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

 /*
  * Copyright (c) 2018 Nordic Semiconductor ASA
  *
  * SPDX-License-Identifier: Apache-2.0
  */
 #ifndef ZEPHYR_INCLUDE_LOGGING_LOG_MSG_H_
 #define ZEPHYR_INCLUDE_LOGGING_LOG_MSG_H_

 #include <kernel.h>
 #include <atomic.h>
 #include <assert.h>
 #include <string.h>

 #ifdef __cplusplus
 extern "C" {
 #endif

 /**
  * @brief Log message API
  * @defgroup log_msg Log message API
  * @ingroup logger
  * @{
  */

 /** @brief Maximum number of arguments in the standard log entry.
  *
  * It is limited by 4 bit nargs field in the log message.
  */
 #define LOG_MAX_NARGS 15

 /** @brief Number of arguments in the log entry which fits in one chunk.*/
 #define LOG_MSG_NARGS_SINGLE_CHUNK 3

 /** @brief Number of arguments in the head of extended standard log message..*/
 #define LOG_MSG_NARGS_HEAD_CHUNK (LOG_MSG_NARGS_SINGLE_CHUNK - 1)

 /** @brief Maximal amount of bytes in the hexdump entry which fits in one chunk.
  */
 #define LOG_MSG_HEXDUMP_BYTES_SINGLE_CHUNK \
 	(LOG_MSG_NARGS_SINGLE_CHUNK * sizeof(u32_t))

 /** @brief Number of bytes in the first chunk of hexdump message if message
  *         consists of more than one chunk.
  */
 #define LOG_MSG_HEXDUMP_BYTES_HEAD_CHUNK \
 	(LOG_MSG_HEXDUMP_BYTES_SINGLE_CHUNK - sizeof(void *))

 /** @brief Number of bytes that can be stored in chunks following head chunk
  *         in hexdump log message.
  */
 #define HEXDUMP_BYTES_CONT_MSG \
 	(sizeof(struct log_msg) - sizeof(void *))

 #define ARGS_CONT_MSG (HEXDUMP_BYTES_CONT_MSG / sizeof(u32_t))

 /** @brief Flag indicating standard log message. */
 #define LOG_MSG_TYPE_STD 0

 /** @brief Flag indicating hexdump log message. */
 #define LOG_MSG_TYPE_HEXDUMP 1

 /** @brief Common part of log message header. */
 #define COMMON_PARAM_HDR() \
 	u16_t type : 1;	   \
 	u16_t ext : 1

 /** @brief Number of bits used for storing length of hexdump log message. */
 #define LOG_MSG_HEXDUMP_LENGTH_BITS 14

 /** @brief Maximum length of log hexdump message. */
 #define LOG_MSG_HEXDUMP_MAX_LENGTH (BIT(LOG_MSG_HEXDUMP_LENGTH_BITS) - 1)

 /** @brief Part of log message header identifying source and level. */
 struct log_msg_ids {
 	u16_t level     : 3;    /*!< Severity. */
 	u16_t domain_id : 3;    /*!< Originating domain. */
 	u16_t source_id : 10;   /*!< Source ID. */
 };

 BUILD_ASSERT_MSG((sizeof(struct log_msg_ids) == sizeof(u16_t)),
 		  "Structure must fit in 2 bytes");

 /** Part of log message header common to standard and hexdump log message. */
 struct log_msg_generic_hdr {
 	COMMON_PARAM_HDR();
 	u16_t reserved : 14;
 };

 BUILD_ASSERT_MSG((sizeof(struct log_msg_generic_hdr) == sizeof(u16_t)),
 		 "Structure must fit in 2 bytes");

 /** Part of log message header specific to standard log message. */
 struct log_msg_std_hdr {
 	COMMON_PARAM_HDR();
 	u16_t reserved : 10;
 	u16_t nargs    : 4;
 };

 BUILD_ASSERT_MSG((sizeof(struct log_msg_std_hdr) == sizeof(u16_t)),
 		 "Structure must fit in 2 bytes");

 /** Part of log message header specific to hexdump log message. */
 struct log_msg_hexdump_hdr {
 	COMMON_PARAM_HDR();
 	u16_t length     : LOG_MSG_HEXDUMP_LENGTH_BITS;
 };

 BUILD_ASSERT_MSG((sizeof(struct log_msg_hexdump_hdr) == sizeof(u16_t)),
 		 "Structure must fit in 2 bytes");

 /** Log message header structure */
 struct log_msg_hdr {
 	atomic_t ref_cnt; /*!< Reference counter for tracking message users. */
 	union log_msg_hdr_params {
 		struct log_msg_generic_hdr generic;
 		struct log_msg_std_hdr std;
 		struct log_msg_hexdump_hdr hexdump;
 		u16_t raw;
 	} params;
 	struct log_msg_ids ids; /*!< Identification part of the message.*/
 	u32_t timestamp;        /*!< Timestamp. */
 };

 /** @brief Data part of log message. */
 union log_msg_head_data {
 	u32_t args[LOG_MSG_NARGS_SINGLE_CHUNK];
 	u8_t bytes[LOG_MSG_HEXDUMP_BYTES_SINGLE_CHUNK];
 };

 /** @brief Data part of extended log message. */
 struct log_msg_ext_head_data {
 	struct log_msg_cont *next;
 	union log_msg_ext_head_data_data {
 		u32_t args[LOG_MSG_NARGS_HEAD_CHUNK];
 		u8_t bytes[LOG_MSG_HEXDUMP_BYTES_HEAD_CHUNK];
 	} data;
 };

 /** @brief Log message structure. */
 struct log_msg {
 	struct log_msg *next;   /*!< Used by logger core list.*/
 	struct log_msg_hdr hdr; /*!< Message header. */
 	const char *str;
 	union log_msg_data {
 		union log_msg_head_data single;
 		struct log_msg_ext_head_data ext;
 	} payload;                 /*!< Message data. */
 };

 BUILD_ASSERT_MSG((sizeof(union log_msg_head_data) ==
 		  sizeof(struct log_msg_ext_head_data)),
 		  "Structure must be same size");

 /** @brief Chunks following message head when message is extended. */
 struct log_msg_cont {
 	struct log_msg_cont *next; /*!< Pointer to the next chunk. */
 	union log_msg_cont_data {
 		u32_t args[ARGS_CONT_MSG];
 		u8_t bytes[HEXDUMP_BYTES_CONT_MSG];
 	} payload;
 };

 /** @brief Log message */
 union log_msg_chunk {
 	struct log_msg head;
 	struct log_msg_cont cont;
 };

 extern struct k_mem_slab log_msg_pool;

 /** @brief Function for initialization of the log message pool. */
 void log_msg_pool_init(void);

 /** @brief Function for indicating that message is in use.
  *
  *  @details Message can be used (read) by multiple users. Internal reference
  *           counter is atomically increased. See @ref log_msg_put.
  *
  *  @param msg Message.
  */
 void log_msg_get(struct log_msg *msg);

 /** @brief Function for indicating that message is no longer in use.
  *
  *  @details Internal reference counter is atomically decreased. If reference
  *           counter equals 0 message is freed.
  *
  *  @param msg Message.
  */
 void log_msg_put(struct log_msg *msg);

 /** @brief Get domain ID of the message.
  *
  * @param msg Message
  *
  * @return Domain ID.
  */
 static inline u32_t log_msg_domain_id_get(struct log_msg *msg)
 {
 	return msg->hdr.ids.domain_id;
 }

 /** @brief Get source ID (module or instance) of the message.
  *
  * @param msg Message
  *
  * @return Source ID.
  */
 static inline u32_t log_msg_source_id_get(struct log_msg *msg)
 {
 	return msg->hdr.ids.source_id;
 }

 /** @brief Get severity level of the message.
  *
  * @param msg Message
  *
  * @return Severity message.
  */
 static inline u32_t log_msg_level_get(struct log_msg *msg)
 {
 	return msg->hdr.ids.level;
 }

 /** @brief Get timestamp of the message.
  *
  * @param msg Message
  *
  * @return Timestamp value.
  */
 static inline u32_t log_msg_timestamp_get(struct log_msg *msg)
 {
 	return msg->hdr.timestamp;
 }

 /** @brief Check if message is of standard type.
  *
  * @param msg Message
  *
  * @retval true  Standard message.
  * @retval false Hexdump message.
  */
 static inline bool log_msg_is_std(struct log_msg *msg)
 {
 	return  (msg->hdr.params.generic.type == LOG_MSG_TYPE_STD);
 }

 /** @brief Returns number of arguments in standard log message.
  *
  * @param msg Standard log message.
  *
  * @return Number of arguments.
  */
 u32_t log_msg_nargs_get(struct log_msg *msg);

 /** @brief Gets argument from standard log message.
  *
  * @param msg		Standard log message.
  * @param arg_idx	Argument index.
  *
  * @return Argument value or 0 if arg_idx exceeds number of arguments in the
  *	   message.
  */
 u32_t log_msg_arg_get(struct log_msg *msg, u32_t arg_idx);


 /** @brief Gets pointer to the unformatted string from standard log message.
  *
  * @param msg Standard log message.
  *
  * @return Pointer to the string.
  */
 const char *log_msg_str_get(struct log_msg *msg);

 /** @brief Allocates chunks for hexdump message and copies the data.
  *
  *  @details Function resets header and sets following fields:
  *		- message type
  *		- length
  *
  *  @note Allocation and partial filling is combined for performance reasons.
  *
  * @param str		String.
  * @param data		Data.
  * @param length	Data length.
  *
  * @return Pointer to allocated head of the message or NULL
  */
 struct log_msg *log_msg_hexdump_create(const char *str,
 				       const u8_t *data,
 				       u32_t length);

 /** @brief Put data into hexdump log message.
  *
  * @param[in]		msg      Message.
  * @param[in]		data	 Data to be copied.
  * @param[in, out]	length   Input: requested amount. Output: actual amount.
  * @param[in]		offset   Offset.
  */
 void log_msg_hexdump_data_put(struct log_msg *msg,
 			      u8_t *data,
 			      size_t *length,
 			      size_t offset);

 /** @brief Get data from hexdump log message.
  *
  * @param[in]		msg      Message.
  * @param[in]		data	 Buffer for data.
  * @param[in, out]	length   Input: requested amount. Output: actual amount.
  * @param[in]		offset   Offset.
  */
 void log_msg_hexdump_data_get(struct log_msg *msg,
 			      u8_t *data,
 			      size_t *length,
 			      size_t offset);

 union log_msg_chunk *log_msg_no_space_handle(void);

 static inline union log_msg_chunk *log_msg_chunk_alloc(void)
 {
 	union log_msg_chunk *msg = NULL;
 	int err = k_mem_slab_alloc(&log_msg_pool, (void **)&msg, K_NO_WAIT);

 	if (err != 0) {
 		msg = log_msg_no_space_handle();
 	}

 	return msg;
 }

 /** @brief Allocate chunk for standard log message.
  *
  *  @return Allocated chunk of NULL.
  */
 static inline struct log_msg *z_log_msg_std_alloc(void)
 {
 	struct  log_msg *msg = (struct  log_msg *)log_msg_chunk_alloc();

 	if (msg != NULL) {
 		/* all fields reset to 0, reference counter to 1 */
 		msg->hdr.ref_cnt = 1;
 		msg->hdr.params.raw = 0U;
 		msg->hdr.params.std.type = LOG_MSG_TYPE_STD;
 	}

 	return msg;
 }

 /** @brief Create standard log message with no arguments.
  *
  *  @details Function resets header and sets following fields:
  *		- message type
  *		- string pointer
  *
  *  @return Pointer to allocated head of the message or NULL.
  */
 static inline struct log_msg *log_msg_create_0(const char *str)
 {
 	struct log_msg *msg = z_log_msg_std_alloc();

 	if (msg != NULL) {
 		msg->str = str;
 	}

 	return msg;
 }

 /** @brief Create standard log message with one argument.
  *
  *  @details Function resets header and sets following fields:
  *		- message type
  *		- string pointer
  *		- number of arguments
  *		- argument
  *
  *  @param str  String.
  *  @param arg1 Argument.
  *
  *  @return Pointer to allocated head of the message or NULL.
  */
 static inline struct log_msg *log_msg_create_1(const char *str,
 					       u32_t arg1)
 {
 	struct  log_msg *msg = z_log_msg_std_alloc();

 	if (msg != NULL) {
 		msg->str = str;
 		msg->hdr.params.std.nargs = 1U;
 		msg->payload.single.args[0] = arg1;
 	}

 	return msg;
 }

 /** @brief Create standard log message with two arguments.
  *
  *  @details Function resets header and sets following fields:
  *		- message type
  *		- string pointer
  *		- number of arguments
  *		- arguments
  *
  *  @param str  String.
  *  @param arg1 Argument 1.
  *  @param arg2 Argument 2.
  *
  *  @return Pointer to allocated head of the message or NULL.
  */
 static inline struct log_msg *log_msg_create_2(const char *str,
 					       u32_t arg1,
 					       u32_t arg2)
 {
 	struct  log_msg *msg = z_log_msg_std_alloc();

 	if (msg != NULL) {
 		msg->str = str;
 		msg->hdr.params.std.nargs = 2U;
 		msg->payload.single.args[0] = arg1;
 		msg->payload.single.args[1] = arg2;
 	}

 	return msg;
 }

 /** @brief Create standard log message with three arguments.
  *
  *  @details Function resets header and sets following fields:
  *		- message type
  *		- string pointer
  *		- number of arguments
  *		- arguments
  *
  *  @param str  String.
  *  @param arg1 Argument 1.
  *  @param arg2 Argument 2.
  *  @param arg3 Argument 3.
  *
  *  @return Pointer to allocated head of the message or NULL.
  */
 static inline struct log_msg *log_msg_create_3(const char *str,
 					       u32_t arg1,
 					       u32_t arg2,
 					       u32_t arg3)
 {
 	struct  log_msg *msg = z_log_msg_std_alloc();

 	if (msg != NULL) {
 		msg->str = str;
 		msg->hdr.params.std.nargs = 3U;
 		msg->payload.single.args[0] = arg1;
 		msg->payload.single.args[1] = arg2;
 		msg->payload.single.args[2] = arg3;
 	}

 	return msg;
 }

 /** @brief Create standard log message with variable number of arguments.
  *
  *  @details Function resets header and sets following fields:
  *		- message type
  *		- string pointer
  *		- number of arguments
  *		- arguments
  *
  *  @param str   String.
  *  @param args  Array with arguments.
  *  @param nargs Number of arguments.
  *
  *  @return Pointer to allocated head of the message or NULL.
  */
 struct log_msg *log_msg_create_n(const char *str,
 				 u32_t *args,
 				 u32_t nargs);

 /**
  * @}
  */

 #ifdef __cplusplus
 }
 #endif

 #endif /* ZEPHYR_INCLUDE_LOGGING_LOG_MSG_H_ */
	/*
	* Copyright (c) 2018 Nordic Semiconductor ASA
	*
	* SPDX-License-Identifier: Apache-2.0
	*/
	#ifndef ZEPHYR_INCLUDE_LOGGING_LOG_MSG_H_
	#define ZEPHYR_INCLUDE_LOGGING_LOG_MSG_H_

	#include <kernel.h>
	#include <atomic.h>
	#include <assert.h>
	#include <string.h>

	#ifdef __cplusplus
	extern "C" {
	#endif

	/**
	* @brief Log message API
	* @defgroup log_msg Log message API
	* @ingroup logger
	* @{
	*/

	/** @brief Maximum number of arguments in the standard log entry.
	*
	* It is limited by 4 bit nargs field in the log message.
	*/
	#define LOG_MAX_NARGS 15

	/** @brief Number of arguments in the log entry which fits in one chunk.*/
	#define LOG_MSG_NARGS_SINGLE_CHUNK 3

	/** @brief Number of arguments in the head of extended standard log message..*/
	#define LOG_MSG_NARGS_HEAD_CHUNK (LOG_MSG_NARGS_SINGLE_CHUNK - 1)

	/** @brief Maximal amount of bytes in the hexdump entry which fits in one chunk.
	*/
	#define LOG_MSG_HEXDUMP_BYTES_SINGLE_CHUNK \
	(LOG_MSG_NARGS_SINGLE_CHUNK * sizeof(u32_t))

	/** @brief Number of bytes in the first chunk of hexdump message if message
	* consists of more than one chunk.
	*/
	#define LOG_MSG_HEXDUMP_BYTES_HEAD_CHUNK \
	(LOG_MSG_HEXDUMP_BYTES_SINGLE_CHUNK - sizeof(void *))

	/** @brief Number of bytes that can be stored in chunks following head chunk
	* in hexdump log message.
	*/
	#define HEXDUMP_BYTES_CONT_MSG \
	(sizeof(struct log_msg) - sizeof(void *))

	#define ARGS_CONT_MSG (HEXDUMP_BYTES_CONT_MSG / sizeof(u32_t))

	/** @brief Flag indicating standard log message. */
	#define LOG_MSG_TYPE_STD 0

	/** @brief Flag indicating hexdump log message. */
	#define LOG_MSG_TYPE_HEXDUMP 1

	/** @brief Common part of log message header. */
	#define COMMON_PARAM_HDR() \
	u16_t type : 1; \
	u16_t ext : 1

	/** @brief Number of bits used for storing length of hexdump log message. */
	#define LOG_MSG_HEXDUMP_LENGTH_BITS 14

	/** @brief Maximum length of log hexdump message. */
	#define LOG_MSG_HEXDUMP_MAX_LENGTH (BIT(LOG_MSG_HEXDUMP_LENGTH_BITS) - 1)

	/** @brief Part of log message header identifying source and level. */
	struct log_msg_ids {
	u16_t level : 3; /!< Severity. /
	u16_t domain_id : 3; /!< Originating domain. /
	u16_t source_id : 10; /!< Source ID. /
	};

	BUILD_ASSERT_MSG((sizeof(struct log_msg_ids) == sizeof(u16_t)),
	"Structure must fit in 2 bytes");

	/** Part of log message header common to standard and hexdump log message. */
	struct log_msg_generic_hdr {
	COMMON_PARAM_HDR();
	u16_t reserved : 14;
	};

	BUILD_ASSERT_MSG((sizeof(struct log_msg_generic_hdr) == sizeof(u16_t)),
	"Structure must fit in 2 bytes");

	/** Part of log message header specific to standard log message. */
	struct log_msg_std_hdr {
	COMMON_PARAM_HDR();
	u16_t reserved : 10;
	u16_t nargs : 4;
	};

	BUILD_ASSERT_MSG((sizeof(struct log_msg_std_hdr) == sizeof(u16_t)),
	"Structure must fit in 2 bytes");

	/** Part of log message header specific to hexdump log message. */
	struct log_msg_hexdump_hdr {
	COMMON_PARAM_HDR();
	u16_t length : LOG_MSG_HEXDUMP_LENGTH_BITS;
	};

	BUILD_ASSERT_MSG((sizeof(struct log_msg_hexdump_hdr) == sizeof(u16_t)),
	"Structure must fit in 2 bytes");

	/** Log message header structure */
	struct log_msg_hdr {
	atomic_t ref_cnt; /!< Reference counter for tracking message users. /
	union log_msg_hdr_params {
	struct log_msg_generic_hdr generic;
	struct log_msg_std_hdr std;
	struct log_msg_hexdump_hdr hexdump;
	u16_t raw;
	} params;
	struct log_msg_ids ids; /!< Identification part of the message./
	u32_t timestamp; /!< Timestamp. /
	};

	/** @brief Data part of log message. */
	union log_msg_head_data {
	u32_t args[LOG_MSG_NARGS_SINGLE_CHUNK];
	u8_t bytes[LOG_MSG_HEXDUMP_BYTES_SINGLE_CHUNK];
	};

	/** @brief Data part of extended log message. */
	struct log_msg_ext_head_data {
	struct log_msg_cont *next;
	union log_msg_ext_head_data_data {
	u32_t args[LOG_MSG_NARGS_HEAD_CHUNK];
	u8_t bytes[LOG_MSG_HEXDUMP_BYTES_HEAD_CHUNK];
	} data;
	};

	/** @brief Log message structure. */
	struct log_msg {
	struct log_msg next; /!< Used by logger core list.*/
	struct log_msg_hdr hdr; /!< Message header. /
	const char *str;
	union log_msg_data {
	union log_msg_head_data single;
	struct log_msg_ext_head_data ext;
	} payload; /!< Message data. /
	};

	BUILD_ASSERT_MSG((sizeof(union log_msg_head_data) ==
	sizeof(struct log_msg_ext_head_data)),
	"Structure must be same size");

	/** @brief Chunks following message head when message is extended. */
	struct log_msg_cont {
	struct log_msg_cont next; /!< Pointer to the next chunk. */
	union log_msg_cont_data {
	u32_t args[ARGS_CONT_MSG];
	u8_t bytes[HEXDUMP_BYTES_CONT_MSG];
	} payload;
	};

	/** @brief Log message */
	union log_msg_chunk {
	struct log_msg head;
	struct log_msg_cont cont;
	};

	extern struct k_mem_slab log_msg_pool;

	/** @brief Function for initialization of the log message pool. */
	void log_msg_pool_init(void);

	/** @brief Function for indicating that message is in use.
	*
	* @details Message can be used (read) by multiple users. Internal reference
	* counter is atomically increased. See @ref log_msg_put.
	*
	* @param msg Message.
	*/
	void log_msg_get(struct log_msg *msg);

	/** @brief Function for indicating that message is no longer in use.
	*
	* @details Internal reference counter is atomically decreased. If reference
	* counter equals 0 message is freed.
	*
	* @param msg Message.
	*/
	void log_msg_put(struct log_msg *msg);

	/** @brief Get domain ID of the message.
	*
	* @param msg Message
	*
	* @return Domain ID.
	*/
	static inline u32_t log_msg_domain_id_get(struct log_msg *msg)
	{
	return msg->hdr.ids.domain_id;
	}

	/** @brief Get source ID (module or instance) of the message.
	*
	* @param msg Message
	*
	* @return Source ID.
	*/
	static inline u32_t log_msg_source_id_get(struct log_msg *msg)
	{
	return msg->hdr.ids.source_id;
	}

	/** @brief Get severity level of the message.
	*
	* @param msg Message
	*
	* @return Severity message.
	*/
	static inline u32_t log_msg_level_get(struct log_msg *msg)
	{
	return msg->hdr.ids.level;
	}

	/** @brief Get timestamp of the message.
	*
	* @param msg Message
	*
	* @return Timestamp value.
	*/
	static inline u32_t log_msg_timestamp_get(struct log_msg *msg)
	{
	return msg->hdr.timestamp;
	}

	/** @brief Check if message is of standard type.
	*
	* @param msg Message
	*
	* @retval true Standard message.
	* @retval false Hexdump message.
	*/
	static inline bool log_msg_is_std(struct log_msg *msg)
	{
	return (msg->hdr.params.generic.type == LOG_MSG_TYPE_STD);
	}

	/** @brief Returns number of arguments in standard log message.
	*
	* @param msg Standard log message.
	*
	* @return Number of arguments.
	*/
	u32_t log_msg_nargs_get(struct log_msg *msg);

	/** @brief Gets argument from standard log message.
	*
	* @param msg Standard log message.
	* @param arg_idx Argument index.
	*
	* @return Argument value or 0 if arg_idx exceeds number of arguments in the
	* message.
	*/
	u32_t log_msg_arg_get(struct log_msg *msg, u32_t arg_idx);


	/** @brief Gets pointer to the unformatted string from standard log message.
	*
	* @param msg Standard log message.
	*
	* @return Pointer to the string.
	*/
	const char log_msg_str_get(struct log_msg msg);

	/** @brief Allocates chunks for hexdump message and copies the data.
	*
	* @details Function resets header and sets following fields:
	* - message type
	* - length
	*
	* @note Allocation and partial filling is combined for performance reasons.
	*
	* @param str String.
	* @param data Data.
	* @param length Data length.
	*
	* @return Pointer to allocated head of the message or NULL
	*/
	struct log_msg log_msg_hexdump_create(const char str,
	const u8_t *data,
	u32_t length);

	/** @brief Put data into hexdump log message.
	*
	* @param[in] msg Message.
	* @param[in] data Data to be copied.
	* @param[in, out] length Input: requested amount. Output: actual amount.
	* @param[in] offset Offset.
	*/
	void log_msg_hexdump_data_put(struct log_msg *msg,
	u8_t *data,
	size_t *length,
	size_t offset);

	/** @brief Get data from hexdump log message.
	*
	* @param[in] msg Message.
	* @param[in] data Buffer for data.
	* @param[in, out] length Input: requested amount. Output: actual amount.
	* @param[in] offset Offset.
	*/
	void log_msg_hexdump_data_get(struct log_msg *msg,
	u8_t *data,
	size_t *length,
	size_t offset);

	union log_msg_chunk *log_msg_no_space_handle(void);

	static inline union log_msg_chunk *log_msg_chunk_alloc(void)
	{
	union log_msg_chunk *msg = NULL;
	int err = k_mem_slab_alloc(&log_msg_pool, (void **)&msg, K_NO_WAIT);

	if (err != 0) {
	msg = log_msg_no_space_handle();
	}

	return msg;
	}

	/** @brief Allocate chunk for standard log message.
	*
	* @return Allocated chunk of NULL.
	*/
	static inline struct log_msg *z_log_msg_std_alloc(void)
	{
	struct log_msg msg = (struct log_msg )log_msg_chunk_alloc();

	if (msg != NULL) {
	/* all fields reset to 0, reference counter to 1 */
	msg->hdr.ref_cnt = 1;
	msg->hdr.params.raw = 0U;
	msg->hdr.params.std.type = LOG_MSG_TYPE_STD;
	}

	return msg;
	}

	/** @brief Create standard log message with no arguments.
	*
	* @details Function resets header and sets following fields:
	* - message type
	* - string pointer
	*
	* @return Pointer to allocated head of the message or NULL.
	*/
	static inline struct log_msg log_msg_create_0(const char str)
	{
	struct log_msg *msg = z_log_msg_std_alloc();

	if (msg != NULL) {
	msg->str = str;
	}

	return msg;
	}

	/** @brief Create standard log message with one argument.
	*
	* @details Function resets header and sets following fields:
	* - message type
	* - string pointer
	* - number of arguments
	* - argument
	*
	* @param str String.
	* @param arg1 Argument.
	*
	* @return Pointer to allocated head of the message or NULL.
	*/
	static inline struct log_msg log_msg_create_1(const char str,
	u32_t arg1)
	{
	struct log_msg *msg = z_log_msg_std_alloc();

	if (msg != NULL) {
	msg->str = str;
	msg->hdr.params.std.nargs = 1U;
	msg->payload.single.args[0] = arg1;
	}

	return msg;
	}

	/** @brief Create standard log message with two arguments.
	*
	* @details Function resets header and sets following fields:
	* - message type
	* - string pointer
	* - number of arguments
	* - arguments
	*
	* @param str String.
	* @param arg1 Argument 1.
	* @param arg2 Argument 2.
	*
	* @return Pointer to allocated head of the message or NULL.
	*/
	static inline struct log_msg log_msg_create_2(const char str,
	u32_t arg1,
	u32_t arg2)
	{
	struct log_msg *msg = z_log_msg_std_alloc();

	if (msg != NULL) {
	msg->str = str;
	msg->hdr.params.std.nargs = 2U;
	msg->payload.single.args[0] = arg1;
	msg->payload.single.args[1] = arg2;
	}

	return msg;
	}

	/** @brief Create standard log message with three arguments.
	*
	* @details Function resets header and sets following fields:
	* - message type
	* - string pointer
	* - number of arguments
	* - arguments
	*
	* @param str String.
	* @param arg1 Argument 1.
	* @param arg2 Argument 2.
	* @param arg3 Argument 3.
	*
	* @return Pointer to allocated head of the message or NULL.
	*/
	static inline struct log_msg log_msg_create_3(const char str,
	u32_t arg1,
	u32_t arg2,
	u32_t arg3)
	{
	struct log_msg *msg = z_log_msg_std_alloc();

	if (msg != NULL) {
	msg->str = str;
	msg->hdr.params.std.nargs = 3U;
	msg->payload.single.args[0] = arg1;
	msg->payload.single.args[1] = arg2;
	msg->payload.single.args[2] = arg3;
	}

	return msg;
	}

	/** @brief Create standard log message with variable number of arguments.
	*
	* @details Function resets header and sets following fields:
	* - message type
	* - string pointer
	* - number of arguments
	* - arguments
	*
	* @param str String.
	* @param args Array with arguments.
	* @param nargs Number of arguments.
	*
	* @return Pointer to allocated head of the message or NULL.
	*/
	struct log_msg log_msg_create_n(const char str,
	u32_t *args,
	u32_t nargs);

	/**
	* @}
	*/

	#ifdef __cplusplus
	}
	#endif

	#endif /* ZEPHYR_INCLUDE_LOGGING_LOG_MSG_H_ */