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// SPDX-License-Identifier: GPL-2.0
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# include "blk-rq-qos.h"
/*
* Increment ' v ' , if ' v ' is below ' below ' . Returns true if we succeeded ,
* false if ' v ' + 1 would be bigger than ' below ' .
*/
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static bool atomic_inc_below ( atomic_t * v , unsigned int below )
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{
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unsigned int cur = atomic_read ( v ) ;
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for ( ; ; ) {
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unsigned int old ;
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if ( cur > = below )
return false ;
old = atomic_cmpxchg ( v , cur , cur + 1 ) ;
if ( old = = cur )
break ;
cur = old ;
}
return true ;
}
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bool rq_wait_inc_below ( struct rq_wait * rq_wait , unsigned int limit )
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{
return atomic_inc_below ( & rq_wait - > inflight , limit ) ;
}
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void __rq_qos_cleanup ( struct rq_qos * rqos , struct bio * bio )
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{
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do {
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if ( rqos - > ops - > cleanup )
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rqos - > ops - > cleanup ( rqos , bio ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
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}
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void __rq_qos_done ( struct rq_qos * rqos , struct request * rq )
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{
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do {
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if ( rqos - > ops - > done )
rqos - > ops - > done ( rqos , rq ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
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}
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void __rq_qos_issue ( struct rq_qos * rqos , struct request * rq )
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{
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do {
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if ( rqos - > ops - > issue )
rqos - > ops - > issue ( rqos , rq ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
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}
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void __rq_qos_requeue ( struct rq_qos * rqos , struct request * rq )
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{
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do {
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if ( rqos - > ops - > requeue )
rqos - > ops - > requeue ( rqos , rq ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
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}
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void __rq_qos_throttle ( struct rq_qos * rqos , struct bio * bio )
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{
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do {
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if ( rqos - > ops - > throttle )
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rqos - > ops - > throttle ( rqos , bio ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
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}
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void __rq_qos_track ( struct rq_qos * rqos , struct request * rq , struct bio * bio )
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{
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do {
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if ( rqos - > ops - > track )
rqos - > ops - > track ( rqos , rq , bio ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
}
void __rq_qos_merge ( struct rq_qos * rqos , struct request * rq , struct bio * bio )
{
do {
if ( rqos - > ops - > merge )
rqos - > ops - > merge ( rqos , rq , bio ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
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}
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void __rq_qos_done_bio ( struct rq_qos * rqos , struct bio * bio )
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{
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do {
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if ( rqos - > ops - > done_bio )
rqos - > ops - > done_bio ( rqos , bio ) ;
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rqos = rqos - > next ;
} while ( rqos ) ;
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}
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void __rq_qos_queue_depth_changed ( struct rq_qos * rqos )
{
do {
if ( rqos - > ops - > queue_depth_changed )
rqos - > ops - > queue_depth_changed ( rqos ) ;
rqos = rqos - > next ;
} while ( rqos ) ;
}
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/*
* Return true , if we can ' t increase the depth further by scaling
*/
bool rq_depth_calc_max_depth ( struct rq_depth * rqd )
{
unsigned int depth ;
bool ret = false ;
/*
* For QD = 1 devices , this is a special case . It ' s important for those
* to have one request ready when one completes , so force a depth of
* 2 for those devices . On the backend , it ' ll be a depth of 1 anyway ,
* since the device can ' t have more than that in flight . If we ' re
* scaling down , then keep a setting of 1 / 1 / 1.
*/
if ( rqd - > queue_depth = = 1 ) {
if ( rqd - > scale_step > 0 )
rqd - > max_depth = 1 ;
else {
rqd - > max_depth = 2 ;
ret = true ;
}
} else {
/*
* scale_step = = 0 is our default state . If we have suffered
* latency spikes , step will be > 0 , and we shrink the
* allowed write depths . If step is < 0 , we ' re only doing
* writes , and we allow a temporarily higher depth to
* increase performance .
*/
depth = min_t ( unsigned int , rqd - > default_depth ,
rqd - > queue_depth ) ;
if ( rqd - > scale_step > 0 )
depth = 1 + ( ( depth - 1 ) > > min ( 31 , rqd - > scale_step ) ) ;
else if ( rqd - > scale_step < 0 ) {
unsigned int maxd = 3 * rqd - > queue_depth / 4 ;
depth = 1 + ( ( depth - 1 ) < < - rqd - > scale_step ) ;
if ( depth > maxd ) {
depth = maxd ;
ret = true ;
}
}
rqd - > max_depth = depth ;
}
return ret ;
}
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/* Returns true on success and false if scaling up wasn't possible */
bool rq_depth_scale_up ( struct rq_depth * rqd )
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{
/*
* Hit max in previous round , stop here
*/
if ( rqd - > scaled_max )
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return false ;
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rqd - > scale_step - - ;
rqd - > scaled_max = rq_depth_calc_max_depth ( rqd ) ;
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return true ;
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}
/*
* Scale rwb down . If ' hard_throttle ' is set , do it quicker , since we
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* had a latency violation . Returns true on success and returns false if
* scaling down wasn ' t possible .
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*/
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bool rq_depth_scale_down ( struct rq_depth * rqd , bool hard_throttle )
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{
/*
* Stop scaling down when we ' ve hit the limit . This also prevents
* - > scale_step from going to crazy values , if the device can ' t
* keep up .
*/
if ( rqd - > max_depth = = 1 )
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return false ;
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if ( rqd - > scale_step < 0 & & hard_throttle )
rqd - > scale_step = 0 ;
else
rqd - > scale_step + + ;
rqd - > scaled_max = false ;
rq_depth_calc_max_depth ( rqd ) ;
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return true ;
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}
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struct rq_qos_wait_data {
struct wait_queue_entry wq ;
struct task_struct * task ;
struct rq_wait * rqw ;
acquire_inflight_cb_t * cb ;
void * private_data ;
bool got_token ;
} ;
static int rq_qos_wake_function ( struct wait_queue_entry * curr ,
unsigned int mode , int wake_flags , void * key )
{
struct rq_qos_wait_data * data = container_of ( curr ,
struct rq_qos_wait_data ,
wq ) ;
/*
* If we fail to get a budget , return - 1 to interrupt the wake up loop
* in __wake_up_common .
*/
if ( ! data - > cb ( data - > rqw , data - > private_data ) )
return - 1 ;
data - > got_token = true ;
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smp_wmb ( ) ;
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list_del_init ( & curr - > entry ) ;
wake_up_process ( data - > task ) ;
return 1 ;
}
/**
* rq_qos_wait - throttle on a rqw if we need to
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* @ rqw : rqw to throttle on
* @ private_data : caller provided specific data
* @ acquire_inflight_cb : inc the rqw - > inflight counter if we can
* @ cleanup_cb : the callback to cleanup in case we race with a waker
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*
* This provides a uniform place for the rq_qos users to do their throttling .
* Since you can end up with a lot of things sleeping at once , this manages the
* waking up based on the resources available . The acquire_inflight_cb should
* inc the rqw - > inflight if we have the ability to do so , or return false if not
* and then we will sleep until the room becomes available .
*
* cleanup_cb is in case that we race with a waker and need to cleanup the
* inflight count accordingly .
*/
void rq_qos_wait ( struct rq_wait * rqw , void * private_data ,
acquire_inflight_cb_t * acquire_inflight_cb ,
cleanup_cb_t * cleanup_cb )
{
struct rq_qos_wait_data data = {
. wq = {
. func = rq_qos_wake_function ,
. entry = LIST_HEAD_INIT ( data . wq . entry ) ,
} ,
. task = current ,
. rqw = rqw ,
. cb = acquire_inflight_cb ,
. private_data = private_data ,
} ;
bool has_sleeper ;
has_sleeper = wq_has_sleeper ( & rqw - > wait ) ;
if ( ! has_sleeper & & acquire_inflight_cb ( rqw , private_data ) )
return ;
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has_sleeper = ! prepare_to_wait_exclusive ( & rqw - > wait , & data . wq ,
TASK_UNINTERRUPTIBLE ) ;
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do {
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/* The memory barrier in set_task_state saves us here. */
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if ( data . got_token )
break ;
if ( ! has_sleeper & & acquire_inflight_cb ( rqw , private_data ) ) {
finish_wait ( & rqw - > wait , & data . wq ) ;
/*
* We raced with wbt_wake_function ( ) getting a token ,
* which means we now have two . Put our local token
* and wake anyone else potentially waiting for one .
*/
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smp_rmb ( ) ;
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if ( data . got_token )
cleanup_cb ( rqw , private_data ) ;
break ;
}
io_schedule ( ) ;
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has_sleeper = true ;
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set_current_state ( TASK_UNINTERRUPTIBLE ) ;
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} while ( 1 ) ;
finish_wait ( & rqw - > wait , & data . wq ) ;
}
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void rq_qos_exit ( struct request_queue * q )
{
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blk_mq_debugfs_unregister_queue_rqos ( q ) ;
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while ( q - > rq_qos ) {
struct rq_qos * rqos = q - > rq_qos ;
q - > rq_qos = rqos - > next ;
rqos - > ops - > exit ( rqos ) ;
}
}