xref: /freebsd/share/man/man9/sleepqueue.9 (revision e6bfd18d21b225af6a0ed67ceeaf1293b7b9eba5)
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23.\" $FreeBSD$
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25.Dd June 19, 2019
26.Dt SLEEPQUEUE 9
27.Os
28.Sh NAME
29.Nm init_sleepqueues ,
30.Nm sleepq_abort ,
31.Nm sleepq_add ,
32.Nm sleepq_alloc ,
33.Nm sleepq_broadcast ,
34.Nm sleepq_free ,
35.Nm sleepq_lock ,
36.Nm sleepq_lookup ,
37.Nm sleepq_release ,
38.Nm sleepq_remove ,
39.Nm sleepq_signal ,
40.Nm sleepq_set_timeout ,
41.Nm sleepq_set_timeout_sbt ,
42.Nm sleepq_sleepcnt ,
43.Nm sleepq_timedwait ,
44.Nm sleepq_timedwait_sig ,
45.Nm sleepq_type ,
46.Nm sleepq_wait ,
47.Nm sleepq_wait_sig
48.Nd manage the queues of sleeping threads
49.Sh SYNOPSIS
50.In sys/param.h
51.In sys/sleepqueue.h
52.Ft void
53.Fn init_sleepqueues "void"
54.Ft int
55.Fn sleepq_abort "struct thread *td"
56.Ft void
57.Fn sleepq_add "const void *wchan" "struct lock_object *lock" "const char *wmesg" "int flags" "int queue"
58.Ft struct sleepqueue *
59.Fn sleepq_alloc "void"
60.Ft int
61.Fn sleepq_broadcast "const void *wchan" "int flags" "int pri" "int queue"
62.Ft void
63.Fn sleepq_free "struct sleepqueue *sq"
64.Ft struct sleepqueue *
65.Fn sleepq_lookup "const void *wchan"
66.Ft void
67.Fn sleepq_lock "const void *wchan"
68.Ft void
69.Fn sleepq_release "const void *wchan"
70.Ft void
71.Fn sleepq_remove "struct thread *td" "const void *wchan"
72.Ft int
73.Fn sleepq_signal "const void *wchan" "int flags" "int pri" "int queue"
74.Ft void
75.Fn sleepq_set_timeout "const void *wchan" "int timo"
76.Ft void
77.Fn sleepq_set_timeout_sbt "const void *wchan" "sbintime_t sbt" \
78"sbintime_t pr" "int flags"
79.Ft u_int
80.Fn sleepq_sleepcnt "const void *wchan" "int queue"
81.Ft int
82.Fn sleepq_timedwait "const void *wchan" "int pri"
83.Ft int
84.Fn sleepq_timedwait_sig "const void *wchan" "int pri"
85.Ft int
86.Fn sleepq_type "const void *wchan"
87.Ft void
88.Fn sleepq_wait "const void *wchan" "int pri"
89.Ft int
90.Fn sleepq_wait_sig "const void *wchan" "int pri"
91.Sh DESCRIPTION
92Sleep queues provide a mechanism for suspending execution of a thread until
93some condition is met.
94Each queue is associated with a specific wait channel when it is active,
95and only one queue may be associated with a wait channel at any given point
96in time.
97The implementation of each wait channel splits its sleepqueue into 2 sub-queues
98in order to enable some optimizations on threads' wakeups.
99An active queue holds a list of threads that are blocked on the associated
100wait channel.
101Threads that are not blocked on a wait channel have an associated inactive
102sleep queue.
103When a thread blocks on a wait channel it donates its inactive sleep queue
104to the wait channel.
105When a thread is resumed,
106the wait channel that it was blocked on gives it an inactive sleep queue for
107later use.
108.Pp
109The
110.Fn sleepq_alloc
111function allocates an inactive sleep queue and is used to assign a
112sleep queue to a thread during thread creation.
113The
114.Fn sleepq_free
115function frees the resources associated with an inactive sleep queue and is
116used to free a queue during thread destruction.
117.Pp
118Active sleep queues are stored in a hash table hashed on the addresses pointed
119to by wait channels.
120Each bucket in the hash table contains a sleep queue chain.
121A sleep queue chain contains a spin mutex and a list of sleep queues that hash
122to that specific chain.
123Active sleep queues are protected by their chain's spin mutex.
124The
125.Fn init_sleepqueues
126function initializes the hash table of sleep queue chains.
127.Pp
128The
129.Fn sleepq_lock
130function locks the sleep queue chain associated with wait channel
131.Fa wchan .
132.Pp
133The
134.Fn sleepq_lookup
135returns a pointer to the currently active sleep queue for that wait
136channel associated with
137.Fa wchan
138or
139.Dv NULL
140if there is no active sleep queue associated with
141argument
142.Fa wchan .
143It requires the sleep queue chain associated with
144.Fa wchan
145to have been locked by a prior call to
146.Fn sleepq_lock .
147.Pp
148The
149.Fn sleepq_release
150function unlocks the sleep queue chain associated with
151.Fn wchan
152and is primarily useful when aborting a pending sleep request before one of
153the wait functions is called.
154.Pp
155The
156.Fn sleepq_add
157function places the current thread on the sleep queue associated with the
158wait channel
159.Fa wchan .
160The sleep queue chain associated with argument
161.Fa wchan
162must be locked by a prior call to
163.Fn sleepq_lock
164when this function is called.
165If a lock is specified via the
166.Fa lock
167argument, and if the kernel was compiled with
168.Cd "options INVARIANTS" ,
169then the sleep queue code will perform extra checks to ensure that
170the lock is used by all threads sleeping on
171.Fa wchan .
172The
173.Fa wmesg
174parameter should be a short description of
175.Fa wchan .
176The
177.Fa flags
178parameter is a bitmask consisting of the type of sleep queue being slept on
179and zero or more optional flags.
180The
181.Fa queue
182parameter specifies the sub-queue, in which the contending thread will be
183inserted.
184.Pp
185There are currently three types of sleep queues:
186.Pp
187.Bl -tag -width ".Dv SLEEPQ_CONDVAR" -compact
188.It Dv SLEEPQ_CONDVAR
189A sleep queue used to implement condition variables.
190.It Dv SLEEPQ_SLEEP
191A sleep queue used to implement
192.Xr sleep 9 ,
193.Xr wakeup 9
194and
195.Xr wakeup_one 9 .
196.It Dv SLEEPQ_PAUSE
197A sleep queue used to implement
198.Xr pause 9 .
199.El
200.Pp
201There are currently two optional flag:
202.Pp
203.Bl -tag -width ".Dv SLEEPQ_INTERRUPTIBLE" -compact
204.It Dv SLEEPQ_INTERRUPTIBLE
205The current thread is entering an interruptible sleep.
206.El
207.Bl -tag -width ".Dv SLEEPQ_STOP_ON_BDRY" -compact
208.It Dv SLEEPQ_STOP_ON_BDRY
209When thread is entering an interruptible sleep, do not stop it upon
210arrival of stop action, like
211.Dv SIGSTOP .
212Wake it up instead.
213.El
214.Pp
215A timeout on the sleep may be specified by calling
216.Fn sleepq_set_timeout
217after
218.Fn sleepq_add .
219The
220.Fa wchan
221parameter should be the same value from the preceding call to
222.Fn sleepq_add ,
223and the sleep queue chain associated with
224.Fa wchan
225must have been locked by a prior call to
226.Fn sleepq_lock .
227The
228.Fa timo
229parameter should specify the timeout value in ticks.
230.Pp
231.Fn sleepq_set_timeout_sbt
232function takes
233.Fa sbt
234argument instead of
235.Fa timo .
236It allows to specify relative or absolute wakeup time with higher resolution
237in form of
238.Vt sbintime_t .
239The parameter
240.Fa pr
241allows to specify wanted absolute event precision.
242The parameter
243.Fa flags
244allows to pass additional
245.Fn callout_reset_sbt
246flags.
247.Pp
248Once the thread is ready to suspend,
249one of the wait functions is called to put the current thread to sleep
250until it is awakened and to context switch to another thread.
251The
252.Fn sleepq_wait
253function is used for non-interruptible sleeps that do not have a timeout.
254The
255.Fn sleepq_timedwait
256function is used for non-interruptible sleeps that have had a timeout set via
257.Fn sleepq_set_timeout .
258The
259.Fn sleepq_wait_sig
260function is used for interruptible sleeps that do not have a timeout.
261The
262.Fn sleepq_timedwait_sig
263function is used for interruptible sleeps that do have a timeout set.
264The
265.Fa wchan
266argument to all of the wait functions is the wait channel being slept
267on.
268The sleep queue chain associated with argument
269.Fa wchan
270needs to have been locked with a prior call to
271.Fn sleepq_lock .
272The
273.Fa pri
274argument is used to set the priority of the thread when it is awakened.
275If it is set to zero, the thread's priority is left alone.
276.Pp
277When the thread is resumed,
278the wait functions return a non-zero value if the thread was awakened due to
279an interrupt other than a signal or a timeout.
280If the sleep timed out, then
281.Er EWOULDBLOCK
282is returned.
283If the sleep was interrupted by something other than a signal,
284then some other return value will be returned.
285.Pp
286A sleeping thread is normally resumed by the
287.Fn sleepq_broadcast
288and
289.Fn sleepq_signal
290functions.
291The
292.Fn sleepq_signal
293function awakens the highest priority thread sleeping on a wait channel
294(if SLEEPQ_UNFAIR flag is set, thread that went to sleep recently) while
295.Fn sleepq_broadcast
296awakens all of the threads sleeping on a wait channel.
297The
298.Fa wchan
299argument specifics which wait channel to awaken.
300The
301.Fa flags
302argument must match the sleep queue type contained in the
303.Fa flags
304argument passed to
305.Fn sleepq_add
306by the threads sleeping on the wait channel.
307If the
308.Fa pri
309argument does not equal \-1,
310then each thread that is awakened will have its priority raised to
311.Fa pri
312if it has a lower priority.
313The sleep queue chain associated with argument
314.Fa wchan
315must be locked by a prior call to
316.Fn sleepq_lock
317before calling any of these functions.
318The
319.Fa queue
320argument specifies the sub-queue, from which threads need to be woken up.
321.Pp
322A thread in an interruptible sleep can be interrupted by another thread via
323the
324.Fn sleepq_abort
325function.
326The
327.Fa td
328argument specifies the thread to interrupt.
329An individual thread can also be awakened from sleeping on a specific wait
330channel via the
331.Fn sleepq_remove
332function.
333The
334.Fa td
335argument specifies the thread to awaken and the
336.Fa wchan
337argument specifies the wait channel to awaken it from.
338If the thread
339.Fa td
340is not blocked on the wait channel
341.Fa wchan
342then this function will not do anything,
343even if the thread is asleep on a different wait channel.
344This function should only be used if one of the other functions above is not
345sufficient.
346One possible use is waking up a specific thread from a widely shared sleep
347channel.
348.Pp
349The
350.Fn sleepq_sleepcnt
351function offer a simple way to retrieve the number of threads sleeping for
352the specified
353.Fa queue ,
354given a
355.Fa wchan .
356.Pp
357The
358.Fn sleepq_type
359function returns the type of
360.Fa wchan
361associated to a sleepqueue.
362.Pp
363The
364.Fn sleepq_abort ,
365.Fn sleepq_broadcast ,
366and
367.Fn sleepq_signal
368functions all return a boolean value.
369If the return value is true,
370then at least one thread was resumed that is currently swapped out.
371The caller is responsible for awakening the scheduler process so that the
372resumed thread will be swapped back in.
373This is done by calling the
374.Fn kick_proc0
375function after releasing the sleep queue chain lock via a call to
376.Fn sleepq_release .
377.Pp
378The sleep queue interface is currently used to implement the
379.Xr sleep 9
380and
381.Xr condvar 9
382interfaces.
383Almost all other code in the kernel should use one of those interfaces rather
384than manipulating sleep queues directly.
385.Sh SEE ALSO
386.Xr callout 9 ,
387.Xr condvar 9 ,
388.Xr runqueue 9 ,
389.Xr scheduler 9 ,
390.Xr sleep 9
391