include/common/buf.h - haproxy - Gitiles

 /*
  * include/common/buf.h
  * Simple buffer handling.
  *
  * Copyright (C) 2000-2018 Willy Tarreau - w@1wt.eu
  *
  * Permission is hereby granted, free of charge, to any person obtaining
  * a copy of this software and associated documentation files (the
  * "Software"), to deal in the Software without restriction, including
  * without limitation the rights to use, copy, modify, merge, publish,
  * distribute, sublicense, and/or sell copies of the Software, and to
  * permit persons to whom the Software is furnished to do so, subject to
  * the following conditions:
  *
  * The above copyright notice and this permission notice shall be
  * included in all copies or substantial portions of the Software.
  *
  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
  * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
  * OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
  * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
  * HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
  * WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
  * OTHER DEALINGS IN THE SOFTWARE.
  */

 #ifndef _COMMON_BUF_H
 #define _COMMON_BUF_H

 #include <inttypes.h>
 #include <string.h>
 #include <unistd.h>

 /* Structure defining a buffer's head */
 struct buffer {
 	size_t size;                /* buffer size in bytes */
 	char  *area;                /* points to <size> bytes */
 	size_t data;                /* amount of data after head including wrapping */
 	size_t head;                /* start offset of remaining data relative to area */
 };

 /* A buffer may be in 3 different states :
  *   - unallocated : size == 0, area == 0  (b_is_null() is true)
  *   - waiting     : size == 0, area != 0  (b_is_null() is true)
  *   - allocated   : size  > 0, area  > 0  (b_is_null() is false)
  */

 /* initializers for certain buffer states. It is important that the NULL buffer
  * remains the one with all fields initialized to zero so that a calloc() or a
  * memset() on a struct automatically sets a NULL buffer.
  */
 #define BUF_NULL   ((struct buffer){ })
 #define BUF_WANTED ((struct buffer){ .area = (char *)1 })


 /***************************************************************************/
 /* Functions used to compute offsets and pointers. Most of them exist in   */
 /* both wrapping-safe and unchecked ("__" prefix) variants. Some returning */
 /* a pointer are also provided with an "_ofs" suffix when they return an   */
 /* offset relative to the storage area.                                    */
 /***************************************************************************/

 /* b_is_null() : returns true if (and only if) the buffer is not yet allocated
  * and thus has an empty size. Its pointer may then be anything, including NULL
  * (unallocated) or an invalid pointer such as (char*)1 (allocation pending).
  */
 static inline int b_is_null(const struct buffer *buf)
 {
 	return buf->size == 0;
 }

 /* b_orig() : returns the pointer to the origin of the storage, which is the
  * location of byte at offset zero. This is mostly used by functions which
  * handle the wrapping by themselves.
  */
 static inline char *b_orig(const struct buffer *b)
 {
 	return b->area;
 }

 /* b_size() : returns the size of the buffer. */
 static inline size_t b_size(const struct buffer *b)
 {
 	return b->size;
 }

 /* b_wrap() : returns the pointer to the wrapping position of the buffer area,
  * which is by definition the first byte not part of the buffer.
  */
 static inline char *b_wrap(const struct buffer *b)
 {
 	return b->area + b->size;
 }

 /* b_data() : returns the number of bytes present in the buffer. */
 static inline size_t b_data(const struct buffer *b)
 {
 	return b->data;
 }

 /* b_room() : returns the amount of room left in the buffer */
 static inline size_t b_room(const struct buffer *b)
 {
 	return b->size - b_data(b);
 }

 /* b_full() : returns true if the buffer is full. */
 static inline size_t b_full(const struct buffer *b)
 {
 	return !b_room(b);
 }


 /* b_stop() : returns the pointer to the byte following the end of the buffer,
  * which may be out of the buffer if the buffer ends on the last byte of the
  * area.
  */
 static inline size_t __b_stop_ofs(const struct buffer *b)
 {
 	return b->head + b->data;
 }

 static inline const char *__b_stop(const struct buffer *b)
 {
 	return b_orig(b) + __b_stop_ofs(b);
 }

 static inline size_t b_stop_ofs(const struct buffer *b)
 {
 	size_t stop = __b_stop_ofs(b);

 	if (stop > b->size)
 		stop -= b->size;
 	return stop;
 }

 static inline const char *b_stop(const struct buffer *b)
 {
 	return b_orig(b) + b_stop_ofs(b);
 }


 /* b_peek() : returns a pointer to the data at position <ofs> relative to the
  * head of the buffer. Will typically point to input data if called with the
  * amount of output data. The wrapped versions will only support wrapping once
  * before the beginning or after the end.
  */
 static inline size_t __b_peek_ofs(const struct buffer *b, size_t ofs)
 {
 	return b->head + ofs;
 }

 static inline char *__b_peek(const struct buffer *b, size_t ofs)
 {
 	return b_orig(b) + __b_peek_ofs(b, ofs);
 }

 static inline size_t b_peek_ofs(const struct buffer *b, size_t ofs)
 {
 	size_t ret = __b_peek_ofs(b, ofs);

 	if (ret >= b->size)
 		ret -= b->size;

 	return ret;
 }

 static inline char *b_peek(const struct buffer *b, size_t ofs)
 {
 	return b_orig(b) + b_peek_ofs(b, ofs);
 }


 /* b_head() : returns the pointer to the buffer's head, which is the location
  * of the next byte to be dequeued. Note that for buffers of size zero, the
  * returned pointer may be outside of the buffer or even invalid.
  */
 static inline size_t __b_head_ofs(const struct buffer *b)
 {
 	return b->head;
 }

 static inline char *__b_head(const struct buffer *b)
 {
 	return b_orig(b) + __b_head_ofs(b);
 }

 static inline size_t b_head_ofs(const struct buffer *b)
 {
 	return __b_head_ofs(b);
 }

 static inline char *b_head(const struct buffer *b)
 {
 	return __b_head(b);
 }


 /* b_tail() : returns the pointer to the tail of the buffer, which is the
  * location of the first byte where it is possible to enqueue new data. Note
  * that for buffers of size zero, the returned pointer may be outside of the
  * buffer or even invalid.
  */
 static inline size_t __b_tail_ofs(const struct buffer *b)
 {
 	return __b_peek_ofs(b, b_data(b));
 }

 static inline char *__b_tail(const struct buffer *b)
 {
 	return __b_peek(b, b_data(b));
 }

 static inline size_t b_tail_ofs(const struct buffer *b)
 {
 	return b_peek_ofs(b, b_data(b));
 }

 static inline char *b_tail(const struct buffer *b)
 {
 	return b_peek(b, b_data(b));
 }


 /* b_next() : for an absolute pointer <p> or a relative offset <o> pointing to
  * a valid location within buffer <b>, returns either the absolute pointer or
  * the relative offset pointing to the next byte, which usually is at (p + 1)
  * unless p reaches the wrapping point and wrapping is needed.
  */
 static inline size_t b_next_ofs(const struct buffer *b, size_t o)
 {
 	o++;
 	if (o == b->size)
 		o = 0;
 	return o;
 }

 static inline char *b_next(const struct buffer *b, const char *p)
 {
 	p++;
 	if (p == b_wrap(b))
 		p = b_orig(b);
 	return (char *)p;
 }

 /* b_dist() : returns the distance between two pointers, taking into account
  * the ability to wrap around the buffer's end. The operation is not defined if
  * either of the pointers does not belong to the buffer or if their distance is
  * greater than the buffer's size.
  */
 static inline size_t b_dist(const struct buffer *b, const char *from, const char *to)
 {
 	ssize_t dist = to - from;

 	dist += dist < 0 ? b_size(b) : 0;
 	return dist;
 }

 /* b_almost_full() : returns 1 if the buffer uses at least 3/4 of its capacity,
  * otherwise zero. Buffers of size zero are considered full.
  */
 static inline int b_almost_full(const struct buffer *b)
 {
 	return b_data(b) >= b_size(b) * 3 / 4;
 }

 /* b_space_wraps() : returns non-zero only if the buffer's free space wraps :
  *  [     |xxxx|           ]    => yes
  *  [xxxx|                 ]    => no
  *  [                 |xxxx]    => no
  *  [xxxx|            |xxxx]    => no
  *  [xxxxxxxxxx|xxxxxxxxxxx]    => 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 (head <= 0)    ==> doesn't wrap
  *  - if (tail >= size) ==> doesn't wrap
  *  - otherwise wraps
  */
 static inline int b_space_wraps(const struct buffer *b)
 {
 	if ((ssize_t)__b_head_ofs(b) <= 0)
 		return 0;
 	if (__b_tail_ofs(b) >= b_size(b))
 		return 0;
 	return 1;
 }

 /* b_contig_data() : returns the amount of data that can contiguously be read
  * at once starting from a relative offset <start> (which allows to easily
  * pre-compute blocks for memcpy). The start point will typically contain the
  * amount of past data already returned by a previous call to this function.
  */
 static inline size_t b_contig_data(const struct buffer *b, size_t start)
 {
 	size_t data = b_wrap(b) - b_peek(b, start);
 	size_t limit = b_data(b) - start;

 	if (data > limit)
 		data = limit;
 	return data;
 }

 /* b_contig_space() : returns the amount of bytes that can be appended to the
  * buffer at once. We have 8 possible cases :
  *
  * [____________________]  return size
  * [______|_____________]  return size - tail_ofs
  * [XXXXXX|_____________]  return size - tail_ofs
  * [___|XXXXXX|_________]  return size - tail_ofs
  * [______________XXXXXX]  return head_ofs
  * [XXXX|___________|XXX]  return head_ofs - tail_ofs
  * [XXXXXXXXXX|XXXXXXXXX]  return 0
  * [XXXXXXXXXXXXXXXXXXXX]  return 0
  */
 static inline size_t b_contig_space(const struct buffer *b)
 {
 	size_t left, right;

 	right = b_head_ofs(b);
 	left  = right + b_data(b);

 	left = b_size(b) - left;
 	if ((ssize_t)left <= 0)
 		left += right;
 	return left;
 }

 /* b_getblk() : gets one full block of data at once from a buffer, starting
  * from offset <offset> after the buffer's head, and limited to no more than
  * <len> bytes. The caller is responsible for ensuring that neither <offset>
  * nor <offset>+<len> exceed the total number of bytes available in the buffer.
  * 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 size_t b_getblk(const struct buffer *buf, char *blk, size_t len, size_t offset)
 {
 	size_t firstblock;

 	if (len + offset > b_data(buf))
 		return 0;

 	firstblock = b_wrap(buf) - b_head(buf);
 	if (firstblock > offset) {
 		if (firstblock >= len + offset) {
 			memcpy(blk, b_head(buf) + offset, len);
 			return len;
 		}

 		memcpy(blk, b_head(buf) + offset, firstblock - offset);
 		memcpy(blk + firstblock - offset, b_orig(buf), len - firstblock + offset);
 		return len;
 	}

 	memcpy(blk, b_orig(buf) + offset - firstblock, len);
 	return len;
 }

 /* b_getblk_nc() : gets one or two blocks of data at once from a buffer,
  * starting from offset <ofs> after the beginning of its output, and limited to
  * no more than <max> bytes. The caller is responsible for ensuring that
  * neither <ofs> nor <ofs>+<max> exceed the total number of bytes available in
  * the buffer. 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 size_t b_getblk_nc(const struct buffer *buf, const char **blk1, size_t *len1, const char **blk2, size_t *len2, size_t ofs, size_t max)
 {
 	size_t l1;

 	if (!max)
 		return 0;

 	*blk1 = b_peek(buf, ofs);
 	l1 = b_wrap(buf) - *blk1;
 	if (l1 < max) {
 		*len1 = l1;
 		*len2 = max - l1;
 		*blk2 = b_orig(buf);
 		return 2;
 	}
 	*len1 = max;
 	return 1;
 }


 /*********************************************/
 /* Functions used to modify the buffer state */
 /*********************************************/

 /* b_reset() : resets a buffer. The size is not touched. */
 static inline void b_reset(struct buffer *b)
 {
 	b->head = 0;
 	b->data = 0;
 }

 /* b_sub() : decreases the buffer length by <count> */
 static inline void b_sub(struct buffer *b, size_t count)
 {
 	b->data -= count;
 }

 /* b_add() : increase the buffer length by <count> */
 static inline void b_add(struct buffer *b, size_t count)
 {
 	b->data += count;
 }

 /* b_set_data() : sets the buffer's length */
 static inline void b_set_data(struct buffer *b, size_t len)
 {
 	b->data = len;
 }

 /* b_del() : skips <del> bytes in a buffer <b>. Covers both the output and the
  * input parts so it's up to the caller to know where it plays and that <del>
  * is always smaller than the amount of data in the buffer.
  */
 static inline void b_del(struct buffer *b, size_t del)
 {
 	b->data -= del;
 	b->head += del;
 	if (b->head >= b->size)
 		b->head -= b->size;
 }

 /* b_realign_if_empty() : realigns a buffer if it's empty */
 static inline void b_realign_if_empty(struct buffer *b)
 {
 	if (!b_data(b))
 		b->head = 0;
 }

 /* b_slow_realign() : this function realigns a possibly wrapping buffer so that
  * the part remaining to be parsed is contiguous and starts at the beginning of
  * the buffer and the already parsed output part ends at the end of the buffer.
  * This provides the best conditions since it allows the largest inputs to be
  * processed at once and ensures that once the output data leaves, the whole
  * buffer is available at once. The number of output bytes supposedly present
  * at the beginning of the buffer and which need to be moved to the end must be
  * passed in <output>. A temporary swap area at least as large as b->size must
  * be provided in <swap>. It's up to the caller to ensure <output> is no larger
  * than the difference between the whole buffer's length and its input.
  */
 static inline void b_slow_realign(struct buffer *b, char *swap, size_t output)
 {
 	size_t block1 = output;
 	size_t block2 = 0;

 	/* process output data in two steps to cover wrapping */
 	if (block1 > b_size(b) - b_head_ofs(b)) {
 		block2 = b_size(b) - b_head_ofs(b);
 		block1 -= block2;
 	}
 	memcpy(swap + b_size(b) - output, b_head(b), block1);
 	memcpy(swap + b_size(b) - block2, b_orig(b), block2);

 	/* process input data in two steps to cover wrapping */
 	block1 = b_data(b) - output;
 	block2 = 0;

 	if (block1 > b_tail_ofs(b)) {
 		block2 = b_tail_ofs(b);
 		block1 = block1 - block2;
 	}
 	memcpy(swap, b_peek(b, output), block1);
 	memcpy(swap + block1, b_orig(b), block2);

 	/* reinject changes into the buffer */
 	memcpy(b_orig(b), swap, b_data(b) - output);
 	memcpy(b_wrap(b) - output, swap + b_size(b) - output, output);

 	b->head = (output ? b_size(b) - output : 0);
 }

 /* b_putchar() : tries to append char <c> at the end of buffer <b>. Supports
  * wrapping. Data are truncated if buffer is full.
  */
 static inline void b_putchr(struct buffer *b, char c)
 {
 	if (b_full(b))
 		return;
 	*b_tail(b) = c;
 	b->data++;
 }

 /* __b_putblk() : tries to append <len> bytes from block <blk> to the end of
  * buffer <b> without checking for free space (it's up to the caller to do it).
  * Supports wrapping. It must not be called with len == 0.
  */
 static inline void __b_putblk(struct buffer *b, const char *blk, size_t len)
 {
 	size_t half = b_contig_space(b);

 	if (half > len)
 		half = len;

 	memcpy(b_tail(b), blk, half);

 	if (len > half)
 		memcpy(b_peek(b, b_data(b) + half), blk + half, len - half);
 	b->data += len;
 }

 /* b_putblk() : tries to append block <blk> at the end of buffer <b>. Supports
  * wrapping. Data are truncated if buffer is too short. It returns the number
  * of bytes copied.
  */
 static inline size_t b_putblk(struct buffer *b, const char *blk, size_t len)
 {
 	if (len > b_room(b))
 		len = b_room(b);
 	if (len)
 		__b_putblk(b, blk, len);
 	return len;
 }

 /* b_xfer() : transfers at most <count> bytes from buffer <src> to buffer <dst>
  * and returns the number of bytes copied. The bytes are removed from <src> and
  * added to <dst>. The caller is responsible for ensuring that <count> is not
  * larger than b_room(dst). Whenever possible (if the destination is empty and
  * at least as much as the source was requested), the buffers are simply
  * swapped instead of copied.
  */
 static inline size_t b_xfer(struct buffer *dst, struct buffer *src, size_t count)
 {
 	size_t ret, block1, block2;

 	ret = 0;
 	if (!count)
 		goto leave;

 	ret = b_data(src);
 	if (!ret)
 		goto leave;

 	if (ret > count)
 		ret = count;
 	else if (!b_data(dst)) {
 		/* zero copy is possible by just swapping buffers */
 		struct buffer tmp = *dst;
 		*dst = *src;
 		*src = tmp;
 		goto leave;
 	}

 	block1 = b_contig_data(src, 0);
 	if (block1 > ret)
 		block1 = ret;
 	block2 = ret - block1;

 	if (block1)
 		__b_putblk(dst, b_head(src), block1);

 	if (block2)
 		__b_putblk(dst, b_peek(src, block1), block2);

 	b_del(src, ret);
  leave:
 	return ret;
 }

 /* Moves <len> bytes from absolute position <src> of buffer <b> by <shift>
  * bytes, while supporting wrapping of both the source and the destination.
  * The position is relative to the buffer's origin and may overlap with the
  * target position. The <shift>'s absolute value must be strictly lower than
  * the buffer's size. The main purpose is to aggregate data block during
  * parsing while removing unused delimiters. The buffer's length is not
  * modified, and the caller must take care of size adjustments and holes by
  * itself.
  */
 static inline void b_move(const struct buffer *b, size_t src, size_t len, ssize_t shift)
 {
 	char  *orig = b_orig(b);
 	size_t size = b_size(b);
 	size_t dst  = src + size + shift;
 	size_t cnt;

 	if (dst >= size)
 		dst -= size;

 	if (shift < 0) {
 		/* copy from left to right */
 		for (; (cnt = len); len -= cnt) {
 			if (cnt > size - src)
 				cnt = size - src;
 			if (cnt > size - dst)
 				cnt = size - dst;

 			memmove(orig + dst, orig + src, cnt);
 			dst += cnt;
 			src += cnt;
 			if (dst >= size)
 				dst -= size;
 			if (src >= size)
 				src -= size;
 		}
 	}
 	else if (shift > 0) {
 		/* copy from right to left */
 		for (; (cnt = len); len -= cnt) {
 			size_t src_end = src + len;
 			size_t dst_end = dst + len;

 			if (dst_end > size)
 				dst_end -= size;
 			if (src_end > size)
 				src_end -= size;

 			if (cnt > dst_end)
 				cnt = dst_end;
 			if (cnt > src_end)
 				cnt = src_end;

 			memmove(orig + dst_end - cnt, orig + src_end - cnt, cnt);
 		}
 	}
 }

 /* b_rep_blk() : writes the block <blk> at position <pos> which must be in
  * buffer <b>, and moves the part between <end> and the buffer's tail just
  * after the end of the copy of <blk>. This effectively replaces the part
  * located between <pos> and <end> with a copy of <blk> of length <len>. The
  * buffer's length is automatically updated. This is used to replace a block
  * with another one inside a buffer. The shift value (positive or negative) is
  * returned. If there's no space left, the move is not done. If <len> is null,
  * the <blk> pointer is allowed to be null, in order to erase a block.
  */
 static inline int b_rep_blk(struct buffer *b, char *pos, char *end, const char *blk, size_t len)
 {
 	int delta;

 	delta = len - (end - pos);

 	if (__b_tail(b) + delta > b_wrap(b))
 		return 0;  /* no space left */

 	if (b_data(b) &&
 	    b_tail(b) + delta > b_head(b) &&
 	    b_head(b) >= b_tail(b))
 		return 0;  /* no space left before wrapping data */

 	/* first, protect the end of the buffer */
 	memmove(end + delta, end, b_tail(b) - end);

 	/* now, copy blk over pos */
 	if (len)
 		memcpy(pos, blk, len);

 	b_add(b, delta);
 	b_realign_if_empty(b);

 	return delta;
 }


 #endif /* _COMMON_BUF_H */

 /*
  * Local variables:
  *  c-indent-level: 8
  *  c-basic-offset: 8
  * End:
  */
	/*
	* include/common/buf.h
	* Simple buffer handling.
	*
	* Copyright (C) 2000-2018 Willy Tarreau - w@1wt.eu
	*
	* Permission is hereby granted, free of charge, to any person obtaining
	* a copy of this software and associated documentation files (the
	* "Software"), to deal in the Software without restriction, including
	* without limitation the rights to use, copy, modify, merge, publish,
	* distribute, sublicense, and/or sell copies of the Software, and to
	* permit persons to whom the Software is furnished to do so, subject to
	* the following conditions:
	*
	* The above copyright notice and this permission notice shall be
	* included in all copies or substantial portions of the Software.
	*
	* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
	* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
	* OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
	* NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
	* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
	* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
	* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
	* OTHER DEALINGS IN THE SOFTWARE.
	*/

	#ifndef _COMMON_BUF_H
	#define _COMMON_BUF_H

	#include <inttypes.h>
	#include <string.h>
	#include <unistd.h>

	/* Structure defining a buffer's head */
	struct buffer {
	size_t size; /* buffer size in bytes */
	char area; / points to <size> bytes */
	size_t data; /* amount of data after head including wrapping */
	size_t head; /* start offset of remaining data relative to area */
	};

	/* A buffer may be in 3 different states :
	* - unallocated : size == 0, area == 0 (b_is_null() is true)
	* - waiting : size == 0, area != 0 (b_is_null() is true)
	* - allocated : size > 0, area > 0 (b_is_null() is false)
	*/

	/* initializers for certain buffer states. It is important that the NULL buffer
	* remains the one with all fields initialized to zero so that a calloc() or a
	* memset() on a struct automatically sets a NULL buffer.
	*/
	#define BUF_NULL ((struct buffer){ })
	#define BUF_WANTED ((struct buffer){ .area = (char *)1 })


	/***************************************************************************/
	/* Functions used to compute offsets and pointers. Most of them exist in */
	/* both wrapping-safe and unchecked ("__" prefix) variants. Some returning */
	/* a pointer are also provided with an "_ofs" suffix when they return an */
	/* offset relative to the storage area. */
	/***************************************************************************/

	/* b_is_null() : returns true if (and only if) the buffer is not yet allocated
	* and thus has an empty size. Its pointer may then be anything, including NULL
	* (unallocated) or an invalid pointer such as (char*)1 (allocation pending).
	*/
	static inline int b_is_null(const struct buffer *buf)
	{
	return buf->size == 0;
	}

	/* b_orig() : returns the pointer to the origin of the storage, which is the
	* location of byte at offset zero. This is mostly used by functions which
	* handle the wrapping by themselves.
	*/
	static inline char b_orig(const struct buffer b)
	{
	return b->area;
	}

	/* b_size() : returns the size of the buffer. */
	static inline size_t b_size(const struct buffer *b)
	{
	return b->size;
	}

	/* b_wrap() : returns the pointer to the wrapping position of the buffer area,
	* which is by definition the first byte not part of the buffer.
	*/
	static inline char b_wrap(const struct buffer b)
	{
	return b->area + b->size;
	}

	/* b_data() : returns the number of bytes present in the buffer. */
	static inline size_t b_data(const struct buffer *b)
	{
	return b->data;
	}

	/* b_room() : returns the amount of room left in the buffer */
	static inline size_t b_room(const struct buffer *b)
	{
	return b->size - b_data(b);
	}

	/* b_full() : returns true if the buffer is full. */
	static inline size_t b_full(const struct buffer *b)
	{
	return !b_room(b);
	}


	/* b_stop() : returns the pointer to the byte following the end of the buffer,
	* which may be out of the buffer if the buffer ends on the last byte of the
	* area.
	*/
	static inline size_t __b_stop_ofs(const struct buffer *b)
	{
	return b->head + b->data;
	}

	static inline const char __b_stop(const struct buffer b)
	{
	return b_orig(b) + __b_stop_ofs(b);
	}

	static inline size_t b_stop_ofs(const struct buffer *b)
	{
	size_t stop = __b_stop_ofs(b);

	if (stop > b->size)
	stop -= b->size;
	return stop;
	}

	static inline const char b_stop(const struct buffer b)
	{
	return b_orig(b) + b_stop_ofs(b);
	}


	/* b_peek() : returns a pointer to the data at position <ofs> relative to the
	* head of the buffer. Will typically point to input data if called with the
	* amount of output data. The wrapped versions will only support wrapping once
	* before the beginning or after the end.
	*/
	static inline size_t __b_peek_ofs(const struct buffer *b, size_t ofs)
	{
	return b->head + ofs;
	}

	static inline char __b_peek(const struct buffer b, size_t ofs)
	{
	return b_orig(b) + __b_peek_ofs(b, ofs);
	}

	static inline size_t b_peek_ofs(const struct buffer *b, size_t ofs)
	{
	size_t ret = __b_peek_ofs(b, ofs);

	if (ret >= b->size)
	ret -= b->size;

	return ret;
	}

	static inline char b_peek(const struct buffer b, size_t ofs)
	{
	return b_orig(b) + b_peek_ofs(b, ofs);
	}


	/* b_head() : returns the pointer to the buffer's head, which is the location
	* of the next byte to be dequeued. Note that for buffers of size zero, the
	* returned pointer may be outside of the buffer or even invalid.
	*/
	static inline size_t __b_head_ofs(const struct buffer *b)
	{
	return b->head;
	}

	static inline char __b_head(const struct buffer b)
	{
	return b_orig(b) + __b_head_ofs(b);
	}

	static inline size_t b_head_ofs(const struct buffer *b)
	{
	return __b_head_ofs(b);
	}

	static inline char b_head(const struct buffer b)
	{
	return __b_head(b);
	}


	/* b_tail() : returns the pointer to the tail of the buffer, which is the
	* location of the first byte where it is possible to enqueue new data. Note
	* that for buffers of size zero, the returned pointer may be outside of the
	* buffer or even invalid.
	*/
	static inline size_t __b_tail_ofs(const struct buffer *b)
	{
	return __b_peek_ofs(b, b_data(b));
	}

	static inline char __b_tail(const struct buffer b)
	{
	return __b_peek(b, b_data(b));
	}

	static inline size_t b_tail_ofs(const struct buffer *b)
	{
	return b_peek_ofs(b, b_data(b));
	}

	static inline char b_tail(const struct buffer b)
	{
	return b_peek(b, b_data(b));
	}


	/* b_next() : for an absolute pointer <p> or a relative offset <o> pointing to
	* a valid location within buffer <b>, returns either the absolute pointer or
	* the relative offset pointing to the next byte, which usually is at (p + 1)
	* unless p reaches the wrapping point and wrapping is needed.
	*/
	static inline size_t b_next_ofs(const struct buffer *b, size_t o)
	{
	o++;
	if (o == b->size)
	o = 0;
	return o;
	}

	static inline char b_next(const struct buffer b, const char *p)
	{
	p++;
	if (p == b_wrap(b))
	p = b_orig(b);
	return (char *)p;
	}

	/* b_dist() : returns the distance between two pointers, taking into account
	* the ability to wrap around the buffer's end. The operation is not defined if
	* either of the pointers does not belong to the buffer or if their distance is
	* greater than the buffer's size.
	*/
	static inline size_t b_dist(const struct buffer b, const char from, const char *to)
	{
	ssize_t dist = to - from;

	dist += dist < 0 ? b_size(b) : 0;
	return dist;
	}

	/* b_almost_full() : returns 1 if the buffer uses at least 3/4 of its capacity,
	* otherwise zero. Buffers of size zero are considered full.
	*/
	static inline int b_almost_full(const struct buffer *b)
	{
	return b_data(b) >= b_size(b) * 3 / 4;
	}

	/* b_space_wraps() : returns non-zero only if the buffer's free space wraps :
	* [ \|xxxx\| ] => yes
	* [xxxx\| ] => no
	* [ \|xxxx] => no
	* [xxxx\| \|xxxx] => no
	* [xxxxxxxxxx\|xxxxxxxxxxx] => 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 (head <= 0) ==> doesn't wrap
	* - if (tail >= size) ==> doesn't wrap
	* - otherwise wraps
	*/
	static inline int b_space_wraps(const struct buffer *b)
	{
	if ((ssize_t)__b_head_ofs(b) <= 0)
	return 0;
	if (__b_tail_ofs(b) >= b_size(b))
	return 0;
	return 1;
	}

	/* b_contig_data() : returns the amount of data that can contiguously be read
	* at once starting from a relative offset <start> (which allows to easily
	* pre-compute blocks for memcpy). The start point will typically contain the
	* amount of past data already returned by a previous call to this function.
	*/
	static inline size_t b_contig_data(const struct buffer *b, size_t start)
	{
	size_t data = b_wrap(b) - b_peek(b, start);
	size_t limit = b_data(b) - start;

	if (data > limit)
	data = limit;
	return data;
	}

	/* b_contig_space() : returns the amount of bytes that can be appended to the
	* buffer at once. We have 8 possible cases :
	*
	* [____________________] return size
	* [______\|_____________] return size - tail_ofs
	* [XXXXXX\|_____________] return size - tail_ofs
	* [___\|XXXXXX\|_________] return size - tail_ofs
	* [______________XXXXXX] return head_ofs
	* [XXXX\|___________\|XXX] return head_ofs - tail_ofs
	* [XXXXXXXXXX\|XXXXXXXXX] return 0
	* [XXXXXXXXXXXXXXXXXXXX] return 0
	*/
	static inline size_t b_contig_space(const struct buffer *b)
	{
	size_t left, right;

	right = b_head_ofs(b);
	left = right + b_data(b);

	left = b_size(b) - left;
	if ((ssize_t)left <= 0)
	left += right;
	return left;
	}

	/* b_getblk() : gets one full block of data at once from a buffer, starting
	* from offset <offset> after the buffer's head, and limited to no more than
	* <len> bytes. The caller is responsible for ensuring that neither <offset>
	* nor <offset>+<len> exceed the total number of bytes available in the buffer.
	* 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 size_t b_getblk(const struct buffer buf, char blk, size_t len, size_t offset)
	{
	size_t firstblock;

	if (len + offset > b_data(buf))
	return 0;

	firstblock = b_wrap(buf) - b_head(buf);
	if (firstblock > offset) {
	if (firstblock >= len + offset) {
	memcpy(blk, b_head(buf) + offset, len);
	return len;
	}

	memcpy(blk, b_head(buf) + offset, firstblock - offset);
	memcpy(blk + firstblock - offset, b_orig(buf), len - firstblock + offset);
	return len;
	}

	memcpy(blk, b_orig(buf) + offset - firstblock, len);
	return len;
	}

	/* b_getblk_nc() : gets one or two blocks of data at once from a buffer,
	* starting from offset <ofs> after the beginning of its output, and limited to
	* no more than <max> bytes. The caller is responsible for ensuring that
	* neither <ofs> nor <ofs>+<max> exceed the total number of bytes available in
	* the buffer. 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 size_t b_getblk_nc(const struct buffer buf, const char blk1, size_t len1, const char *blk2, size_t len2, size_t ofs, size_t max)
	{
	size_t l1;

	if (!max)
	return 0;

	*blk1 = b_peek(buf, ofs);
	l1 = b_wrap(buf) - *blk1;
	if (l1 < max) {
	*len1 = l1;
	*len2 = max - l1;
	*blk2 = b_orig(buf);
	return 2;
	}
	*len1 = max;
	return 1;
	}


	/*********************************************/
	/* Functions used to modify the buffer state */
	/*********************************************/

	/* b_reset() : resets a buffer. The size is not touched. */
	static inline void b_reset(struct buffer *b)
	{
	b->head = 0;
	b->data = 0;
	}

	/* b_sub() : decreases the buffer length by <count> */
	static inline void b_sub(struct buffer *b, size_t count)
	{
	b->data -= count;
	}

	/* b_add() : increase the buffer length by <count> */
	static inline void b_add(struct buffer *b, size_t count)
	{
	b->data += count;
	}

	/* b_set_data() : sets the buffer's length */
	static inline void b_set_data(struct buffer *b, size_t len)
	{
	b->data = len;
	}

	/* b_del() : skips <del> bytes in a buffer <b>. Covers both the output and the
	* input parts so it's up to the caller to know where it plays and that <del>
	* is always smaller than the amount of data in the buffer.
	*/
	static inline void b_del(struct buffer *b, size_t del)
	{
	b->data -= del;
	b->head += del;
	if (b->head >= b->size)
	b->head -= b->size;
	}

	/* b_realign_if_empty() : realigns a buffer if it's empty */
	static inline void b_realign_if_empty(struct buffer *b)
	{
	if (!b_data(b))
	b->head = 0;
	}

	/* b_slow_realign() : this function realigns a possibly wrapping buffer so that
	* the part remaining to be parsed is contiguous and starts at the beginning of
	* the buffer and the already parsed output part ends at the end of the buffer.
	* This provides the best conditions since it allows the largest inputs to be
	* processed at once and ensures that once the output data leaves, the whole
	* buffer is available at once. The number of output bytes supposedly present
	* at the beginning of the buffer and which need to be moved to the end must be
	* passed in <output>. A temporary swap area at least as large as b->size must
	* be provided in <swap>. It's up to the caller to ensure <output> is no larger
	* than the difference between the whole buffer's length and its input.
	*/
	static inline void b_slow_realign(struct buffer b, char swap, size_t output)
	{
	size_t block1 = output;
	size_t block2 = 0;

	/* process output data in two steps to cover wrapping */
	if (block1 > b_size(b) - b_head_ofs(b)) {
	block2 = b_size(b) - b_head_ofs(b);
	block1 -= block2;
	}
	memcpy(swap + b_size(b) - output, b_head(b), block1);
	memcpy(swap + b_size(b) - block2, b_orig(b), block2);

	/* process input data in two steps to cover wrapping */
	block1 = b_data(b) - output;
	block2 = 0;

	if (block1 > b_tail_ofs(b)) {
	block2 = b_tail_ofs(b);
	block1 = block1 - block2;
	}
	memcpy(swap, b_peek(b, output), block1);
	memcpy(swap + block1, b_orig(b), block2);

	/* reinject changes into the buffer */
	memcpy(b_orig(b), swap, b_data(b) - output);
	memcpy(b_wrap(b) - output, swap + b_size(b) - output, output);

	b->head = (output ? b_size(b) - output : 0);
	}

	/* b_putchar() : tries to append char <c> at the end of buffer <b>. Supports
	* wrapping. Data are truncated if buffer is full.
	*/
	static inline void b_putchr(struct buffer *b, char c)
	{
	if (b_full(b))
	return;
	*b_tail(b) = c;
	b->data++;
	}

	/* __b_putblk() : tries to append <len> bytes from block <blk> to the end of
	* buffer <b> without checking for free space (it's up to the caller to do it).
	* Supports wrapping. It must not be called with len == 0.
	*/
	static inline void __b_putblk(struct buffer b, const char blk, size_t len)
	{
	size_t half = b_contig_space(b);

	if (half > len)
	half = len;

	memcpy(b_tail(b), blk, half);

	if (len > half)
	memcpy(b_peek(b, b_data(b) + half), blk + half, len - half);
	b->data += len;
	}

	/* b_putblk() : tries to append block <blk> at the end of buffer <b>. Supports
	* wrapping. Data are truncated if buffer is too short. It returns the number
	* of bytes copied.
	*/
	static inline size_t b_putblk(struct buffer b, const char blk, size_t len)
	{
	if (len > b_room(b))
	len = b_room(b);
	if (len)
	__b_putblk(b, blk, len);
	return len;
	}

	/* b_xfer() : transfers at most <count> bytes from buffer <src> to buffer <dst>
	* and returns the number of bytes copied. The bytes are removed from <src> and
	* added to <dst>. The caller is responsible for ensuring that <count> is not
	* larger than b_room(dst). Whenever possible (if the destination is empty and
	* at least as much as the source was requested), the buffers are simply
	* swapped instead of copied.
	*/
	static inline size_t b_xfer(struct buffer dst, struct buffer src, size_t count)
	{
	size_t ret, block1, block2;

	ret = 0;
	if (!count)
	goto leave;

	ret = b_data(src);
	if (!ret)
	goto leave;

	if (ret > count)
	ret = count;
	else if (!b_data(dst)) {
	/* zero copy is possible by just swapping buffers */
	struct buffer tmp = *dst;
	dst = src;
	*src = tmp;
	goto leave;
	}

	block1 = b_contig_data(src, 0);
	if (block1 > ret)
	block1 = ret;
	block2 = ret - block1;

	if (block1)
	__b_putblk(dst, b_head(src), block1);

	if (block2)
	__b_putblk(dst, b_peek(src, block1), block2);

	b_del(src, ret);
	leave:
	return ret;
	}

	/* Moves <len> bytes from absolute position <src> of buffer <b> by <shift>
	* bytes, while supporting wrapping of both the source and the destination.
	* The position is relative to the buffer's origin and may overlap with the
	* target position. The <shift>'s absolute value must be strictly lower than
	* the buffer's size. The main purpose is to aggregate data block during
	* parsing while removing unused delimiters. The buffer's length is not
	* modified, and the caller must take care of size adjustments and holes by
	* itself.
	*/
	static inline void b_move(const struct buffer *b, size_t src, size_t len, ssize_t shift)
	{
	char *orig = b_orig(b);
	size_t size = b_size(b);
	size_t dst = src + size + shift;
	size_t cnt;

	if (dst >= size)
	dst -= size;

	if (shift < 0) {
	/* copy from left to right */
	for (; (cnt = len); len -= cnt) {
	if (cnt > size - src)
	cnt = size - src;
	if (cnt > size - dst)
	cnt = size - dst;

	memmove(orig + dst, orig + src, cnt);
	dst += cnt;
	src += cnt;
	if (dst >= size)
	dst -= size;
	if (src >= size)
	src -= size;
	}
	}
	else if (shift > 0) {
	/* copy from right to left */
	for (; (cnt = len); len -= cnt) {
	size_t src_end = src + len;
	size_t dst_end = dst + len;

	if (dst_end > size)
	dst_end -= size;
	if (src_end > size)
	src_end -= size;

	if (cnt > dst_end)
	cnt = dst_end;
	if (cnt > src_end)
	cnt = src_end;

	memmove(orig + dst_end - cnt, orig + src_end - cnt, cnt);
	}
	}
	}

	/* b_rep_blk() : writes the block <blk> at position <pos> which must be in
	* buffer <b>, and moves the part between <end> and the buffer's tail just
	* after the end of the copy of <blk>. This effectively replaces the part
	* located between <pos> and <end> with a copy of <blk> of length <len>. The
	* buffer's length is automatically updated. This is used to replace a block
	* with another one inside a buffer. The shift value (positive or negative) is
	* returned. If there's no space left, the move is not done. If <len> is null,
	* the <blk> pointer is allowed to be null, in order to erase a block.
	*/
	static inline int b_rep_blk(struct buffer b, char pos, char end, const char blk, size_t len)
	{
	int delta;

	delta = len - (end - pos);

	if (__b_tail(b) + delta > b_wrap(b))
	return 0; /* no space left */

	if (b_data(b) &&
	b_tail(b) + delta > b_head(b) &&
	b_head(b) >= b_tail(b))
	return 0; /* no space left before wrapping data */

	/* first, protect the end of the buffer */
	memmove(end + delta, end, b_tail(b) - end);

	/* now, copy blk over pos */
	if (len)
	memcpy(pos, blk, len);

	b_add(b, delta);
	b_realign_if_empty(b);

	return delta;
	}


	#endif /* _COMMON_BUF_H */

	/*
	* Local variables:
	* c-indent-level: 8
	* c-basic-offset: 8
	* End:
	*/