haproxy/include/common/buffer.h
Willy Tarreau 4b75fffa2b BUG/MAJOR: buffers: fix get_buffer_nc() for data at end of buffer
This function incorrectly dealt with the case where data doesn't
wrap but lies at the end of the buffer, resulting in Lukas' reported
data corruption with HTTP/2. No backport is needed, it was introduced
for HTTP/2 in 1.8-dev.
2017-11-02 17:16:07 +01:00

879 lines
25 KiB
C

/*
* include/common/buffer.h
* Buffer management definitions, macros and inline functions.
*
* Copyright (C) 2000-2012 Willy Tarreau - w@1wt.eu
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation, version 2.1
* exclusively.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifndef _COMMON_BUFFER_H
#define _COMMON_BUFFER_H
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <common/chunk.h>
#include <common/config.h>
#include <common/ist.h>
#include <common/memory.h>
struct buffer {
char *p; /* buffer's start pointer, separates in and out data */
unsigned int size; /* buffer size in bytes */
unsigned int i; /* number of input bytes pending for analysis in the buffer */
unsigned int o; /* number of out bytes the sender can consume from this buffer */
char data[0]; /* <size> bytes */
};
/* an element of the <buffer_wq> list. It represents an object that need to
* acquire a buffer to continue its process. */
struct buffer_wait {
void *target; /* The waiting object that should be woken up */
int (*wakeup_cb)(void *); /* The function used to wake up the <target>, passed as argument */
struct list list; /* Next element in the <buffer_wq> list */
};
extern struct pool_head *pool2_buffer;
extern struct buffer buf_empty;
extern struct buffer buf_wanted;
extern struct list buffer_wq;
#ifdef USE_THREAD
extern HA_SPINLOCK_T buffer_wq_lock;
#endif
int init_buffer();
void deinit_buffer();
int buffer_replace2(struct buffer *b, char *pos, char *end, const char *str, int len);
int buffer_insert_line2(struct buffer *b, char *pos, const char *str, int len);
void buffer_dump(FILE *o, struct buffer *b, int from, int to);
void buffer_slow_realign(struct buffer *buf);
/*****************************************************************/
/* These functions are used to compute various buffer area sizes */
/*****************************************************************/
/* Returns an absolute pointer for a position relative to the current buffer's
* pointer. It is written so that it is optimal when <ofs> is a const. It is
* written as a macro instead of an inline function so that the compiler knows
* when it can optimize out the sign test on <ofs> when passed an unsigned int.
* Note that callers MUST cast <ofs> to int if they expect negative values.
*/
#define b_ptr(b, ofs) \
({ \
char *__ret = (b)->p + (ofs); \
if ((ofs) > 0 && __ret >= (b)->data + (b)->size) \
__ret -= (b)->size; \
else if ((ofs) < 0 && __ret < (b)->data) \
__ret += (b)->size; \
__ret; \
})
/* Returns the pointer to the buffer's end (data+size) */
static inline const char *b_end(const struct buffer *b)
{
return b->data + b->size;
}
/* Returns the distance between <p> and the buffer's end (data+size) */
static inline unsigned int b_to_end(const struct buffer *b)
{
return b->data + b->size - b->p;
}
/* Skips <del> bytes in a one-way buffer <b> : <p> advances by <del>, <i>
* shrinks by <del> as well, and <o> is left untouched (supposed to be zero).
* The caller is responsible for ensuring that <del> is always smaller than or
* equal to b->i.
*/
static inline void bi_del(struct buffer *b, unsigned int del)
{
b->i -= del;
b->p = b_ptr(b, del);
}
/* Skips <del> bytes from the output of buffer <b> by simply shrinking <o>.
* The caller is responsible for ensuring that <del> is always smaller than or
* equal to b->o.
*/
static inline void bo_del(struct buffer *b, unsigned int del)
{
b->o -= del;
}
/* Advances the buffer by <adv> bytes, which means that the buffer
* pointer advances, and that as many bytes from in are transferred
* to out. The caller is responsible for ensuring that adv is always
* smaller than or equal to b->i.
*/
static inline void b_adv(struct buffer *b, unsigned int adv)
{
b->i -= adv;
b->o += adv;
b->p = b_ptr(b, adv);
}
/* Rewinds the buffer by <adv> bytes, which means that the buffer pointer goes
* backwards, and that as many bytes from out are moved to in. The caller is
* responsible for ensuring that adv is always smaller than or equal to b->o.
*/
static inline void b_rew(struct buffer *b, unsigned int adv)
{
b->i += adv;
b->o -= adv;
b->p = b_ptr(b, (int)-adv);
}
/* Returns the start of the input data in a buffer */
static inline char *bi_ptr(const struct buffer *b)
{
return b->p;
}
/* Returns the end of the input data in a buffer (pointer to next
* insertion point).
*/
static inline char *bi_end(const struct buffer *b)
{
char *ret = b->p + b->i;
if (ret >= b->data + b->size)
ret -= b->size;
return ret;
}
/* Returns the amount of input data that can contiguously be read at once */
static inline int bi_contig_data(const struct buffer *b)
{
int data = b->data + b->size - b->p;
if (data > b->i)
data = b->i;
return data;
}
/* Returns the start of the output data in a buffer */
static inline char *bo_ptr(const struct buffer *b)
{
char *ret = b->p - b->o;
if (ret < b->data)
ret += b->size;
return ret;
}
/* Returns the end of the output data in a buffer */
static inline char *bo_end(const struct buffer *b)
{
return b->p;
}
/* Returns the amount of output data that can contiguously be read at once */
static inline int bo_contig_data(const struct buffer *b)
{
char *beg = b->p - b->o;
if (beg < b->data)
return b->data - beg;
return b->o;
}
/* Return the amount of bytes that can be written into the input area at once
* including reserved space which may be overwritten (this is the caller
* responsibility to know if the reserved space is protected or not).
*/
static inline int bi_contig_space(const struct buffer *b)
{
const char *left, *right;
left = b->p + b->i;
right = b->p - b->o;
if (left >= b->data + b->size)
left -= b->size;
else {
if (right < b->data)
right += b->size;
else
right = b->data + b->size;
}
return (right - left);
}
/* Return the amount of bytes that can be written into the output area at once
* including reserved space which may be overwritten (this is the caller
* responsibility to know if the reserved space is protected or not). Input data
* are assumed to not exist.
*/
static inline int bo_contig_space(const struct buffer *b)
{
const char *left, *right;
left = b->p;
right = b->p - b->o;
if (right < b->data)
right += b->size;
else
right = b->data + b->size;
return (right - left);
}
/* Return the buffer's length in bytes by summing the input and the output */
static inline int buffer_len(const struct buffer *buf)
{
return buf->i + buf->o;
}
/* Return non-zero only if the buffer is not empty */
static inline int buffer_not_empty(const struct buffer *buf)
{
return buf->i | buf->o;
}
/* Return non-zero only if the buffer is empty */
static inline int buffer_empty(const struct buffer *buf)
{
return !buffer_not_empty(buf);
}
/* Return non-zero only if the buffer's free space wraps :
* [ |oooo| ] => yes
* [ |iiii| ] => yes
* [ |oooo|iiii| ] => yes
* [oooo| ] => no
* [ |oooo] => no
* [iiii| ] => no
* [ |iiii] => no
* [oooo|iiii| ] => no
* [ |oooo|iiii] => no
* [iiii| |oooo] => no
* [oo|iiii| |oo] => no
* [iiii| |oo|ii] => no
* [oooooooooo|iiiiiiiiiii] => no
* [iiiiiiiiiiiii|oooooooo] => no
*
* So the only case where the buffer does not wrap is when there's data either
* at the beginning or at the end of the buffer. Thus we have this :
* - if (p+i >= size) ==> doesn't wrap
* - if (p-data <= o) ==> doesn't wrap
* - otherwise wraps
*/
static inline int buffer_space_wraps(const struct buffer *buf)
{
if (buf->p + buf->i >= buf->data + buf->size)
return 0;
if (buf->p <= buf->data + buf->o)
return 0;
return 1;
}
/* Returns non-zero if the buffer's INPUT is considered full, which means that
* it holds at least as much INPUT data as (size - reserve). This also means
* that data that are scheduled for output are considered as potential free
* space, and that the reserved space is always considered as not usable. This
* information alone cannot be used as a general purpose free space indicator.
* However it accurately indicates that too many data were fed in the buffer
* for an analyzer for instance. See the channel_may_recv() function for a more
* generic function taking everything into account.
*/
static inline int buffer_full(const struct buffer *b, unsigned int reserve)
{
if (b == &buf_empty)
return 0;
return (b->i + reserve >= b->size);
}
/* Normalizes a pointer after a subtract */
static inline char *buffer_wrap_sub(const struct buffer *buf, char *ptr)
{
if (ptr < buf->data)
ptr += buf->size;
return ptr;
}
/* Normalizes a pointer after an addition */
static inline char *buffer_wrap_add(const struct buffer *buf, char *ptr)
{
if (ptr - buf->size >= buf->data)
ptr -= buf->size;
return ptr;
}
/* Return the maximum amount of bytes that can be written into the buffer,
* including reserved space which may be overwritten.
*/
static inline int buffer_total_space(const struct buffer *buf)
{
return buf->size - buffer_len(buf);
}
/* Returns the amount of byte that can be written starting from <p> into the
* input buffer at once, including reserved space which may be overwritten.
* This is used by Lua to insert data in the input side just before the other
* data using buffer_replace(). The goal is to transfer these new data in the
* output buffer.
*/
static inline int bi_space_for_replace(const struct buffer *buf)
{
const char *end;
/* If the input side data overflows, we cannot insert data contiguously. */
if (buf->p + buf->i >= buf->data + buf->size)
return 0;
/* Check the last byte used in the buffer, it may be a byte of the output
* side if the buffer wraps, or its the end of the buffer.
*/
end = buffer_wrap_sub(buf, buf->p - buf->o);
if (end <= buf->p)
end = buf->data + buf->size;
/* Compute the amount of bytes which can be written. */
return end - (buf->p + buf->i);
}
/* Normalizes a pointer which is supposed to be relative to the beginning of a
* buffer, so that wrapping is correctly handled. The intent is to use this
* when increasing a pointer. Note that the wrapping test is only performed
* once, so the original pointer must be between ->data-size and ->data+2*size-1,
* otherwise an invalid pointer might be returned.
*/
static inline const char *buffer_pointer(const struct buffer *buf, const char *ptr)
{
if (ptr < buf->data)
ptr += buf->size;
else if (ptr - buf->size >= buf->data)
ptr -= buf->size;
return ptr;
}
/* Returns the distance between two pointers, taking into account the ability
* to wrap around the buffer's end.
*/
static inline int buffer_count(const struct buffer *buf, const char *from, const char *to)
{
int count = to - from;
count += count < 0 ? buf->size : 0;
return count;
}
/* returns the amount of pending bytes in the buffer. It is the amount of bytes
* that is not scheduled to be sent.
*/
static inline int buffer_pending(const struct buffer *buf)
{
return buf->i;
}
/* Return 1 if the buffer has less than 1/4 of its capacity free, otherwise 0 */
static inline int buffer_almost_full(const struct buffer *buf)
{
if (buf == &buf_empty)
return 0;
if (!buf->size || buffer_total_space(buf) < buf->size / 4)
return 1;
return 0;
}
/* Cut the first <n> pending bytes in a contiguous buffer. It is illegal to
* call this function with remaining data waiting to be sent (o > 0). The
* caller must ensure that <n> is smaller than the actual buffer's length.
* This is mainly used to remove empty lines at the beginning of a request
* or a response.
*/
static inline void bi_fast_delete(struct buffer *buf, int n)
{
buf->i -= n;
buf->p += n;
}
/* Tries to realign the given buffer. */
static inline void buffer_realign(struct buffer *buf)
{
if (!(buf->i | buf->o)) {
/* let's realign the buffer to optimize I/O */
buf->p = buf->data;
}
}
/* Schedule all remaining buffer data to be sent. ->o is not touched if it
* already covers those data. That permits doing a flush even after a forward,
* although not recommended.
*/
static inline void buffer_flush(struct buffer *buf)
{
buf->p = buffer_wrap_add(buf, buf->p + buf->i);
buf->o += buf->i;
buf->i = 0;
}
/* This function writes the string <str> at position <pos> which must be in
* buffer <b>, and moves <end> just after the end of <str>. <b>'s parameters
* (l, r, lr) are updated to be valid after the shift. the shift value
* (positive or negative) is returned. If there's no space left, the move is
* not done. The function does not adjust ->o because it does not make sense
* to use it on data scheduled to be sent.
*/
static inline int buffer_replace(struct buffer *b, char *pos, char *end, const char *str)
{
return buffer_replace2(b, pos, end, str, strlen(str));
}
/* Tries to write char <c> into output data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is full.
*/
static inline void bo_putchr(struct buffer *b, char c)
{
if (buffer_len(b) == b->size)
return;
*b->p = c;
b->p = b_ptr(b, 1);
b->o++;
}
/* Tries to copy block <blk> into output data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is too short. It returns the number of bytes
* copied.
*/
static inline int bo_putblk(struct buffer *b, const char *blk, int len)
{
int cur_len = buffer_len(b);
int half;
if (len > b->size - cur_len)
len = (b->size - cur_len);
if (!len)
return 0;
half = bo_contig_space(b);
if (half > len)
half = len;
memcpy(b->p, blk, half);
b->p = b_ptr(b, half);
if (len > half) {
memcpy(b->p, blk, len - half);
b->p = b_ptr(b, half);
}
b->o += len;
return len;
}
/* Tries to copy string <str> into output data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is too short. It returns the number of bytes
* copied.
*/
static inline int bo_putstr(struct buffer *b, const char *str)
{
return bo_putblk(b, str, strlen(str));
}
/* Tries to copy chunk <chk> into output data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is too short. It returns the number of bytes
* copied.
*/
static inline int bo_putchk(struct buffer *b, const struct chunk *chk)
{
return bo_putblk(b, chk->str, chk->len);
}
/* Gets one full block of data at once from a buffer's output, optionally
* starting at a specific offset. Return values :
* >0 : number of bytes read, equal to requested size.
* =0 : not enough data available. <blk> is left undefined.
* The buffer is left unaffected.
*/
static inline int bo_getblk(const struct buffer *buf, char *blk, int len, int offset)
{
int firstblock;
if (len + offset > buf->o)
return 0;
firstblock = buf->data + buf->size - bo_ptr(buf);
if (firstblock > offset) {
if (firstblock >= len + offset) {
memcpy(blk, bo_ptr(buf) + offset, len);
return len;
}
memcpy(blk, bo_ptr(buf) + offset, firstblock - offset);
memcpy(blk + firstblock - offset, buf->data, len - firstblock + offset);
return len;
}
memcpy(blk, buf->data + offset - firstblock, len);
return len;
}
/* Gets one or two blocks of data at once from a buffer's output.
* Return values :
* >0 : number of blocks filled (1 or 2). blk1 is always filled before blk2.
* =0 : not enough data available. <blk*> are left undefined.
* The buffer is left unaffected. Unused buffers are left in an undefined state.
*/
static inline int bo_getblk_nc(struct buffer *buf, char **blk1, int *len1, char **blk2, int *len2)
{
if (unlikely(buf->o == 0))
return 0;
if (unlikely(buf->p != buf->data && buf->p - buf->o < buf->data)) {
*blk1 = buf->p - buf->o + buf->size;
*len1 = buf->data + buf->size - *blk1;
*blk2 = buf->data;
*len2 = buf->p - buf->data;
return 2;
}
*blk1 = bo_ptr(buf);
*len1 = buf->o;
return 1;
}
/* Tries to write char <c> into input data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is full.
*/
static inline void bi_putchr(struct buffer *b, char c)
{
if (buffer_len(b) == b->size)
return;
*bi_end(b) = c;
b->i++;
}
/* Tries to copy block <blk> into input data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is too short. It returns the number of bytes
* copied.
*/
static inline int bi_putblk(struct buffer *b, const char *blk, int len)
{
int cur_len = buffer_len(b);
int half;
if (len > b->size - cur_len)
len = (b->size - cur_len);
if (!len)
return 0;
half = bi_contig_space(b);
if (half > len)
half = len;
memcpy(bi_end(b), blk, half);
if (len > half)
memcpy(b_ptr(b, b->i + half), blk, len - half);
b->i += len;
return len;
}
/* Tries to copy string <str> into input data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is too short. It returns the number of bytes
* copied.
*/
static inline int bi_putstr(struct buffer *b, const char *str)
{
return bi_putblk(b, str, strlen(str));
}
/* Tries to copy chunk <chk> into input data at buffer <b>. Supports wrapping.
* Data are truncated if buffer is too short. It returns the number of bytes
* copied.
*/
static inline int bi_putchk(struct buffer *b, const struct chunk *chk)
{
return bi_putblk(b, chk->str, chk->len);
}
/* Gets one full block of data at once from a buffer's input. Return values :
* >0 : number of bytes read, equal to requested size.
* =0 : not enough data available. <blk> is left undefined.
* The buffer is left unaffected.
*/
static inline int bi_getblk(const struct buffer *buf, char *blk, int len)
{
int firstblock;
if (len > buf->i)
return 0;
firstblock = bi_contig_data(buf);
if (firstblock > len)
firstblock = len;
memcpy(blk, bi_ptr(buf), firstblock);
if (len > firstblock)
memcpy(blk + firstblock, buf->data, len - firstblock);
return len;
}
/* Gets one or two blocks of data at once from a buffer's input.
* Return values :
* >0 : number of blocks filled (1 or 2). blk1 is always filled before blk2.
* =0 : not enough data available. <blk*> are left undefined.
* The buffer is left unaffected. Unused buffers are left in an undefined state.
*/
static inline int bi_getblk_nc(struct buffer *buf, char **blk1, int *len1, char **blk2, int *len2)
{
if (unlikely(buf->i == 0))
return 0;
if (unlikely(buf->p + buf->i > buf->data + buf->size)) {
*blk1 = buf->p;
*len1 = buf->data + buf->size - buf->p;
*blk2 = buf->data;
*len2 = buf->i - *len1;
return 2;
}
*blk1 = buf->p;
*len1 = buf->i;
return 1;
}
/* Resets a buffer. The size is not touched. */
static inline void b_reset(struct buffer *buf)
{
buf->o = 0;
buf->i = 0;
buf->p = buf->data;
}
/* Allocates a buffer and replaces *buf with this buffer. If no memory is
* available, &buf_wanted is used instead. No control is made to check if *buf
* already pointed to another buffer. The allocated buffer is returned, or
* NULL in case no memory is available.
*/
static inline struct buffer *b_alloc(struct buffer **buf)
{
struct buffer *b;
*buf = &buf_wanted;
b = pool_alloc_dirty(pool2_buffer);
if (likely(b)) {
b->size = pool2_buffer->size - sizeof(struct buffer);
b_reset(b);
*buf = b;
}
return b;
}
/* Allocates a buffer and replaces *buf with this buffer. If no memory is
* available, &buf_wanted is used instead. No control is made to check if *buf
* already pointed to another buffer. The allocated buffer is returned, or
* NULL in case no memory is available. The difference with b_alloc() is that
* this function only picks from the pool and never calls malloc(), so it can
* fail even if some memory is available.
*/
static inline struct buffer *b_alloc_fast(struct buffer **buf)
{
struct buffer *b;
*buf = &buf_wanted;
b = pool_get_first(pool2_buffer);
if (likely(b)) {
b->size = pool2_buffer->size - sizeof(struct buffer);
b_reset(b);
*buf = b;
}
return b;
}
/* Releases buffer *buf (no check of emptiness) */
static inline void __b_drop(struct buffer **buf)
{
pool_free2(pool2_buffer, *buf);
}
/* Releases buffer *buf if allocated. */
static inline void b_drop(struct buffer **buf)
{
if (!(*buf)->size)
return;
__b_drop(buf);
}
/* Releases buffer *buf if allocated, and replaces it with &buf_empty. */
static inline void b_free(struct buffer **buf)
{
b_drop(buf);
*buf = &buf_empty;
}
/* Ensures that <buf> is allocated. If an allocation is needed, it ensures that
* there are still at least <margin> buffers available in the pool after this
* allocation so that we don't leave the pool in a condition where a session or
* a response buffer could not be allocated anymore, resulting in a deadlock.
* This means that we sometimes need to try to allocate extra entries even if
* only one buffer is needed.
*/
static inline struct buffer *b_alloc_margin(struct buffer **buf, int margin)
{
struct buffer *next;
if ((*buf)->size)
return *buf;
/* fast path */
if ((pool2_buffer->allocated - pool2_buffer->used) > margin)
return b_alloc_fast(buf);
next = pool_refill_alloc(pool2_buffer, margin);
if (!next)
return next;
next->size = pool2_buffer->size - sizeof(struct buffer);
b_reset(next);
*buf = next;
return next;
}
void __offer_buffer(void *from, unsigned int threshold);
static inline void offer_buffers(void *from, unsigned int threshold)
{
SPIN_LOCK(BUF_WQ_LOCK, &buffer_wq_lock);
if (LIST_ISEMPTY(&buffer_wq)) {
SPIN_UNLOCK(BUF_WQ_LOCK, &buffer_wq_lock);
return;
}
__offer_buffer(from, threshold);
SPIN_UNLOCK(BUF_WQ_LOCK, &buffer_wq_lock);
}
/*************************************************************************/
/* functions used to manipulate strings and blocks with wrapping buffers */
/*************************************************************************/
/* returns > 0 if the first <n> characters of buffer <b> starting at
* offset <o> relative to b->p match <ist>. (empty strings do match). It is
* designed to be use with reasonably small strings (ie matches a single byte
* per iteration). This function is usable both with input and output data. To
* be used like this depending on what to match :
* - input contents : b_isteq(b, 0, b->i, ist);
* - output contents : b_isteq(b, -b->o, b->o, ist);
* Return value :
* >0 : the number of matching bytes
* =0 : not enough bytes (or matching of empty string)
* <0 : non-matching byte found
*/
static inline int b_isteq(const struct buffer *b, unsigned int o, size_t n, const struct ist ist)
{
struct ist r = ist;
const char *p;
const char *end = b->data + b->size;
if (n < r.len)
return 0;
p = b_ptr(b, o);
while (r.len--) {
if (*p++ != *r.ptr++)
return -1;
if (unlikely(p == end))
p = b->data;
}
return ist.len;
}
/* "eats" string <ist> from the input region of buffer <b>. Wrapping data is
* explicitly supported. It matches a single byte per iteration so strings
* should remain reasonably small. Returns :
* > 0 : number of bytes matched and eaten
* = 0 : not enough bytes (or matching an empty string)
* < 0 : non-matching byte found
*/
static inline int bi_eat(struct buffer *b, const struct ist ist)
{
int ret = b_isteq(b, 0, b->i, ist);
if (ret > 0)
bi_del(b, ret);
return ret;
}
/* injects string <ist> into the input region of buffer <b> provided that it
* fits. Wrapping is supported. It's designed for small strings as it only
* writes a single byte per iteration. Returns the number of characters copied
* (ist.len), 0 if it temporarily does not fit or -1 if it will never fit. It
* will only modify the buffer upon success. In all cases, the contents are
* copied prior to reporting an error, so that the destination at least
* contains a valid but truncated string.
*/
static inline int bi_istput(struct buffer *b, const struct ist ist)
{
const char *end = b->data + b->size;
struct ist r = ist;
char *p;
if (r.len > (size_t)(b->size - b->i - b->o))
return r.len < b->size ? 0 : -1;
p = b_ptr(b, b->i);
b->i += r.len;
while (r.len--) {
*p++ = *r.ptr++;
if (unlikely(p == end))
p = b->data;
}
return ist.len;
}
/* injects string <ist> into the output region of buffer <b> provided that it
* fits. Input data is assumed not to exist and will silently be overwritten.
* Wrapping is supported. It's designed for small strings as it only writes a
* single byte per iteration. Returns the number of characters copied (ist.len),
* 0 if it temporarily does not fit or -1 if it will never fit. It will only
* modify the buffer upon success. In all cases, the contents are copied prior
* to reporting an error, so that the destination at least contains a valid
* but truncated string.
*/
static inline int bo_istput(struct buffer *b, const struct ist ist)
{
const char *end = b->data + b->size;
struct ist r = ist;
char *p;
if (r.len > (size_t)(b->size - b->o))
return r.len < b->size ? 0 : -1;
p = b->p;
b->o += r.len;
b->p = b_ptr(b, r.len);
while (r.len--) {
*p++ = *r.ptr++;
if (unlikely(p == end))
p = b->data;
}
return ist.len;
}
#endif /* _COMMON_BUFFER_H */
/*
* Local variables:
* c-indent-level: 8
* c-basic-offset: 8
* End:
*/