xref: /freebsd/share/man/man9/sbuf.9 (revision 0b3105a37d7adcadcb720112fed4dc4e8040be99)
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2.\" Copyright (c) 2000 Poul-Henning Kamp and Dag-Erling Coïdan Smørgrav
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26.\" $FreeBSD$
27.\"
28.Dd March 14, 2015
29.Dt SBUF 9
30.Os
31.Sh NAME
32.Nm sbuf ,
33.Nm sbuf_new ,
34.Nm sbuf_new_auto ,
35.Nm sbuf_new_for_sysctl ,
36.Nm sbuf_clear ,
37.Nm sbuf_get_flags ,
38.Nm sbuf_set_flags ,
39.Nm sbuf_clear_flags ,
40.Nm sbuf_setpos ,
41.Nm sbuf_bcat ,
42.Nm sbuf_bcopyin ,
43.Nm sbuf_bcpy ,
44.Nm sbuf_cat ,
45.Nm sbuf_copyin ,
46.Nm sbuf_cpy ,
47.Nm sbuf_printf ,
48.Nm sbuf_vprintf ,
49.Nm sbuf_putc ,
50.Nm sbuf_set_drain ,
51.Nm sbuf_trim ,
52.Nm sbuf_error ,
53.Nm sbuf_finish ,
54.Nm sbuf_data ,
55.Nm sbuf_len ,
56.Nm sbuf_done ,
57.Nm sbuf_delete ,
58.Nm sbuf_start_section ,
59.Nm sbuf_end_section ,
60.Nm sbuf_hexdump
61.Nd safe string composition
62.Sh SYNOPSIS
63.In sys/types.h
64.In sys/sbuf.h
65.Ft typedef\ int ( sbuf_drain_func ) ( void\ *arg, const\ char\ *data, int\ len ) ;
66.Pp
67.Ft struct sbuf *
68.Fn sbuf_new "struct sbuf *s" "char *buf" "int length" "int flags"
69.Ft struct sbuf *
70.Fn sbuf_new_auto
71.Ft void
72.Fn sbuf_clear "struct sbuf *s"
73.Ft int
74.Fn sbuf_get_flags "struct sbuf *s"
75.Ft void
76.Fn sbuf_set_flags "struct sbuf *s" "int flags"
77.Ft void
78.Fn sbuf_clear_flags "struct sbuf *s" "int flags"
79.Ft int
80.Fn sbuf_setpos "struct sbuf *s" "int pos"
81.Ft int
82.Fn sbuf_bcat "struct sbuf *s" "const void *buf" "size_t len"
83.Ft int
84.Fn sbuf_bcopyin "struct sbuf *s" "const void *uaddr" "size_t len"
85.Ft int
86.Fn sbuf_bcpy "struct sbuf *s" "const void *buf" "size_t len"
87.Ft int
88.Fn sbuf_cat "struct sbuf *s" "const char *str"
89.Ft int
90.Fn sbuf_copyin "struct sbuf *s" "const void *uaddr" "size_t len"
91.Ft int
92.Fn sbuf_cpy "struct sbuf *s" "const char *str"
93.Ft int
94.Fn sbuf_printf "struct sbuf *s" "const char *fmt" "..."
95.Ft int
96.Fn sbuf_vprintf "struct sbuf *s" "const char *fmt" "va_list ap"
97.Ft int
98.Fn sbuf_putc "struct sbuf *s" "int c"
99.Ft void
100.Fn sbuf_set_drain "struct sbuf *s" "sbuf_drain_func *func" "void *arg"
101.Ft int
102.Fn sbuf_trim "struct sbuf *s"
103.Ft int
104.Fn sbuf_error "struct sbuf *s"
105.Ft int
106.Fn sbuf_finish "struct sbuf *s"
107.Ft char *
108.Fn sbuf_data "struct sbuf *s"
109.Ft ssize_t
110.Fn sbuf_len "struct sbuf *s"
111.Ft int
112.Fn sbuf_done "struct sbuf *s"
113.Ft void
114.Fn sbuf_delete "struct sbuf *s"
115.Ft void
116.Fn sbuf_start_section "struct sbuf *s" "ssize_t *old_lenp"
117.Ft ssize_t
118.Fn sbuf_end_section "struct sbuf *s" "ssize_t old_len" "size_t pad" "int c"
119.Ft void
120.Fo sbuf_hexdump
121.Fa "struct sbuf *sb"
122.Fa "void *ptr"
123.Fa "int length"
124.Fa "const char *hdr"
125.Fa "int flags"
126.Fc
127.In sys/sysctl.h
128.Ft struct sbuf *
129.Fn sbuf_new_for_sysctl "struct sbuf *s" "char *buf" "int length" "struct sysctl_req *req"
130.Sh DESCRIPTION
131The
132.Nm
133family of functions allows one to safely allocate, compose and
134release strings in kernel or user space.
135.Pp
136Instead of arrays of characters, these functions operate on structures
137called
138.Fa sbufs ,
139defined in
140.In sys/sbuf.h .
141.Pp
142Any errors encountered during the allocation or composition of the
143string will be latched in the data structure,
144making a single error test at the end of the composition
145sufficient to determine success or failure of the entire process.
146.Pp
147The
148.Fn sbuf_new
149function initializes the
150.Fa sbuf
151pointed to by its first argument.
152If that pointer is
153.Dv NULL ,
154.Fn sbuf_new
155allocates a
156.Vt struct sbuf
157using
158.Xr malloc 9 .
159The
160.Fa buf
161argument is a pointer to a buffer in which to store the actual string;
162if it is
163.Dv NULL ,
164.Fn sbuf_new
165will allocate one using
166.Xr malloc 9 .
167The
168.Fa length
169is the initial size of the storage buffer.
170The fourth argument,
171.Fa flags ,
172may be comprised of the following flags:
173.Bl -tag -width ".Dv SBUF_AUTOEXTEND"
174.It Dv SBUF_FIXEDLEN
175The storage buffer is fixed at its initial size.
176Attempting to extend the sbuf beyond this size results in an overflow condition.
177.It Dv SBUF_AUTOEXTEND
178This indicates that the storage buffer may be extended as necessary, so long
179as resources allow, to hold additional data.
180.It Dv SBUF_INCLUDENUL
181This causes the final nulterm byte to be counted in the length of the data.
182.El
183.Pp
184Note that if
185.Fa buf
186is not
187.Dv NULL ,
188it must point to an array of at least
189.Fa length
190characters.
191The result of accessing that array directly while it is in use by the
192sbuf is undefined.
193.Pp
194The
195.Fn sbuf_new_auto
196function is a shortcut for creating a completely dynamic
197.Nm .
198It is the equivalent of calling
199.Fn sbuf_new
200with values
201.Dv NULL ,
202.Dv NULL ,
203.Dv 0 ,
204and
205.Dv SBUF_AUTOEXTEND .
206.Pp
207The
208.Fn sbuf_new_for_sysctl
209function will set up an sbuf with a drain function to use
210.Fn SYSCTL_OUT
211when the internal buffer fills.
212Note that if the various functions which append to an sbuf are used while
213a non-sleepable lock is held, the user buffer should be wired using
214.Fn sysctl_wire_old_buffer .
215.Pp
216The
217.Fn sbuf_delete
218function clears the
219.Fa sbuf
220and frees any memory allocated for it.
221There must be a call to
222.Fn sbuf_delete
223for every call to
224.Fn sbuf_new .
225Any attempt to access the sbuf after it has been deleted will fail.
226.Pp
227The
228.Fn sbuf_clear
229function invalidates the contents of the
230.Fa sbuf
231and resets its position to zero.
232.Pp
233The
234.Fn sbuf_get_flags
235function returns the current user flags.
236The
237.Fn sbuf_set_flags
238and
239.Fn sbuf_get_flags
240functions set or clear one or more user flags, respectively.
241The user flags are described under the
242.Fn sbuf_new
243function.
244.Pp
245The
246.Fn sbuf_setpos
247function sets the
248.Fa sbuf Ns 's
249end position to
250.Fa pos ,
251which is a value between zero and one less than the size of the
252storage buffer.
253This effectively truncates the sbuf at the new position.
254.Pp
255The
256.Fn sbuf_bcat
257function appends the first
258.Fa len
259bytes from the buffer
260.Fa buf
261to the
262.Fa sbuf .
263.Pp
264The
265.Fn sbuf_bcopyin
266function copies
267.Fa len
268bytes from the specified userland address into the
269.Fa sbuf .
270.Pp
271The
272.Fn sbuf_bcpy
273function replaces the contents of the
274.Fa sbuf
275with the first
276.Fa len
277bytes from the buffer
278.Fa buf .
279.Pp
280The
281.Fn sbuf_cat
282function appends the NUL-terminated string
283.Fa str
284to the
285.Fa sbuf
286at the current position.
287.Pp
288The
289.Fn sbuf_set_drain
290function sets a drain function
291.Fa func
292for the
293.Fa sbuf ,
294and records a pointer
295.Fa arg
296to be passed to the drain on callback.
297The drain function cannot be changed while
298.Fa sbuf_len
299is non-zero.
300.Pp
301The registered drain function
302.Vt sbuf_drain_func
303will be called with the argument
304.Fa arg
305provided to
306.Fn sbuf_set_drain ,
307a pointer
308.Fa data
309to a byte string that is the contents of the sbuf, and the length
310.Fa len
311of the data.
312If the drain function exists, it will be called when the sbuf internal
313buffer is full, or on behalf of
314.Fn sbuf_finish .
315The drain function may drain some or all of the data, but must drain
316at least 1 byte.
317The return value from the drain function, if positive, indicates how
318many bytes were drained.
319If negative, the return value indicates the negative error code which
320will be returned from this or a later call to
321.Fn sbuf_finish .
322The returned drained length cannot be zero.
323To do unbuffered draining, initialize the sbuf with a two-byte buffer.
324The drain will be called for every byte added to the sbuf.
325The
326.Fn sbuf_bcopyin ,
327.Fn sbuf_copyin ,
328.Fn sbuf_trim ,
329and
330.Fn sbuf_data
331functions cannot be used on an sbuf with a drain.
332.Pp
333The
334.Fn sbuf_copyin
335function copies a NUL-terminated string from the specified userland
336address into the
337.Fa sbuf .
338If the
339.Fa len
340argument is non-zero, no more than
341.Fa len
342characters (not counting the terminating NUL) are copied; otherwise
343the entire string, or as much of it as can fit in the
344.Fa sbuf ,
345is copied.
346.Pp
347The
348.Fn sbuf_cpy
349function replaces the contents of the
350.Fa sbuf
351with those of the NUL-terminated string
352.Fa str .
353This is equivalent to calling
354.Fn sbuf_cat
355with a fresh
356.Fa sbuf
357or one which position has been reset to zero with
358.Fn sbuf_clear
359or
360.Fn sbuf_setpos .
361.Pp
362The
363.Fn sbuf_printf
364function formats its arguments according to the format string pointed
365to by
366.Fa fmt
367and appends the resulting string to the
368.Fa sbuf
369at the current position.
370.Pp
371The
372.Fn sbuf_vprintf
373function behaves the same as
374.Fn sbuf_printf
375except that the arguments are obtained from the variable-length argument list
376.Fa ap .
377.Pp
378The
379.Fn sbuf_putc
380function appends the character
381.Fa c
382to the
383.Fa sbuf
384at the current position.
385.Pp
386The
387.Fn sbuf_trim
388function removes trailing whitespace from the
389.Fa sbuf .
390.Pp
391The
392.Fn sbuf_error
393function returns any error value that the
394.Fa sbuf
395may have accumulated, either from the drain function, or ENOMEM if the
396.Fa sbuf
397overflowed.
398This function is generally not needed and instead the error code from
399.Fn sbuf_finish
400is the preferred way to discover whether an sbuf had an error.
401.Pp
402The
403.Fn sbuf_finish
404function will call the attached drain function if one exists until all
405the data in the
406.Fa sbuf
407is flushed.
408If there is no attached drain,
409.Fn sbuf_finish
410NUL-terminates the
411.Fa sbuf .
412In either case it marks the
413.Fa sbuf
414as finished, which means that it may no longer be modified using
415.Fn sbuf_setpos ,
416.Fn sbuf_cat ,
417.Fn sbuf_cpy ,
418.Fn sbuf_printf
419or
420.Fn sbuf_putc ,
421until
422.Fn sbuf_clear
423is used to reset the sbuf.
424.Pp
425The
426.Fn sbuf_data
427function returns the actual string;
428.Fn sbuf_data
429only works on a finished
430.Fa sbuf .
431The
432.Fn sbuf_len
433function returns the length of the string.
434For an
435.Fa sbuf
436with an attached drain,
437.Fn sbuf_len
438returns the length of the un-drained data.
439.Fn sbuf_done
440returns non-zero if the
441.Fa sbuf
442is finished.
443.Pp
444The
445.Fn sbuf_start_section
446and
447.Fn sbuf_end_section
448functions may be used for automatic section alignment.
449The arguments
450.Fa pad
451and
452.Fa c
453specify the padding size and a character used for padding.
454The arguments
455.Fa old_lenp
456and
457.Fa old_len
458are to save and restore the current section length when nested sections
459are used.
460For the top level section
461.Dv NULL
462and \-1 can be specified for
463.Fa old_lenp
464and
465.Fa old_len
466respectively.
467.Pp
468The
469.Fn sbuf_hexdump
470function prints an array of bytes to the supplied sbuf, along with an ASCII
471representation of the bytes if possible.
472See the
473.Xr hexdump 3
474man page for more details on the interface.
475.Sh NOTES
476If an operation caused an
477.Fa sbuf
478to overflow, most subsequent operations on it will fail until the
479.Fa sbuf
480is finished using
481.Fn sbuf_finish
482or reset using
483.Fn sbuf_clear ,
484or its position is reset to a value between 0 and one less than the
485size of its storage buffer using
486.Fn sbuf_setpos ,
487or it is reinitialized to a sufficiently short string using
488.Fn sbuf_cpy .
489.Pp
490Drains in user-space will not always function as indicated.
491While the drain function will be called immediately on overflow from
492the
493.Fa sbuf_putc ,
494.Fa sbuf_bcat ,
495.Fa sbuf_cat
496functions,
497.Fa sbuf_printf
498and
499.Fa sbuf_vprintf
500currently have no way to determine whether there will be an overflow
501until after it occurs, and cannot do a partial expansion of the format
502string.
503Thus when using libsbuf the buffer may be extended to allow completion
504of a single printf call, even though a drain is attached.
505.Sh RETURN VALUES
506The
507.Fn sbuf_new
508function returns
509.Dv NULL
510if it failed to allocate a storage buffer, and a pointer to the new
511.Fa sbuf
512otherwise.
513.Pp
514The
515.Fn sbuf_setpos
516function returns \-1 if
517.Fa pos
518was invalid, and zero otherwise.
519.Pp
520The
521.Fn sbuf_cat ,
522.Fn sbuf_cpy ,
523.Fn sbuf_printf ,
524.Fn sbuf_putc ,
525and
526.Fn sbuf_trim
527functions
528all return \-1 if the buffer overflowed, and zero otherwise.
529.Pp
530The
531.Fn sbuf_error
532function returns a non-zero value if the buffer has an overflow or
533drain error, and zero otherwise.
534.Pp
535The
536.Fn sbuf_len
537function returns \-1 if the buffer overflowed.
538.Pp
539The
540.Fn sbuf_copyin
541function
542returns \-1 if copying string from userland failed, and number of bytes
543copied otherwise.
544.Pp
545The
546.Fn sbuf_end_section
547function returns the section length or \-1 if the buffer has an error.
548.Pp
549The
550.Fn sbuf_finish 9
551function (the kernel version) returns ENOMEM if the sbuf overflowed before
552being finished,
553or returns the error code from the drain if one is attached.
554.Pp
555The
556.Fn sbuf_finish 3
557function (the userland version)
558will return zero for success and \-1 and set errno on error.
559.Sh EXAMPLES
560.Bd -literal -compact
561#include <sys/sbuf.h>
562
563struct sbuf *sb;
564
565sb = sbuf_new_auto();
566sbuf_cat(sb, "Customers found:\en");
567TAILQ_FOREACH(foo, &foolist, list) {
568	sbuf_printf(sb, "   %4d %s\en", foo->index, foo->name);
569	sbuf_printf(sb, "      Address: %s\en", foo->address);
570	sbuf_printf(sb, "      Zip: %s\en", foo->zipcode);
571}
572if (sbuf_finish(sb) != 0) /* Check for any and all errors */
573	err(1, "Could not generate message");
574transmit_msg(sbuf_data(sb), sbuf_len(sb));
575sbuf_delete(sb);
576.Ed
577.Sh SEE ALSO
578.Xr hexdump 3 ,
579.Xr printf 3 ,
580.Xr strcat 3 ,
581.Xr strcpy 3 ,
582.Xr copyin 9 ,
583.Xr copyinstr 9 ,
584.Xr printf 9
585.Sh HISTORY
586The
587.Nm
588family of functions first appeared in
589.Fx 4.4 .
590.Sh AUTHORS
591.An -nosplit
592The
593.Nm
594family of functions was designed by
595.An Poul-Henning Kamp Aq Mt phk@FreeBSD.org
596and implemented by
597.An Dag-Erling Sm\(/orgrav Aq Mt des@FreeBSD.org .
598Additional improvements were suggested by
599.An Justin T. Gibbs Aq Mt gibbs@FreeBSD.org .
600Auto-extend support added by
601.An Kelly Yancey Aq Mt kbyanc@FreeBSD.org .
602Drain functionality added by
603.An Matthew Fleming Aq Mt mdf@FreeBSD.org .
604.Pp
605This manual page was written by
606.An Dag-Erling Sm\(/orgrav Aq Mt des@FreeBSD.org .
607