什么是frp

一个内网穿透的工具 没有公网IP又想访问里面服务的时候用得上 工具需要一台有公网IP的设备来中转
有公网IP的设备上安装frp服务端 frps
无公网IP的设备上安装frp客户端 frpc
宝塔是因为设备上已经安装了才说的 宝塔对于frp来说，非必要

安装服务端frps

在有公网IP的设备上安装frp服务端
fprs宝塔插件下载地址：http://pan.sixu.space/tools/btp_frps1.2.1.zip
在宝塔安装第三方工具 导入安装frps可视化面板
首次运行 frps版本在线安装 设置好端口 面板信息 启动

安装客户端frpc

在没有公网IP的设备上下载frp客户端 https://github.com/fatedier/frp/releases 注意下载的版本和frps的版本一致
frpc的配置

[common]
server_addr = 你的公网服务器IP
server_port = 你在服务端配置的端口
token = 你在服务端配置的身份验证码
[代理名称]
type = tcp
local_ip = 内网IP地址，本机填写 127.0.0.1
local_port = 内网端口
remote_port = 公网访问端口

临时跑起来

/bin/bash -c '/root/frp_0.44.0_linux_amd64/frpc -c /root/frp_0.44.0_linux_amd64/frpc.ini'

Supervisor

在宝塔的应用商店里面安装Supervisor 添加一个'frp2'的任务名称 只是举例
命令重启刚添加的任务：/www/server/panel/pyenv/bin/supervisorctl restart frp2:frp2_00

#!/bin/bash
 
#write by zhumaohai(admin#centos.bz)
#author blog: www.centos.bz
 
 
#显示菜单(单选)
display_menu(){
local soft=$1
local prompt="which ${soft} you'd select: "
eval local arr=(\${${soft}_arr[@]})
while true
do
    echo -e "#################### ${soft} setting ####################\n\n"
    for ((i=1;i<=${#arr[@]};i++ )); do echo -e "$i) ${arr[$i-1]}"; done
    echo
    read -p "${prompt}" $soft
    eval local select=\$$soft
    if [ "$select" == "" ] || [ "${arr[$soft-1]}" == ""  ];then
        prompt="input errors,please input a number: "
    else
        eval $soft=${arr[$soft-1]}
        eval echo "your selection: \$$soft"             
        break
    fi
done
}
 
#把带宽bit单位转换为人类可读单位
bit_to_human_readable(){
    #input bit value
    local trafficValue=$1
 
    if [[ ${trafficValue%.*} -gt 922 ]];then
        #conv to Kb
        trafficValue=`awk -v value=$trafficValue 'BEGIN{printf "%0.1f",value/1024}'`
        if [[ ${trafficValue%.*} -gt 922 ]];then
            #conv to Mb
            trafficValue=`awk -v value=$trafficValue 'BEGIN{printf "%0.1f",value/1024}'`
            echo "${trafficValue}Mb"
        else
            echo "${trafficValue}Kb"
        fi
    else
        echo "${trafficValue}b"
    fi
}
 
#判断包管理工具
check_package_manager(){
    local manager=$1
    local systemPackage=''
    if cat /etc/issue | grep -q -E -i "ubuntu|debian";then
        systemPackage='apt'
    elif cat /etc/issue | grep -q -E -i "centos|red hat|redhat";then
        systemPackage='yum'
    elif cat /proc/version | grep -q -E -i "ubuntu|debian";then
        systemPackage='apt'
    elif cat /proc/version | grep -q -E -i "centos|red hat|redhat";then
        systemPackage='yum'
    else
        echo "unkonw"
    fi
 
    if [ "$manager" == "$systemPackage" ];then
        return 0
    else
        return 1
    fi   
}
 
 
#实时流量
realTimeTraffic(){
    local eth=""
    local nic_arr=(`ifconfig | grep -E -o "^[a-z0-9]+" | grep -v "lo" | uniq`)
    local nicLen=${#nic_arr[@]}
    if [[ $nicLen -eq 0 ]]; then
        echo "sorry,I can not detect any network device,please report this issue to author."
        exit 1
    elif [[ $nicLen -eq 1 ]]; then
        eth=$nic_arr
    else
        display_menu nic
        eth=$nic
    fi   
 
    local clear=true
    local eth_in_peak=0
    local eth_out_peak=0
    local eth_in=0
    local eth_out=0
 
    while true;do
        #移动光标到0:0位置
        printf "\033[0;0H"
        #清屏并打印Now Peak
        [[ $clear == true ]] && printf "\033[2J" && echo "$eth--------Now--------Peak-----------"
        traffic_be=(`awk -v eth=$eth -F'[: ]+' '{if ($0 ~eth){print $3,$11}}' /proc/net/dev`)
        sleep 2
        traffic_af=(`awk -v eth=$eth -F'[: ]+' '{if ($0 ~eth){print $3,$11}}' /proc/net/dev`)
        #计算速率
        eth_in=$(( (${traffic_af[0]}-${traffic_be[0]})*8/2 ))
        eth_out=$(( (${traffic_af[1]}-${traffic_be[1]})*8/2 ))
        #计算流量峰值
        [[ $eth_in -gt $eth_in_peak ]] && eth_in_peak=$eth_in
        [[ $eth_out -gt $eth_out_peak ]] && eth_out_peak=$eth_out
        #移动光标到2:1
        printf "\033[2;1H"
        #清除当前行
        printf "\033[K"   
        printf "%-20s %-20s\n" "Receive:  $(bit_to_human_readable $eth_in)" "$(bit_to_human_readable $eth_in_peak)"
        #清除当前行
        printf "\033[K"
        printf "%-20s %-20s\n" "Transmit: $(bit_to_human_readable $eth_out)" "$(bit_to_human_readable $eth_out_peak)"
        [[ $clear == true ]] && clear=false
    done
}
 
#流量和连接概览
trafficAndConnectionOverview(){
    if ! which tcpdump > /dev/null;then
        echo "tcpdump not found,going to install it."
        if check_package_manager apt;then
            apt-get -y install tcpdump
        elif check_package_manager yum;then
            yum -y install tcpdump
        fi
    fi
 
    local reg=""
    local eth=""
    local nic_arr=(`ifconfig | grep -E -o "^[a-z0-9]+" | grep -v "lo" | uniq`)
    local nicLen=${#nic_arr[@]}
    if [[ $nicLen -eq 0 ]]; then
        echo "sorry,I can not detect any network device,please report this issue to author."
        exit 1
    elif [[ $nicLen -eq 1 ]]; then
        eth=$nic_arr
    else
        display_menu nic
        eth=$nic
    fi
 
    echo "please wait for 10s to generate network data..."
    echo
    #当前流量值
    local traffic_be=(`awk -v eth=$eth -F'[: ]+' '{if ($0 ~eth){print $3,$11}}' /proc/net/dev`)
    #tcpdump监听网络
    tcpdump -v -i $eth -tnn > /tmp/tcpdump_temp 2>&1 &
    sleep 10
    clear
    kill `ps aux | grep tcpdump | grep -v grep | awk '{print $2}'`
 
    #10s后流量值
    local traffic_af=(`awk -v eth=$eth -F'[: ]+' '{if ($0 ~eth){print $3,$11}}' /proc/net/dev`)
    #打印10s平均速率
    local eth_in=$(( (${traffic_af[0]}-${traffic_be[0]})*8/10 ))
    local eth_out=$(( (${traffic_af[1]}-${traffic_be[1]})*8/10 ))
    echo -e "\033[32mnetwork device $eth average traffic in 10s: \033[0m"
    echo "$eth Receive: $(bit_to_human_readable $eth_in)/s"
    echo "$eth Transmit: $(bit_to_human_readable $eth_out)/s"
    echo
 
    local regTcpdump=$(ifconfig | grep -A 1 $eth | awk -F'[: ]+' '$0~/inet addr:/{printf $4"|"}' | sed -e 's/|$//' -e 's/^/(/' -e 's/$/)\\\\\.[0-9]+:/')
 
    #新旧版本tcpdump输出格式不一样,分别处理
    if awk '/^IP/{print;exit}' /tmp/tcpdump_temp | grep -q ")$";then
        #处理tcpdump文件
        awk '/^IP/{print;getline;print}' /tmp/tcpdump_temp > /tmp/tcpdump_temp2
    else
        #处理tcpdump文件
        awk '/^IP/{print}' /tmp/tcpdump_temp > /tmp/tcpdump_temp2
        sed -i -r 's#(.*: [0-9]+\))(.*)#\1\n    \2#' /tmp/tcpdump_temp2
    fi
    
    awk '{len=$NF;sub(/\)/,"",len);getline;print $0,len}' /tmp/tcpdump_temp2 > /tmp/tcpdump
 
    #统计每个端口在10s内的平均流量
    echo -e "\033[32maverage traffic in 10s base on server port: \033[0m"
    awk -F'[ .:]+' -v regTcpdump=$regTcpdump '{if ($0 ~ regTcpdump){line="clients > "$8"."$9"."$10"."$11":"$12}else{line=$2"."$3"."$4"."$5":"$6" > clients"};sum[line]+=$NF*8/10}END{for (line in sum){printf "%s %d\n",line,sum[line]}}' /tmp/tcpdump | \
    sort -k 4 -nr | head -n 10 | while read a b c d;do
        echo "$a $b $c $(bit_to_human_readable $d)/s"
    done
    echo -ne "\033[11A"
    echo -ne "\033[50C"
    echo -e "\033[32maverage traffic in 10s base on client port: \033[0m"
    awk -F'[ .:]+' -v regTcpdump=$regTcpdump '{if ($0 ~ regTcpdump){line=$2"."$3"."$4"."$5":"$6" > server"}else{line="server > "$8"."$9"."$10"."$11":"$12};sum[line]+=$NF*8/10}END{for (line in sum){printf "%s %d\n",line,sum[line]}}' /tmp/tcpdump | \
    sort -k 4 -nr | head -n 10 | while read a b c d;do
            echo -ne "\033[50C"
            echo "$a $b $c $(bit_to_human_readable $d)/s"
    done   
        
    echo
 
    #统计在10s内占用带宽最大的前10个ip
    echo -e "\033[32mtop 10 ip average traffic in 10s base on server: \033[0m"
    awk -F'[ .:]+' -v regTcpdump=$regTcpdump '{if ($0 ~ regTcpdump){line=$2"."$3"."$4"."$5" > "$8"."$9"."$10"."$11":"$12}else{line=$2"."$3"."$4"."$5":"$6" > "$8"."$9"."$10"."$11};sum[line]+=$NF*8/10}END{for (line in sum){printf "%s %d\n",line,sum[line]}}' /tmp/tcpdump | \
    sort -k 4 -nr | head -n 10 | while read a b c d;do
        echo "$a $b $c $(bit_to_human_readable $d)/s"
    done
    echo -ne "\033[11A"
    echo -ne "\033[50C"
    echo -e "\033[32mtop 10 ip average traffic in 10s base on client: \033[0m"
    awk -F'[ .:]+' -v regTcpdump=$regTcpdump '{if ($0 ~ regTcpdump){line=$2"."$3"."$4"."$5":"$6" > "$8"."$9"."$10"."$11}else{line=$2"."$3"."$4"."$5" > "$8"."$9"."$10"."$11":"$12};sum[line]+=$NF*8/10}END{for (line in sum){printf "%s %d\n",line,sum[line]}}' /tmp/tcpdump | \
    sort -k 4 -nr | head -n 10 | while read a b c d;do
        echo -ne "\033[50C"
        echo "$a $b $c $(bit_to_human_readable $d)/s"
    done
 
    echo
    #统计连接状态
    local regSS=$(ifconfig | grep -A 1 $eth | awk -F'[: ]+' '$0~/inet addr:/{printf $4"|"}' | sed -e 's/|$//')
    ss -an | grep -v -E "LISTEN|UNCONN" | grep -E "$regSS" > /tmp/ss
    echo -e "\033[32mconnection state count: \033[0m"
    awk 'NR>1{sum[$(NF-4)]+=1}END{for (state in sum){print state,sum[state]}}' /tmp/ss | sort -k 2 -nr
    echo
    #统计各端口连接状态
    echo -e "\033[32mconnection state count by port base on server: \033[0m"
    awk 'NR>1{sum[$(NF-4),$(NF-1)]+=1}END{for (key in sum){split(key,subkey,SUBSEP);print subkey[1],subkey[2],sum[subkey[1],subkey[2]]}}' /tmp/ss | sort -k 3 -nr | head -n 10   
    echo -ne "\033[11A"
    echo -ne "\033[50C"
    echo -e "\033[32mconnection state count by port base on client: \033[0m"
    awk 'NR>1{sum[$(NF-4),$(NF)]+=1}END{for (key in sum){split(key,subkey,SUBSEP);print subkey[1],subkey[2],sum[subkey[1],subkey[2]]}}' /tmp/ss | sort -k 3 -nr | head -n 10 | awk '{print "\033[50C"$0}'   
    echo   
    #统计端口为80且状态为ESTAB连接数最多的前10个IP
    echo -e "\033[32mtop 10 ip ESTAB state count at port 80: \033[0m"
    cat /tmp/ss | grep ESTAB | awk -F'[: ]+' '{sum[$(NF-2)]+=1}END{for (ip in sum){print ip,sum[ip]}}' | sort -k 2 -nr | head -n 10
    echo
    #统计端口为80且状态为SYN-RECV连接数最多的前10个IP
    echo -e "\033[32mtop 10 ip SYN-RECV state count at port 80: \033[0m"
    cat /tmp/ss | grep -E "$regSS" | grep SYN-RECV | awk -F'[: ]+' '{sum[$(NF-2)]+=1}END{for (ip in sum){print ip,sum[ip]}}' | sort -k 2 -nr | head -n 10
}
 
main(){
    while true; do
        echo -e "1) real time traffic.\n2) traffic and connection overview.\n"
        read -p "please input your select(ie 1): " select
        case  $select in
            1) realTimeTraffic;break;;
            2) trafficAndConnectionOverview;break;;
            *) echo "input error,please input a number.";;
        esac
    done   
}
 
main

来源：
Linux运维日志 » 网络分析shell脚本(实时流量+连接统计)
https://www.centos.bz/2014/06/shell-script-for-network-analysis/

换源

vi /etc/apt/sources.list

deb https://mirrors.ustc.edu.cn/debian stretch main contrib non-free
deb https://mirrors.ustc.edu.cn/debian stretch-updates main contrib non-free
deb https://mirrors.ustc.edu.cn/debian stretch-backports main contrib non-free
deb https://mirrors.ustc.edu.cn/debian-security/ stretch/updates main contrib non-free

apt-get update && apt-get upgrade

安装宝塔

https://www.feiji.work/2019/20.html
wget https://www.feiji.work/n1/bt/6.9.4/install.sh && sudo bash install.sh
安装完成可能有错误提示 直接reboot重启
查看面板入口：/etc/init.d/bt default

安装nginx

https://www.feiji.work/2019/41.html

打开ssh（注：如果以下步骤提示缺少文件，可以在宝塔后台执行一次安装Nginx，在下载完脚本后直接取消安装即可。）

cd /www/server/panel/install #如果目录存在nginx 先rm
wget https://www.feiji.work/n1/bt/nginx.sh 下载nginx.sh
sh nginx.sh install #直接安装

安装Nginx出现checking for GD library ... not found错误
https://de.lib.im/linux-gd.html
apt-get -y install libgd2-xpm-dev build-essential重新安装

报错Starting nginx... nginx: [emerg] getpwnam("www") failed in /www/server/nginx/conf/nginx.conf:1
https://blog.csdn.net/rebel_yangke/article/details/58601731
修改/www/server/nginx/conf/nginx.conf 两个www改成root 再重启

pppoe宽带拨号

https://xaolong.com/post/279.html
https://malagege.github.io/blog/2019/01/26/Linux%E4%BD%BF%E7%94%A8pppoe%E9%80%A3%E7%B7%9A%E6%96%B9%E6%B3%95%E5%B0%8F%E8%A8%98/

apt install pppoeconf -y
apt install isc-dhcp-server -y

vi /etc/default/isc-dhcp-server
#将INTERFACESv4=""修改为INTERFACESv4="br0"
#在INTERFACESv6=""的前面加个#，修改为#INTERFACESv6=""

mv /etc/dhcp/dhcpd.conf /etc/dhcp/dhcpd.conf.bak

vi /etc/dhcp/dhcpd.conf  ###里面的所有内容
###
option domain-name "phicomm-n1";
option domain-name-servers 119.29.29.29;
subnet 192.168.1.0 netmask 255.255.255.0 {
    range 192.168.1.101 192.168.1.254;
    option subnet-mask 255.255.255.0;
    option broadcast-address 192.168.1.255;
    option routers 192.168.1.2;
    option domain-name-servers 119.29.29.29;
}
default-lease-time 600;
max-lease-time 7200;
authoritative;
###

vi /etc/network/interfaces
#iface eth0 inet dhcp 改为iface eth0 inet manual 后面增加以下内容 ###里面的全部 见图一
###
auto br0
iface br0 inet static
bridge_ports eth0
address 192.168.1.2
broadcast 192.168.1.255
network 192.168.1.0
netmask 255.255.255.0
gateway 192.168.1.2
bridge_stp off              
bridge_waitport 0           
bridge_fd 0
###

vi /etc/sysctl.conf
#去掉net.ipv4.ip_forward=1前面的#号

sysctl -p

vi  /etc/rc.local
#在 exit 0 前一行加以下内容
iptables -t nat -A POSTROUTING -j MASQUERADE

reboot

n1接光猫 #n1已经固定IP 192.168.1.2

pppoeconf #进入拨号向导
#第一个选no
#删除username 输入宽带账号
#输入宽带密码
#之后全部 yes

poff -a # 關閉全部pppoe

查看状态
plog
ip addr show ppp0

开机自动拨号
vi /etc/rc.local #在 exit 0 前一行加一句：
pon dsl-provider

账号密码配置文件地址/etc/ppp/pap-secrets

动态域名解析dns

https://github.com/NewFuture/DDNS

git clone https://github.com/NewFuture/DDNS
cd DDNS
./run.py #运行一次 生成config.json配置文件
vi config.json #修改 id 域名 token
./task.sh

说明：买了个nat小鸡 装了宝塔面板 默认的8888改了端口才能用
Debian9系统

修改端口

echo '分配的端口' > /www/server/panel/data/port.pl && /etc/init.d/bt restart

防火墙放行端口

ufw allow 上面使用的端口/tcp

说明：路由器新路由3作为客户端frpc，Google cloud香港有公网IP安装服务端frps

vps上安装服务端

1.下载服务端

#切换到root目录下
cd /root
#下载0.21版本
wget --no-check-certificate https://github.com/fatedier/frp/releases/download/v0.21.0/frp_0.21.0_linux_amd64.tar.gz
#解压
tar -xzvf frp_0.21.0_linux_amd64.tar.gz
#文件夹重命名
mv frp_0.21.0_linux_amd64 frp
#进入frp目录
cd frp
#赋予权限
chmod +x frps
#执行帮助命令测试frp是否能运行
./frps --help

2.写入配置文件

echo "[common]
bind_port = 7000
token = 12345678
dashboard_port = 7500
dashboard_user = admin
dashboard_pwd = admin
vhost_http_port = 10080
vhost_https_port = 10443
subdomain_host = sixu.life" > frps.ini

3.测试运行frps
./frps -c frps.ini
ctrl+c退出
4.开机启动

#编辑 开机启动文件
vi /etc/rc.local
#按 i 进入编辑模式并添加下面的命令到 exit 0 语句之前
nohup /root/frp/frps -c /root/frp/frps.ini &
#按 esc 退出编辑模式再按 :wq 保存并退出

路由器上配置

1.依次点击：花生壳内网版--frp
启用 frp 内网穿透 选中
启用 frpc 客户端 选中
2.修改配置文件

# ==========客户端配置：==========
[common]
server_addr = 对应服务器IP地址
server_port = 对应服务端的 bind_port
token = 对应服务端 token

#log_file = /dev/null
#log_level = info
#log_max_days = 3

[web]
remote_port = 对应服务端vhost_http_port
type = http
local_ip = 192.168.123.1
local_port = 80
subdomain = 自定义子域名，例如test.sixu.life，则此处自需要输入test
#host_header_rewrite = 
# ====================
EOF

3.点击应用本页设置
4.运行成功会看到类似的提示

login to server success, get run id [], server udp port [0]
start proxy success

域名解析

为了方便，可直接添加泛解析 * a记录指向服务器IP

其他

例如上文的设置来说：
1.登录服务端的 dashboard 的地址为：服务器ip:7500
2.外网访问地址为：test.sixu.life:10080