1129 lines
38 KiB
C
1129 lines
38 KiB
C
/* SPDX-License-Identifier: GPL-2.0-or-later */
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/*
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* Header file for the BFQ I/O scheduler: data structures and
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* prototypes of interface functions among BFQ components.
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*/
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#ifndef _BFQ_H
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#define _BFQ_H
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#include <linux/blktrace_api.h>
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#include <linux/hrtimer.h>
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#include "blk-cgroup-rwstat.h"
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#define BFQ_IOPRIO_CLASSES 3
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#define BFQ_CL_IDLE_TIMEOUT (HZ/5)
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#define BFQ_MIN_WEIGHT 1
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#define BFQ_MAX_WEIGHT 1000
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#define BFQ_WEIGHT_CONVERSION_COEFF 10
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#define BFQ_DEFAULT_QUEUE_IOPRIO 4
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#define BFQ_WEIGHT_LEGACY_DFL 100
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#define BFQ_DEFAULT_GRP_IOPRIO 0
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#define BFQ_DEFAULT_GRP_CLASS IOPRIO_CLASS_BE
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#define MAX_BFQQ_NAME_LENGTH 16
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/*
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* Soft real-time applications are extremely more latency sensitive
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* than interactive ones. Over-raise the weight of the former to
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* privilege them against the latter.
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*/
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#define BFQ_SOFTRT_WEIGHT_FACTOR 100
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struct bfq_entity;
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/**
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* struct bfq_service_tree - per ioprio_class service tree.
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*
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* Each service tree represents a B-WF2Q+ scheduler on its own. Each
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* ioprio_class has its own independent scheduler, and so its own
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* bfq_service_tree. All the fields are protected by the queue lock
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* of the containing bfqd.
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*/
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struct bfq_service_tree {
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/* tree for active entities (i.e., those backlogged) */
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struct rb_root active;
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/* tree for idle entities (i.e., not backlogged, with V < F_i)*/
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struct rb_root idle;
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/* idle entity with minimum F_i */
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struct bfq_entity *first_idle;
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/* idle entity with maximum F_i */
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struct bfq_entity *last_idle;
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/* scheduler virtual time */
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u64 vtime;
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/* scheduler weight sum; active and idle entities contribute to it */
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unsigned long wsum;
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};
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/**
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* struct bfq_sched_data - multi-class scheduler.
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*
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* bfq_sched_data is the basic scheduler queue. It supports three
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* ioprio_classes, and can be used either as a toplevel queue or as an
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* intermediate queue in a hierarchical setup.
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*
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* The supported ioprio_classes are the same as in CFQ, in descending
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* priority order, IOPRIO_CLASS_RT, IOPRIO_CLASS_BE, IOPRIO_CLASS_IDLE.
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* Requests from higher priority queues are served before all the
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* requests from lower priority queues; among requests of the same
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* queue requests are served according to B-WF2Q+.
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*
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* The schedule is implemented by the service trees, plus the field
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* @next_in_service, which points to the entity on the active trees
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* that will be served next, if 1) no changes in the schedule occurs
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* before the current in-service entity is expired, 2) the in-service
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* queue becomes idle when it expires, and 3) if the entity pointed by
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* in_service_entity is not a queue, then the in-service child entity
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* of the entity pointed by in_service_entity becomes idle on
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* expiration. This peculiar definition allows for the following
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* optimization, not yet exploited: while a given entity is still in
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* service, we already know which is the best candidate for next
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* service among the other active entities in the same parent
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* entity. We can then quickly compare the timestamps of the
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* in-service entity with those of such best candidate.
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*
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* All fields are protected by the lock of the containing bfqd.
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*/
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struct bfq_sched_data {
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/* entity in service */
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struct bfq_entity *in_service_entity;
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/* head-of-line entity (see comments above) */
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struct bfq_entity *next_in_service;
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/* array of service trees, one per ioprio_class */
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struct bfq_service_tree service_tree[BFQ_IOPRIO_CLASSES];
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/* last time CLASS_IDLE was served */
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unsigned long bfq_class_idle_last_service;
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};
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/**
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* struct bfq_weight_counter - counter of the number of all active queues
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* with a given weight.
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*/
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struct bfq_weight_counter {
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unsigned int weight; /* weight of the queues this counter refers to */
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unsigned int num_active; /* nr of active queues with this weight */
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/*
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* Weights tree member (see bfq_data's @queue_weights_tree)
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*/
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struct rb_node weights_node;
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};
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/**
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* struct bfq_entity - schedulable entity.
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*
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* A bfq_entity is used to represent either a bfq_queue (leaf node in the
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* cgroup hierarchy) or a bfq_group into the upper level scheduler. Each
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* entity belongs to the sched_data of the parent group in the cgroup
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* hierarchy. Non-leaf entities have also their own sched_data, stored
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* in @my_sched_data.
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*
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* Each entity stores independently its priority values; this would
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* allow different weights on different devices, but this
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* functionality is not exported to userspace by now. Priorities and
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* weights are updated lazily, first storing the new values into the
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* new_* fields, then setting the @prio_changed flag. As soon as
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* there is a transition in the entity state that allows the priority
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* update to take place the effective and the requested priority
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* values are synchronized.
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*
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* Unless cgroups are used, the weight value is calculated from the
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* ioprio to export the same interface as CFQ. When dealing with
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* "well-behaved" queues (i.e., queues that do not spend too much
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* time to consume their budget and have true sequential behavior, and
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* when there are no external factors breaking anticipation) the
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* relative weights at each level of the cgroups hierarchy should be
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* guaranteed. All the fields are protected by the queue lock of the
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* containing bfqd.
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*/
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struct bfq_entity {
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/* service_tree member */
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struct rb_node rb_node;
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/*
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* Flag, true if the entity is on a tree (either the active or
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* the idle one of its service_tree) or is in service.
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*/
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bool on_st_or_in_serv;
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/* B-WF2Q+ start and finish timestamps [sectors/weight] */
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u64 start, finish;
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/* tree the entity is enqueued into; %NULL if not on a tree */
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struct rb_root *tree;
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/*
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* minimum start time of the (active) subtree rooted at this
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* entity; used for O(log N) lookups into active trees
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*/
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u64 min_start;
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/* amount of service received during the last service slot */
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int service;
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/* budget, used also to calculate F_i: F_i = S_i + @budget / @weight */
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int budget;
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/* Number of requests allocated in the subtree of this entity */
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int allocated;
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/* device weight, if non-zero, it overrides the default weight of
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* bfq_group_data */
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int dev_weight;
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/* weight of the queue */
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int weight;
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/* next weight if a change is in progress */
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int new_weight;
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/* original weight, used to implement weight boosting */
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int orig_weight;
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/* parent entity, for hierarchical scheduling */
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struct bfq_entity *parent;
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/*
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* For non-leaf nodes in the hierarchy, the associated
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* scheduler queue, %NULL on leaf nodes.
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*/
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struct bfq_sched_data *my_sched_data;
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/* the scheduler queue this entity belongs to */
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struct bfq_sched_data *sched_data;
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/* flag, set to request a weight, ioprio or ioprio_class change */
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int prio_changed;
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/* flag, set if the entity is counted in groups_with_pending_reqs */
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bool in_groups_with_pending_reqs;
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/* last child queue of entity created (for non-leaf entities) */
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struct bfq_queue *last_bfqq_created;
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};
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struct bfq_group;
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/**
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* struct bfq_ttime - per process thinktime stats.
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*/
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struct bfq_ttime {
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/* completion time of the last request */
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u64 last_end_request;
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/* total process thinktime */
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u64 ttime_total;
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/* number of thinktime samples */
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unsigned long ttime_samples;
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/* average process thinktime */
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u64 ttime_mean;
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};
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/**
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* struct bfq_queue - leaf schedulable entity.
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*
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* A bfq_queue is a leaf request queue; it can be associated with an
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* io_context or more, if it is async or shared between cooperating
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* processes. @cgroup holds a reference to the cgroup, to be sure that it
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* does not disappear while a bfqq still references it (mostly to avoid
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* races between request issuing and task migration followed by cgroup
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* destruction).
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* All the fields are protected by the queue lock of the containing bfqd.
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*/
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struct bfq_queue {
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/* reference counter */
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int ref;
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/* counter of references from other queues for delayed stable merge */
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int stable_ref;
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/* parent bfq_data */
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struct bfq_data *bfqd;
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/* current ioprio and ioprio class */
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unsigned short ioprio, ioprio_class;
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/* next ioprio and ioprio class if a change is in progress */
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unsigned short new_ioprio, new_ioprio_class;
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/* last total-service-time sample, see bfq_update_inject_limit() */
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u64 last_serv_time_ns;
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/* limit for request injection */
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unsigned int inject_limit;
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/* last time the inject limit has been decreased, in jiffies */
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unsigned long decrease_time_jif;
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/*
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* Shared bfq_queue if queue is cooperating with one or more
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* other queues.
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*/
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struct bfq_queue *new_bfqq;
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/* request-position tree member (see bfq_group's @rq_pos_tree) */
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struct rb_node pos_node;
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/* request-position tree root (see bfq_group's @rq_pos_tree) */
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struct rb_root *pos_root;
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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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struct request *next_rq;
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/* number of sync and async requests queued */
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int queued[2];
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/* number of pending metadata requests */
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int meta_pending;
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/* fifo list of requests in sort_list */
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struct list_head fifo;
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/* entity representing this queue in the scheduler */
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struct bfq_entity entity;
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/* pointer to the weight counter associated with this entity */
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struct bfq_weight_counter *weight_counter;
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/* maximum budget allowed from the feedback mechanism */
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int max_budget;
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/* budget expiration (in jiffies) */
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unsigned long budget_timeout;
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/* number of requests on the dispatch list or inside driver */
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int dispatched;
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/* status flags */
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unsigned long flags;
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/* node for active/idle bfqq list inside parent bfqd */
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struct list_head bfqq_list;
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/* associated @bfq_ttime struct */
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struct bfq_ttime ttime;
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/* when bfqq started to do I/O within the last observation window */
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u64 io_start_time;
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/* how long bfqq has remained empty during the last observ. window */
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u64 tot_idle_time;
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/* bit vector: a 1 for each seeky requests in history */
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u32 seek_history;
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/* node for the device's burst list */
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struct hlist_node burst_list_node;
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/* position of the last request enqueued */
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sector_t last_request_pos;
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/* Number of consecutive pairs of request completion and
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* arrival, such that the queue becomes idle after the
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* completion, but the next request arrives within an idle
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* time slice; used only if the queue's IO_bound flag has been
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* cleared.
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*/
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unsigned int requests_within_timer;
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/* pid of the process owning the queue, used for logging purposes */
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pid_t pid;
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/*
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* Pointer to the bfq_io_cq owning the bfq_queue, set to %NULL
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* if the queue is shared.
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*/
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struct bfq_io_cq *bic;
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/* current maximum weight-raising time for this queue */
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unsigned long wr_cur_max_time;
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/*
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* Minimum time instant such that, only if a new request is
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* enqueued after this time instant in an idle @bfq_queue with
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* no outstanding requests, then the task associated with the
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* queue it is deemed as soft real-time (see the comments on
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* the function bfq_bfqq_softrt_next_start())
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*/
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unsigned long soft_rt_next_start;
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/*
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* Start time of the current weight-raising period if
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* the @bfq-queue is being weight-raised, otherwise
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* finish time of the last weight-raising period.
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*/
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unsigned long last_wr_start_finish;
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/* factor by which the weight of this queue is multiplied */
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unsigned int wr_coeff;
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/*
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* Time of the last transition of the @bfq_queue from idle to
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* backlogged.
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*/
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unsigned long last_idle_bklogged;
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/*
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* Cumulative service received from the @bfq_queue since the
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* last transition from idle to backlogged.
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*/
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unsigned long service_from_backlogged;
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/*
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* Cumulative service received from the @bfq_queue since its
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* last transition to weight-raised state.
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*/
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unsigned long service_from_wr;
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/*
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* Value of wr start time when switching to soft rt
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*/
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unsigned long wr_start_at_switch_to_srt;
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unsigned long split_time; /* time of last split */
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unsigned long first_IO_time; /* time of first I/O for this queue */
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unsigned long creation_time; /* when this queue is created */
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/* max service rate measured so far */
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u32 max_service_rate;
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/*
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* Pointer to the waker queue for this queue, i.e., to the
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* queue Q such that this queue happens to get new I/O right
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* after some I/O request of Q is completed. For details, see
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* the comments on the choice of the queue for injection in
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* bfq_select_queue().
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*/
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struct bfq_queue *waker_bfqq;
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/* pointer to the curr. tentative waker queue, see bfq_check_waker() */
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struct bfq_queue *tentative_waker_bfqq;
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/* number of times the same tentative waker has been detected */
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unsigned int num_waker_detections;
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/* time when we started considering this waker */
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u64 waker_detection_started;
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/* node for woken_list, see below */
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struct hlist_node woken_list_node;
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/*
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* Head of the list of the woken queues for this queue, i.e.,
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* of the list of the queues for which this queue is a waker
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* queue. This list is used to reset the waker_bfqq pointer in
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* the woken queues when this queue exits.
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*/
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struct hlist_head woken_list;
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};
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/**
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* struct bfq_io_cq - per (request_queue, io_context) structure.
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*/
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struct bfq_io_cq {
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/* associated io_cq structure */
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struct io_cq icq; /* must be the first member */
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/* array of two process queues, the sync and the async */
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struct bfq_queue *bfqq[2];
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/* per (request_queue, blkcg) ioprio */
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int ioprio;
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#ifdef CONFIG_BFQ_GROUP_IOSCHED
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uint64_t blkcg_serial_nr; /* the current blkcg serial */
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#endif
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/*
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* Snapshot of the has_short_time flag before merging; taken
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* to remember its value while the queue is merged, so as to
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* be able to restore it in case of split.
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*/
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bool saved_has_short_ttime;
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/*
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* Same purpose as the previous two fields for the I/O bound
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* classification of a queue.
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*/
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bool saved_IO_bound;
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u64 saved_io_start_time;
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u64 saved_tot_idle_time;
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/*
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* Same purpose as the previous fields for the value of the
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* field keeping the queue's belonging to a large burst
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*/
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bool saved_in_large_burst;
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/*
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* True if the queue belonged to a burst list before its merge
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* with another cooperating queue.
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*/
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bool was_in_burst_list;
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/*
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* Save the weight when a merge occurs, to be able
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* to restore it in case of split. If the weight is not
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* correctly resumed when the queue is recycled,
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* then the weight of the recycled queue could differ
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* from the weight of the original queue.
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*/
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unsigned int saved_weight;
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/*
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* Similar to previous fields: save wr information.
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*/
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unsigned long saved_wr_coeff;
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unsigned long saved_last_wr_start_finish;
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unsigned long saved_service_from_wr;
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unsigned long saved_wr_start_at_switch_to_srt;
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unsigned int saved_wr_cur_max_time;
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struct bfq_ttime saved_ttime;
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/* Save also injection state */
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u64 saved_last_serv_time_ns;
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unsigned int saved_inject_limit;
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unsigned long saved_decrease_time_jif;
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/* candidate queue for a stable merge (due to close creation time) */
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struct bfq_queue *stable_merge_bfqq;
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bool stably_merged; /* non splittable if true */
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};
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/**
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* struct bfq_data - per-device data structure.
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*
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* All the fields are protected by @lock.
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*/
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struct bfq_data {
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/* device request queue */
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struct request_queue *queue;
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/* dispatch queue */
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struct list_head dispatch;
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/* root bfq_group for the device */
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struct bfq_group *root_group;
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/*
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* rbtree of weight counters of @bfq_queues, sorted by
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* weight. Used to keep track of whether all @bfq_queues have
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* the same weight. The tree contains one counter for each
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* distinct weight associated to some active and not
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* weight-raised @bfq_queue (see the comments to the functions
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* bfq_weights_tree_[add|remove] for further details).
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*/
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struct rb_root_cached queue_weights_tree;
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/*
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* Number of groups with at least one descendant process that
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* has at least one request waiting for completion. Note that
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* this accounts for also requests already dispatched, but not
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* yet completed. Therefore this number of groups may differ
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* (be larger) than the number of active groups, as a group is
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* considered active only if its corresponding entity has
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* descendant queues with at least one request queued. This
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* number is used to decide whether a scenario is symmetric.
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* For a detailed explanation see comments on the computation
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* of the variable asymmetric_scenario in the function
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* bfq_better_to_idle().
|
|
*
|
|
* However, it is hard to compute this number exactly, for
|
|
* groups with multiple descendant processes. Consider a group
|
|
* that is inactive, i.e., that has no descendant process with
|
|
* pending I/O inside BFQ queues. Then suppose that
|
|
* num_groups_with_pending_reqs is still accounting for this
|
|
* group, because the group has descendant processes with some
|
|
* I/O request still in flight. num_groups_with_pending_reqs
|
|
* should be decremented when the in-flight request of the
|
|
* last descendant process is finally completed (assuming that
|
|
* nothing else has changed for the group in the meantime, in
|
|
* terms of composition of the group and active/inactive state of child
|
|
* groups and processes). To accomplish this, an additional
|
|
* pending-request counter must be added to entities, and must
|
|
* be updated correctly. To avoid this additional field and operations,
|
|
* we resort to the following tradeoff between simplicity and
|
|
* accuracy: for an inactive group that is still counted in
|
|
* num_groups_with_pending_reqs, we decrement
|
|
* num_groups_with_pending_reqs when the first descendant
|
|
* process of the group remains with no request waiting for
|
|
* completion.
|
|
*
|
|
* Even this simpler decrement strategy requires a little
|
|
* carefulness: to avoid multiple decrements, we flag a group,
|
|
* more precisely an entity representing a group, as still
|
|
* counted in num_groups_with_pending_reqs when it becomes
|
|
* inactive. Then, when the first descendant queue of the
|
|
* entity remains with no request waiting for completion,
|
|
* num_groups_with_pending_reqs is decremented, and this flag
|
|
* is reset. After this flag is reset for the entity,
|
|
* num_groups_with_pending_reqs won't be decremented any
|
|
* longer in case a new descendant queue of the entity remains
|
|
* with no request waiting for completion.
|
|
*/
|
|
unsigned int num_groups_with_pending_reqs;
|
|
|
|
/*
|
|
* Per-class (RT, BE, IDLE) number of bfq_queues containing
|
|
* requests (including the queue in service, even if it is
|
|
* idling).
|
|
*/
|
|
unsigned int busy_queues[3];
|
|
/* number of weight-raised busy @bfq_queues */
|
|
int wr_busy_queues;
|
|
/* number of queued requests */
|
|
int queued;
|
|
/* number of requests dispatched and waiting for completion */
|
|
int rq_in_driver;
|
|
|
|
/* true if the device is non rotational and performs queueing */
|
|
bool nonrot_with_queueing;
|
|
|
|
/*
|
|
* Maximum number of requests in driver in the last
|
|
* @hw_tag_samples completed requests.
|
|
*/
|
|
int max_rq_in_driver;
|
|
/* number of samples used to calculate hw_tag */
|
|
int hw_tag_samples;
|
|
/* flag set to one if the driver is showing a queueing behavior */
|
|
int hw_tag;
|
|
|
|
/* number of budgets assigned */
|
|
int budgets_assigned;
|
|
|
|
/*
|
|
* Timer set when idling (waiting) for the next request from
|
|
* the queue in service.
|
|
*/
|
|
struct hrtimer idle_slice_timer;
|
|
|
|
/* bfq_queue in service */
|
|
struct bfq_queue *in_service_queue;
|
|
|
|
/* on-disk position of the last served request */
|
|
sector_t last_position;
|
|
|
|
/* position of the last served request for the in-service queue */
|
|
sector_t in_serv_last_pos;
|
|
|
|
/* time of last request completion (ns) */
|
|
u64 last_completion;
|
|
|
|
/* bfqq owning the last completed rq */
|
|
struct bfq_queue *last_completed_rq_bfqq;
|
|
|
|
/* last bfqq created, among those in the root group */
|
|
struct bfq_queue *last_bfqq_created;
|
|
|
|
/* time of last transition from empty to non-empty (ns) */
|
|
u64 last_empty_occupied_ns;
|
|
|
|
/*
|
|
* Flag set to activate the sampling of the total service time
|
|
* of a just-arrived first I/O request (see
|
|
* bfq_update_inject_limit()). This will cause the setting of
|
|
* waited_rq when the request is finally dispatched.
|
|
*/
|
|
bool wait_dispatch;
|
|
/*
|
|
* If set, then bfq_update_inject_limit() is invoked when
|
|
* waited_rq is eventually completed.
|
|
*/
|
|
struct request *waited_rq;
|
|
/*
|
|
* True if some request has been injected during the last service hole.
|
|
*/
|
|
bool rqs_injected;
|
|
|
|
/* time of first rq dispatch in current observation interval (ns) */
|
|
u64 first_dispatch;
|
|
/* time of last rq dispatch in current observation interval (ns) */
|
|
u64 last_dispatch;
|
|
|
|
/* beginning of the last budget */
|
|
ktime_t last_budget_start;
|
|
/* beginning of the last idle slice */
|
|
ktime_t last_idling_start;
|
|
unsigned long last_idling_start_jiffies;
|
|
|
|
/* number of samples in current observation interval */
|
|
int peak_rate_samples;
|
|
/* num of samples of seq dispatches in current observation interval */
|
|
u32 sequential_samples;
|
|
/* total num of sectors transferred in current observation interval */
|
|
u64 tot_sectors_dispatched;
|
|
/* max rq size seen during current observation interval (sectors) */
|
|
u32 last_rq_max_size;
|
|
/* time elapsed from first dispatch in current observ. interval (us) */
|
|
u64 delta_from_first;
|
|
/*
|
|
* Current estimate of the device peak rate, measured in
|
|
* [(sectors/usec) / 2^BFQ_RATE_SHIFT]. The left-shift by
|
|
* BFQ_RATE_SHIFT is performed to increase precision in
|
|
* fixed-point calculations.
|
|
*/
|
|
u32 peak_rate;
|
|
|
|
/* maximum budget allotted to a bfq_queue before rescheduling */
|
|
int bfq_max_budget;
|
|
|
|
/* list of all the bfq_queues active on the device */
|
|
struct list_head active_list;
|
|
/* list of all the bfq_queues idle on the device */
|
|
struct list_head idle_list;
|
|
|
|
/*
|
|
* Timeout for async/sync requests; when it fires, requests
|
|
* are served in fifo order.
|
|
*/
|
|
u64 bfq_fifo_expire[2];
|
|
/* weight of backward seeks wrt forward ones */
|
|
unsigned int bfq_back_penalty;
|
|
/* maximum allowed backward seek */
|
|
unsigned int bfq_back_max;
|
|
/* maximum idling time */
|
|
u32 bfq_slice_idle;
|
|
|
|
/* user-configured max budget value (0 for auto-tuning) */
|
|
int bfq_user_max_budget;
|
|
/*
|
|
* Timeout for bfq_queues to consume their budget; used to
|
|
* prevent seeky queues from imposing long latencies to
|
|
* sequential or quasi-sequential ones (this also implies that
|
|
* seeky queues cannot receive guarantees in the service
|
|
* domain; after a timeout they are charged for the time they
|
|
* have been in service, to preserve fairness among them, but
|
|
* without service-domain guarantees).
|
|
*/
|
|
unsigned int bfq_timeout;
|
|
|
|
/*
|
|
* Force device idling whenever needed to provide accurate
|
|
* service guarantees, without caring about throughput
|
|
* issues. CAVEAT: this may even increase latencies, in case
|
|
* of useless idling for processes that did stop doing I/O.
|
|
*/
|
|
bool strict_guarantees;
|
|
|
|
/*
|
|
* Last time at which a queue entered the current burst of
|
|
* queues being activated shortly after each other; for more
|
|
* details about this and the following parameters related to
|
|
* a burst of activations, see the comments on the function
|
|
* bfq_handle_burst.
|
|
*/
|
|
unsigned long last_ins_in_burst;
|
|
/*
|
|
* Reference time interval used to decide whether a queue has
|
|
* been activated shortly after @last_ins_in_burst.
|
|
*/
|
|
unsigned long bfq_burst_interval;
|
|
/* number of queues in the current burst of queue activations */
|
|
int burst_size;
|
|
|
|
/* common parent entity for the queues in the burst */
|
|
struct bfq_entity *burst_parent_entity;
|
|
/* Maximum burst size above which the current queue-activation
|
|
* burst is deemed as 'large'.
|
|
*/
|
|
unsigned long bfq_large_burst_thresh;
|
|
/* true if a large queue-activation burst is in progress */
|
|
bool large_burst;
|
|
/*
|
|
* Head of the burst list (as for the above fields, more
|
|
* details in the comments on the function bfq_handle_burst).
|
|
*/
|
|
struct hlist_head burst_list;
|
|
|
|
/* if set to true, low-latency heuristics are enabled */
|
|
bool low_latency;
|
|
/*
|
|
* Maximum factor by which the weight of a weight-raised queue
|
|
* is multiplied.
|
|
*/
|
|
unsigned int bfq_wr_coeff;
|
|
/* maximum duration of a weight-raising period (jiffies) */
|
|
unsigned int bfq_wr_max_time;
|
|
|
|
/* Maximum weight-raising duration for soft real-time processes */
|
|
unsigned int bfq_wr_rt_max_time;
|
|
/*
|
|
* Minimum idle period after which weight-raising may be
|
|
* reactivated for a queue (in jiffies).
|
|
*/
|
|
unsigned int bfq_wr_min_idle_time;
|
|
/*
|
|
* Minimum period between request arrivals after which
|
|
* weight-raising may be reactivated for an already busy async
|
|
* queue (in jiffies).
|
|
*/
|
|
unsigned long bfq_wr_min_inter_arr_async;
|
|
|
|
/* Max service-rate for a soft real-time queue, in sectors/sec */
|
|
unsigned int bfq_wr_max_softrt_rate;
|
|
/*
|
|
* Cached value of the product ref_rate*ref_wr_duration, used
|
|
* for computing the maximum duration of weight raising
|
|
* automatically.
|
|
*/
|
|
u64 rate_dur_prod;
|
|
|
|
/* fallback dummy bfqq for extreme OOM conditions */
|
|
struct bfq_queue oom_bfqq;
|
|
|
|
spinlock_t lock;
|
|
|
|
/*
|
|
* bic associated with the task issuing current bio for
|
|
* merging. This and the next field are used as a support to
|
|
* be able to perform the bic lookup, needed by bio-merge
|
|
* functions, before the scheduler lock is taken, and thus
|
|
* avoid taking the request-queue lock while the scheduler
|
|
* lock is being held.
|
|
*/
|
|
struct bfq_io_cq *bio_bic;
|
|
/* bfqq associated with the task issuing current bio for merging */
|
|
struct bfq_queue *bio_bfqq;
|
|
|
|
/*
|
|
* Depth limits used in bfq_limit_depth (see comments on the
|
|
* function)
|
|
*/
|
|
unsigned int word_depths[2][2];
|
|
unsigned int full_depth_shift;
|
|
};
|
|
|
|
enum bfqq_state_flags {
|
|
BFQQF_just_created = 0, /* queue just allocated */
|
|
BFQQF_busy, /* has requests or is in service */
|
|
BFQQF_wait_request, /* waiting for a request */
|
|
BFQQF_non_blocking_wait_rq, /*
|
|
* waiting for a request
|
|
* without idling the device
|
|
*/
|
|
BFQQF_fifo_expire, /* FIFO checked in this slice */
|
|
BFQQF_has_short_ttime, /* queue has a short think time */
|
|
BFQQF_sync, /* synchronous queue */
|
|
BFQQF_IO_bound, /*
|
|
* bfqq has timed-out at least once
|
|
* having consumed at most 2/10 of
|
|
* its budget
|
|
*/
|
|
BFQQF_in_large_burst, /*
|
|
* bfqq activated in a large burst,
|
|
* see comments to bfq_handle_burst.
|
|
*/
|
|
BFQQF_softrt_update, /*
|
|
* may need softrt-next-start
|
|
* update
|
|
*/
|
|
BFQQF_coop, /* bfqq is shared */
|
|
BFQQF_split_coop, /* shared bfqq will be split */
|
|
};
|
|
|
|
#define BFQ_BFQQ_FNS(name) \
|
|
void bfq_mark_bfqq_##name(struct bfq_queue *bfqq); \
|
|
void bfq_clear_bfqq_##name(struct bfq_queue *bfqq); \
|
|
int bfq_bfqq_##name(const struct bfq_queue *bfqq);
|
|
|
|
BFQ_BFQQ_FNS(just_created);
|
|
BFQ_BFQQ_FNS(busy);
|
|
BFQ_BFQQ_FNS(wait_request);
|
|
BFQ_BFQQ_FNS(non_blocking_wait_rq);
|
|
BFQ_BFQQ_FNS(fifo_expire);
|
|
BFQ_BFQQ_FNS(has_short_ttime);
|
|
BFQ_BFQQ_FNS(sync);
|
|
BFQ_BFQQ_FNS(IO_bound);
|
|
BFQ_BFQQ_FNS(in_large_burst);
|
|
BFQ_BFQQ_FNS(coop);
|
|
BFQ_BFQQ_FNS(split_coop);
|
|
BFQ_BFQQ_FNS(softrt_update);
|
|
#undef BFQ_BFQQ_FNS
|
|
|
|
/* Expiration reasons. */
|
|
enum bfqq_expiration {
|
|
BFQQE_TOO_IDLE = 0, /*
|
|
* queue has been idling for
|
|
* too long
|
|
*/
|
|
BFQQE_BUDGET_TIMEOUT, /* budget took too long to be used */
|
|
BFQQE_BUDGET_EXHAUSTED, /* budget consumed */
|
|
BFQQE_NO_MORE_REQUESTS, /* the queue has no more requests */
|
|
BFQQE_PREEMPTED /* preemption in progress */
|
|
};
|
|
|
|
struct bfq_stat {
|
|
struct percpu_counter cpu_cnt;
|
|
atomic64_t aux_cnt;
|
|
};
|
|
|
|
struct bfqg_stats {
|
|
/* basic stats */
|
|
struct blkg_rwstat bytes;
|
|
struct blkg_rwstat ios;
|
|
#ifdef CONFIG_BFQ_CGROUP_DEBUG
|
|
/* number of ios merged */
|
|
struct blkg_rwstat merged;
|
|
/* total time spent on device in ns, may not be accurate w/ queueing */
|
|
struct blkg_rwstat service_time;
|
|
/* total time spent waiting in scheduler queue in ns */
|
|
struct blkg_rwstat wait_time;
|
|
/* number of IOs queued up */
|
|
struct blkg_rwstat queued;
|
|
/* total disk time and nr sectors dispatched by this group */
|
|
struct bfq_stat time;
|
|
/* sum of number of ios queued across all samples */
|
|
struct bfq_stat avg_queue_size_sum;
|
|
/* count of samples taken for average */
|
|
struct bfq_stat avg_queue_size_samples;
|
|
/* how many times this group has been removed from service tree */
|
|
struct bfq_stat dequeue;
|
|
/* total time spent waiting for it to be assigned a timeslice. */
|
|
struct bfq_stat group_wait_time;
|
|
/* time spent idling for this blkcg_gq */
|
|
struct bfq_stat idle_time;
|
|
/* total time with empty current active q with other requests queued */
|
|
struct bfq_stat empty_time;
|
|
/* fields after this shouldn't be cleared on stat reset */
|
|
u64 start_group_wait_time;
|
|
u64 start_idle_time;
|
|
u64 start_empty_time;
|
|
uint16_t flags;
|
|
#endif /* CONFIG_BFQ_CGROUP_DEBUG */
|
|
};
|
|
|
|
#ifdef CONFIG_BFQ_GROUP_IOSCHED
|
|
|
|
/*
|
|
* struct bfq_group_data - per-blkcg storage for the blkio subsystem.
|
|
*
|
|
* @ps: @blkcg_policy_storage that this structure inherits
|
|
* @weight: weight of the bfq_group
|
|
*/
|
|
struct bfq_group_data {
|
|
/* must be the first member */
|
|
struct blkcg_policy_data pd;
|
|
|
|
unsigned int weight;
|
|
};
|
|
|
|
/**
|
|
* struct bfq_group - per (device, cgroup) data structure.
|
|
* @entity: schedulable entity to insert into the parent group sched_data.
|
|
* @sched_data: own sched_data, to contain child entities (they may be
|
|
* both bfq_queues and bfq_groups).
|
|
* @bfqd: the bfq_data for the device this group acts upon.
|
|
* @async_bfqq: array of async queues for all the tasks belonging to
|
|
* the group, one queue per ioprio value per ioprio_class,
|
|
* except for the idle class that has only one queue.
|
|
* @async_idle_bfqq: async queue for the idle class (ioprio is ignored).
|
|
* @my_entity: pointer to @entity, %NULL for the toplevel group; used
|
|
* to avoid too many special cases during group creation/
|
|
* migration.
|
|
* @stats: stats for this bfqg.
|
|
* @active_entities: number of active entities belonging to the group;
|
|
* unused for the root group. Used to know whether there
|
|
* are groups with more than one active @bfq_entity
|
|
* (see the comments to the function
|
|
* bfq_bfqq_may_idle()).
|
|
* @rq_pos_tree: rbtree sorted by next_request position, used when
|
|
* determining if two or more queues have interleaving
|
|
* requests (see bfq_find_close_cooperator()).
|
|
*
|
|
* Each (device, cgroup) pair has its own bfq_group, i.e., for each cgroup
|
|
* there is a set of bfq_groups, each one collecting the lower-level
|
|
* entities belonging to the group that are acting on the same device.
|
|
*
|
|
* Locking works as follows:
|
|
* o @bfqd is protected by the queue lock, RCU is used to access it
|
|
* from the readers.
|
|
* o All the other fields are protected by the @bfqd queue lock.
|
|
*/
|
|
struct bfq_group {
|
|
/* must be the first member */
|
|
struct blkg_policy_data pd;
|
|
|
|
/* cached path for this blkg (see comments in bfq_bic_update_cgroup) */
|
|
char blkg_path[128];
|
|
|
|
/* reference counter (see comments in bfq_bic_update_cgroup) */
|
|
int ref;
|
|
|
|
struct bfq_entity entity;
|
|
struct bfq_sched_data sched_data;
|
|
|
|
void *bfqd;
|
|
|
|
struct bfq_queue *async_bfqq[2][IOPRIO_NR_LEVELS];
|
|
struct bfq_queue *async_idle_bfqq;
|
|
|
|
struct bfq_entity *my_entity;
|
|
|
|
int active_entities;
|
|
|
|
struct rb_root rq_pos_tree;
|
|
|
|
struct bfqg_stats stats;
|
|
};
|
|
|
|
#else
|
|
struct bfq_group {
|
|
struct bfq_entity entity;
|
|
struct bfq_sched_data sched_data;
|
|
|
|
struct bfq_queue *async_bfqq[2][IOPRIO_NR_LEVELS];
|
|
struct bfq_queue *async_idle_bfqq;
|
|
|
|
struct rb_root rq_pos_tree;
|
|
};
|
|
#endif
|
|
|
|
/* --------------- main algorithm interface ----------------- */
|
|
|
|
#define BFQ_SERVICE_TREE_INIT ((struct bfq_service_tree) \
|
|
{ RB_ROOT, RB_ROOT, NULL, NULL, 0, 0 })
|
|
|
|
extern const int bfq_timeout;
|
|
|
|
struct bfq_queue *bic_to_bfqq(struct bfq_io_cq *bic, bool is_sync);
|
|
void bic_set_bfqq(struct bfq_io_cq *bic, struct bfq_queue *bfqq, bool is_sync);
|
|
struct bfq_data *bic_to_bfqd(struct bfq_io_cq *bic);
|
|
void bfq_pos_tree_add_move(struct bfq_data *bfqd, struct bfq_queue *bfqq);
|
|
void bfq_weights_tree_add(struct bfq_data *bfqd, struct bfq_queue *bfqq,
|
|
struct rb_root_cached *root);
|
|
void __bfq_weights_tree_remove(struct bfq_data *bfqd,
|
|
struct bfq_queue *bfqq,
|
|
struct rb_root_cached *root);
|
|
void bfq_weights_tree_remove(struct bfq_data *bfqd,
|
|
struct bfq_queue *bfqq);
|
|
void bfq_bfqq_expire(struct bfq_data *bfqd, struct bfq_queue *bfqq,
|
|
bool compensate, enum bfqq_expiration reason);
|
|
void bfq_put_queue(struct bfq_queue *bfqq);
|
|
void bfq_end_wr_async_queues(struct bfq_data *bfqd, struct bfq_group *bfqg);
|
|
void bfq_release_process_ref(struct bfq_data *bfqd, struct bfq_queue *bfqq);
|
|
void bfq_schedule_dispatch(struct bfq_data *bfqd);
|
|
void bfq_put_async_queues(struct bfq_data *bfqd, struct bfq_group *bfqg);
|
|
|
|
/* ------------ end of main algorithm interface -------------- */
|
|
|
|
/* ---------------- cgroups-support interface ---------------- */
|
|
|
|
void bfqg_stats_update_legacy_io(struct request_queue *q, struct request *rq);
|
|
void bfqg_stats_update_io_add(struct bfq_group *bfqg, struct bfq_queue *bfqq,
|
|
unsigned int op);
|
|
void bfqg_stats_update_io_remove(struct bfq_group *bfqg, unsigned int op);
|
|
void bfqg_stats_update_io_merged(struct bfq_group *bfqg, unsigned int op);
|
|
void bfqg_stats_update_completion(struct bfq_group *bfqg, u64 start_time_ns,
|
|
u64 io_start_time_ns, unsigned int op);
|
|
void bfqg_stats_update_dequeue(struct bfq_group *bfqg);
|
|
void bfqg_stats_set_start_empty_time(struct bfq_group *bfqg);
|
|
void bfqg_stats_update_idle_time(struct bfq_group *bfqg);
|
|
void bfqg_stats_set_start_idle_time(struct bfq_group *bfqg);
|
|
void bfqg_stats_update_avg_queue_size(struct bfq_group *bfqg);
|
|
void bfq_bfqq_move(struct bfq_data *bfqd, struct bfq_queue *bfqq,
|
|
struct bfq_group *bfqg);
|
|
|
|
void bfq_init_entity(struct bfq_entity *entity, struct bfq_group *bfqg);
|
|
void bfq_bic_update_cgroup(struct bfq_io_cq *bic, struct bio *bio);
|
|
void bfq_end_wr_async(struct bfq_data *bfqd);
|
|
struct bfq_group *bfq_find_set_group(struct bfq_data *bfqd,
|
|
struct blkcg *blkcg);
|
|
struct blkcg_gq *bfqg_to_blkg(struct bfq_group *bfqg);
|
|
struct bfq_group *bfqq_group(struct bfq_queue *bfqq);
|
|
struct bfq_group *bfq_create_group_hierarchy(struct bfq_data *bfqd, int node);
|
|
void bfqg_and_blkg_put(struct bfq_group *bfqg);
|
|
|
|
#ifdef CONFIG_BFQ_GROUP_IOSCHED
|
|
extern struct cftype bfq_blkcg_legacy_files[];
|
|
extern struct cftype bfq_blkg_files[];
|
|
extern struct blkcg_policy blkcg_policy_bfq;
|
|
#endif
|
|
|
|
/* ------------- end of cgroups-support interface ------------- */
|
|
|
|
/* - interface of the internal hierarchical B-WF2Q+ scheduler - */
|
|
|
|
#ifdef CONFIG_BFQ_GROUP_IOSCHED
|
|
/* both next loops stop at one of the child entities of the root group */
|
|
#define for_each_entity(entity) \
|
|
for (; entity ; entity = entity->parent)
|
|
|
|
/*
|
|
* For each iteration, compute parent in advance, so as to be safe if
|
|
* entity is deallocated during the iteration. Such a deallocation may
|
|
* happen as a consequence of a bfq_put_queue that frees the bfq_queue
|
|
* containing entity.
|
|
*/
|
|
#define for_each_entity_safe(entity, parent) \
|
|
for (; entity && ({ parent = entity->parent; 1; }); entity = parent)
|
|
|
|
#else /* CONFIG_BFQ_GROUP_IOSCHED */
|
|
/*
|
|
* Next two macros are fake loops when cgroups support is not
|
|
* enabled. I fact, in such a case, there is only one level to go up
|
|
* (to reach the root group).
|
|
*/
|
|
#define for_each_entity(entity) \
|
|
for (; entity ; entity = NULL)
|
|
|
|
#define for_each_entity_safe(entity, parent) \
|
|
for (parent = NULL; entity ; entity = parent)
|
|
#endif /* CONFIG_BFQ_GROUP_IOSCHED */
|
|
|
|
struct bfq_queue *bfq_entity_to_bfqq(struct bfq_entity *entity);
|
|
unsigned int bfq_tot_busy_queues(struct bfq_data *bfqd);
|
|
struct bfq_service_tree *bfq_entity_service_tree(struct bfq_entity *entity);
|
|
struct bfq_entity *bfq_entity_of(struct rb_node *node);
|
|
unsigned short bfq_ioprio_to_weight(int ioprio);
|
|
void bfq_put_idle_entity(struct bfq_service_tree *st,
|
|
struct bfq_entity *entity);
|
|
struct bfq_service_tree *
|
|
__bfq_entity_update_weight_prio(struct bfq_service_tree *old_st,
|
|
struct bfq_entity *entity,
|
|
bool update_class_too);
|
|
void bfq_bfqq_served(struct bfq_queue *bfqq, int served);
|
|
void bfq_bfqq_charge_time(struct bfq_data *bfqd, struct bfq_queue *bfqq,
|
|
unsigned long time_ms);
|
|
bool __bfq_deactivate_entity(struct bfq_entity *entity,
|
|
bool ins_into_idle_tree);
|
|
bool next_queue_may_preempt(struct bfq_data *bfqd);
|
|
struct bfq_queue *bfq_get_next_queue(struct bfq_data *bfqd);
|
|
bool __bfq_bfqd_reset_in_service(struct bfq_data *bfqd);
|
|
void bfq_deactivate_bfqq(struct bfq_data *bfqd, struct bfq_queue *bfqq,
|
|
bool ins_into_idle_tree, bool expiration);
|
|
void bfq_activate_bfqq(struct bfq_data *bfqd, struct bfq_queue *bfqq);
|
|
void bfq_requeue_bfqq(struct bfq_data *bfqd, struct bfq_queue *bfqq,
|
|
bool expiration);
|
|
void bfq_del_bfqq_busy(struct bfq_data *bfqd, struct bfq_queue *bfqq,
|
|
bool expiration);
|
|
void bfq_add_bfqq_busy(struct bfq_data *bfqd, struct bfq_queue *bfqq);
|
|
|
|
/* --------------- end of interface of B-WF2Q+ ---------------- */
|
|
|
|
/* Logging facilities. */
|
|
static inline void bfq_bfqq_name(struct bfq_queue *bfqq, char *str, int len)
|
|
{
|
|
char type = bfq_bfqq_sync(bfqq) ? 'S' : 'A';
|
|
|
|
if (bfqq->pid != -1)
|
|
snprintf(str, len, "bfq%d%c", bfqq->pid, type);
|
|
else
|
|
snprintf(str, len, "bfqSHARED-%c", type);
|
|
}
|
|
|
|
#ifdef CONFIG_BFQ_GROUP_IOSCHED
|
|
struct bfq_group *bfqq_group(struct bfq_queue *bfqq);
|
|
|
|
#define bfq_log_bfqq(bfqd, bfqq, fmt, args...) do { \
|
|
char pid_str[MAX_BFQQ_NAME_LENGTH]; \
|
|
if (likely(!blk_trace_note_message_enabled((bfqd)->queue))) \
|
|
break; \
|
|
bfq_bfqq_name((bfqq), pid_str, MAX_BFQQ_NAME_LENGTH); \
|
|
blk_add_cgroup_trace_msg((bfqd)->queue, \
|
|
bfqg_to_blkg(bfqq_group(bfqq))->blkcg, \
|
|
"%s " fmt, pid_str, ##args); \
|
|
} while (0)
|
|
|
|
#define bfq_log_bfqg(bfqd, bfqg, fmt, args...) do { \
|
|
blk_add_cgroup_trace_msg((bfqd)->queue, \
|
|
bfqg_to_blkg(bfqg)->blkcg, fmt, ##args); \
|
|
} while (0)
|
|
|
|
#else /* CONFIG_BFQ_GROUP_IOSCHED */
|
|
|
|
#define bfq_log_bfqq(bfqd, bfqq, fmt, args...) do { \
|
|
char pid_str[MAX_BFQQ_NAME_LENGTH]; \
|
|
if (likely(!blk_trace_note_message_enabled((bfqd)->queue))) \
|
|
break; \
|
|
bfq_bfqq_name((bfqq), pid_str, MAX_BFQQ_NAME_LENGTH); \
|
|
blk_add_trace_msg((bfqd)->queue, "%s " fmt, pid_str, ##args); \
|
|
} while (0)
|
|
#define bfq_log_bfqg(bfqd, bfqg, fmt, args...) do {} while (0)
|
|
|
|
#endif /* CONFIG_BFQ_GROUP_IOSCHED */
|
|
|
|
#define bfq_log(bfqd, fmt, args...) \
|
|
blk_add_trace_msg((bfqd)->queue, "bfq " fmt, ##args)
|
|
|
|
#endif /* _BFQ_H */
|