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

#include <logging/log_msg.h>
#include <logging/log_instance.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdarg.h>
#include <syscall.h>
#include <sys/util.h>
#include <sys/printk.h>

#define LOG_LEVEL_NONE 0U
#define LOG_LEVEL_ERR  1U
#define LOG_LEVEL_WRN  2U
#define LOG_LEVEL_INF  3U
#define LOG_LEVEL_DBG  4U

#ifdef __cplusplus
extern "C" {
#endif

#ifndef CONFIG_LOG
#define CONFIG_LOG_DEFAULT_LEVEL 0U
#define CONFIG_LOG_MAX_LEVEL 0U
#endif

#if !defined(CONFIG_LOG) || defined(CONFIG_LOG_MINIMAL)
#define CONFIG_LOG_DOMAIN_ID 0
#endif

#define LOG_FUNCTION_PREFIX_MASK \
	(((u32_t)IS_ENABLED(CONFIG_LOG_FUNC_NAME_PREFIX_ERR) << \
	  LOG_LEVEL_ERR) | \
	 ((u32_t)IS_ENABLED(CONFIG_LOG_FUNC_NAME_PREFIX_WRN) << \
	  LOG_LEVEL_WRN) | \
	 ((u32_t)IS_ENABLED(CONFIG_LOG_FUNC_NAME_PREFIX_INF) << \
	  LOG_LEVEL_INF) | \
	 ((u32_t)IS_ENABLED(CONFIG_LOG_FUNC_NAME_PREFIX_DBG) << LOG_LEVEL_DBG))

/** @brief Macro for returning local level value if defined or default.
 *
 * Check @ref IS_ENABLED macro for detailed explanation of the trick.
 */
#define Z_LOG_RESOLVED_LEVEL(_level, _default) \
	Z_LOG_RESOLVED_LEVEL1(_level, _default)

#define Z_LOG_RESOLVED_LEVEL1(_level, _default) \
	__COND_CODE(_LOG_XXXX##_level, (_level), (_default))

#define _LOG_XXXX0  _LOG_YYYY,
#define _LOG_XXXX0U _LOG_YYYY,
#define _LOG_XXXX1  _LOG_YYYY,
#define _LOG_XXXX1U _LOG_YYYY,
#define _LOG_XXXX2  _LOG_YYYY,
#define _LOG_XXXX2U _LOG_YYYY,
#define _LOG_XXXX3  _LOG_YYYY,
#define _LOG_XXXX3U _LOG_YYYY,
#define _LOG_XXXX4  _LOG_YYYY,
#define _LOG_XXXX4U _LOG_YYYY,

/**
 * @brief Macro for conditional code generation if provided log level allows.
 *
 * Macro behaves similarly to standard \#if \#else \#endif clause. The
 * difference is that it is evaluated when used and not when header file is
 * included.
 *
 * @param _eval_level Evaluated level. If level evaluates to one of existing log
 *		      log level (1-4) then macro evaluates to _iftrue.
 * @param _iftrue     Code that should be inserted when evaluated to true. Note,
 *		      that parameter must be provided in brackets.
 * @param _iffalse    Code that should be inserted when evaluated to false.
 *		      Note, that parameter must be provided in brackets.
 */
#define Z_LOG_EVAL(_eval_level, _iftrue, _iffalse) \
	Z_LOG_EVAL1(_eval_level, _iftrue, _iffalse)

#define Z_LOG_EVAL1(_eval_level, _iftrue, _iffalse) \
	__COND_CODE(_LOG_ZZZZ##_eval_level, _iftrue, _iffalse)

#define _LOG_ZZZZ1  _LOG_YYYY,
#define _LOG_ZZZZ1U _LOG_YYYY,
#define _LOG_ZZZZ2  _LOG_YYYY,
#define _LOG_ZZZZ2U _LOG_YYYY,
#define _LOG_ZZZZ3  _LOG_YYYY,
#define _LOG_ZZZZ3U _LOG_YYYY,
#define _LOG_ZZZZ4  _LOG_YYYY,
#define _LOG_ZZZZ4U _LOG_YYYY,

/** @brief Macro for getting log level for given module.
 *
 * It is evaluated to LOG_LEVEL if defined. Otherwise CONFIG_LOG_DEFAULT_LEVEL
 * is used.
 */
#define _LOG_LEVEL() Z_LOG_RESOLVED_LEVEL(LOG_LEVEL, CONFIG_LOG_DEFAULT_LEVEL)

/**
 *  @def LOG_CONST_ID_GET
 *  @brief Macro for getting ID of the element of the section.
 *
 *  @param _addr Address of the element.
 */
#define LOG_CONST_ID_GET(_addr) \
	Z_LOG_EVAL(\
	  CONFIG_LOG,\
	  (__log_level ? \
	  log_const_source_id((const struct log_source_const_data *)_addr) : \
	  0),\
	  (0)\
	)

/**
 * @def LOG_CURRENT_MODULE_ID
 * @brief Macro for getting ID of current module.
 */
#define LOG_CURRENT_MODULE_ID() (__log_level != 0 ? \
	log_const_source_id(__log_current_const_data) : 0)

/**
 * @def LOG_CURRENT_DYNAMIC_DATA_ADDR
 * @brief Macro for getting address of dynamic structure of current module.
 */
#define LOG_CURRENT_DYNAMIC_DATA_ADDR()	(__log_level ? \
	__log_current_dynamic_data : (struct log_source_dynamic_data *)0)

/** @brief Macro for getting ID of the element of the section.
 *
 *  @param _addr Address of the element.
 */
#define LOG_DYNAMIC_ID_GET(_addr) \
	Z_LOG_EVAL(\
	  CONFIG_LOG,\
	  (__log_level ? \
	  log_dynamic_source_id((struct log_source_dynamic_data *)_addr) : 0),\
	  (0)\
	)

/**
 * @brief Macro for optional injection of function name as first argument of
 *	  formatted string. COND_CODE_0() macro is used to handle no arguments
 *	  case.
 *
 *	  The purpose of this macro is to prefix string literal with format
 *	  specifier for function name and inject function name as first
 *	  argument. In order to handle string with no arguments _LOG_Z_EVAL is
 *	  used.
 */

#define Z_LOG_STR(...) "%s: " GET_ARG1(__VA_ARGS__), __func__\
		COND_CODE_0(NUM_VA_ARGS_LESS_1(__VA_ARGS__),\
			    (),\
			    (, GET_ARGS_LESS_1(__VA_ARGS__))\
			   )


/******************************************************************************/
/****************** Internal macros for log frontend **************************/
/******************************************************************************/
/**@brief Second stage for Z_LOG_NARGS_POSTFIX */
#define _LOG_NARGS_POSTFIX_IMPL(				\
	_ignored,						\
	_0, _1, _2, _3, _4, _5, _6, _7, _8, _9, _10,		\
	_11, _12, _13, _14, N, ...) N

/**@brief Macro to get the postfix for further log message processing.
 *
 * Logs with more than 3 arguments are processed in a generic way.
 *
 * param[in]    ...     List of arguments
 *
 * @retval  Postfix, number of arguments or _LONG when more than 3 arguments.
 */
#define Z_LOG_NARGS_POSTFIX(...) \
	_LOG_NARGS_POSTFIX_IMPL(__VA_ARGS__, LONG, LONG, LONG, LONG, LONG, \
			LONG, LONG, LONG, LONG, LONG, LONG, LONG, 3, 2, 1, 0, ~)

#define Z_LOG_INTERNAL_X(N, ...)  UTIL_CAT(_LOG_INTERNAL_, N)(__VA_ARGS__)

#define __LOG_INTERNAL(is_user_context, _src_level, ...)		 \
	do {								 \
		if (is_user_context) {					 \
			log_from_user(_src_level, __VA_ARGS__);		 \
		} else if (IS_ENABLED(CONFIG_LOG_IMMEDIATE)) {		 \
			log_string_sync(_src_level, __VA_ARGS__);	 \
		} else {						 \
			Z_LOG_INTERNAL_X(Z_LOG_NARGS_POSTFIX(__VA_ARGS__), \
						_src_level, __VA_ARGS__);\
		}							 \
	} while (false)

#define _LOG_INTERNAL_0(_src_level, _str) \
	log_0(_str, _src_level)

#define _LOG_INTERNAL_1(_src_level, _str, _arg0) \
	log_1(_str, (log_arg_t)(_arg0), _src_level)

#define _LOG_INTERNAL_2(_src_level, _str, _arg0, _arg1)	\
	log_2(_str, (log_arg_t)(_arg0), (log_arg_t)(_arg1), _src_level)

#define _LOG_INTERNAL_3(_src_level, _str, _arg0, _arg1, _arg2) \
	log_3(_str, (log_arg_t)(_arg0), (log_arg_t)(_arg1), (log_arg_t)(_arg2), _src_level)

#define __LOG_ARG_CAST(_x) (log_arg_t)(_x),

#define __LOG_ARGUMENTS(...) FOR_EACH(__LOG_ARG_CAST, __VA_ARGS__)

#define _LOG_INTERNAL_LONG(_src_level, _str, ...)		  \
	do {							  \
		log_arg_t args[] = {__LOG_ARGUMENTS(__VA_ARGS__)};\
		log_n(_str, args, ARRAY_SIZE(args), _src_level);  \
	} while (false)

#define Z_LOG_LEVEL_CHECK(_level, _check_level, _default_level) \
	(_level <= Z_LOG_RESOLVED_LEVEL(_check_level, _default_level))

#define Z_LOG_CONST_LEVEL_CHECK(_level)					    \
	(IS_ENABLED(CONFIG_LOG) &&					    \
	(Z_LOG_LEVEL_CHECK(_level, CONFIG_LOG_OVERRIDE_LEVEL, LOG_LEVEL_NONE) \
	||								    \
	((IS_ENABLED(CONFIG_LOG_OVERRIDE_LEVEL) == false) &&		    \
	(_level <= __log_level) &&					    \
	(_level <= CONFIG_LOG_MAX_LEVEL)				    \
	)								    \
	))

/******************************************************************************/
/****************** Defiinitions used by minimal logging **********************/
/******************************************************************************/
void log_minimal_hexdump_print(int level, const void *data, size_t size);

#define Z_LOG_TO_PRINTK(_level, fmt, ...) do {				     \
		printk("%c: " fmt "\n", z_log_minimal_level_to_char(_level), \
			##__VA_ARGS__);					     \
	} while (false)

static inline char z_log_minimal_level_to_char(int level)
{
	switch (level) {
	case LOG_LEVEL_ERR:
		return 'E';
	case LOG_LEVEL_WRN:
		return 'W';
	case LOG_LEVEL_INF:
		return 'I';
	case LOG_LEVEL_DBG:
		return 'D';
	default:
		return '?';
	}
}
/******************************************************************************/
/****************** Macros for standard logging *******************************/
/******************************************************************************/
#define __LOG(_level, _id, _filter, ...)				       \
	do {								       \
		bool is_user_context = _is_user_context();		       \
									       \
		if (Z_LOG_CONST_LEVEL_CHECK(_level)) {			       \
			if (IS_ENABLED(CONFIG_LOG_MINIMAL)) {		       \
				Z_LOG_TO_PRINTK(_level, __VA_ARGS__);	       \
			} else if (is_user_context ||			       \
				   (_level <= LOG_RUNTIME_FILTER(_filter))) {  \
				struct log_msg_ids src_level = {	       \
					.level = _level,		       \
					.domain_id = CONFIG_LOG_DOMAIN_ID,     \
					.source_id = _id		       \
				};					       \
									       \
				if ((BIT(_level) &			       \
				     LOG_FUNCTION_PREFIX_MASK) != 0U) {        \
					__LOG_INTERNAL(is_user_context,	       \
						       src_level,	       \
						       Z_LOG_STR(__VA_ARGS__));\
				} else {				       \
					__LOG_INTERNAL(is_user_context,	       \
						       src_level,	       \
						       __VA_ARGS__);	       \
				}					       \
			}						       \
		}							       \
		if (false) {						       \
			/* Arguments checker present but never evaluated.*/    \
			/* Placed here to ensure that __VA_ARGS__ are*/        \
			/* evaluated once when log is enabled.*/	       \
			log_printf_arg_checker(__VA_ARGS__);		       \
		}							       \
	} while (false)

#define Z_LOG(_level, ...)			       \
	__LOG(_level,				       \
	      (u16_t)LOG_CURRENT_MODULE_ID(),	       \
	      LOG_CURRENT_DYNAMIC_DATA_ADDR(),	       \
	      __VA_ARGS__)

#define Z_LOG_INSTANCE(_level, _inst, ...)		 \
	__LOG(_level,					 \
	      IS_ENABLED(CONFIG_LOG_RUNTIME_FILTERING) ? \
	      LOG_DYNAMIC_ID_GET(_inst) :		 \
	      LOG_CONST_ID_GET(_inst),			 \
	      _inst,					 \
	      __VA_ARGS__)


/******************************************************************************/
/****************** Macros for hexdump logging ********************************/
/******************************************************************************/
#define __LOG_HEXDUMP(_level, _id, _filter, _data, _length, _str)	       \
	do {								       \
		bool is_user_context = _is_user_context();		       \
									       \
		if (Z_LOG_CONST_LEVEL_CHECK(_level)) {			       \
			if (IS_ENABLED(CONFIG_LOG_MINIMAL)) {		       \
				Z_LOG_TO_PRINTK(_level, "%s", _str);	       \
				log_minimal_hexdump_print(_level,	       \
							  (const char *)_data, \
							  _length);	       \
			} else if (is_user_context ||			       \
				   (_level <= LOG_RUNTIME_FILTER(_filter))) {  \
				struct log_msg_ids src_level = {	       \
					.level = _level,		       \
					.domain_id = CONFIG_LOG_DOMAIN_ID,     \
					.source_id = _id,		       \
				};					       \
									       \
				if (is_user_context) {			       \
					log_hexdump_from_user(src_level, _str, \
							      (const char *)_data, \
							      _length);	       \
				} else if (IS_ENABLED(CONFIG_LOG_IMMEDIATE)) { \
					log_hexdump_sync(src_level, _str,      \
							 (const char *)_data,  \
							  _length);	       \
				} else {				       \
					log_hexdump(_str, (const char *)_data, \
						    _length,		       \
						    src_level);		       \
				}					       \
			}						       \
		}							       \
	} while (false)

#define Z_LOG_HEXDUMP(_level, _data, _length, _str)	       \
	__LOG_HEXDUMP(_level,				       \
		      (u16_t)LOG_CURRENT_MODULE_ID(),	       \
		      LOG_CURRENT_DYNAMIC_DATA_ADDR(),	       \
		      _data, _length, _str)

#define Z_LOG_HEXDUMP_INSTANCE(_level, _inst, _data, _length, _str) \
	__LOG_HEXDUMP(_level,					   \
		      IS_ENABLED(CONFIG_LOG_RUNTIME_FILTERING) ?   \
		      LOG_DYNAMIC_ID_GET(_inst) :		   \
		      LOG_CONST_ID_GET(_inst),			   \
		      _inst,					   \
		      _data,					   \
		      _length,					   \
		      _str)

/******************************************************************************/
/****************** Filtering macros ******************************************/
/******************************************************************************/

/** @brief Number of bits used to encode log level. */
#define LOG_LEVEL_BITS 3U

/** @brief Filter slot size. */
#define LOG_FILTER_SLOT_SIZE LOG_LEVEL_BITS

/** @brief Number of slots in one word. */
#define LOG_FILTERS_NUM_OF_SLOTS (32 / LOG_FILTER_SLOT_SIZE)

/** @brief Slot mask. */
#define LOG_FILTER_SLOT_MASK (BIT(LOG_FILTER_SLOT_SIZE) - 1U)

/** @brief Bit offset of a slot.
 *
 *  @param _id Slot ID.
 */
#define LOG_FILTER_SLOT_SHIFT(_id) (LOG_FILTER_SLOT_SIZE * (_id))

#define LOG_FILTER_SLOT_GET(_filters, _id) \
	((*(_filters) >> LOG_FILTER_SLOT_SHIFT(_id)) & LOG_FILTER_SLOT_MASK)

#define LOG_FILTER_SLOT_SET(_filters, _id, _filter)		     \
	do {							     \
		*(_filters) &= ~(LOG_FILTER_SLOT_MASK <<	     \
				 LOG_FILTER_SLOT_SHIFT(_id));	     \
		*(_filters) |= ((_filter) & LOG_FILTER_SLOT_MASK) << \
			       LOG_FILTER_SLOT_SHIFT(_id);	     \
	} while (false)

#define LOG_FILTER_AGGR_SLOT_IDX 0

#define LOG_FILTER_AGGR_SLOT_GET(_filters) \
	LOG_FILTER_SLOT_GET(_filters, LOG_FILTER_AGGR_SLOT_IDX)

#define LOG_FILTER_FIRST_BACKEND_SLOT_IDX 1

#ifdef CONFIG_LOG_RUNTIME_FILTERING
#define LOG_RUNTIME_FILTER(_filter) \
	LOG_FILTER_SLOT_GET(&(_filter)->filters, LOG_FILTER_AGGR_SLOT_IDX)
#else
#define LOG_RUNTIME_FILTER(_filter) LOG_LEVEL_DBG
#endif

/** @brief Log level value used to indicate log entry that should not be
 *	   formatted (raw string).
 */
#define LOG_LEVEL_INTERNAL_RAW_STRING LOG_LEVEL_NONE

extern struct log_source_const_data __log_const_start[0];
extern struct log_source_const_data __log_const_end[0];

/** @brief Get name of the log source.
 *
 * @param source_id Source ID.
 * @return Name.
 */
static inline const char *log_name_get(u32_t source_id)
{
	return __log_const_start[source_id].name;
}

/** @brief Get compiled level of the log source.
 *
 * @param source_id Source ID.
 * @return Level.
 */
static inline u8_t log_compiled_level_get(u32_t source_id)
{
	return __log_const_start[source_id].level;
}

/** @brief Get index of the log source based on the address of the constant data
 *         associated with the source.
 *
 * @param data Address of the constant data.
 *
 * @return Source ID.
 */
static inline u32_t log_const_source_id(
				const struct log_source_const_data *data)
{
	return ((u8_t *)data - (u8_t *)__log_const_start)/
			sizeof(struct log_source_const_data);
}

/** @brief Get number of registered sources. */
static inline u32_t log_sources_count(void)
{
	return log_const_source_id(__log_const_end);
}

extern struct log_source_dynamic_data __log_dynamic_start[0];
extern struct log_source_dynamic_data __log_dynamic_end[0];

/** @brief Creates name of variable and section for runtime log data.
 *
 *  @param _name Name.
 */
#define LOG_ITEM_DYNAMIC_DATA(_name) UTIL_CAT(log_dynamic_, _name)

#define LOG_INSTANCE_DYNAMIC_DATA(_module_name, _inst) \
	LOG_ITEM_DYNAMIC_DATA(LOG_INSTANCE_FULL_NAME(_module_name, _inst))

/** @brief Get pointer to the filter set of the log source.
 *
 * @param source_id Source ID.
 *
 * @return Pointer to the filter set.
 */
static inline u32_t *log_dynamic_filters_get(u32_t source_id)
{
	return &__log_dynamic_start[source_id].filters;
}

/** @brief Get index of the log source based on the address of the dynamic data
 *         associated with the source.
 *
 * @param data Address of the dynamic data.
 *
 * @return Source ID.
 */
static inline u32_t log_dynamic_source_id(struct log_source_dynamic_data *data)
{
	return ((u8_t *)data - (u8_t *)__log_dynamic_start)/
			sizeof(struct log_source_dynamic_data);
}

/** @brief Dummy function to trigger log messages arguments type checking. */
static inline __printf_like(1, 2)
void log_printf_arg_checker(const char *fmt, ...)
{
	ARG_UNUSED(fmt);
}

/** @brief Standard log with no arguments.
 *
 * @param str           String.
 * @param src_level	Log identification.
 */
void log_0(const char *str, struct log_msg_ids src_level);

/** @brief Standard log with one argument.
 *
 * @param str           String.
 * @param arg1	        First argument.
 * @param src_level	Log identification.
 */
void log_1(const char *str,
	   log_arg_t arg1,
	   struct log_msg_ids src_level);

/** @brief Standard log with two arguments.
 *
 * @param str           String.
 * @param arg1	        First argument.
 * @param arg2	        Second argument.
 * @param src_level	Log identification.
 */
void log_2(const char *str,
	   log_arg_t arg1,
	   log_arg_t arg2,
	   struct log_msg_ids src_level);

/** @brief Standard log with three arguments.
 *
 * @param str           String.
 * @param arg1	        First argument.
 * @param arg2	        Second argument.
 * @param arg3	        Third argument.
 * @param src_level	Log identification.
 */
void log_3(const char *str,
	   log_arg_t arg1,
	   log_arg_t arg2,
	   log_arg_t arg3,
	   struct log_msg_ids src_level);

/** @brief Standard log with arguments list.
 *
 * @param str		String.
 * @param args		Array with arguments.
 * @param narg		Number of arguments in the array.
 * @param src_level	Log identification.
 */
void log_n(const char *str,
	   log_arg_t *args,
	   u32_t narg,
	   struct log_msg_ids src_level);

/** @brief Hexdump log.
 *
 * @param str		String.
 * @param data		Data.
 * @param length	Data length.
 * @param src_level	Log identification.
 */
void log_hexdump(const char *str, const void *data, u32_t length,
		 struct log_msg_ids src_level);

/** @brief Process log message synchronously.
 *
 * @param src_level	Log message details.
 * @param fmt		String to format.
 * @param ...		Variable list of arguments.
 */
void log_string_sync(struct log_msg_ids src_level, const char *fmt, ...);

/** @brief Process log hexdump message synchronously.
 *
 * @param src_level	Log message details.
 * @param metadata	Raw string associated with the data.
 * @param data		Data.
 * @param len		Data length.
 */
void log_hexdump_sync(struct log_msg_ids src_level, const char *metadata,
		      const void *data, u32_t len);

/**
 * @brief Writes a generic log message to the log.
 *
 * @note This function is intended to be used when porting other log systems.
 */
void log_generic(struct log_msg_ids src_level, const char *fmt, va_list ap);

/**
 * @brief Writes a generic log message to the log from user mode.
 *
 * @note This function is intended to be used internally
 *	 by the logging subsystem.
 */
void log_generic_from_user(struct log_msg_ids src_level,
			   const char *fmt, va_list ap);

/** @brief Check if address belongs to the memory pool used for transient.
 *
 * @param buf Buffer.
 *
 * @return True if address within the pool, false otherwise.
 */
bool log_is_strdup(const void *buf);

/** @brief Free allocated buffer.
 *
 * @param buf Buffer.
 */
void log_free(void *buf);

/**
 * @brief Get maximal number of simultaneously allocated buffers for string
 *	  duplicates.
 *
 * Value can be used to determine pool size.
 */
u32_t log_get_strdup_pool_utilization(void);

/**
 * @brief Get length of the longest string duplicated.
 *
 * Value can be used to determine buffer size in the string duplicates pool.
 */
u32_t log_get_strdup_longest_string(void);

/** @brief Indicate to the log core that one log message has been dropped.
 */
void log_dropped(void);

/** @brief Log a message from user mode context.
 *
 * @note This function is intended to be used internally
 *	 by the logging subsystem.
 *
 * @param src_level    Log identification.
 * @param fmt          String to format.
 * @param ...          Variable list of arguments.
 */
void __printf_like(2, 3) log_from_user(struct log_msg_ids src_level,
				       const char *fmt, ...);

/**
 * @brief Create mask with occurences of a string format specifiers (%s).
 *
 * Result is stored as the mask (argument n is n'th bit). Bit is set if string
 * format specifier was found.
 *
 * @param str String.
 * @param nargs Number of arguments in the string.
 *
 * @return Mask with %s format specifiers found.
 */
u32_t z_log_get_s_mask(const char *str, u32_t nargs);

/* Internal function used by log_from_user(). */
__syscall void z_log_string_from_user(u32_t src_level_val, const char *str);

/** @brief Log binary data (displayed as hexdump) from user mode context.
 *
 * @note This function is intended to be used internally
 *	 by the logging subsystem.
 *
 * @param src_level	Log identification.
 * @param metadata	Raw string associated with the data.
 * @param data		Data.
 * @param len		Data length.
 */
void log_hexdump_from_user(struct log_msg_ids src_level, const char *metadata,
			   const void *data, u32_t len);

/* Internal function used by log_hexdump_from_user(). */
__syscall void z_log_hexdump_from_user(u32_t src_level_val,
				       const char *metadata,
				       const u8_t *data, u32_t len);

#include <syscalls/log_core.h>

#ifdef __cplusplus
}
#endif

#endif /* ZEPHYR_INCLUDE_LOGGING_LOG_CORE_H_ */