Add old speedtest-hd-v3.sh before porting to Python
This commit is contained in:
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#!/usr/bin/env bash
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# Robust HD/SSD/NVMe performance CLI utility
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# A CrystalDiskMark-style storage benchmark for Linux, built on fio.
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# Runs the exact same four tests CrystalDiskMark does (SEQ1M Q8T1, SEQ1M Q1T1,
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# RND4K Q32T1, RND4K Q32T16), each measured for both Read and Write, and prints
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# the results in a CrystalDiskMark-style table.
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# Dependencies: fio (apt install fio / pacman -S fio). Falls back to dd if missing.
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# See: https://cloud.google.com/compute/docs/disks/benchmarking-pd-performance
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# See: https://arstechnica.com/gadgets/2020/02/how-fast-are-your-disks-find-out-the-open-source-way-with-fio/
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# mReschke 2024-01-18
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# CLI Parameters
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path="$1"
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option=""
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engine="" # IO engine; empty = auto-detect (io_uring > libaio > posixaio > sync)
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direct="" # O_DIRECT; empty = auto-detect; 1 = bypass page cache, 0 = buffered
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runtime=5 # seconds per measurement (CrystalDiskMark default is 5s)
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size="1g" # test file size (CrystalDiskMark default is 1GiB)
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verbose=0 # 1 = also print the full fio output for every run
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for arg in "${@:2}"; do
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case "$arg" in
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--dd) option="--dd" ;;
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--fio) option="--fio" ;;
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--slog) option="--slog" ;;
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--buffered) direct=0 ;;
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--direct) direct=1 ;;
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--verbose) verbose=1 ;;
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--engine=*) engine="${arg#*=}" ;;
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--direct=*) direct="${arg#*=}" ;;
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--runtime=*) runtime="${arg#*=}" ;;
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--size=*) size="${arg#*=}" ;;
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esac
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done
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# Main application flow
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function main {
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# Show usage if no params
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if [ ! "$path" ]; then
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usage
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fi
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# Understand . path
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if [ "$path" == '.' ]; then
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path=$(pwd)
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fi
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# Check if path exists
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if [ ! -e "$path" ]; then
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echo "Path $path does not exist"
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exit 1
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fi
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# Must type y or n THEN press enter (which I like better)
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echo "NOTICE: ${size^^} free space on '$path' is required to perform the benchmark."
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echo -n "Are you ready to start a storage benchmark against '$path' ? "; read answer
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if [ "$answer" != "${answer#[Yy]}" ]; then
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echo "Great! Starting benchmark now!"
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else
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echo "Ok, cancelled!"
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exit 0
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fi
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# Use dd or fio based on param or defaults
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if [ "$option" == "--dd" ]; then
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dd_speedtest
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elif [ "$option" == "--fio" ]; then
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cdm_speedtest
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elif [ "$option" == "--slog" ]; then
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slog_speedtest
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elif [ "$option" == "" ]; then
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# If fio is installed, use it, else use dd
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if ! command -v fio &> /dev/null; then
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echo ""
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echo "fio is not installed -- falling back to basic dd test."
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echo "Install fio for the full CrystalDiskMark-style benchmark."
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dd_speedtest
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else
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cdm_speedtest
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fi
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fi
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}
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function fio_probe {
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# Run a tiny throwaway fio job to see if a given (engine, direct) combo
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# actually works on this path/filesystem. Returns 0 on success. This is how
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# we stay accurate AND portable across ext4, xfs, btrfs, ZFS, NFS, etc.
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# without the caller needing to know what each filesystem supports.
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local eng="$1" dir="$2"
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sudo fio --name=probe \
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--directory="$path" \
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--ioengine="$eng" \
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--rw=write --bs=4k --size=1m \
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--direct="$dir" \
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--time_based --runtime=1 \
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> /dev/null 2>&1
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local rc=$?
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rm -rf "$path"/probe* 2>/dev/null
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return $rc
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}
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function detect_io_settings {
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# Pick the fastest available IO engine unless the user forced one with
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# --engine=. io_uring is the modern, lowest-overhead Linux engine; libaio
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# is older (and only truly async with O_DIRECT); posixaio/sync are the
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# portable fallbacks (eg some NFS mounts).
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if [ -z "$engine" ]; then
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for eng in io_uring libaio posixaio sync; do
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if fio_probe "$eng" 0; then engine="$eng"; break; fi
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done
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[ -z "$engine" ] && engine="sync"
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fi
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# Decide O_DIRECT unless forced with --direct/--buffered. O_DIRECT bypasses
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# the OS page cache so we measure the device instead of RAM. Not every
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# filesystem supports it (eg older OpenZFS < 2.3, some NFS mounts), so we
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# probe and fall back to buffered rather than erroring out.
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if [ -z "$direct" ]; then
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if fio_probe "$engine" 1; then direct=1; else direct=0; fi
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fi
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}
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function fio_bw_mbps {
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# Extract bandwidth in decimal MB/s (matching CrystalDiskMark) from a fio
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# run. fio prints eg " READ: bw=3357MiB/s (3521MB/s), ..." -- we take the
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# parenthetical SI figure and normalise kB/MB/GB into MB/s.
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local out="$1"
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local raw num unit
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raw=$(echo "$out" | /usr/bin/grep -oP 'bw=\S+\s+\(\K[^)]+' | head -n1)
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[ -z "$raw" ] && { echo "0.00"; return; }
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num=$(echo "$raw" | /usr/bin/grep -oP '[0-9.]+' | head -n1)
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unit=$(echo "$raw" | /usr/bin/grep -oP '[A-Za-z]+/s' | head -n1)
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case "$unit" in
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B/s) awk -v n="$num" 'BEGIN{printf "%.2f", n/1000000}' ;;
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kB/s|KB/s) awk -v n="$num" 'BEGIN{printf "%.2f", n/1000}' ;;
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MB/s) awk -v n="$num" 'BEGIN{printf "%.2f", n}' ;;
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GB/s) awk -v n="$num" 'BEGIN{printf "%.2f", n*1000}' ;;
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*) awk -v n="$num" 'BEGIN{printf "%.2f", n}' ;;
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esac
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}
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function fio_iops {
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# Extract IOPS from a fio run. fio prints eg " read: IOPS=12.3k, BW=..." --
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# the value may carry a k/M suffix, which we expand to a whole number.
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local out="$1"
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local raw num unit
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raw=$(echo "$out" | /usr/bin/grep -oP 'IOPS=\K[0-9.]+[kKmM]?' | head -n1)
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[ -z "$raw" ] && { echo "0"; return; }
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num=$(echo "$raw" | /usr/bin/grep -oP '[0-9.]+' | head -n1)
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unit=$(echo "$raw" | /usr/bin/grep -oP '[kKmM]' | head -n1)
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case "$unit" in
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k|K) awk -v n="$num" 'BEGIN{printf "%.0f", n*1000}' ;;
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m|M) awk -v n="$num" 'BEGIN{printf "%.0f", n*1000000}' ;;
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*) awk -v n="$num" 'BEGIN{printf "%.0f", n}' ;;
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esac
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}
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function run_fio {
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# run_fio <rw> <bs> <iodepth> <numjobs> -> echoes "MB/s IOPS" (space-sep)
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# A single shared 1GB test file is reused across every run (laid out once),
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# which keeps the footprint at one file and avoids re-creating it each time.
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local rw="$1" bs="$2" qd="$3" jobs="$4"
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local args=(
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--name=speedtest
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--filename="$benchfile"
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--ioengine="$engine"
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--direct="$direct"
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--rw="$rw"
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--bs="$bs"
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--size="$size"
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--numjobs="$jobs"
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--iodepth="$qd"
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--time_based --runtime="$runtime"
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--group_reporting=1
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)
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# Flush device cache at the end of write tests so cached writes can't lie.
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case "$rw" in
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*write) args+=(--end_fsync=1) ;;
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esac
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# Capture the full fio output. In verbose mode we also keep fio's stderr
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# (2>&1); otherwise we discard it. Either way only the parsed bandwidth is
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# echoed to stdout, so the captured value stays clean.
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local out
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if [ "$verbose" = 1 ]; then
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out=$(sudo fio "${args[@]}" 2>&1)
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else
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out=$(sudo fio "${args[@]}" 2>/dev/null)
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fi
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# Dump the raw fio output (to stderr, so it never pollutes the captured
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# values on stdout) when running verbose.
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if [ "$verbose" = 1 ]; then
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echo " --- fio: $rw bs=$bs iodepth=$qd numjobs=$jobs ---" >&2
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echo "$out" >&2
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echo "" >&2
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fi
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echo "$(fio_bw_mbps "$out") $(fio_iops "$out")"
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}
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# Table drawing -------------------------------------------------------------
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# Label cell is "| %-16s |" (18 dashes); the four numeric cells are "| %14s |"
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# (16 dashes each).
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TBL_SEG_LBL="------------------" # 18 dashes -> matches "| %-16s |"
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TBL_SEG_NUM="----------------" # 16 dashes -> matches "| %14s |"
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function tbl_rule {
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printf "+%s+%s+%s+%s+%s+\n" "$TBL_SEG_LBL" "$TBL_SEG_NUM" "$TBL_SEG_NUM" "$TBL_SEG_NUM" "$TBL_SEG_NUM"
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}
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function tbl_row {
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# tbl_row <test> <read-mb/s> <write-mb/s> <read-iops> <write-iops>
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# (col1 left-aligned, the four numeric cols right-aligned)
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printf "| %-16s | %14s | %14s | %14s | %14s |\n" "$1" "$2" "$3" "$4" "$5"
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}
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# Five-column table for the --slog latency profile.
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# "| %-16s |" -> 18 dashes ; "| %12s |" -> 14 dashes
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SLOG_SEG16="------------------" # 18 dashes
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SLOG_SEG12="--------------" # 14 dashes
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function slog_rule {
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printf "+%s+%s+%s+%s+%s+\n" "$SLOG_SEG16" "$SLOG_SEG12" "$SLOG_SEG12" "$SLOG_SEG12" "$SLOG_SEG12"
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}
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function slog_row {
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# slog_row <test> <iops> <mb/s> <p50> <p99> (col1 left, rest right-aligned)
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printf "| %-16s | %12s | %12s | %12s | %12s |\n" "$1" "$2" "$3" "$4" "$5"
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}
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function run_fio_sync {
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# run_fio_sync <bs> <numjobs>
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# -> echoes "IOPS MB/s p50_us p99_us mean_us" (one space-separated line)
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# Forces synchronous IO (--sync=1 => O_SYNC) with the portable psync engine so
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# every write is a ZIL commit -- i.e. it exercises the SLOG exactly the way a
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# sync=always dataset (NFS/iSCSI/VM) does, regardless of the dataset's own
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# sync property. We deliberately DON'T use --group_reporting here: each job is
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# reported independently in the JSON and we aggregate ourselves (sum IOPS/bw,
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# average p50, take the worst p99), which sidesteps fio's group-merge quirks.
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local bs="$1" jobs="$2"
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local args=(
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--name=slog
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--filename="$benchfile"
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--ioengine=psync
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--rw=randwrite
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--bs="$bs"
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--size="$size"
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--numjobs="$jobs"
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--sync=1
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--time_based --runtime="$runtime"
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--output-format=json
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)
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local out
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out=$(sudo fio "${args[@]}" 2>/dev/null)
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if [ "$verbose" = 1 ]; then
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echo " --- fio json: randwrite bs=$bs numjobs=$jobs sync=1 ---" >&2
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echo "$out" >&2
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echo "" >&2
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fi
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# Parse the JSON: sum IOPS and bandwidth across jobs, aggregate completion
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# latency percentiles (clat is in ns -> convert to us). bw_bytes is bytes/s.
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echo "$out" | python3 -c '
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import json, sys
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try:
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d = json.load(sys.stdin)
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jobs = d["jobs"]
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except Exception:
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print("0 0.00 0.0 0.0 0.0"); sys.exit(0)
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iops = sum(j["write"]["iops"] for j in jobs)
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mbps = sum(j["write"]["bw_bytes"] for j in jobs) / 1e6
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def pctl(j, p):
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return j["write"]["clat_ns"]["percentile"].get(p)
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p50 = [pctl(j, "50.000000") for j in jobs if pctl(j, "50.000000") is not None]
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p99 = [pctl(j, "99.000000") for j in jobs if pctl(j, "99.000000") is not None]
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mean = [j["write"]["clat_ns"]["mean"] for j in jobs]
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p50_us = (sum(p50)/len(p50))/1000.0 if p50 else 0.0 # average of per-job medians
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p99_us = (max(p99))/1000.0 if p99 else 0.0 # worst-case tail across jobs
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mean_us = (sum(mean)/len(mean))/1000.0 if mean else 0.0
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print("%.0f %.2f %.1f %.1f %.1f" % (iops, mbps, p50_us, p99_us, mean_us))
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'
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}
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function slog_speedtest {
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# SLOG / sync-write latency profile. Detect engine/direct only for the banner;
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# the actual runs always force psync + O_SYNC (see run_fio_sync).
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detect_io_settings
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benchfile="$path/speedtest-hd.bench"
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if ! command -v fio &> /dev/null; then
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echo "ERROR: --slog requires fio (apt install fio / pacman -S fio)." >&2
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exit 1
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fi
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if ! command -v python3 &> /dev/null; then
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echo "ERROR: --slog requires python3 (used to parse fio JSON latency percentiles)." >&2
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exit 1
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fi
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echo ""
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echo " speedtest-hd : SLOG / sync-write latency profile"
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echo " Target : $path"
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echo " Method : fio randwrite bs=4k --sync=1 (O_SYNC), psync engine"
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echo " Profile : runtime=${runtime}s/run size=${size^^}"
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echo " Note : every write is a synchronous ZIL commit -- this is the load"
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echo " your SLOG actually sees. Watch it live in another shell with:"
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echo " zpool iostat -vl <pool> 1"
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echo ""
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# T1 is the headline single-stream latency; the sweep shows how the SLOG
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# scales as concurrent sync writers (NFS/iSCSI/VM threads) pile on. Run every
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# measurement FIRST (progress goes to stderr), collect the results, then draw
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# the whole table in one block so the "measuring..." lines can't interleave
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# into the middle of the table.
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local jobs_list="1 4 8 16"
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local -a rows
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local j res iops bw p50 p99 mean
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for j in $jobs_list; do
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echo " measuring 4K sync randwrite T$j ..." >&2
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res=$(run_fio_sync 4k "$j")
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read -r iops bw p50 p99 mean <<< "$res"
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rows+=("$(slog_row "4K sync T$j" "$iops" "$bw" "$p50" "$p99")")
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done
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rm -f "$benchfile"
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# Render the assembled table
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echo ""
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slog_rule
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slog_row "Test" "IOPS" "MB/s" "p50 lat(us)" "p99 lat(us)"
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slog_rule
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printf '%s\n' "${rows[@]}"
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slog_rule
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echo ""
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echo " Healthy Optane SLOG (eg P1600X) single-stream (T1) target:"
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echo " ~15-25k IOPS, p50 latency ~40-65us. Much higher latency usually means"
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echo " CPU C-states / PCIe ASPM / BIOS power profile (eg Dell DAPC) throttling."
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echo ""
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}
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function cdm_speedtest {
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# Auto-detect the best engine and whether O_DIRECT works on this path.
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detect_io_settings
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benchfile="$path/speedtest-hd.bench"
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local direct_label="enabled (device)"
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[ "$direct" != 1 ] && direct_label="DISABLED (buffered -- may reflect RAM cache!)"
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# Banner
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echo ""
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echo " speedtest-hd : CrystalDiskMark-style storage benchmark"
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echo " Target : $path"
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echo " Engine : $engine O_DIRECT: $direct_label"
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echo " Profile : size=${size^^} runtime=${runtime}s/run (8 runs)"
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echo ""
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# The four CrystalDiskMark default tests. Q = queue depth (--iodepth),
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# T = threads (--numjobs). The first three are T1 (single thread); the last
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# is T16. A single shared test file is reused -- with numjobs>1 every job
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# issues IO against the same file, which is fine.
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# Each run now returns both MB/s and IOPS ("bw iops"), so we capture the pair.
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# label read-rw write-rw bs Q T
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echo " measuring SEQ1M Q8T1 ..." >&2
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local s8r_bw s8r_io; read -r s8r_bw s8r_io <<< "$(run_fio read 1m 8 1)"
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local s8w_bw s8w_io; read -r s8w_bw s8w_io <<< "$(run_fio write 1m 8 1)"
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echo " measuring SEQ1M Q1T1 ..." >&2
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local s1r_bw s1r_io; read -r s1r_bw s1r_io <<< "$(run_fio read 1m 1 1)"
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local s1w_bw s1w_io; read -r s1w_bw s1w_io <<< "$(run_fio write 1m 1 1)"
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echo " measuring RND4K Q32T1 ..." >&2
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local r32r_bw r32r_io; read -r r32r_bw r32r_io <<< "$(run_fio randread 4k 32 1)"
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local r32w_bw r32w_io; read -r r32w_bw r32w_io <<< "$(run_fio randwrite 4k 32 1)"
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echo " measuring RND4K Q32T16 ..." >&2
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local r1r_bw r1r_io; read -r r1r_bw r1r_io <<< "$(run_fio randread 4k 32 16)"
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local r1w_bw r1w_io; read -r r1w_bw r1w_io <<< "$(run_fio randwrite 4k 32 16)"
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# Cleanup the shared test file
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rm -f "$benchfile"
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# Render the CrystalDiskMark-style table
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echo ""
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tbl_rule
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tbl_row "Test" "Read (MB/s)" "Write (MB/s)" "Read (IOPS)" "Write (IOPS)"
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tbl_rule
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tbl_row "SEQ1M Q8T1" "$s8r_bw" "$s8w_bw" "$s8r_io" "$s8w_io"
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tbl_row "SEQ1M Q1T1" "$s1r_bw" "$s1w_bw" "$s1r_io" "$s1w_io"
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tbl_row "RND4K Q32T1" "$r32r_bw" "$r32w_bw" "$r32r_io" "$r32w_io"
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tbl_row "RND4K Q32T16" "$r1r_bw" "$r1w_bw" "$r1r_io" "$r1w_io"
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tbl_rule
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echo ""
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}
|
||||
|
||||
function dd_speedtest {
|
||||
# Basic HD speed test using dd (fallback when fio is not installed)
|
||||
# mReschke 2017-07-11
|
||||
local file ddsize
|
||||
file=$path/bigfile
|
||||
ddsize=1024
|
||||
|
||||
echo "Running dd based HD/SSD/NVMe Benchmarks"
|
||||
echo "---------------------------------------"
|
||||
|
||||
printf "Cached write speed...\n"
|
||||
dd if=/dev/zero of=$file bs=1M count=$ddsize
|
||||
|
||||
printf "\nUncached write speed...\n"
|
||||
dd if=/dev/zero of=$file bs=1M count=$ddsize conv=fdatasync,notrunc
|
||||
|
||||
printf "\nUncached read speed...\n"
|
||||
echo 3 | sudo tee /proc/sys/vm/drop_caches > /dev/null
|
||||
dd if=$file of=/dev/null bs=1M count=$ddsize
|
||||
|
||||
printf "\nCached read speed...\n"
|
||||
dd if=$file of=/dev/null bs=1M count=$ddsize
|
||||
|
||||
rm $file
|
||||
printf "\nDone\n"
|
||||
}
|
||||
|
||||
# Show help and usage information
|
||||
function usage {
|
||||
echo "speedtest-hd : CrystalDiskMark-style storage benchmark"
|
||||
echo " Runs the same four tests as CrystalDiskMark (each Read + Write):"
|
||||
echo " SEQ1M Q8T1 Sequential 1MiB, queue depth 8, 1 thread"
|
||||
echo " SEQ1M Q1T1 Sequential 1MiB, queue depth 1, 1 thread"
|
||||
echo " RND4K Q32T1 Random 4KiB, queue depth 32, 1 thread"
|
||||
echo " RND4K Q32T16 Random 4KiB, queue depth 32, 16 threads"
|
||||
echo " Uses fio if installed (recommended), else basic dd."
|
||||
echo "mReschke 2024-01-18"
|
||||
echo ""
|
||||
echo "NOTICE: creates one test file (default 1GB) on the destination disk."
|
||||
echo "Please ensure you have write access with enough free space."
|
||||
echo ""
|
||||
echo "Usage:"
|
||||
echo " Auto (fio if installed, else dd):"
|
||||
echo " ./speedtest-hd /mnt/somedisk"
|
||||
echo " ./speedtest-hd ."
|
||||
echo ""
|
||||
echo " Force fio / force dd:"
|
||||
echo " ./speedtest-hd /mnt/somedisk --fio"
|
||||
echo " ./speedtest-hd /mnt/somedisk --dd"
|
||||
echo ""
|
||||
echo " SLOG / sync-write latency profile (ZFS ZIL, NFS/iSCSI/VM sync IO):"
|
||||
echo " ./speedtest-hd /mnt/zpool/dataset --slog"
|
||||
echo " 4K synchronous writes at T1/T4/T8/T16; reports IOPS, MB/s, p50/p99"
|
||||
echo " commit latency. Requires fio + python3. (Tip: watch the SLOG with"
|
||||
echo " 'zpool iostat -vl <pool> 1' in another shell.)"
|
||||
echo ""
|
||||
echo " Tuning flags (auto-detected by default, override as needed):"
|
||||
echo " --engine=io_uring|libaio|posixaio|sync IO engine (default: auto)"
|
||||
echo " --direct Force O_DIRECT (bypass page cache)"
|
||||
echo " --buffered Force buffered IO (eg if O_DIRECT is unsupported)"
|
||||
echo " --runtime=SEC Seconds per run (default: 5, like CrystalDiskMark)"
|
||||
echo " --size=SIZE Test file size (default: 1g)"
|
||||
echo " --verbose Print full fio output for every run (summary table unchanged)"
|
||||
echo " Examples:"
|
||||
echo " ./speedtest-hd /mnt/nvmepool --runtime=10 --size=4g"
|
||||
echo " ./speedtest-hd /mnt/nfsshare --buffered"
|
||||
echo " ./speedtest-hd /mnt/nvmepool --verbose"
|
||||
echo " ./speedtest-hd /mnt/nvme-ultra-r10/vm-root --slog --runtime=30"
|
||||
exit 0
|
||||
}
|
||||
|
||||
# Go
|
||||
main
|
||||
Reference in New Issue
Block a user