[babeltrace.git] / logging / log.c

/*
 * This is zf_log.c, modified with Babeltrace prefixes.
 * See <https://github.com/wonder-mice/zf_log/>.
 * See LICENSE.
 */

#include <babeltrace/babeltrace-internal.h>

/* When defined, Android log (android/log.h) will be used by default instead of
 * stderr (ignored on non-Android platforms). Date, time, pid and tid (context)
 * will be provided by Android log. Android log features will be used to output
 * log level and tag.
 */
#ifdef BT_LOG_USE_ANDROID_LOG
	#undef BT_LOG_USE_ANDROID_LOG
	#if defined(__ANDROID__)
		#define BT_LOG_USE_ANDROID_LOG 1
	#else
		#define BT_LOG_USE_ANDROID_LOG 0
	#endif
#else
	#define BT_LOG_USE_ANDROID_LOG 0
#endif
/* When defined, NSLog (uses Apple System Log) will be used instead of stderr
 * (ignored on non-Apple platforms). Date, time, pid and tid (context) will be
 * provided by NSLog. Curiously, doesn't use NSLog() directly, but piggybacks on
 * non-public CFLog() function. Both use Apple System Log internally, but it's
 * easier to call CFLog() from C than NSLog(). Current implementation doesn't
 * support "%@" format specifier.
 */
#ifdef BT_LOG_USE_NSLOG
	#undef BT_LOG_USE_NSLOG
	#if defined(__APPLE__) && defined(__MACH__)
		#define BT_LOG_USE_NSLOG 1
	#else
		#define BT_LOG_USE_NSLOG 0
	#endif
#else
	#define BT_LOG_USE_NSLOG 0
#endif
/* When defined, OutputDebugString() will be used instead of stderr (ignored on
 * non-Windows platforms). Uses OutputDebugStringA() variant and feeds it with
 * UTF-8 data.
 */
#ifdef BT_LOG_USE_DEBUGSTRING
	#undef BT_LOG_USE_DEBUGSTRING
	#if defined(_WIN32) || defined(_WIN64)
		#define BT_LOG_USE_DEBUGSTRING 1
	#else
		#define BT_LOG_USE_DEBUGSTRING 0
	#endif
#else
	#define BT_LOG_USE_DEBUGSTRING 0
#endif
/* When defined, bt_log library will not contain definition of tag prefix
 * variable. In that case it must be defined elsewhere using
 * BT_LOG_DEFINE_TAG_PREFIX macro, for example:
 *
 *   BT_LOG_DEFINE_TAG_PREFIX = "ProcessName";
 *
 * This allows to specify custom value for static initialization and avoid
 * overhead of setting this value in runtime.
 */
#ifdef BT_LOG_EXTERN_TAG_PREFIX
	#undef BT_LOG_EXTERN_TAG_PREFIX
	#define BT_LOG_EXTERN_TAG_PREFIX 1
#else
	#define BT_LOG_EXTERN_TAG_PREFIX 0
#endif
/* When defined, bt_log library will not contain definition of global format
 * variable. In that case it must be defined elsewhere using
 * BT_LOG_DEFINE_GLOBAL_FORMAT macro, for example:
 *
 *   BT_LOG_DEFINE_GLOBAL_FORMAT = {MEM_WIDTH};
 *
 * This allows to specify custom value for static initialization and avoid
 * overhead of setting this value in runtime.
 */
#ifdef BT_LOG_EXTERN_GLOBAL_FORMAT
	#undef BT_LOG_EXTERN_GLOBAL_FORMAT
	#define BT_LOG_EXTERN_GLOBAL_FORMAT 1
#else
	#define BT_LOG_EXTERN_GLOBAL_FORMAT 0
#endif
/* When defined, bt_log library will not contain definition of global output
 * variable. In that case it must be defined elsewhere using
 * BT_LOG_DEFINE_GLOBAL_OUTPUT macro, for example:
 *
 *   BT_LOG_DEFINE_GLOBAL_OUTPUT = {BT_LOG_PUT_STD, custom_output_callback};
 *
 * This allows to specify custom value for static initialization and avoid
 * overhead of setting this value in runtime.
 */
#ifdef BT_LOG_EXTERN_GLOBAL_OUTPUT
	#undef BT_LOG_EXTERN_GLOBAL_OUTPUT
	#define BT_LOG_EXTERN_GLOBAL_OUTPUT 1
#else
	#define BT_LOG_EXTERN_GLOBAL_OUTPUT 0
#endif
/* When defined, bt_log library will not contain definition of global output
 * level variable. In that case it must be defined elsewhere using
 * BT_LOG_DEFINE_GLOBAL_OUTPUT_LEVEL macro, for example:
 *
 *   BT_LOG_DEFINE_GLOBAL_OUTPUT_LEVEL = BT_LOG_WARN;
 *
 * This allows to specify custom value for static initialization and avoid
 * overhead of setting this value in runtime.
 */
#ifdef BT_LOG_EXTERN_GLOBAL_OUTPUT_LEVEL
	#undef BT_LOG_EXTERN_GLOBAL_OUTPUT_LEVEL
	#define BT_LOG_EXTERN_GLOBAL_OUTPUT_LEVEL 1
#else
	#define BT_LOG_EXTERN_GLOBAL_OUTPUT_LEVEL 0
#endif
/* When defined, implementation will prefer smaller code size over speed.
 * Very rough estimate is that code will be up to 2x smaller and up to 2x
 * slower. Disabled by default.
 */
#ifdef BT_LOG_OPTIMIZE_SIZE
	#undef BT_LOG_OPTIMIZE_SIZE
	#define BT_LOG_OPTIMIZE_SIZE 1
#else
	#define BT_LOG_OPTIMIZE_SIZE 0
#endif
/* Size of the log line buffer. The buffer is allocated on stack. It limits
 * maximum length of a log line.
 */
#ifndef BT_LOG_BUF_SZ
	#define BT_LOG_BUF_SZ 512
#endif
/* Default number of bytes in one line of memory output. For large values
 * BT_LOG_BUF_SZ also must be increased.
 */
#ifndef BT_LOG_MEM_WIDTH
	#define BT_LOG_MEM_WIDTH 32
#endif
/* String to put in the end of each log line (can be empty). Its value used by
 * stderr output callback. Its size used as a default value for BT_LOG_EOL_SZ.
 */
#ifndef BT_LOG_EOL
	#define BT_LOG_EOL "\n"
#endif
/* Default delimiter that separates parts of log message. Can NOT contain '%'
 * or '\0'.
 *
 * Log message format specifications can override (or ignore) this value. For
 * more details see BT_LOG_MESSAGE_CTX_FORMAT, BT_LOG_MESSAGE_SRC_FORMAT and
 * BT_LOG_MESSAGE_TAG_FORMAT.
 */
#ifndef BT_LOG_DEF_DELIMITER
	#define BT_LOG_DEF_DELIMITER " "
#endif
/* Specifies log message context format. Log message context includes date,
 * time, process id, thread id and message's log level. Custom information can
 * be added as well. Supported fields: YEAR, MONTH, DAY, HOUR, MINUTE, SECOND,
 * MILLISECOND, PID, TID, LEVEL, S(str), F_INIT(statements),
 * F_UINT(width, value).
 *
 * Must be defined as a tuple, for example:
 *
 *   #define BT_LOG_MESSAGE_CTX_FORMAT (YEAR, S("."), MONTH, S("."), DAY, S(" > "))
 *
 * In that case, resulting log message will be:
 *
 *   2016.12.22 > TAG function@filename.c:line Message text
 *
 * Note, that tag, source location and message text are not impacted by
 * this setting. See BT_LOG_MESSAGE_TAG_FORMAT and BT_LOG_MESSAGE_SRC_FORMAT.
 *
 * If message context must be visually separated from the rest of the message,
 * it must be reflected in context format (notice trailing S(" > ") in the
 * example above).
 *
 * S(str) adds constant string str. String can NOT contain '%' or '\0'.
 *
 * F_INIT(statements) adds initialization statement(s) that will be evaluated
 * once for each log message. All statements are evaluated in specified order.
 * Several F_INIT() fields can be used in every log message format
 * specification. Fields, like F_UINT(width, value), are allowed to use results
 * of initialization statements. If statement introduces variables (or other
 * names, like structures) they must be prefixed with "f_". Statements  must be
 * enclosed into additional "()". Example:
 *
 *   #define BT_LOG_MESSAGE_CTX_FORMAT \
 *       (F_INIT(( struct rusage f_ru; getrusage(RUSAGE_SELF, &f_ru); )), \
 *        YEAR, S("."), MONTH, S("."), DAY, S(" "), \
 *        F_UINT(5, f_ru.ru_nsignals), \
 *        S(" "))
 *
 * F_UINT(width, value) adds unsigned integer value extended with up to width
 * spaces (for alignment purposes). Value can be any expression that evaluates
 * to unsigned integer. If expression contains non-standard functions, they
 * must be declared with F_INIT(). Example:
 *
 *   #define BT_LOG_MESSAGE_CTX_FORMAT \
 *        (YEAR, S("."), MONTH, S("."), DAY, S(" "), \
 *        F_INIT(( unsigned tickcount(); )), \
 *        F_UINT(5, tickcount()), \
 *        S(" "))
 *
 * Other log message format specifications follow same rules, but have a
 * different set of supported fields.
 */
#ifndef BT_LOG_MESSAGE_CTX_FORMAT
	#define BT_LOG_MESSAGE_CTX_FORMAT \
		(MONTH, S("-"), DAY, S(BT_LOG_DEF_DELIMITER), \
		 HOUR, S(":"), MINUTE, S(":"), SECOND, S("."), MILLISECOND, S(BT_LOG_DEF_DELIMITER), \
		 PID, S(BT_LOG_DEF_DELIMITER), TID, S(BT_LOG_DEF_DELIMITER), \
		 LEVEL, S(BT_LOG_DEF_DELIMITER))
#endif
/* Example:
 */
/* Specifies log message tag format. It includes tag prefix and tag. Custom
 * information can be added as well. Supported fields:
 * TAG(prefix_delimiter, tag_delimiter), S(str), F_INIT(statements),
 * F_UINT(width, value).
 *
 * TAG(prefix_delimiter, tag_delimiter) adds following string to log message:
 *
 *   PREFIX<prefix_delimiter>TAG<tag_delimiter>
 *
 * Prefix delimiter will be used only when prefix is not empty. Tag delimiter
 * will be used only when prefixed tag is not empty. Example:
 *
 *   #define BT_LOG_TAG_FORMAT (S("["), TAG(".", ""), S("] "))
 *
 * See BT_LOG_MESSAGE_CTX_FORMAT for details.
 */
#ifndef BT_LOG_MESSAGE_TAG_FORMAT
	#define BT_LOG_MESSAGE_TAG_FORMAT \
		(TAG(".", BT_LOG_DEF_DELIMITER))
#endif
/* Specifies log message source location format. It includes function name,
 * file name and file line. Custom information can be added as well. Supported
 * fields: FUNCTION, FILENAME, FILELINE, S(str), F_INIT(statements),
 * F_UINT(width, value).
 *
 * See BT_LOG_MESSAGE_CTX_FORMAT for details.
 */
#ifndef BT_LOG_MESSAGE_SRC_FORMAT
	#define BT_LOG_MESSAGE_SRC_FORMAT \
		(FUNCTION, S("@"), FILENAME, S(":"), FILELINE, S(BT_LOG_DEF_DELIMITER))
#endif
/* Fields that can be used in log message format specifications (see above).
 * Mentioning them here explicitly, so we know that nobody else defined them
 * before us. See BT_LOG_MESSAGE_CTX_FORMAT for details.
 */
#define YEAR YEAR
#define MONTH MONTH
#define DAY DAY
#define MINUTE MINUTE
#define SECOND SECOND
#define MILLISECOND MILLISECOND
#define PID PID
#define TID TID
#define LEVEL LEVEL
#define TAG(prefix_delim, tag_delim) TAG(prefix_delim, tag_delim)
#define FUNCTION FUNCTION
#define FILENAME FILENAME
#define FILELINE FILELINE
#define S(str) S(str)
#define F_INIT(statements) F_INIT(statements)
#define F_UINT(width, value) F_UINT(width, value)
/* Number of bytes to reserve for EOL in the log line buffer (must be >0).
 * Must be larger than or equal to length of BT_LOG_EOL with terminating null.
 */
#ifndef BT_LOG_EOL_SZ
	#define BT_LOG_EOL_SZ sizeof(BT_LOG_EOL)
#endif
/* Compile instrumented version of the library to facilitate unit testing.
 */
#ifndef BT_LOG_INSTRUMENTED
	#define BT_LOG_INSTRUMENTED 0
#endif

#if defined(__linux__)
	#if !defined(__ANDROID__) && !defined(_GNU_SOURCE)
		#define _GNU_SOURCE
	#endif
#endif
#if defined(__MINGW32__)
	#ifdef __STRICT_ANSI__
		#undef __STRICT_ANSI__
	#endif
#endif
#include <assert.h>
#include <ctype.h>
#include <string.h>
#include <time.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdlib.h>
#include <stdio.h>

#define BT_LOG_OUTPUT_LEVEL dummy

#include <babeltrace/logging-internal.h>
#include <babeltrace/logging.h>

#if defined(_WIN32) || defined(_WIN64)
	#include <windows.h>
#else
	#include <unistd.h>
	#include <sys/time.h>
	#if defined(__linux__)
		#include <linux/limits.h>
	#else
		#include <sys/syslimits.h>
	#endif
#endif

#if defined(__linux__)
	#include <sys/prctl.h>
	#include <sys/types.h>
	#if !defined(__ANDROID__)
		#include <sys/syscall.h>
	#endif
#endif
#if defined(__MACH__)
	#include <pthread.h>
#endif

#define INLINE _BT_LOG_INLINE
#define VAR_UNUSED(var) (void)var
#define RETVAL_UNUSED(expr) do { while(expr) break; } while(0)
#define STATIC_ASSERT(name, cond) \
	typedef char assert_##name[(cond)? 1: -1]
#define ASSERT_UNREACHABLE(why) assert(!sizeof(why))
#ifndef _countof
	#define _countof(xs) (sizeof(xs) / sizeof((xs)[0]))
#endif

#if BT_LOG_INSTRUMENTED
	#define INSTRUMENTED_CONST
#else
	#define INSTRUMENTED_CONST const
#endif

#define _PP_PASTE_2(a, b) a ## b
#define _PP_CONCAT_2(a, b) _PP_PASTE_2(a, b)

#define _PP_PASTE_3(a, b, c) a ## b ## c
#define _PP_CONCAT_3(a, b, c) _PP_PASTE_3(a, b, c)

/* Microsoft C preprocessor is a piece of shit. This moron treats __VA_ARGS__
 * as a single token and requires additional expansion to realize that it's
 * actually a list. If not for it, there would be no need in this extra
 * expansion.
 */
#define _PP_ID(x) x
#define _PP_NARGS_N(_0,_1,_2,_3,_4,_5,_6,_7,_8,_9,_10,_11,_12,_13,_14,_15,_16,_17,_18,_19,_20,_21,_22,_23,_24,...) _24
#define _PP_NARGS(...) _PP_ID(_PP_NARGS_N(__VA_ARGS__,24,23,22,21,20,19,18,17,16,15,14,13,12,11,10,9,8,7,6,5,4,3,2,1,0))

/* There is a more efficient way to implement this, but it requires
 * working C preprocessor. Unfortunately, Microsoft Visual Studio doesn't
 * have one.
 */
#define _PP_HEAD__(x, ...) x
#define _PP_HEAD_(...) _PP_ID(_PP_HEAD__(__VA_ARGS__, ~))
#define _PP_HEAD(xs) _PP_HEAD_ xs
#define _PP_TAIL_(x, ...) (__VA_ARGS__)
#define _PP_TAIL(xs) _PP_TAIL_ xs
#define _PP_UNTUPLE_(...) __VA_ARGS__
#define _PP_UNTUPLE(xs) _PP_UNTUPLE_ xs

/* Apply function macro to each element in tuple. Output is not
 * enforced to be a tuple.
 */
#define _PP_MAP_1(f, xs) f(_PP_HEAD(xs))
#define _PP_MAP_2(f, xs) f(_PP_HEAD(xs)) _PP_MAP_1(f, _PP_TAIL(xs))
#define _PP_MAP_3(f, xs) f(_PP_HEAD(xs)) _PP_MAP_2(f, _PP_TAIL(xs))
#define _PP_MAP_4(f, xs) f(_PP_HEAD(xs)) _PP_MAP_3(f, _PP_TAIL(xs))
#define _PP_MAP_5(f, xs) f(_PP_HEAD(xs)) _PP_MAP_4(f, _PP_TAIL(xs))
#define _PP_MAP_6(f, xs) f(_PP_HEAD(xs)) _PP_MAP_5(f, _PP_TAIL(xs))
#define _PP_MAP_7(f, xs) f(_PP_HEAD(xs)) _PP_MAP_6(f, _PP_TAIL(xs))
#define _PP_MAP_8(f, xs) f(_PP_HEAD(xs)) _PP_MAP_7(f, _PP_TAIL(xs))
#define _PP_MAP_9(f, xs) f(_PP_HEAD(xs)) _PP_MAP_8(f, _PP_TAIL(xs))
#define _PP_MAP_10(f, xs) f(_PP_HEAD(xs)) _PP_MAP_9(f, _PP_TAIL(xs))
#define _PP_MAP_11(f, xs) f(_PP_HEAD(xs)) _PP_MAP_10(f, _PP_TAIL(xs))
#define _PP_MAP_12(f, xs) f(_PP_HEAD(xs)) _PP_MAP_11(f, _PP_TAIL(xs))
#define _PP_MAP_13(f, xs) f(_PP_HEAD(xs)) _PP_MAP_12(f, _PP_TAIL(xs))
#define _PP_MAP_14(f, xs) f(_PP_HEAD(xs)) _PP_MAP_13(f, _PP_TAIL(xs))
#define _PP_MAP_15(f, xs) f(_PP_HEAD(xs)) _PP_MAP_14(f, _PP_TAIL(xs))
#define _PP_MAP_16(f, xs) f(_PP_HEAD(xs)) _PP_MAP_15(f, _PP_TAIL(xs))
#define _PP_MAP_17(f, xs) f(_PP_HEAD(xs)) _PP_MAP_16(f, _PP_TAIL(xs))
#define _PP_MAP_18(f, xs) f(_PP_HEAD(xs)) _PP_MAP_17(f, _PP_TAIL(xs))
#define _PP_MAP_19(f, xs) f(_PP_HEAD(xs)) _PP_MAP_18(f, _PP_TAIL(xs))
#define _PP_MAP_20(f, xs) f(_PP_HEAD(xs)) _PP_MAP_19(f, _PP_TAIL(xs))
#define _PP_MAP_21(f, xs) f(_PP_HEAD(xs)) _PP_MAP_20(f, _PP_TAIL(xs))
#define _PP_MAP_22(f, xs) f(_PP_HEAD(xs)) _PP_MAP_21(f, _PP_TAIL(xs))
#define _PP_MAP_23(f, xs) f(_PP_HEAD(xs)) _PP_MAP_22(f, _PP_TAIL(xs))
#define _PP_MAP_24(f, xs) f(_PP_HEAD(xs)) _PP_MAP_23(f, _PP_TAIL(xs))
#define _PP_MAP(f, xs) _PP_CONCAT_2(_PP_MAP_, _PP_NARGS xs) (f, xs)

/* Apply function macro to each element in tuple in reverse order.
 * Output is not enforced to be a tuple.
 */
#define _PP_RMAP_1(f, xs) f(_PP_HEAD(xs))
#define _PP_RMAP_2(f, xs) _PP_RMAP_1(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_3(f, xs) _PP_RMAP_2(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_4(f, xs) _PP_RMAP_3(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_5(f, xs) _PP_RMAP_4(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_6(f, xs) _PP_RMAP_5(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_7(f, xs) _PP_RMAP_6(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_8(f, xs) _PP_RMAP_7(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_9(f, xs) _PP_RMAP_8(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_10(f, xs) _PP_RMAP_9(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_11(f, xs) _PP_RMAP_10(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_12(f, xs) _PP_RMAP_11(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_13(f, xs) _PP_RMAP_12(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_14(f, xs) _PP_RMAP_13(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_15(f, xs) _PP_RMAP_14(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_16(f, xs) _PP_RMAP_15(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_17(f, xs) _PP_RMAP_16(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_18(f, xs) _PP_RMAP_17(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_19(f, xs) _PP_RMAP_18(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_20(f, xs) _PP_RMAP_19(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_21(f, xs) _PP_RMAP_20(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_22(f, xs) _PP_RMAP_21(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_23(f, xs) _PP_RMAP_22(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP_24(f, xs) _PP_RMAP_23(f, _PP_TAIL(xs)) f(_PP_HEAD(xs))
#define _PP_RMAP(f, xs) _PP_CONCAT_2(_PP_RMAP_, _PP_NARGS xs) (f, xs)

/* Used to implement _BT_LOG_MESSAGE_FORMAT_CONTAINS() macro. All possible
 * fields must be mentioned here. Not counting F_INIT() here because it's
 * somewhat special and is handled spearatly (at least for now).
 */
#define _BT_LOG_MESSAGE_FORMAT_MASK__             (0<<0)
#define _BT_LOG_MESSAGE_FORMAT_MASK__YEAR         (1<<1)
#define _BT_LOG_MESSAGE_FORMAT_MASK__MONTH        (1<<2)
#define _BT_LOG_MESSAGE_FORMAT_MASK__DAY          (1<<3)
#define _BT_LOG_MESSAGE_FORMAT_MASK__HOUR         (1<<4)
#define _BT_LOG_MESSAGE_FORMAT_MASK__MINUTE       (1<<5)
#define _BT_LOG_MESSAGE_FORMAT_MASK__SECOND       (1<<6)
#define _BT_LOG_MESSAGE_FORMAT_MASK__MILLISECOND  (1<<7)
#define _BT_LOG_MESSAGE_FORMAT_MASK__PID          (1<<8)
#define _BT_LOG_MESSAGE_FORMAT_MASK__TID          (1<<9)
#define _BT_LOG_MESSAGE_FORMAT_MASK__LEVEL        (1<<10)
#define _BT_LOG_MESSAGE_FORMAT_MASK__TAG(ps, ts)  (1<<11)
#define _BT_LOG_MESSAGE_FORMAT_MASK__FUNCTION     (1<<12)
#define _BT_LOG_MESSAGE_FORMAT_MASK__FILENAME     (1<<13)
#define _BT_LOG_MESSAGE_FORMAT_MASK__FILELINE     (1<<14)
#define _BT_LOG_MESSAGE_FORMAT_MASK__S(s)         (1<<15)
#define _BT_LOG_MESSAGE_FORMAT_MASK__F_INIT(expr) (0<<16)
#define _BT_LOG_MESSAGE_FORMAT_MASK__F_UINT(w, v) (1<<17)
#define _BT_LOG_MESSAGE_FORMAT_MASK(field) \
	_PP_CONCAT_3(_BT_LOG_MESSAGE_FORMAT_MASK_, _, field)

/* Logical "or" of masks of fields used in specified format specification.
 */
#define _BT_LOG_MESSAGE_FORMAT_FIELDS(format) \
	(0 _PP_MAP(| _BT_LOG_MESSAGE_FORMAT_MASK, format))

/* Expands to expressions that evaluates to true if field is used in
 * specified format specification. Example:
 *
 *   #if _BT_LOG_MESSAGE_FORMAT_CONTAINS(F_UINT, BT_LOG_MESSAGE_CTX_FORMAT)
 *       ...
 *   #endif
 */
#define _BT_LOG_MESSAGE_FORMAT_CONTAINS(field, format) \
	(_BT_LOG_MESSAGE_FORMAT_MASK(field) & _BT_LOG_MESSAGE_FORMAT_FIELDS(format))

/* Same, but checks all supported format specifications.
 */
#define _BT_LOG_MESSAGE_FORMAT_FIELD_USED(field) \
	(_BT_LOG_MESSAGE_FORMAT_CONTAINS(field, BT_LOG_MESSAGE_CTX_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(field, BT_LOG_MESSAGE_TAG_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(field, BT_LOG_MESSAGE_SRC_FORMAT))

#define _BT_LOG_MESSAGE_FORMAT_DATETIME_USED \
	(_BT_LOG_MESSAGE_FORMAT_CONTAINS(YEAR, BT_LOG_MESSAGE_CTX_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(MONTH, BT_LOG_MESSAGE_CTX_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(DAY, BT_LOG_MESSAGE_CTX_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(HOUR, BT_LOG_MESSAGE_CTX_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(MINUTE, BT_LOG_MESSAGE_CTX_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(SECOND, BT_LOG_MESSAGE_CTX_FORMAT) || \
	 _BT_LOG_MESSAGE_FORMAT_CONTAINS(MILLISECOND, BT_LOG_MESSAGE_CTX_FORMAT))

#if defined(_MSC_VER) && !defined(__INTEL_COMPILER)
	#pragma warning(disable:4204) /* nonstandard extension used: non-constant aggregate initializer */
	#define memccpy _memccpy
#endif

#if (defined(_MSC_VER) && !defined(__INTEL_COMPILER)) || defined(__MINGW64__)
	#define vsnprintf(s, sz, fmt, va) fake_vsnprintf(s, sz, fmt, va)
	static int fake_vsnprintf(char *s, size_t sz, const char *fmt, va_list ap)
	{
		const int n = vsnprintf_s(s, sz, _TRUNCATE, fmt, ap);
		return 0 < n? n: (int)sz + 1; /* no need in _vscprintf() for now */
	}
	#if BT_LOG_OPTIMIZE_SIZE
	#define snprintf(s, sz, ...) fake_snprintf(s, sz, __VA_ARGS__)
	static int fake_snprintf(char *s, size_t sz, const char *fmt, ...)
	{
		va_list va;
		va_start(va, fmt);
		const int n = fake_vsnprintf(s, sz, fmt, va);
		va_end(va);
		return n;
	}
	#endif
#endif

typedef void (*time_cb)(struct tm *const tm, unsigned *const usec);
typedef void (*pid_cb)(int *const pid, int *const tid);
typedef void (*buffer_cb)(bt_log_message *msg, char *buf);

typedef struct src_location
{
	const char *const func;
	const char *const file;
	const unsigned line;
}
src_location;

typedef struct mem_block
{
	const void *const d;
	const unsigned d_sz;
}
mem_block;

static void time_callback(struct tm *const tm, unsigned *const usec);
static void pid_callback(int *const pid, int *const tid);
static void buffer_callback(bt_log_message *msg, char *buf);

STATIC_ASSERT(eol_fits_eol_sz, sizeof(BT_LOG_EOL) <= BT_LOG_EOL_SZ);
STATIC_ASSERT(eol_sz_greater_than_zero, 0 < BT_LOG_EOL_SZ);
STATIC_ASSERT(eol_sz_less_than_buf_sz, BT_LOG_EOL_SZ < BT_LOG_BUF_SZ);
#if !defined(_WIN32) && !defined(_WIN64)
	STATIC_ASSERT(buf_sz_less_than_pipe_buf, BT_LOG_BUF_SZ <= PIPE_BUF);
#endif
static const char c_hex[] = "0123456789abcdef";

static INSTRUMENTED_CONST unsigned g_buf_sz = BT_LOG_BUF_SZ - BT_LOG_EOL_SZ;
static INSTRUMENTED_CONST time_cb g_time_cb = time_callback;
static INSTRUMENTED_CONST pid_cb g_pid_cb = pid_callback;
static INSTRUMENTED_CONST buffer_cb g_buffer_cb = buffer_callback;

#if BT_LOG_USE_ANDROID_LOG
	#include <android/log.h>

	static INLINE int android_lvl(const int lvl)
	{
		switch (lvl)
		{
		case BT_LOG_VERBOSE:
			return ANDROID_LOG_VERBOSE;
		case BT_LOG_DEBUG:
			return ANDROID_LOG_DEBUG;
		case BT_LOG_INFO:
			return ANDROID_LOG_INFO;
		case BT_LOG_WARN:
			return ANDROID_LOG_WARN;
		case BT_LOG_ERROR:
			return ANDROID_LOG_ERROR;
		case BT_LOG_FATAL:
			return ANDROID_LOG_FATAL;
		default:
			ASSERT_UNREACHABLE("Bad log level");
			return ANDROID_LOG_UNKNOWN;
		}
	}

	static void out_android_callback(const bt_log_message *const msg, void *arg)
	{
		VAR_UNUSED(arg);
		*msg->p = 0;
		const char *tag = msg->p;
		if (msg->tag_e != msg->tag_b)
		{
			tag = msg->tag_b;
			*msg->tag_e = 0;
		}
		__android_log_print(android_lvl(msg->lvl), tag, "%s", msg->msg_b);
	}

	enum { OUT_ANDROID_MASK = BT_LOG_PUT_STD & ~BT_LOG_PUT_CTX };
	#define OUT_ANDROID OUT_ANDROID_MASK, 0, out_android_callback
#endif

#if BT_LOG_USE_NSLOG
	#include <CoreFoundation/CoreFoundation.h>
	CF_EXPORT void CFLog(int32_t level, CFStringRef format, ...);

	static INLINE int apple_lvl(const int lvl)
	{
		switch (lvl)
		{
		case BT_LOG_VERBOSE:
			return 7; /* ASL_LEVEL_DEBUG / kCFLogLevelDebug */;
		case BT_LOG_DEBUG:
			return 7; /* ASL_LEVEL_DEBUG / kCFLogLevelDebug */;
		case BT_LOG_INFO:
			return 6; /* ASL_LEVEL_INFO / kCFLogLevelInfo */;
		case BT_LOG_WARN:
			return 4; /* ASL_LEVEL_WARNING / kCFLogLevelWarning */;
		case BT_LOG_ERROR:
			return 3; /* ASL_LEVEL_ERR / kCFLogLevelError */;
		case BT_LOG_FATAL:
			return 0; /* ASL_LEVEL_EMERG / kCFLogLevelEmergency */;
		default:
			ASSERT_UNREACHABLE("Bad log level");
			return 0; /* ASL_LEVEL_EMERG / kCFLogLevelEmergency */;
		}
	}

	static void out_nslog_callback(const bt_log_message *const msg, void *arg)
	{
		VAR_UNUSED(arg);
		*msg->p = 0;
		CFLog(apple_lvl(msg->lvl), CFSTR("%s"), msg->tag_b);
	}

	enum { OUT_NSLOG_MASK = BT_LOG_PUT_STD & ~BT_LOG_PUT_CTX };
	#define OUT_NSLOG OUT_NSLOG_MASK, 0, out_nslog_callback
#endif

#if BT_LOG_USE_DEBUGSTRING
	#include <windows.h>

	static void out_debugstring_callback(const bt_log_message *const msg, void *arg)
	{
		VAR_UNUSED(arg);
		msg->p[0] = '\n';
		msg->p[1] = '\0';
		OutputDebugStringA(msg->buf);
	}

	enum { OUT_DEBUGSTRING_MASK = BT_LOG_PUT_STD };
	#define OUT_DEBUGSTRING OUT_DEBUGSTRING_MASK, 0, out_debugstring_callback
#endif

BT_HIDDEN
void bt_log_out_stderr_callback(const bt_log_message *const msg, void *arg)
{
	VAR_UNUSED(arg);
	const size_t eol_len = sizeof(BT_LOG_EOL) - 1;
	memcpy(msg->p, BT_LOG_EOL, eol_len);
#if defined(_WIN32) || defined(_WIN64)
	/* WriteFile() is atomic for local files opened with FILE_APPEND_DATA and
	   without FILE_WRITE_DATA */
	WriteFile(GetStdHandle(STD_ERROR_HANDLE), msg->buf,
			  (DWORD)(msg->p - msg->buf + eol_len), 0, 0);
#else
	/* write() is atomic for buffers less than or equal to PIPE_BUF. */
	RETVAL_UNUSED(write(STDERR_FILENO, msg->buf,
						(size_t)(msg->p - msg->buf) + eol_len));
#endif
}

static const bt_log_output out_stderr = {BT_LOG_OUT_STDERR};

#if !BT_LOG_EXTERN_TAG_PREFIX
	BT_LOG_DEFINE_TAG_PREFIX = 0;
#endif

#if !BT_LOG_EXTERN_GLOBAL_FORMAT
	BT_LOG_DEFINE_GLOBAL_FORMAT = {BT_LOG_MEM_WIDTH};
#endif

#if !BT_LOG_EXTERN_GLOBAL_OUTPUT
	#if BT_LOG_USE_ANDROID_LOG
		BT_LOG_DEFINE_GLOBAL_OUTPUT = {OUT_ANDROID};
	#elif BT_LOG_USE_NSLOG
		BT_LOG_DEFINE_GLOBAL_OUTPUT = {OUT_NSLOG};
	#elif BT_LOG_USE_DEBUGSTRING
		BT_LOG_DEFINE_GLOBAL_OUTPUT = {OUT_DEBUGSTRING};
	#else
		BT_LOG_DEFINE_GLOBAL_OUTPUT = {BT_LOG_OUT_STDERR};
	#endif
#endif

#if !BT_LOG_EXTERN_GLOBAL_OUTPUT_LEVEL
	BT_LOG_DEFINE_GLOBAL_OUTPUT_LEVEL = 0;
#endif

const bt_log_spec _bt_log_stderr_spec =
{
	BT_LOG_GLOBAL_FORMAT,
	&out_stderr,
};

static const bt_log_spec global_spec =
{
	BT_LOG_GLOBAL_FORMAT,
	BT_LOG_GLOBAL_OUTPUT,
};

#if _BT_LOG_MESSAGE_FORMAT_CONTAINS(LEVEL, BT_LOG_MESSAGE_CTX_FORMAT)
static char lvl_char(const int lvl)
{
	switch (lvl)
	{
	case BT_LOG_VERBOSE:
		return 'V';
	case BT_LOG_DEBUG:
		return 'D';
	case BT_LOG_INFO:
		return 'I';
	case BT_LOG_WARN:
		return 'W';
	case BT_LOG_ERROR:
		return 'E';
	case BT_LOG_FATAL:
		return 'F';
	default:
		ASSERT_UNREACHABLE("Bad log level");
		return '?';
	}
}
#endif

#define GCCVER_LESS(MAJOR, MINOR, PATCH) \
	(__GNUC__ < MAJOR || \
		(__GNUC__ == MAJOR && (__GNUC_MINOR__ < MINOR || \
			(__GNUC_MINOR__ == MINOR && __GNUC_PATCHLEVEL__ < PATCH))))

#if !defined(__clang__) && defined(__GNUC__) && GCCVER_LESS(4,7,0)
	#define __atomic_load_n(vp, model) __sync_fetch_and_add(vp, 0)
	#define __atomic_fetch_add(vp, n, model) __sync_fetch_and_add(vp, n)
	#define __atomic_sub_fetch(vp, n, model) __sync_sub_and_fetch(vp, n)
	#define __atomic_or_fetch(vp, n, model) __sync_or_and_fetch(vp, n)
	#define __atomic_and_fetch(vp, n, model) __sync_and_and_fetch(vp, n)
	/* Note: will not store old value of *vp in *ep (non-standard behaviour) */
	#define __atomic_compare_exchange_n(vp, ep, d, weak, smodel, fmodel) \
		__sync_bool_compare_and_swap(vp, *(ep), d)
#endif

#if !BT_LOG_OPTIMIZE_SIZE && !defined(_WIN32) && !defined(_WIN64)
#define TCACHE
#define TCACHE_STALE (0x40000000)
#define TCACHE_FLUID (0x40000000 | 0x80000000)
static unsigned g_tcache_mode = TCACHE_STALE;
static struct timeval g_tcache_tv = {0, 0};
static struct tm g_tcache_tm = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};

static INLINE int tcache_get(const struct timeval *const tv, struct tm *const tm)
{
	unsigned mode;
	mode = __atomic_load_n(&g_tcache_mode, __ATOMIC_RELAXED);
	if (0 == (mode & TCACHE_FLUID))
	{
		mode = __atomic_fetch_add(&g_tcache_mode, 1, __ATOMIC_ACQUIRE);
		if (0 == (mode & TCACHE_FLUID))
		{
			if (g_tcache_tv.tv_sec == tv->tv_sec)
			{
				*tm = g_tcache_tm;
				__atomic_sub_fetch(&g_tcache_mode, 1, __ATOMIC_RELEASE);
				return !0;
			}
			__atomic_or_fetch(&g_tcache_mode, TCACHE_STALE, __ATOMIC_RELAXED);
		}
		__atomic_sub_fetch(&g_tcache_mode, 1, __ATOMIC_RELEASE);
	}
	return 0;
}

static INLINE void tcache_set(const struct timeval *const tv, struct tm *const tm)
{
	unsigned stale = TCACHE_STALE;
	if (__atomic_compare_exchange_n(&g_tcache_mode, &stale, TCACHE_FLUID,
									0, __ATOMIC_ACQUIRE, __ATOMIC_RELAXED))
	{
		g_tcache_tv = *tv;
		g_tcache_tm = *tm;
		__atomic_and_fetch(&g_tcache_mode, ~TCACHE_FLUID, __ATOMIC_RELEASE);
	}
}
#endif

static void time_callback(struct tm *const tm, unsigned *const msec)
{
#if !_BT_LOG_MESSAGE_FORMAT_DATETIME_USED
	VAR_UNUSED(tm);
	VAR_UNUSED(msec);
#else
	#if defined(_WIN32) || defined(_WIN64)
	SYSTEMTIME st;
	GetLocalTime(&st);
	tm->tm_year = st.wYear;
	tm->tm_mon = st.wMonth;
	tm->tm_mday = st.wDay;
	tm->tm_wday = st.wDayOfWeek;
	tm->tm_hour = st.wHour;
	tm->tm_min = st.wMinute;
	tm->tm_sec = st.wSecond;
	*msec = st.wMilliseconds;
	#else
	struct timeval tv;
	gettimeofday(&tv, 0);
		#ifndef TCACHE
		localtime_r(&tv.tv_sec, tm);
		#else
		if (!tcache_get(&tv, tm))
		{
			localtime_r(&tv.tv_sec, tm);
			tcache_set(&tv, tm);
		}
		#endif
	*msec = (unsigned)tv.tv_usec / 1000;
	#endif
#endif
}

static void pid_callback(int *const pid, int *const tid)
{
#if !_BT_LOG_MESSAGE_FORMAT_CONTAINS(PID, BT_LOG_MESSAGE_CTX_FORMAT)
	VAR_UNUSED(pid);
#else
	#if defined(_WIN32) || defined(_WIN64)
	*pid = GetCurrentProcessId();
	#else
	*pid = getpid();
	#endif
#endif

#if !_BT_LOG_MESSAGE_FORMAT_CONTAINS(TID, BT_LOG_MESSAGE_CTX_FORMAT)
	VAR_UNUSED(tid);
#else
	#if defined(_WIN32) || defined(_WIN64)
	*tid = GetCurrentThreadId();
	#elif defined(__ANDROID__)
	*tid = gettid();
	#elif defined(__linux__)
	*tid = syscall(SYS_gettid);
	#elif defined(__MACH__)
	*tid = (int)pthread_mach_thread_np(pthread_self());
	#else
		#define Platform not supported
	#endif
#endif
}

static void buffer_callback(bt_log_message *msg, char *buf)
{
	msg->e = (msg->p = msg->buf = buf) + g_buf_sz;
}

#if _BT_LOG_MESSAGE_FORMAT_CONTAINS(FUNCTION, BT_LOG_MESSAGE_SRC_FORMAT)
static const char *funcname(const char *func)
{
	return func? func: "";
}
#endif

#if _BT_LOG_MESSAGE_FORMAT_CONTAINS(FILENAME, BT_LOG_MESSAGE_SRC_FORMAT)
static const char *filename(const char *file)
{
	const char *f = file;
	for (const char *p = file; 0 != *p; ++p)
	{
		if ('/' == *p || '\\' == *p)
		{
			f = p + 1;
		}
	}
	return f;
}
#endif

static INLINE size_t nprintf_size(bt_log_message *const msg)
{
	// *nprintf() always puts 0 in the end when input buffer is not empty. This
	// 0 is not desired because its presence sets (ctx->p) to (ctx->e - 1) which
	// leaves space for one more character. Some put_xxx() functions don't use
	// *nprintf() and could use that last character. In that case log line will
	// have multiple (two) half-written parts which is confusing. To workaround
	// that we allow *nprintf() to write its 0 in the eol area (which is always
	// not empty).
	return (size_t)(msg->e - msg->p + 1);
}

static INLINE void put_nprintf(bt_log_message *const msg, const int n)
{
	if (0 < n)
	{
		msg->p = n < msg->e - msg->p? msg->p + n: msg->e;
	}
}

static INLINE char *put_padding_r(const unsigned w, const char wc,
								  char *p, char *e)
{
	for (char *const b = e - w; b < p; *--p = wc) {}
	return p;
}

static char *put_integer_r(unsigned v, const int sign,
						   const unsigned w, const char wc, char *const e)
{
	static const char _signs[] = {'-', '0', '+'};
	static const char *const signs = _signs + 1;
	char *p = e;
	do { *--p = '0' + v % 10; } while (0 != (v /= 10));
	if (0 == sign) return put_padding_r(w, wc, p, e);
	if ('0' != wc)
	{
		*--p = signs[sign];
		return put_padding_r(w, wc, p, e);
	}
	p = put_padding_r(w, wc, p, e + 1);
	*--p = signs[sign];
	return p;
}

static INLINE char *put_uint_r(const unsigned v, const unsigned w, const char wc,
							   char *const e)
{
	return put_integer_r(v, 0, w, wc, e);
}

static INLINE char *put_int_r(const int v, const unsigned w, const char wc,
							  char *const e)
{
	return 0 <= v? put_integer_r((unsigned)v, 0, w, wc, e)
				 : put_integer_r((unsigned)-v, -1, w, wc, e);
}

static INLINE char *put_stringn(const char *const s_p, const char *const s_e,
								char *const p, char *const e)
{
	const ptrdiff_t m = e - p;
	ptrdiff_t n = s_e - s_p;
	if (n > m)
	{
		n = m;
	}
	memcpy(p, s_p, n);
	return p + n;
}

static INLINE char *put_string(const char *s, char *p, char *const e)
{
	const ptrdiff_t n = e - p;
	char *const c = (char *)memccpy(p, s, '\0', n);
	return 0 != c? c - 1: e;
}

static INLINE char *put_uint(unsigned v, const unsigned w, const char wc,
							 char *const p, char *const e)
{
	char buf[16];
	char *const se = buf + _countof(buf);
	char *sp = put_uint_r(v, w, wc, se);
	return put_stringn(sp, se, p, e);
}

#define PUT_CSTR_R(p, STR) \
	do { \
		for (unsigned i = sizeof(STR) - 1; 0 < i--;) { \
			*--(p) = (STR)[i]; \
		} \
	} _BT_LOG_ONCE

#define PUT_CSTR_CHECKED(p, e, STR) \
	do { \
		for (unsigned i = 0; (e) > (p) && (sizeof(STR) - 1) > i; ++i) { \
			*(p)++ = (STR)[i]; \
		} \
	} _BT_LOG_ONCE

/* F_INIT field support.
 */
#define _BT_LOG_MESSAGE_FORMAT_INIT__
#define _BT_LOG_MESSAGE_FORMAT_INIT__YEAR
#define _BT_LOG_MESSAGE_FORMAT_INIT__MONTH
#define _BT_LOG_MESSAGE_FORMAT_INIT__DAY
#define _BT_LOG_MESSAGE_FORMAT_INIT__HOUR
#define _BT_LOG_MESSAGE_FORMAT_INIT__MINUTE
#define _BT_LOG_MESSAGE_FORMAT_INIT__SECOND
#define _BT_LOG_MESSAGE_FORMAT_INIT__MILLISECOND
#define _BT_LOG_MESSAGE_FORMAT_INIT__PID
#define _BT_LOG_MESSAGE_FORMAT_INIT__TID
#define _BT_LOG_MESSAGE_FORMAT_INIT__LEVEL
#define _BT_LOG_MESSAGE_FORMAT_INIT__TAG(ps, ts)
#define _BT_LOG_MESSAGE_FORMAT_INIT__FUNCTION
#define _BT_LOG_MESSAGE_FORMAT_INIT__FILENAME
#define _BT_LOG_MESSAGE_FORMAT_INIT__FILELINE
#define _BT_LOG_MESSAGE_FORMAT_INIT__S(s)
#define _BT_LOG_MESSAGE_FORMAT_INIT__F_INIT(expr) _PP_UNTUPLE(expr);
#define _BT_LOG_MESSAGE_FORMAT_INIT__F_UINT(w, v)
#define _BT_LOG_MESSAGE_FORMAT_INIT(field) \
	_PP_CONCAT_3(_BT_LOG_MESSAGE_FORMAT_INIT_, _, field)

/* Implements generation of printf-like format string for log message
 * format specification.
 */
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__             ""
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__YEAR         "%04u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__MONTH        "%02u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__DAY          "%02u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__HOUR         "%02u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__MINUTE       "%02u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__SECOND       "%02u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__MILLISECOND  "%03u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__PID          "%5i"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__TID          "%5i"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__LEVEL        "%c"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__TAG          UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__FUNCTION     "%s"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__FILENAME     "%s"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__FILELINE     "%u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__S(s)         s
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__F_INIT(expr) ""
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT__F_UINT(w, v) "%" #w "u"
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_FMT(field) \
	_PP_CONCAT_3(_BT_LOG_MESSAGE_FORMAT_PRINTF_FMT_, _, field)

/* Implements generation of printf-like format parameters for log message
 * format specification.
 */
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__YEAR         ,(unsigned)(tm.tm_year + 1900)
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__MONTH        ,(unsigned)(tm.tm_mon + 1)
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__DAY          ,(unsigned)tm.tm_mday
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__HOUR         ,(unsigned)tm.tm_hour
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__MINUTE       ,(unsigned)tm.tm_min
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__SECOND       ,(unsigned)tm.tm_sec
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__MILLISECOND  ,(unsigned)msec
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__PID          ,pid
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__TID          ,tid
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__LEVEL        ,(char)lvl_char(msg->lvl)
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__TAG          UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__FUNCTION     ,funcname(src->func)
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__FILENAME     ,filename(src->file)
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__FILELINE     ,src->line
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__S(s)
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__F_INIT(expr)
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL__F_UINT(w, v) ,v
#define _BT_LOG_MESSAGE_FORMAT_PRINTF_VAL(field) \
	_PP_CONCAT_3(_BT_LOG_MESSAGE_FORMAT_PRINTF_VAL_, _, field)

/* Implements generation of put_xxx_t statements for log message specification.
 */
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__YEAR         p = put_uint_r(tm.tm_year + 1900, 4, '0', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__MONTH        p = put_uint_r((unsigned)tm.tm_mon + 1, 2, '0', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__DAY          p = put_uint_r((unsigned)tm.tm_mday, 2, '0', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__HOUR         p = put_uint_r((unsigned)tm.tm_hour, 2, '0', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__MINUTE       p = put_uint_r((unsigned)tm.tm_min, 2, '0', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__SECOND       p = put_uint_r((unsigned)tm.tm_sec, 2, '0', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__MILLISECOND  p = put_uint_r(msec, 3, '0', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__PID          p = put_int_r(pid, 5, ' ', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__TID          p = put_int_r(tid, 5, ' ', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__LEVEL        *--p = lvl_char(msg->lvl);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__TAG          UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__FUNCTION     UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__FILENAME     UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__FILELINE     UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__S(s)         PUT_CSTR_R(p, s);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__F_INIT(expr)
#define _BT_LOG_MESSAGE_FORMAT_PUT_R__F_UINT(w, v) p = put_uint_r(v, w, ' ', p);
#define _BT_LOG_MESSAGE_FORMAT_PUT_R(field) \
	_PP_CONCAT_3(_BT_LOG_MESSAGE_FORMAT_PUT_R_, _, field)

static void put_ctx(bt_log_message *const msg)
{
	_PP_MAP(_BT_LOG_MESSAGE_FORMAT_INIT, BT_LOG_MESSAGE_CTX_FORMAT)
#if !_BT_LOG_MESSAGE_FORMAT_FIELDS(BT_LOG_MESSAGE_CTX_FORMAT)
	VAR_UNUSED(msg);
#else
	#if _BT_LOG_MESSAGE_FORMAT_DATETIME_USED
	struct tm tm;
	unsigned msec;
	g_time_cb(&tm, &msec);
	#endif
	#if _BT_LOG_MESSAGE_FORMAT_CONTAINS(PID, BT_LOG_MESSAGE_CTX_FORMAT) || \
		_BT_LOG_MESSAGE_FORMAT_CONTAINS(TID, BT_LOG_MESSAGE_CTX_FORMAT)
	int pid, tid;
	g_pid_cb(&pid, &tid);
	#endif

	#if BT_LOG_OPTIMIZE_SIZE
	int n;
	n = snprintf(msg->p, nprintf_size(msg),
				 _PP_MAP(_BT_LOG_MESSAGE_FORMAT_PRINTF_FMT, BT_LOG_MESSAGE_CTX_FORMAT)
                 _PP_MAP(_BT_LOG_MESSAGE_FORMAT_PRINTF_VAL, BT_LOG_MESSAGE_CTX_FORMAT));
	put_nprintf(msg, n);
	#else
	char buf[64];
	char *const e = buf + sizeof(buf);
	char *p = e;
	_PP_RMAP(_BT_LOG_MESSAGE_FORMAT_PUT_R, BT_LOG_MESSAGE_CTX_FORMAT)
	msg->p = put_stringn(p, e, msg->p, msg->e);
	#endif
#endif
}

#define PUT_TAG(msg, tag, prefix_delim, tag_delim) \
	do { \
		const char *ch; \
		msg->tag_b = msg->p; \
		if (0 != (ch = _bt_log_tag_prefix)) { \
			for (;msg->e != msg->p && 0 != (*msg->p = *ch); ++msg->p, ++ch) {} \
		} \
		if (0 != (ch = tag) && 0 != tag[0]) { \
			if (msg->tag_b != msg->p) { \
				PUT_CSTR_CHECKED(msg->p, msg->e, prefix_delim); \
			} \
			for (;msg->e != msg->p && 0 != (*msg->p = *ch); ++msg->p, ++ch) {} \
		} \
		msg->tag_e = msg->p; \
		if (msg->tag_b != msg->p) { \
			PUT_CSTR_CHECKED(msg->p, msg->e, tag_delim); \
		} \
	} _BT_LOG_ONCE

/* Implements simple put statements for log message specification.
 */
#define _BT_LOG_MESSAGE_FORMAT_PUT__
#define _BT_LOG_MESSAGE_FORMAT_PUT__YEAR         UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__MONTH        UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__DAY          UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__HOUR         UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__MINUTE       UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__SECOND       UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__MILLISECOND  UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__PID          UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__TID          UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__LEVEL        UNDEFINED
#define _BT_LOG_MESSAGE_FORMAT_PUT__TAG(pd, td)  PUT_TAG(msg, tag, pd, td);
#define _BT_LOG_MESSAGE_FORMAT_PUT__FUNCTION     msg->p = put_string(funcname(src->func), msg->p, msg->e);
#define _BT_LOG_MESSAGE_FORMAT_PUT__FILENAME     msg->p = put_string(filename(src->file), msg->p, msg->e);
#define _BT_LOG_MESSAGE_FORMAT_PUT__FILELINE     msg->p = put_uint(src->line, 0, '\0', msg->p, msg->e);
#define _BT_LOG_MESSAGE_FORMAT_PUT__S(s)         PUT_CSTR_CHECKED(msg->p, msg->e, s);
#define _BT_LOG_MESSAGE_FORMAT_PUT__F_INIT(expr)
#define _BT_LOG_MESSAGE_FORMAT_PUT__F_UINT(w, v) msg->p = put_uint(v, w, ' ', msg->p, msg->e);
#define _BT_LOG_MESSAGE_FORMAT_PUT(field) \
	_PP_CONCAT_3(_BT_LOG_MESSAGE_FORMAT_PUT_, _, field)

static void put_tag(bt_log_message *const msg, const char *const tag)
{
	_PP_MAP(_BT_LOG_MESSAGE_FORMAT_INIT, BT_LOG_MESSAGE_TAG_FORMAT)
#if !_BT_LOG_MESSAGE_FORMAT_CONTAINS(TAG, BT_LOG_MESSAGE_TAG_FORMAT)
	VAR_UNUSED(tag);
#endif
#if !_BT_LOG_MESSAGE_FORMAT_FIELDS(BT_LOG_MESSAGE_TAG_FORMAT)
	VAR_UNUSED(msg);
#else
	_PP_MAP(_BT_LOG_MESSAGE_FORMAT_PUT, BT_LOG_MESSAGE_TAG_FORMAT)
#endif
}

static void put_src(bt_log_message *const msg, const src_location *const src)
{
	_PP_MAP(_BT_LOG_MESSAGE_FORMAT_INIT, BT_LOG_MESSAGE_SRC_FORMAT)
#if !_BT_LOG_MESSAGE_FORMAT_CONTAINS(FUNCTION, BT_LOG_MESSAGE_SRC_FORMAT) && \
	!_BT_LOG_MESSAGE_FORMAT_CONTAINS(FILENAME, BT_LOG_MESSAGE_SRC_FORMAT) && \
	!_BT_LOG_MESSAGE_FORMAT_CONTAINS(FILELINE, BT_LOG_MESSAGE_SRC_FORMAT)
	VAR_UNUSED(src);
#endif
#if !_BT_LOG_MESSAGE_FORMAT_FIELDS(BT_LOG_MESSAGE_SRC_FORMAT)
	VAR_UNUSED(msg);
#else
	#if BT_LOG_OPTIMIZE_SIZE
	int n;
	n = snprintf(msg->p, nprintf_size(msg),
				 _PP_MAP(_BT_LOG_MESSAGE_FORMAT_PRINTF_FMT, BT_LOG_MESSAGE_SRC_FORMAT)
                 _PP_MAP(_BT_LOG_MESSAGE_FORMAT_PRINTF_VAL, BT_LOG_MESSAGE_SRC_FORMAT));
	put_nprintf(msg, n);
	#else
	_PP_MAP(_BT_LOG_MESSAGE_FORMAT_PUT, BT_LOG_MESSAGE_SRC_FORMAT)
	#endif
#endif
}

static void put_msg(bt_log_message *const msg,
					const char *const fmt, va_list va)
{
	int n;
	msg->msg_b = msg->p;
	n = vsnprintf(msg->p, nprintf_size(msg), fmt, va);
	put_nprintf(msg, n);
}

static void output_mem(const bt_log_spec *log, bt_log_message *const msg,
					   const mem_block *const mem)
{
	if (0 == mem->d || 0 == mem->d_sz)
	{
		return;
	}
	const unsigned char *mem_p = (const unsigned char *)mem->d;
	const unsigned char *const mem_e = mem_p + mem->d_sz;
	const unsigned char *mem_cut;
	const ptrdiff_t mem_width = (ptrdiff_t)log->format->mem_width;
	char *const hex_b = msg->msg_b;
	char *const ascii_b = hex_b + 2 * mem_width + 2;
	char *const ascii_e = ascii_b + mem_width;
	if (msg->e < ascii_e)
	{
		return;
	}
	while (mem_p != mem_e)
	{
		char *hex = hex_b;
		char *ascii = ascii_b;
		for (mem_cut = mem_width < mem_e - mem_p? mem_p + mem_width: mem_e;
			 mem_cut != mem_p; ++mem_p)
		{
			const unsigned char ch = *mem_p;
			*hex++ = c_hex[(0xf0 & ch) >> 4];
			*hex++ = c_hex[(0x0f & ch)];
			*ascii++ = isprint(ch)? (char)ch: '?';
		}
		while (hex != ascii_b)
		{
			*hex++ = ' ';
		}
		msg->p = ascii;
		log->output->callback(msg, log->output->arg);
	}
}

BT_HIDDEN
void bt_log_set_tag_prefix(const char *const prefix)
{
	_bt_log_tag_prefix = prefix;
}

BT_HIDDEN
void bt_log_set_mem_width(const unsigned w)
{
	_bt_log_global_format.mem_width = w;
}

BT_HIDDEN
void bt_log_set_output_level(const int lvl)
{
	_bt_log_global_output_lvl = lvl;
}

BT_HIDDEN
void bt_log_set_output_v(const unsigned mask, void *const arg,
						 const bt_log_output_cb callback)
{
	_bt_log_global_output.mask = mask;
	_bt_log_global_output.arg = arg;
	_bt_log_global_output.callback = callback;
}

static void _bt_log_write_imp(
		const bt_log_spec *log,
		const src_location *const src, const mem_block *const mem,
		const int lvl, const char *const tag, const char *const fmt, va_list va)
{
	bt_log_message msg;
	char buf[BT_LOG_BUF_SZ];
	const unsigned mask = log->output->mask;
	msg.lvl = lvl;
	msg.tag = tag;
	g_buffer_cb(&msg, buf);
	if (BT_LOG_PUT_CTX & mask)
	{
		put_ctx(&msg);
	}
	if (BT_LOG_PUT_TAG & mask)
	{
		put_tag(&msg, tag);
	}
	if (0 != src && BT_LOG_PUT_SRC & mask)
	{
		put_src(&msg, src);
	}
	if (BT_LOG_PUT_MSG & mask)
	{
		put_msg(&msg, fmt, va);
	}
	log->output->callback(&msg, log->output->arg);
	if (0 != mem && BT_LOG_PUT_MSG & mask)
	{
		output_mem(log, &msg, mem);
	}
}

BT_HIDDEN
void _bt_log_write_d(
		const char *const func, const char *const file, const unsigned line,
		const int lvl, const char *const tag,
		const char *const fmt, ...)
{
	const src_location src = {func, file, line};
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(&global_spec, &src, 0, lvl, tag, fmt, va);
	va_end(va);
}

BT_HIDDEN
void _bt_log_write_aux_d(
		const char *const func, const char *const file, const unsigned line,
		const bt_log_spec *const log, const int lvl, const char *const tag,
		const char *const fmt, ...)
{
	const src_location src = {func, file, line};
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(log, &src, 0, lvl, tag, fmt, va);
	va_end(va);
}

BT_HIDDEN
void _bt_log_write(const int lvl, const char *const tag,
				   const char *const fmt, ...)
{
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(&global_spec, 0, 0, lvl, tag, fmt, va);
	va_end(va);
}

BT_HIDDEN
void _bt_log_write_aux(
		const bt_log_spec *const log, const int lvl, const char *const tag,
		const char *const fmt, ...)
{
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(log, 0, 0, lvl, tag, fmt, va);
	va_end(va);
}

BT_HIDDEN
void _bt_log_write_mem_d(
		const char *const func, const char *const file, const unsigned line,
		const int lvl, const char *const tag,
		const void *const d, const unsigned d_sz,
		const char *const fmt, ...)
{
	const src_location src = {func, file, line};
	const mem_block mem = {d, d_sz};
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(&global_spec, &src, &mem, lvl, tag, fmt, va);
	va_end(va);
}

BT_HIDDEN
void _bt_log_write_mem_aux_d(
		const char *const func, const char *const file, const unsigned line,
		const bt_log_spec *const log, const int lvl, const char *const tag,
		const void *const d, const unsigned d_sz,
		const char *const fmt, ...)
{
	const src_location src = {func, file, line};
	const mem_block mem = {d, d_sz};
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(log, &src, &mem, lvl, tag, fmt, va);
	va_end(va);
}

BT_HIDDEN
void _bt_log_write_mem(const int lvl, const char *const tag,
					   const void *const d, const unsigned d_sz,
					   const char *const fmt, ...)
{
	const mem_block mem = {d, d_sz};
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(&global_spec, 0, &mem, lvl, tag, fmt, va);
	va_end(va);
}

BT_HIDDEN
void _bt_log_write_mem_aux(
		const bt_log_spec *const log, const int lvl, const char *const tag,
		const void *const d, const unsigned d_sz,
		const char *const fmt, ...)
{
	const mem_block mem = {d, d_sz};
	va_list va;
	va_start(va, fmt);
	_bt_log_write_imp(log, 0, &mem, lvl, tag, fmt, va);
	va_end(va);
}