xref: /freebsd/share/man/man9/g_bio.9 (revision 2e3f49888ec8851bafb22011533217487764fdb0)
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25.Dd August 7, 2019
26.Dt G_BIO 9
27.Os
28.Sh NAME
29.Nm g_new_bio ,
30.Nm g_clone_bio ,
31.Nm g_destroy_bio ,
32.Nm g_format_bio ,
33.Nm g_print_bio ,
34.Nm g_reset_bio
35.Nd "GEOM bio controlling functions"
36.Sh SYNOPSIS
37.In sys/bio.h
38.In geom/geom.h
39.Ft "struct bio *"
40.Fn g_new_bio void
41.Ft "struct bio *"
42.Fn g_alloc_bio void
43.Ft "struct bio *"
44.Fn g_clone_bio "struct bio *bp"
45.Ft "struct bio *"
46.Fn g_duplicate_bio "struct bio *bp"
47.Ft void
48.Fn g_destroy_bio "struct bio *bp"
49.Ft void
50.Fn g_format_bio "struct sbuf *sb" "const struct bio *bp"
51.Ft void
52.Fo g_print_bio
53.Fa "struct sbuf *sb" "const char *prefix" "const struct bio *bp"
54.Fa "const char *fmtsuffix" ...
55.Fc
56.Ft void
57.Fn g_reset_bio "struct bio *bp"
58.Sh DESCRIPTION
59A
60.Vt "struct bio"
61is used by GEOM to describe I/O requests, its
62most important fields are described below:
63.Bl -tag -width ".Va bio_attribute"
64.It Va bio_cmd
65I/O request command.
66There are five I/O requests available in GEOM:
67.Bl -tag -width ".Dv BIO_GETATTR"
68.It Dv BIO_READ
69A read request.
70.It Dv BIO_WRITE
71A write request.
72.It Dv BIO_DELETE
73Indicates that a certain range of data is no longer used and that
74it can be erased or freed as the underlying technology supports.
75Technologies like flash adaptation layers can arrange to erase the relevant
76blocks before they will become reassigned and cryptographic devices may
77want to fill random bits into the range to reduce the amount of data
78available for attack.
79.It Dv BIO_GETATTR
80Inspect and manipulate out-of-band
81attributes on a particular provider or path.
82Attributes are named by ascii strings and are stored in the
83.Va bio_attribute
84field.
85.It Dv BIO_FLUSH
86Tells underlying providers to flush their write caches.
87.El
88.It Va bio_flags
89Available flags:
90.Bl -tag -width ".Dv BIO_ERROR"
91.It Dv BIO_ERROR
92Request failed (error value is stored in
93.Va bio_error
94field).
95.It Dv BIO_DONE
96Request finished.
97.El
98.It Va bio_cflags
99Private use by the consumer.
100.It Va bio_pflags
101Private use by the provider.
102.It Va bio_offset
103Offset into provider.
104.It Va bio_data
105Pointer to data buffer.
106.It Va bio_error
107Error value when
108.Dv BIO_ERROR
109is set.
110.It Va bio_done
111Pointer to function which will be called when the request is finished.
112.It Va bio_driver1
113Private use by the provider.
114.It Va bio_driver2
115Private use by the provider.
116.It Va bio_caller1
117Private use by the consumer.
118.It Va bio_caller2
119Private use by the consumer.
120.It Va bio_attribute
121Attribute string for
122.Dv BIO_GETATTR
123request.
124.It Va bio_from
125Consumer to use for request (attached to provider stored in
126.Va bio_to
127field) (typically read-only for a class).
128.It Va bio_to
129Destination provider (typically read-only for a class).
130.It Va bio_length
131Request length in bytes.
132.It Va bio_completed
133Number of bytes completed, but they may not be completed from
134the front of the request.
135.It Va bio_children
136Number of
137.Vt bio
138clones (typically read-only for a class).
139.It Va bio_inbed
140Number of finished
141.Vt bio
142clones.
143.It Va bio_parent
144Pointer to parent
145.Vt bio .
146.El
147.Pp
148The
149.Fn g_new_bio
150function allocates a new, empty
151.Vt bio
152structure.
153.Pp
154.Fn g_alloc_bio
155- same as
156.Fn g_new_bio ,
157but always succeeds (allocates bio with the
158.Dv M_WAITOK
159malloc flag).
160.Pp
161The
162.Fn g_clone_bio
163function allocates a new
164.Vt bio
165structure and copies the following fields from the
166.Vt bio
167given as an argument to clone:
168.Va bio_cmd ,
169.Va bio_length ,
170.Va bio_offset ,
171.Va bio_data ,
172.Va bio_attribute .
173The field
174.Va bio_parent
175in the clone points to the passed
176.Vt bio
177and the field
178.Va bio_children
179in the passed
180.Vt bio
181is incremented.
182.Pp
183This function should be used for every request which enters through
184the provider of a particular geom and needs to be scheduled down.
185Proper order is:
186.Pp
187.Bl -enum -compact
188.It
189Clone the received
190.Vt "struct bio" .
191.It
192Modify the clone.
193.It
194Schedule the clone on its own consumer.
195.El
196.Pp
197.Fn g_duplicate_bio
198- same as
199.Fn g_clone_bio ,
200but always succeeds (allocates bio with the
201.Dv M_WAITOK
202malloc flag).
203.Pp
204The
205.Fn g_destroy_bio
206function deallocates and destroys the given
207.Vt bio
208structure.
209.Pp
210The
211.Fn g_format_bio
212function prints information about the given
213.Vt bio
214structure into the provided
215.Vt sbuf .
216.Pp
217The
218.Fn g_print_bio
219function is a convenience wrapper around
220.Fn g_format_bio
221that can be used for debugging purposes.
222It prints a provided
223.Fa prefix
224string, followed by the formatted
225.Vt bio ,
226followed by a
227.Fa fmtsuffix
228in the style of
229.Xr printf 9 .
230Any of the prefix or suffix strings may be the empty string.
231.Fn g_print_bio
232always prints a newline character at the end of the line.
233.Pp
234The
235.Fn g_reset_bio
236function resets the given
237.Vt bio
238structure back to its initial state.
239.Fn g_reset_bio
240preserves internal data structures, while setting all
241user visible fields to their initial values.
242When reusing a
243.Vt bio
244obtained from
245.Fn g_new_bio ,
246.Fn g_alloc_bio ,
247.Fn g_clone_bio ,
248or
249.Fn g_duplicate_bio
250for multiple transactions,
251.Fn g_reset_bio
252must be called between the transactions in lieu of
253.Fn bzero .
254While not strictly required for a
255.Vt bio
256structure created by other means,
257.Fn g_reset_bio
258should be used to initialize it and between transactions.
259.Sh RETURN VALUES
260The
261.Fn g_new_bio
262and
263.Fn g_clone_bio
264functions return a pointer to the allocated
265.Vt bio ,
266or
267.Dv NULL
268if an error occurred.
269.Sh EXAMPLES
270Implementation of
271.Dq Dv NULL Ns -transformation ,
272meaning that an I/O request is cloned and scheduled down without any
273modifications.
274Let us assume that field
275.Va ex_consumer
276in structure
277.Vt example_softc
278contains a consumer attached to the provider we want to operate on.
279.Bd -literal -offset indent
280void
281example_start(struct bio *bp)
282{
283	struct example_softc *sc;
284	struct bio *cbp;
285
286	g_print_bio("Request received: ", bp, "");
287
288	sc = bp->bio_to->geom->softc;
289	if (sc == NULL) {
290		g_io_deliver(bp, ENXIO);
291		return;
292	}
293
294	/* Let's clone our bio request. */
295	cbp = g_clone_bio(bp);
296	if (cbp == NULL) {
297		g_io_deliver(bp, ENOMEM);
298		return;
299	}
300	cbp->bio_done = g_std_done;	/* Standard 'done' function. */
301
302	/* Ok, schedule it down. */
303	/*
304	 * The consumer can be obtained from
305	 * LIST_FIRST(&bp->bio_to->geom->consumer) as well,
306	 * if there is only one in our geom.
307	 */
308	g_io_request(cbp, sc->ex_consumer);
309}
310.Ed
311.Sh SEE ALSO
312.Xr geom 4 ,
313.Xr DECLARE_GEOM_CLASS 9 ,
314.Xr g_access 9 ,
315.Xr g_attach 9 ,
316.Xr g_consumer 9 ,
317.Xr g_data 9 ,
318.Xr g_event 9 ,
319.Xr g_geom 9 ,
320.Xr g_provider 9 ,
321.Xr g_provider_by_name 9 ,
322.Xr g_wither_geom 9
323.Sh AUTHORS
324.An -nosplit
325This manual page was written by
326.An Pawel Jakub Dawidek Aq Mt pjd@FreeBSD.org .
327