xref: /freebsd/share/man/man9/sleep.9 (revision 74ca7bf1d4c7173d5575ba168bc4b5f6d181ff5a)
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26.\" $FreeBSD$
27.\"
28.Dd March 4, 2018
29.Dt SLEEP 9
30.Os
31.Sh NAME
32.Nm msleep ,
33.Nm msleep_sbt ,
34.Nm msleep_spin ,
35.Nm msleep_spin_sbt ,
36.Nm pause ,
37.Nm pause_sig ,
38.Nm pause_sbt ,
39.Nm tsleep ,
40.Nm tsleep_sbt ,
41.Nm wakeup
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 "void *chan" "struct mtx *mtx" "int priority" "const char *wmesg" "int timo"
49.Ft int
50.Fn msleep_sbt "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 "void *chan" "struct mtx *mtx" "const char *wmesg" "int timo"
54.Ft int
55.Fn msleep_spin_sbt "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 "void *chan" "int priority" "const char *wmesg" "int timo"
66.Ft int
67.Fn tsleep_sbt "void *chan" "int priority" "const char *wmesg" \
68"sbintime_t sbt" "sbintime_t pr" "int flags"
69.Ft void
70.Fn wakeup "void *chan"
71.Ft void
72.Fn wakeup_one "void *chan"
73.Sh DESCRIPTION
74The functions
75.Fn tsleep ,
76.Fn msleep ,
77.Fn msleep_spin ,
78.Fn pause ,
79.Fn pause_sig ,
80.Fn pause_sbt ,
81.Fn wakeup ,
82and
83.Fn wakeup_one
84handle event-based thread blocking.
85If a thread must wait for an
86external event, it is put to sleep by
87.Fn tsleep ,
88.Fn msleep ,
89.Fn msleep_spin ,
90.Fn pause ,
91.Fn pause_sig ,
92or
93.Fn pause_sbt .
94Threads may also wait using one of the locking primitive sleep routines
95.Xr mtx_sleep 9 ,
96.Xr rw_sleep 9 ,
97or
98.Xr sx_sleep 9 .
99.Pp
100The parameter
101.Fa chan
102is an arbitrary address that uniquely identifies the event on which
103the thread is being put to sleep.
104All threads sleeping on a single
105.Fa chan
106are woken up later by
107.Fn wakeup ,
108often called from inside an interrupt routine, to indicate that the
109resource the thread was blocking on is available now.
110.Pp
111The parameter
112.Fa priority
113specifies a new priority for the thread as well as some optional flags.
114If the new priority is not 0,
115then the thread will be made
116runnable with the specified
117.Fa priority
118when it resumes.
119.Dv PZERO
120should never be used, as it is for compatibility only.
121A new priority of 0 means to use the thread's current priority when
122it is made runnable again.
123.Pp
124If
125.Fa priority
126includes the
127.Dv PCATCH
128flag, pending signals are allowed to interrupt the sleep, otherwise
129pending signals are ignored during the sleep.
130If
131.Dv PCATCH
132is set and a signal becomes pending,
133.Er ERESTART
134is returned if the current system call should be restarted if
135possible, and
136.Er EINTR
137is returned if the system call should be interrupted by the signal
138(return
139.Er EINTR ) .
140.Pp
141The parameter
142.Fa wmesg
143is a string describing the sleep condition for tools like
144.Xr ps 1 .
145Due to the limited space of those programs to display arbitrary strings,
146this message should not be longer than 6 characters.
147.Pp
148The parameter
149.Fa timo
150specifies a timeout for the sleep.
151If
152.Fa timo
153is not 0,
154then the thread will sleep for at most
155.Fa timo No / Va hz
156seconds.
157If the timeout expires,
158then the sleep function will return
159.Er EWOULDBLOCK .
160.Pp
161.Fn msleep_sbt ,
162.Fn msleep_spin_sbt ,
163.Fn pause_sbt
164and
165.Fn tsleep_sbt
166functions take
167.Fa sbt
168parameter instead of
169.Fa timo .
170It allows the caller to specify relative or absolute wakeup time with higher resolution
171in form of
172.Vt sbintime_t .
173The parameter
174.Fa pr
175allows the caller to specify wanted absolute event precision.
176The parameter
177.Fa flags
178allows the caller to pass additional
179.Fn callout_reset_sbt
180flags.
181.Pp
182Several of the sleep functions including
183.Fn msleep ,
184.Fn msleep_spin ,
185and the locking primitive sleep routines specify an additional lock
186parameter.
187The lock will be released before sleeping and reacquired
188before the sleep routine returns.
189If
190.Fa priority
191includes the
192.Dv PDROP
193flag, then
194the lock will not be reacquired before returning.
195The lock is used to ensure that a condition can be checked atomically,
196and that the current thread can be suspended without missing a
197change to the condition, or an associated wakeup.
198In addition, all of the sleep routines will fully drop the
199.Va Giant
200mutex
201(even if recursed)
202while the thread is suspended and will reacquire the
203.Va Giant
204mutex before the function returns.
205Note that the
206.Va Giant
207mutex may be specified as the lock to drop.
208In that case, however, the
209.Dv PDROP
210flag is not allowed.
211.Pp
212To avoid lost wakeups,
213either a lock should be used to protect against races,
214or a timeout should be specified to place an upper bound on the delay due
215to a lost wakeup.
216As a result,
217the
218.Fn tsleep
219function should only be invoked with a timeout of 0 when the
220.Va Giant
221mutex is held.
222.Pp
223The
224.Fn msleep
225function requires that
226.Fa mtx
227reference a default, i.e. non-spin, mutex.
228Its use is deprecated in favor of
229.Xr mtx_sleep 9
230which provides identical behavior.
231.Pp
232The
233.Fn msleep_spin
234function requires that
235.Fa mtx
236reference a spin mutex.
237The
238.Fn msleep_spin
239function does not accept a
240.Fa priority
241parameter and thus does not support changing the current thread's priority,
242the
243.Dv PDROP
244flag,
245or catching signals via the
246.Dv PCATCH
247flag.
248.Pp
249The
250.Fn pause
251function is a wrapper around
252.Fn tsleep
253that suspends execution of the current thread for the indicated timeout.
254The thread can not be awakened early by signals or calls to
255.Fn wakeup
256or
257.Fn wakeup_one .
258The
259.Fn pause_sig
260function is a variant of
261.Fn pause
262which can be awakened early by signals.
263.Pp
264The
265.Fn wakeup_one
266function makes the first thread in the queue that is sleeping on the
267parameter
268.Fa chan
269runnable.
270This reduces the load when a large number of threads are sleeping on
271the same address, but only one of them can actually do any useful work
272when made runnable.
273.Pp
274Due to the way it works, the
275.Fn wakeup_one
276function requires that only related threads sleep on a specific
277.Fa chan
278address.
279It is the programmer's responsibility to choose a unique
280.Fa chan
281value.
282The older
283.Fn wakeup
284function did not require this, though it was never good practice
285for threads to share a
286.Fa chan
287value.
288When converting from
289.Fn wakeup
290to
291.Fn wakeup_one ,
292pay particular attention to ensure that no other threads wait on the
293same
294.Fa chan .
295.Pp
296If the timeout given by
297.Fa timo
298or
299.Fa sbt
300is based on an absolute real-time clock value,
301then the thread should copy the global
302.Va rtc_generation
303into its
304.Va td_rtcgen
305member before reading the RTC.
306If the real-time clock is adjusted, these functions will set
307.Va td_rtcgen
308to zero and return zero.
309The caller should reconsider its orientation with the new RTC value.
310.Sh RETURN VALUES
311When awakened by a call to
312.Fn wakeup
313or
314.Fn wakeup_one ,
315if a signal is pending and
316.Dv PCATCH
317is specified,
318a non-zero error code is returned.
319If the thread is awakened by a call to
320.Fn wakeup
321or
322.Fn wakeup_one ,
323the
324.Fn msleep ,
325.Fn msleep_spin ,
326.Fn tsleep ,
327and locking primitive sleep functions return 0.
328Zero can also be returned when the real-time clock is adjusted;
329see above regarding
330.Va td_rtcgen .
331Otherwise, a non-zero error code is returned.
332.Sh ERRORS
333.Fn msleep ,
334.Fn msleep_spin ,
335.Fn tsleep ,
336and the locking primitive sleep functions will fail if:
337.Bl -tag -width Er
338.It Bq Er EINTR
339The
340.Dv PCATCH
341flag was specified, a signal was caught, and the system call should be
342interrupted.
343.It Bq Er ERESTART
344The
345.Dv PCATCH
346flag was specified, a signal was caught, and the system call should be
347restarted.
348.It Bq Er EWOULDBLOCK
349A non-zero timeout was specified and the timeout expired.
350.El
351.Sh SEE ALSO
352.Xr ps 1 ,
353.Xr locking 9 ,
354.Xr malloc 9 ,
355.Xr mi_switch 9 ,
356.Xr mtx_sleep 9 ,
357.Xr rw_sleep 9 ,
358.Xr sx_sleep 9 ,
359.Xr timeout 9
360.Sh HISTORY
361The functions
362.Fn sleep
363and
364.Fn wakeup
365were present in
366.At v1 .
367They were probably also present in the preceding
368PDP-7 version of
369.Ux .
370They were the basic process synchronization model.
371.Pp
372The
373.Fn tsleep
374function appeared in
375.Bx 4.4
376and added the parameters
377.Fa wmesg
378and
379.Fa timo .
380The
381.Fn sleep
382function was removed in
383.Fx 2.2 .
384The
385.Fn wakeup_one
386function appeared in
387.Fx 2.2 .
388The
389.Fn msleep
390function appeared in
391.Fx 5.0 ,
392and the
393.Fn msleep_spin
394function appeared in
395.Fx 6.2 .
396The
397.Fn pause
398function appeared in
399.Fx 7.0 .
400The
401.Fn pause_sig
402function appeared in
403.Fx 12.0 .
404.Sh AUTHORS
405.An -nosplit
406This manual page was written by
407.An J\(:org Wunsch Aq Mt joerg@FreeBSD.org .
408