Commit 2d46638a authored by laurent's avatar laurent Committed by Roberto Louro Magueta

fix cpu cost in phy simulation with sanitize addr, some code un-obfuscation

parent d9660677
#!/bin/bash
#set -xv
#/*
# * Licensed to the OpenAirInterface (OAI) Software Alliance under one or more
# * contributor license agreements. See the NOTICE file distributed with
......@@ -92,78 +93,55 @@ function test_run() {
tags_array_index=0
for main_exec_args_array_index in "${main_exec_args_array[@]}"
do
global_result=1
global_result=PASS
result_string=""
PROPER_DESC=`echo ${desc_array[$tags_array_index]} | sed -e "s@^.*Test cases.*(Test@Test@" -e "s@^ *(@@" -e"s/)$//" -e "s/),$//"`
echo_info "$PROPER_DESC"
for (( run_index=1; run_index <= $nruns; run_index++ ))
do
temp_exec_log=$log_dir/test.$test_case_name.${tags_array[$tags_array_index]}.run_$run_index
echo "" > $temp_exec_log
temp_exec_log="$log_dir/test.$test_case_name.${tags_array[$tags_array_index]}.run_$run_index"
echo "Executing test case $test_case_name.${tags_array[$tags_array_index]}, Run Index = $run_index, Execution Log file = $temp_exec_log"
echo "-----------------------------------------------------------------------------" >> $temp_exec_log 2>&1
echo "<EXECUTION LOG Test Case = $test_case_name.${tags_array[$tags_array_index]}, Run = $run_index >" >> $temp_exec_log 2>&1
echo "Executing $main_exec $main_exec_args_array_index " | tee $temp_exec_log
{ uname -a ; eval "$main_exec $main_exec_args_array_index" ;} >> $temp_exec_log 2>&1
echo "-----------------------------------------------------------------------------" > "$temp_exec_log"
echo "<EXECUTION LOG Test Case = $test_case_name.${tags_array[$tags_array_index]}, Run = $run_index >" >> "$temp_exec_log"
echo "Executing $main_exec $main_exec_args_array_index " >> "$temp_exec_log"
uname -a >> "$temp_exec_log"
"$main_exec" $main_exec_args_array_index >> "$temp_exec_log" 2>&1
echo "</EXECUTION LOG Test Case = $test_case_name.${tags_array[$tags_array_index]}, Run = $run_index >" >> $temp_exec_log 2>&1
cat $temp_exec_log >> $log_file 2>&1
result=1
result=PASS
for search_expr in "${search_expr_array[@]}"
do
search_result=`grep -E "$search_expr" $temp_exec_log`
if [ -z "$search_result" ]; then
let "result = result & 0"
else
let "result = result & 1"
fi
grep -Eq "$search_expr" $temp_exec_log || result=FAIL
done
#If we find a negative search result then there is crash of program and test case is failed even if above condition is true
search_result=`grep -iE "$search_expr_negative" $temp_exec_log`
if [ -n "$search_result" ]; then
result=0
fi
let "global_result = global_result & result"
grep -q -iE "$search_expr_negative" $temp_exec_log && result=FAIL
#echo "result = $result"
if [ "$result" -eq "0" ]; then
result_string=$result_string" Run_$run_index =FAIL"
if [ "$result" != PASS ]; then
echo_error "$test_case_name.${tags_array[$tags_array_index]} RUN = $run_index Result = FAIL"
fi
if [ "$result" -eq "1" ]; then
result_string=$result_string" Run_$run_index =PASS"
else
echo_success "$test_case_name.${tags_array[$tags_array_index]} RUN = $run_index Result = PASS"
fi
result_string=$result_string" Run_$run_index =$result"
if [ $result != PASS ] ; then
global_result = FAIL
fi
done #End of for loop (nindex)
echo " Result String = $result_string"
if [ "$result_string" == "" ]; then
if [ "$global_result" != PASS ]; then
echo_error "execution $test_case_name.${tags_array[$tags_array_index]} {$PROPER_DESC} Run_Result = \"$result_string\" Result = FAIL"
xUnit_fail "execution" "$test_case_name.${tags_array[$tags_array_index]}" "FAIL" "$result_string" "$xmlfile_testcase" "$PROPER_DESC"
else
if [ "$global_result" == "0" ]; then
echo_error "execution $test_case_name.${tags_array[$tags_array_index]} {$PROPER_DESC} Run_Result = \"$result_string\" Result = FAIL"
xUnit_fail "execution" "$test_case_name.${tags_array[$tags_array_index]}" "FAIL" "$result_string" "$xmlfile_testcase" "$PROPER_DESC"
fi
if [ "$global_result" == "1" ]; then
echo_success "execution $test_case_name.${tags_array[$tags_array_index]} {$PROPER_DESC} Run_Result = \"$result_string\" Result = PASS "
xUnit_success "execution" "$test_case_name.${tags_array[$tags_array_index]}" "PASS" "$result_string" "$xmlfile_testcase" "$PROPER_DESC"
fi
fi
let "tags_array_index++"
done
......
......@@ -38,7 +38,7 @@ uint8_t multipath_channel_nosigconv(channel_desc_t *desc)
//#define CHANNEL_SSE
#ifdef CHANNEL_SSE
void multipath_channel(channel_desc_t *desc,
void __attribute__ ((no_sanitize_address)) multipath_channel(channel_desc_t *desc,
double tx_sig_re[NB_ANTENNAS_TX][30720*2],
double tx_sig_im[NB_ANTENANS_TX][30720*2],
double rx_sig_re[NB_ANTENNAS_RX][30720*2],
......@@ -170,7 +170,7 @@ void add_noise(c16_t **rxdata,
}
}
void multipath_channel(channel_desc_t *desc,
void __attribute__ ((no_sanitize_address)) multipath_channel(channel_desc_t *desc,
double *tx_sig_re[NB_ANTENNAS_TX],
double *tx_sig_im[NB_ANTENNAS_TX],
double *rx_sig_re[NB_ANTENNAS_RX],
......@@ -180,9 +180,6 @@ void multipath_channel(channel_desc_t *desc,
int log_channel)
{
int i,ii,j,l;
struct complexd rx_tmp,tx;
double path_loss = pow(10,desc->path_loss_dB/20);
int dd;
dd = abs(desc->channel_offset);
......@@ -204,29 +201,24 @@ void multipath_channel(channel_desc_t *desc,
}
#endif
for (i=0; i<((int)length-dd); i++) {
for (ii=0; ii<desc->nb_rx; ii++) {
rx_tmp.r = 0;
rx_tmp.i = 0;
for (j=0; j<desc->nb_tx; j++) {
for (l = 0; l<(int)desc->channel_length; l++) {
for (int i=0; i<((int)length-dd); i++) {
for (int ii=0; ii<desc->nb_rx; ii++) {
struct complexd rx_tmp={0};
for (int j=0; j<desc->nb_tx; j++) {
struct complexd *chan=desc->ch[ii+(j*desc->nb_rx)];
for (int l = 0; l<(int)desc->channel_length; l++) {
if ((i>=0) && (i-l)>=0) {
struct complexd tx;
tx.r = tx_sig_re[j][i-l];
tx.i = tx_sig_im[j][i-l];
} else {
tx.r =0;
tx.i =0;
rx_tmp.r += (tx.r * chan[l].r) - (tx.i * chan[l].i);
rx_tmp.i += (tx.i * chan[l].r) + (tx.r * chan[l].i);
}
rx_tmp.r += (tx.r * desc->ch[ii+(j*desc->nb_rx)][l].r) - (tx.i * desc->ch[ii+(j*desc->nb_rx)][l].i);
rx_tmp.i += (tx.i * desc->ch[ii+(j*desc->nb_rx)][l].r) + (tx.r * desc->ch[ii+(j*desc->nb_rx)][l].i);
if (i==0 && log_channel == 1) {
printf("channel[%d][%d][%d] = %f dB \t(%e, %e)\n",
ii, j, l, 10*log10(pow(desc->ch[ii+(j*desc->nb_rx)][l].r,2.0)+pow(desc->ch[ii+(j*desc->nb_rx)][l].i,2.0)),
desc->ch[ii+(j*desc->nb_rx)][l].r,
desc->ch[ii+(j*desc->nb_rx)][l].i);
ii, j, l, 10*log10(pow(chan[l].r,2.0)+pow(chan[l].i,2.0)),
chan[l].r,
chan[l].i);
}
} //l
} // j
......
......@@ -86,7 +86,7 @@ double uniformrandom(void)
/*!\brief Gaussian random number generator based on modified Box-Muller transformation.Returns a double-precision floating-point number. */
double gaussdouble(double mean, double variance)
double __attribute__ ((no_sanitize_address)) gaussdouble(double mean, double variance)
{
static int iset=0;
static double gset;
......@@ -175,7 +175,7 @@ void tableNor(unsigned long seed)
return;
}
double gaussZiggurat(double mean, double variance)
double __attribute__ ((no_sanitize_address)) gaussZiggurat(double mean, double variance)
{
hz = SHR3;
iz = hz & 127;
......
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