shell-scripts/常用脚本/hardware-info.sh

#!/usr/bin/env bash

RED='\033[0;31m'
GREEN='\033[0;32m'
YELLOW='\033[0;33m'
SKYBLUE='\033[0;36m'
PLAIN='\033[0m'

cancel() {
	echo ""
	next;
	echo " Abort ..."
	echo " Cleanup ..."
	cleanup;
	echo " Done"
	exit
}

trap cancel SIGINT

benchinit() {
	if [ -f /etc/redhat-release ]; then
	    release="centos"
	elif cat /etc/issue | grep -Eqi "debian"; then
	    release="debian"
	elif cat /etc/issue | grep -Eqi "ubuntu"; then
	    release="ubuntu"
	elif cat /etc/issue | grep -Eqi "centos|red hat|redhat"; then
	    release="centos"
	elif cat /proc/version | grep -Eqi "debian"; then
	    release="debian"
	elif cat /proc/version | grep -Eqi "ubuntu"; then
	    release="ubuntu"
	elif cat /proc/version | grep -Eqi "centos|red hat|redhat"; then
	    release="centos"
	fi

	[[ $EUID -ne 0 ]] && echo -e "${RED}Error:${PLAIN} This script must be run as root!" && exit 1
	start=$(date +%s) 
}

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' | tee -a $log
}

io_test() {
    (LANG=C dd if=/dev/zero of=test_file_$$ bs=512K count=$1 conv=fdatasync && rm -f test_file_$$ ) 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)}`" == "K" ] && size=0
        [ "`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}
}

power_time() {
	result=$(smartctl -a $(result=$(cat /proc/mounts) && echo $(echo "$result" | awk '/data=ordered/{print $1}') | awk '{print $1}') 2>&1) && power_time=$(echo "$result" | awk '/Power_On/{print $10}') && echo "$power_time"
}


virt_check(){
	if hash ifconfig 2>/dev/null; then
		eth=$(ifconfig)
	fi

	virtualx=$(dmesg) 2>/dev/null

    if  [ $(which dmidecode) ]; then
		sys_manu=$(dmidecode -s system-manufacturer) 2>/dev/null
		sys_product=$(dmidecode -s system-product-name) 2>/dev/null
		sys_ver=$(dmidecode -s system-version) 2>/dev/null
	else
		sys_manu=""
		sys_product=""
		sys_ver=""
	fi
	
	if grep docker /proc/1/cgroup -qa; then
	    virtual="Docker"
	elif grep lxc /proc/1/cgroup -qa; then
		virtual="Lxc"
	elif grep -qa container=lxc /proc/1/environ; then
		virtual="Lxc"
	elif [[ -f /proc/user_beancounters ]]; then
		virtual="OpenVZ"
	elif [[ "$virtualx" == *kvm-clock* ]]; then
		virtual="KVM"
	elif [[ "$cname" == *KVM* ]]; then
		virtual="KVM"
	elif [[ "$cname" == *QEMU* ]]; then
		virtual="KVM"
	elif [[ "$virtualx" == *"VMware Virtual Platform"* ]]; then
		virtual="VMware"
	elif [[ "$virtualx" == *"Parallels Software International"* ]]; then
		virtual="Parallels"
	elif [[ "$virtualx" == *VirtualBox* ]]; then
		virtual="VirtualBox"
	elif [[ -e /proc/xen ]]; then
		virtual="Xen"
	elif [[ "$sys_manu" == *"Microsoft Corporation"* ]]; then
		if [[ "$sys_product" == *"Virtual Machine"* ]]; then
			if [[ "$sys_ver" == *"7.0"* || "$sys_ver" == *"Hyper-V" ]]; then
				virtual="Hyper-V"
			else
				virtual="Microsoft Virtual Machine"
			fi
		fi
	else
		virtual="Dedicated"
	fi
}

power_time_check(){
	echo -ne " Power time of disk   : "
	install_smart
	ptime=$(power_time)
	echo -e "${SKYBLUE}$ptime Hours${PLAIN}"
}

freedisk() {
	freespace=$( df -m . | awk 'NR==2 {print $4}' )
	if [[ $freespace == "" ]]; then
		$freespace=$( df -m . | awk 'NR==3 {print $3}' )
	fi
	if [[ $freespace -gt 1024 ]]; then
		printf "%s" $((1024*2))
	elif [[ $freespace -gt 512 ]]; then
		printf "%s" $((512*2))
	elif [[ $freespace -gt 256 ]]; then
		printf "%s" $((256*2))
	elif [[ $freespace -gt 128 ]]; then
		printf "%s" $((128*2))
	else
		printf "1"
	fi
}

print_io() {
	if [[ $1 == "fast" ]]; then
		writemb=$((128*2))
	else
		writemb=$(freedisk)
	fi
	
	writemb_size="$(( writemb / 2 ))MB"
	if [[ $writemb_size == "1024MB" ]]; then
		writemb_size="1.0GB"
	fi

	if [[ $writemb != "1" ]]; then
		echo -n " I/O Speed( $writemb_size )   : " | tee -a $log
		io1=$( io_test $writemb )
		echo -e "${YELLOW}$io1${PLAIN}" | tee -a $log
		echo -n " I/O Speed( $writemb_size )   : " | tee -a $log
		io2=$( io_test $writemb )
		echo -e "${YELLOW}$io2${PLAIN}" | tee -a $log
		echo -n " I/O Speed( $writemb_size )   : " | tee -a $log
		io3=$( io_test $writemb )
		echo -e "${YELLOW}$io3${PLAIN}" | tee -a $log
		ioraw1=$( 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 -e " Average I/O Speed    : ${YELLOW}$ioavg MB/s${PLAIN}" | tee -a $log
	else
		echo -e " ${RED}Not enough space!${PLAIN}"
	fi
}

print_system_info() {
	echo -e " CPU Model            : ${SKYBLUE}$cname${PLAIN}" | tee -a $log
	echo -e " CPU Cores            : ${YELLOW}$cores Cores ${SKYBLUE}$freq MHz $arch${PLAIN}" | tee -a $log
	echo -e " CPU Cache            : ${SKYBLUE}$corescache ${PLAIN}" | tee -a $log
	echo -e " OS                   : ${SKYBLUE}$opsy ($lbit Bit) ${YELLOW}$virtual${PLAIN}" | tee -a $log
	echo -e " Kernel               : ${SKYBLUE}$kern${PLAIN}" | tee -a $log
	echo -e " Total Space          : ${SKYBLUE}$disk_used_size GB / ${YELLOW}$disk_total_size GB ${PLAIN}" | tee -a $log
	echo -e " Total RAM            : ${SKYBLUE}$uram MB / ${YELLOW}$tram MB ${SKYBLUE}($bram MB Buff)${PLAIN}" | tee -a $log
	echo -e " Total SWAP           : ${SKYBLUE}$uswap MB / $swap MB${PLAIN}" | tee -a $log
	echo -e " Uptime               : ${SKYBLUE}$up${PLAIN}" | tee -a $log
	echo -e " Load Average         : ${SKYBLUE}$load${PLAIN}" | tee -a $log
	echo -e " TCP CC               : ${YELLOW}$tcpctrl${PLAIN}" | tee -a $log
}

print_end_time() {
	end=$(date +%s) 
	time=$(( $end - $start ))
	if [[ $time -gt 60 ]]; then
		min=$(expr $time / 60)
		sec=$(expr $time % 60)
		echo -ne " Finished in  : ${min} min ${sec} sec" | tee -a $log
	else
		echo -ne " Finished in  : ${time} sec" | tee -a $log
	fi

	printf '\n' | tee -a $log

	bj_time=$(curl -s http://cgi.im.qq.com/cgi-bin/cgi_svrtime)

	if [[ $(echo $bj_time | grep "html") ]]; then
		bj_time=$(date -u +%Y-%m-%d" "%H:%M:%S -d '+8 hours')
	fi
	echo " Timestamp    : $bj_time GMT+8" | tee -a $log
	echo " Results      : $log"
}

get_system_info() {
	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=$2} END {print freq}' /proc/cpuinfo | sed 's/^[ \t]*//;s/[ \t]*$//' )
	corescache=$( awk -F: '/cache size/ {cache=$2} END {print cache}' /proc/cpuinfo | sed 's/^[ \t]*//;s/[ \t]*$//' )
	tram=$( free -m | awk '/Mem/ {print $2}' )
	uram=$( free -m | awk '/Mem/ {print $3}' )
	bram=$( free -m | awk '/Mem/ {print $6}' )
	swap=$( 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 )

	disk_size1=$( LANG=C df -hPl | grep -wvE '\-|none|tmpfs|overlay|shm|udev|devtmpfs|by-uuid|chroot|Filesystem' | awk '{print $2}' )
	disk_size2=$( LANG=C df -hPl | grep -wvE '\-|none|tmpfs|overlay|shm|udev|devtmpfs|by-uuid|chroot|Filesystem' | awk '{print $3}' )
	disk_total_size=$( calc_disk ${disk_size1[@]} )
	disk_used_size=$( calc_disk ${disk_size2[@]} )

	tcpctrl=$( sysctl net.ipv4.tcp_congestion_control | awk -F ' ' '{print $3}' )

	virt_check
}

cleanup() {
	rm -f test_file_*
	rm -rf speedtest*
	rm -f fast_com*
	rm -f tools.py
	rm -f ip_json.json
}

bench_all(){
	benchinit;
	clear
	next;
	get_system_info;
	print_system_info;
	next;
	print_io;
	next;
	print_end_time;
	next;
	cleanup;
}

log="./superbench.log"
true > $log
speedLog="./speedtest.log"
true > $speedLog

bench_all