#!/bin/bash # Yet Another Bench Script by Mason Rowe # Initial Oct 2019; Last update Oct 2021 # # Disclaimer: This project is a work in progress. Any errors or suggestions should be # relayed to me via the GitHub project page linked below. # # Purpose: The purpose of this script is to quickly gauge the performance of a Linux- # based server by benchmarking network performance via iperf3, CPU and # overall system performance via Geekbench 4/5, and random disk # performance via fio. The script is designed to not require any dependencies # - either compiled or installed - nor admin privileges to run. # echo -e '# ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## #' echo -e '# Yet-Another-Bench-Script #' echo -e '# v2021-10-09 #' echo -e '# https://github.com/masonr/yet-another-bench-script #' echo -e '# ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## ## #' echo -e date # override locale to eliminate parsing errors (i.e. using commas as delimiters rather than periods) export LC_ALL=C # determine architecture of host ARCH=$(uname -m) if [[ $ARCH = *x86_64* ]]; then # host is running a 64-bit kernel ARCH="x64" elif [[ $ARCH = *i?86* ]]; then # host is running a 32-bit kernel ARCH="x86" elif [[ $ARCH = *aarch* || $ARCH = *arm* ]]; then KERNEL_BIT=`getconf LONG_BIT` if [[ $KERNEL_BIT = *64* ]]; then # host is running an ARM 64-bit kernel ARCH="aarch64" else # host is running an ARM 32-bit kernel ARCH="arm" fi echo -e "\nARM-compatibility is considered *experimental*" else # host is running a non-supported kernel echo -e "Architecture not supported by YABS." exit 1 fi # flags to skip certain performance tests unset SKIP_FIO SKIP_IPERF SKIP_GEEKBENCH PRINT_HELP REDUCE_NET GEEKBENCH_4 GEEKBENCH_5 DD_FALLBACK IPERF_DL_FAIL GEEKBENCH_5="True" # gb5 test enabled by default # get any arguments that were passed to the script and set the associated skip flags (if applicable) while getopts 'fdighr49' flag; do case "${flag}" in f) SKIP_FIO="True" ;; d) SKIP_FIO="True" ;; i) SKIP_IPERF="True" ;; g) SKIP_GEEKBENCH="True" ;; h) PRINT_HELP="True" ;; r) REDUCE_NET="True" ;; 4) GEEKBENCH_4="True" && unset GEEKBENCH_5 ;; 9) GEEKBENCH_4="True" && GEEKBENCH_5="True" ;; *) exit 1 ;; esac done # check for local fio/iperf installs command -v fio >/dev/null 2>&1 && LOCAL_FIO=true || unset LOCAL_FIO command -v iperf3 >/dev/null 2>&1 && LOCAL_IPERF=true || unset LOCAL_IPERF # test if the host has IPv4/IPv6 connectivity IPV4_CHECK=$((ping -4 -c 1 -W 4 ipv4.google.com >/dev/null 2>&1 && echo true) || curl -s -4 -m 4 icanhazip.com 2> /dev/null) IPV6_CHECK=$((ping -6 -c 1 -W 4 ipv6.google.com >/dev/null 2>&1 && echo true) || curl -s -6 -m 4 icanhazip.com 2> /dev/null) # print help and exit script, if help flag was passed if [ ! -z "$PRINT_HELP" ]; then echo -e echo -e "Usage: ./yabs.sh [-fdighr49]" echo -e " curl -sL yabs.sh | bash" echo -e " curl -sL yabs.sh | bash -s -- -{fdighr49}" echo -e echo -e "Flags:" echo -e " -f/d : skips the fio disk benchmark test" echo -e " -i : skips the iperf network test" echo -e " -g : skips the geekbench performance test" echo -e " -h : prints this lovely message, shows any flags you passed," echo -e " shows if fio/iperf3 local packages have been detected," echo -e " then exits" echo -e " -r : reduce number of iperf3 network locations (to only three)" echo -e " to lessen bandwidth usage" echo -e " -4 : use geekbench 4 instead of geekbench 5" echo -e " -9 : use both geekbench 4 AND geekbench 5" echo -e echo -e "Detected Arch: $ARCH" echo -e echo -e "Detected Flags:" [[ ! -z $SKIP_FIO ]] && echo -e " -f/d, skipping fio disk benchmark test" [[ ! -z $SKIP_IPERF ]] && echo -e " -i, skipping iperf network test" [[ ! -z $SKIP_GEEKBENCH ]] && echo -e " -g, skipping geekbench test" [[ ! -z $REDUCE_NET ]] && echo -e " -r, using reduced (3) iperf3 locations" [[ ! -z $GEEKBENCH_4 ]] && echo -e " running geekbench 4" [[ ! -z $GEEKBENCH_5 ]] && echo -e " running geekbench 5" echo -e echo -e "Local Binary Check:" [[ -z $LOCAL_FIO ]] && echo -e " fio not detected, will download precompiled binary" || echo -e " fio detected, using local package" [[ -z $LOCAL_IPERF ]] && echo -e " iperf3 not detected, will download precompiled binary" || echo -e " iperf3 detected, using local package" echo -e echo -e "Detected Connectivity:" [[ ! -z $IPV4_CHECK ]] && echo -e " IPv4 connected" || echo -e " IPv4 not connected" [[ ! -z $IPV6_CHECK ]] && echo -e " IPv6 connected" || echo -e " IPv6 not connected" echo -e echo -e "Exiting..." exit 0 fi # format_size # Purpose: Formats raw disk and memory sizes from kibibytes (KiB) to largest unit # Parameters: # 1. RAW - the raw memory size (RAM/Swap) in kibibytes # Returns: # Formatted memory size in KiB, MiB, GiB, or TiB function format_size { RAW=$1 # mem size in KiB RESULT=$RAW local DENOM=1 local UNIT="KiB" # ensure the raw value is a number, otherwise return blank re='^[0-9]+$' if ! [[ $RAW =~ $re ]] ; then echo "" return 0 fi if [ "$RAW" -ge 1073741824 ]; then DENOM=1073741824 UNIT="TiB" elif [ "$RAW" -ge 1048576 ]; then DENOM=1048576 UNIT="GiB" elif [ "$RAW" -ge 1024 ]; then DENOM=1024 UNIT="MiB" fi # divide the raw result to get the corresponding formatted result (based on determined unit) RESULT=$(awk -v a="$RESULT" -v b="$DENOM" 'BEGIN { print a / b }') # shorten the formatted result to two decimal places (i.e. x.x) RESULT=$(echo $RESULT | awk -F. '{ printf "%0.1f",$1"."substr($2,1,2) }') # concat formatted result value with units and return result RESULT="$RESULT $UNIT" echo $RESULT } # gather basic system information (inc. CPU, AES-NI/virt status, RAM + swap + disk size) echo -e echo -e "Basic System Information:" echo -e "---------------------------------" if [[ $ARCH = *aarch64* || $ARCH = *arm* ]]; then CPU_PROC=$(lscpu | grep "Model name" | sed 's/Model name: *//g') else CPU_PROC=$(awk -F: '/model name/ {name=$2} END {print name}' /proc/cpuinfo | sed 's/^[ \t]*//;s/[ \t]*$//') fi echo -e "Processor : $CPU_PROC" if [[ $ARCH = *aarch64* || $ARCH = *arm* ]]; then CPU_CORES=$(lscpu | grep "^[[:blank:]]*CPU(s):" | sed 's/CPU(s): *//g') CPU_FREQ=$(lscpu | grep "CPU max MHz" | sed 's/CPU max MHz: *//g') [[ -z "$CPU_FREQ" ]] && CPU_FREQ="???" CPU_FREQ="${CPU_FREQ} MHz" else CPU_CORES=$(awk -F: '/model name/ {core++} END {print core}' /proc/cpuinfo) CPU_FREQ=$(awk -F: ' /cpu MHz/ {freq=$2} END {print freq " MHz"}' /proc/cpuinfo | sed 's/^[ \t]*//;s/[ \t]*$//') fi echo -e "CPU cores : $CPU_CORES @ $CPU_FREQ" CPU_AES=$(cat /proc/cpuinfo | grep aes) [[ -z "$CPU_AES" ]] && CPU_AES="\xE2\x9D\x8C Disabled" || CPU_AES="\xE2\x9C\x94 Enabled" echo -e "AES-NI : $CPU_AES" CPU_VIRT=$(cat /proc/cpuinfo | grep 'vmx\|svm') [[ -z "$CPU_VIRT" ]] && CPU_VIRT="\xE2\x9D\x8C Disabled" || CPU_VIRT="\xE2\x9C\x94 Enabled" echo -e "VM-x/AMD-V : $CPU_VIRT" TOTAL_RAM=$(format_size $(free | awk 'NR==2 {print $2}')) echo -e "RAM : $TOTAL_RAM" TOTAL_SWAP=$(format_size $(free | grep Swap | awk '{ print $2 }')) echo -e "Swap : $TOTAL_SWAP" # total disk size is calculated by adding all partitions of the types listed below (after the -t flags) TOTAL_DISK=$(format_size $(df -t simfs -t ext2 -t ext3 -t ext4 -t btrfs -t xfs -t vfat -t ntfs -t swap --total 2>/dev/null | grep total | awk '{ print $2 }')) echo -e "Disk : $TOTAL_DISK" # create a directory in the same location that the script is being run to temporarily store YABS-related files DATE=`date -Iseconds | sed -e "s/:/_/g"` YABS_PATH=./$DATE touch $DATE.test 2> /dev/null # test if the user has write permissions in the current directory and exit if not if [ ! -f "$DATE.test" ]; then echo -e echo -e "You do not have write permission in this directory. Switch to an owned directory and re-run the script.\nExiting..." exit 1 fi rm $DATE.test mkdir -p $YABS_PATH # trap CTRL+C signals to exit script cleanly trap catch_abort INT # catch_abort # Purpose: This method will catch CTRL+C signals in order to exit the script cleanly and remove # yabs-related files. function catch_abort() { echo -e "\n** Aborting YABS. Cleaning up files...\n" rm -rf $YABS_PATH unset LC_ALL exit 0 } # format_speed # Purpose: This method is a convenience function to format the output of the fio disk tests which # always returns a result in KB/s. If result is >= 1 GB/s, use GB/s. If result is < 1 GB/s # and >= 1 MB/s, then use MB/s. Otherwise, use KB/s. # Parameters: # 1. RAW - the raw disk speed result (in KB/s) # Returns: # Formatted disk speed in GB/s, MB/s, or KB/s function format_speed { RAW=$1 # disk speed in KB/s RESULT=$RAW local DENOM=1 local UNIT="KB/s" # ensure raw value is not null, if it is, return blank if [ -z "$RAW" ]; then echo "" return 0 fi # check if disk speed >= 1 GB/s if [ "$RAW" -ge 1000000 ]; then DENOM=1000000 UNIT="GB/s" # check if disk speed < 1 GB/s && >= 1 MB/s elif [ "$RAW" -ge 1000 ]; then DENOM=1000 UNIT="MB/s" fi # divide the raw result to get the corresponding formatted result (based on determined unit) RESULT=$(awk -v a="$RESULT" -v b="$DENOM" 'BEGIN { print a / b }') # shorten the formatted result to two decimal places (i.e. x.xx) RESULT=$(echo $RESULT | awk -F. '{ printf "%0.2f",$1"."substr($2,1,2) }') # concat formatted result value with units and return result RESULT="$RESULT $UNIT" echo $RESULT } # format_iops # Purpose: This method is a convenience function to format the output of the raw IOPS result # Parameters: # 1. RAW - the raw IOPS result # Returns: # Formatted IOPS (i.e. 8, 123, 1.7k, 275.9k, etc.) function format_iops { RAW=$1 # iops RESULT=$RAW # ensure raw value is not null, if it is, return blank if [ -z "$RAW" ]; then echo "" return 0 fi # check if IOPS speed > 1k if [ "$RAW" -ge 1000 ]; then # divide the raw result by 1k RESULT=$(awk -v a="$RESULT" 'BEGIN { print a / 1000 }') # shorten the formatted result to one decimal place (i.e. x.x) RESULT=$(echo $RESULT | awk -F. '{ printf "%0.1f",$1"."substr($2,1,1) }') RESULT="$RESULT"k fi echo $RESULT } # disk_test # Purpose: This method is designed to test the disk performance of the host using the partition that the # script is being run from using fio random read/write speed tests. # Parameters: # - (none) function disk_test { if [[ "$ARCH" = "aarch64" || "$ARCH" = "arm" ]]; then FIO_SIZE=512M else FIO_SIZE=2G fi # run a quick test to generate the fio test file to be used by the actual tests echo -en "Generating fio test file..." $FIO_CMD --name=setup --ioengine=libaio --rw=read --bs=64k --iodepth=64 --numjobs=2 --size=$FIO_SIZE --runtime=1 --gtod_reduce=1 --filename=$DISK_PATH/test.fio --direct=1 --minimal &> /dev/null echo -en "\r\033[0K" # get array of block sizes to evaluate BLOCK_SIZES=("$@") for BS in "${BLOCK_SIZES[@]}"; do # run rand read/write mixed fio test with block size = $BS echo -en "Running fio random mixed R+W disk test with $BS block size..." DISK_TEST=$(timeout 35 $FIO_CMD --name=rand_rw_$BS --ioengine=libaio --rw=randrw --rwmixread=50 --bs=$BS --iodepth=64 --numjobs=2 --size=$FIO_SIZE --runtime=30 --gtod_reduce=1 --direct=1 --filename=$DISK_PATH/test.fio --group_reporting --minimal 2> /dev/null | grep rand_rw_$BS) DISK_IOPS_R=$(echo $DISK_TEST | awk -F';' '{print $8}') DISK_IOPS_W=$(echo $DISK_TEST | awk -F';' '{print $49}') DISK_IOPS=$(format_iops $(awk -v a="$DISK_IOPS_R" -v b="$DISK_IOPS_W" 'BEGIN { print a + b }')) DISK_IOPS_R=$(format_iops $DISK_IOPS_R) DISK_IOPS_W=$(format_iops $DISK_IOPS_W) DISK_TEST_R=$(echo $DISK_TEST | awk -F';' '{print $7}') DISK_TEST_W=$(echo $DISK_TEST | awk -F';' '{print $48}') DISK_TEST=$(format_speed $(awk -v a="$DISK_TEST_R" -v b="$DISK_TEST_W" 'BEGIN { print a + b }')) DISK_TEST_R=$(format_speed $DISK_TEST_R) DISK_TEST_W=$(format_speed $DISK_TEST_W) DISK_RESULTS+=( "$DISK_TEST" "$DISK_TEST_R" "$DISK_TEST_W" "$DISK_IOPS" "$DISK_IOPS_R" "$DISK_IOPS_W" ) echo -en "\r\033[0K" done } # dd_test # Purpose: This method is invoked if the fio disk test failed. dd sequential speed tests are # not indiciative or real-world results, however, some form of disk speed measure # is better than nothing. # Parameters: # - (none) function dd_test { I=0 DISK_WRITE_TEST_RES=() DISK_READ_TEST_RES=() DISK_WRITE_TEST_AVG=0 DISK_READ_TEST_AVG=0 # run the disk speed tests (write and read) thrice over while [ $I -lt 3 ] do # write test using dd, "direct" flag is used to test direct I/O for data being stored to disk DISK_WRITE_TEST=$(dd if=/dev/zero of=$DISK_PATH/$DATE.test bs=64k count=16k oflag=direct |& grep copied | awk '{ print $(NF-1) " " $(NF)}') VAL=$(echo $DISK_WRITE_TEST | cut -d " " -f 1) [[ "$DISK_WRITE_TEST" == *"GB"* ]] && VAL=$(awk -v a="$VAL" 'BEGIN { print a * 1000 }') DISK_WRITE_TEST_RES+=( "$DISK_WRITE_TEST" ) DISK_WRITE_TEST_AVG=$(awk -v a="$DISK_WRITE_TEST_AVG" -v b="$VAL" 'BEGIN { print a + b }') # read test using dd using the 1G file written during the write test DISK_READ_TEST=$(dd if=$DISK_PATH/$DATE.test of=/dev/null bs=8k |& grep copied | awk '{ print $(NF-1) " " $(NF)}') VAL=$(echo $DISK_READ_TEST | cut -d " " -f 1) [[ "$DISK_READ_TEST" == *"GB"* ]] && VAL=$(awk -v a="$VAL" 'BEGIN { print a * 1000 }') DISK_READ_TEST_RES+=( "$DISK_READ_TEST" ) DISK_READ_TEST_AVG=$(awk -v a="$DISK_READ_TEST_AVG" -v b="$VAL" 'BEGIN { print a + b }') I=$(( $I + 1 )) done # calculate the write and read speed averages using the results from the three runs DISK_WRITE_TEST_AVG=$(awk -v a="$DISK_WRITE_TEST_AVG" 'BEGIN { print a / 3 }') DISK_READ_TEST_AVG=$(awk -v a="$DISK_READ_TEST_AVG" 'BEGIN { print a / 3 }') } # check if disk performance is being tested and the host has required space (2G) AVAIL_SPACE=`df -k . | awk 'NR==2{print $4}'` if [[ -z "$SKIP_FIO" && "$AVAIL_SPACE" -lt 2097152 && "$ARCH" != "aarch64" && "$ARCH" != "arm" ]]; then # 2GB = 2097152KB echo -e "\nLess than 2GB of space available. Skipping disk test..." elif [[ -z "$SKIP_FIO" && "$AVAIL_SPACE" -lt 524288 && ("$ARCH" = "aarch64" || "$ARCH" = "arm") ]]; then # 512MB = 524288KB echo -e "\nLess than 512MB of space available. Skipping disk test..." # if the skip disk flag was set, skip the disk performance test, otherwise test disk performance elif [ -z "$SKIP_FIO" ]; then # Perform ZFS filesystem detection and determine if we have enough free space according to spa_asize_inflation ZFSCHECK="/sys/module/zfs/parameters/spa_asize_inflation" if [[ -f "$ZFSCHECK" ]];then mul_spa=$((($(cat /sys/module/zfs/parameters/spa_asize_inflation)*2))) warning=0 poss=() for pathls in $(df -Th | awk '{print $7}' | tail -n +2) do if [[ "${PWD##$pathls}" != "${PWD}" ]]; then poss+=($pathls) fi done long="" m=-1 for x in ${poss[@]} do if [ ${#x} -gt $m ];then m=${#x} long=$x fi done size_b=$(df -Th | grep -w $long | grep -i zfs | awk '{print $5}' | tail -c 2 | head -c 1) free_space=$(df -Th | grep -w $long | grep -i zfs | awk '{print $5}' | head -c -2) if [[ $size_b == 'T' ]]; then free_space=$(bc <<< "$free_space*1024") size_b='G' fi if [[ $(df -Th | grep -w $long) == *"zfs"* ]];then if [[ $size_b == 'G' ]]; then if [[ $(echo "$free_space < $mul_spa" | bc) -ne 0 ]];then warning=1 fi else warning=1 fi fi if [[ $warning -eq 1 ]];then echo -en "\nWarning! You are running YABS on a ZFS Filesystem and your disk space is too low for the fio test. Your test results will be inaccurate. You need at least $mul_spa GB free in order to complete this test accurately. For more information, please see https://github.com/masonr/yet-another-bench-script/issues/13\n" fi fi echo -en "\nPreparing system for disk tests..." # create temp directory to store disk write/read test files DISK_PATH=$YABS_PATH/disk mkdir -p $DISK_PATH if [ ! -z "$LOCAL_FIO" ]; then # local fio has been detected, use instead of pre-compiled binary FIO_CMD=fio else # download fio binary if [ ! -z "$IPV4_CHECK" ]; then # if IPv4 is enabled curl -s -4 --connect-timeout 5 --retry 5 --retry-delay 0 https://raw.githubusercontent.com/masonr/yet-another-bench-script/master/bin/fio_$ARCH -o $DISK_PATH/fio else # no IPv4, use IPv6 - below is necessary since raw.githubusercontent.com has no AAAA record curl -s -6 --connect-timeout 5 --retry 5 --retry-delay 0 -k -g --header 'Host: raw.githubusercontent.com' https://[2a04:4e42::133]/masonr/yet-another-bench-script/master/bin/fio_$ARCH -o $DISK_PATH/fio fi if [ ! -f "$DISK_PATH/fio" ]; then # ensure fio binary download successfully echo -en "\r\033[0K" echo -e "Fio binary download failed. Running dd test as fallback...." DD_FALLBACK=True else chmod +x $DISK_PATH/fio FIO_CMD=$DISK_PATH/fio fi fi if [ -z "$DD_FALLBACK" ]; then # if not falling back on dd tests, run fio test echo -en "\r\033[0K" # init global array to store disk performance values declare -a DISK_RESULTS # disk block sizes to evaluate BLOCK_SIZES=( "4k" "64k" "512k" "1m" ) # execute disk performance test disk_test "${BLOCK_SIZES[@]}" fi if [[ ! -z "$DD_FALLBACK" || ${#DISK_RESULTS[@]} -eq 0 ]]; then # fio download failed or test was killed or returned an error, run dd test instead if [ -z "$DD_FALLBACK" ]; then # print error notice if ended up here due to fio error echo -e "fio disk speed tests failed. Run manually to determine cause.\nRunning dd test as fallback..." fi dd_test # format the speed averages by converting to GB/s if > 1000 MB/s if [ $(echo $DISK_WRITE_TEST_AVG | cut -d "." -f 1) -ge 1000 ]; then DISK_WRITE_TEST_AVG=$(awk -v a="$DISK_WRITE_TEST_AVG" 'BEGIN { print a / 1000 }') DISK_WRITE_TEST_UNIT="GB/s" else DISK_WRITE_TEST_UNIT="MB/s" fi if [ $(echo $DISK_READ_TEST_AVG | cut -d "." -f 1) -ge 1000 ]; then DISK_READ_TEST_AVG=$(awk -v a="$DISK_READ_TEST_AVG" 'BEGIN { print a / 1000 }') DISK_READ_TEST_UNIT="GB/s" else DISK_READ_TEST_UNIT="MB/s" fi # print dd sequential disk speed test results echo -e echo -e "dd Sequential Disk Speed Tests:" echo -e "---------------------------------" printf "%-6s | %-6s %-4s | %-6s %-4s | %-6s %-4s | %-6s %-4s\n" "" "Test 1" "" "Test 2" "" "Test 3" "" "Avg" "" printf "%-6s | %-6s %-4s | %-6s %-4s | %-6s %-4s | %-6s %-4s\n" printf "%-6s | %-11s | %-11s | %-11s | %-6.2f %-4s\n" "Write" "${DISK_WRITE_TEST_RES[0]}" "${DISK_WRITE_TEST_RES[1]}" "${DISK_WRITE_TEST_RES[2]}" "${DISK_WRITE_TEST_AVG}" "${DISK_WRITE_TEST_UNIT}" printf "%-6s | %-11s | %-11s | %-11s | %-6.2f %-4s\n" "Read" "${DISK_READ_TEST_RES[0]}" "${DISK_READ_TEST_RES[1]}" "${DISK_READ_TEST_RES[2]}" "${DISK_READ_TEST_AVG}" "${DISK_READ_TEST_UNIT}" else # fio tests completed successfully, print results DISK_RESULTS_NUM=$(expr ${#DISK_RESULTS[@]} / 6) DISK_COUNT=0 # print disk speed test results echo -e "fio Disk Speed Tests (Mixed R/W 50/50):" echo -e "---------------------------------" while [ $DISK_COUNT -lt $DISK_RESULTS_NUM ] ; do if [ $DISK_COUNT -gt 0 ]; then printf "%-10s | %-20s | %-20s\n"; fi printf "%-10s | %-11s %8s | %-11s %8s\n" "Block Size" "${BLOCK_SIZES[DISK_COUNT]}" "(IOPS)" "${BLOCK_SIZES[DISK_COUNT+1]}" "(IOPS)" printf "%-10s | %-11s %8s | %-11s %8s\n" " ------" "---" "---- " "----" "---- " printf "%-10s | %-11s %8s | %-11s %8s\n" "Read" "${DISK_RESULTS[DISK_COUNT*6+1]}" "(${DISK_RESULTS[DISK_COUNT*6+4]})" "${DISK_RESULTS[(DISK_COUNT+1)*6+1]}" "(${DISK_RESULTS[(DISK_COUNT+1)*6+4]})" printf "%-10s | %-11s %8s | %-11s %8s\n" "Write" "${DISK_RESULTS[DISK_COUNT*6+2]}" "(${DISK_RESULTS[DISK_COUNT*6+5]})" "${DISK_RESULTS[(DISK_COUNT+1)*6+2]}" "(${DISK_RESULTS[(DISK_COUNT+1)*6+5]})" printf "%-10s | %-11s %8s | %-11s %8s\n" "Total" "${DISK_RESULTS[DISK_COUNT*6]}" "(${DISK_RESULTS[DISK_COUNT*6+3]})" "${DISK_RESULTS[(DISK_COUNT+1)*6]}" "(${DISK_RESULTS[(DISK_COUNT+1)*6+3]})" DISK_COUNT=$(expr $DISK_COUNT + 2) done fi fi # iperf_test # Purpose: This method is designed to test the network performance of the host by executing an # iperf3 test to/from the public iperf server passed to the function. Both directions # (send and receive) are tested. # Parameters: # 1. URL - URL/domain name of the iperf server # 2. PORTS - the range of ports on which the iperf server operates # 3. HOST - the friendly name of the iperf server host/owner # 4. FLAGS - any flags that should be passed to the iperf command function iperf_test { URL=$1 PORTS=$2 HOST=$3 FLAGS=$4 # attempt the iperf send test 5 times, allowing for a slot to become available on the # server or to throw out any bad/error results I=1 while [ $I -le 5 ] do echo -en "Performing $MODE iperf3 send test to $HOST (Attempt #$I of 5)..." # select a random iperf port from the range provided PORT=`shuf -i $PORTS -n 1` # run the iperf test sending data from the host to the iperf server; includes # a timeout of 15s in case the iperf server is not responding; uses 8 parallel # threads for the network test IPERF_RUN_SEND="$(timeout 15 $IPERF_CMD $FLAGS -c $URL -p $PORT -P 8 2> /dev/null)" # check if iperf exited cleanly and did not return an error if [[ "$IPERF_RUN_SEND" == *"receiver"* && "$IPERF_RUN_SEND" != *"error"* ]]; then # test did not result in an error, parse speed result SPEED=$(echo "${IPERF_RUN_SEND}" | grep SUM | grep receiver | awk '{ print $6 }') # if speed result is blank or bad (0.00), rerun, otherwise set counter to exit loop [[ -z $SPEED || "$SPEED" == "0.00" ]] && I=$(( $I + 1 )) || I=11 else # if iperf server is not responding, set counter to exit, otherwise increment, sleep, and rerun [[ "$IPERF_RUN_SEND" == *"unable to connect"* ]] && I=11 || I=$(( $I + 1 )) && sleep 2 fi echo -en "\r\033[0K" done # small sleep necessary to give iperf server a breather to get ready for a new test sleep 1 # attempt the iperf receive test 5 times, allowing for a slot to become available on # the server or to throw out any bad/error results J=1 while [ $J -le 5 ] do echo -n "Performing $MODE iperf3 recv test from $HOST (Attempt #$J of 5)..." # select a random iperf port from the range provided PORT=`shuf -i $PORTS -n 1` # run the iperf test receiving data from the iperf server to the host; includes # a timeout of 15s in case the iperf server is not responding; uses 8 parallel # threads for the network test IPERF_RUN_RECV="$(timeout 15 $IPERF_CMD $FLAGS -c $URL -p $PORT -P 8 -R 2> /dev/null)" # check if iperf exited cleanly and did not return an error if [[ "$IPERF_RUN_RECV" == *"receiver"* && "$IPERF_RUN_RECV" != *"error"* ]]; then # test did not result in an error, parse speed result SPEED=$(echo "${IPERF_RUN_RECV}" | grep SUM | grep receiver | awk '{ print $6 }') # if speed result is blank or bad (0.00), rerun, otherwise set counter to exit loop [[ -z $SPEED || "$SPEED" == "0.00" ]] && J=$(( $J + 1 )) || J=11 else # if iperf server is not responding, set counter to exit, otherwise increment, sleep, and rerun [[ "$IPERF_RUN_RECV" == *"unable to connect"* ]] && J=11 || J=$(( $J + 1 )) && sleep 2 fi echo -en "\r\033[0K" done # parse the resulting send and receive speed results IPERF_SENDRESULT="$(echo "${IPERF_RUN_SEND}" | grep SUM | grep receiver)" IPERF_RECVRESULT="$(echo "${IPERF_RUN_RECV}" | grep SUM | grep receiver)" } # launch_iperf # Purpose: This method is designed to facilitate the execution of iperf network speed tests to # each public iperf server in the iperf server locations array. # Parameters: # 1. MODE - indicates the type of iperf tests to run (IPv4 or IPv6) function launch_iperf { MODE=$1 [[ "$MODE" == *"IPv6"* ]] && IPERF_FLAGS="-6" || IPERF_FLAGS="-4" # print iperf3 network speed results as they are completed echo -e echo -e "iperf3 Network Speed Tests ($MODE):" echo -e "---------------------------------" printf "%-15s | %-25s | %-15s | %-15s\n" "Provider" "Location (Link)" "Send Speed" "Recv Speed" printf "%-15s | %-25s | %-15s | %-15s\n" # loop through iperf locations array to run iperf test using each public iperf server for (( i = 0; i < IPERF_LOCS_NUM; i++ )); do # test if the current iperf location supports the network mode being tested (IPv4/IPv6) if [[ "${IPERF_LOCS[i*5+4]}" == *"$MODE"* ]]; then # call the iperf_test function passing the required parameters iperf_test "${IPERF_LOCS[i*5]}" "${IPERF_LOCS[i*5+1]}" "${IPERF_LOCS[i*5+2]}" "$IPERF_FLAGS" # parse the send and receive speed results IPERF_SENDRESULT_VAL=$(echo $IPERF_SENDRESULT | awk '{ print $6 }') IPERF_SENDRESULT_UNIT=$(echo $IPERF_SENDRESULT | awk '{ print $7 }') IPERF_RECVRESULT_VAL=$(echo $IPERF_RECVRESULT | awk '{ print $6 }') IPERF_RECVRESULT_UNIT=$(echo $IPERF_RECVRESULT | awk '{ print $7 }') # if the results are blank, then the server is "busy" and being overutilized [[ -z $IPERF_SENDRESULT_VAL || "$IPERF_SENDRESULT_VAL" == *"0.00"* ]] && IPERF_SENDRESULT_VAL="busy" && IPERF_SENDRESULT_UNIT="" [[ -z $IPERF_RECVRESULT_VAL || "$IPERF_RECVRESULT_VAL" == *"0.00"* ]] && IPERF_RECVRESULT_VAL="busy" && IPERF_RECVRESULT_UNIT="" # print the speed results for the iperf location currently being evaluated printf "%-15s | %-25s | %-15s | %-15s\n" "${IPERF_LOCS[i*5+2]}" "${IPERF_LOCS[i*5+3]}" "$IPERF_SENDRESULT_VAL $IPERF_SENDRESULT_UNIT" "$IPERF_RECVRESULT_VAL $IPERF_RECVRESULT_UNIT" fi done } # if the skip iperf flag was set, skip the network performance test, otherwise test network performance if [ -z "$SKIP_IPERF" ]; then if [ ! -z "$LOCAL_IPERF" ]; then # local iperf has been detected, use instead of pre-compiled binary IPERF_CMD=iperf3 else # create a temp directory to house the required iperf binary and library IPERF_PATH=$YABS_PATH/iperf mkdir -p $IPERF_PATH # download iperf3 binary if [ ! -z "$IPV4_CHECK" ]; then # if IPv4 is enabled curl -s -4 --connect-timeout 5 --retry 5 --retry-delay 0 https://raw.githubusercontent.com/masonr/yet-another-bench-script/master/bin/iperf3_$ARCH -o $IPERF_PATH/iperf3 else # no IPv4, use IPv6 - below is necessary since raw.githubusercontent.com has no AAAA record curl -s -6 --connect-timeout 5 --retry 5 --retry-delay 0 -k -g --header 'Host: raw.githubusercontent.com' https://[2a04:4e42::133]/masonr/yet-another-bench-script/master/bin/iperf3_$ARCH -o $IPERF_PATH/iperf3 fi if [ ! -f "$IPERF_PATH/iperf3" ]; then # ensure iperf3 binary downloaded successfully IPERF_DL_FAIL=True else chmod +x $IPERF_PATH/iperf3 IPERF_CMD=$IPERF_PATH/iperf3 fi fi # array containing all currently available iperf3 public servers to use for the network test # format: "1" "2" "3" "4" "5" \ # 1. domain name of the iperf server # 2. range of ports that the iperf server is running on (lowest-highest) # 3. friendly name of the host/owner of the iperf server # 4. location and advertised speed link of the iperf server # 5. network modes supported by the iperf server (IPv4 = IPv4-only, IPv4|IPv6 = IPv4 + IPv6, etc.) IPERF_LOCS=( \ "lon.speedtest.clouvider.net" "5200-5209" "Clouvider" "London, UK (10G)" "IPv4|IPv6" \ "ping.online.net" "5200-5209" "Online.net" "Paris, FR (10G)" "IPv4" \ "ping6.online.net" "5200-5209" "Online.net" "Paris, FR (10G)" "IPv6" \ "iperf.worldstream.nl" "5201-5201" "WorldStream" "The Netherlands (10G)" "IPv4|IPv6" \ #"iperf.biznetnetworks.com" "5201-5203" "Biznet" "Jakarta, Indonesia (1G)" "IPv4" \ "iperf.sgp.webhorizon.in" "9201-9205" "WebHorizon" "Singapore (1G)" "IPv4|IPv6" \ "nyc.speedtest.clouvider.net" "5200-5209" "Clouvider" "NYC, NY, US (10G)" "IPv4|IPv6" \ "iperf3.velocityonline.net" "5201-5210" "Velocity Online" "Tallahassee, FL, US (10G)" "IPv4" \ "la.speedtest.clouvider.net" "5200-5209" "Clouvider" "Los Angeles, CA, US (10G)" "IPv4|IPv6" \ "speedtest.iveloz.net.br" "5201-5209" "Iveloz Telecom" "Sao Paulo, BR (2G)" "IPv4" \ ) # if the "REDUCE_NET" flag is activated, then do a shorter iperf test with only three locations # (Clouvider London, Clouvider NYC, and Online.net France) if [ ! -z "$REDUCE_NET" ]; then IPERF_LOCS=( \ "lon.speedtest.clouvider.net" "5200-5209" "Clouvider" "London, UK (10G)" "IPv4|IPv6" \ "ping.online.net" "5200-5209" "Online.net" "Paris, FR (10G)" "IPv4" \ "ping6.online.net" "5200-5209" "Online.net" "Paris, FR (10G)" "IPv6" \ "nyc.speedtest.clouvider.net" "5200-5209" "Clouvider" "NYC, NY, US (10G)" "IPv4|IPv6" \ ) fi # get the total number of iperf locations (total array size divided by 5 since each location has 5 elements) IPERF_LOCS_NUM=${#IPERF_LOCS[@]} IPERF_LOCS_NUM=$((IPERF_LOCS_NUM / 5)) if [ -z "$IPERF_DL_FAIL" ]; then # check if the host has IPv4 connectivity, if so, run iperf3 IPv4 tests [ ! -z "$IPV4_CHECK" ] && launch_iperf "IPv4" # check if the host has IPv6 connectivity, if so, run iperf3 IPv6 tests [ ! -z "$IPV6_CHECK" ] && launch_iperf "IPv6" else echo -e "\niperf3 binary download failed. Skipping iperf network tests..." fi fi # launch_geekbench # Purpose: This method is designed to run the Primate Labs' Geekbench 4/5 Cross-Platform Benchmark utility # Parameters: # 1. VERSION - indicates which Geekbench version to run function launch_geekbench { VERSION=$1 # create a temp directory to house all geekbench files GEEKBENCH_PATH=$YABS_PATH/geekbench_$VERSION mkdir -p $GEEKBENCH_PATH if [[ $VERSION == *4* && ($ARCH = *aarch64* || $ARCH = *arm*) ]]; then echo -e "\nARM architecture not supported by Geekbench 4, use Geekbench 5." elif [[ $VERSION == *4* && $ARCH != *aarch64* && $ARCH != *arm* ]]; then # Geekbench v4 echo -en "\nRunning GB4 benchmark test... *cue elevator music*" # download the latest Geekbench 4 tarball and extract to geekbench temp directory curl -s https://cdn.geekbench.com/Geekbench-4.4.4-Linux.tar.gz | tar xz --strip-components=1 -C $GEEKBENCH_PATH &>/dev/null if [[ "$ARCH" == *"x86"* ]]; then # check if geekbench file exists if test -f "geekbench.license"; then $GEEKBENCH_PATH/geekbench_x86_32 --unlock `cat geekbench.license` > /dev/null 2>&1 fi # run the Geekbench 4 test and grep the test results URL given at the end of the test GEEKBENCH_TEST=$($GEEKBENCH_PATH/geekbench_x86_32 --upload 2>/dev/null | grep "https://browser") else # check if geekbench file exists if test -f "geekbench.license"; then $GEEKBENCH_PATH/geekbench4 --unlock `cat geekbench.license` > /dev/null 2>&1 fi # run the Geekbench 4 test and grep the test results URL given at the end of the test GEEKBENCH_TEST=$($GEEKBENCH_PATH/geekbench4 --upload 2>/dev/null | grep "https://browser") fi fi if [[ $VERSION == *5* ]]; then # Geekbench v5 if [[ $ARCH = *x86* && $GEEKBENCH_4 == *False* ]]; then # don't run Geekbench 5 if on 32-bit arch echo -e "\nGeekbench 5 cannot run on 32-bit architectures. Re-run with -4 flag to use" echo -e "Geekbench 4, which can support 32-bit architectures. Skipping Geekbench 5." elif [[ $ARCH = *x86* && $GEEKBENCH_4 == *True* ]]; then echo -e "\nGeekbench 5 cannot run on 32-bit architectures. Skipping test." else echo -en "\nRunning GB5 benchmark test... *cue elevator music*" # download the latest Geekbench 5 tarball and extract to geekbench temp directory if [[ $ARCH = *aarch64* || $ARCH = *arm* ]]; then curl -s https://cdn.geekbench.com/Geekbench-5.4.1-LinuxARMPreview.tar.gz | tar xz --strip-components=1 -C $GEEKBENCH_PATH &>/dev/null else curl -s https://cdn.geekbench.com/Geekbench-5.4.1-Linux.tar.gz | tar xz --strip-components=1 -C $GEEKBENCH_PATH &>/dev/null fi # check if geekbench file exists if test -f "geekbench.license"; then $GEEKBENCH_PATH/geekbench5 --unlock `cat geekbench.license` > /dev/null 2>&1 fi GEEKBENCH_TEST=$($GEEKBENCH_PATH/geekbench5 --upload 2>/dev/null | grep "https://browser") fi fi # ensure the test ran successfully if [ -z "$GEEKBENCH_TEST" ]; then if [[ -z "$IPV4_CHECK" ]]; then # Geekbench test failed to download because host lacks IPv4 (cdn.geekbench.com = IPv4 only) echo -e "\r\033[0KGeekbench releases can only be downloaded over IPv4. FTP the Geekbench files and run manually." elif [[ $ARCH != *x86* ]]; then # if the Geekbench test failed for any reason, exit cleanly and print error message echo -e "\r\033[0KGeekbench $VERSION test failed. Run manually to determine cause." fi else # if the Geekbench test succeeded, parse the test results URL GEEKBENCH_URL=$(echo -e $GEEKBENCH_TEST | head -1) GEEKBENCH_URL_CLAIM=$(echo $GEEKBENCH_URL | awk '{ print $2 }') GEEKBENCH_URL=$(echo $GEEKBENCH_URL | awk '{ print $1 }') # sleep a bit to wait for results to be made available on the geekbench website sleep 20 # parse the public results page for the single and multi core geekbench scores [[ $VERSION == *5* ]] && GEEKBENCH_SCORES=$(curl -s $GEEKBENCH_URL | grep "div class='score'") || GEEKBENCH_SCORES=$(curl -s $GEEKBENCH_URL | grep "span class='score'") GEEKBENCH_SCORES_SINGLE=$(echo $GEEKBENCH_SCORES | awk -v FS="(>|<)" '{ print $3 }') GEEKBENCH_SCORES_MULTI=$(echo $GEEKBENCH_SCORES | awk -v FS="(>|<)" '{ print $7 }') # print the Geekbench results echo -en "\r\033[0K" echo -e "Geekbench $VERSION Benchmark Test:" echo -e "---------------------------------" printf "%-15s | %-30s\n" "Test" "Value" printf "%-15s | %-30s\n" printf "%-15s | %-30s\n" "Single Core" "$GEEKBENCH_SCORES_SINGLE" printf "%-15s | %-30s\n" "Multi Core" "$GEEKBENCH_SCORES_MULTI" printf "%-15s | %-30s\n" "Full Test" "$GEEKBENCH_URL" # write the geekbench claim URL to a file so the user can add the results to their profile (if desired) [ ! -z "$GEEKBENCH_URL_CLAIM" ] && echo -e "$GEEKBENCH_URL_CLAIM" >> geekbench_claim.url 2> /dev/null fi } # if the skip geekbench flag was set, skip the system performance test, otherwise test system performance if [ -z "$SKIP_GEEKBENCH" ]; then if [[ $GEEKBENCH_4 == *True* ]]; then launch_geekbench 4 fi if [[ $GEEKBENCH_5 == *True* ]]; then launch_geekbench 5 fi fi # finished all tests, clean up all YABS files and exit echo -e rm -rf $YABS_PATH # reset locale settings unset LC_ALL