#!/usr/bin/env ksh
# vim: ts=4 sw=4 noet :
#==================================================================================
-# Copyright (c) 2019-2020 Nokia
-# Copyright (c) 2018-2020 AT&T Intellectual Property.
+# Copyright (c) 2019-2021 Nokia
+# Copyright (c) 2018-2021 AT&T Intellectual Property.
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
ulimit -c unlimited
+# driven with -L sender or -L receiver on the command line
+# run something though valgrind to check for leaks; requires valgind
+function leak_anal {
+ valgrind -v --leak-resolution=high --leak-check=yes $opt "$@"
+}
+
# The sender and receivers are run asynch. Their exit statuses are captured in a
# file in order for the 'main' to pick them up easily.
#
function run_sender {
- ./v_sender${si} ${nmsg:-10} ${delay:-100000} ${mtype_start_stop:-0:1}
+ if (( la_sender ))
+ then
+ leak_anal ./v_sender ${nmsg:-10} ${delay:-100000} ${mtype_start_stop:-0:1} >/tmp/la.log 2>&1
+ else
+ ./v_sender ${nmsg:-10} ${delay:-100000} ${mtype_start_stop:-0:1}
+ fi
echo $? >/tmp/PID$$.src # must communicate state back via file b/c asynch
}
port=$(( 4460 + ${1:-0} ))
export RMR_RTG_SVC=$(( 9990 + $1 ))
- ./ex_rts_receiver${si} $copyclone -p $port
+ if (( la_receiver ))
+ then
+ leak_anal ./ex_rts_receiver $copyclone -p $port >/tmp/la.log 2>&1
+ else
+ ./ex_rts_receiver $copyclone -p $port
+ fi
echo $? >/tmp/PID$$.$1.rrc
}
#
function set_rt {
typeset port=4460
- typeset groups="localhost:4460"
+ typeset groups="127.0.0.1:4460"
for (( i=1; i < ${1:-3}; i++ ))
do
- groups="$groups,localhost:$((port+i))"
+ groups="$groups,127.0.0.1:$((port+i))"
done
cat <<endKat >ex_rts.rt
nrcvrs=1 # this is sane, but -r allows it to be set up
use_installed=0
mtype_start_stop=""
-si="" # -S will enable si library testing
while [[ $1 == -* ]]
do
-B) rebuild=1;;
-d) delay=${2//,/}; shift;; # delay in micro seconds allow 1,000 to make it easier on user
-i) use_installed=1;;
+ -L) leak_anal=$2; shift;;
-m) mtype_start_stop="$2"; shift;;
-M) mt_call_flag="EX_CFLAGS=-DMTC=1";; # turn on mt-call receiver option
- -N) si="";; # enable nng based testing
+ -N) ;; # ignored for back compat; nng not supported
-n) nmsg=$2; shift;;
-r) nrcvrs=$2; shift;;
- -S) si="_si";; # run SI95 based binaries
+ -S) ;; # ignored for back compat; si95 is the only supported transport
-v) verbose=1;;
*) echo "unrecognised option: $1"
echo "usage: $0 [-B] [-c caller-threads] [-d micor-sec-delay] [-i] [-M] [-m mtype] [-n num-msgs] [-r num-receivers] [-S] [-v]"
echo " -B forces a rebuild which will use .build"
echo " -i will use installed libraries (/usr/local) and cause -B to be ignored if supplied)"
+ echo " -L {sender|receiver} run the sender or recevier code under valgrind for leak analysis (output to /tmp/la.log)"
echo " -m mtype will set the stopping (max) message type; sender will loop through 0 through mtype-1"
echo " -m start:stop will set the starting and stopping mtypes; start through stop -1"
echo " -M enables mt-call receive processing to test the RMR asynch receive pthread"
shift
done
+# set leak analysis (do not do this from any automated tests)
+case $leak_anal in
+ s*) la_sender=1;;
+ r*) la_receiver=1;;
+esac
if (( verbose ))
then
set_rt $nrcvrs # set up the rt for n receivers
-if ! build_path=$build_path make -B $mt_call_flag v_sender${si} ex_rts_receiver${si} >/tmp/PID$$.log 2>&1 # for sanity, always rebuild test binaries
+if ! build_path=$build_path make -B $mt_call_flag v_sender ex_rts_receiver >/tmp/PID$$.log 2>&1 # for sanity, always rebuild test binaries
then
echo "[FAIL] cannot make binaries"
echo "====="