#!/usr/bin/env bash # # Description: Auto test download & I/O speed script # # Copyright (C) 2015 - 2016 Teddysun # # Thanks: LookBack # # URL: https://teddysun.com/444.html # if [ ! -e '/usr/bin/wget' ]; then echo "Error: wget command not found. You must be install wget command at first." exit 1 fi get_opsy() { [ -f /etc/redhat-release ] && awk '{print ($1,$3~/^[0-9]/?$3:$4)}' /etc/redhat-release && return [ -f /etc/os-release ] && awk -F'[= "]' '/PRETTY_NAME/{print $3,$4,$5}' /etc/os-release && return [ -f /etc/lsb-release ] && awk -F'[="]+' '/DESCRIPTION/{print $2}' /etc/lsb-release && return } next() { printf "%-70s\n" "-" | sed 's/\s/-/g' } speed_test() { local speedtest=$(wget -4O /dev/null -T300 $1 2>&1 | awk '/\/dev\/null/ {speed=$3 $4} END {gsub(/\(|\)/,"",speed); print speed}') local ipaddress=$(ping -c1 -n `awk -F'/' '{print $3}' <<< $1` | awk -F'[()]' '{print $2;exit}') local nodeName=$2 if [ "${#nodeName}" -lt "8" ]; then echo -e "\e[33m$2\e[0m\t\t\t\t\e[32m$ipaddress\e[0m\t\t\e[31m$speedtest\e[0m" elif [ "${#nodeName}" -lt "13" ]; then echo -e "\e[33m$2\e[0m\t\t\t\e[32m$ipaddress\e[0m\t\t\e[31m$speedtest\e[0m" elif [ "${#nodeName}" -lt "24" ]; then echo -e "\e[33m$2\e[0m\t\t\e[32m$ipaddress\e[0m\t\t\e[31m$speedtest\e[0m" elif [ "${#nodeName}" -ge "24" ]; then echo -e "\e[33m$2\e[0m\t\e[32m$ipaddress\e[0m\t\t\e[31m$speedtest\e[0m" fi } speed_test_v6() { local speedtest=$(wget -6O /dev/null -T300 $1 2>&1 | awk '/\/dev\/null/ {speed=$3 $4} END {gsub(/\(|\)/,"",speed); print speed}') local ipaddress=$(ping6 -c1 -n `awk -F'/' '{print $3}' <<< $1` | awk -F'[()]' '{print $2;exit}') local nodeName=$2 if [ "${#nodeName}" -lt "8" -a "${#ipaddress}" -eq "13" ]; then echo -e "\e[33m$2\e[0m\t\t\t\t\e[32m$ipaddress\e[0m\t\t\e[31m$speedtest\e[0m" elif [ "${#nodeName}" -lt "13" -a "${#ipaddress}" -eq "13" ]; then echo -e "\e[33m$2\e[0m\t\t\t\e[32m$ipaddress\e[0m\t\t\e[31m$speedtest\e[0m" elif [ "${#nodeName}" -lt "24" -a "${#ipaddress}" -eq "13" ]; then echo -e "\e[33m$2\e[0m\t\t\e[32m$ipaddress\e[0m\t\t\e[31m$speedtest\e[0m" elif [ "${#nodeName}" -lt "24" -a "${#ipaddress}" -gt "13" ]; then echo -e "\e[33m$2\e[0m\t\t\e[32m$ipaddress\e[0m\t\e[31m$speedtest\e[0m" elif [ "${#nodeName}" -ge "24" ]; then echo -e "\e[33m$2\e[0m\t\e[32m$ipaddress\e[0m\t\e[31m$speedtest\e[0m" fi } speed() { speed_test 'http://cachefly.cachefly.net/100mb.test' 'CacheFly' speed_test 'http://speedtest.tokyo.linode.com/100MB-tokyo.bin' 'Linode, Tokyo, JP' speed_test 'http://speedtest.singapore.linode.com/100MB-singapore.bin' 'Linode, Singapore, SG' speed_test 'http://speedtest.london.linode.com/100MB-london.bin' 'Linode, London, UK' speed_test 'http://speedtest.frankfurt.linode.com/100MB-frankfurt.bin' 'Linode, Frankfurt, DE' speed_test 'http://speedtest.fremont.linode.com/100MB-fremont.bin' 'Linode, Fremont, CA' speed_test 'http://speedtest.dal05.softlayer.com/downloads/test100.zip' 'Softlayer, Dallas, TX' speed_test 'http://speedtest.sea01.softlayer.com/downloads/test100.zip' 'Softlayer, Seattle, WA' speed_test 'http://speedtest.fra02.softlayer.com/downloads/test100.zip' 'Softlayer, Frankfurt, DE' speed_test 'http://speedtest.sng01.softlayer.com/downloads/test100.zip' 'Softlayer, Singapore, SG' speed_test 'http://speedtest.hkg02.softlayer.com/downloads/test100.zip' 'Softlayer, HongKong, CN' } speed_v6() { speed_test_v6 'http://speedtest.atlanta.linode.com/100MB-atlanta.bin' 'Linode, Atlanta, GA' speed_test_v6 'http://speedtest.dallas.linode.com/100MB-dallas.bin' 'Linode, Dallas, TX' speed_test_v6 'http://speedtest.newark.linode.com/100MB-newark.bin' 'Linode, Newark, NJ' speed_test_v6 'http://speedtest.singapore.linode.com/100MB-singapore.bin' 'Linode, Singapore, SG' speed_test_v6 'http://speedtest.tokyo.linode.com/100MB-tokyo.bin' 'Linode, Tokyo, JP' speed_test_v6 'http://speedtest.sjc03.softlayer.com/downloads/test100.zip' 'Softlayer, San Jose, CA' speed_test_v6 'http://speedtest.wdc01.softlayer.com/downloads/test100.zip' 'Softlayer, Washington, WA' speed_test_v6 'http://speedtest.par01.softlayer.com/downloads/test100.zip' 'Softlayer, Paris, FR' speed_test_v6 'http://speedtest.sng01.softlayer.com/downloads/test100.zip' 'Softlayer, Singapore, SG' speed_test_v6 'http://speedtest.tok02.softlayer.com/downloads/test100.zip' 'Softlayer, Tokyo, JP' } io_test() { (LANG=C dd if=/dev/zero of=test_$$ bs=64k count=16k conv=fdatasync && rm -f test_$$ ) 2>&1 | awk -F, '{io=$NF} END { print io}' | sed 's/^[ \t]*//;s/[ \t]*$//' } calc_disk() { local total_size=0 local array=$@ for size in ${array[@]} do [ "${size}" == "0" ] && size_t=0 || size_t=`echo ${size:0:${#size}-1}` [ "`echo ${size:(-1)}`" == "M" ] && size=$( awk 'BEGIN{printf "%.1f", '$size_t' / 1024}' ) [ "`echo ${size:(-1)}`" == "T" ] && size=$( awk 'BEGIN{printf "%.1f", '$size_t' * 1024}' ) [ "`echo ${size:(-1)}`" == "G" ] && size=${size_t} total_size=$( awk 'BEGIN{printf "%.1f", '$total_size' + '$size'}' ) done echo ${total_size} } cname=$( awk -F: '/model name/ {name=$2} END {print name}' /proc/cpuinfo | sed 's/^[ \t]*//;s/[ \t]*$//' ) cores=$( awk -F: '/model name/ {core++} END {print core}' /proc/cpuinfo ) freq=$( awk -F: '/cpu MHz/ {freq=$2} END {print freq}' /proc/cpuinfo | sed 's/^[ \t]*//;s/[ \t]*$//' ) tram=$( free -m | awk '/Mem/ {print $2}' ) uram=$( free -m | awk '/Mem/ {print $3}' ) swap=$( free -m | awk '/Swap/ {print $2}' ) uswap=$( free -m | awk '/Swap/ {print $3}' ) up=$( awk '{a=$1/86400;b=($1%86400)/3600;c=($1%3600)/60} {printf("%d days, %d hour %d min\n",a,b,c)}' /proc/uptime ) load=$( w | head -1 | awk -F'load average:' '{print $2}' | sed 's/^[ \t]*//;s/[ \t]*$//' ) opsy=$( get_opsy ) arch=$( uname -m ) lbit=$( getconf LONG_BIT ) kern=$( uname -r ) ipv6=$( wget -qO- -t1 -T2 ipv6.icanhazip.com ) disk_size1=($( df -ahPl | grep -wvE '\-|none|tmpfs|by-uuid|Filesystem' | awk '{print $2}' )) disk_size2=($( df -ahPl | grep -wvE '\-|none|tmpfs|by-uuid|Filesystem' | awk '{print $3}' )) disk_total_size=$( calc_disk ${disk_size1[@]} ) disk_used_size=$( calc_disk ${disk_size2[@]} ) clear next echo "CPU model : $cname" echo "Number of cores : $cores" echo "CPU frequency : $freq MHz" echo "Total size of Disk : $disk_total_size GB ($disk_used_size GB Used)" echo "Total amount of Mem : $tram MB ($uram MB Used)" echo "Total amount of Swap : $swap MB ($uswap MB Used)" echo "System uptime : $up" echo "Load average : $load" echo "OS : $opsy" echo "Arch : $arch ($lbit Bit)" echo "Kernel : $kern" next io1=$( io_test ) echo "I/O speed(1st run) : $io1" io2=$( io_test ) echo "I/O speed(2nd run) : $io2" io3=$( io_test ) echo "I/O speed(3rd run) : $io3" ioraw1=$( echo $io1 | awk 'NR==1 {print $1}' ) [ "`echo $io1 | awk 'NR==1 {print $2}'`" == "GB/s" ] && ioraw1=$( awk 'BEGIN{print '$ioraw1' * 1024}' ) ioraw2=$( echo $io2 | awk 'NR==1 {print $1}' ) [ "`echo $io2 | awk 'NR==1 {print $2}'`" == "GB/s" ] && ioraw2=$( awk 'BEGIN{print '$ioraw2' * 1024}' ) ioraw3=$( echo $io3 | awk 'NR==1 {print $1}' ) [ "`echo $io3 | awk 'NR==1 {print $2}'`" == "GB/s" ] && ioraw3=$( awk 'BEGIN{print '$ioraw3' * 1024}' ) ioall=$( awk 'BEGIN{print '$ioraw1' + '$ioraw2' + '$ioraw3'}' ) ioavg=$( awk 'BEGIN{printf "%.1f", '$ioall' / 3}' ) echo "Average I/O speed : $ioavg MB/s" next echo -e "Node Name\t\t\tIPv4 address\t\tDownload Speed" speed && next if [[ "$ipv6" != "" ]]; then echo -e "Node Name\t\t\tIPv6 address\t\tDownload Speed" speed_v6 && next fi