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#!/bin/bash
source ../common.sh
# This experiment is intended to document how the level of concurrent requests influence the latency, throughput, and success/failure rate
# Modified to target a remote host
timestamp=$(date +%s)
experiment_directory=$(pwd)
host=192.168.1.13
results_directory="$experiment_directory/res/$timestamp"
mkdir -p "$results_directory"
# Start the runtime
inputs=(40 10)
duration_sec=30
offset=5
# Execute workloads long enough for runtime to learn excepted execution time
echo -n "Running Samples: "
for input in ${inputs[*]}; do
hey -n 45 -c 4 -t 0 -o csv -m GET -d "$input\n" http://"$host":$((10000 + input))
done
echo "[DONE]"
sleep 30
echo "Running Experiments"
# Run each separately
hey -z ${duration_sec}s -cpus 6 -c 100 -t 0 -o csv -m GET -d "10\n" "http://$host:10010" >"$results_directory/fib10.csv"
echo "fib(10) Complete"
sleep 60
hey -z ${duration_sec}s -cpus 6 -c 100 -t 0 -o csv -m GET -d "40\n" "http://$host:10040" >"$results_directory/fib40.csv"
echo "fib(40) Complete"
sleep 120
# Run lower priority first, then higher priority. The lower priority has offsets to ensure it runs the entire time the high priority is trying to run
hey -z $((duration_sec + 2 * offset))s -cpus 3 -c 100 -t 0 -o csv -m GET -d "40\n" "http://$host:10040" >"$results_directory/fib40-con.csv" &
sleep $offset
hey -z ${duration_sec}s -cpus 3 -c 100 -t 0 -o csv -m GET -d "10\n" "http://$host:10010" >"$results_directory/fib10-con.csv" &
sleep $((duration_sec + offset + 15))
echo "fib(10) & fib(40) Complete"
# Generate *.csv and *.dat results
echo -n "Parsing Results: "
printf "Payload,Success_Rate\n" >>"$results_directory/success.csv"
printf "Payload,Throughput\n" >>"$results_directory/throughput.csv"
printf "Payload,p50,p90,p99,p100\n" >>"$results_directory/latency.csv"
durations_s=(15 15 15 25)
payloads=(fib10 fib10-con fib40 fib40-con)
for payload in ${payloads[*]}; do
# Get Number of Requests
requests=$(($(wc -l <"$results_directory/$payload.csv") - 1))
((requests == 0)) && continue
duration=${durations_s[$i]}
# Calculate Success Rate for csv
awk -F, '
$7 == 200 {ok++}
END{printf "'"$payload"',%3.5f%\n", (ok / (NR - 1) * 100)}
' <"$results_directory/$payload.csv" >>"$results_directory/success.csv"
# Filter on 200s, convery from s to ms, and sort
awk -F, '$7 == 200 {print ($1 * 1000)}' <"$results_directory/$payload.csv" |
sort -g >"$results_directory/$payload-response.csv"
# Get Number of 200s
oks=$(wc -l <"$results_directory/$payload-response.csv")
((oks == 0)) && continue # If all errors, skip line
# Get Latest Timestamp
# duration=$(tail -n1 "$results_directory/$payload.csv" | cut -d, -f8)
throughput=$(echo "$oks/$duration" | bc)
printf "%s,%f\n" "$payload" "$throughput" >>"$results_directory/throughput.csv"
# Generate Latency Data for csv
awk '
BEGIN {
sum = 0
p50 = int('"$oks"' * 0.5)
p90 = int('"$oks"' * 0.9)
p99 = int('"$oks"' * 0.99)
p100 = '"$oks"'
printf "'"$payload"',"
}
NR==p50 {printf "%1.4f,", $0}
NR==p90 {printf "%1.4f,", $0}
NR==p99 {printf "%1.4f,", $0}
NR==p100 {printf "%1.4f\n", $0}
' <"$results_directory/$payload-response.csv" >>"$results_directory/latency.csv"
# Delete scratch file used for sorting/counting
# rm -rf "$results_directory/$payload-response.csv"
done
# Transform csvs to dat files for gnuplot
for file in success latency throughput; do
echo -n "#" >"$results_directory/$file.dat"
tr ',' ' ' <"$results_directory/$file.csv" | column -t >>"$results_directory/$file.dat"
done
# Generate gnuplots. Commented out because we don't have *.gnuplots defined
# generate_gnuplots
# Cleanup, if required
echo "[DONE]"