xref: /freebsd/share/man/man9/sleep.9 (revision e5b786625f7f82a1fa91e41823332459ea5550f9)
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26.Dd June 19, 2019
27.Dt SLEEP 9
28.Os
29.Sh NAME
30.Nm msleep ,
31.Nm msleep_sbt ,
32.Nm msleep_spin ,
33.Nm msleep_spin_sbt ,
34.Nm pause ,
35.Nm pause_sig ,
36.Nm pause_sbt ,
37.Nm tsleep ,
38.Nm tsleep_sbt ,
39.Nm wakeup ,
40.Nm wakeup_one ,
41.Nm wakeup_any
42.Nd wait for events
43.Sh SYNOPSIS
44.In sys/param.h
45.In sys/systm.h
46.In sys/proc.h
47.Ft int
48.Fn msleep "const void *chan" "struct mtx *mtx" "int priority" "const char *wmesg" "int timo"
49.Ft int
50.Fn msleep_sbt "const void *chan" "struct mtx *mtx" "int priority" \
51"const char *wmesg" "sbintime_t sbt" "sbintime_t pr" "int flags"
52.Ft int
53.Fn msleep_spin "const void *chan" "struct mtx *mtx" "const char *wmesg" "int timo"
54.Ft int
55.Fn msleep_spin_sbt "const void *chan" "struct mtx *mtx" "const char *wmesg" \
56"sbintime_t sbt" "sbintime_t pr" "int flags"
57.Ft int
58.Fn pause "const char *wmesg" "int timo"
59.Ft int
60.Fn pause_sig "const char *wmesg" "int timo"
61.Ft int
62.Fn pause_sbt "const char *wmesg" "sbintime_t sbt" "sbintime_t pr" \
63 "int flags"
64.Ft int
65.Fn tsleep "const void *chan" "int priority" "const char *wmesg" "int timo"
66.Ft int
67.Fn tsleep_sbt "const void *chan" "int priority" "const char *wmesg" \
68"sbintime_t sbt" "sbintime_t pr" "int flags"
69.Ft void
70.Fn wakeup "const void *chan"
71.Ft void
72.Fn wakeup_one "const void *chan"
73.Ft void
74.Fn wakeup_any "const void *chan"
75.Sh DESCRIPTION
76The functions
77.Fn tsleep ,
78.Fn msleep ,
79.Fn msleep_spin ,
80.Fn pause ,
81.Fn pause_sig ,
82.Fn pause_sbt ,
83.Fn wakeup ,
84.Fn wakeup_one ,
85and
86.Fn wakeup_any
87handle event-based thread blocking.
88If a thread must wait for an
89external event, it is put to sleep by
90.Fn tsleep ,
91.Fn msleep ,
92.Fn msleep_spin ,
93.Fn pause ,
94.Fn pause_sig ,
95or
96.Fn pause_sbt .
97Threads may also wait using one of the locking primitive sleep routines
98.Xr mtx_sleep 9 ,
99.Xr rw_sleep 9 ,
100or
101.Xr sx_sleep 9 .
102.Pp
103The parameter
104.Fa chan
105is an arbitrary address that uniquely identifies the event on which
106the thread is being put to sleep.
107All threads sleeping on a single
108.Fa chan
109are woken up later by
110.Fn wakeup ,
111often called from inside an interrupt routine, to indicate that the
112resource the thread was blocking on is available now.
113.Pp
114The parameter
115.Fa priority
116specifies a new priority for the thread as well as some optional flags.
117If the new priority is not 0,
118then the thread will be made
119runnable with the specified
120.Fa priority
121when it resumes.
122.Dv PZERO
123should never be used, as it is for compatibility only.
124A new priority of 0 means to use the thread's current priority when
125it is made runnable again.
126.Pp
127If
128.Fa priority
129includes the
130.Dv PCATCH
131flag, pending signals are allowed to interrupt the sleep, otherwise
132pending signals are ignored during the sleep.
133If
134.Dv PCATCH
135is set and a signal becomes pending,
136.Er ERESTART
137is returned if the current system call should be restarted if
138possible, and
139.Er EINTR
140is returned if the system call should be interrupted by the signal
141(return
142.Er EINTR ) .
143.Pp
144The parameter
145.Fa wmesg
146is a string describing the sleep condition for tools like
147.Xr ps 1 .
148Due to the limited space of those programs to display arbitrary strings,
149this message should not be longer than 6 characters.
150.Pp
151The parameter
152.Fa timo
153specifies a timeout for the sleep.
154If
155.Fa timo
156is not 0,
157then the thread will sleep for at most
158.Fa timo No / Va hz
159seconds.
160If the timeout expires,
161then the sleep function will return
162.Er EWOULDBLOCK .
163.Pp
164.Fn msleep_sbt ,
165.Fn msleep_spin_sbt ,
166.Fn pause_sbt
167and
168.Fn tsleep_sbt
169functions take
170.Fa sbt
171parameter instead of
172.Fa timo .
173It allows the caller to specify relative or absolute wakeup time with higher resolution
174in form of
175.Vt sbintime_t .
176The parameter
177.Fa pr
178allows the caller to specify wanted absolute event precision.
179The parameter
180.Fa flags
181allows the caller to pass additional
182.Fn callout_reset_sbt
183flags.
184.Pp
185Several of the sleep functions including
186.Fn msleep ,
187.Fn msleep_spin ,
188and the locking primitive sleep routines specify an additional lock
189parameter.
190The lock will be released before sleeping and reacquired
191before the sleep routine returns.
192If
193.Fa priority
194includes the
195.Dv PDROP
196flag, then
197the lock will not be reacquired before returning.
198The lock is used to ensure that a condition can be checked atomically,
199and that the current thread can be suspended without missing a
200change to the condition, or an associated wakeup.
201In addition, all of the sleep routines will fully drop the
202.Va Giant
203mutex
204(even if recursed)
205while the thread is suspended and will reacquire the
206.Va Giant
207mutex before the function returns.
208Note that the
209.Va Giant
210mutex may be specified as the lock to drop.
211In that case, however, the
212.Dv PDROP
213flag is not allowed.
214.Pp
215To avoid lost wakeups,
216either a lock should be used to protect against races,
217or a timeout should be specified to place an upper bound on the delay due
218to a lost wakeup.
219As a result,
220the
221.Fn tsleep
222function should only be invoked with a timeout of 0 when the
223.Va Giant
224mutex is held.
225.Pp
226The
227.Fn msleep
228function requires that
229.Fa mtx
230reference a default, i.e. non-spin, mutex.
231Its use is deprecated in favor of
232.Xr mtx_sleep 9
233which provides identical behavior.
234.Pp
235The
236.Fn msleep_spin
237function requires that
238.Fa mtx
239reference a spin mutex.
240The
241.Fn msleep_spin
242function does not accept a
243.Fa priority
244parameter and thus does not support changing the current thread's priority,
245the
246.Dv PDROP
247flag,
248or catching signals via the
249.Dv PCATCH
250flag.
251.Pp
252The
253.Fn pause
254function is a wrapper around
255.Fn tsleep
256that suspends execution of the current thread for the indicated timeout.
257The thread can not be awakened early by signals or calls to
258.Fn wakeup ,
259.Fn wakeup_one
260or
261.Fn wakeup_any .
262The
263.Fn pause_sig
264function is a variant of
265.Fn pause
266which can be awakened early by signals.
267.Pp
268The
269.Fn wakeup_one
270function makes the first highest priority thread in the queue that is
271sleeping on the parameter
272.Fa chan
273runnable.
274This reduces the load when a large number of threads are sleeping on
275the same address, but only one of them can actually do any useful work
276when made runnable.
277.Pp
278Due to the way it works, the
279.Fn wakeup_one
280function requires that only related threads sleep on a specific
281.Fa chan
282address.
283It is the programmer's responsibility to choose a unique
284.Fa chan
285value.
286The older
287.Fn wakeup
288function did not require this, though it was never good practice
289for threads to share a
290.Fa chan
291value.
292When converting from
293.Fn wakeup
294to
295.Fn wakeup_one ,
296pay particular attention to ensure that no other threads wait on the
297same
298.Fa chan .
299.Pp
300The
301.Fn wakeup_any
302function is similar to
303.Fn wakeup_one ,
304except that it makes runnable last thread on the queue (sleeping less),
305ignoring fairness.
306It can be used when threads sleeping on the
307.Fa chan
308are known to be identical and there is no reason to be fair.
309.Pp
310If the timeout given by
311.Fa timo
312or
313.Fa sbt
314is based on an absolute real-time clock value,
315then the thread should copy the global
316.Va rtc_generation
317into its
318.Va td_rtcgen
319member before reading the RTC.
320If the real-time clock is adjusted, these functions will set
321.Va td_rtcgen
322to zero and return zero.
323The caller should reconsider its orientation with the new RTC value.
324.Sh RETURN VALUES
325When awakened by a call to
326.Fn wakeup
327or
328.Fn wakeup_one ,
329if a signal is pending and
330.Dv PCATCH
331is specified,
332a non-zero error code is returned.
333If the thread is awakened by a call to
334.Fn wakeup
335or
336.Fn wakeup_one ,
337the
338.Fn msleep ,
339.Fn msleep_spin ,
340.Fn tsleep ,
341and locking primitive sleep functions return 0.
342Zero can also be returned when the real-time clock is adjusted;
343see above regarding
344.Va td_rtcgen .
345Otherwise, a non-zero error code is returned.
346.Sh ERRORS
347.Fn msleep ,
348.Fn msleep_spin ,
349.Fn tsleep ,
350and the locking primitive sleep functions will fail if:
351.Bl -tag -width Er
352.It Bq Er EINTR
353The
354.Dv PCATCH
355flag was specified, a signal was caught, and the system call should be
356interrupted.
357.It Bq Er ERESTART
358The
359.Dv PCATCH
360flag was specified, a signal was caught, and the system call should be
361restarted.
362.It Bq Er EWOULDBLOCK
363A non-zero timeout was specified and the timeout expired.
364.El
365.Sh SEE ALSO
366.Xr ps 1 ,
367.Xr callout 9 ,
368.Xr locking 9 ,
369.Xr malloc 9 ,
370.Xr mi_switch 9 ,
371.Xr mtx_sleep 9 ,
372.Xr rw_sleep 9 ,
373.Xr sx_sleep 9
374.Sh HISTORY
375The functions
376.Fn sleep
377and
378.Fn wakeup
379were present in
380.At v1 .
381They were probably also present in the preceding
382PDP-7 version of
383.Ux .
384They were the basic process synchronization model.
385.Pp
386The
387.Fn tsleep
388function appeared in
389.Bx 4.4
390and added the parameters
391.Fa wmesg
392and
393.Fa timo .
394The
395.Fn sleep
396function was removed in
397.Fx 2.2 .
398The
399.Fn wakeup_one
400function appeared in
401.Fx 2.2 .
402The
403.Fn msleep
404function appeared in
405.Fx 5.0 ,
406and the
407.Fn msleep_spin
408function appeared in
409.Fx 6.2 .
410The
411.Fn pause
412function appeared in
413.Fx 7.0 .
414The
415.Fn pause_sig
416function appeared in
417.Fx 12.0 .
418.Sh AUTHORS
419.An -nosplit
420This manual page was written by
421.An J\(:org Wunsch Aq Mt joerg@FreeBSD.org .
422