xref: /freebsd/share/man/man9/alq.9 (revision ab393e9548f8cc0ee28499c411963b798ebb38a5)
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32.Dd April 26, 2010
33.Dt ALQ 9
34.Os
35.Sh NAME
36.Nm alq ,
37.Nm alq_open_flags ,
38.Nm alq_open ,
39.Nm alq_writen ,
40.Nm alq_write ,
41.Nm alq_flush ,
42.Nm alq_close ,
43.Nm alq_getn ,
44.Nm alq_get ,
45.Nm alq_post_flags ,
46.Nm alq_post
47.Nd Asynchronous Logging Queues
48.Sh SYNOPSIS
49.In sys/alq.h
50.Ft int
51.Fo alq_open_flags
52.Fa "struct alq **app"
53.Fa "const char *file"
54.Fa "struct ucred *cred"
55.Fa "int cmode"
56.Fa "int size"
57.Fa "int flags"
58.Fc
59.Ft int
60.Fo alq_open
61.Fa "struct alq **app"
62.Fa "const char *file"
63.Fa "struct ucred *cred"
64.Fa "int cmode"
65.Fa "int size"
66.Fa "int count"
67.Fc
68.Ft int
69.Fn alq_writen "struct alq *alq" "void *data" "int len" "int flags"
70.Ft int
71.Fn alq_write "struct alq *alq" "void *data" "int flags"
72.Ft void
73.Fn alq_flush "struct alq *alq"
74.Ft void
75.Fn alq_close "struct alq *alq"
76.Ft struct ale *
77.Fn alq_getn "struct alq *alq" "int len" "int flags"
78.Ft struct ale *
79.Fn alq_get "struct alq *alq" "int flags"
80.Ft void
81.Fn alq_post_flags "struct alq *alq" "struct ale *ale" "int flags"
82.Ft void
83.Fn alq_post "struct alq *alq" "struct ale *ale"
84.Sh DESCRIPTION
85The
86.Nm
87facility provides an asynchronous fixed or variable length recording
88mechanism, known as Asynchronous Logging Queues.
89It can record to any
90.Xr vnode 9 ,
91thus providing the ability to journal logs to character
92devices as well as regular files.
93All functions accept a
94.Vt "struct alq"
95argument, which is an opaque type that maintains state information
96for an Asynchronous Logging Queue.
97The logging facility runs in a separate kernel thread, which services
98all log entry requests.
99.Pp
100An
101.Dq asynchronous log entry
102is defined as
103.Vt "struct ale" ,
104which has the following members:
105.Bd -literal -offset indent
106struct ale {
107	intptr_t	ae_bytesused;	/* # bytes written to ALE. */
108	char		*ae_data;	/* Write ptr. */
109	int		ae_pad;		/* Unused, compat. */
110};
111.Ed
112.Pp
113An
114.Nm
115can be created in either fixed or variable length mode.
116A variable length
117.Nm
118accommodates writes of varying length using
119.Fn alq_writen
120and
121.Fn alq_getn .
122A fixed length
123.Nm
124accommodates a fixed number of writes using
125.Fn alq_write
126and
127.Fn alq_get ,
128each of fixed size (set at queue creation time).
129Fixed length mode is deprecated in favour of variable length mode.
130.Sh FUNCTIONS
131The
132.Fn alq_open_flags
133function creates a new variable length asynchronous logging queue.
134The
135.Fa file
136argument is the name of the file to open for logging.
137If the file does not yet exist,
138.Fn alq_open
139will attempt to create it.
140The
141.Fa cmode
142argument will be passed to
143.Fn vn_open
144as the requested creation mode, to be used if the file will be created by
145.Fn alq_open .
146Consumers of this API may wish to pass
147.Dv ALQ_DEFAULT_CMODE ,
148a default creation mode suitable for most applications.
149The
150.Fa cred
151argument specifies the credentials to use when opening and performing I/O on the file.
152The
153.Fa size
154argument sets the size (in bytes) of the underlying queue.
155The ALQ_ORDERED flag may be passed in via
156.Fa flags
157to indicate that the ordering of writer threads waiting for a busy
158.Nm
159to free up resources should be preserved.
160.Pp
161The deprecated
162.Fn alq_open
163function is implemented as a wrapper around
164.Fn alq_open_flags
165to provide backwards compatibility to consumers that have not been updated to
166utilise the newer
167.Fn alq_open_flags
168function.
169It passes all arguments through to
170.Fn alq_open_flags
171untouched except for
172.Fa size
173and
174.Fa count ,
175and sets
176.Fa flags
177to 0.
178To create a variable length mode
179.Nm ,
180the
181.Fa size
182argument should be set to the size (in bytes) of the underlying queue and the
183.Fa count
184argument should be set to 0.
185To create a fixed length mode
186.Nm ,
187the
188.Fa size
189argument should be set to the size (in bytes) of each write and the
190.Fa count
191argument should be set to the number of
192.Fa size
193byte chunks to reserve capacity for.
194.Pp
195The
196.Fn alq_writen
197function writes
198.Fa len
199bytes from
200.Fa data
201to the designated variable length mode queue
202.Fa alq .
203If
204.Fn alq_writen
205could not write the entry immediately and
206.Dv ALQ_WAITOK
207is set in
208.Fa flags ,
209the function will be allowed to
210.Xr msleep_spin 9
211with the
212.Dq Li alqwnord
213or
214.Dq Li alqwnres
215wait message.
216A write will automatically schedule the queue
217.Fa alq
218to be flushed to disk.
219This behaviour can be controlled by passing ALQ_NOACTIVATE via
220.Fa flags
221to indicate that the write should not schedule
222.Fa alq
223to be flushed to disk.
224.Pp
225The deprecated
226.Fn alq_write
227function is implemented as a wrapper around
228.Fn alq_writen
229to provide backwards compatibility to consumers that have not been updated to
230utilise variable length mode queues.
231The function will write
232.Fa size
233bytes of data (where
234.Fa size
235was specified at queue creation time) from the
236.Fa data
237buffer to the
238.Fa alq .
239Note that it is an error to call
240.Fn alq_write
241on a variable length mode queue.
242.Pp
243The
244.Fn alq_flush
245function is used for flushing
246.Fa alq
247to the log medium that was passed to
248.Fn alq_open .
249If
250.Fa alq
251has data to flush and is not already in the process of being flushed, the
252function will block doing IO.
253Otherwise, the function will return immediately.
254.Pp
255The
256.Fn alq_close
257function will close the asynchronous logging queue
258.Fa alq
259and flush all pending write requests to the log medium.
260It will free all resources that were previously allocated.
261.Pp
262The
263.Fn alq_getn
264function returns an asynchronous log entry from
265.Fa alq ,
266initialised to point at a buffer capable of receiving
267.Fa len
268bytes of data.
269This function leaves
270.Fa alq
271in a locked state, until a subsequent
272.Fn alq_post
273or
274.Fn alq_post_flags
275call is made.
276If
277.Fn alq_getn
278could not obtain
279.Fa len
280bytes of buffer immediately and
281.Dv ALQ_WAITOK
282is set in
283.Fa flags ,
284the function will be allowed to
285.Xr msleep_spin 9
286with the
287.Dq Li alqgnord
288or
289.Dq Li alqgnres
290wait message.
291The caller can choose to write less than
292.Fa len
293bytes of data to the returned asynchronous log entry by setting the entry's
294ae_bytesused field to the number of bytes actually written.
295This must be done prior to calling
296.Fn alq_post .
297.Pp
298The deprecated
299.Fn alq_get
300function is implemented as a wrapper around
301.Fn alq_getn
302to provide backwards compatibility to consumers that have not been updated to
303utilise variable length mode queues.
304The asynchronous log entry returned will be initialised to point at a buffer
305capable of receiving
306.Fa size
307bytes of data (where
308.Fa size
309was specified at queue creation time).
310Note that it is an error to call
311.Fn alq_get
312on a variable length mode queue.
313.Pp
314The
315.Fn alq_post_flags
316function schedules the asynchronous log entry
317.Fa ale
318(obtained from
319.Fn alq_getn
320or
321.Fn alq_get )
322for writing to
323.Fa alq .
324The ALQ_NOACTIVATE flag may be passed in via
325.Fa flags
326to indicate that the queue should not be immediately scheduled to be flushed to
327disk.
328This function leaves
329.Fa alq
330in an unlocked state.
331.Pp
332The
333.Fn alq_post
334function is implemented as a wrapper around
335.Fn alq_post_flags
336to provide backwards compatibility to consumers that have not been updated to
337utilise the newer
338.Fn alq_post_flags
339function.
340It simply passes all arguments through to
341.Fn alq_post_flags
342untouched, and sets
343.Fa flags
344to 0.
345.Sh IMPLEMENTATION NOTES
346The
347.Fn alq_writen
348and
349.Fn alq_write
350functions both perform a
351.Xr bcopy 3
352from the supplied
353.Fa data
354buffer into the underlying
355.Nm
356buffer.
357Performance critical code paths may wish to consider using
358.Fn alq_getn
359(variable length queues) or
360.Fn alq_get
361(fixed length queues) to avoid the extra memory copy.
362Note that a queue remains locked between calls to
363.Fn alq_getn
364or
365.Fn alq_get
366and
367.Fn alq_post
368or
369.Fn alq_post_flags ,
370so this method of writing to a queue is unsuitable for situations where the
371time between calls may be substantial.
372.Sh LOCKING
373Each asynchronous logging queue is protected by a spin mutex.
374.Pp
375Functions
376.Fn alq_flush
377and
378.Fn alq_open
379may attempt to acquire an internal sleep mutex, and should
380consequently not be used in contexts where sleeping is
381not allowed.
382.Sh RETURN VALUES
383The
384.Fn alq_open
385function returns one of the error codes listed in
386.Xr open 2 ,
387if it fails to open
388.Fa file ,
389or else it returns 0.
390.Pp
391The
392.Fn alq_writen
393and
394.Fn alq_write
395functions return
396.Er EWOULDBLOCK
397if
398.Dv ALQ_NOWAIT
399was set in
400.Fa flags
401and either the queue is full or the system is shutting down.
402.Pp
403The
404.Fn alq_getn
405and
406.Fn alq_get
407functions return
408.Dv NULL
409if
410.Dv ALQ_NOWAIT
411was set in
412.Fa flags
413and either the queue is full or the system is shutting down.
414.Pp
415NOTE: invalid arguments to non-void functions will result in
416undefined behaviour.
417.Sh SEE ALSO
418.Xr syslog 3 ,
419.Xr kproc 9 ,
420.Xr ktr 9 ,
421.Xr msleep_spin 9 ,
422.Xr vnode 9
423.Sh HISTORY
424The
425Asynchronous Logging Queues (ALQ) facility first appeared in
426.Fx 5.0 .
427.Sh AUTHORS
428.An -nosplit
429The
430.Nm
431facility was written by
432.An Jeffrey Roberson Aq Mt jeff@FreeBSD.org
433and extended by
434.An Lawrence Stewart Aq Mt lstewart@freebsd.org .
435.Pp
436This manual page was written by
437.An Hiten Pandya Aq Mt hmp@FreeBSD.org
438and revised by
439.An Lawrence Stewart Aq Mt lstewart@freebsd.org .
440