SBUF(9) | Kernel Developer's Manual | SBUF(9) |
sbuf
, sbuf_new
,
sbuf_new_auto
,
sbuf_new_for_sysctl
,
sbuf_clear
, sbuf_get_flags
,
sbuf_set_flags
,
sbuf_clear_flags
,
sbuf_setpos
, sbuf_bcat
,
sbuf_bcopyin
, sbuf_bcpy
,
sbuf_cat
, sbuf_copyin
,
sbuf_cpy
, sbuf_printf
,
sbuf_vprintf
, sbuf_putc
,
sbuf_set_drain
, sbuf_trim
,
sbuf_error
, sbuf_finish
,
sbuf_data
, sbuf_len
,
sbuf_done
, sbuf_delete
,
sbuf_start_section
,
sbuf_end_section
,
sbuf_hexdump
, sbuf_putbuf
— safe string composition
#include
<sys/types.h>
#include <sys/sbuf.h>
typedef int (
sbuf_drain_func) (
void *arg, const char *data,
int len);
struct sbuf *
sbuf_new
(struct sbuf *s,
char *buf, int length,
int flags);
struct sbuf *
sbuf_new_auto
(void);
void
sbuf_clear
(struct sbuf *s);
int
sbuf_get_flags
(struct sbuf
*s);
void
sbuf_set_flags
(struct sbuf *s,
int flags);
void
sbuf_clear_flags
(struct sbuf *s,
int flags);
int
sbuf_setpos
(struct sbuf *s,
int pos);
int
sbuf_bcat
(struct sbuf *s,
const void *buf, size_t
len);
int
sbuf_bcpy
(struct sbuf *s,
const void *buf, size_t
len);
int
sbuf_cat
(struct sbuf *s,
const char *str);
int
sbuf_cpy
(struct sbuf *s,
const char *str);
int
sbuf_printf
(struct sbuf *s,
const char *fmt, ...);
int
sbuf_vprintf
(struct sbuf *s,
const char *fmt, va_list
ap);
int
sbuf_putc
(struct sbuf *s,
int c);
void
sbuf_set_drain
(struct sbuf *s,
sbuf_drain_func *func, void
*arg);
int
sbuf_trim
(struct sbuf *s);
int
sbuf_error
(struct sbuf *s);
int
sbuf_finish
(struct sbuf *s);
char *
sbuf_data
(struct sbuf *s);
ssize_t
sbuf_len
(struct sbuf *s);
int
sbuf_done
(struct sbuf *s);
void
sbuf_delete
(struct sbuf *s);
void
sbuf_start_section
(struct sbuf
*s, ssize_t *old_lenp);
ssize_t
sbuf_end_section
(struct sbuf *s,
ssize_t old_len, size_t pad,
int c);
void
sbuf_hexdump
(struct sbuf *sb,
void *ptr, int length,
const char *hdr, int flags);
void
sbuf_putbuf
(struct sbuf *s);
#ifdef _KERNEL
#include
<sys/types.h>
#include <sys/sbuf.h>
int
sbuf_bcopyin
(struct sbuf *s,
const void *uaddr, size_t
len);
int
sbuf_copyin
(struct sbuf *s,
const void *uaddr, size_t
len);
#include
<sys/sysctl.h>
struct sbuf *
sbuf_new_for_sysctl
(struct sbuf
*s, char *buf, int length,
struct sysctl_req *req);
#endif /* _KERNEL */
The sbuf
family of functions allows one to
safely allocate, compose and release strings in kernel or user space.
Instead of arrays of characters, these functions operate on
structures called sbufs, defined in
<sys/sbuf.h>
.
Any errors encountered during the allocation or composition of the string will be latched in the data structure, making a single error test at the end of the composition sufficient to determine success or failure of the entire process.
The
sbuf_new
()
function initializes the sbuf pointed to by its first
argument. If that pointer is NULL
,
sbuf_new
() allocates a struct
sbuf using malloc(9). The buf
argument is a pointer to a buffer in which to store the actual string; if it
is NULL
, sbuf_new
() will
allocate one using malloc(9). The
length is the initial size of the storage buffer. The
fourth argument, flags, may be comprised of the
following flags:
SBUF_FIXEDLEN
SBUF_AUTOEXTEND
SBUF_INCLUDENUL
SBUF_DRAINTOEOR
sbuf_start_section
() as a record boundary marker
that will be used during drain operations to avoid records being split. If
a record grows sufficiently large such that it fills the
sbuf and therefore cannot be drained without being
split, an error of EDEADLK is set.Note that if buf is not
NULL
, it must point to an array of at least
length characters. The result of accessing that array
directly while it is in use by the sbuf is undefined.
The
sbuf_new_auto
()
function is a shortcut for creating a completely dynamic
sbuf
. It is the equivalent of calling
sbuf_new
() with values NULL
,
NULL
, 0
, and
SBUF_AUTOEXTEND
.
The
sbuf_new_for_sysctl
()
function will set up an sbuf with a drain function to use
SYSCTL_OUT
()
when the internal buffer fills. Note that if the various functions which
append to an sbuf are used while a non-sleepable lock is held, the user
buffer should be wired using
sysctl_wire_old_buffer
().
The
sbuf_delete
()
function clears the sbuf and frees any memory
allocated for it. There must be a call to
sbuf_delete
() for every call to
sbuf_new
(). Any attempt to access the sbuf after it
has been deleted will fail.
The
sbuf_clear
()
function invalidates the contents of the sbuf and
resets its position to zero.
The
sbuf_get_flags
()
function returns the current user flags. The
sbuf_set_flags
()
and sbuf_get_flags
() functions set or clear one or
more user flags, respectively. The user flags are described under the
sbuf_new
() function.
The
sbuf_setpos
()
function sets the sbuf's end position to
pos, which is a value between zero and one less than
the size of the storage buffer. This effectively truncates the sbuf at the
new position.
The
sbuf_bcat
()
function appends the first len bytes from the buffer
buf to the sbuf.
The
sbuf_bcopyin
()
function copies len bytes from the specified userland
address into the sbuf.
The
sbuf_bcpy
()
function replaces the contents of the sbuf with the
first len bytes from the buffer
buf.
The
sbuf_cat
()
function appends the NUL-terminated string str to the
sbuf at the current position.
The
sbuf_set_drain
()
function sets a drain function func for the
sbuf, and records a pointer arg
to be passed to the drain on callback. The drain function cannot be changed
while sbuf_len is non-zero.
The registered drain function
sbuf_drain_func will be called with the argument
arg provided to
sbuf_set_drain
(),
a pointer data to a byte string that is the contents
of the sbuf, and the length len of the data. If the
drain function exists, it will be called when the sbuf internal buffer is
full, or on behalf of sbuf_finish
(). The drain
function may drain some or all of the data, but must drain at least 1 byte.
The return value from the drain function, if positive, indicates how many
bytes were drained. If negative, the return value indicates the negative
error code which will be returned from this or a later call to
sbuf_finish
(). The returned drained length cannot be
zero. To do unbuffered draining, initialize the sbuf with a two-byte buffer.
The drain will be called for every byte added to the sbuf. The
sbuf_bcopyin
(),
sbuf_copyin
(), sbuf_trim
(),
and sbuf_data
() functions cannot be used on an sbuf
with a drain.
The
sbuf_copyin
()
function copies a NUL-terminated string from the specified userland address
into the sbuf. If the len
argument is non-zero, no more than len characters (not
counting the terminating NUL) are copied; otherwise the entire string, or as
much of it as can fit in the sbuf, is copied.
The
sbuf_cpy
()
function replaces the contents of the sbuf with those
of the NUL-terminated string str. This is equivalent
to calling sbuf_cat
() with a fresh
sbuf or one which position has been reset to zero with
sbuf_clear
() or
sbuf_setpos
().
The
sbuf_printf
()
function formats its arguments according to the format string pointed to by
fmt and appends the resulting string to the
sbuf at the current position.
The
sbuf_vprintf
()
function behaves the same as sbuf_printf
() except
that the arguments are obtained from the variable-length argument list
ap.
The
sbuf_putc
()
function appends the character c to the
sbuf at the current position.
The
sbuf_trim
()
function removes trailing whitespace from the
sbuf.
The
sbuf_error
()
function returns any error value that the sbuf may
have accumulated, either from the drain function, or ENOMEM if the
sbuf overflowed. This function is generally not needed
and instead the error code from sbuf_finish
() is the
preferred way to discover whether an sbuf had an error.
The
sbuf_finish
()
function will call the attached drain function if one exists until all the
data in the sbuf is flushed. If there is no attached
drain, sbuf_finish
() NUL-terminates the
sbuf. In either case it marks the
sbuf as finished, which means that it may no longer be
modified using sbuf_setpos
(),
sbuf_cat
(), sbuf_cpy
(),
sbuf_printf
() or
sbuf_putc
(), until
sbuf_clear
() is used to reset the sbuf.
The
sbuf_data
()
function returns the actual string; sbuf_data
() only
works on a finished sbuf. The
sbuf_len
()
function returns the length of the string. For an sbuf
with an attached drain, sbuf_len
() returns the
length of the un-drained data.
sbuf_done
()
returns non-zero if the sbuf is finished.
The
sbuf_start_section
()
and
sbuf_end_section
()
functions may be used for automatic section alignment. The arguments
pad and c specify the padding
size and a character used for padding. The arguments
old_lenp and old_len are to save
and restore the current section length when nested sections are used. For
the top level section NULL
and -1 can be specified
for old_lenp and old_len
respectively.
The
sbuf_hexdump
()
function prints an array of bytes to the supplied sbuf, along with an ASCII
representation of the bytes if possible. See the
hexdump(3) man page for more details on the interface.
The
sbuf_putbuf
()
function printfs the sbuf to stdout if in userland, and to the console and
log if in the kernel. It does not drain the buffer or update any
pointers.
If an operation caused an sbuf to overflow,
most subsequent operations on it will fail until the
sbuf is finished using
sbuf_finish
() or reset using
sbuf_clear
(), or its position is reset to a value
between 0 and one less than the size of its storage buffer using
sbuf_setpos
(), or it is reinitialized to a
sufficiently short string using sbuf_cpy
().
Drains in user-space will not always function as indicated. While the drain function will be called immediately on overflow from the sbuf_putc, sbuf_bcat, sbuf_cat functions, sbuf_printf and sbuf_vprintf currently have no way to determine whether there will be an overflow until after it occurs, and cannot do a partial expansion of the format string. Thus when using libsbuf the buffer may be extended to allow completion of a single printf call, even though a drain is attached.
The sbuf_new
() function returns
NULL
if it failed to allocate a storage buffer, and
a pointer to the new sbuf otherwise.
The sbuf_setpos
() function returns -1 if
pos was invalid, and zero otherwise.
The sbuf_bcat
(),
sbuf_cat
(), sbuf_cpy
(),
sbuf_printf
(), sbuf_putc
(),
and sbuf_trim
() functions all return -1 if the
buffer overflowed, and zero otherwise.
The sbuf_error
() function returns a
non-zero value if the buffer has an overflow or drain error, and zero
otherwise.
The sbuf_len
() function returns -1 if the
buffer overflowed.
The sbuf_copyin
() function returns -1 if
copying string from userland failed, and number of bytes copied
otherwise.
The sbuf_end_section
() function returns
the section length or -1 if the buffer has an error.
The sbuf_finish
(9)
function (the kernel version) returns ENOMEM if the sbuf overflowed before
being finished, or returns the error code from the drain if one is
attached.
The sbuf_finish
(3)
function (the userland version) will return zero for success and -1 and set
errno on error.
#include <sys/types.h> #include <sys/sbuf.h> struct sbuf *sb; sb = sbuf_new_auto(); sbuf_cat(sb, "Customers found:\n"); TAILQ_FOREACH(foo, &foolist, list) { sbuf_printf(sb, " %4d %s\n", foo->index, foo->name); sbuf_printf(sb, " Address: %s\n", foo->address); sbuf_printf(sb, " Zip: %s\n", foo->zipcode); } if (sbuf_finish(sb) != 0) /* Check for any and all errors */ err(1, "Could not generate message"); transmit_msg(sbuf_data(sb), sbuf_len(sb)); sbuf_delete(sb);
hexdump(3), printf(3), strcat(3), strcpy(3), copyin(9), copyinstr(9), printf(9)
The sbuf
family of functions first
appeared in FreeBSD 4.4.
The sbuf
family of functions was designed
by Poul-Henning Kamp
<phk@FreeBSD.org> and
implemented by Dag-Erling Smørgrav
<des@FreeBSD.org>.
Additional improvements were suggested by Justin T.
Gibbs
<gibbs@FreeBSD.org>.
Auto-extend support added by Kelly Yancey
<kbyanc@FreeBSD.org>.
Drain functionality added by Matthew Fleming
<mdf@FreeBSD.org>.
This manual page was written by Dag-Erling Smørgrav <des@FreeBSD.org>.
May 23, 2018 | Debian |