/*******************************************************************************
OpenAirInterface
Copyright(c) 1999 - 2014 Eurecom
OpenAirInterface is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
OpenAirInterface is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with OpenAirInterface.The full GNU General Public License is
included in this distribution in the file called "COPYING". If not,
see .
Contact Information
OpenAirInterface Admin: openair_admin@eurecom.fr
OpenAirInterface Tech : openair_tech@eurecom.fr
OpenAirInterface Dev : openair4g-devel@lists.eurecom.fr
Address : Eurecom, Campus SophiaTech, 450 Route des Chappes, CS 50193 - 06904 Biot Sophia Antipolis cedex, FRANCE
*******************************************************************************/
/*! \file otg_kpi.c main used funstions to compute KPIs
* \brief define KPIs to compute for performance analysis
* \author Navid Nikaein and A. Hafsaoui
* \date 2012
* \version 0.1
* \company Eurecom
* \email: navid.nikaein@eurecom.fr
* \note
* \warning
*/
unsigned int start_log_latency=0;
unsigned int start_log_latency_bg=0;
unsigned int start_log_GP=0;
unsigned int start_log_GP_bg=0;
unsigned int start_log_jitter=0;
#include"otg_kpi.h"
#include"otg_externs.h"
extern unsigned char NB_eNB_INST;
extern unsigned char NB_UE_INST;
void tx_throughput(int src, int dst, int application)
{
if (otg_info->tx_num_bytes[src][dst][application]>0) {
// otg_info->tx_throughput[src][dst][application]=((double)otg_info->tx_num_bytes[src][dst][application] *1000*8)/ (get_ctime()*1024); // unit Kbit/sec, if ctime in ms
if ((g_otg->flow_start[src][dst][application]+g_otg->flow_duration[src][dst][application]) < get_ctime() )
otg_info->tx_throughput[src][dst][application]=((double)otg_info->tx_num_bytes[src][dst][application] *1000*8)/ ((g_otg->flow_start[src][dst][application]+g_otg->flow_duration[src][dst][application])*1024); // unit Kbit/sec, if ctime in ms
else if (g_otg->flow_start[src][dst][application] < get_ctime() )
otg_info->tx_throughput[src][dst][application]=((double)otg_info->tx_num_bytes[src][dst][application] *1000*8)/ ((get_ctime() - g_otg->flow_start[src][dst][application])*1024);
else
LOG_W(OTG, "[src %d][dst %d][app %d] flow start time less than the simu time (start %d, duration %d, ctime %d)\n",
src, dst, application,
g_otg->flow_start[src][dst][application],
g_otg->flow_duration[src][dst][application],
get_ctime());
}
if (otg_info->tx_num_bytes_background[src][dst]>0)
otg_info->tx_throughput_background[src][dst]=((double)otg_info->tx_num_bytes_background[src][dst]*1000*8)/ (get_ctime()*1024); // unit Kbit/sec, if ctime in ms
if (otg_multicast_info->tx_num_bytes[src][dst][application]>0) {
if (application < 2)
otg_multicast_info->tx_throughput[src][dst]=((double)otg_multicast_info->tx_num_bytes[src][dst][application]*1000*8)/ (get_ctime()*1024); // unit Kbit/sec, if ctime in ms
//otg_multicast_info->tx_num_bytes[src][dst][app] is 3 dimension param in otg_tx.c, only use [app]=0
// LOG_I(OTG,"DUY, get_ctime() [i=%d,j=%d,k=%d] = %.d\n", src,dst,application,get_ctime());
LOG_I(OTG,"otg_multicast_info->tx_num_bytes[i=%d,j=%d,k=%d] = %.d\n", src,dst,application,otg_multicast_info->tx_num_bytes[src][dst][application]);
}
}
void rx_goodput(int src, int dst, int application)
{
if (otg_info->rx_num_bytes[src][dst][application]>0) {
// otg_info->rx_goodput[src][dst][application]=((double)otg_info->rx_num_bytes[src][dst][application]*1000*8)/(get_ctime()*1024); // unit kB/sec, if ctime in ms
if ((g_otg->flow_start[src][dst][application]+g_otg->flow_duration[src][dst][application]) < get_ctime() )
otg_info->rx_goodput[src][dst][application]=((double)otg_info->rx_num_bytes[src][dst][application] *1000*8)/ ((g_otg->flow_start[src][dst][application]+g_otg->flow_duration[src][dst][application])*1024); // unit Kbit/sec, if ctime in ms
else if (g_otg->flow_start[src][dst][application] < get_ctime() )
otg_info->rx_goodput[src][dst][application]=((double)otg_info->rx_num_bytes[src][dst][application] *1000*8)/ ((get_ctime() - g_otg->flow_start[src][dst][application])*1024);
else
LOG_W(OTG, "[src %d][dst %d][app %d] flow start time less than the simu time (start %d, duration %d, ctime %d)\n",
src, dst, application,
g_otg->flow_start[src][dst][application],
g_otg->flow_duration[src][dst][application],
get_ctime());
}
if (otg_info->rx_num_bytes_background[src][dst]>0)
otg_info->rx_goodput_background[src][dst]=((double)otg_info->rx_num_bytes_background[src][dst] *1000*8)/(get_ctime()*1024); // unit kB/sec, if ctime in ms
if (otg_multicast_info->rx_num_bytes[src][dst][application]>0) {
otg_multicast_info->rx_goodput[src][dst]=((double)otg_multicast_info->rx_num_bytes[src][dst][application] *1000*8)/(get_ctime()*1024); // unit kB/sec, if ctime in ms
LOG_I(OTG,"otg_multicast_info->rx_num_bytes[i=%d,j=%d,k=%d] = %.d\n", src,dst,application,otg_multicast_info->rx_num_bytes[src][dst][application]);
}
}
void rx_loss_rate_pkts(int src, int dst, int application)
{
if (otg_info->rx_num_pkt[src][dst][application]tx_num_pkt[src][dst][application])
otg_info->rx_loss_rate[src][dst][application]= 1 - ((double)otg_info->rx_num_pkt[src][dst][application]/otg_info->tx_num_pkt[src][dst][application]);
else
otg_info->rx_loss_rate[src][dst][application]=0;
if (otg_info->rx_num_pkt_background[src][dst]tx_num_pkt_background[src][dst])
otg_info->rx_loss_rate_background[src][dst]= 1 - ((double)otg_info->rx_num_pkt_background[src][dst]/otg_info->tx_num_pkt_background[src][dst]);
else
otg_info->rx_loss_rate_background[src][dst]=0;
/*
if (otg_info->rx_loss_rate[src][dst][application]>0)
LOG_I(OTG, "LOSS_RATE (src=%d, dst=%d, appli %d ):: = %lf(pkts) [TX %d] [RX %d], [NB UL %d] [NB DL %d]\n",src, dst, application, otg_info->rx_loss_rate[src][dst][application], otg_info->tx_num_pkt[src][dst][application],otg_info->rx_num_pkt[src][dst][application],otg_info->nb_loss_pkts_ul[src][dst][application], otg_info->nb_loss_pkts_dl[src][dst][application]);
*/
if (otg_multicast_info->rx_num_pkt[src][dst] < otg_multicast_info->tx_num_pkt[src][dst])
otg_multicast_info->rx_loss_rate[src][dst]= 1 - ((double)otg_multicast_info->rx_num_pkt[src][dst][application]/otg_multicast_info->tx_num_pkt[src][dst][0]);
else
otg_multicast_info->rx_loss_rate[src][dst]=0;
}
void rx_loss_rate_bytes(int src, int dst, int application)
{
if (otg_info->rx_num_pkt[src][dst][application]tx_num_pkt[src][dst][application])
otg_info->rx_loss_rate[src][dst][application]= 1 - ((double)otg_info->rx_num_bytes[src][dst][application]/otg_info->tx_num_bytes[src][dst][application]);
else
otg_info->rx_loss_rate[src][dst][application]=0;
LOG_I(OTG, "loss rate (src=%d, dst=%d, appli %d ):: = %lf(bytes) \n",src, dst, application, otg_info->rx_loss_rate[src][dst][application]);
}
void otg_kpi_nb_loss_pkts(void)
{
unsigned int i,j,k;
otg_info->total_loss_dl=0;
otg_info->total_loss_ul=0;
for (i=0; i<(NB_eNB_INST + NB_UE_INST); i++) {
for (j=0; j<(NB_eNB_INST + NB_UE_INST); j++) {
for (k=0; ktotal_loss_dl+=(otg_info->nb_loss_pkts_dl[i][j][k] + otg_info->nb_loss_pkts_background_dl[i][j]);
else
otg_info->total_loss_ul+=(otg_info->nb_loss_pkts_ul[i][j][k] + otg_info->nb_loss_pkts_background_ul[i][j]);
}
}
}
}
void average_pkt_jitter(int src, int dst, int application)
{
if (otg_info->rx_jitter_sample[src][dst][application] > 0 ) {
otg_info->rx_jitter_avg[src][dst][application]/= otg_info->rx_jitter_sample[src][dst][application];
otg_info->rx_jitter_avg_e2e[src][dst][application]/= otg_info->rx_jitter_sample[src][dst][application];
} else {
LOG_T(OTG,"[src %d][dst %d][app %d]number of samples for jitter calculation is %d\n",src, dst, application, otg_info->rx_jitter_sample[src][dst][application]);
}
if (otg_info->rx_jitter_avg[src][dst][application] > 0) {
if (srcaverage_jitter_dl+=otg_info->rx_jitter_avg[src][dst][application];
else
otg_info->average_jitter_ul+=otg_info->rx_jitter_avg[src][dst][application];
LOG_T(OTG,"average_jitter_dl %lf average_jitter_ul %lf \n",otg_info->average_jitter_dl,otg_info->average_jitter_ul );
}
if (otg_info->rx_jitter_avg_e2e[src][dst][application] > 0) {
if (srcaverage_jitter_dl_e2e+=otg_info->rx_jitter_avg_e2e[src][dst][application];
else
otg_info->average_jitter_ul_e2e+=otg_info->rx_jitter_avg_e2e[src][dst][application];
LOG_T(OTG,"average_jitter_dl %lf average_jitter_ul %lf \n",otg_info->average_jitter_dl_e2e,otg_info->average_jitter_ul_e2e);
}
}
void average_total_jitter(void)
{
unsigned int i,j,k;
otg_info->average_jitter_dl=0;
otg_info->average_jitter_ul=0;
otg_info->average_jitter_dl_e2e=0;
otg_info->average_jitter_ul_e2e=0;
for (i=0; i<(NB_eNB_INST + NB_UE_INST); i++) {
for (j=0; j<(NB_eNB_INST + NB_UE_INST); j++) {
for (k=0; kaverage_jitter_dl+=otg_info->rx_jitter_avg[i][j][k];
otg_info->average_jitter_dl_e2e+=otg_info->rx_jitter_avg_e2e[i][j][k];
} else {
otg_info->average_jitter_ul+=otg_info->rx_jitter_avg[i][j][k];
otg_info->average_jitter_ul_e2e+=otg_info->rx_jitter_avg_e2e[i][j][k];
}
}
}
}
LOG_I(OTG,"average_jitter_dl %d average_jitter_ul %lf \n",otg_info->average_jitter_dl,otg_info->average_jitter_ul );
// otg_info->average_jitter_dl/= (float)NB_UE_INST;
// otg_info->average_jitter_ul/= (float)NB_UE_INST;
}
void kpi_gen()
{
int i, j,k;
int tx_total_bytes_dl=0;
int tx_total_pkts_dl=0;
int rx_total_bytes_dl=0;
int rx_total_pkts_dl=0;
int tx_total_bytes_ul=0;
int tx_total_pkts_ul=0;
int rx_total_bytes_ul=0;
int rx_total_pkts_ul=0;
float min_owd_dl=0;
float max_owd_dl=0;
float min_owd_dl_e2e=0;
float max_owd_dl_e2e=0;
int tx_total_bytes_dl_background=0;
int tx_total_pkts_dl_background=0;
int rx_total_bytes_dl_background=0;
int rx_total_pkts_dl_background=0;
int tx_total_bytes_ul_background=0;
int tx_total_pkts_ul_background=0;
int rx_total_bytes_ul_background=0;
int rx_total_pkts_ul_background=0;
float min_owd_ul=0;
float max_owd_ul=0;
float min_owd_ul_e2e=0;
float max_owd_ul_e2e=0;
int tx_total_bytes_dl_multicast=0;
int tx_total_pkts_dl_multicast=0;
int rx_total_bytes_dl_multicast=0;
int rx_total_pkts_dl_multicast=0;
int num_active_source=0;
int dl_ok=1,ul_ok=1;
char traffic_type[12];
char traffic[30];
#ifdef STANDALONE
FILE *file;
file = fopen("log_OTG.txt", "w");
#else // Maybe to do modifo log function in order to clear file before a new write !!!!
FILE *fc;
fc=fopen("/tmp/otg.log","w");;
if(fc!=0)
fclose(fc);
#endif
for (i=0; i<(NB_eNB_INST + NB_UE_INST); i++) {
for (j=0; j<(NB_eNB_INST + NB_UE_INST); j++) {
/*background stats*/
if (itx_num_bytes_background[i][j];
tx_total_pkts_dl_background+=otg_info->tx_num_pkt_background[i][j];
rx_total_bytes_dl_background+=otg_info->rx_num_bytes_background[i][j];
rx_total_pkts_dl_background+=otg_info->rx_num_pkt_background[i][j];
} else {
tx_total_bytes_ul_background+=otg_info->tx_num_bytes_background[i][j];
tx_total_pkts_ul_background+=otg_info->tx_num_pkt_background[i][j];
rx_total_bytes_ul_background+=otg_info->rx_num_bytes_background[i][j];
rx_total_pkts_ul_background+=otg_info->rx_num_pkt_background[i][j];
}
for (k=0; ktx_num_bytes[i][j][k],
otg_info->tx_num_pkt[i][j][k],
otg_info->rx_num_pkt[i][j][k]);
*/
if (otg_multicast_info->tx_throughput[i][j]>0) {
//multicast
tx_total_bytes_dl_multicast+=otg_multicast_info->tx_num_bytes[i][j][k];
tx_total_pkts_dl_multicast+=otg_multicast_info->tx_num_pkt[i][j][k];
rx_total_bytes_dl_multicast+=otg_multicast_info->rx_num_bytes[i][j][k];
rx_total_pkts_dl_multicast+=otg_multicast_info->rx_num_pkt[i][j][k];
#ifdef STANDALONE
LOG_I(OTG,"No stats for multicast "); // do nothing
#else
// Multicast
//no multicast_status
if (otg_multicast_info->tx_num_bytes[i][j][k]>0) {
LOG_I(OTG,"----------------------------------------------------------\n");
LOG_I(OTG,"Total Time (multicast) (ms)= %d \n", otg_info->ctime+1);
// LOG_I(OTG,"[%s] Multicast [eNB:%d -> UE:%d] \n",traffic_type, i, j);
LOG_I(OTG,"[MULTICAST] Total packets(TX)= %d \n", otg_multicast_info->tx_num_pkt[i][j][k]);
LOG_I(OTG,"[MULTICAST] Total bytes(TX)= %d \n", otg_multicast_info->tx_num_bytes[i][j][k]);
LOG_I(OTG,"[MULTICAST] Total packets(RX)= %d \n", otg_multicast_info->rx_num_pkt[i][j][k]);
LOG_I(OTG,"[MULTICAST] Total bytes(RX)= %d \n", otg_multicast_info->rx_num_bytes[i][j][k]);
LOG_I(OTG,"[MULTICAST] TX throughput = %.7f (Kbit/s) \n", otg_multicast_info->tx_throughput[i][j]);
LOG_I(OTG,"[MULTICAST] RX goodput = %.7f (Kbit/s) \n", otg_multicast_info->rx_goodput[i][j]);
// if (otg_multicast_info->rx_loss_rate[i][j]>0){
// LOG_I(OTG,"[MULTICAST] Loss rate = %lf \n", (otg_multicast_info->rx_loss_rate[i][j]));
// LOG_I(OTG,"[MULTICAST] NB Lost packets=%d \n", (otg_multicast_info->tx_num_pkt[i][j][k]-otg_multicast_info->rx_num_pkt[i][j][k]));
//}
// if ((g_otg->background_stats==1)&&(otg_info->tx_num_bytes_background[i][j]>0)){
LOG_F(OTG,"----------------------------------------------------------\n");
LOG_F(OTG,"Total Time (multicast) (ms)= %d \n", otg_info->ctime+1);
// if (i UE:%d] \n",traffic_type ,i, j);
//else
// LOG_F(OTG,"[%s] UL [Ue:%d -> eNB:%d] \n",traffic_type, i, j);
LOG_F(OTG,"[MULTICAST] Total packets(TX)= %d \n", otg_multicast_info->tx_num_pkt[i][j][k]);
LOG_F(OTG,"[MULTICAST] Total bytes(TX)= %d \n", otg_multicast_info->tx_num_bytes[i][j][k]);
LOG_F(OTG,"[MULTICAST] TX throughput = %.7f(Kbit/s) \n", otg_multicast_info->tx_throughput[i][j]);
LOG_F(OTG,"[MULTICAST] RX goodput= %.7f (Kbit/s) \n", otg_multicast_info->rx_goodput[i][j]);
if (otg_multicast_info->rx_loss_rate[i][j]>0) {
LOG_F(OTG,"[MULTICAST] Loss rate = %lf \n", (otg_multicast_info->rx_loss_rate[i][j]));
LOG_F(OTG,"[MULTICAST] NB Lost packets=%d \n", (otg_multicast_info->tx_num_pkt[i][j][k]-otg_multicast_info->rx_num_pkt[i][j][k]));
}
}
#endif
}// end for multicast
if ((otg_info->tx_throughput[i][j][k]>0)||((otg_info->tx_throughput_background[i][j]>0) && (otg_info->tx_num_bytes[i][j][k]>0))) {
num_active_source+=1;
if (itx_num_bytes[i][j][k];
tx_total_pkts_dl+=otg_info->tx_num_pkt[i][j][k];
rx_total_bytes_dl+=otg_info->rx_num_bytes[i][j][k];
rx_total_pkts_dl+=otg_info->rx_num_pkt[i][j][k];
/*tx_total_bytes_dl_background+=otg_info->tx_num_bytes_background[i][j];
tx_total_pkts_dl_background+=otg_info->tx_num_pkt_background[i][j];
rx_total_bytes_dl_background+=otg_info->rx_num_bytes_background[i][j];
rx_total_pkts_dl_background+=otg_info->rx_num_pkt_background[i][j]; */
if ((min_owd_dl>otg_info->rx_owd_min[i][j][k]) || (min_owd_dl==0))
min_owd_dl=otg_info->rx_owd_min[i][j][k];
if ((max_owd_dlrx_owd_max[i][j][k]) || (max_owd_dl==0))
max_owd_dl=otg_info->rx_owd_max[i][j][k];
if ((min_owd_dl_e2e>otg_info->rx_owd_min_e2e[i][j][k]) || (min_owd_dl_e2e==0))
min_owd_dl_e2e=otg_info->rx_owd_min_e2e[i][j][k];
if ((max_owd_dl_e2erx_owd_max_e2e[i][j][k]) || (max_owd_dl_e2e==0))
max_owd_dl_e2e=otg_info->rx_owd_max_e2e[i][j][k];
} else { // UL
tx_total_bytes_ul+=otg_info->tx_num_bytes[i][j][k];
tx_total_pkts_ul+=otg_info->tx_num_pkt[i][j][k];
rx_total_bytes_ul+=otg_info->rx_num_bytes[i][j][k];
rx_total_pkts_ul+=otg_info->rx_num_pkt[i][j][k];
/*tx_total_bytes_ul_background+=otg_info->tx_num_bytes_background[i][j];
tx_total_pkts_ul_background+=otg_info->tx_num_pkt_background[i][j];
rx_total_bytes_ul_background+=otg_info->rx_num_bytes_background[i][j];
rx_total_pkts_ul_background+=otg_info->rx_num_pkt_background[i][j];*/
if ((min_owd_ul>otg_info->rx_owd_min[i][j][k]) || (min_owd_ul==0))
min_owd_ul=otg_info->rx_owd_min[i][j][k];
if ((max_owd_ulrx_owd_max[i][j][k]) || (max_owd_ul==0))
max_owd_ul=otg_info->rx_owd_max[i][j][k];
if ((min_owd_ul_e2e>otg_info->rx_owd_min_e2e[i][j][k]) || (min_owd_ul_e2e==0))
min_owd_ul_e2e=otg_info->rx_owd_min_e2e[i][j][k];
if ((max_owd_ul_e2erx_owd_max_e2e[i][j][k]) || (max_owd_ul_e2e==0))
max_owd_ul_e2e=otg_info->rx_owd_max_e2e[i][j][k];
}
//LOG_D(OTG,"KPI: (src=%d, dst=%d, appli %d) NB packet TX= %d, NB packet RX= %d\n ",i, j, otg_info->tx_num_pkt[i][j][k], otg_info->rx_num_pkt[i][j][k]);
if (g_otg->application_idx[i][j]>1)
strcpy(traffic_type,"GATEWAY");
else
strcpy(traffic_type,"APPLICATION");
if (map_int_to_str(otg_app_type_names,g_otg->application_type[i][j][k]) == 0) {
LOG_E(OTG,"(src=%d, dst=%d, appli %d) : Unknown traffic \n ", i, j,k);
strcpy(traffic,"UKNOWN TRAFFIC");
} else {
strncpy (traffic, map_int_to_str(otg_app_type_names,g_otg->application_type[i][j][k]), sizeof(traffic));
traffic[sizeof(traffic) - 1] = 0; // terminate string
}
#ifdef STANDALONE
fprintf(file,"----------------------------------------------------------\n");
fprintf(file,"Total Time (ms)= %d \n", otg_info->ctime+1);
if (itx_num_pkt[i][j][k]);
fprintf(file,"[%s] Total bytes(TX)= %d \n",traffic_type, otg_info->tx_num_bytes[i][j][k]);
fprintf(file,"[%s] OWD MIN (one way)ms= %.2f \n",traffic_type, otg_info->rx_owd_min[i][j][k]);
fprintf(file,"[%s] OWD MAX (one way)ms= %.2f \n",traffic_type, otg_info->rx_owd_max[i][j][k]);
fprintf(file,"[%s] TX throughput = %.7f(Kbit/s) \n",traffic_type, otg_info->tx_throughput[i][j][k]);
fprintf(file,"[%s] RX goodput= %.7f (K/s) \n",traffic_type, otg_info->rx_goodput[i][j][k]);
if (otg_info->rx_loss_rate[i][j[k]]>0) {
fprintf(file,"[%s] Loss rate = %.2f \n",traffic_type, (otg_info->rx_loss_rate[i][j][k]));
fprintf(file,"[%s] NB Lost packets=%d \n",traffic_type, (otg_info->tx_num_pkt[i][j][k]-otg_info->rx_num_pkt[i][j][k]));
//fprintf(file,"[%s] NB Lost [OTG] packets=%d \n",traffic_type, otg_info->nb_loss_pkts_otg[i][j]);
}
/* if ((g_otg->background_stats==1)&&(otg_info->tx_num_bytes_background[i][j]>0)){
fprintf(file,"[BACKGROUND] Total packets(TX)= %d \n", otg_info->tx_num_pkt_background[i][j]);
fprintf(file,"[BACKGROUND] Total bytes(TX)= %d \n", otg_info->tx_num_bytes_background[i][j]);
fprintf(file,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", otg_info->tx_throughput_background[i][j]);
fprintf(file,"[BACKGROUND] RX goodput= %.7f (Kbit/s) \n", otg_info->rx_goodput_background[i][j]);
if (otg_info->rx_loss_rate_background[i][j]>0){
fprintf(file,"[BACKGROUND] Loss rate(percentage)= %lf \n", (otg_info->rx_loss_rate_background[i][j]*100));
fprintf(file,"[BACKGROUND] NB Lost packets=%d \n", (otg_info->tx_num_pkt_background[i][j]-otg_info->rx_num_pkt_background[i][j]));
}
}
*/
#else
LOG_I(OTG,"----------------------------------------------------------\n");
LOG_I(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
if (i UE:%d][%s] \n",traffic_type, i, j, traffic);
else
LOG_I(OTG,"[%s] UL [UE:%d -> eNB:%d][%s] \n",traffic_type, i, j, traffic);
LOG_I(OTG,"[%s] Total packets(TX) = %d \n",traffic_type, otg_info->tx_num_pkt[i][j][k]);
LOG_I(OTG,"[%s] Total packets(RX) = %d \n",traffic_type, otg_info->rx_num_pkt[i][j][k]);
LOG_I(OTG,"[%s] Total bytes(TX) = %d \n",traffic_type, otg_info->tx_num_bytes[i][j][k]);
LOG_I(OTG,"[%s] Total bytes(RX) = %d \n",traffic_type, otg_info->rx_num_bytes[i][j][k]);
LOG_I(OTG,"[%s] OWD MIN (one way)ms = %.2f \n",traffic_type, otg_info->rx_owd_min[i][j][k]);
LOG_I(OTG,"[%s] OWD MAX (one way)ms = %.2f \n",traffic_type, otg_info->rx_owd_max[i][j][k]);
LOG_I(OTG,"[%s] Estimated E2E OWD MIN ms = %.2f \n",traffic_type, otg_info->rx_owd_max_e2e[i][j][k]);
LOG_I(OTG,"[%s] Estimated E2E OWD MAX ms = %.2f \n",traffic_type, otg_info->rx_owd_max_e2e[i][j][k]);
LOG_I(OTG,"[%s] JITTER AVG ms = %.2f \n",traffic_type, otg_info->rx_jitter_avg[i][j][k]);
LOG_I(OTG,"[%s] JITTER MIN ms = %.2f \n",traffic_type, otg_info->rx_jitter_min[i][j][k]);
LOG_I(OTG,"[%s] JITTER MAX ms = %.2f \n",traffic_type, otg_info->rx_jitter_max[i][j][k]);
LOG_I(OTG,"[%s] Estimated E2E JITTER AVG ms = %.2f \n",traffic_type, otg_info->rx_jitter_avg_e2e[i][j][k]);
LOG_I(OTG,"[%s] Estimated E2E JITTER MIN ms = %.2f \n",traffic_type, otg_info->rx_jitter_min_e2e[i][j][k]);
LOG_I(OTG,"[%s] Estimated E2E JITTER MAX ms = %.2f \n",traffic_type, otg_info->rx_jitter_max_e2e[i][j][k]);
LOG_I(OTG,"[%s] TX throughput = %.7f(Kbit/s) \n",traffic_type, otg_info->tx_throughput[i][j][k]);
LOG_I(OTG,"[%s] RX goodput = %.7f (Kbit/s) \n",traffic_type, otg_info->rx_goodput[i][j][k]);
if (otg_info->rx_loss_rate[i][j][k]>0) {
LOG_I(OTG,"[%s] Loss rate = %lf \n",traffic_type, (otg_info->rx_loss_rate[i][j][k]));
LOG_I(OTG,"[%s] NB Lost packets = %d \n",traffic_type, (otg_info->tx_num_pkt[i][j][k]-otg_info->rx_num_pkt[i][j][k]));
//LOG_D(OTG,"[%s] NB Lost [OTG] packets=%d \n",traffic_type, otg_info->nb_loss_pkts_otg[i][j]);
}
/* if ((g_otg->background_stats==1)&&(otg_info->tx_num_bytes_background[i][j]>0)){
LOG_I(OTG,"[BACKGROUND] Total packets(TX)= %d \n", otg_info->tx_num_pkt_background[i][j]);
LOG_I(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", otg_info->tx_num_bytes_background[i][j]);
LOG_I(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", otg_info->tx_throughput_background[i][j]);
LOG_I(OTG,"[BACKGROUND] RX goodput= %.7f (Kbit/s) \n", otg_info->rx_goodput_background[i][j]);
if (otg_info->rx_loss_rate_background[i][j]>0){
LOG_I(OTG,"[BACKGROUND] Loss rate(percentage)= %.2f \n", (otg_info->rx_loss_rate_background[i][j]*100));
LOG_I(OTG,"[BACKGROUND] NB Lost packets=%d \n", (otg_info->tx_num_pkt_background[i][j]-otg_info->rx_num_pkt_background[i][j]));
}
}
*/
LOG_F(OTG,"----------------------------------------------------------\n");
LOG_F(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
if (i UE:%d][%s] \n",traffic_type ,i, j, traffic);
} else
LOG_F(OTG,"[%s] UL [UE:%d -> eNB:%d][%s] \n",traffic_type, i, j,traffic);
LOG_F(OTG,"[%s] Total packets(TX)= %d \n",traffic_type, otg_info->tx_num_pkt[i][j][k]);
LOG_F(OTG,"[%s] Total packets(RX)= %d \n",traffic_type, otg_info->rx_num_pkt[i][j][k]);
LOG_F(OTG,"[%s] Total bytes(TX)= %d \n",traffic_type, otg_info->tx_num_bytes[i][j][k]);
LOG_F(OTG,"[%s] Total bytes(RX)= %d \n",traffic_type, otg_info->rx_num_bytes[i][j][k]);
LOG_F(OTG,"[%s] OWD MIN (one way)ms= %.2f \n",traffic_type, otg_info->rx_owd_min[i][j][k]);
LOG_F(OTG,"[%s] OWD MAX (one way)ms= %.2f \n",traffic_type, otg_info->rx_owd_max[i][j][k]);
LOG_F(OTG,"[%s] Estimated E2E OWD MIN ms = %.2f \n",traffic_type, otg_info->rx_owd_max_e2e[i][j][k]);
LOG_F(OTG,"[%s] Estimated E2E OWD MAX ms = %.2f \n",traffic_type, otg_info->rx_owd_max_e2e[i][j][k]);
LOG_F(OTG,"[%s] JITTER AVG ms= %.2f \n",traffic_type, otg_info->rx_jitter_avg[i][j][k]);
LOG_F(OTG,"[%s] JITTER MIN ms= %.2f \n",traffic_type, otg_info->rx_jitter_min[i][j][k]);
LOG_F(OTG,"[%s] JITTER MAX ms= %.2f \n",traffic_type, otg_info->rx_jitter_max[i][j][k]);
LOG_F(OTG,"[%s] Estimated E2E JITTER AVG ms = %.2f \n",traffic_type, otg_info->rx_jitter_avg_e2e[i][j][k]);
LOG_F(OTG,"[%s] Estimated E2E JITTER MIN ms = %.2f \n",traffic_type, otg_info->rx_jitter_min_e2e[i][j][k]);
LOG_F(OTG,"[%s] Estimated E2E JITTER MAX ms = %.2f \n",traffic_type, otg_info->rx_jitter_max_e2e[i][j][k]);
LOG_F(OTG,"[%s] TX throughput = %.7f(Kbit/s) \n",traffic_type, otg_info->tx_throughput[i][j][k]);
LOG_F(OTG,"[%s] RX goodput= %.7f (Kbit/s) \n",traffic_type, otg_info->rx_goodput[i][j][k]);
if (otg_info->rx_loss_rate[i][j][k]>0) {
LOG_F(OTG,"[%s] Loss rate = %lf \n",traffic_type, (otg_info->rx_loss_rate[i][j][k]));
LOG_F(OTG,"[%s] NB Lost packets= %d \n",traffic_type,(otg_info->tx_num_pkt[i][j][k]-otg_info->rx_num_pkt[i][j][k]));
//LOG_D(OTG,"[%s] NB Lost [OTG] packets=%d \n",traffic_type, otg_info->nb_loss_pkts_otg[i][j]);
}
/* if ((g_otg->background_stats==1)&&(otg_info->tx_num_bytes_background[i][j]>0)){
LOG_F(OTG,"[BACKGROUND] Total packets(TX)= %d \n", otg_info->tx_num_pkt_background[i][j]);
LOG_F(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", otg_info->tx_num_bytes_background[i][j]);
LOG_F(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", otg_info->tx_throughput_background[i][j]);
LOG_F(OTG,"[BACKGROUND] RX goodput= %.7f (Kbit/s) \n", otg_info->rx_goodput_background[i][j]);
if (otg_info->rx_loss_rate_background[i][j]>0){
LOG_F(OTG,"[BACKGROUND] Loss rate(percentage)= %.2f \n", (otg_info->rx_loss_rate_background[i][j]*100));
LOG_F(OTG,"[BACKGROUND] NB Lost packets=%d \n", (otg_info->tx_num_pkt_background[i][j]-otg_info->rx_num_pkt_background[i][j]));
}
}
*/
#endif
}
// if ((otg_multicast_info->tx_throughput[i][j]>0) && (otg_info->tx_num_bytes[i][j][k]>0)) {
}// end loop of k
#ifdef STANDALONE
if ((g_otg->background_stats==1)&&(otg_info->tx_num_bytes_background[i][j]>0)) {
fprintf(file,"----------------------------------------------------------\n");
fprintf(file,"Total Time (ms)= %d \n", otg_info->ctime+1);
if (itx_num_pkt_background[i][j]);
fprintf(file,"[BACKGROUND] Total bytes(TX)= %d \n", otg_info->tx_num_bytes_background[i][j]);
fprintf(file,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", otg_info->tx_throughput_background[i][j]);
fprintf(file,"[BACKGROUND] RX goodput= %.7f (Kbit/s) \n", otg_info->rx_goodput_background[i][j]);
if (otg_info->rx_loss_rate_background[i][j]>0) {
fprintf(file,"[BACKGROUND] Loss rate = %lf \n", (otg_info->rx_loss_rate_background[i][j]));
fprintf(file,"[BACKGROUND] NB Lost packets=%d \n", (otg_info->tx_num_pkt_background[i][j]-otg_info->rx_num_pkt_background[i][j]));
}
}
#else
if ((g_otg->background_stats==1)&&(otg_info->tx_num_bytes_background[i][j]>0)) {
LOG_I(OTG,"----------------------------------------------------------\n");
LOG_I(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
if (i UE:%d] \n",traffic_type, i, j);
} else
LOG_I(OTG,"[%s] UL [UE:%d -> eNB:%d] \n",traffic_type, i, j);
LOG_I(OTG,"[BACKGROUND] Total packets(TX)= %d \n", otg_info->tx_num_pkt_background[i][j]);
LOG_I(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", otg_info->tx_num_bytes_background[i][j]);
LOG_I(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", otg_info->tx_throughput_background[i][j]);
LOG_I(OTG,"[BACKGROUND] RX goodput= %.7f (Kbit/s) \n", otg_info->rx_goodput_background[i][j]);
if (otg_info->rx_loss_rate_background[i][j]>0) {
LOG_I(OTG,"[BACKGROUND] Loss rate = %lf \n", (otg_info->rx_loss_rate_background[i][j]));
LOG_I(OTG,"[BACKGROUND] NB Lost packets=%d \n", (otg_info->tx_num_pkt_background[i][j]-otg_info->rx_num_pkt_background[i][j]));
}
}
if ((g_otg->background_stats==1)&&(otg_info->tx_num_bytes_background[i][j]>0)) {
LOG_F(OTG,"----------------------------------------------------------\n");
LOG_F(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
if (i UE:%d] \n",traffic_type ,i, j);
} else
LOG_F(OTG,"[%s] UL [UE:%d -> eNB:%d] \n",traffic_type, i, j);
LOG_F(OTG,"[BACKGROUND] Total packets(TX)= %d \n", otg_info->tx_num_pkt_background[i][j]);
LOG_F(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", otg_info->tx_num_bytes_background[i][j]);
LOG_F(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", otg_info->tx_throughput_background[i][j]);
LOG_F(OTG,"[BACKGROUND] RX goodput= %.7f (Kbit/s) \n", otg_info->rx_goodput_background[i][j]);
if (otg_info->rx_loss_rate_background[i][j]>0) {
LOG_F(OTG,"[BACKGROUND] Loss rate = %lf \n", (otg_info->rx_loss_rate_background[i][j]));
LOG_F(OTG,"[BACKGROUND] NB Lost packets=%d \n", (otg_info->tx_num_pkt_background[i][j]-otg_info->rx_num_pkt_background[i][j]));
}
}
#endif
}// end loop of j
}// end loop of i
// average_total_jitter();
#ifdef STANDALONE
fprintf (file,"**************** TOTAL DL RESULTS ******************\n");
fprintf(file,"Total Time= %d \n", otg_info->ctime+1);
fprintf(file,"[DATA] Total packets(TX)= %d \n", tx_total_pkts_dl);
fprintf(file,"[DATA] Total bytes(TX)= %d \n", tx_total_bytes_dl);
fprintf(file,"[DATA] Total packets(RX)= %d \n", rx_total_pkts_dl);
fprintf(file,"[DATA] Total bytes(RX)= %d \n", rx_total_bytes_dl);
fprintf(file,"[DATA] OWD MIN (one way)ms= %.2f \n", min_owd_dl);
fprintf(file,"[DATA] OWD MAX (one way)ms= %.2f \n", max_owd_dl);
fprintf(file,"[DATA] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl*1000*8)/(otg_info->ctime*1024));
fprintf(file,"[DATA] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl*1000*8)/(otg_info->ctime*1024));
if ((g_otg->background_stats==1)&&(tx_total_pkts_dl_background>0)) {
fprintf(file,"[BACKGROUND] Total packets(TX)= %d \n", tx_total_pkts_dl_background);
fprintf(file,"[BACKGROUND] Total bytes(TX)= %d \n", tx_total_bytes_dl_background);
fprintf(file,"[BACKGROUND] Total packets(RX)= %d \n", rx_total_pkts_dl_background);
fprintf(file,"[BACKGROUND] Total bytes(RX)= %d \n", rx_total_bytes_dl_background);
fprintf(file,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl_background*1000*8)/(otg_info->ctime*1024));
fprintf(file,"[BACKGROUND] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl_background*1000*8)/(otg_info->ctime*1024));
}
fprintf (file,"**************** TOTAL UL RESULTS ******************\n");
fprintf(file,"Total Time (ms)= %d \n", otg_info->ctime+1);
fprintf(file,"[DATA] Total packets(TX)= %d \n", tx_total_pkts_ul);
fprintf(file,"[DATA] Total bytes(TX)= %d \n", tx_total_bytes_ul);
fprintf(file,"[DATA] Total packets(RX)= %d \n", rx_total_pkts_ul);
fprintf(file,"[DATA] Total bytes(RX)= %d \n", rx_total_bytes_ul);
fprintf(file,"[DATA] OWD MIN (one way)ms= %.2f \n", min_owd_ul);
fprintf(file,"[DATA] OWD MAX (one way)ms= %.2f \n", max_owd_ul);
fprintf(file,"[DATA] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_ul*1000*8)/(otg_info->ctime*1024));
fprintf(file,"[DATA] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_ul*1000*8)/(otg_info->ctime*1024));
if ((g_otg->background_stats==1)&&(tx_total_pkts_ul_background>0)) {
fprintf(file,"[BACKGROUND] Total packets(TX)= %d \n", tx_total_pkts_ul_background);
fprintf(file,"[BACKGROUND] Total bytes(TX)= %d \n", tx_total_bytes_ul_background);
fprintf(file,"[BACKGROUND] Total packets(RX)= %d \n", rx_total_pkts_ul_background);
fprintf(file,"[BACKGROUND] Total bytes(RX)= %d \n", rx_total_bytes_ul_background);
fprintf(file,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_ul_background*1000*8)/(otg_info->ctime*1024));
fprintf(file,"[BACKGROUND] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_ul_background*1000*8)/(otg_info->ctime*1024));
}
fclose(file);
#else
LOG_I(OTG,"**************** TOTAL DL RESULTS ******************\n");
LOG_I(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
LOG_I(OTG,"[DATA] Total packets(TX)= %d \n", tx_total_pkts_dl);
LOG_I(OTG,"[DATA] Total packets(RX)= %d \n", rx_total_pkts_dl);
LOG_I(OTG,"[DATA] Total bytes(TX)= %d \n", tx_total_bytes_dl);
LOG_I(OTG,"[DATA] Total bytes(RX)= %d \n", rx_total_bytes_dl);
LOG_I(OTG,"[DATA] OWD MIN (one way)ms= %.2f \n", min_owd_dl);
LOG_I(OTG,"[DATA] OWD MAX (one way)ms= %.2f \n", max_owd_dl);
LOG_I(OTG,"[DATA] Estimated E2E OWD MIN (one way)ms= %.2f \n", min_owd_dl_e2e);
LOG_I(OTG,"[DATA] Estimated E2E OWD MAX (one way)ms= %.2f \n", max_owd_dl_e2e);
if (num_active_source != 0) {
LOG_I(OTG,"[DATA] JITTER AVG ms= %lf \n", otg_info->average_jitter_dl/(float)num_active_source );
LOG_I(OTG,"[DATA] Estimated E2E JITTER AVG ms= %lf \n", otg_info->average_jitter_dl_e2e/(float)num_active_source );
}
LOG_I(OTG,"[DATA] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl*1000*8)/(otg_info->ctime*1024));
LOG_I(OTG,"[DATA] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl*1000*8)/(otg_info->ctime*1024));
LOG_I(OTG,"[DATA] NB lost packet = %d \n", tx_total_pkts_dl - rx_total_pkts_dl);
if ( (tx_total_pkts_dl > 0) &&
((10*(tx_total_pkts_dl - rx_total_pkts_dl)) > tx_total_pkts_dl)) // below 10% of loss
dl_ok=0;
if ((g_otg->background_stats==1)&&(tx_total_pkts_dl_background>0)) {
LOG_I(OTG,"[BACKGROUND] Total packets(TX)= %d \n", tx_total_pkts_dl_background);
LOG_I(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", tx_total_bytes_dl_background);
LOG_I(OTG,"[BACKGROUND] Total packets(RX)= %d \n", rx_total_pkts_dl_background);
LOG_I(OTG,"[BACKGROUND] Total bytes(RX)= %d \n", rx_total_bytes_dl_background);
LOG_I(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl_background*1000*8)/(otg_info->ctime*1024));
LOG_I(OTG,"[BACKGROUND] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl_background*1000*8)/(otg_info->ctime*1024));
}
if (tx_total_pkts_dl_multicast>0) {
LOG_I(OTG,"[MULTICAST] Total packets(TX)= %d \n", tx_total_pkts_dl_multicast);
LOG_I(OTG,"[MULTICAST] Total bytes(TX)= %d \n", tx_total_bytes_dl_multicast);
LOG_I(OTG,"[MULTICAST] Total packets(RX)= %d \n", rx_total_pkts_dl_multicast);
LOG_I(OTG,"[MULTICAST] Total bytes(RX)= %d \n", rx_total_bytes_dl_multicast);
LOG_I(OTG,"[MULTICAST] otg_multicast_info->ctime = %d \n", otg_multicast_info->ctime);
LOG_I(OTG,"[MULTICAST] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl_multicast*1000*8)/(otg_info->ctime*1024));
LOG_I(OTG,"[MULTICAST] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl_multicast*1000*8)/(otg_info->ctime*1024));
}
LOG_F(OTG,"**************** TOTAL DL RESULTS ******************\n");
LOG_F(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
LOG_F(OTG,"[DATA] Total packets(TX)= %d \n", tx_total_pkts_dl);
LOG_F(OTG,"[DATA] Total packets(RX)= %d \n", rx_total_pkts_dl);
LOG_F(OTG,"[DATA] Total bytes(TX)= %d \n", tx_total_bytes_dl);
LOG_F(OTG,"[DATA] Total bytes(RX)= %d \n", rx_total_bytes_dl);
LOG_F(OTG,"[DATA] OWD MIN (one way)ms= %.2f \n", min_owd_dl);
LOG_F(OTG,"[DATA] OWD MAX (one way)ms= %.2f \n", max_owd_dl);
LOG_F(OTG,"[DATA] ESTIMATED E2E OWD MIN (one way)ms= %.2f \n", min_owd_dl_e2e);
LOG_F(OTG,"[DATA] ESTIMATED E2E OWD MAX (one way)ms= %.2f \n", max_owd_dl_e2e);
if (num_active_source != 0) {
LOG_F(OTG,"[DATA] JITTER AVG ms= %lf \n", otg_info->average_jitter_dl/(float)num_active_source);
LOG_F(OTG,"[DATA] ESTIMATED E2E JITTER AVG ms= %lf \n", otg_info->average_jitter_dl_e2e/(float)num_active_source);
}
LOG_F(OTG,"[DATA] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl*1000*8)/(otg_info->ctime*1024));
LOG_F(OTG,"[DATA] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl*1000*8)/(otg_info->ctime*1024));
LOG_F(OTG,"[DATA] NB lost packet = %d \n", tx_total_pkts_dl - rx_total_pkts_dl );
if ((g_otg->background_stats==1)&&(tx_total_pkts_dl_background>0)) {
LOG_F(OTG,"[BACKGROUND] Total packets(TX)= %d \n", tx_total_pkts_dl_background);
LOG_F(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", tx_total_bytes_dl_background);
LOG_F(OTG,"[BACKGROUND] Total packets(RX)= %d \n", rx_total_pkts_dl_background);
LOG_F(OTG,"[BACKGROUND] Total bytes(RX)= %d \n", rx_total_bytes_dl_background);
LOG_F(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl_background*1000*8)/(otg_info->ctime*1024));
LOG_F(OTG,"[BACKGROUND] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl_background*1000*8)/(otg_info->ctime*1024));
}
if (tx_total_pkts_dl_multicast>0) {
LOG_F(OTG,"[MULTICAST] Total packets(TX)= %d \n", tx_total_pkts_dl_multicast);
LOG_F(OTG,"[MULTICAST] Total bytes(TX)= %d \n", tx_total_bytes_dl_multicast);
LOG_F(OTG,"[MULTICAST] Total packets(RX)= %d \n", rx_total_pkts_dl_multicast);
LOG_F(OTG,"[MULTICAST] Total bytes(RX)= %d \n", rx_total_bytes_dl_multicast);
LOG_F(OTG,"[MULTICAST] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_dl_multicast*1000*8)/(otg_info->ctime*1024));
LOG_F(OTG,"[MULTICAST] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_dl_multicast*1000*8)/(otg_info->ctime*1024));
}
LOG_I(OTG,"**************** TOTAL UL RESULTS ******************\n");
LOG_I(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
LOG_I(OTG,"[DATA] Total packets(TX)= %d \n", tx_total_pkts_ul);
LOG_I(OTG,"[DATA] Total packets(RX)= %d \n", rx_total_pkts_ul);
LOG_I(OTG,"[DATA] Total bytes(TX)= %d \n", tx_total_bytes_ul);
LOG_I(OTG,"[DATA] Total bytes(RX)= %d \n", rx_total_bytes_ul);
LOG_I(OTG,"[DATA] OWD MIN (one way)ms= %.2f \n", min_owd_ul);
LOG_I(OTG,"[DATA] OWD MAX (one way)ms= %.2f \n", max_owd_ul);
LOG_I(OTG,"[DATA] ESTIMATED E2E OWD MIN (one way)ms= %.2f \n", min_owd_ul_e2e);
LOG_I(OTG,"[DATA] ESTIMATED E2E OWD MAX (one way)ms= %.2f \n", max_owd_ul_e2e);
if (num_active_source != 0) {
LOG_I(OTG,"[DATA] JITTER AVG ms= %lf \n", otg_info->average_jitter_ul_e2e/(float)num_active_source);
LOG_I(OTG,"[DATA] ESTIMATED E2E JITTER AVG ms= %lf \n", otg_info->average_jitter_ul/(float)num_active_source);
}
LOG_I(OTG,"[DATA] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_ul*1000*8)/(otg_info->ctime*1024));
LOG_I(OTG,"[DATA] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_ul*1000*8)/(otg_info->ctime*1024));
LOG_I(OTG,"[DATA] NB lost packet = %d \n", tx_total_pkts_ul - rx_total_pkts_ul );
if ( (tx_total_pkts_ul > 0 ) &&
((10*(tx_total_pkts_ul - rx_total_pkts_ul)) > tx_total_pkts_ul))
ul_ok=0;
if ((g_otg->background_stats==1)&&(tx_total_pkts_ul_background>0)) {
LOG_I(OTG,"[BACKGROUND] Total packets(TX)= %d \n", tx_total_pkts_ul_background);
LOG_I(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", tx_total_bytes_ul_background);
LOG_I(OTG,"[BACKGROUND] Total packets(RX)= %d \n", rx_total_pkts_ul_background);
LOG_I(OTG,"[BACKGROUND] Total bytes(RX)= %d \n", rx_total_bytes_ul_background);
LOG_I(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_ul_background*1000*8)/(otg_info->ctime*1024));
LOG_I(OTG,"[BACKGROUND] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_ul_background*1000*8)/(otg_info->ctime*1024));
}
LOG_F(OTG,"**************** TOTAL UL RESULTS ******************\n");
LOG_F(OTG,"Total Time (ms)= %d \n", otg_info->ctime+1);
LOG_F(OTG,"[DATA] Total packets(TX)= %d \n", tx_total_pkts_ul);
LOG_F(OTG,"[DATA] Total packets(RX)= %d \n", rx_total_pkts_ul);
LOG_F(OTG,"[DATA] Total bytes(TX)= %d \n", tx_total_bytes_ul);
LOG_F(OTG,"[DATA] Total bytes(RX)= %d \n", rx_total_bytes_ul);
LOG_F(OTG,"[DATA] OWD MIN (one way)ms= %.2f \n", min_owd_ul);
LOG_F(OTG,"[DATA] OWD MAX (one way)ms= %.2f \n", max_owd_ul);
LOG_F(OTG,"[DATA] ESTIMATED E2E OWD MIN (one way)ms= %.2f \n", min_owd_ul_e2e);
LOG_F(OTG,"[DATA] ESTIMATED E2E OWD MAX (one way)ms= %.2f \n", max_owd_ul_e2e);
if (num_active_source != 0) {
LOG_F(OTG,"[DATA] JITTER AVG ms= %lf \n", otg_info->average_jitter_ul/(float)num_active_source);
LOG_F(OTG,"[DATA] ESTIMATED E2E JITTER AVG ms= %lf \n", otg_info->average_jitter_ul_e2e/(float)num_active_source);
}
LOG_F(OTG,"[DATA] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_ul*1000*8)/(otg_info->ctime*1024));
LOG_F(OTG,"[DATA] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_ul*1000*8)/(otg_info->ctime*1024));
LOG_F(OTG,"[DATA] NB lost packet = %d \n", tx_total_pkts_ul - rx_total_pkts_ul );
if ((g_otg->background_stats==1)&&(tx_total_pkts_ul_background>0)) {
LOG_F(OTG,"[BACKGROUND] Total packets(TX)= %d \n", tx_total_pkts_ul_background);
LOG_F(OTG,"[BACKGROUND] Total bytes(TX)= %d \n", tx_total_bytes_ul_background);
LOG_F(OTG,"[BACKGROUND] Total packets(RX)= %d \n", rx_total_pkts_ul_background);
LOG_F(OTG,"[BACKGROUND] Total bytes(RX)= %d \n", rx_total_bytes_ul_background);
LOG_F(OTG,"[BACKGROUND] TX throughput = %.7f(Kbit/s) \n", ((double)tx_total_bytes_ul_background*1000*8)/(otg_info->ctime*1024));
LOG_F(OTG,"[BACKGROUND] RX throughput = %.7f(Kbit/s) \n", ((double)rx_total_bytes_ul_background*1000*8)/(otg_info->ctime*1024));
}
if ((dl_ok == 1 ) && (ul_ok ==1))
LOG_I(OTG,"************ DL and UL loss rate below 10 *************\n");
else
LOG_I(OTG,"************ DL(%d) and UL(%d) loss rate above 10 *************\n",dl_ok,ul_ok);
#endif
}
void add_log_metric(int src, int dst, int ctime, double metric, unsigned int label)
{
unsigned int i;
unsigned int j;
unsigned int node_actif=0;
//LOG_I(OTG,"[%d][%d] LOGG_ADDED ctime=%d, metric=%.2f \n", src, dst, ctime, metric);
switch (label) {
case OTG_LATENCY:
add_log_label(label, &start_log_latency);
break;
case OTG_LATENCY_BG:
add_log_label(label, &start_log_latency_bg);
break;
case OTG_GP:
add_log_label(label, &start_log_GP);
break;
case OTG_GP_BG:
add_log_label(label, &start_log_GP_bg);
break;
case OTG_JITTER:
add_log_label(label, &start_log_GP_bg);
break;
default:
LOG_E(OTG, "File label unknown %d \n", label);
}
LOG_F(label,"%d ", ctime);
for (i=0; i<=(NB_eNB_INST + NB_UE_INST); i++) {
for (j=0; j<=(NB_eNB_INST + NB_UE_INST); j++) {
node_actif=0;
if ((g_otg->idt_dist[i][j][0][PE_STATE]>0) || (g_otg->application_type[i][j][0] >0))
node_actif=1;
if ((node_actif>0) && ((i==src) && (j==dst)))
LOG_F(label,"%f ", metric);
if ((node_actif>0) && ((i!=src) || (j!=dst)))
LOG_F(label,"%d ", 0);
}
}
LOG_F(label,"%f\n", metric);
}
void add_log_label(unsigned int label, unsigned int * start_log_metric)
{
unsigned int i;
unsigned int j;
unsigned int node_actif=0;
if (*start_log_metric==0) {
*start_log_metric=1;
LOG_F(label,"Time ");
for (i=0; i<=(NB_eNB_INST + NB_UE_INST); i++) {
for (j=0; j<=(NB_eNB_INST + NB_UE_INST); j++) {
node_actif=0;
if (g_otg->idt_dist[i][j][0][PE_STATE]>0 )
node_actif++;
if (node_actif>0)
LOG_F(label,"%d->%d ", i, j);
}
}
LOG_F(label,"Aggregated\n");
}
}