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libzmq/perf/generate_csv.sh

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#!/bin/bash
#
# This script assumes that 2 machines are used to generate performance results.
# First machine is assumed to be the one where this script runs.
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# Second machine is the "REMOTE_IP_SSH" machine; we assume to have passwordless SSH access.
#
# Usage example:
# export REMOTE_IP_SSH=10.0.0.1
# export LOCAL_TEST_ENDPOINT="tcp://192.168.1.1:1234"
# export REMOTE_TEST_ENDPOINT="tcp://192.168.1.2:1234"
# export REMOTE_LIBZMQ_PATH="/home/fmontorsi/libzmq/perf"
# ./generate_csv.sh
#
set -u
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# configurable values (via environment variables):
REMOTE_IP_SSH=${REMOTE_IP_SSH:-127.0.0.1}
REMOTE_LIBZMQ_PATH=${REMOTE_LIBZMQ_PATH:-/root/libzmq/perf}
LOCAL_TEST_ENDPOINT=${LOCAL_TEST_ENDPOINT:-tcp://192.168.1.1:1234}
REMOTE_TEST_ENDPOINT=${REMOTE_TEST_ENDPOINT:-tcp://192.168.1.2:1234}
# constant values:
MESSAGE_SIZE_LIST="8 16 32 64 128 256 512 1024 2048 4096 8192 16384 32768 65536 131072"
OUTPUT_DIR="results"
OUTPUT_FILE_PREFIX="results.txt"
OUTPUT_FILE_CSV_PREFIX="results.csv"
# utility functions:
function verify_ssh()
{
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ssh $REMOTE_IP_SSH "ls /" >/dev/null
if [ $? -ne 0 ]; then
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echo "Cannot connect via SSH passwordless to the REMOTE_IP_SSH $REMOTE_IP_SSH. Please fix the problem and retry."
exit 2
fi
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ssh $REMOTE_IP_SSH "ls $REMOTE_LIBZMQ_PATH" >/dev/null
if [ $? -ne 0 ]; then
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echo "The folder $REMOTE_LIBZMQ_PATH is not valid. Please fix the problem and retry."
exit 2
fi
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echo "SSH connection to the remote $REMOTE_IP_SSH is working fine."
}
function run_remote_perf_util()
{
local MESSAGE_SIZE_BYTES="$1"
local REMOTE_PERF_UTIL="$2"
local NUM_MESSAGES="$3"
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echo "Launching on $REMOTE_IP_SSH the utility [$REMOTE_PERF_UTIL] for messages ${MESSAGE_SIZE_BYTES}B long"
ssh $REMOTE_IP_SSH "$REMOTE_LIBZMQ_PATH/$REMOTE_PERF_UTIL $TEST_ENDPOINT $MESSAGE_SIZE_BYTES $NUM_MESSAGES" &
if [ $? -ne 0 ]; then
echo "Failed to launch remote perf util."
exit 2
fi
}
function generate_output_file()
{
local LOCAL_PERF_UTIL="$1" # must be the utility generating the TXT output
local REMOTE_PERF_UTIL="$2"
local OUTPUT_FILE_PREFIX="$3"
local NUM_MESSAGES="$4"
local CSV_HEADER_LINE="$5"
# derived values:
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local OUTPUT_FILE_TXT="${OUTPUT_DIR}/${OUTPUT_FILE_PREFIX}.txt" # useful just for human-friendly debugging
local OUTPUT_FILE_CSV="${OUTPUT_DIR}/${OUTPUT_FILE_PREFIX}.csv" # actually used to later produce graphs
local MESSAGE_SIZE_ARRAY=($MESSAGE_SIZE_LIST)
echo "Killing still-running ZMQ performance utils, if any"
pkill $LOCAL_PERF_UTIL # in case it's running from a previous test
if [ ! -z "$REMOTE_PERF_UTIL" ]; then
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ssh $REMOTE_IP_SSH "pkill $REMOTE_PERF_UTIL" # in case it's running from a previous test
fi
echo "Resetting output file $OUTPUT_FILE_TXT and $OUTPUT_FILE_CSV"
mkdir -p ${OUTPUT_DIR}
> $OUTPUT_FILE_TXT
echo "$CSV_HEADER_LINE" > $OUTPUT_FILE_CSV
for MESSAGE_SIZE in ${MESSAGE_SIZE_ARRAY[@]}; do
echo "Launching locally the utility [$LOCAL_PERF_UTIL] for messages ${MESSAGE_SIZE}B long"
./$LOCAL_PERF_UTIL $TEST_ENDPOINT $MESSAGE_SIZE $NUM_MESSAGES >${OUTPUT_FILE_TXT}-${MESSAGE_SIZE} &
if [ ! -z "$REMOTE_PERF_UTIL" ]; then
run_remote_perf_util $MESSAGE_SIZE $REMOTE_PERF_UTIL $NUM_MESSAGES
fi
wait
# produce the complete human-readable output file:
cat ${OUTPUT_FILE_TXT}-${MESSAGE_SIZE} >>${OUTPUT_FILE_TXT}
# produce a machine-friendly file for later plotting:
local DATALINE="$(cat ${OUTPUT_FILE_TXT}-${MESSAGE_SIZE} | grep -o '[0-9.]*' | tr '\n' ',')"
echo ${DATALINE::-1} >>$OUTPUT_FILE_CSV
rm -f ${OUTPUT_FILE_TXT}-${MESSAGE_SIZE}
done
echo "All measurements completed and saved into $OUTPUT_FILE_TXT and $OUTPUT_FILE_CSV"
}
# main:
verify_ssh
THROUGHPUT_CSV_HEADER_LINE="# message_size,message_count,PPS[msg/s],throughput[Mb/s]"
# PUSH/PULL TCP throughput CSV file:
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TEST_ENDPOINT="$LOCAL_TEST_ENDPOINT"
generate_output_file "local_thr" "remote_thr" \
"pushpull_tcp_thr_results" \
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"1000000" \
"$THROUGHPUT_CSV_HEADER_LINE"
# PUSH/PULL INPROC throughput CSV file:
# NOTE: in this case there is no remote utility to run and no ENDPOINT to provide:
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TEST_ENDPOINT="" # inproc does not require any endpoint
generate_output_file "inproc_thr" "" \
"pushpull_inproc_thr_results" \
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"10000000" \
"$THROUGHPUT_CSV_HEADER_LINE"
# PUB/SUB proxy INPROC throughput CSV file:
# NOTE: in this case there is no remote utility to run and no ENDPOINT to provide:
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TEST_ENDPOINT="" # inproc does not require any endpoint
generate_output_file "proxy_thr" "" \
"pubsubproxy_inproc_thr_results" \
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"10000000" \
"$THROUGHPUT_CSV_HEADER_LINE"
# REQ/REP TCP latency CSV file:
# NOTE: in this case it's the remote_lat utility that prints out the data, so we swap the local/remote arguments to the bash func:
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TEST_ENDPOINT="$REMOTE_TEST_ENDPOINT"
generate_output_file "remote_lat" "local_lat" \
"reqrep_tcp_lat_results" \
"10000" \
"# message_size,message_count,latency[us]"