cfq-iosched: add close cooperator code
If we have processes that are working in close proximity to each other on disk, we don't want to idle wait. Instead allow the close process to issue a request, getting better aggregate bandwidth. The anticipatory scheduler has similar checks, noop and deadline do not need it since they don't care about process <-> io mappings. The code for CFQ is a little more involved though, since we split request queues into per-process contexts. This fixes a performance problem with eg dump(8), since it uses several processes in some silly attempt to speed IO up. Even if dump(8) isn't really a valid case (it should be fixed by using CLONE_IO), there are other cases where we see close processes and where idling ends up hurting performance. Credit goes to Jeff Moyer <jmoyer@redhat.com> for writing the initial implementation. Signed-off-by: Jens Axboe <jens.axboe@oracle.com>
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@ -80,6 +80,14 @@ struct cfq_data {
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* rr list of queues with requests and the count of them
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*/
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struct cfq_rb_root service_tree;
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/*
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* Each priority tree is sorted by next_request position. These
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* trees are used when determining if two or more queues are
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* interleaving requests (see cfq_close_cooperator).
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*/
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struct rb_root prio_trees[CFQ_PRIO_LISTS];
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unsigned int busy_queues;
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/*
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* Used to track any pending rt requests so we can pre-empt current
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@ -144,6 +152,8 @@ struct cfq_queue {
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struct rb_node rb_node;
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/* service_tree key */
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unsigned long rb_key;
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/* prio tree member */
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struct rb_node p_node;
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/* sorted list of pending requests */
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struct rb_root sort_list;
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/* if fifo isn't expired, next request to serve */
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@ -182,6 +192,7 @@ enum cfqq_state_flags {
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CFQ_CFQQ_FLAG_prio_changed, /* task priority has changed */
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CFQ_CFQQ_FLAG_slice_new, /* no requests dispatched in slice */
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CFQ_CFQQ_FLAG_sync, /* synchronous queue */
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CFQ_CFQQ_FLAG_coop, /* has done a coop jump of the queue */
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};
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#define CFQ_CFQQ_FNS(name) \
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@ -208,6 +219,7 @@ CFQ_CFQQ_FNS(idle_window);
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CFQ_CFQQ_FNS(prio_changed);
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CFQ_CFQQ_FNS(slice_new);
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CFQ_CFQQ_FNS(sync);
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CFQ_CFQQ_FNS(coop);
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#undef CFQ_CFQQ_FNS
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#define cfq_log_cfqq(cfqd, cfqq, fmt, args...) \
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@ -416,13 +428,17 @@ static struct cfq_queue *cfq_rb_first(struct cfq_rb_root *root)
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return NULL;
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}
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static void rb_erase_init(struct rb_node *n, struct rb_root *root)
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{
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rb_erase(n, root);
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RB_CLEAR_NODE(n);
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}
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static void cfq_rb_erase(struct rb_node *n, struct cfq_rb_root *root)
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{
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if (root->left == n)
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root->left = NULL;
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rb_erase(n, &root->rb);
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RB_CLEAR_NODE(n);
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rb_erase_init(n, &root->rb);
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}
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/*
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@ -467,8 +483,8 @@ static unsigned long cfq_slice_offset(struct cfq_data *cfqd,
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* requests waiting to be processed. It is sorted in the order that
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* we will service the queues.
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*/
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static void cfq_service_tree_add(struct cfq_data *cfqd,
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struct cfq_queue *cfqq, int add_front)
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static void cfq_service_tree_add(struct cfq_data *cfqd, struct cfq_queue *cfqq,
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int add_front)
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{
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struct rb_node **p, *parent;
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struct cfq_queue *__cfqq;
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@ -541,6 +557,63 @@ static void cfq_service_tree_add(struct cfq_data *cfqd,
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rb_insert_color(&cfqq->rb_node, &cfqd->service_tree.rb);
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}
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static struct cfq_queue *
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cfq_prio_tree_lookup(struct cfq_data *cfqd, int ioprio, sector_t sector,
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struct rb_node **ret_parent, struct rb_node ***rb_link)
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{
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struct rb_root *root = &cfqd->prio_trees[ioprio];
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struct rb_node **p, *parent;
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struct cfq_queue *cfqq = NULL;
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parent = NULL;
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p = &root->rb_node;
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while (*p) {
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struct rb_node **n;
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parent = *p;
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cfqq = rb_entry(parent, struct cfq_queue, p_node);
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/*
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* Sort strictly based on sector. Smallest to the left,
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* largest to the right.
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*/
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if (sector > cfqq->next_rq->sector)
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n = &(*p)->rb_right;
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else if (sector < cfqq->next_rq->sector)
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n = &(*p)->rb_left;
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else
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break;
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p = n;
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}
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*ret_parent = parent;
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if (rb_link)
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*rb_link = p;
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return NULL;
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}
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static void cfq_prio_tree_add(struct cfq_data *cfqd, struct cfq_queue *cfqq)
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{
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struct rb_root *root = &cfqd->prio_trees[cfqq->ioprio];
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struct rb_node **p, *parent;
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struct cfq_queue *__cfqq;
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if (!RB_EMPTY_NODE(&cfqq->p_node))
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rb_erase_init(&cfqq->p_node, root);
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if (cfq_class_idle(cfqq))
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return;
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if (!cfqq->next_rq)
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return;
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__cfqq = cfq_prio_tree_lookup(cfqd, cfqq->ioprio, cfqq->next_rq->sector,
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&parent, &p);
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BUG_ON(__cfqq);
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rb_link_node(&cfqq->p_node, parent, p);
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rb_insert_color(&cfqq->p_node, root);
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}
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/*
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* Update cfqq's position in the service tree.
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*/
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@ -549,8 +622,10 @@ static void cfq_resort_rr_list(struct cfq_data *cfqd, struct cfq_queue *cfqq)
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/*
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* Resorting requires the cfqq to be on the RR list already.
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*/
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if (cfq_cfqq_on_rr(cfqq))
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if (cfq_cfqq_on_rr(cfqq)) {
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cfq_service_tree_add(cfqd, cfqq, 0);
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cfq_prio_tree_add(cfqd, cfqq);
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}
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}
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/*
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@ -581,6 +656,8 @@ static void cfq_del_cfqq_rr(struct cfq_data *cfqd, struct cfq_queue *cfqq)
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if (!RB_EMPTY_NODE(&cfqq->rb_node))
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cfq_rb_erase(&cfqq->rb_node, &cfqd->service_tree);
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if (!RB_EMPTY_NODE(&cfqq->p_node))
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rb_erase_init(&cfqq->p_node, &cfqd->prio_trees[cfqq->ioprio]);
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BUG_ON(!cfqd->busy_queues);
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cfqd->busy_queues--;
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@ -610,7 +687,7 @@ static void cfq_add_rq_rb(struct request *rq)
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{
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struct cfq_queue *cfqq = RQ_CFQQ(rq);
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struct cfq_data *cfqd = cfqq->cfqd;
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struct request *__alias;
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struct request *__alias, *prev;
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cfqq->queued[rq_is_sync(rq)]++;
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@ -627,7 +704,15 @@ static void cfq_add_rq_rb(struct request *rq)
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/*
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* check if this request is a better next-serve candidate
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*/
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prev = cfqq->next_rq;
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cfqq->next_rq = cfq_choose_req(cfqd, cfqq->next_rq, rq);
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/*
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* adjust priority tree position, if ->next_rq changes
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*/
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if (prev != cfqq->next_rq)
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cfq_prio_tree_add(cfqd, cfqq);
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BUG_ON(!cfqq->next_rq);
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}
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@ -840,11 +925,15 @@ static struct cfq_queue *cfq_get_next_queue(struct cfq_data *cfqd)
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/*
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* Get and set a new active queue for service.
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*/
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static struct cfq_queue *cfq_set_active_queue(struct cfq_data *cfqd)
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static struct cfq_queue *cfq_set_active_queue(struct cfq_data *cfqd,
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struct cfq_queue *cfqq)
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{
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struct cfq_queue *cfqq;
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if (!cfqq) {
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cfqq = cfq_get_next_queue(cfqd);
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if (cfqq)
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cfq_clear_cfqq_coop(cfqq);
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}
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__cfq_set_active_queue(cfqd, cfqq);
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return cfqq;
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}
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@ -868,17 +957,89 @@ static inline int cfq_rq_close(struct cfq_data *cfqd, struct request *rq)
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return cfq_dist_from_last(cfqd, rq) <= cic->seek_mean;
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}
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static int cfq_close_cooperator(struct cfq_data *cfq_data,
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struct cfq_queue *cfqq)
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static struct cfq_queue *cfqq_close(struct cfq_data *cfqd,
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struct cfq_queue *cur_cfqq)
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{
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struct rb_root *root = &cfqd->prio_trees[cur_cfqq->ioprio];
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struct rb_node *parent, *node;
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struct cfq_queue *__cfqq;
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sector_t sector = cfqd->last_position;
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if (RB_EMPTY_ROOT(root))
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return NULL;
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/*
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* First, if we find a request starting at the end of the last
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* request, choose it.
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*/
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__cfqq = cfq_prio_tree_lookup(cfqd, cur_cfqq->ioprio,
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sector, &parent, NULL);
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if (__cfqq)
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return __cfqq;
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/*
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* If the exact sector wasn't found, the parent of the NULL leaf
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* will contain the closest sector.
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*/
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__cfqq = rb_entry(parent, struct cfq_queue, p_node);
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if (cfq_rq_close(cfqd, __cfqq->next_rq))
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return __cfqq;
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if (__cfqq->next_rq->sector < sector)
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node = rb_next(&__cfqq->p_node);
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else
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node = rb_prev(&__cfqq->p_node);
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if (!node)
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return NULL;
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__cfqq = rb_entry(node, struct cfq_queue, p_node);
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if (cfq_rq_close(cfqd, __cfqq->next_rq))
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return __cfqq;
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return NULL;
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}
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/*
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* cfqd - obvious
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* cur_cfqq - passed in so that we don't decide that the current queue is
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* closely cooperating with itself.
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*
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* So, basically we're assuming that that cur_cfqq has dispatched at least
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* one request, and that cfqd->last_position reflects a position on the disk
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* associated with the I/O issued by cur_cfqq. I'm not sure this is a valid
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* assumption.
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*/
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static struct cfq_queue *cfq_close_cooperator(struct cfq_data *cfqd,
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struct cfq_queue *cur_cfqq,
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int probe)
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{
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struct cfq_queue *cfqq;
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/*
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* A valid cfq_io_context is necessary to compare requests against
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* the seek_mean of the current cfqq.
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*/
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if (!cfqd->active_cic)
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return NULL;
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/*
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* We should notice if some of the queues are cooperating, eg
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* working closely on the same area of the disk. In that case,
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* we can group them together and don't waste time idling.
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*/
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return 0;
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cfqq = cfqq_close(cfqd, cur_cfqq);
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if (!cfqq)
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return NULL;
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if (cfq_cfqq_coop(cfqq))
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return NULL;
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if (!probe)
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cfq_mark_cfqq_coop(cfqq);
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return cfqq;
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}
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#define CIC_SEEKY(cic) ((cic)->seek_mean > (8 * 1024))
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static void cfq_arm_slice_timer(struct cfq_data *cfqd)
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@ -917,13 +1078,6 @@ static void cfq_arm_slice_timer(struct cfq_data *cfqd)
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if (!cic || !atomic_read(&cic->ioc->nr_tasks))
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return;
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/*
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* See if this prio level has a good candidate
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*/
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if (cfq_close_cooperator(cfqd, cfqq) &&
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(sample_valid(cic->ttime_samples) && cic->ttime_mean > 2))
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return;
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cfq_mark_cfqq_wait_request(cfqq);
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/*
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@ -1000,7 +1154,7 @@ cfq_prio_to_maxrq(struct cfq_data *cfqd, struct cfq_queue *cfqq)
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*/
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static struct cfq_queue *cfq_select_queue(struct cfq_data *cfqd)
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{
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struct cfq_queue *cfqq;
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struct cfq_queue *cfqq, *new_cfqq = NULL;
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cfqq = cfqd->active_queue;
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if (!cfqq)
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@ -1033,6 +1187,16 @@ static struct cfq_queue *cfq_select_queue(struct cfq_data *cfqd)
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if (!RB_EMPTY_ROOT(&cfqq->sort_list))
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goto keep_queue;
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/*
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* If another queue has a request waiting within our mean seek
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* distance, let it run. The expire code will check for close
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* cooperators and put the close queue at the front of the service
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* tree.
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*/
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new_cfqq = cfq_close_cooperator(cfqd, cfqq, 0);
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if (new_cfqq)
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goto expire;
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/*
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* No requests pending. If the active queue still has requests in
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* flight or is idling for a new request, allow either of these
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@ -1047,7 +1211,7 @@ static struct cfq_queue *cfq_select_queue(struct cfq_data *cfqd)
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expire:
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cfq_slice_expired(cfqd, 0);
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new_queue:
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cfqq = cfq_set_active_queue(cfqd);
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cfqq = cfq_set_active_queue(cfqd, new_cfqq);
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keep_queue:
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return cfqq;
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}
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@ -1508,6 +1672,7 @@ retry:
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}
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RB_CLEAR_NODE(&cfqq->rb_node);
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RB_CLEAR_NODE(&cfqq->p_node);
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INIT_LIST_HEAD(&cfqq->fifo);
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atomic_set(&cfqq->ref, 0);
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@ -2000,17 +2165,25 @@ static void cfq_completed_request(struct request_queue *q, struct request *rq)
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* or if we want to idle in case it has no pending requests.
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*/
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if (cfqd->active_queue == cfqq) {
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const bool cfqq_empty = RB_EMPTY_ROOT(&cfqq->sort_list);
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if (cfq_cfqq_slice_new(cfqq)) {
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cfq_set_prio_slice(cfqd, cfqq);
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cfq_clear_cfqq_slice_new(cfqq);
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}
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/*
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* If there are no requests waiting in this queue, and
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* there are other queues ready to issue requests, AND
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* those other queues are issuing requests within our
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* mean seek distance, give them a chance to run instead
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* of idling.
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*/
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if (cfq_slice_used(cfqq) || cfq_class_idle(cfqq))
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cfq_slice_expired(cfqd, 1);
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else if (sync && !rq_noidle(rq) &&
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RB_EMPTY_ROOT(&cfqq->sort_list)) {
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else if (cfqq_empty && !cfq_close_cooperator(cfqd, cfqq, 1) &&
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sync && !rq_noidle(rq))
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cfq_arm_slice_timer(cfqd);
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}
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}
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if (!cfqd->rq_in_driver)
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cfq_schedule_dispatch(cfqd);
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