Commit 9707cb99 authored by frtabu's avatar frtabu

rebase on develop

parent e2cb0a90
/*
* 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 common/utils/telnetsrv/telnetsrv_nrue_measurements.c
* \brief: implementation of telnet commands related to nrUE measurments
* \author Francois TABURET
* \date 2021
* \version 0.1
* \company NOKIA BellLabs France
* \email: francois.taburet@nokia-bell-labs.com
* \note
* \warning
*/
#define _GNU_SOURCE
#include <sys/types.h>
#include <stdio.h>
#include <unistd.h>
#include <errno.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#define TELNETSERVERCODE
#include "telnetsrv.h"
#include "common/utils/LOG/log.h"
#include "common/config/config_userapi.h"
#include "telnetsrv_measurements.h"
#include "telnetsrv_ltemeasur_def.h"
#include "telnetsrv_cpumeasur_def.h"
#include "openair2/LAYER2/NR_MAC_UE/mac_defs.h"
#include "openair1/PHY/phy_extern_nr_ue.h"
void measurcmd_display_macstats(telnet_printfunc_t prnt);
void measurcmd_display_macstats_ue(telnet_printfunc_t prnt);
void measurcmd_display_rlcstats(telnet_printfunc_t prnt);
void measurcmd_display_phycpu(telnet_printfunc_t prnt);
void measurcmd_display_maccpu(telnet_printfunc_t prnt);
void measurcmd_display_pdcpcpu(telnet_printfunc_t prnt);
static telnet_measurgroupdef_t nrUEmeasurgroups[] = {
// {"ue", GROUP_LTESTATS,0, measurcmd_display_macstats, {NULL}},
// {"rlc", GROUP_LTESTATS,0, measurcmd_display_rlcstats, {NULL}},
{"phycpu",GROUP_CPUSTATS,0, measurcmd_display_phycpu, {NULL}},
// {"maccpu",GROUP_CPUSTATS,0, measurcmd_display_maccpu, {NULL}},
// {"pdcpcpu",GROUP_CPUSTATS,0, measurcmd_display_pdcpcpu, {NULL}},
};
#define TELNET_NUM_NRUEMEASURGROUPS (sizeof(nrUEmeasurgroups)/sizeof(telnet_measurgroupdef_t))
static double cpufreq;
#define HDR "---------------------------------"
int get_measurgroups(telnet_measurgroupdef_t **measurgroups) {
*measurgroups = nrUEmeasurgroups;
return TELNET_NUM_NRUEMEASURGROUPS;
}
void measurcmd_display_phycpu(telnet_printfunc_t prnt) {
PHY_VARS_NR_UE *UE = PHY_vars_UE_g[0][0];
telnet_cpumeasurdef_t cpumeasur[]=CPU_PHYNRUE_MEASURE;
prnt("%s cpu (%1.1g GHz) measurements: PHY (cpustats %s) %s\n",HDR,cpufreq,
PRINT_CPUMEAS_STATE,HDR);
measurcmd_display_cpumeasures(prnt, cpumeasur, sizeof(cpumeasur)/sizeof(telnet_cpumeasurdef_t));
}
/*
void measurcmd_display_maccpu(telnet_printfunc_t prnt) {
eNB_MAC_INST *macvars = RC.mac[eNB_id];
telnet_cpumeasurdef_t cpumeasur[]=CPU_MACENB_MEASURE;
prnt("%s cpu (%1.1g GHz) measurements: MAC (cpustats %s) %s\n",HDR,cpufreq,
PRINT_CPUMEAS_STATE,HDR);
measurcmd_display_cpumeasures(prnt, cpumeasur, sizeof(cpumeasur)/sizeof(telnet_cpumeasurdef_t));
}
void measurcmd_display_pdcpcpu(telnet_printfunc_t prnt) {
pdcp_stats_t *pdcpvars = &(eNB_pdcp_stats[eNB_id]);
telnet_cpumeasurdef_t cpumeasur[]=CPU_PDCPENB_MEASURE;
prnt("%s cpu (%1.1g GHz) measurements: PDCP (cpustats %s) %s \n",HDR,cpufreq,
PRINT_CPUMEAS_STATE,HDR);
measurcmd_display_cpumeasures(prnt, cpumeasur, sizeof(cpumeasur)/sizeof(telnet_cpumeasurdef_t));
}
//----------------------------------------------------------------------------------------------------
void measurcmd_display_macstats_ue(telnet_printfunc_t prnt) {
UE_info_t *UE_info = &(RC.mac[eNB_id]->UE_info);
for (int UE_id=UE_info->list.head; UE_id>=0; UE_id=UE_info->list.next[UE_id]) {
for (int i=0; i<UE_info->numactiveCCs[UE_id]; i++) {
int CC_id = UE_info->ordered_CCids[i][UE_id];
prnt("%s UE %i Id %i CCid %i %s\n",HDR,i,UE_id,CC_id,HDR);
eNB_UE_STATS *macuestatptr = &(UE_info->eNB_UE_stats[CC_id][UE_id]);
telnet_ltemeasurdef_t statsptr[]=LTEMAC_UEMEASURE;
measurcmd_display_measures(prnt, statsptr, sizeof(statsptr)/sizeof(telnet_ltemeasurdef_t));
}
}
} // measurcmd_display_macstats_ue
void measurcmd_display_macstats(telnet_printfunc_t prnt) {
for (int CC_id=0 ; CC_id < MAX_NUM_CCs; CC_id++) {
eNB_STATS *macstatptr=&(RC.mac[eNB_id]->eNB_stats[CC_id]);
telnet_ltemeasurdef_t statsptr[]=LTEMAC_MEASURE;
prnt("%s eNB %i mac stats CC %i frame %u %s\n",
HDR, eNB_id, CC_id, RC.mac[eNB_id]->frame,HDR);
measurcmd_display_measures(prnt,statsptr,sizeof(statsptr)/sizeof(telnet_ltemeasurdef_t));
}
} // measurcmd_display_macstats
void measurcmd_display_one_rlcstat(telnet_printfunc_t prnt, int UE_id, telnet_ltemeasurdef_t *statsptr, int num_rlcmeasure, unsigned int *rlcstats,
char *rbid_str, protocol_ctxt_t *ctxt, const srb_flag_t srb_flagP, const rb_id_t rb_idP)
{
int rlc_status = rlc_stat_req(ctxt,srb_flagP,rb_idP,
rlcstats, rlcstats+1, rlcstats+2, rlcstats+3, rlcstats+4, rlcstats+5,
rlcstats+6, rlcstats+7, rlcstats+8, rlcstats+9, rlcstats+10, rlcstats+11,
rlcstats+12, rlcstats+13, rlcstats+14, rlcstats+15, rlcstats+16, rlcstats+17,
rlcstats+18, rlcstats+19, rlcstats+20, rlcstats+21, rlcstats+22, rlcstats+23,
rlcstats+24, rlcstats+25, rlcstats+26, rlcstats+27);
if (rlc_status == RLC_OP_STATUS_OK) {
prnt("%s UE %i RLC %s mode %s %s\n",HDR,UE_id, rbid_str,
(rlcstats[0]==RLC_MODE_AM)? "AM": (rlcstats[0]==RLC_MODE_UM)?"UM":"NONE",HDR);
measurcmd_display_measures(prnt, statsptr, num_rlcmeasure);
}
} // status measurcmd_rlc_stat_req
void measurcmd_display_rlcstats(telnet_printfunc_t prnt) {
protocol_ctxt_t ctxt;
UE_info_t *UE_info = &(RC.mac[eNB_id]->UE_info);
telnet_ltemeasurdef_t statsptr[]=LTE_RLCMEASURE;
int num_rlcmeasure = sizeof(statsptr)/sizeof(telnet_ltemeasurdef_t );
unsigned int *rlcstats = malloc(num_rlcmeasure*sizeof(unsigned int));
eNB_MAC_INST *eNB = RC.mac[eNB_id];
for(int i=0; i <num_rlcmeasure ; i++) {
statsptr[i].vptr = rlcstats + i;
}
for (int UE_id=UE_info->list.head; UE_id>=0; UE_id=UE_info->list.next[UE_id]) {
#define NB_eNB_INST 1
PROTOCOL_CTXT_SET_BY_MODULE_ID(&ctxt,eNB_id, ENB_FLAG_YES,UE_info->eNB_UE_stats[0][UE_id].crnti,
eNB->frame,eNB->subframe,eNB_id);
measurcmd_display_one_rlcstat(prnt, UE_id, statsptr, num_rlcmeasure, rlcstats, "DCCH", &ctxt, SRB_FLAG_YES, DCCH);
measurcmd_display_one_rlcstat(prnt, UE_id, statsptr, num_rlcmeasure, rlcstats, "DTCH", &ctxt, SRB_FLAG_NO, DTCH-2);
}
} // measurcmd_display_macstats_ue
*/
......@@ -10,7 +10,7 @@ set(TELNETSRV_SOURCE
add_library(telnetsrv MODULE ${TELNETSRV_SOURCE} )
target_link_libraries(telnetsrv PRIVATE history ncurses form )
foreach(TELNETLIB enb gnb 4gUE 5gUE)
foreach(TELNETLIB enb gnb 4Gue 5Gue)
set(TELNETLIB_SRCS "")
foreach(TELNETLIB_ASRC measurements phycmd)
set(TELNETLIB_SRC ${OPENAIR_DIR}/common/utils/telnetsrv/telnetsrv_${TELNETLIB}_${TELNETLIB_ASRC}.c)
......
......@@ -64,14 +64,30 @@ void measurcmd_display_groups(telnet_printfunc_t prnt,telnet_measurgroupdef_t *m
} /* measurcmd_display_groups */
/*----------------------------------------------------------------------------------------------------*/
/* cpu measurements functions */
static char *stridx(int max,int i, char *buff) {
if (max>1)
sprintf(buff,"[%d]",i);
else
sprintf(buff," ");
return buff;
}
void measurcmd_display_cpumeasures(telnet_printfunc_t prnt, telnet_cpumeasurdef_t *cpumeasure, int cpumeasure_size) {
for (int i=0; i<cpumeasure_size; i++) {
for (int o1=0;o1<(cpumeasure+i)->num_occur1;o1++)
prnt("%02d %*s[%i]: %15.3f us; %15d %s",i,TELNET_MAXMEASURNAME_LEN-1,(cpumeasure+i)->statname,o1,
((cpumeasure+i+o1)->astatptr->trials!=0)?(((cpumeasure+i+o1)->astatptr->diff)/((cpumeasure+i+o1)->astatptr->trials))/cpufreq/1000:0,
(cpumeasure+i+o1)->astatptr->trials, ((i%2)==1)?"|\n":" | " );
int p=0;
char stridx1[16];
char stridx2[16];
for (int i=0; i<cpumeasure_size; i++)
for (int o1=0;o1<cpumeasure[i].num_occur1;o1++)
for (int o2=0;o2<=cpumeasure[i].num_occur2;o2++)
{
prnt("%02d %*s%s%s: %15.3f us; %15d %s",p,TELNET_MAXMEASURNAME_LEN+7,(cpumeasure+i)->statname,
stridx(cpumeasure[i].num_occur1,o1,stridx1),stridx(cpumeasure[i].num_occur2,o2,stridx2),
((cpumeasure+i+o1+o2)->astatptr->trials!=0)?(((cpumeasure+i+o1+o2)->astatptr->diff)/((cpumeasure+i+o1+o2)->astatptr->trials))/cpufreq/1000:0,
(cpumeasure+i+o1+o2)->astatptr->trials, ((p%2)==1)?"|\n":" | " );
p++;
}
prnt("\n\n");
} /* measurcmd_display_measures */
......@@ -142,7 +158,13 @@ int measurcmd_show(char *buf, int debug, telnet_printfunc_t prnt) {
int s = sscanf(buf,"%ms %i-%i\n",&subcmd, &idx1,&idx2);
if (s>0) {
if ( strcmp(subcmd,"groups") == 0) {
if ( strcmp(subcmd,"inq") == 0) {
notifiedFIFO_elt_t *msg =newNotifiedFIFO_elt(sizeof(time_stats_msg_t),0,NULL,NULL);
time_stats_msg_t *msgdata=NotifiedFifoData(msg);
msgdata->msgid = TIMESTAT_MSGID_DISPLAY;
msgdata->displayFunc = (void (*)(void *))prnt;
pushNotifiedFIFO(&measur_fifo, msg);
} else if ( strcmp(subcmd,"groups") == 0){
measurcmd_display_groups(prnt,measurgroups,num_measurgroups);
badcmd=0;
} else {
......
......@@ -63,6 +63,7 @@ typedef struct ltemeasurdef {
#define GROUP_LTESTATS 0
#define GROUP_CPUSTATS 1
typedef void(*measur_dislayfunc_t)(telnet_printfunc_t prnt);
typedef struct mesurgroupdef {
char groupname[TELNET_MAXMEASURNAME_LEN];
......@@ -83,7 +84,7 @@ typedef struct mesurgroupdef {
int measurcmd_show(char *buf, int debug, telnet_printfunc_t prnt);
int measurcmd_cpustats(char *buf, int debug, telnet_printfunc_t prnt);
telnetshell_cmddef_t measur_cmdarray[] = {
{"show", "groups | <group name>" , measurcmd_show},
{"show", "groups | <group name> | inq" , measurcmd_show},
{"cpustats","[enable | disable]",measurcmd_cpustats},
{"","",NULL}
};
......
......@@ -182,25 +182,36 @@ void run_cpumeasur(void) {
measur_table[tsm->timestat_id]->diff += measur_table[tsm->timestat_id]->p_time;
if ( measur_table[tsm->timestat_id]->p_time > measur_table[tsm->timestat_id]->max )
measur_table[tsm->timestat_id]->max = measur_table[tsm->timestat_id]->p_time;
break;
case TIMESTAT_MSGID_DISPLAY:
{
char aline[256];
int start, stop;
if (tsm->displayFunc != NULL) {
if(tsm->timestat_id >= 0) {
start=tsm->timestat_id ;
stop=start+1;
}
else {
start=0;
stop=max_cpumeasur ;
}
for (int i=start ; i<stop ; i++) {
if (measur_table[i] != NULL) {
sprintf(aline,"%s: %15.3f us ",measur_table[i]->meas_name, measur_table[i]->trials==0?0:( (measur_table[i]->trials/measur_table[i]->diff )/ cpu_freq_GHz /1000 ));
tsm->displayFunc(aline);
}
}
}
}
break;
default:
break;
}
delNotifiedFIFO_elt(msg);
}
}
void run_cpumeasur(void) {
struct sched_param schedp;
pthread_setname_np(pthread_self(), "measur");
schedp.sched_priority=0;
int rt=pthread_setschedparam(pthread_self(), SCHED_IDLE, &schedp);
AssertFatal(rt==0, "couldn't set measur thread priority: %s\n",strerror(errno));
initNotifiedFIFO(&measur_fifo);
while(1) {
}
}
void init_meas(void)
{
......
......@@ -39,35 +39,35 @@ extern int opp_enabled;
extern double cpu_freq_GHz __attribute__ ((aligned(32)));;
// structure to store data to compute cpu measurment
#if defined(__x86_64__) || defined(__i386__)
#define OAI_CPUTIME_TYPE long long
#elif defined(__arm__)
#define OAI_CPUTIME_TYPE uint32_t
#else
#error "building on unsupported CPU architecture"
#endif
typedef struct {
long long in;
long long diff;
long long p_time; /*!< \brief absolute process duration */
long long diff_square; /*!< \brief process duration square */
long long max;
int trials;
int meas_flag;
OAI_CPUTIME_TYPE in; /*!< \brief time at measue starting point */
OAI_CPUTIME_TYPE diff; /*!< \brief average difference between time at starting point and time at endpoint*/
OAI_CPUTIME_TYPE p_time; /*!< \brief absolute process duration */
OAI_CPUTIME_TYPE diff_square; /*!< \brief process duration square */
OAI_CPUTIME_TYPE max; /*!< \brief maximum difference between time at starting point and time at endpoint*/
int trials; /*!< \brief number of start point - end point iterations */
int meas_flag; /*!< \brief 1: stop_meas not called (consecutive calls of start_meas) */
char *meas_name; /*!< \brief name to use when printing the measure (not used for PHY simulators)*/
int meas_index; /*!< \brief index of this measure in the measure array (not used for PHY simulators)*/
} time_stats_t;
#elif defined(__arm__)
typedef struct {
uint32_t in;
uint32_t diff;
uint32_t p_time; /*!< \brief absolute process duration */
uint32_t diff_square; /*!< \brief process duration square */
uint32_t max;
int trials;
} time_stats_t;
#endif
#define TIMESTAT_MSGID_START 0
#define TIMESTAT_MSGID_STOP 1
#define TIMESTAT_MSGID_DISPLAY 2
typedef struct {
int msgid; /*!< \brief message id, as defined by TIMESTAT_MSGID_X macros */
int timestat_id; /*!< \brief points to the time_stats_t entry in cpumeas table */
OAI_CPUTIME_TYPE ts; /*!< \brief time stamp */
void (*displayFunc)(void *); /*!< \brief function to call when DISPLAY message is received*/
} time_stats_msg_t;
static inline void start_meas(time_stats_t *ts) __attribute__((always_inline));
static inline void stop_meas(time_stats_t *ts) __attribute__((always_inline));
......@@ -132,20 +132,6 @@ static inline void stop_meas(time_stats_t *ts) {
}
}
static inline void send_meas(int measur_idx) {
if (opp_enabled) {
extern notifiedFIFO_t measur_fifo;
notifiedFIFO_elt_t *msg =newNotifiedFIFO_elt(sizeof(time_stats_msg_t),0,NULL,NULL);
time_stats_msg_t *tsm = (time_stats_msg_t *)NotifiedFifoData(msg);
tsm->ts = rdtsc_oai();
pushNotifiedFIFO(&measur_fifo, msg);
}
}
static inline void reset_meas(time_stats_t *ts) {
ts->in=0;
ts->diff=0;
......@@ -165,6 +151,7 @@ static inline void copy_meas(time_stats_t *dst_ts,time_stats_t *src_ts) {
}
#ifndef PHYSIM
extern notifiedFIFO_t measur_fifo;
#define CPUMEASUR_SECTION "cpumeasur"
#define CPUMEASUR_PARAMS_DESC { \
......@@ -173,5 +160,14 @@ static inline void copy_meas(time_stats_t *dst_ts,time_stats_t *src_ts) {
void init_meas(void);
int register_meas(char *name, time_stats_t *ts);
static inline void send_meas(int measur_idx) {
if (opp_enabled) {
notifiedFIFO_elt_t *msg =newNotifiedFIFO_elt(sizeof(time_stats_msg_t),0,NULL,NULL);
time_stats_msg_t *tsm = (time_stats_msg_t *)NotifiedFifoData(msg);
tsm->ts = rdtsc_oai();
pushNotifiedFIFO(&measur_fifo, msg);
}
}
#endif //ifndef PHYSIM
#endif
......@@ -2981,7 +2981,7 @@ int decode_SIB1( const protocol_ctxt_t *const ctxt_pP, const uint8_t eNB_index,
UE_rrc_inst[ctxt_pP->module_id].sib1[eNB_index]->tdd_Config,
(LTE_MobilityControlInfo_t *) NULL,
&UE_rrc_inst[ctxt_pP->module_id].Info[eNB_index].SIwindowsize,
&UE_rrc_inst[ctxt_pP->module_id].Info[eNB_index].SIperiod,
&UE_rrc_inst[ctxt_pP->module_id].Info[eNB_index].SIperiod ,
NULL,
NULL,
NULL,
......
......@@ -364,7 +364,7 @@ typedef struct UE_RRC_INFO_s {
uint8_t SIwindowsize_MBMS; //!< Corresponds to the SIB1 si-WindowLength parameter. The unit is ms. Possible values are (final): 1,2,5,10,15,20,40
uint8_t handoverTarget;
HO_STATE_t ho_state;
uint16_t SIperiod; //!< Corresponds to the SIB1 si-Periodicity parameter (multiplied by 10). Possible values are (final): 80,160,320,640,1280,2560,5120
uint16_t SIperiod ; //!< Corresponds to the SIB1 si-Periodicity parameter (multiplied by 10). Possible values are (final): 80,160,320,640,1280,2560,5120
uint16_t SIperiod_MBMS; //!< Corresponds to the SIB1-MBMS si-Periodicity parameter (multiplied by 10). Possible values are (final): 80,160,320,640,1280,2560,5120 TODO
unsigned short UE_index;
uint32_t T300_active;
......@@ -376,7 +376,7 @@ typedef struct UE_RRC_INFO_s {
uint32_t N310_cnt;
uint32_t N311_cnt;
rnti_t rnti;
} __attribute__ ((__packed__)) UE_RRC_INFO;
} __attribute__ ((__packed__)) __attribute__ ((aligned (1))) UE_RRC_INFO;
typedef struct UE_S_TMSI_s {
boolean_t presence;
......
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