include/ring_buffer.h - third_party/github/zephyrproject-rtos/zephyr - Git at Google

 /* ring_buffer.h: Simple ring buffer API */

 /*
  * Copyright (c) 2015 Intel Corporation
  *
  * SPDX-License-Identifier: Apache-2.0
  */
 /** @file */

 #ifndef __RING_BUFFER_H__
 #define __RING_BUFFER_H__

 #include <kernel.h>
 #include <misc/util.h>
 #include <errno.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 #define SIZE32_OF(x) (sizeof((x))/sizeof(u32_t))

 /**
  * @brief A structure to represent a ring buffer
  */
 struct ring_buf {
 	u32_t head;	 /**< Index in buf for the head element */
 	u32_t tail;	 /**< Index in buf for the tail element */
 	u32_t dropped_put_count; /**< Running tally of the number of failed
 				     * put attempts
 				     */
 	u32_t size;   /**< Size of buf in 32-bit chunks */
 	u32_t *buf;	 /**< Memory region for stored entries */
 	u32_t mask;   /**< Modulo mask if size is a power of 2 */
 };

 /**
  * @defgroup ring_buffer_apis Ring Buffer APIs
  * @ingroup kernel_apis
  * @{
  */

 /**
  * @brief Statically define and initialize a high performance ring buffer.
  *
  * This macro establishes a ring buffer whose size must be a power of 2;
  * that is, the ring buffer contains 2^pow 32-bit words, where @a pow is
  * the specified ring buffer size exponent. A high performance ring buffer
  * doesn't require the use of modulo arithmetic operations to maintain itself.
  *
  * The ring buffer can be accessed outside the module where it is defined
  * using:
  *
  * @code extern struct ring_buf <name>; @endcode
  *
  * @param name Name of the ring buffer.
  * @param pow Ring buffer size exponent.
  */
 #define SYS_RING_BUF_DECLARE_POW2(name, pow) \
 	static u32_t _ring_buffer_data_##name[1 << (pow)]; \
 	struct ring_buf name = { \
 		.size = (1 << (pow)), \
 		.mask = (1 << (pow)) - 1, \
 		.buf = _ring_buffer_data_##name \
 	};

 /**
  * @brief Statically define and initialize a standard ring buffer.
  *
  * This macro establishes a ring buffer of an arbitrary size. A standard
  * ring buffer uses modulo arithmetic operations to maintain itself.
  *
  * The ring buffer can be accessed outside the module where it is defined
  * using:
  *
  * @code extern struct ring_buf <name>; @endcode
  *
  * @param name Name of the ring buffer.
  * @param size32 Size of ring buffer (in 32-bit words).
  */
 #define SYS_RING_BUF_DECLARE_SIZE(name, size32) \
 	static u32_t _ring_buffer_data_##name[size32]; \
 	struct ring_buf name = { \
 		.size = size32, \
 		.buf = _ring_buffer_data_##name \
 	};

 /**
  * @brief Initialize a ring buffer.
  *
  * This routine initializes a ring buffer, prior to its first use. It is only
  * used for ring buffers not defined using SYS_RING_BUF_DECLARE_POW2 or
  * SYS_RING_BUF_DECLARE_SIZE.
  *
  * Setting @a size to a power of 2 establishes a high performance ring buffer
  * that doesn't require the use of modulo arithmetic operations to maintain
  * itself.
  *
  * @param buf Address of ring buffer.
  * @param size Ring buffer size (in 32-bit words).
  * @param data Ring buffer data area (typically u32_t data[size]).
  */
 static inline void sys_ring_buf_init(struct ring_buf *buf, u32_t size,
 				     u32_t *data)
 {
 	buf->head = 0;
 	buf->tail = 0;
 	buf->dropped_put_count = 0;
 	buf->size = size;
 	buf->buf = data;
 	if (is_power_of_two(size)) {
 		buf->mask = size - 1;
 	} else {
 		buf->mask = 0;
 	}

 }

 /**
  * @brief Determine if a ring buffer is empty.
  *
  * @param buf Address of ring buffer.
  *
  * @return 1 if the ring buffer is empty, or 0 if not.
  */
 static inline int sys_ring_buf_is_empty(struct ring_buf *buf)
 {
 	return (buf->head == buf->tail);
 }

 /**
  * @brief Determine free space in a ring buffer.
  *
  * @param buf Address of ring buffer.
  *
  * @return Ring buffer free space (in 32-bit words).
  */
 static inline int sys_ring_buf_space_get(struct ring_buf *buf)
 {
 	if (sys_ring_buf_is_empty(buf)) {
 		return buf->size - 1;
 	}

 	if (buf->tail < buf->head) {
 		return buf->head - buf->tail - 1;
 	}

 	/* buf->tail > buf->head */
 	return (buf->size - buf->tail) + buf->head - 1;
 }

 /**
  * @brief Write a data item to a ring buffer.
  *
  * This routine writes a data item to ring buffer @a buf. The data item
  * is an array of 32-bit words (from zero to 1020 bytes in length),
  * coupled with a 16-bit type identifier and an 8-bit integer value.
  *
  * @warning
  * Use cases involving multiple writers to the ring buffer must prevent
  * concurrent write operations, either by preventing all writers from
  * being preempted or by using a mutex to govern writes to the ring buffer.
  *
  * @param buf Address of ring buffer.
  * @param type Data item's type identifier (application specific).
  * @param value Data item's integer value (application specific).
  * @param data Address of data item.
  * @param size32 Data item size (number of 32-bit words).
  *
  * @retval 0 Data item was written.
  * @retval -EMSGSIZE Ring buffer has insufficient free space.
  */
 int sys_ring_buf_put(struct ring_buf *buf, u16_t type, u8_t value,
 		     u32_t *data, u8_t size32);

 /**
  * @brief Read a data item from a ring buffer.
  *
  * This routine reads a data item from ring buffer @a buf. The data item
  * is an array of 32-bit words (up to 1020 bytes in length),
  * coupled with a 16-bit type identifier and an 8-bit integer value.
  *
  * @warning
  * Use cases involving multiple reads of the ring buffer must prevent
  * concurrent read operations, either by preventing all readers from
  * being preempted or by using a mutex to govern reads to the ring buffer.
  *
  * @param buf Address of ring buffer.
  * @param type Area to store the data item's type identifier.
  * @param value Area to store the data item's integer value.
  * @param data Area to store the data item.
  * @param size32 Size of the data item storage area (number of 32-bit chunks).
  *
  * @retval 0 Data item was fetched; @a size32 now contains the number of
  *         32-bit words read into data area @a data.
  * @retval -EAGAIN Ring buffer is empty.
  * @retval -EMSGSIZE Data area @a data is too small; @a size32 now contains
  *         the number of 32-bit words needed.
  */
 int sys_ring_buf_get(struct ring_buf *buf, u16_t *type, u8_t *value,
 		     u32_t *data, u8_t *size32);

 /**
  * @}
  */

 #ifdef __cplusplus
 }
 #endif

 #endif /* __RING_BUFFER_H__ */
	/* ring_buffer.h: Simple ring buffer API */

	/*
	* Copyright (c) 2015 Intel Corporation
	*
	* SPDX-License-Identifier: Apache-2.0
	*/
	/** @file */

	#ifndef __RING_BUFFER_H__
	#define __RING_BUFFER_H__

	#include <kernel.h>
	#include <misc/util.h>
	#include <errno.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	#define SIZE32_OF(x) (sizeof((x))/sizeof(u32_t))

	/**
	* @brief A structure to represent a ring buffer
	*/
	struct ring_buf {
	u32_t head; /*< Index in buf for the head element /
	u32_t tail; /*< Index in buf for the tail element /
	u32_t dropped_put_count; /**< Running tally of the number of failed
	* put attempts
	*/
	u32_t size; /*< Size of buf in 32-bit chunks /
	u32_t buf; /< Memory region for stored entries /
	u32_t mask; /*< Modulo mask if size is a power of 2 /
	};

	/**
	* @defgroup ring_buffer_apis Ring Buffer APIs
	* @ingroup kernel_apis
	* @{
	*/

	/**
	* @brief Statically define and initialize a high performance ring buffer.
	*
	* This macro establishes a ring buffer whose size must be a power of 2;
	* that is, the ring buffer contains 2^pow 32-bit words, where @a pow is
	* the specified ring buffer size exponent. A high performance ring buffer
	* doesn't require the use of modulo arithmetic operations to maintain itself.
	*
	* The ring buffer can be accessed outside the module where it is defined
	* using:
	*
	* @code extern struct ring_buf <name>; @endcode
	*
	* @param name Name of the ring buffer.
	* @param pow Ring buffer size exponent.
	*/
	#define SYS_RING_BUF_DECLARE_POW2(name, pow) \
	static u32_t _ring_buffer_data_##name[1 << (pow)]; \
	struct ring_buf name = { \
	.size = (1 << (pow)), \
	.mask = (1 << (pow)) - 1, \
	.buf = _ring_buffer_data_##name \
	};

	/**
	* @brief Statically define and initialize a standard ring buffer.
	*
	* This macro establishes a ring buffer of an arbitrary size. A standard
	* ring buffer uses modulo arithmetic operations to maintain itself.
	*
	* The ring buffer can be accessed outside the module where it is defined
	* using:
	*
	* @code extern struct ring_buf <name>; @endcode
	*
	* @param name Name of the ring buffer.
	* @param size32 Size of ring buffer (in 32-bit words).
	*/
	#define SYS_RING_BUF_DECLARE_SIZE(name, size32) \
	static u32_t _ring_buffer_data_##name[size32]; \
	struct ring_buf name = { \
	.size = size32, \
	.buf = _ring_buffer_data_##name \
	};

	/**
	* @brief Initialize a ring buffer.
	*
	* This routine initializes a ring buffer, prior to its first use. It is only
	* used for ring buffers not defined using SYS_RING_BUF_DECLARE_POW2 or
	* SYS_RING_BUF_DECLARE_SIZE.
	*
	* Setting @a size to a power of 2 establishes a high performance ring buffer
	* that doesn't require the use of modulo arithmetic operations to maintain
	* itself.
	*
	* @param buf Address of ring buffer.
	* @param size Ring buffer size (in 32-bit words).
	* @param data Ring buffer data area (typically u32_t data[size]).
	*/
	static inline void sys_ring_buf_init(struct ring_buf *buf, u32_t size,
	u32_t *data)
	{
	buf->head = 0;
	buf->tail = 0;
	buf->dropped_put_count = 0;
	buf->size = size;
	buf->buf = data;
	if (is_power_of_two(size)) {
	buf->mask = size - 1;
	} else {
	buf->mask = 0;
	}

	}

	/**
	* @brief Determine if a ring buffer is empty.
	*
	* @param buf Address of ring buffer.
	*
	* @return 1 if the ring buffer is empty, or 0 if not.
	*/
	static inline int sys_ring_buf_is_empty(struct ring_buf *buf)
	{
	return (buf->head == buf->tail);
	}

	/**
	* @brief Determine free space in a ring buffer.
	*
	* @param buf Address of ring buffer.
	*
	* @return Ring buffer free space (in 32-bit words).
	*/
	static inline int sys_ring_buf_space_get(struct ring_buf *buf)
	{
	if (sys_ring_buf_is_empty(buf)) {
	return buf->size - 1;
	}

	if (buf->tail < buf->head) {
	return buf->head - buf->tail - 1;
	}

	/* buf->tail > buf->head */
	return (buf->size - buf->tail) + buf->head - 1;
	}

	/**
	* @brief Write a data item to a ring buffer.
	*
	* This routine writes a data item to ring buffer @a buf. The data item
	* is an array of 32-bit words (from zero to 1020 bytes in length),
	* coupled with a 16-bit type identifier and an 8-bit integer value.
	*
	* @warning
	* Use cases involving multiple writers to the ring buffer must prevent
	* concurrent write operations, either by preventing all writers from
	* being preempted or by using a mutex to govern writes to the ring buffer.
	*
	* @param buf Address of ring buffer.
	* @param type Data item's type identifier (application specific).
	* @param value Data item's integer value (application specific).
	* @param data Address of data item.
	* @param size32 Data item size (number of 32-bit words).
	*
	* @retval 0 Data item was written.
	* @retval -EMSGSIZE Ring buffer has insufficient free space.
	*/
	int sys_ring_buf_put(struct ring_buf *buf, u16_t type, u8_t value,
	u32_t *data, u8_t size32);

	/**
	* @brief Read a data item from a ring buffer.
	*
	* This routine reads a data item from ring buffer @a buf. The data item
	* is an array of 32-bit words (up to 1020 bytes in length),
	* coupled with a 16-bit type identifier and an 8-bit integer value.
	*
	* @warning
	* Use cases involving multiple reads of the ring buffer must prevent
	* concurrent read operations, either by preventing all readers from
	* being preempted or by using a mutex to govern reads to the ring buffer.
	*
	* @param buf Address of ring buffer.
	* @param type Area to store the data item's type identifier.
	* @param value Area to store the data item's integer value.
	* @param data Area to store the data item.
	* @param size32 Size of the data item storage area (number of 32-bit chunks).
	*
	* @retval 0 Data item was fetched; @a size32 now contains the number of
	* 32-bit words read into data area @a data.
	* @retval -EAGAIN Ring buffer is empty.
	* @retval -EMSGSIZE Data area @a data is too small; @a size32 now contains
	* the number of 32-bit words needed.
	*/
	int sys_ring_buf_get(struct ring_buf buf, u16_t type, u8_t *value,
	u32_t data, u8_t size32);

	/**
	* @}
	*/

	#ifdef __cplusplus
	}
	#endif

	#endif /* __RING_BUFFER_H__ */