cfq-iosched: Always provide group isolation.
Effectively, make group_isolation=1 the default and remove the tunable. The setting group_isolation=0 was because by default we idle on sync-noidle tree and on fast devices, this can be very harmful for throughput. However, this problem can also be addressed by tuning slice_idle and possibly group_idle on faster storage devices. This change simplifies the CFQ code by removing the feature entirely. Signed-off-by: Justin TerAvest <teravest@google.com> Acked-by: Vivek Goyal <vgoyal@redhat.com> Signed-off-by: Jens Axboe <jaxboe@fusionio.com>
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@ -343,34 +343,6 @@ Common files among various policies
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CFQ sysfs tunable
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=================
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/sys/block/<disk>/queue/iosched/group_isolation
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-----------------------------------------------
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If group_isolation=1, it provides stronger isolation between groups at the
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expense of throughput. By default group_isolation is 0. In general that
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means that if group_isolation=0, expect fairness for sequential workload
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only. Set group_isolation=1 to see fairness for random IO workload also.
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Generally CFQ will put random seeky workload in sync-noidle category. CFQ
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will disable idling on these queues and it does a collective idling on group
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of such queues. Generally these are slow moving queues and if there is a
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sync-noidle service tree in each group, that group gets exclusive access to
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disk for certain period. That means it will bring the throughput down if
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group does not have enough IO to drive deeper queue depths and utilize disk
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capacity to the fullest in the slice allocated to it. But the flip side is
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that even a random reader should get better latencies and overall throughput
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if there are lots of sequential readers/sync-idle workload running in the
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system.
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If group_isolation=0, then CFQ automatically moves all the random seeky queues
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in the root group. That means there will be no service differentiation for
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that kind of workload. This leads to better throughput as we do collective
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idling on root sync-noidle tree.
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By default one should run with group_isolation=0. If that is not sufficient
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and one wants stronger isolation between groups, then set group_isolation=1
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but this will come at cost of reduced throughput.
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/sys/block/<disk>/queue/iosched/slice_idle
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------------------------------------------
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On a faster hardware CFQ can be slow, especially with sequential workload.
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@ -146,7 +146,6 @@ struct cfq_queue {
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struct cfq_rb_root *service_tree;
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struct cfq_queue *new_cfqq;
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struct cfq_group *cfqg;
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struct cfq_group *orig_cfqg;
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/* Number of sectors dispatched from queue in single dispatch round */
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unsigned long nr_sectors;
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};
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@ -285,7 +284,6 @@ struct cfq_data {
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unsigned int cfq_slice_idle;
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unsigned int cfq_group_idle;
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unsigned int cfq_latency;
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unsigned int cfq_group_isolation;
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unsigned int cic_index;
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struct list_head cic_list;
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@ -1187,32 +1185,6 @@ static void cfq_service_tree_add(struct cfq_data *cfqd, struct cfq_queue *cfqq,
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int new_cfqq = 1;
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int group_changed = 0;
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#ifdef CONFIG_CFQ_GROUP_IOSCHED
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if (!cfqd->cfq_group_isolation
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&& cfqq_type(cfqq) == SYNC_NOIDLE_WORKLOAD
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&& cfqq->cfqg && cfqq->cfqg != &cfqd->root_group) {
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/* Move this cfq to root group */
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cfq_log_cfqq(cfqd, cfqq, "moving to root group");
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if (!RB_EMPTY_NODE(&cfqq->rb_node))
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cfq_group_service_tree_del(cfqd, cfqq->cfqg);
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cfqq->orig_cfqg = cfqq->cfqg;
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cfqq->cfqg = &cfqd->root_group;
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cfqd->root_group.ref++;
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group_changed = 1;
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} else if (!cfqd->cfq_group_isolation
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&& cfqq_type(cfqq) == SYNC_WORKLOAD && cfqq->orig_cfqg) {
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/* cfqq is sequential now needs to go to its original group */
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BUG_ON(cfqq->cfqg != &cfqd->root_group);
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if (!RB_EMPTY_NODE(&cfqq->rb_node))
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cfq_group_service_tree_del(cfqd, cfqq->cfqg);
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cfq_put_cfqg(cfqq->cfqg);
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cfqq->cfqg = cfqq->orig_cfqg;
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cfqq->orig_cfqg = NULL;
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group_changed = 1;
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cfq_log_cfqq(cfqd, cfqq, "moved to origin group");
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}
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#endif
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service_tree = service_tree_for(cfqq->cfqg, cfqq_prio(cfqq),
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cfqq_type(cfqq));
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if (cfq_class_idle(cfqq)) {
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@ -2542,7 +2514,7 @@ static int cfq_dispatch_requests(struct request_queue *q, int force)
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static void cfq_put_queue(struct cfq_queue *cfqq)
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{
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struct cfq_data *cfqd = cfqq->cfqd;
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struct cfq_group *cfqg, *orig_cfqg;
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struct cfq_group *cfqg;
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BUG_ON(cfqq->ref <= 0);
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@ -2554,7 +2526,6 @@ static void cfq_put_queue(struct cfq_queue *cfqq)
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BUG_ON(rb_first(&cfqq->sort_list));
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BUG_ON(cfqq->allocated[READ] + cfqq->allocated[WRITE]);
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cfqg = cfqq->cfqg;
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orig_cfqg = cfqq->orig_cfqg;
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if (unlikely(cfqd->active_queue == cfqq)) {
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__cfq_slice_expired(cfqd, cfqq, 0);
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@ -2564,8 +2535,6 @@ static void cfq_put_queue(struct cfq_queue *cfqq)
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BUG_ON(cfq_cfqq_on_rr(cfqq));
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kmem_cache_free(cfq_pool, cfqq);
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cfq_put_cfqg(cfqg);
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if (orig_cfqg)
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cfq_put_cfqg(orig_cfqg);
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}
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/*
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@ -3953,7 +3922,6 @@ static void *cfq_init_queue(struct request_queue *q)
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cfqd->cfq_slice_idle = cfq_slice_idle;
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cfqd->cfq_group_idle = cfq_group_idle;
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cfqd->cfq_latency = 1;
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cfqd->cfq_group_isolation = 0;
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cfqd->hw_tag = -1;
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/*
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* we optimistically start assuming sync ops weren't delayed in last
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@ -4029,7 +3997,6 @@ SHOW_FUNCTION(cfq_slice_sync_show, cfqd->cfq_slice[1], 1);
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SHOW_FUNCTION(cfq_slice_async_show, cfqd->cfq_slice[0], 1);
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SHOW_FUNCTION(cfq_slice_async_rq_show, cfqd->cfq_slice_async_rq, 0);
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SHOW_FUNCTION(cfq_low_latency_show, cfqd->cfq_latency, 0);
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SHOW_FUNCTION(cfq_group_isolation_show, cfqd->cfq_group_isolation, 0);
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#undef SHOW_FUNCTION
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#define STORE_FUNCTION(__FUNC, __PTR, MIN, MAX, __CONV) \
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@ -4063,7 +4030,6 @@ STORE_FUNCTION(cfq_slice_async_store, &cfqd->cfq_slice[0], 1, UINT_MAX, 1);
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STORE_FUNCTION(cfq_slice_async_rq_store, &cfqd->cfq_slice_async_rq, 1,
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UINT_MAX, 0);
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STORE_FUNCTION(cfq_low_latency_store, &cfqd->cfq_latency, 0, 1, 0);
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STORE_FUNCTION(cfq_group_isolation_store, &cfqd->cfq_group_isolation, 0, 1, 0);
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#undef STORE_FUNCTION
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#define CFQ_ATTR(name) \
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@ -4081,7 +4047,6 @@ static struct elv_fs_entry cfq_attrs[] = {
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CFQ_ATTR(slice_idle),
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CFQ_ATTR(group_idle),
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CFQ_ATTR(low_latency),
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CFQ_ATTR(group_isolation),
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__ATTR_NULL
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};
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