xref: /freebsd/share/man/man9/rmlock.9 (revision f126890ac5386406dadf7c4cfa9566cbb56537c5)
1.\" Copyright (c) 2007 Stephan Uphoff <ups@FreeBSD.org>
2.\" Copyright (c) 2006 Gleb Smirnoff <glebius@FreeBSD.org>
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26.\" Based on rwlock.9 man page
27.Dd April 12, 2021
28.Dt RMLOCK 9
29.Os
30.Sh NAME
31.Nm rmlock ,
32.Nm rm_init ,
33.Nm rm_init_flags ,
34.Nm rm_destroy ,
35.Nm rm_rlock ,
36.Nm rm_try_rlock ,
37.Nm rm_wlock ,
38.Nm rm_runlock ,
39.Nm rm_wunlock ,
40.Nm rm_wowned ,
41.Nm rm_sleep ,
42.Nm rm_assert ,
43.Nm RM_SYSINIT ,
44.Nm RM_SYSINIT_FLAGS ,
45.Nm rms_init ,
46.Nm rms_destroy ,
47.Nm rms_rlock ,
48.Nm rms_wlock ,
49.Nm rms_runlock ,
50.Nm rms_wunlock
51.Nd kernel reader/writer lock optimized for read-mostly access patterns
52.Sh SYNOPSIS
53.In sys/param.h
54.In sys/lock.h
55.In sys/rmlock.h
56.Ft void
57.Fn rm_init "struct rmlock *rm" "const char *name"
58.Ft void
59.Fn rm_init_flags "struct rmlock *rm" "const char *name" "int opts"
60.Ft void
61.Fn rm_destroy "struct rmlock *rm"
62.Ft void
63.Fn rm_rlock "struct rmlock *rm"  "struct rm_priotracker* tracker"
64.Ft int
65.Fn rm_try_rlock "struct rmlock *rm"  "struct rm_priotracker* tracker"
66.Ft void
67.Fn rm_wlock "struct rmlock *rm"
68.Ft void
69.Fn rm_runlock "struct rmlock *rm" "struct rm_priotracker* tracker"
70.Ft void
71.Fn rm_wunlock "struct rmlock *rm"
72.Ft int
73.Fn rm_wowned "const struct rmlock *rm"
74.Ft int
75.Fn rm_sleep "void *wchan" "struct rmlock *rm" "int priority" "const char *wmesg" "int timo"
76.Pp
77.Cd "options INVARIANTS"
78.Cd "options INVARIANT_SUPPORT"
79.Ft void
80.Fn rm_assert "struct rmlock *rm" "int what"
81.In sys/kernel.h
82.Fn RM_SYSINIT "name" "struct rmlock *rm" "const char *desc"
83.Fn RM_SYSINIT_FLAGS "name" "struct rmlock *rm" "const char *desc" "int flags"
84.Ft void
85.Fn rms_init "struct rmslock *rms" "const char *name"
86.Ft void
87.Fn rms_destroy "struct rmslock *rms"
88.Ft void
89.Fn rms_rlock "struct rmslock *rms"
90.Ft void
91.Fn rms_wlock "struct rmslock *rms"
92.Ft void
93.Fn rms_runlock "struct rmslock *rms"
94.Ft void
95.Fn rms_wunlock "struct rmslock *rms"
96.Sh DESCRIPTION
97Read-mostly locks allow shared access to protected data by multiple threads,
98or exclusive access by a single thread.
99The threads with shared access are known as
100.Em readers
101since they only read the protected data.
102A thread with exclusive access is known as a
103.Em writer
104since it can modify protected data.
105.Pp
106Read-mostly locks are designed to be efficient for locks almost exclusively
107used as reader locks and as such should be used for protecting data that
108rarely changes.
109Acquiring an exclusive lock after the lock has been locked for shared access
110is an expensive operation.
111.Pp
112Normal read-mostly locks are similar to
113.Xr rwlock 9
114locks and follow the same lock ordering rules as
115.Xr rwlock 9
116locks.
117Read-mostly locks have full priority propagation like mutexes.
118Unlike
119.Xr rwlock 9 ,
120read-mostly locks propagate priority to both readers and writers.
121This is implemented via the
122.Va rm_priotracker
123structure argument supplied to
124.Fn rm_rlock
125and
126.Fn rm_runlock .
127Readers can recurse if the lock is initialized with the
128.Dv RM_RECURSE
129option;
130however, writers are never allowed to recurse.
131.Pp
132Sleeping for writers can be allowed by passing
133.Dv RM_SLEEPABLE
134to
135.Fn rm_init_flags .
136It changes lock ordering rules to the same as for
137.Xr sx 9
138locks.
139They do not propagate priority to writers, but they do propagate priority to readers.
140Note that readers are not permitted to sleep regardless of the flag.
141.Pp
142Sleepable read-mostly locks (created with
143.Fn rms_init )
144allow sleeping for both readers and writers, but don't do priority propagation
145for either.
146They follow
147.Xr sx 9
148lock ordering.
149.Ss Macros and Functions
150.Bl -tag -width indent
151.It Fn rm_init "struct rmlock *rm" "const char *name"
152Initialize the read-mostly lock
153.Fa rm .
154The
155.Fa name
156description is used solely for debugging purposes.
157This function must be called before any other operations
158on the lock.
159.It Fn rm_init_flags "struct rmlock *rm" "const char *name" "int opts"
160Similar to
161.Fn rm_init ,
162initialize the read-mostly lock
163.Fa rm
164with a set of optional flags.
165The
166.Fa opts
167arguments contains one or more of the following flags:
168.Bl -tag -width ".Dv RM_NOWITNESS"
169.It Dv RM_NOWITNESS
170Instruct
171.Xr witness 4
172to ignore this lock.
173.It Dv RM_RECURSE
174Allow threads to recursively acquire shared locks for
175.Fa rm .
176.It Dv RM_SLEEPABLE
177Create a sleepable read-mostly lock.
178.It Dv RM_NEW
179If the kernel has been compiled with
180.Cd "option INVARIANTS" ,
181.Fn rm_init_flags
182will assert that the
183.Fa rm
184has not been initialized multiple times without intervening calls to
185.Fn rm_destroy
186unless this option is specified.
187.It Dv RM_DUPOK
188.Xr witness 4
189should not log messages about duplicate locks being acquired.
190.El
191.It Fn rm_rlock "struct rmlock *rm" "struct rm_priotracker* tracker"
192Lock
193.Fa rm
194as a reader using
195.Fa tracker
196to track read owners of a lock for priority propagation.
197This data structure is only used internally by
198.Nm
199and must persist until
200.Fn rm_runlock
201has been called.
202This data structure can be allocated on the stack since
203readers cannot sleep.
204If any thread holds this lock exclusively, the current thread blocks,
205and its priority is propagated to the exclusive holder.
206If the lock was initialized with the
207.Dv RM_RECURSE
208option the
209.Fn rm_rlock
210function can be called when the current thread has already acquired reader
211access on
212.Fa rm .
213.It Fn rm_try_rlock "struct rmlock *rm" "struct rm_priotracker* tracker"
214Try to lock
215.Fa rm
216as a reader.
217.Fn rm_try_rlock
218will return 0 if the lock cannot be acquired immediately;
219otherwise,
220the lock will be acquired and a non-zero value will be returned.
221Note that
222.Fn rm_try_rlock
223may fail even while the lock is not currently held by a writer.
224If the lock was initialized with the
225.Dv RM_RECURSE
226option,
227.Fn rm_try_rlock
228will succeed if the current thread has already acquired reader access.
229.It Fn rm_wlock "struct rmlock *rm"
230Lock
231.Fa rm
232as a writer.
233If there are any shared owners of the lock, the current thread blocks.
234The
235.Fn rm_wlock
236function cannot be called recursively.
237.It Fn rm_runlock "struct rmlock *rm" "struct rm_priotracker* tracker"
238This function releases a shared lock previously acquired by
239.Fn rm_rlock .
240The
241.Fa tracker
242argument must match the
243.Fa tracker
244argument used for acquiring the shared lock
245.It Fn rm_wunlock "struct rmlock *rm"
246This function releases an exclusive lock previously acquired by
247.Fn rm_wlock .
248.It Fn rm_destroy "struct rmlock *rm"
249This functions destroys a lock previously initialized with
250.Fn rm_init .
251The
252.Fa rm
253lock must be unlocked.
254.It Fn rm_wowned "const struct rmlock *rm"
255This function returns a non-zero value if the current thread owns an
256exclusive lock on
257.Fa rm .
258.It Fn rm_sleep "void *wchan" "struct rmlock *rm" "int priority" "const char *wmesg" "int timo"
259This function atomically releases
260.Fa rm
261while waiting for an event.
262The
263.Fa rm
264lock must be exclusively locked.
265For more details on the parameters to this function,
266see
267.Xr sleep 9 .
268.It Fn rm_assert "struct rmlock *rm" "int what"
269This function asserts that the
270.Fa rm
271lock is in the state specified by
272.Fa what .
273If the assertions are not true and the kernel is compiled with
274.Cd "options INVARIANTS"
275and
276.Cd "options INVARIANT_SUPPORT" ,
277the kernel will panic.
278Currently the following base assertions are supported:
279.Bl -tag -width ".Dv RA_UNLOCKED"
280.It Dv RA_LOCKED
281Assert that current thread holds either a shared or exclusive lock
282of
283.Fa rm .
284.It Dv RA_RLOCKED
285Assert that current thread holds a shared lock of
286.Fa rm .
287.It Dv RA_WLOCKED
288Assert that current thread holds an exclusive lock of
289.Fa rm .
290.It Dv RA_UNLOCKED
291Assert that current thread holds neither a shared nor exclusive lock of
292.Fa rm .
293.El
294.Pp
295In addition, one of the following optional flags may be specified with
296.Dv RA_LOCKED ,
297.Dv RA_RLOCKED ,
298or
299.Dv RA_WLOCKED :
300.Bl -tag -width ".Dv RA_NOTRECURSED"
301.It Dv RA_RECURSED
302Assert that the current thread holds a recursive lock of
303.Fa rm .
304.It Dv RA_NOTRECURSED
305Assert that the current thread does not hold a recursive lock of
306.Fa rm .
307.El
308.El
309.Bl -tag -width indent
310.It Fn rms_init "struct rmslock *rms" "const char *name"
311Initialize the sleepable read-mostly lock
312.Fa rms .
313The
314.Fa name
315description is used as
316.Fa wmesg
317parameter to the
318.Xr msleep 9
319routine.
320This function must be called before any other operations on the lock.
321.It Fn rms_rlock "struct rmlock *rm"
322Lock
323.Fa rms
324as a reader.
325If any thread holds this lock exclusively, the current thread blocks.
326.It Fn rms_wlock "struct rmslock *rms"
327Lock
328.Fa rms
329as a writer.
330If the lock is already taken, the current thread blocks.
331The
332.Fn rms_wlock
333function cannot be called recursively.
334.It Fn rms_runlock "struct rmslock *rms"
335This function releases a shared lock previously acquired by
336.Fn rms_rlock .
337.It Fn rms_wunlock "struct rmslock *rms"
338This function releases an exclusive lock previously acquired by
339.Fn rms_wlock .
340.It Fn rms_destroy "struct rmslock *rms"
341This functions destroys a lock previously initialized with
342.Fn rms_init .
343The
344.Fa rms
345lock must be unlocked.
346.El
347.Sh SEE ALSO
348.Xr locking 9 ,
349.Xr mutex 9 ,
350.Xr panic 9 ,
351.Xr rwlock 9 ,
352.Xr sema 9 ,
353.Xr sleep 9 ,
354.Xr sx 9
355.Sh HISTORY
356These functions appeared in
357.Fx 7.0 .
358.Sh AUTHORS
359.An -nosplit
360The
361.Nm
362facility was written by
363.An "Stephan Uphoff" .
364This manual page was written by
365.An "Gleb Smirnoff"
366for rwlock and modified to reflect rmlock by
367.An "Stephan Uphoff" .
368.Sh BUGS
369The
370.Nm
371implementation is currently not optimized for single processor systems.
372.Pp
373.Fn rm_try_rlock
374can fail transiently even when there is no writer, while another reader
375updates the state on the local CPU.
376.Pp
377The
378.Nm
379implementation uses a single per CPU list shared by all
380rmlocks in the system.
381If rmlocks become popular, hashing to multiple per CPU queues may
382be needed to speed up the writer lock process.
383