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LVS-NAT && LVS-DR模型

时间:2014-06-26 06:23:39      阅读:510      评论:0      收藏:0      [点我收藏+]

标签:lvs-dr   lvs-nat   模型   

Lvs三种模式

         NAT

         DR

         TUN

 

LVS-NAT:目标地址转换

         注意事项:

         realserver的网关必须指向DIP,通常都是私有地址

         directory位于clientrealserver之间,并负责处理进出的所有通信

         directory支持端口映射,向外提供服务的端口 realserver的端口可以不相同

         realserver可以使用任意操作系统

         较大规模应用场景中,directory易成为系统瓶颈

LVS-DR:直接路由

         各集群节点,必须要跟directory在同一物理网络中

         RIP可以使用公网地址,实现远程管理(也可以使用私有地址)

         directory仅负责处理入展请求,响应报文则有realserver 直接发往客户端

         集群节点不能将网关指向DIP

         directory不支持端口映射

LVS-TUN:隧道

         集群节点可以跨越互联网internet

         RIP必须是公网地址

         directory仅处理入展请求,响应报文则由realserver直接发往客户端

         realserver网关不能指向directory

         只有支持隧道功能的OS才能用于realserver

         不支持端映射

拓扑如下:

         LVS-NAT

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第一:确保两台web可以正常访问

第二:网络连接正常(Directory 两块网卡,NAT连接真机,vmnet2 连接两台WEB server

第三:配置LVS Directory

         #grep -i ‘vs‘ /boot/config-2.6.32-431.el6.x86_64

         说明已经支持ipvs

         #yum list | grep ipvsadm

         #yum install ipvsadm #安装ipvsadm工具

         定义集群服务:

         #ipvsadm -A -t 172.16.100.100:80 -s rr

         添加集群主机:

         ipvsadm-a -t 172.16.100.100:80 -r 10.0.0.2 –m

         ipvsadm-a -t 172.16.100.100:80 -r 10.0.0.3 –m

         打开Directory的路由转发功能,所有的主机均关闭防火墙。

         个主机之间使用ntpdate进行实践同步

# ipvsadm -L -n

IP Virtual Server version 1.2.1 (size=4096)

Prot LocalAddress:Port Scheduler Flags

 -> RemoteAddress:Port          Forward Weight ActiveConn InActConn

TCP 172.16.100.100:80 rr

 -> 10.0.0.2:80                 Masq    1      0         5        

 -> 10.0.0.3:80                 Masq    1      0         5        

[root@localhost ~]#

可以看到访问统计信息

# ipvsadm -L --stats

IP Virtual Server version 1.2.1 (size=4096)

Prot LocalAddress:Port               Conns   InPkts OutPkts  InBytes OutBytes

 -> RemoteAddress:Port

TCP 172.16.100.100:http               15       81       81    7392     8045

 -> 10.0.0.2:http                      7       35       35    3406     3832

 -> 10.0.0.3:http                      8       46       46    3986     4213

[root@localhost ~]#

Ipvs规则的保存:

ipvsadm -S > /etc/ipvs.conf

载入配置:

ipvsadm -R < /etc/ipvs.conf #下次启动的话,加入到开机启动即可

 

 

LVS-DR:直接路由

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Directory配置VIP

# cat /etc/sysconfig/network-scripts/ifcfg-eth0:0

DEVICE=eth0:0

TYPE=Ethernet

ONBOOT=yes

NM_CONTROLLED=yes

BOOTPROTO=none

IPADDR=172.16.100.200

NETMASK=255.255.255.0

GATEWAY=172.16.100.2

IPV6INIT=no

USERCTL=no

[root@localhost ~]#

配置路由:

# route add -host 172.16.100.200 dev eth0:0

RS服务器上千万记得不能先配置VIP地址,必须等关掉arp广播才可以配置

配置RS1服务器,首先关闭ARP报文功能:

# sysctl -w net.ipv4.conf.eth0.arp_announce=2

# sysctl -w net.ipv4.conf.all.arp_announce=2

# sysctl -w net.ipv4.conf.eth0.arp_ignore=1

# sysctl -w net.ipv4.conf.all.arp_ignore=1

或者

echo 1 >/proc/sys/net/ipv4/conf/all/arp_ignore

这样的形式都可以的

配置VIP地址:

#ifconfig lo:0 172.16.100.200 broadcast 172.16.100.200 netmask 255.255.255.255 up

# route add -host 172.16.100.200 dev lo:0

配置RS2服务器:

# sysctl -w net.ipv4.conf.eth0.arp_announce=2

# sysctl -w net.ipv4.conf.all.arp_announce=2

# sysctl -w net.ipv4.conf.eth0.arp_ignore=1

# sysctl -w net.ipv4.conf.all.arp_ignore=1

#ifconfig lo:0 172.16.100.200 broadcast 172.16.100.200 netmask 255.255.255.255 up

# route add -host 172.16.100.200 dev lo:0

 

LVS-Directory配置:

# ipvsadm -A -t 172.16.100.200:80 -s wlc

# ipvsadm -a -t 172.16.100.200:80 -r172.16.100.101 -g -w 2

# ipvsadm -a -t 172.16.100.200:80 -r172.16.100.102 -g -w 1

# ipvsadm -L -n

IP Virtual Server version 1.2.1 (size=4096)

Prot LocalAddress:Port Scheduler Flags

 -> RemoteAddress:Port          Forward Weight ActiveConn InActConn

TCP 172.16.100.200:80 wlc

 -> 172.16.100.101:80           Route   2      0         0        

 -> 172.16.100.102:80           Route   1      0         0         

[root@localhost ~]#

通过浏览器访问:

http://172.16.100.200就可以访问到RS1 RS2 两台服务器

这里提供两个脚本:

Directory的脚本:

#!/bin/bash

#

# LVS script for VS/DR

#

. /etc/rc.d/init.d/functions

#

VIP=172.16.100.200

RIP1=172.16.100.101

RIP2=172.16.100.102

PORT=80

 

#

case "$1" in

start)          

 

 /sbin/ifconfig eth0:1 $VIP broadcast $VIP netmask 255.255.255.255 up

 /sbin/route add -host $VIP dev eth0:1

 

# Since this is the Director we must beable to forward packets

 echo 1 > /proc/sys/net/ipv4/ip_forward

 

# Clear all iptables rules.

 /sbin/iptables -F

 

# Reset iptables counters.

 /sbin/iptables -Z

 

# Clear all ipvsadm rules/services.

 /sbin/ipvsadm -C

 

# Add an IP virtual service for VIP192.168.0.219 port 80

# In this recipe, we will use theround-robin scheduling method.

# In production, however, you should use aweighted, dynamic scheduling method.

 /sbin/ipvsadm -A -t $VIP:80 -s wlc

 

# Now direct packets for this VIP to

# the real server IP (RIP) inside thecluster

 /sbin/ipvsadm -a -t $VIP:80 -r $RIP1 -g -w 1

 /sbin/ipvsadm -a -t $VIP:80 -r $RIP2 -g -w 2

 

 /bin/touch /var/lock/subsys/ipvsadm &> /dev/null

;;

 

stop)

# Stop forwarding packets

 echo 0 > /proc/sys/net/ipv4/ip_forward

 

# Reset ipvsadm

 /sbin/ipvsadm -C

 

# Bring down the VIP interface

 /sbin/ifconfig eth0:1 down

 /sbin/route del $VIP

 

 /bin/rm -f /var/lock/subsys/ipvsadm

 

 echo "ipvs is stopped..."

;;

 

status)

  if[ ! -e /var/lock/subsys/ipvsadm ]; then

   echo "ipvsadm is stopped ..."

 else

    echo"ipvs is running ..."

   ipvsadm -L -n

  fi

;;

*)

 echo "Usage: $0 {start|stop|status}"

;;

esac

 

RS脚本:

#!/bin/bash

#

# Script to start LVS DR real server.

# description: LVS DR real server

#

. /etc/rc.d/init.d/functions

 

VIP=172.16.100.200

host=`/bin/hostname`

 

case "$1" in

start)

      # Start LVS-DR real server on this machine.

       /sbin/ifconfig lo down

       /sbin/ifconfig lo up

       echo 1 > /proc/sys/net/ipv4/conf/lo/arp_ignore

       echo 2 > /proc/sys/net/ipv4/conf/lo/arp_announce

       echo 1 > /proc/sys/net/ipv4/conf/all/arp_ignore

       echo 2 > /proc/sys/net/ipv4/conf/all/arp_announce

 

       /sbin/ifconfig lo:0 $VIP broadcast $VIP netmask 255.255.255.255 up

       /sbin/route add -host $VIP dev lo:0

 

;;

stop)

 

       # Stop LVS-DR real server loopback device(s).

       /sbin/ifconfig lo:0 down

       echo 0 > /proc/sys/net/ipv4/conf/lo/arp_ignore

       echo 0 > /proc/sys/net/ipv4/conf/lo/arp_announce

       echo 0 > /proc/sys/net/ipv4/conf/all/arp_ignore

        echo 0 >/proc/sys/net/ipv4/conf/all/arp_announce

 

;;

status)

 

       # Status of LVS-DR real server.

       islothere=`/sbin/ifconfig lo:0 | grep $VIP`

       isrothere=`netstat -rn | grep "lo:0" | grep $VIP`

       if [ ! "$islothere" -o ! "isrothere" ];then

           # Either the route or the lo:0 device

           # not found.

           echo "LVS-DR real server Stopped."

       else

           echo "LVS-DR real server Running."

       fi

;;

*)

           # Invalid entry.

           echo "$0: Usage: $0 {start|status|stop}"

           exit 1

;;

esac

 

 

 

使用以下脚本在Directory上进行主机的健康检查: 

#!/bin/bash

#

VIP=172.16.100.200

CPORT=80

FAIL_BACK=127.0.0.1

RS=("172.16.100.101""172.16.100.102")

declare-a RSSTATUS

RW=("2""1")

RPORT=80

TYPE=g

CHKLOOP=3

LOG=/var/log/ipvsmonitor.log

 

addrs(){

  ipvsadm -a -t $VIP:$CPORT -r $1:$RPORT -$TYPE-w $2

  [ $? -eq 0 ] && return 0 || return 1

}

 

delrs(){

  ipvsadm -d -t $VIP:$CPORT -r $1:$RPORT

  [ $? -eq 0 ] && return 0 || return 1

}

 

checkrs(){

  local I=1

  while [ $I -le $CHKLOOP ]; do

    if curl --connect-timeout 1 http://$1&> /dev/null; then

      return 0

    fi

    let I++

  done

  return 1

}

 

initstatus(){

  local I

  local COUNT=0;

  for I in ${RS[*]}; do

    if ipvsadm -L -n | grep"$I:$RPORT" && > /dev/null ; then

      RSSTATUS[$COUNT]=1

    else

      RSSTATUS[$COUNT]=0

    fi

  let COUNT++

  done

}

 

initstatus

while:; do

  let COUNT=0

  for I in ${RS[*]}; do

    if checkrs $I; then

      if [ ${RSSTATUS[$COUNT]} -eq 0 ]; then

         addrs $I ${RW[$COUNT]}

         [ $? -eq 0 ] &&RSSTATUS[$COUNT]=1 && echo "`date +‘%F %H:%M:%S‘`, $I isback." >> $LOG

      fi

    else

      if [ ${RSSTATUS[$COUNT]} -eq 1 ]; then

         delrs $I

         [ $? -eq 0 ] &&RSSTATUS[$COUNT]=0 && echo "`date +‘%F %H:%M:%S‘`, $I isgone." >> $LOG

      fi

    fi

    let COUNT++

  done

  sleep 5

done

LVS的持久化连接:

在基于SSL,需要用到持久连接

PPC:将来自同于一个客户端对同一个集群的请求,始终定向值前端选定的RS(持久端口端连接)

PCC:将来自同一客户端对所有端口的请求,始终定向至此前选定的RS(持久客户端连接)

把所有端口统统定义为集群服务,所有请求指向RS

PNMPP:持久防火墙标记连接。

PCC

# ipvsadm –C

# iptables –t mangle –A PREROUTING –d  172.16.100.200 –i eth0 –p tcp –dport 80 –j MARK–set-mark 8

# iptables –t mangle –A PREROUTING –d  172.16.100.200 –i eth0 –p tcp –dport 443 –j MARK–set-mark 8

# ipvsadm –A –f 8 –s rr –p 600

# ipvsadm –a –f 8 –r 172.16.100.101 –g –w 2

# ipvsadm –a –f 8 –r 172.16.100.102 –g –w 2

 


本文出自 “Sword Slave” 博客,请务必保留此出处http://diudiu.blog.51cto.com/6371183/1430812

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LVS-NAT && LVS-DR模型

标签:lvs-dr   lvs-nat   模型   

原文地址:http://diudiu.blog.51cto.com/6371183/1430812

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