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#ifndef INCLUDED_RINGBUF_H
#define INCLUDED_RINGBUF_H
/*
* ringbuf.h - C ring buffer (FIFO) interface.
*
* Written in 2011 by Drew Hess <dhess-src@bothan.net>.
*
* To the extent possible under law, the author(s) have dedicated all
* copyright and related and neighboring rights to this software to
* the public domain worldwide. This software is distributed without
* any warranty.
*
* You should have received a copy of the CC0 Public Domain Dedication
* along with this software. If not, see
* <http://creativecommons.org/publicdomain/zero/1.0/>.
*/
/*
* A byte-addressable ring buffer FIFO implementation.
*
* The ring buffer's head pointer points to the starting location
* where data should be written when copying data *into* the buffer
* (e.g., with ringbuf_read). The ring buffer's tail pointer points to
* the starting location where data should be read when copying data
* *from* the buffer (e.g., with ringbuf_write).
*/
#include <stddef.h>
#include <sys/types.h>
typedef struct ringbuf_t *ringbuf_t;
/*
* Create a new ring buffer with the given capacity (usable
* bytes). Note that the actual internal buffer size may be one or
* more bytes larger than the usable capacity, for bookkeeping.
*
* Returns the new ring buffer object, or 0 if there's not enough
* memory to fulfill the request for the given capacity.
*/
ringbuf_t
ringbuf_new(size_t capacity);
/*
* The size of the internal buffer, in bytes. One or more bytes may be
* unusable in order to distinguish the "buffer full" state from the
* "buffer empty" state.
*
* For the usable capacity of the ring buffer, use the
* ringbuf_capacity function.
*/
size_t
ringbuf_buffer_size(const struct ringbuf_t *rb);
/*
* Deallocate a ring buffer, and, as a side effect, set the pointer to
* 0.
*/
void
ringbuf_free(ringbuf_t *rb);
/*
* Reset a ring buffer to its initial state (empty).
*/
void
ringbuf_reset(ringbuf_t rb);
/*
* The usable capacity of the ring buffer, in bytes. Note that this
* value may be less than the ring buffer's internal buffer size, as
* returned by ringbuf_buffer_size.
*/
size_t
ringbuf_capacity(const struct ringbuf_t *rb);
/*
* The number of free/available bytes in the ring buffer. This value
* is never larger than the ring buffer's usable capacity.
*/
size_t
ringbuf_bytes_free(const struct ringbuf_t *rb);
/*
* The number of bytes currently being used in the ring buffer. This
* value is never larger than the ring buffer's usable capacity.
*/
size_t
ringbuf_bytes_used(const struct ringbuf_t *rb);
int
ringbuf_is_full(const struct ringbuf_t *rb);
int
ringbuf_is_empty(const struct ringbuf_t *rb);
/*
* Const access to the head and tail pointers of the ring buffer.
*/
const void *
ringbuf_tail(const struct ringbuf_t *rb);
const void *
ringbuf_head(const struct ringbuf_t *rb);
/*
* Locate the first occurrence of character c (converted to an
* unsigned char) in ring buffer rb, beginning the search at offset
* bytes from the ring buffer's tail pointer. The function returns the
* offset of the character from the ring buffer's tail pointer, if
* found. If c does not occur in the ring buffer, the function returns
* the number of bytes used in the ring buffer.
*
* Note that the offset parameter and the returned offset are logical
* offsets from the tail pointer, not necessarily linear offsets.
*/
size_t
ringbuf_findchr(const struct ringbuf_t *rb, int c, size_t offset);
/*
* Beginning at ring buffer dst's head pointer, fill the ring buffer
* with a repeating sequence of len bytes, each of value c (converted
* to an unsigned char). len can be as large as you like, but the
* function will never write more than ringbuf_buffer_size(dst) bytes
* in a single invocation, since that size will cause all bytes in the
* ring buffer to be written exactly once each.
*
* Note that if len is greater than the number of free bytes in dst,
* the ring buffer will overflow. When an overflow occurs, the state
* of the ring buffer is guaranteed to be consistent, including the
* head and tail pointers; old data will simply be overwritten in FIFO
* fashion, as needed. However, note that, if calling the function
* results in an overflow, the value of the ring buffer's tail pointer
* may be different than it was before the function was called.
*
* Returns the actual number of bytes written to dst: len, if
* len < ringbuf_buffer_size(dst), else ringbuf_buffer_size(dst).
*/
size_t
ringbuf_memset(ringbuf_t dst, int c, size_t len);
/*
* Copy n bytes from a contiguous memory area src into the ring buffer
* dst. Returns the ring buffer's new head pointer.
*
* It is possible to copy more data from src than is available in the
* buffer; i.e., it's possible to overflow the ring buffer using this
* function. When an overflow occurs, the state of the ring buffer is
* guaranteed to be consistent, including the head and tail pointers;
* old data will simply be overwritten in FIFO fashion, as
* needed. However, note that, if calling the function results in an
* overflow, the value of the ring buffer's tail pointer may be
* different than it was before the function was called.
*/
void *
ringbuf_memcpy_into(ringbuf_t dst, const void *src, size_t count);
/*
* This convenience function calls read(2) on the file descriptor fd,
* using the ring buffer rb as the destination buffer for the read,
* and returns the value returned by read(2). It will only call
* read(2) once, and may return a short count.
*
* It is possible to read more data from the file descriptor than is
* available in the buffer; i.e., it's possible to overflow the ring
* buffer using this function. When an overflow occurs, the state of
* the ring buffer is guaranteed to be consistent, including the head
* and tail pointers: old data will simply be overwritten in FIFO
* fashion, as needed. However, note that, if calling the function
* results in an overflow, the value of the ring buffer's tail pointer
* may be different than it was before the function was called.
*/
ssize_t
ringbuf_read(int fd, ringbuf_t rb, size_t count);
/*
* Copy n bytes from the ring buffer src, starting from its tail
* pointer, into a contiguous memory area dst. Returns the value of
* src's tail pointer after the copy is finished.
*
* Note that this copy is destructive with respect to the ring buffer:
* the n bytes copied from the ring buffer are no longer available in
* the ring buffer after the copy is complete, and the ring buffer
* will have n more free bytes than it did before the function was
* called.
*
* This function will *not* allow the ring buffer to underflow. If
* count is greater than the number of bytes used in the ring buffer,
* no bytes are copied, and the function will return 0.
*/
void *
ringbuf_memcpy_from(void *dst, ringbuf_t src, size_t count);
/*
* This convenience function calls write(2) on the file descriptor fd,
* using the ring buffer rb as the source buffer for writing (starting
* at the ring buffer's tail pointer), and returns the value returned
* by write(2). It will only call write(2) once, and may return a
* short count.
*
* Note that this copy is destructive with respect to the ring buffer:
* any bytes written from the ring buffer to the file descriptor are
* no longer available in the ring buffer after the copy is complete,
* and the ring buffer will have N more free bytes than it did before
* the function was called, where N is the value returned by the
* function (unless N is < 0, in which case an error occurred and no
* bytes were written).
*
* This function will *not* allow the ring buffer to underflow. If
* count is greater than the number of bytes used in the ring buffer,
* no bytes are written to the file descriptor, and the function will
* return 0.
*/
ssize_t
ringbuf_write(int fd, ringbuf_t rb, size_t count);
/*
* Copy count bytes from ring buffer src, starting from its tail
* pointer, into ring buffer dst. Returns dst's new head pointer after
* the copy is finished.
*
* Note that this copy is destructive with respect to the ring buffer
* src: any bytes copied from src into dst are no longer available in
* src after the copy is complete, and src will have 'count' more free
* bytes than it did before the function was called.
*
* It is possible to copy more data from src than is available in dst;
* i.e., it's possible to overflow dst using this function. When an
* overflow occurs, the state of dst is guaranteed to be consistent,
* including the head and tail pointers; old data will simply be
* overwritten in FIFO fashion, as needed. However, note that, if
* calling the function results in an overflow, the value dst's tail
* pointer may be different than it was before the function was
* called.
*
* It is *not* possible to underflow src; if count is greater than the
* number of bytes used in src, no bytes are copied, and the function
* returns 0.
*/
void *
ringbuf_copy(ringbuf_t dst, ringbuf_t src, size_t count);
#endif /* INCLUDED_RINGBUF_H */
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