/*
* Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The OpenAirInterface Software Alliance licenses this file to You under
* the OAI Public License, Version 1.1 (the "License"); you may not use this file
* except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.openairinterface.org/?page_id=698
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*-------------------------------------------------------------------------------
* For more information about the OpenAirInterface (OAI) Software Alliance:
* contact@openairinterface.org
*/
/*! \file log.h
* \brief openair log generator (OLG) for
* \author Navid Nikaein
* \date 2009 - 2014
* \version 0.5
* @ingroup util
*/
#ifndef __LOG_H__
# define __LOG_H__
/*--- INCLUDES ---------------------------------------------------------------*/
#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <syslog.h>
#include <assert.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdarg.h>
#include <time.h>
#include <stdint.h>
#ifndef __STDC_FORMAT_MACROS
#define __STDC_FORMAT_MACROS
#endif
#include <inttypes.h>
#ifndef _GNU_SOURCE
#define _GNU_SOURCE
#endif
#include <pthread.h>
#include "T.h"
#include <common/utils/utils.h>
/*----------------------------------------------------------------------------*/
#include <assert.h>
#ifdef NDEBUG
#warning assert is disabled
#endif
#define NUM_ELEMENTS(ARRAY) (sizeof(ARRAY) / sizeof(ARRAY[0]))
#define CHECK_INDEX(ARRAY, INDEX) assert((INDEX) < NUM_ELEMENTS(ARRAY))
#ifdef __cplusplus
extern "C" {
#endif
/** @defgroup _LOG LOG Generator
* @{*/
/* @}*/
/** @defgroup _macro Macro Definition
* @ingroup _LOG
* @brief these macros are used in the code of LOG
* @{*/
/* @}*/
/** @defgroup _max_length Maximum Length of LOG
* @ingroup _macro
* @brief the macros that describe the maximum length of LOG
* @{*/
#define MAX_LOG_TOTAL 1500 /*!< \brief the maximum length of a log */
/* @}*/
/** @defgroup _log_level Message levels defined by LOG
* @ingroup _macro
* @brief LOG defines 9 levels of messages for users. Importance of these levels decrease gradually from 0 to 8
* @{*/
# define OAILOG_DISABLE -1 /*!< \brief disable all LOG messages, cannot be used in LOG macros, use only in LOG module */
# define OAILOG_ERR 0 /*!< \brief critical error conditions, impact on "must have" functionalities */
# define OAILOG_WARNING 1 /*!< \brief warning conditions, shouldn't happen but doesn't impact "must have" functionalities */
# define OAILOG_ANALYSIS 2 /*!< \brief informational messages most people don't need, shouldn't impact real-time behavior */
# define OAILOG_INFO 3 /*!< \brief informational messages most people don't need, shouldn't impact real-time behavior */
# define OAILOG_DEBUG 4 /*!< \brief first level debug-level messages, for developers, may impact real-time behavior */
# define OAILOG_TRACE 5 /*!< \brief second level debug-level messages, for developers, likely impact real-time behavior*/
#define NUM_LOG_LEVEL 6 /*!< \brief the number of message levels users have with LOG (OAILOG_DISABLE is not available to user as a level, so it is not included)*/
/* @}*/
/** @defgroup _log_format Defined log format
* @ingroup _macro
* @brief Macro of log formats defined by LOG
* @{*/
/* .log_format = 0x13 uncolored standard messages
* .log_format = 0x93 colored standard messages */
/* keep white space in first position; switching it to 0 allows colors to be disabled*/
#define LOG_RED "\033[1;31m" /*!< \brief VT100 sequence for bold red foreground */
#define LOG_GREEN "\033[32m" /*!< \brief VT100 sequence for green foreground */
#define LOG_ORANGE "\033[93m" /*!< \brief VT100 sequence for orange foreground */
#define LOG_BLUE "\033[34m" /*!< \brief VT100 sequence for blue foreground */
#define LOG_CYBL "\033[40;36m" /*!< \brief VT100 sequence for cyan foreground on black background */
#define LOG_RESET "\033[0m" /*!< \brief VT100 sequence for reset (black) foreground */
/* @}*/
/** @defgroup _syslog_conf Macros for write in syslog.conf
* @ingroup _macro
* @brief Macros used to write lines (local/remote) in syslog.conf
* @{*/
#define FLAG_NOCOLOR 0x0001 /*!< \brief use colors in log messages, depending on level */
#define FLAG_THREAD 0x0008 /*!< \brief display thread name in log messages */
#define FLAG_LEVEL 0x0010 /*!< \brief display log level in log messages */
#define FLAG_FUNCT 0x0020
#define FLAG_FILE_LINE 0x0040
#define FLAG_TIME 0x0100
#define FLAG_THREAD_ID 0x0200
#define FLAG_INITIALIZED 0x8000
#define SET_LOG_OPTION(O) g_log->flag = (g_log->flag | O)
#define CLEAR_LOG_OPTION(O) g_log->flag = (g_log->flag & (~O))
/** @defgroup macros to identify a debug entity
* @ingroup each macro is a bit mask where the unique bit set identifies an entity to be debugged
* it allows to dynamically activate or not blocks of code. The LOG_MASKMAP_INIT macro
* is used to map a character string name to each debug bit, it allows to set or clear
* the corresponding bit via the defined name, from the configuration or from the telnet
* server.
* @brief
* @{*/
#define DEBUG_PRACH (1<<0)
#define DEBUG_RU (1<<1)
#define DEBUG_UE_PHYPROC (1<<2)
#define DEBUG_LTEESTIM (1<<3)
#define DEBUG_DLCELLSPEC (1<<4)
#define DEBUG_ULSCH (1<<5)
#define DEBUG_RRC (1<<6)
#define DEBUG_PDCP (1<<7)
#define DEBUG_DFT (1<<8)
#define DEBUG_ASN1 (1<<9)
#define DEBUG_CTRLSOCKET (1<<10)
#define DEBUG_SECURITY (1<<11)
#define DEBUG_NAS (1<<12)
#define DEBUG_RLC (1<<13)
#define DEBUG_DLSCH_DECOD (1<<14)
#define UE_TIMING (1<<20)
#define LOG_MASKMAP_INIT {\
{"PRACH", DEBUG_PRACH},\
{"RU", DEBUG_RU},\
{"UE_PHYPROC", DEBUG_UE_PHYPROC},\
{"LTEESTIM", DEBUG_LTEESTIM},\
{"DLCELLSPEC", DEBUG_DLCELLSPEC},\
{"ULSCH", DEBUG_ULSCH},\
{"RRC", DEBUG_RRC},\
{"PDCP", DEBUG_PDCP},\
{"DFT", DEBUG_DFT},\
{"ASN1", DEBUG_ASN1},\
{"CTRLSOCKET", DEBUG_CTRLSOCKET},\
{"SECURITY", DEBUG_SECURITY},\
{"NAS", DEBUG_NAS},\
{"RLC", DEBUG_RLC},\
{"DLSCH_DECOD", DEBUG_DLSCH_DECOD},\
{"UE_TIMING", UE_TIMING},\
{NULL,-1}\
}
#define SET_LOG_DEBUG(B) g_log->debug_mask = (g_log->debug_mask | B)
#define CLEAR_LOG_DEBUG(B) g_log->debug_mask = (g_log->debug_mask & (~B))
#define SET_LOG_DUMP(B) g_log->dump_mask = (g_log->dump_mask | B)
#define CLEAR_LOG_DUMP(B) g_log->dump_mask = (g_log->dump_mask & (~B))
typedef enum {
MIN_LOG_COMPONENTS = 0,
PHY = MIN_LOG_COMPONENTS,
MAC,
EMU,
SIM,
OCG,
OMG,
OPT,
OTG,
OTG_LATENCY,
OTG_LATENCY_BG,
OTG_GP,
OTG_GP_BG,
OTG_JITTER,
RLC,
PDCP,
RRC,
NAS,
PERF,
OIP,
CLI,
OCM,
UDP_,
GTPU,
SPGW,
S1AP,
F1AP,
SCTP,
HW,
OSA,
RAL_ENB,
RAL_UE,
ENB_APP,
MCE_APP,
MME_APP,
FLEXRAN_AGENT,
TMR,
USIM,
LOCALIZE,
PROTO_AGENT,
F1U,
X2AP,
M2AP,
M3AP,
NGAP,
GNB_APP,
NR_RRC,
NR_MAC,
NR_PHY,
LOADER,
ASN,
NFAPI_VNF,
NFAPI_PNF,
ITTI,
UTIL,
MAX_LOG_PREDEF_COMPONENTS,
}
comp_name_t;
#define MAX_LOG_DYNALLOC_COMPONENTS 20
#define MAX_LOG_COMPONENTS (MAX_LOG_PREDEF_COMPONENTS + MAX_LOG_DYNALLOC_COMPONENTS)
typedef struct {
char *name; /*!< \brief string name of item */
int value; /*!< \brief integer value of mapping */
} mapping;
typedef int(*log_vprint_func_t)(FILE *stream, const char *format, va_list ap );
typedef int(*log_print_func_t)(FILE *stream, const char *format, ... );
typedef struct {
const char *name;
int level;
int savedlevel;
int flag;
int filelog;
char *filelog_name;
FILE *stream;
log_vprint_func_t vprint;
log_print_func_t print;
/* SR: make the log buffer component relative */
char log_buffer[MAX_LOG_TOTAL];
} log_component_t;
typedef struct {
log_component_t log_component[MAX_LOG_COMPONENTS];
char level2string[NUM_LOG_LEVEL];
int flag;
char *filelog_name;
uint64_t debug_mask;
uint64_t dump_mask;
} log_t;
#ifdef LOG_MAIN
log_t *g_log;
#else
#ifdef __cplusplus
extern "C" {
#endif
extern log_t *g_log;
#ifdef __cplusplus
}
#endif
#endif
/*--- INCLUDES ---------------------------------------------------------------*/
# include "log_if.h"
/*----------------------------------------------------------------------------*/
int logInit (void);
int isLogInitDone (void);
void logRecord_mt(const char *file, const char *func, int line,int comp, int level, const char *format, ...) __attribute__ ((format (printf, 6, 7)));
void vlogRecord_mt(const char *file, const char *func, int line, int comp, int level, const char *format, va_list args );
void log_dump(int component, void *buffer, int buffsize,int datatype, const char *format, ... );
int set_log(int component, int level);
void set_glog(int level);
void set_glog_onlinelog(int enable);
void set_glog_filelog(int enable);
void set_component_filelog(int comp);
void close_component_filelog(int comp);
void set_component_consolelog(int comp);
int map_str_to_int(mapping *map, const char *str);
char *map_int_to_str(mapping *map, int val);
void logClean (void);
int is_newline( char *str, int size);
int register_log_component(char *name, char *fext, int compidx);
#define LOG_MEM_SIZE 100*1024*1024
#define LOG_MEM_FILE "./logmem.log"
void flush_mem_to_file(void);
int logInit_log_mem(void);
void close_log_mem(void);
typedef struct {
char* buf_p;
int buf_index;
int enable_flag;
} log_mem_cnt_t;
/* @}*/
/*!\fn int32_t write_file_matlab(const char *fname, const char *vname, void *data, int length, int dec, char format);
\brief Write output file from signal data
@param fname output file name
@param vname output vector name (for MATLAB/OCTAVE)
@param data point to data
@param length length of data vector to output
@param dec decimation level
@param format data format (0 = real 16-bit, 1 = complex 16-bit,2 real 32-bit, 3 complex 32-bit,4 = real 8-bit, 5 = complex 8-bit)
@param multiVec create new file or append to existing (useful for writing multiple vectors to same file. Just call the function multiple times with same file name and with this parameter set to 1)
*/
#define MATLAB_RAW (1<<31)
#define MATLAB_SHORT 0
#define MATLAB_CSHORT 1
#define MATLAB_INT 2
#define MATLAB_CINT 3
#define MATLAB_INT8 4
#define MATLAB_CINT8 5
#define MATLAB_LLONG 6
#define MATLAB_DOUBLE 7
#define MATLAB_CDOUBLE 8
#define MATLAB_UINT8 9
#define MATLEB_EREN1 10
#define MATLEB_EREN2 11
#define MATLEB_EREN3 12
#define MATLAB_CSHORT_BRACKET1 13
#define MATLAB_CSHORT_BRACKET2 14
#define MATLAB_CSHORT_BRACKET3 15
int32_t write_file_matlab(const char *fname, const char *vname, void *data, int length, int dec, unsigned int format, int multiVec);
/*----------------macro definitions for reading log configuration from the config module */
#define CONFIG_STRING_LOG_PREFIX "log_config"
#define LOG_CONFIG_STRING_GLOBAL_LOG_LEVEL "global_log_level"
#define LOG_CONFIG_STRING_GLOBAL_LOG_ONLINE "global_log_online"
#define LOG_CONFIG_STRING_GLOBAL_LOG_INFILE "global_log_infile"
#define LOG_CONFIG_STRING_GLOBAL_LOG_OPTIONS "global_log_options"
#define LOG_CONFIG_LEVEL_FORMAT "%s_log_level"
#define LOG_CONFIG_LOGFILE_FORMAT "%s_log_infile"
#define LOG_CONFIG_DEBUG_FORMAT "%s_debug"
#define LOG_CONFIG_DUMP_FORMAT "%s_dump"
#define LOG_CONFIG_HELP_OPTIONS " list of comma separated options to enable log module behavior. Available options: \n"\
" nocolor: disable color usage in log messages\n"\
" level: add log level indication in log messages\n"\
" thread: add threads names in log messages\n"
/*-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------*/
/* LOG global configuration parameters */
/* optname help paramflags XXXptr defXXXval type numelt */
/*-------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------*/
#define LOG_GLOBALPARAMS_DESC { \
{LOG_CONFIG_STRING_GLOBAL_LOG_LEVEL, "Default log level for all componemts\n", 0, strptr:(char **)&gloglevel, defstrval:log_level_names[3].name, TYPE_STRING, 0}, \
{LOG_CONFIG_STRING_GLOBAL_LOG_ONLINE, "Default console output option, for all components\n", 0, iptr:&(consolelog), defintval:1, TYPE_INT, 0}, \
{LOG_CONFIG_STRING_GLOBAL_LOG_OPTIONS, LOG_CONFIG_HELP_OPTIONS, 0, strlistptr:NULL, defstrlistval:NULL, TYPE_STRINGLIST, 0} \
}
#define LOG_OPTIONS_IDX 2
/*----------------------------------------------------------------------------------*/
/** @defgroup _debugging debugging macros
* @ingroup _macro
* @brief Macro used to call logIt function with different message levels
* @{*/
#define LOG_DUMP_CHAR 0
#define LOG_DUMP_DOUBLE 1
// debugging macros
#define LOG_F LOG_I /* because LOG_F was originaly to dump a message or buffer but is also used as a regular level...., to dump use LOG_DUMPMSG */
# if T_TRACER
/* per component, level dependent macros */
# define LOG_E(c, x...) do { if (T_stdout) { if( g_log->log_component[c].level >= OAILOG_ERR ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_ERR, x) ;} else { T(T_LEGACY_ ## c ## _ERROR, T_PRINTF(x)) ;}} while (0)
# define LOG_W(c, x...) do { if (T_stdout) { if( g_log->log_component[c].level >= OAILOG_WARNING) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_WARNING, x) ;} else { T(T_LEGACY_ ## c ## _WARNING, T_PRINTF(x)) ;}} while (0)
# define LOG_A(c, x...) do { if (T_stdout) { if( g_log->log_component[c].level >= OAILOG_ANALYSIS) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_ANALYSIS, x) ;} else { T(T_LEGACY_ ## c ## _INFO, T_PRINTF(x)) ;}} while (0)
# define LOG_I(c, x...) do { if (T_stdout) { if( g_log->log_component[c].level >= OAILOG_INFO ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_INFO, x) ;} else { T(T_LEGACY_ ## c ## _INFO, T_PRINTF(x)) ;}} while (0)
# define LOG_D(c, x...) do { if (T_stdout) { if( g_log->log_component[c].level >= OAILOG_DEBUG ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_DEBUG, x) ;} else { T(T_LEGACY_ ## c ## _DEBUG, T_PRINTF(x)) ;}} while (0)
# define LOG_T(c, x...) do { if (T_stdout) { if( g_log->log_component[c].level >= OAILOG_TRACE ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_TRACE, x) ;} else { T(T_LEGACY_ ## c ## _TRACE, T_PRINTF(x)) ;}} while (0)
# define VLOG(c,l, f, args) do { if (T_stdout) { if( g_log->log_component[c].level >= l ) vlogRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, l, f, args) ;} } while (0)
/* macro used to dump a buffer or a message as in openair2/RRC/LTE/RRC_eNB.c, replaces LOG_F macro */
# define LOG_DUMPMSG(c, f, b, s, x...) do { if(g_log->dump_mask & f) log_dump(c, b, s, LOG_DUMP_CHAR, x) ;} while (0) /* */
/* bitmask dependent macros, to isolate debugging code */
# define LOG_DEBUGFLAG(D) (g_log->debug_mask & D)
/* bitmask dependent macros, to generate debug file such as matlab file or message dump */
# define LOG_DUMPFLAG(D) (g_log->dump_mask & D)
# define LOG_M(file, vector, data, len, dec, format) do { write_file_matlab(file, vector, data, len, dec, format, 0);} while(0)/* */
/* define variable only used in LOG macro's */
# define LOG_VAR(A,B) A B
# else /* T_TRACER: remove all debugging and tracing messages, except errors */
# define LOG_E(c, x...) do { if( g_log->log_component[c].level >= OAILOG_ERR ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_ERR, x) ;} while (0)
# define LOG_W(c, x...) do { if( g_log->log_component[c].level >= OAILOG_WARNING) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_WARNING, x) ;} while (0)
# define LOG_A(c, x...) do { if( g_log->log_component[c].level >= OAILOG_ANALYSIS) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_ANALYSIS, x);} while (0)
# define LOG_I(c, x...) do { if( g_log->log_component[c].level >= OAILOG_INFO ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_INFO, x) ;} while (0)
# define LOG_D(c, x...) do { if( g_log->log_component[c].level >= OAILOG_DEBUG ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_DEBUG, x) ;} while (0)
# define LOG_T(c, x...) do { if( g_log->log_component[c].level >= OAILOG_TRACE ) logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_TRACE, x) ;} while (0)
# define VLOG(c,l, f, args) do { if( g_log->log_component[c].level >= l ) vlogRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, l, f, args) ; } while (0)
# define nfapi_log(FILE, FNC, LN, COMP, LVL, FMT...)
# define LOG_DEBUGFLAG(D) (g_log->dump_mask & D)
# define LOG_DUMPFLAG(D) (g_log->debug_mask & D)
# define LOG_DUMPMSG(c, f, b, s, x...) do { if(g_log->dump_mask & f) log_dump(c, b, s, LOG_DUMP_CHAR, x) ;} while (0) /* */
# define LOG_M(file, vector, data, len, dec, format) do { write_file_matlab(file, vector, data, len, dec, format, 0);} while(0)
# define LOG_VAR(A,B) A B
# define T_ACTIVE(a) (0)
# endif /* T_TRACER */
/* avoid warnings for variables only used in LOG macro's but set outside debug section */
#define GCC_NOTUSED __attribute__((unused))
#define LOG_USEDINLOG_VAR(A,B) GCC_NOTUSED A B
/* unfiltered macros, useful for simulators or messages at init time, before log is configured */
#define LOG_UM(file, vector, data, len, dec, format) do { write_file_matlab(file, vector, data, len, dec, format, 0);} while(0)
#define LOG_UI(c, x...) do {logRecord_mt(__FILE__, __FUNCTION__, __LINE__,c, OAILOG_INFO, x) ; } while(0)
#define LOG_UDUMPMSG(c, b, s, f, x...) do { log_dump(c, b, s, f, x) ;} while (0) /* */
# define LOG_MM(file, vector, data, len, dec, format) do { write_file_matlab(file, vector, data, len, dec, format, 1);} while(0)
/* @}*/
/** @defgroup _useful_functions useful functions in LOG
* @ingroup _macro
* @brief Macro of some useful functions defined by LOG
* @{*/
#define LOG_ENTER(c) do {LOG_T(c, "Entering %s\n",__FUNCTION__);}while(0) /*!< \brief Macro to log a message with severity DEBUG when entering a function */
#define LOG_END(c) do {LOG_T(c, "End of %s\n",__FUNCTION__);}while(0) /*!< \brief Macro to log a message with severity DEBUG when entering a function */
#define LOG_EXIT(c) do { LOG_END(c); return;}while(0) /*!< \brief Macro to log a message with severity TRACE when exiting a function */
#define LOG_RETURN(c,r) do {LOG_T(c,"Leaving %s (rc = %08lx)\n", __FUNCTION__ , (unsigned long)(r) );return(r);}while(0) /*!< \brief Macro to log a function exit, including integer value, then to return a value to the calling function */
/* @}*/
static __inline__ uint64_t rdtsc(void) {
uint32_t a, d;
__asm__ volatile ("rdtsc" : "=a" (a), "=d" (d));
return (((uint64_t)d)<<32) | ((uint64_t)a);
}
#define DEBUG_REALTIME 1
#if DEBUG_REALTIME
extern double cpuf;
static inline uint64_t checkTCPU(int timeout,
char *file,
int line)
{
static uint64_t __thread lastCPUTime=0;
static uint64_t __thread last=0;
uint64_t cur=rdtsc();
struct timespec CPUt;
clock_gettime(CLOCK_THREAD_CPUTIME_ID, &CPUt);
uint64_t CPUTime=CPUt.tv_sec*1000*1000+CPUt.tv_nsec/1000;
double microCycles=(double)(cpuf*1000);
int duration=(int)((cur-last)/microCycles);
if ( last!=0 && duration > timeout ) {
//struct timespec ts;
//clock_gettime(CLOCK_MONOTONIC, &ts);
printf("%s:%d lte-ue delay %d (exceed %d), CPU for this period: %lld\n", file, line,
duration, timeout, (long long)CPUTime-lastCPUTime );
}
last=cur;
lastCPUTime=CPUTime;
return cur;
}
static inline unsigned long long checkT(int timeout,
char *file,
int line)
{
static unsigned long long __thread last=0;
unsigned long long cur=rdtsc();
int microCycles=(int)(cpuf*1000);
int duration=(int)((cur-last)/microCycles);
if ( last!=0 && duration > timeout )
printf("%s:%d lte-ue delay %d (exceed %d)\n", file, line,
duration, timeout);
last=cur;
return cur;
}
typedef struct m {
uint64_t iterations;
uint64_t sum;
uint64_t maxArray[11];
} Meas;
static inline void printMeas(char *txt,
Meas *M,
int period)
{
if (M->iterations%period == 0 ) {
char txt2[512];
sprintf(txt2,"%s avg=%" PRIu64 " iterations=%" PRIu64 " max=%"
PRIu64 ":%" PRIu64 ":%" PRIu64 ":%" PRIu64 ":%" PRIu64 ":%" PRIu64 ":%" PRIu64 ":%" PRIu64 ":%" PRIu64 ":%" PRIu64 "\n",
txt,
M->sum/M->iterations,
M->iterations,
M->maxArray[1],M->maxArray[2], M->maxArray[3],M->maxArray[4], M->maxArray[5],
M->maxArray[6],M->maxArray[7], M->maxArray[8],M->maxArray[9],M->maxArray[10]);
#if T_TRACER
LOG_W(PHY,"%s",txt2);
#else
printf("%s",txt2);
#endif
}
}
static inline int cmpint(const void *a,
const void *b)
{
uint64_t *aa=(uint64_t *)a;
uint64_t *bb=(uint64_t *)b;
return (int)(*aa-*bb);
}
static inline void updateTimes(uint64_t start,
Meas *M,
int period,
char *txt)
{
if (start!=0) {
uint64_t end=rdtsc();
long long diff=(end-start)/(cpuf*1000);
M->maxArray[0]=diff;
M->sum+=diff;
M->iterations++;
qsort(M->maxArray, 11, sizeof(uint64_t), cmpint);
printMeas(txt,M,period);
}
}
#define check(a) do { checkT(a,__FILE__,__LINE__); } while (0)
#define checkcpu(a) do { checkTCPU(a,__FILE__,__LINE__); } while (0)
#define initRefTimes(a) static __thread Meas a= {0}
#define pickTime(a) uint64_t a=rdtsc()
#define readTime(a) a
#define initStaticTime(a) static __thread uint64_t a={0}
#define pickStaticTime(a) do { a=rdtsc(); } while (0)
#else
#define check(a) do {} while (0)
#define checkcpu(a) do {} while (0)
#define initRefTimes(a) do {} while (0)
#define initStaticTime(a) do {} while (0)
#define pickTime(a) do {} while (0)
#define readTime(a) 0
#define pickStaticTime(a) do {} while (0)
#define updateTimes(a,b,c,d) do {} while (0)
#define printMeas(a,b,c) do {} while (0)
#endif
#ifdef __cplusplus
}
#endif
#endif