	cancel_delayed_work_sync(&td->throtl_work);
}

static struct blkio_policy_type blkio_policy_throtl = {
	.ops = {
		.blkio_unlink_group_fn = throtl_unlink_blkio_group,
		.blkio_update_group_read_bps_fn =
					throtl_update_blkio_group_read_bps,
		.blkio_update_group_write_bps_fn =
					throtl_update_blkio_group_write_bps,
		.blkio_update_group_read_iops_fn =
					throtl_update_blkio_group_read_iops,
		.blkio_update_group_write_iops_fn =
					throtl_update_blkio_group_write_iops,
	},
	.plid = BLKIO_POLICY_THROTL,
};

int blk_throtl_bio(struct request_queue *q, struct bio **biop)
{
	struct throtl_data *td = q->td;
	struct throtl_grp *tg;
	struct bio *bio = *biop;
	bool rw = bio_data_dir(bio), update_disptime = true;

	if (bio->bi_rw & REQ_THROTTLED) {
		bio->bi_rw &= ~REQ_THROTTLED;
		return 0;
	}

	spin_lock_irq(q->queue_lock);
	tg = throtl_get_tg(td);

	if (tg->nr_queued[rw]) {
		/*
		 * There is already another bio queued in same dir. No
		 * need to update dispatch time.
		 * Still update the disptime if rate limits on this group
		 * were changed.
		 */
		if (!tg->limits_changed)
			update_disptime = false;
		else
			tg->limits_changed = false;

		goto queue_bio;
	}

	/* Bio is with-in rate limit of group */
	if (tg_may_dispatch(td, tg, bio, NULL)) {
		throtl_charge_bio(tg, bio);
		goto out;
	}

queue_bio:
	throtl_log_tg(td, tg, "[%c] bio. bdisp=%u sz=%u bps=%llu"
			" iodisp=%u iops=%u queued=%d/%d",
			rw == READ ? 'R' : 'W',
			tg->bytes_disp[rw], bio->bi_size, tg->bps[rw],
			tg->io_disp[rw], tg->iops[rw],
			tg->nr_queued[READ], tg->nr_queued[WRITE]);

	throtl_add_bio_tg(q->td, tg, bio);
	*biop = NULL;

	if (update_disptime) {
		tg_update_disptime(td, tg);
		throtl_schedule_next_dispatch(td);
	}

out:
	spin_unlock_irq(q->queue_lock);
	return 0;
}

int blk_throtl_init(struct request_queue *q)
{
	struct throtl_data *td;
	struct throtl_grp *tg;

	td = kzalloc_node(sizeof(*td), GFP_KERNEL, q->node);
	if (!td)
		return -ENOMEM;

	INIT_HLIST_HEAD(&td->tg_list);
	td->tg_service_tree = THROTL_RB_ROOT;
	atomic_set(&td->limits_changed, 0);

	/* Init root group */
	tg = &td->root_tg;
	INIT_HLIST_NODE(&tg->tg_node);
	RB_CLEAR_NODE(&tg->rb_node);
	bio_list_init(&tg->bio_lists[0]);
	bio_list_init(&tg->bio_lists[1]);

	/* Practically unlimited BW */
	tg->bps[0] = tg->bps[1] = -1;
	tg->iops[0] = tg->iops[1] = -1;

	/*
	 * Set root group reference to 2. One reference will be dropped when
	 * all groups on tg_list are being deleted during queue exit. Other
	 * reference will remain there as we don't want to delete this group
	 * as it is statically allocated and gets destroyed when throtl_data
	 * goes away.
	 */
	atomic_set(&tg->ref, 2);
	hlist_add_head(&tg->tg_node, &td->tg_list);
	td->nr_undestroyed_grps++;

	INIT_DELAYED_WORK(&td->throtl_work, blk_throtl_work);

	rcu_read_lock();
	blkiocg_add_blkio_group(&blkio_root_cgroup, &tg->blkg, (void *)td,
					0, BLKIO_POLICY_THROTL);
	rcu_read_unlock();

	/* Attach throtl data to request queue */
	td->queue = q;
	q->td = td;
	return 0;
}

void blk_throtl_exit(struct request_queue *q)
{
	struct throtl_data *td = q->td;
	bool wait = false;

	BUG_ON(!td);

	throtl_shutdown_timer_wq(q);

	spin_lock_irq(q->queue_lock);
	throtl_release_tgs(td);

	/* If there are other groups */
	if (td->nr_undestroyed_grps > 0)
		wait = true;

	spin_unlock_irq(q->queue_lock);

	/*
	 * Wait for tg->blkg->key accessors to exit their grace periods.
	 * Do this wait only if there are other undestroyed groups out
	 * there (other than root group). This can happen if cgroup deletion
	 * path claimed the responsibility of cleaning up a group before
	 * queue cleanup code get to the group.
	 *
	 * Do not call synchronize_rcu() unconditionally as there are drivers
	 * which create/delete request queue hundreds of times during scan/boot
	 * and synchronize_rcu() can take significant time and slow down boot.
	 */
	if (wait)
		synchronize_rcu();

	/*
	 * Just being safe to make sure after previous flush if some body did
	 * update limits through cgroup and another work got queued, cancel
	 * it.
	 */
	throtl_shutdown_timer_wq(q);
	throtl_td_free(td);
}

static int __init throtl_init(void)
{
	blkio_policy_register(&blkio_policy_throtl);
	return 0;
}

module_init(throtl_init);