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nexedi
linux
Commits
150e6c67
Commit
150e6c67
authored
Nov 03, 2009
by
Jens Axboe
Browse files
Options
Browse Files
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Plain Diff
Merge branch 'cfq-2.6.33' into for-2.6.33
parents
4f570f99
5869619c
Changes
1
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321 additions
and
52 deletions
+321
-52
block/cfq-iosched.c
block/cfq-iosched.c
+321
-52
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block/cfq-iosched.c
View file @
150e6c67
...
...
@@ -27,6 +27,8 @@ static const int cfq_slice_sync = HZ / 10;
static
int
cfq_slice_async
=
HZ
/
25
;
static
const
int
cfq_slice_async_rq
=
2
;
static
int
cfq_slice_idle
=
HZ
/
125
;
static
const
int
cfq_target_latency
=
HZ
*
3
/
10
;
/* 300 ms */
static
const
int
cfq_hist_divisor
=
4
;
/*
* offset from end of service tree
...
...
@@ -73,8 +75,9 @@ static DEFINE_SPINLOCK(ioc_gone_lock);
struct
cfq_rb_root
{
struct
rb_root
rb
;
struct
rb_node
*
left
;
unsigned
count
;
};
#define CFQ_RB_ROOT (struct cfq_rb_root) { RB_ROOT, NULL, }
#define CFQ_RB_ROOT (struct cfq_rb_root) { RB_ROOT, NULL,
0,
}
/*
* Per process-grouping structure
...
...
@@ -126,9 +129,30 @@ struct cfq_queue {
pid_t
pid
;
struct
cfq_rb_root
*
service_tree
;
struct
cfq_queue
*
new_cfqq
;
};
/*
* First index in the service_trees.
* IDLE is handled separately, so it has negative index
*/
enum
wl_prio_t
{
IDLE_WORKLOAD
=
-
1
,
BE_WORKLOAD
=
0
,
RT_WORKLOAD
=
1
};
/*
* Second index in the service_trees.
*/
enum
wl_type_t
{
ASYNC_WORKLOAD
=
0
,
SYNC_NOIDLE_WORKLOAD
=
1
,
SYNC_WORKLOAD
=
2
};
/*
* Per block device queue structure
*/
...
...
@@ -136,9 +160,17 @@ struct cfq_data {
struct
request_queue
*
queue
;
/*
* rr list of queues with requests and the count of them
* rr lists of queues with requests, onle rr for each priority class.
* Counts are embedded in the cfq_rb_root
*/
struct
cfq_rb_root
service_trees
[
2
][
3
];
struct
cfq_rb_root
service_tree_idle
;
/*
* The priority currently being served
*/
struct
cfq_rb_root
service_tree
;
enum
wl_prio_t
serving_prio
;
enum
wl_type_t
serving_type
;
unsigned
long
workload_expires
;
/*
* Each priority tree is sorted by next_request position. These
...
...
@@ -148,6 +180,7 @@ struct cfq_data {
struct
rb_root
prio_trees
[
CFQ_PRIO_LISTS
];
unsigned
int
busy_queues
;
unsigned
int
busy_queues_avg
[
2
];
int
rq_in_driver
[
2
];
int
sync_flight
;
...
...
@@ -199,6 +232,16 @@ struct cfq_data {
unsigned
long
last_end_sync_rq
;
};
static
struct
cfq_rb_root
*
service_tree_for
(
enum
wl_prio_t
prio
,
enum
wl_type_t
type
,
struct
cfq_data
*
cfqd
)
{
if
(
prio
==
IDLE_WORKLOAD
)
return
&
cfqd
->
service_tree_idle
;
return
&
cfqd
->
service_trees
[
prio
][
type
];
}
enum
cfqq_state_flags
{
CFQ_CFQQ_FLAG_on_rr
=
0
,
/* on round-robin busy list */
CFQ_CFQQ_FLAG_wait_request
,
/* waiting for a request */
...
...
@@ -243,6 +286,35 @@ CFQ_CFQQ_FNS(coop);
#define cfq_log(cfqd, fmt, args...) \
blk_add_trace_msg((cfqd)->queue, "cfq " fmt, ##args)
static
inline
enum
wl_prio_t
cfqq_prio
(
struct
cfq_queue
*
cfqq
)
{
if
(
cfq_class_idle
(
cfqq
))
return
IDLE_WORKLOAD
;
if
(
cfq_class_rt
(
cfqq
))
return
RT_WORKLOAD
;
return
BE_WORKLOAD
;
}
static
enum
wl_type_t
cfqq_type
(
struct
cfq_queue
*
cfqq
)
{
if
(
!
cfq_cfqq_sync
(
cfqq
))
return
ASYNC_WORKLOAD
;
if
(
!
cfq_cfqq_idle_window
(
cfqq
))
return
SYNC_NOIDLE_WORKLOAD
;
return
SYNC_WORKLOAD
;
}
static
inline
int
cfq_busy_queues_wl
(
enum
wl_prio_t
wl
,
struct
cfq_data
*
cfqd
)
{
if
(
wl
==
IDLE_WORKLOAD
)
return
cfqd
->
service_tree_idle
.
count
;
return
cfqd
->
service_trees
[
wl
][
ASYNC_WORKLOAD
].
count
+
cfqd
->
service_trees
[
wl
][
SYNC_NOIDLE_WORKLOAD
].
count
+
cfqd
->
service_trees
[
wl
][
SYNC_WORKLOAD
].
count
;
}
static
void
cfq_dispatch_insert
(
struct
request_queue
*
,
struct
request
*
);
static
struct
cfq_queue
*
cfq_get_queue
(
struct
cfq_data
*
,
bool
,
struct
io_context
*
,
gfp_t
);
...
...
@@ -315,10 +387,49 @@ cfq_prio_to_slice(struct cfq_data *cfqd, struct cfq_queue *cfqq)
return
cfq_prio_slice
(
cfqd
,
cfq_cfqq_sync
(
cfqq
),
cfqq
->
ioprio
);
}
/*
* get averaged number of queues of RT/BE priority.
* average is updated, with a formula that gives more weight to higher numbers,
* to quickly follows sudden increases and decrease slowly
*/
static
inline
unsigned
cfq_get_avg_queues
(
struct
cfq_data
*
cfqd
,
bool
rt
)
{
unsigned
min_q
,
max_q
;
unsigned
mult
=
cfq_hist_divisor
-
1
;
unsigned
round
=
cfq_hist_divisor
/
2
;
unsigned
busy
=
cfq_busy_queues_wl
(
rt
,
cfqd
);
min_q
=
min
(
cfqd
->
busy_queues_avg
[
rt
],
busy
);
max_q
=
max
(
cfqd
->
busy_queues_avg
[
rt
],
busy
);
cfqd
->
busy_queues_avg
[
rt
]
=
(
mult
*
max_q
+
min_q
+
round
)
/
cfq_hist_divisor
;
return
cfqd
->
busy_queues_avg
[
rt
];
}
static
inline
void
cfq_set_prio_slice
(
struct
cfq_data
*
cfqd
,
struct
cfq_queue
*
cfqq
)
{
cfqq
->
slice_end
=
cfq_prio_to_slice
(
cfqd
,
cfqq
)
+
jiffies
;
unsigned
slice
=
cfq_prio_to_slice
(
cfqd
,
cfqq
);
if
(
cfqd
->
cfq_latency
)
{
/* interested queues (we consider only the ones with the same
* priority class) */
unsigned
iq
=
cfq_get_avg_queues
(
cfqd
,
cfq_class_rt
(
cfqq
));
unsigned
sync_slice
=
cfqd
->
cfq_slice
[
1
];
unsigned
expect_latency
=
sync_slice
*
iq
;
if
(
expect_latency
>
cfq_target_latency
)
{
unsigned
base_low_slice
=
2
*
cfqd
->
cfq_slice_idle
;
/* scale low_slice according to IO priority
* and sync vs async */
unsigned
low_slice
=
min
(
slice
,
base_low_slice
*
slice
/
sync_slice
);
/* the adapted slice value is scaled to fit all iqs
* into the target latency */
slice
=
max
(
slice
*
cfq_target_latency
/
expect_latency
,
low_slice
);
}
}
cfqq
->
slice_end
=
jiffies
+
slice
;
cfq_log_cfqq
(
cfqd
,
cfqq
,
"set_slice=%lu"
,
cfqq
->
slice_end
-
jiffies
);
}
...
...
@@ -457,6 +568,7 @@ static void cfq_rb_erase(struct rb_node *n, struct cfq_rb_root *root)
if
(
root
->
left
==
n
)
root
->
left
=
NULL
;
rb_erase_init
(
n
,
&
root
->
rb
);
--
root
->
count
;
}
/*
...
...
@@ -497,7 +609,7 @@ static unsigned long cfq_slice_offset(struct cfq_data *cfqd,
}
/*
* The cfqd->service_tree holds all pending cfq_queue's that have
* The cfqd->service_tree
s
holds all pending cfq_queue's that have
* requests waiting to be processed. It is sorted in the order that
* we will service the queues.
*/
...
...
@@ -507,11 +619,13 @@ static void cfq_service_tree_add(struct cfq_data *cfqd, struct cfq_queue *cfqq,
struct
rb_node
**
p
,
*
parent
;
struct
cfq_queue
*
__cfqq
;
unsigned
long
rb_key
;
struct
cfq_rb_root
*
service_tree
;
int
left
;
service_tree
=
service_tree_for
(
cfqq_prio
(
cfqq
),
cfqq_type
(
cfqq
),
cfqd
);
if
(
cfq_class_idle
(
cfqq
))
{
rb_key
=
CFQ_IDLE_DELAY
;
parent
=
rb_last
(
&
cfqd
->
service_tree
.
rb
);
parent
=
rb_last
(
&
service_tree
->
rb
);
if
(
parent
&&
parent
!=
&
cfqq
->
rb_node
)
{
__cfqq
=
rb_entry
(
parent
,
struct
cfq_queue
,
rb_node
);
rb_key
+=
__cfqq
->
rb_key
;
...
...
@@ -529,7 +643,7 @@ static void cfq_service_tree_add(struct cfq_data *cfqd, struct cfq_queue *cfqq,
cfqq
->
slice_resid
=
0
;
}
else
{
rb_key
=
-
HZ
;
__cfqq
=
cfq_rb_first
(
&
cfqd
->
service_tree
);
__cfqq
=
cfq_rb_first
(
service_tree
);
rb_key
+=
__cfqq
?
__cfqq
->
rb_key
:
jiffies
;
}
...
...
@@ -537,15 +651,18 @@ static void cfq_service_tree_add(struct cfq_data *cfqd, struct cfq_queue *cfqq,
/*
* same position, nothing more to do
*/
if
(
rb_key
==
cfqq
->
rb_key
)
if
(
rb_key
==
cfqq
->
rb_key
&&
cfqq
->
service_tree
==
service_tree
)
return
;
cfq_rb_erase
(
&
cfqq
->
rb_node
,
&
cfqd
->
service_tree
);
cfq_rb_erase
(
&
cfqq
->
rb_node
,
cfqq
->
service_tree
);
cfqq
->
service_tree
=
NULL
;
}
left
=
1
;
parent
=
NULL
;
p
=
&
cfqd
->
service_tree
.
rb
.
rb_node
;
cfqq
->
service_tree
=
service_tree
;
p
=
&
service_tree
->
rb
.
rb_node
;
while
(
*
p
)
{
struct
rb_node
**
n
;
...
...
@@ -553,35 +670,25 @@ static void cfq_service_tree_add(struct cfq_data *cfqd, struct cfq_queue *cfqq,
__cfqq
=
rb_entry
(
parent
,
struct
cfq_queue
,
rb_node
);
/*
* sort RT queues first, we always want to give
* preference to them. IDLE queues goes to the back.
* after that, sort on the next service time.
* sort by key, that represents service time.
*/
if
(
cfq_class_rt
(
cfqq
)
>
cfq_class_rt
(
__cfqq
))
if
(
time_before
(
rb_key
,
__cfqq
->
rb_key
))
n
=
&
(
*
p
)
->
rb_left
;
else
if
(
cfq_class_rt
(
cfqq
)
<
cfq_class_rt
(
__cfqq
))
n
=
&
(
*
p
)
->
rb_right
;
else
if
(
cfq_class_idle
(
cfqq
)
<
cfq_class_idle
(
__cfqq
))
n
=
&
(
*
p
)
->
rb_left
;
else
if
(
cfq_class_idle
(
cfqq
)
>
cfq_class_idle
(
__cfqq
))
n
=
&
(
*
p
)
->
rb_right
;
else
if
(
time_before
(
rb_key
,
__cfqq
->
rb_key
))
n
=
&
(
*
p
)
->
rb_left
;
else
else
{
n
=
&
(
*
p
)
->
rb_right
;
if
(
n
==
&
(
*
p
)
->
rb_right
)
left
=
0
;
}
p
=
n
;
}
if
(
left
)
cfqd
->
service_tree
.
left
=
&
cfqq
->
rb_node
;
service_tree
->
left
=
&
cfqq
->
rb_node
;
cfqq
->
rb_key
=
rb_key
;
rb_link_node
(
&
cfqq
->
rb_node
,
parent
,
p
);
rb_insert_color
(
&
cfqq
->
rb_node
,
&
cfqd
->
service_tree
.
rb
);
rb_insert_color
(
&
cfqq
->
rb_node
,
&
service_tree
->
rb
);
service_tree
->
count
++
;
}
static
struct
cfq_queue
*
...
...
@@ -683,8 +790,10 @@ static void cfq_del_cfqq_rr(struct cfq_data *cfqd, struct cfq_queue *cfqq)
BUG_ON
(
!
cfq_cfqq_on_rr
(
cfqq
));
cfq_clear_cfqq_on_rr
(
cfqq
);
if
(
!
RB_EMPTY_NODE
(
&
cfqq
->
rb_node
))
cfq_rb_erase
(
&
cfqq
->
rb_node
,
&
cfqd
->
service_tree
);
if
(
!
RB_EMPTY_NODE
(
&
cfqq
->
rb_node
))
{
cfq_rb_erase
(
&
cfqq
->
rb_node
,
cfqq
->
service_tree
);
cfqq
->
service_tree
=
NULL
;
}
if
(
cfqq
->
p_root
)
{
rb_erase
(
&
cfqq
->
p_node
,
cfqq
->
p_root
);
cfqq
->
p_root
=
NULL
;
...
...
@@ -945,10 +1054,12 @@ static inline void cfq_slice_expired(struct cfq_data *cfqd, bool timed_out)
*/
static
struct
cfq_queue
*
cfq_get_next_queue
(
struct
cfq_data
*
cfqd
)
{
if
(
RB_EMPTY_ROOT
(
&
cfqd
->
service_tree
.
rb
))
return
NULL
;
struct
cfq_rb_root
*
service_tree
=
service_tree_for
(
cfqd
->
serving_prio
,
cfqd
->
serving_type
,
cfqd
)
;
return
cfq_rb_first
(
&
cfqd
->
service_tree
);
if
(
RB_EMPTY_ROOT
(
&
service_tree
->
rb
))
return
NULL
;
return
cfq_rb_first
(
service_tree
);
}
/*
...
...
@@ -1065,9 +1176,45 @@ static struct cfq_queue *cfq_close_cooperator(struct cfq_data *cfqd,
if
(
CFQQ_SEEKY
(
cfqq
))
return
NULL
;
/*
* Do not merge queues of different priority classes
*/
if
(
cfq_class_rt
(
cfqq
)
!=
cfq_class_rt
(
cur_cfqq
))
return
NULL
;
return
cfqq
;
}
/*
* Determine whether we should enforce idle window for this queue.
*/
static
bool
cfq_should_idle
(
struct
cfq_data
*
cfqd
,
struct
cfq_queue
*
cfqq
)
{
enum
wl_prio_t
prio
=
cfqq_prio
(
cfqq
);
struct
cfq_rb_root
*
service_tree
=
cfqq
->
service_tree
;
/* We never do for idle class queues. */
if
(
prio
==
IDLE_WORKLOAD
)
return
false
;
/* We do for queues that were marked with idle window flag. */
if
(
cfq_cfqq_idle_window
(
cfqq
))
return
true
;
/*
* Otherwise, we do only if they are the last ones
* in their service tree.
*/
if
(
!
service_tree
)
service_tree
=
service_tree_for
(
prio
,
cfqq_type
(
cfqq
),
cfqd
);
if
(
service_tree
->
count
==
0
)
return
true
;
return
(
service_tree
->
count
==
1
&&
cfq_rb_first
(
service_tree
)
==
cfqq
);
}
static
void
cfq_arm_slice_timer
(
struct
cfq_data
*
cfqd
)
{
struct
cfq_queue
*
cfqq
=
cfqd
->
active_queue
;
...
...
@@ -1088,7 +1235,7 @@ static void cfq_arm_slice_timer(struct cfq_data *cfqd)
/*
* idle is disabled, either manually or by past process history
*/
if
(
!
cfqd
->
cfq_slice_idle
||
!
cfq_
cfqq_idle_window
(
cfqq
))
if
(
!
cfqd
->
cfq_slice_idle
||
!
cfq_
should_idle
(
cfqd
,
cfqq
))
return
;
/*
...
...
@@ -1115,14 +1262,20 @@ static void cfq_arm_slice_timer(struct cfq_data *cfqd)
cfq_mark_cfqq_wait_request
(
cfqq
);
/*
* we don't want to idle for seeks, but we do want to allow
* fair distribution of slice time for a process doing back-to-back
* seeks. so allow a little bit of time for him to submit a new rq
*/
sl
=
cfqd
->
cfq_slice_idle
;
if
(
sample_valid
(
cfqq
->
seek_samples
)
&&
CFQQ_SEEKY
(
cfqq
))
/* are we servicing noidle tree, and there are more queues?
* non-rotational or NCQ: no idle
* non-NCQ rotational : very small idle, to allow
* fair distribution of slice time for a process doing back-to-back
* seeks.
*/
if
(
cfqd
->
serving_type
==
SYNC_NOIDLE_WORKLOAD
&&
service_tree_for
(
cfqd
->
serving_prio
,
SYNC_NOIDLE_WORKLOAD
,
cfqd
)
->
count
>
0
)
{
if
(
blk_queue_nonrot
(
cfqd
->
queue
)
||
cfqd
->
hw_tag
)
return
;
sl
=
min
(
sl
,
msecs_to_jiffies
(
CFQ_MIN_TT
));
}
mod_timer
(
&
cfqd
->
idle_slice_timer
,
jiffies
+
sl
);
cfq_log_cfqq
(
cfqd
,
cfqq
,
"arm_idle: %lu"
,
sl
);
...
...
@@ -1226,6 +1379,106 @@ static void cfq_setup_merge(struct cfq_queue *cfqq, struct cfq_queue *new_cfqq)
}
}
static
enum
wl_type_t
cfq_choose_wl
(
struct
cfq_data
*
cfqd
,
enum
wl_prio_t
prio
,
bool
prio_changed
)
{
struct
cfq_queue
*
queue
;
int
i
;
bool
key_valid
=
false
;
unsigned
long
lowest_key
=
0
;
enum
wl_type_t
cur_best
=
SYNC_NOIDLE_WORKLOAD
;
if
(
prio_changed
)
{
/*
* When priorities switched, we prefer starting
* from SYNC_NOIDLE (first choice), or just SYNC
* over ASYNC
*/
if
(
service_tree_for
(
prio
,
cur_best
,
cfqd
)
->
count
)
return
cur_best
;
cur_best
=
SYNC_WORKLOAD
;
if
(
service_tree_for
(
prio
,
cur_best
,
cfqd
)
->
count
)
return
cur_best
;
return
ASYNC_WORKLOAD
;
}
for
(
i
=
0
;
i
<
3
;
++
i
)
{
/* otherwise, select the one with lowest rb_key */
queue
=
cfq_rb_first
(
service_tree_for
(
prio
,
i
,
cfqd
));
if
(
queue
&&
(
!
key_valid
||
time_before
(
queue
->
rb_key
,
lowest_key
)))
{
lowest_key
=
queue
->
rb_key
;
cur_best
=
i
;
key_valid
=
true
;
}
}
return
cur_best
;
}
static
void
choose_service_tree
(
struct
cfq_data
*
cfqd
)
{
enum
wl_prio_t
previous_prio
=
cfqd
->
serving_prio
;
bool
prio_changed
;
unsigned
slice
;
unsigned
count
;
/* Choose next priority. RT > BE > IDLE */
if
(
cfq_busy_queues_wl
(
RT_WORKLOAD
,
cfqd
))
cfqd
->
serving_prio
=
RT_WORKLOAD
;
else
if
(
cfq_busy_queues_wl
(
BE_WORKLOAD
,
cfqd
))
cfqd
->
serving_prio
=
BE_WORKLOAD
;
else
{
cfqd
->
serving_prio
=
IDLE_WORKLOAD
;
cfqd
->
workload_expires
=
jiffies
+
1
;
return
;
}
/*
* For RT and BE, we have to choose also the type
* (SYNC, SYNC_NOIDLE, ASYNC), and to compute a workload
* expiration time
*/
prio_changed
=
(
cfqd
->
serving_prio
!=
previous_prio
);
count
=
service_tree_for
(
cfqd
->
serving_prio
,
cfqd
->
serving_type
,
cfqd
)
->
count
;
/*
* If priority didn't change, check workload expiration,
* and that we still have other queues ready
*/
if
(
!
prio_changed
&&
count
&&
!
time_after
(
jiffies
,
cfqd
->
workload_expires
))
return
;
/* otherwise select new workload type */
cfqd
->
serving_type
=
cfq_choose_wl
(
cfqd
,
cfqd
->
serving_prio
,
prio_changed
);
count
=
service_tree_for
(
cfqd
->
serving_prio
,
cfqd
->
serving_type
,
cfqd
)
->
count
;
/*
* the workload slice is computed as a fraction of target latency
* proportional to the number of queues in that workload, over
* all the queues in the same priority class
*/
slice
=
cfq_target_latency
*
count
/
max_t
(
unsigned
,
cfqd
->
busy_queues_avg
[
cfqd
->
serving_prio
],
cfq_busy_queues_wl
(
cfqd
->
serving_prio
,
cfqd
));
if
(
cfqd
->
serving_type
==
ASYNC_WORKLOAD
)
/* async workload slice is scaled down according to
* the sync/async slice ratio. */
slice
=
slice
*
cfqd
->
cfq_slice
[
0
]
/
cfqd
->
cfq_slice
[
1
];
else
/* sync workload slice is at least 2 * cfq_slice_idle */
slice
=
max
(
slice
,
2
*
cfqd
->
cfq_slice_idle
);
slice
=
max_t
(
unsigned
,
slice
,
CFQ_MIN_TT
);
cfqd
->
workload_expires
=
jiffies
+
slice
;
}
/*
* Select a queue for service. If we have a current active queue,
* check whether to continue servicing it, or retrieve and set a new one.
...
...
@@ -1270,7 +1523,7 @@ static struct cfq_queue *cfq_select_queue(struct cfq_data *cfqd)
* conditions to happen (or time out) before selecting a new queue.
*/
if
(
timer_pending
(
&
cfqd
->
idle_slice_timer
)
||
(
cfqq
->
dispatched
&&
cfq_
cfqq_idle_window
(
cfqq
)))
{
(
cfqq
->
dispatched
&&
cfq_
should_idle
(
cfqd
,
cfqq
)))
{
cfqq
=
NULL
;
goto
keep_queue
;
}
...
...
@@ -1278,6 +1531,13 @@ static struct cfq_queue *cfq_select_queue(struct cfq_data *cfqd)
expire:
cfq_slice_expired
(
cfqd
,
0
);
new_queue:
/*
* Current queue expired. Check if we have to switch to a new
* service tree
*/
if
(
!
new_cfqq
)
choose_service_tree
(
cfqd
);
cfqq
=
cfq_set_active_queue
(
cfqd
,
new_cfqq
);
keep_queue:
return
cfqq
;
...
...
@@ -1304,8 +1564,14 @@ static int cfq_forced_dispatch(struct cfq_data *cfqd)
{
struct
cfq_queue
*
cfqq
;
int
dispatched
=
0
;
while
((
cfqq
=
cfq_rb_first
(
&
cfqd
->
service_tree
))
!=
NULL
)
int
i
,
j
;
for
(
i
=
0
;
i
<
2
;
++
i
)
for
(
j
=
0
;
j
<
3
;
++
j
)
while
((
cfqq
=
cfq_rb_first
(
&
cfqd
->
service_trees
[
i
][
j
]))
!=
NULL
)
dispatched
+=
__cfq_forced_dispatch_cfqq
(
cfqq
);
while
((
cfqq
=
cfq_rb_first
(
&
cfqd
->
service_tree_idle
))
!=
NULL
)
dispatched
+=
__cfq_forced_dispatch_cfqq
(
cfqq
);
cfq_slice_expired
(
cfqd
,
0
);
...
...
@@ -1323,7 +1589,7 @@ static bool cfq_may_dispatch(struct cfq_data *cfqd, struct cfq_queue *cfqq)
/*
* Drain async requests before we start sync IO
*/
if
(
cfq_
cfqq_idle_window
(
cfqq
)
&&
cfqd
->
rq_in_driver
[
BLK_RW_ASYNC
])
if
(
cfq_
should_idle
(
cfqd
,
cfqq
)
&&
cfqd
->
rq_in_driver
[
BLK_RW_ASYNC
])
return
false
;
/*
...
...
@@ -2086,13 +2352,10 @@ cfq_update_idle_window(struct cfq_data *cfqd, struct cfq_queue *cfqq,
enable_idle
=
old_idle
=
cfq_cfqq_idle_window
(
cfqq
);
if
(
!
atomic_read
(
&
cic
->
ioc
->
nr_tasks
)
||
!
cfqd
->
cfq_slice_idle
||
(
!
cfqd
->
cfq_latency
&&
cfqd
->
hw_tag
&&
CFQQ_SEEKY
(
cfqq
)))
(
sample_valid
(
cfqq
->
seek_samples
)
&&
CFQQ_SEEKY
(
cfqq
)))
enable_idle
=
0
;
else
if
(
sample_valid
(
cic
->
ttime_samples
))
{
unsigned
int
slice_idle
=
cfqd
->
cfq_slice_idle
;
if
(
sample_valid
(
cfqq
->
seek_samples
)
&&
CFQQ_SEEKY
(
cfqq
))
slice_idle
=
msecs_to_jiffies
(
CFQ_MIN_TT
);
if
(
cic
->
ttime_mean
>
slice_idle
)
if
(
cic
->
ttime_mean
>
cfqd
->
cfq_slice_idle
)
enable_idle
=
0
;
else
enable_idle
=
1
;
...
...
@@ -2130,6 +2393,10 @@ cfq_should_preempt(struct cfq_data *cfqd, struct cfq_queue *new_cfqq,
if
(
cfq_class_idle
(
cfqq
))
return
true
;
if
(
cfqd
->
serving_type
==
SYNC_NOIDLE_WORKLOAD
&&
new_cfqq
->
service_tree
==
cfqq
->
service_tree
)
return
true
;
/*
* if the new request is sync, but the currently running queue is
* not, let the sync request have priority.
...
...
@@ -2243,10 +2510,9 @@ static void cfq_insert_request(struct request_queue *q, struct request *rq)
cfq_log_cfqq
(
cfqd
,
cfqq
,
"insert_request"
);
cfq_init_prio_data
(
cfqq
,
RQ_CIC
(
rq
)
->
ioc
);
cfq_add_rq_rb
(
rq
);
rq_set_fifo_time
(
rq
,
jiffies
+
cfqd
->
cfq_fifo_expire
[
rq_is_sync
(
rq
)]);
list_add_tail
(
&
rq
->
queuelist
,
&
cfqq
->
fifo
);
cfq_add_rq_rb
(
rq
);
cfq_rq_enqueued
(
cfqd
,
cfqq
,
rq
);
}
...
...
@@ -2645,13 +2911,16 @@ static void cfq_exit_queue(struct elevator_queue *e)
static
void
*
cfq_init_queue
(
struct
request_queue
*
q
)
{
struct
cfq_data
*
cfqd
;
int
i
;
int
i
,
j
;
cfqd
=
kmalloc_node
(
sizeof
(
*
cfqd
),
GFP_KERNEL
|
__GFP_ZERO
,
q
->
node
);
if
(
!
cfqd
)
return
NULL
;
cfqd
->
service_tree
=
CFQ_RB_ROOT
;
for
(
i
=
0
;
i
<
2
;
++
i
)
for
(
j
=
0
;
j
<
3
;
++
j
)
cfqd
->
service_trees
[
i
][
j
]
=
CFQ_RB_ROOT
;
cfqd
->
service_tree_idle
=
CFQ_RB_ROOT
;
/*
* Not strictly needed (since RB_ROOT just clears the node and we
...
...
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