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227 lines
6.8 KiB
227 lines
6.8 KiB
#!/bin/bash
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# This experiment is intended to document how the level of concurrent requests influence the latency, throughput, and success/failure rate
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# Success - The percentage of requests that complete by their deadlines
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# TODO: Does this handle non-200s?
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# Throughput - The mean number of successful requests per second
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# Latency - the rount-trip resonse time (unit?) of successful requests at the p50, p90, p99, and p100 percetiles
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# Add bash_libraries directory to path
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__run_sh__base_path="$(dirname "$(realpath --logical "${BASH_SOURCE[0]}")")"
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__run_sh__bash_libraries_relative_path="../bash_libraries"
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__run_sh__bash_libraries_absolute_path=$(cd "$__run_sh__base_path" && cd "$__run_sh__bash_libraries_relative_path" && pwd)
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export PATH="$__run_sh__bash_libraries_absolute_path:$PATH"
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source csv_to_dat.sh || exit 1
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source framework.sh || exit 1
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# source generate_gnuplots.sh || exit 1
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source get_result_count.sh || exit 1
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source panic.sh || exit 1
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source path_join.sh || exit 1
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if ! command -v hey > /dev/null; then
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echo "hey is not present."
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exit 1
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fi
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# Sends requests until the per-module perf window buffers are full
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# This ensures that Sledge has accurate estimates of execution time
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run_samples() {
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if (($# != 1)); then
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panic "invalid number of arguments \"$1\""
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return 1
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elif [[ -z "$1" ]]; then
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panic "hostname \"$1\" was empty"
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return 1
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fi
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local hostname="${1}"
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# Scrape the perf window size from the source if possible
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# TODO: Make a util function
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local -r perf_window_path="$(path_join "$__run_sh__base_path" ../../include/perf_window_t.h)"
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local -i perf_window_buffer_size
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if ! perf_window_buffer_size=$(grep "#define PERF_WINDOW_BUFFER_SIZE" < "$perf_window_path" | cut -d\ -f3); then
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printf "Failed to scrape PERF_WINDOW_BUFFER_SIZE from ../../include/perf_window.h\n"
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printf "Defaulting to 16\n"
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perf_window_buffer_size=16
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fi
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local -ir perf_window_buffer_size
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printf "Running Samples: "
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hey -disable-compression -disable-keepalive -disable-redirects -n "$perf_window_buffer_size" -c "$perf_window_buffer_size" -cpus 3 -t 0 -o csv -m GET -d "40\n" "http://${hostname}:10040" 1> /dev/null 2> /dev/null || {
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printf "[ERR]\n"
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panic "fibonacci_40 samples failed with $?"
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return 1
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}
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hey -disable-compression -disable-keepalive -disable-redirects -n "$perf_window_buffer_size" -c "$perf_window_buffer_size" -cpus 3 -t 0 -o csv -m GET -d "10\n" "http://${hostname}:100010" 1> /dev/null 2> /dev/null || {
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printf "[ERR]\n"
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panic "fibonacci_10 samples failed with $?"
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return 1
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}
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printf "[OK]\n"
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return 0
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}
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# Execute the fib10 and fib40 experiments sequentially and concurrently
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# $1 (hostname)
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# $2 (results_directory) - a directory where we will store our results
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run_experiments() {
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if (($# != 2)); then
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panic "invalid number of arguments \"$1\""
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return 1
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elif [[ -z "$1" ]]; then
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panic "hostname \"$1\" was empty"
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return 1
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elif [[ ! -d "$2" ]]; then
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panic "directory \"$2\" does not exist"
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return 1
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fi
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local hostname="$1"
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local results_directory="$2"
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local -a workloads=()
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local -Ar port=(
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[fibonacci_10]=10010
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[fibonacci_40]=10040
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)
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local -Ar body=(
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[fibonacci_10]=10
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[fibonacci_40]=40
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)
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local -A floor=()
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local -A length=()
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local -i total=0
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local -a buffer=()
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local workload=""
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local -i odds=0
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while read -r line; do
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# Read into buffer array, splitting on commas
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readarray -t -d, buffer < <(echo -n "$line")
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# Use human friendly names
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odds="${buffer[0]}"
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workload="${buffer[1]}"
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# Update workload mix structures
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workloads+=("$workload")
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floor+=(["$workload"]=$total)
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length+=(["$workload"]=$odds)
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((total += odds))
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done < mix.csv
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declare -ir random_max=32767
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# Validate Workload Mix
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if ((total <= 0 || total > random_max)); then
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echo "total must be between 1 and $random_max"
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exit 1
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fi
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# TODO: Check that workload is in spec.json
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local -ir batch_size=1
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local -i batch_id=0
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local -i roll=0
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local -ir total_iterations=1000
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local -ir worker_max=50
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printf "Running Experiments: "
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# Select a random workload using the workload mix and run command, writing output to disk
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for ((i = 0; i < total_iterations; i += batch_size)); do
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# Block waiting for a worker to finish if we are at our max
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while (($(pgrep --count hey) >= worker_max)); do
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wait -n $(pgrep hey | tr '\n' ' ')
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done
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roll=$((RANDOM % total))
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((batch_id++))
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for workload in "${workloads[@]}"; do
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if ((roll >= floor[$workload] && roll < floor[$workload] + length[$workload])); then
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hey -disable-compression -disable-keepalive -disable-redirects -n $batch_size -c 1 -cpus 1 -t 0 -o csv -m GET -d "${body[$workload]}\n" "http://${hostname}:${port[$workload]}" > "$results_directory/${workload}_${batch_id}.csv" 2> /dev/null &
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break
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fi
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done
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done
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wait -f $(pgrep hey | tr '\n' ' ')
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printf "[OK]\n"
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for workload in "${workloads[@]}"; do
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tail --quiet -n +2 "$results_directory/${workload}"_*.csv >> "$results_directory/${workload}.csv"
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rm "$results_directory/${workload}"_*.csv
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done
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return 0
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}
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# Process the experimental results and generate human-friendly results for success rate, throughput, and latency
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process_results() {
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if (($# != 1)); then
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error_msg "invalid number of arguments ($#, expected 1)"
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return 1
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elif ! [[ -d "$1" ]]; then
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error_msg "directory $1 does not exist"
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return 1
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fi
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local -r results_directory="$1"
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printf "Processing Results: "
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# Write headers to CSVs
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printf "Payload,p50,p90,p99,p100\n" >> "$results_directory/latency.csv"
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local -ar payloads=(fibonacci_10 fibonacci_40)
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for payload in "${payloads[@]}"; do
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# Filter on 200s, subtract DNS time, convert from s to ms, and sort
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awk -F, '$7 == 200 {print (($1 - $2) * 1000)}' < "$results_directory/$payload.csv" \
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| sort -g > "$results_directory/$payload-response.csv"
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oks=$(wc -l < "$results_directory/$payload-response.csv")
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((oks == 0)) && continue # If all errors, skip line
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# Generate Latency Data for csv
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awk '
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BEGIN {
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sum = 0
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p50 = int('"$oks"' * 0.5)
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p90 = int('"$oks"' * 0.9)
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p99 = int('"$oks"' * 0.99)
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p100 = '"$oks"'
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printf "'"$payload"',"
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}
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NR==p50 {printf "%1.4f,", $0}
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NR==p90 {printf "%1.4f,", $0}
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NR==p99 {printf "%1.4f,", $0}
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NR==p100 {printf "%1.4f\n", $0}
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' < "$results_directory/$payload-response.csv" >> "$results_directory/latency.csv"
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# Delete scratch file used for sorting/counting
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rm -rf "$results_directory/$payload-response.csv"
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done
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# Transform csvs to dat files for gnuplot
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csv_to_dat "$results_directory/latency.csv"
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printf "[OK]\n"
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return 0
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}
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# Expected Symbol used by the framework
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experiment_main() {
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local -r target_hostname="$1"
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local -r results_directory="$2"
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run_samples "$target_hostname" || return 1
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run_experiments "$target_hostname" "$results_directory" || return 1
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process_results "$results_directory" || return 1
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return 0
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}
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main "$@"
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