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Kirill Smelkov
linux
Commits
c6df3275
Commit
c6df3275
authored
Mar 02, 2024
by
Mike Snitzer
Browse files
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Merge remote-tracking branch 'tejun/for-6.9' into dm-6.9-bh-wq
parents
fa34e589
1acd92d9
Changes
11
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11 changed files
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1688 additions
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532 deletions
+1688
-532
Documentation/admin-guide/kernel-parameters.txt
Documentation/admin-guide/kernel-parameters.txt
+9
-0
Documentation/core-api/workqueue.rst
Documentation/core-api/workqueue.rst
+29
-14
include/linux/async.h
include/linux/async.h
+1
-0
include/linux/workqueue.h
include/linux/workqueue.h
+99
-42
init/Kconfig
init/Kconfig
+1
-1
init/main.c
init/main.c
+1
-0
kernel/async.c
kernel/async.c
+16
-1
kernel/softirq.c
kernel/softirq.c
+5
-0
kernel/workqueue.c
kernel/workqueue.c
+1432
-459
rust/kernel/workqueue.rs
rust/kernel/workqueue.rs
+5
-1
tools/workqueue/wq_dump.py
tools/workqueue/wq_dump.py
+90
-14
No files found.
Documentation/admin-guide/kernel-parameters.txt
View file @
c6df3275
...
...
@@ -7225,6 +7225,15 @@
threshold repeatedly. They are likely good
candidates for using WQ_UNBOUND workqueues instead.
workqueue.cpu_intensive_warning_thresh=<uint>
If CONFIG_WQ_CPU_INTENSIVE_REPORT is set, the kernel
will report the work functions which violate the
intensive_threshold_us repeatedly. In order to prevent
spurious warnings, start printing only after a work
function has violated this threshold number of times.
The default is 4 times. 0 disables the warning.
workqueue.power_efficient
Per-cpu workqueues are generally preferred because
they show better performance thanks to cache
...
...
Documentation/core-api/workqueue.rst
View file @
c6df3275
...
...
@@ -77,10 +77,12 @@ wants a function to be executed asynchronously it has to set up a work
item pointing to that function and queue that work item on a
workqueue.
Special purpose threads, called worker threads, execute the functions
off of the queue, one after the other. If no work is queued, the
worker threads become idle. These worker threads are managed in so
called worker-pools.
A work item can be executed in either a thread or the BH (softirq) context.
For threaded workqueues, special purpose threads, called [k]workers, execute
the functions off of the queue, one after the other. If no work is queued,
the worker threads become idle. These worker threads are managed in
worker-pools.
The cmwq design differentiates between the user-facing workqueues that
subsystems and drivers queue work items on and the backend mechanism
...
...
@@ -91,6 +93,12 @@ for high priority ones, for each possible CPU and some extra
worker-pools to serve work items queued on unbound workqueues - the
number of these backing pools is dynamic.
BH workqueues use the same framework. However, as there can only be one
concurrent execution context, there's no need to worry about concurrency.
Each per-CPU BH worker pool contains only one pseudo worker which represents
the BH execution context. A BH workqueue can be considered a convenience
interface to softirq.
Subsystems and drivers can create and queue work items through special
workqueue API functions as they see fit. They can influence some
aspects of the way the work items are executed by setting flags on the
...
...
@@ -106,7 +114,7 @@ unless specifically overridden, a work item of a bound workqueue will
be queued on the worklist of either normal or highpri worker-pool that
is associated to the CPU the issuer is running on.
For any
worker
pool implementation, managing the concurrency level
For any
thread
pool implementation, managing the concurrency level
(how many execution contexts are active) is an important issue. cmwq
tries to keep the concurrency at a minimal but sufficient level.
Minimal to save resources and sufficient in that the system is used at
...
...
@@ -164,6 +172,17 @@ resources, scheduled and executed.
``flags``
---------
``WQ_BH``
BH workqueues can be considered a convenience interface to softirq. BH
workqueues are always per-CPU and all BH work items are executed in the
queueing CPU's softirq context in the queueing order.
All BH workqueues must have 0 ``max_active`` and ``WQ_HIGHPRI`` is the
only allowed additional flag.
BH work items cannot sleep. All other features such as delayed queueing,
flushing and canceling are supported.
``WQ_UNBOUND``
Work items queued to an unbound wq are served by the special
worker-pools which host workers which are not bound to any
...
...
@@ -237,15 +256,11 @@ may queue at the same time. Unless there is a specific need for
throttling the number of active work items, specifying '0' is
recommended.
Some users depend on the strict execution ordering of ST wq. The
combination of ``@max_active`` of 1 and ``WQ_UNBOUND`` used to
achieve this behavior. Work items on such wq were always queued to the
unbound worker-pools and only one work item could be active at any given
time thus achieving the same ordering property as ST wq.
In the current implementation the above configuration only guarantees
ST behavior within a given NUMA node. Instead ``alloc_ordered_workqueue()`` should
be used to achieve system-wide ST behavior.
Some users depend on strict execution ordering where only one work item
is in flight at any given time and the work items are processed in
queueing order. While the combination of ``@max_active`` of 1 and
``WQ_UNBOUND`` used to achieve this behavior, this is no longer the
case. Use ``alloc_ordered_queue()`` instead.
Example Execution Scenarios
...
...
include/linux/async.h
View file @
c6df3275
...
...
@@ -120,4 +120,5 @@ extern void async_synchronize_cookie(async_cookie_t cookie);
extern
void
async_synchronize_cookie_domain
(
async_cookie_t
cookie
,
struct
async_domain
*
domain
);
extern
bool
current_is_async
(
void
);
extern
void
async_init
(
void
);
#endif
include/linux/workqueue.h
View file @
c6df3275
...
...
@@ -22,20 +22,54 @@
*/
#define work_data_bits(work) ((unsigned long *)(&(work)->data))
enum
{
enum
work_bits
{
WORK_STRUCT_PENDING_BIT
=
0
,
/* work item is pending execution */
WORK_STRUCT_INACTIVE_BIT
=
1
,
/* work item is inactive */
WORK_STRUCT_PWQ_BIT
=
2
,
/* data points to pwq */
WORK_STRUCT_LINKED_BIT
=
3
,
/* next work is linked to this one */
WORK_STRUCT_INACTIVE_BIT
,
/* work item is inactive */
WORK_STRUCT_PWQ_BIT
,
/* data points to pwq */
WORK_STRUCT_LINKED_BIT
,
/* next work is linked to this one */
#ifdef CONFIG_DEBUG_OBJECTS_WORK
WORK_STRUCT_STATIC_BIT
=
4
,
/* static initializer (debugobjects) */
WORK_STRUCT_COLOR_SHIFT
=
5
,
/* color for workqueue flushing */
#else
WORK_STRUCT_COLOR_SHIFT
=
4
,
/* color for workqueue flushing */
WORK_STRUCT_STATIC_BIT
,
/* static initializer (debugobjects) */
#endif
WORK_STRUCT_FLAG_BITS
,
/* color for workqueue flushing */
WORK_STRUCT_COLOR_SHIFT
=
WORK_STRUCT_FLAG_BITS
,
WORK_STRUCT_COLOR_BITS
=
4
,
/*
* When WORK_STRUCT_PWQ is set, reserve 8 bits off of pwq pointer w/
* debugobjects turned off. This makes pwqs aligned to 256 bytes (512
* bytes w/ DEBUG_OBJECTS_WORK) and allows 16 workqueue flush colors.
*
* MSB
* [ pwq pointer ] [ flush color ] [ STRUCT flags ]
* 4 bits 4 or 5 bits
*/
WORK_STRUCT_PWQ_SHIFT
=
WORK_STRUCT_COLOR_SHIFT
+
WORK_STRUCT_COLOR_BITS
,
/*
* data contains off-queue information when !WORK_STRUCT_PWQ.
*
* MSB
* [ pool ID ] [ OFFQ flags ] [ STRUCT flags ]
* 1 bit 4 or 5 bits
*/
WORK_OFFQ_FLAG_SHIFT
=
WORK_STRUCT_FLAG_BITS
,
WORK_OFFQ_CANCELING_BIT
=
WORK_OFFQ_FLAG_SHIFT
,
WORK_OFFQ_FLAG_END
,
WORK_OFFQ_FLAG_BITS
=
WORK_OFFQ_FLAG_END
-
WORK_OFFQ_FLAG_SHIFT
,
/*
* When a work item is off queue, the high bits encode off-queue flags
* and the last pool it was on. Cap pool ID to 31 bits and use the
* highest number to indicate that no pool is associated.
*/
WORK_OFFQ_POOL_SHIFT
=
WORK_OFFQ_FLAG_SHIFT
+
WORK_OFFQ_FLAG_BITS
,
WORK_OFFQ_LEFT
=
BITS_PER_LONG
-
WORK_OFFQ_POOL_SHIFT
,
WORK_OFFQ_POOL_BITS
=
WORK_OFFQ_LEFT
<=
31
?
WORK_OFFQ_LEFT
:
31
,
};
enum
work_flags
{
WORK_STRUCT_PENDING
=
1
<<
WORK_STRUCT_PENDING_BIT
,
WORK_STRUCT_INACTIVE
=
1
<<
WORK_STRUCT_INACTIVE_BIT
,
WORK_STRUCT_PWQ
=
1
<<
WORK_STRUCT_PWQ_BIT
,
...
...
@@ -45,35 +79,14 @@ enum {
#else
WORK_STRUCT_STATIC
=
0
,
#endif
};
enum
wq_misc_consts
{
WORK_NR_COLORS
=
(
1
<<
WORK_STRUCT_COLOR_BITS
),
/* not bound to any CPU, prefer the local CPU */
WORK_CPU_UNBOUND
=
NR_CPUS
,
/*
* Reserve 8 bits off of pwq pointer w/ debugobjects turned off.
* This makes pwqs aligned to 256 bytes and allows 16 workqueue
* flush colors.
*/
WORK_STRUCT_FLAG_BITS
=
WORK_STRUCT_COLOR_SHIFT
+
WORK_STRUCT_COLOR_BITS
,
/* data contains off-queue information when !WORK_STRUCT_PWQ */
WORK_OFFQ_FLAG_BASE
=
WORK_STRUCT_COLOR_SHIFT
,
__WORK_OFFQ_CANCELING
=
WORK_OFFQ_FLAG_BASE
,
/*
* When a work item is off queue, its high bits point to the last
* pool it was on. Cap at 31 bits and use the highest number to
* indicate that no pool is associated.
*/
WORK_OFFQ_FLAG_BITS
=
1
,
WORK_OFFQ_POOL_SHIFT
=
WORK_OFFQ_FLAG_BASE
+
WORK_OFFQ_FLAG_BITS
,
WORK_OFFQ_LEFT
=
BITS_PER_LONG
-
WORK_OFFQ_POOL_SHIFT
,
WORK_OFFQ_POOL_BITS
=
WORK_OFFQ_LEFT
<=
31
?
WORK_OFFQ_LEFT
:
31
,
/* bit mask for work_busy() return values */
WORK_BUSY_PENDING
=
1
<<
0
,
WORK_BUSY_RUNNING
=
1
<<
1
,
...
...
@@ -83,12 +96,10 @@ enum {
};
/* Convenience constants - of type 'unsigned long', not 'enum'! */
#define WORK_OFFQ_CANCELING (1ul <<
__WORK_OFFQ_CANCELING
)
#define WORK_OFFQ_CANCELING (1ul <<
WORK_OFFQ_CANCELING_BIT
)
#define WORK_OFFQ_POOL_NONE ((1ul << WORK_OFFQ_POOL_BITS) - 1)
#define WORK_STRUCT_NO_POOL (WORK_OFFQ_POOL_NONE << WORK_OFFQ_POOL_SHIFT)
#define WORK_STRUCT_FLAG_MASK ((1ul << WORK_STRUCT_FLAG_BITS) - 1)
#define WORK_STRUCT_WQ_DATA_MASK (~WORK_STRUCT_FLAG_MASK)
#define WORK_STRUCT_PWQ_MASK (~((1ul << WORK_STRUCT_PWQ_SHIFT) - 1))
#define WORK_DATA_INIT() ATOMIC_LONG_INIT((unsigned long)WORK_STRUCT_NO_POOL)
#define WORK_DATA_STATIC_INIT() \
...
...
@@ -347,7 +358,8 @@ static inline unsigned int work_static(struct work_struct *work) { return 0; }
* Workqueue flags and constants. For details, please refer to
* Documentation/core-api/workqueue.rst.
*/
enum
{
enum
wq_flags
{
WQ_BH
=
1
<<
0
,
/* execute in bottom half (softirq) context */
WQ_UNBOUND
=
1
<<
1
,
/* not bound to any cpu */
WQ_FREEZABLE
=
1
<<
2
,
/* freeze during suspend */
WQ_MEM_RECLAIM
=
1
<<
3
,
/* may be used for memory reclaim */
...
...
@@ -386,11 +398,22 @@ enum {
__WQ_DRAINING
=
1
<<
16
,
/* internal: workqueue is draining */
__WQ_ORDERED
=
1
<<
17
,
/* internal: workqueue is ordered */
__WQ_LEGACY
=
1
<<
18
,
/* internal: create*_workqueue() */
__WQ_ORDERED_EXPLICIT
=
1
<<
19
,
/* internal: alloc_ordered_workqueue() */
/* BH wq only allows the following flags */
__WQ_BH_ALLOWS
=
WQ_BH
|
WQ_HIGHPRI
,
};
enum
wq_consts
{
WQ_MAX_ACTIVE
=
512
,
/* I like 512, better ideas? */
WQ_UNBOUND_MAX_ACTIVE
=
WQ_MAX_ACTIVE
,
WQ_DFL_ACTIVE
=
WQ_MAX_ACTIVE
/
2
,
/*
* Per-node default cap on min_active. Unless explicitly set, min_active
* is set to min(max_active, WQ_DFL_MIN_ACTIVE). For more details, see
* workqueue_struct->min_active definition.
*/
WQ_DFL_MIN_ACTIVE
=
8
,
};
/*
...
...
@@ -420,6 +443,9 @@ enum {
* they are same as their non-power-efficient counterparts - e.g.
* system_power_efficient_wq is identical to system_wq if
* 'wq_power_efficient' is disabled. See WQ_POWER_EFFICIENT for more info.
*
* system_bh[_highpri]_wq are convenience interface to softirq. BH work items
* are executed in the queueing CPU's BH context in the queueing order.
*/
extern
struct
workqueue_struct
*
system_wq
;
extern
struct
workqueue_struct
*
system_highpri_wq
;
...
...
@@ -428,16 +454,43 @@ extern struct workqueue_struct *system_unbound_wq;
extern
struct
workqueue_struct
*
system_freezable_wq
;
extern
struct
workqueue_struct
*
system_power_efficient_wq
;
extern
struct
workqueue_struct
*
system_freezable_power_efficient_wq
;
extern
struct
workqueue_struct
*
system_bh_wq
;
extern
struct
workqueue_struct
*
system_bh_highpri_wq
;
void
workqueue_softirq_action
(
bool
highpri
);
void
workqueue_softirq_dead
(
unsigned
int
cpu
);
/**
* alloc_workqueue - allocate a workqueue
* @fmt: printf format for the name of the workqueue
* @flags: WQ_* flags
* @max_active: max in-flight work items
per CPU
, 0 for default
* @max_active: max in-flight work items, 0 for default
* remaining args: args for @fmt
*
* Allocate a workqueue with the specified parameters. For detailed
* information on WQ_* flags, please refer to
* For a per-cpu workqueue, @max_active limits the number of in-flight work
* items for each CPU. e.g. @max_active of 1 indicates that each CPU can be
* executing at most one work item for the workqueue.
*
* For unbound workqueues, @max_active limits the number of in-flight work items
* for the whole system. e.g. @max_active of 16 indicates that that there can be
* at most 16 work items executing for the workqueue in the whole system.
*
* As sharing the same active counter for an unbound workqueue across multiple
* NUMA nodes can be expensive, @max_active is distributed to each NUMA node
* according to the proportion of the number of online CPUs and enforced
* independently.
*
* Depending on online CPU distribution, a node may end up with per-node
* max_active which is significantly lower than @max_active, which can lead to
* deadlocks if the per-node concurrency limit is lower than the maximum number
* of interdependent work items for the workqueue.
*
* To guarantee forward progress regardless of online CPU distribution, the
* concurrency limit on every node is guaranteed to be equal to or greater than
* min_active which is set to min(@max_active, %WQ_DFL_MIN_ACTIVE). This means
* that the sum of per-node max_active's may be larger than @max_active.
*
* For detailed information on %WQ_* flags, please refer to
* Documentation/core-api/workqueue.rst.
*
* RETURNS:
...
...
@@ -460,8 +513,7 @@ alloc_workqueue(const char *fmt, unsigned int flags, int max_active, ...);
* Pointer to the allocated workqueue on success, %NULL on failure.
*/
#define alloc_ordered_workqueue(fmt, flags, args...) \
alloc_workqueue(fmt, WQ_UNBOUND | __WQ_ORDERED | \
__WQ_ORDERED_EXPLICIT | (flags), 1, ##args)
alloc_workqueue(fmt, WQ_UNBOUND | __WQ_ORDERED | (flags), 1, ##args)
#define create_workqueue(name) \
alloc_workqueue("%s", __WQ_LEGACY | WQ_MEM_RECLAIM, 1, (name))
...
...
@@ -471,6 +523,9 @@ alloc_workqueue(const char *fmt, unsigned int flags, int max_active, ...);
#define create_singlethread_workqueue(name) \
alloc_ordered_workqueue("%s", __WQ_LEGACY | WQ_MEM_RECLAIM, name)
#define from_work(var, callback_work, work_fieldname) \
container_of(callback_work, typeof(*var), work_fieldname)
extern
void
destroy_workqueue
(
struct
workqueue_struct
*
wq
);
struct
workqueue_attrs
*
alloc_workqueue_attrs
(
void
);
...
...
@@ -508,6 +563,8 @@ extern bool flush_rcu_work(struct rcu_work *rwork);
extern
void
workqueue_set_max_active
(
struct
workqueue_struct
*
wq
,
int
max_active
);
extern
void
workqueue_set_min_active
(
struct
workqueue_struct
*
wq
,
int
min_active
);
extern
struct
work_struct
*
current_work
(
void
);
extern
bool
current_is_workqueue_rescuer
(
void
);
extern
bool
workqueue_congested
(
int
cpu
,
struct
workqueue_struct
*
wq
);
...
...
init/Kconfig
View file @
c6df3275
...
...
@@ -106,7 +106,7 @@ config CONSTRUCTORS
bool
config IRQ_WORK
bool
def_bool y if SMP
config BUILDTIME_TABLE_SORT
bool
...
...
init/main.c
View file @
c6df3275
...
...
@@ -1545,6 +1545,7 @@ static noinline void __init kernel_init_freeable(void)
sched_init_smp
();
workqueue_init_topology
();
async_init
();
padata_init
();
page_alloc_init_late
();
...
...
kernel/async.c
View file @
c6df3275
...
...
@@ -64,6 +64,7 @@ static async_cookie_t next_cookie = 1;
static
LIST_HEAD
(
async_global_pending
);
/* pending from all registered doms */
static
ASYNC_DOMAIN
(
async_dfl_domain
);
static
DEFINE_SPINLOCK
(
async_lock
);
static
struct
workqueue_struct
*
async_wq
;
struct
async_entry
{
struct
list_head
domain_list
;
...
...
@@ -174,7 +175,7 @@ static async_cookie_t __async_schedule_node_domain(async_func_t func,
spin_unlock_irqrestore
(
&
async_lock
,
flags
);
/* schedule for execution */
queue_work_node
(
node
,
system_unbound
_wq
,
&
entry
->
work
);
queue_work_node
(
node
,
async
_wq
,
&
entry
->
work
);
return
newcookie
;
}
...
...
@@ -345,3 +346,17 @@ bool current_is_async(void)
return
worker
&&
worker
->
current_func
==
async_run_entry_fn
;
}
EXPORT_SYMBOL_GPL
(
current_is_async
);
void
__init
async_init
(
void
)
{
/*
* Async can schedule a number of interdependent work items. However,
* unbound workqueues can handle only upto min_active interdependent
* work items. The default min_active of 8 isn't sufficient for async
* and can lead to stalls. Let's use a dedicated workqueue with raised
* min_active.
*/
async_wq
=
alloc_workqueue
(
"async"
,
WQ_UNBOUND
,
0
);
BUG_ON
(
!
async_wq
);
workqueue_set_min_active
(
async_wq
,
WQ_DFL_ACTIVE
);
}
kernel/softirq.c
View file @
c6df3275
...
...
@@ -27,6 +27,7 @@
#include <linux/tick.h>
#include <linux/irq.h>
#include <linux/wait_bit.h>
#include <linux/workqueue.h>
#include <asm/softirq_stack.h>
...
...
@@ -802,11 +803,13 @@ static void tasklet_action_common(struct softirq_action *a,
static
__latent_entropy
void
tasklet_action
(
struct
softirq_action
*
a
)
{
workqueue_softirq_action
(
false
);
tasklet_action_common
(
a
,
this_cpu_ptr
(
&
tasklet_vec
),
TASKLET_SOFTIRQ
);
}
static
__latent_entropy
void
tasklet_hi_action
(
struct
softirq_action
*
a
)
{
workqueue_softirq_action
(
true
);
tasklet_action_common
(
a
,
this_cpu_ptr
(
&
tasklet_hi_vec
),
HI_SOFTIRQ
);
}
...
...
@@ -929,6 +932,8 @@ static void run_ksoftirqd(unsigned int cpu)
#ifdef CONFIG_HOTPLUG_CPU
static
int
takeover_tasklets
(
unsigned
int
cpu
)
{
workqueue_softirq_dead
(
cpu
);
/* CPU is dead, so no lock needed. */
local_irq_disable
();
...
...
kernel/workqueue.c
View file @
c6df3275
This diff is collapsed.
Click to expand it.
rust/kernel/workqueue.rs
View file @
c6df3275
...
...
@@ -199,7 +199,11 @@ pub fn enqueue<W, const ID: u64>(&self, w: W) -> W::EnqueueOutput
// stay valid until we call the function pointer in the `work_struct`, so the access is ok.
unsafe
{
w
.__enqueue
(
move
|
work_ptr
|
{
bindings
::
queue_work_on
(
bindings
::
WORK_CPU_UNBOUND
as
_
,
queue_ptr
,
work_ptr
)
bindings
::
queue_work_on
(
bindings
::
wq_misc_consts_WORK_CPU_UNBOUND
as
_
,
queue_ptr
,
work_ptr
,
)
})
}
}
...
...
tools/workqueue/wq_dump.py
View file @
c6df3275
...
...
@@ -50,6 +50,7 @@ import drgn
from
drgn.helpers.linux.list
import
list_for_each_entry
,
list_empty
from
drgn.helpers.linux.percpu
import
per_cpu_ptr
from
drgn.helpers.linux.cpumask
import
for_each_cpu
,
for_each_possible_cpu
from
drgn.helpers.linux.nodemask
import
for_each_node
from
drgn.helpers.linux.idr
import
idr_for_each
import
argparse
...
...
@@ -75,6 +76,22 @@ def cpumask_str(cpumask):
output
+=
f'
{
v
:
08
x
}
'
return
output
.
strip
()
wq_type_len
=
9
def
wq_type_str
(
wq
):
if
wq
.
flags
&
WQ_BH
:
return
f'
{
"bh"
:
{
wq_type_len
}}
'
elif
wq
.
flags
&
WQ_UNBOUND
:
if
wq
.
flags
&
WQ_ORDERED
:
return
f'
{
"ordered"
:
{
wq_type_len
}}
'
else
:
if
wq
.
unbound_attrs
.
affn_strict
:
return
f'
{
"unbound,S"
:
{
wq_type_len
}}
'
else
:
return
f'
{
"unbound"
:
{
wq_type_len
}}
'
else
:
return
f'
{
"percpu"
:
{
wq_type_len
}}
'
worker_pool_idr
=
prog
[
'worker_pool_idr'
]
workqueues
=
prog
[
'workqueues'
]
wq_unbound_cpumask
=
prog
[
'wq_unbound_cpumask'
]
...
...
@@ -82,6 +99,7 @@ wq_pod_types = prog['wq_pod_types']
wq_affn_dfl
=
prog
[
'wq_affn_dfl'
]
wq_affn_names
=
prog
[
'wq_affn_names'
]
WQ_BH
=
prog
[
'WQ_BH'
]
WQ_UNBOUND
=
prog
[
'WQ_UNBOUND'
]
WQ_ORDERED
=
prog
[
'__WQ_ORDERED'
]
WQ_MEM_RECLAIM
=
prog
[
'WQ_MEM_RECLAIM'
]
...
...
@@ -92,6 +110,11 @@ WQ_AFFN_CACHE = prog['WQ_AFFN_CACHE']
WQ_AFFN_NUMA
=
prog
[
'WQ_AFFN_NUMA'
]
WQ_AFFN_SYSTEM
=
prog
[
'WQ_AFFN_SYSTEM'
]
POOL_BH
=
prog
[
'POOL_BH'
]
WQ_NAME_LEN
=
prog
[
'WQ_NAME_LEN'
].
value_
()
cpumask_str_len
=
len
(
cpumask_str
(
wq_unbound_cpumask
))
print
(
'Affinity Scopes'
)
print
(
'==============='
)
...
...
@@ -133,10 +156,12 @@ for pi, pool in idr_for_each(worker_pool_idr):
for
pi
,
pool
in
idr_for_each
(
worker_pool_idr
):
pool
=
drgn
.
Object
(
prog
,
'struct worker_pool'
,
address
=
pool
)
print
(
f'pool[
{
pi
:
0
{
max_pool_id_len
}}
] ref=
{
pool
.
refcnt
.
value_
():
{
max_ref_len
}}
nice=
{
pool
.
attrs
.
nice
.
value_
():
3
}
'
,
end
=
''
)
print
(
f'pool[
{
pi
:
0
{
max_pool_id_len
}}
]
flags=0x
{
pool
.
flags
.
value_
():
02
x
}
ref=
{
pool
.
refcnt
.
value_
():
{
max_ref_len
}}
nice=
{
pool
.
attrs
.
nice
.
value_
():
3
}
'
,
end
=
''
)
print
(
f'idle/workers=
{
pool
.
nr_idle
.
value_
():
3
}
/
{
pool
.
nr_workers
.
value_
():
3
}
'
,
end
=
''
)
if
pool
.
cpu
>=
0
:
print
(
f'cpu=
{
pool
.
cpu
.
value_
():
3
}
'
,
end
=
''
)
if
pool
.
flags
&
POOL_BH
:
print
(
' bh'
,
end
=
''
)
else
:
print
(
f'cpus=
{
cpumask_str
(
pool
.
attrs
.
cpumask
)
}
'
,
end
=
''
)
print
(
f' pod_cpus=
{
cpumask_str
(
pool
.
attrs
.
__pod_cpumask
)
}
'
,
end
=
''
)
...
...
@@ -148,24 +173,13 @@ print('')
print
(
'Workqueue CPU -> pool'
)
print
(
'====================='
)
print
(
'[ workqueue
\
t
ype CPU
'
,
end
=
''
)
print
(
f'[
{
"workqueue"
:
^
{
WQ_NAME_LEN
-
2
}}\
\
{
"type CPU"
:
{
wq_type_len
}}
'
,
end
=
''
)
for
cpu
in
for_each_possible_cpu
(
prog
):
print
(
f'
{
cpu
:
{
max_pool_id_len
}}
'
,
end
=
''
)
print
(
' dfl]'
)
for
wq
in
list_for_each_entry
(
'struct workqueue_struct'
,
workqueues
.
address_of_
(),
'list'
):
print
(
f'
{
wq
.
name
.
string_
().
decode
()[
-
24
:]:
24
}
'
,
end
=
''
)
if
wq
.
flags
&
WQ_UNBOUND
:
if
wq
.
flags
&
WQ_ORDERED
:
print
(
' ordered '
,
end
=
''
)
else
:
print
(
' unbound'
,
end
=
''
)
if
wq
.
unbound_attrs
.
affn_strict
:
print
(
',S '
,
end
=
''
)
else
:
print
(
' '
,
end
=
''
)
else
:
print
(
' percpu '
,
end
=
''
)
print
(
f'
{
wq
.
name
.
string_
().
decode
():
{
WQ_NAME_LEN
}}
{
wq_type_str
(
wq
):
10
}
'
,
end
=
''
)
for
cpu
in
for_each_possible_cpu
(
prog
):
pool_id
=
per_cpu_ptr
(
wq
.
cpu_pwq
,
cpu
)[
0
].
pool
.
id
.
value_
()
...
...
@@ -175,3 +189,65 @@ for wq in list_for_each_entry('struct workqueue_struct', workqueues.address_of_(
if
wq
.
flags
&
WQ_UNBOUND
:
print
(
f'
{
wq
.
dfl_pwq
.
pool
.
id
.
value_
():
{
max_pool_id_len
}}
'
,
end
=
''
)
print
(
''
)
print
(
''
)
print
(
'Workqueue -> rescuer'
)
print
(
'===================='
)
ucpus_len
=
max
(
cpumask_str_len
,
len
(
"unbound_cpus"
))
rcpus_len
=
max
(
cpumask_str_len
,
len
(
"rescuer_cpus"
))
print
(
f'[
{
"workqueue"
:
^
{
WQ_NAME_LEN
-
2
}}\
\
{
"unbound_cpus"
:
{
ucpus_len
}}
pid
{
"rescuer_cpus"
:
{
rcpus_len
}}
]'
)
for
wq
in
list_for_each_entry
(
'struct workqueue_struct'
,
workqueues
.
address_of_
(),
'list'
):
if
not
(
wq
.
flags
&
WQ_MEM_RECLAIM
):
continue
print
(
f'
{
wq
.
name
.
string_
().
decode
():
{
WQ_NAME_LEN
}}
'
,
end
=
''
)
if
wq
.
unbound_attrs
.
value_
()
!=
0
:
print
(
f'
{
cpumask_str
(
wq
.
unbound_attrs
.
cpumask
):
{
ucpus_len
}}
'
,
end
=
''
)
else
:
print
(
f'
{
""
:
{
ucpus_len
}}
'
,
end
=
''
)
print
(
f'
{
wq
.
rescuer
.
task
.
pid
.
value_
():
6
}
'
,
end
=
''
)
print
(
f'
{
cpumask_str
(
wq
.
rescuer
.
task
.
cpus_ptr
):
{
rcpus_len
}}
'
,
end
=
''
)
print
(
''
)
print
(
''
)
print
(
'Unbound workqueue -> node_nr/max_active'
)
print
(
'======================================='
)
if
'node_to_cpumask_map'
in
prog
:
__cpu_online_mask
=
prog
[
'__cpu_online_mask'
]
node_to_cpumask_map
=
prog
[
'node_to_cpumask_map'
]
nr_node_ids
=
prog
[
'nr_node_ids'
].
value_
()
print
(
f'online_cpus=
{
cpumask_str
(
__cpu_online_mask
.
address_of_
())
}
'
)
for
node
in
for_each_node
():
print
(
f'NODE[
{
node
:
02
}
]=
{
cpumask_str
(
node_to_cpumask_map
[
node
])
}
'
)
print
(
''
)
print
(
f'[
{
"workqueue"
:
^
{
WQ_NAME_LEN
-
2
}}\
\
min max'
,
end
=
''
)
first
=
True
for
node
in
for_each_node
():
if
first
:
print
(
f' NODE
{
node
}
'
,
end
=
''
)
first
=
False
else
:
print
(
f'
{
node
:
7
}
'
,
end
=
''
)
print
(
f'
{
"dfl"
:
>
7
}
]'
)
print
(
''
)
for
wq
in
list_for_each_entry
(
'struct workqueue_struct'
,
workqueues
.
address_of_
(),
'list'
):
if
not
(
wq
.
flags
&
WQ_UNBOUND
):
continue
print
(
f'
{
wq
.
name
.
string_
().
decode
():
{
WQ_NAME_LEN
}}
'
,
end
=
''
)
print
(
f'
{
wq
.
min_active
.
value_
():
3
}
{
wq
.
max_active
.
value_
():
3
}
'
,
end
=
''
)
for
node
in
for_each_node
():
nna
=
wq
.
node_nr_active
[
node
]
print
(
f'
{
nna
.
nr
.
counter
.
value_
():
3
}
/
{
nna
.
max
.
value_
():
3
}
'
,
end
=
''
)
nna
=
wq
.
node_nr_active
[
nr_node_ids
]
print
(
f'
{
nna
.
nr
.
counter
.
value_
():
3
}
/
{
nna
.
max
.
value_
():
3
}
'
)
else
:
printf
(
f'node_to_cpumask_map not present, is NUMA enabled?'
)
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