lvs tunnel模式配置原理说明
在LVS的Tunnel模式里,数据包通过VIP地址到达LB后,会被重新封装,在原有数据报外加上RS的真实IP地址并发送给RS。RS在收到数据包(ipip-proto协议)后,会解包并将包直接转发给之前配置的tunl端口VIP地址。后续RS处理数据包后,将返回数据包直接发给给客户端而无需经过LB。
使用Tunnel模式的LVS相比NAT模式,从RS返回客户端的数据包不用经过LB,减轻了LB的压力。另一方面,相比于DR模式,RS和LB在网络上没有限制条件,网络上更加灵活。
实验环境:
client:10.1.1.1
LB:10.2.2.2(VIP:10.2.2.3:80)
RS:10.3.3.3(启用HTTP服务)
LB配置:
#ifconfig eth0:0 10.2.2.3 netmask 255.255.255.255 broadcast 10.2.2.3 up
#ipvsadm -A -t 10.2.2.3:80 -s rr
#ipvsadm -a -t 10.2.2.3:80 -r 10.3.3.3 -i (-i 为tunnel模式)
RS配置:
ifconfig tunl0 10.2.2.3 netmask 255.255.255.255 broadcast 10.2.2.3 up (设置漂移IP,注意此处一定是tunl0设备)
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
echo 1 >/proc/sys/net/ipv4/conf/default/rp_filter
从client使用命令curl 10.2.2.3,在LB和RS上抓包
LB上:
# tcpdump host 10.1.1.1 or host 10.3.3.3
tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
listening on eth0, link-type EN10MB (Ethernet), capture size 96 bytes
21:07:23.178051 IP 10.1.1.1.58749 > 10.2.2.3.http: S 954375443:954375443(0) win 5840
21:07:23.182300 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: S 954375443:954375443(0) win 5840(ipip-proto-4)
21:07:23.179795 IP 10.1.1.1.58749 > 10.2.2.3.http: . ack 3018764771 win 46
21:07:23.179804 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: . ack 1 win 46(ipip-proto-4)
21:07:23.179822 IP 10.1.1.1.58749 > 10.2.2.3.http: P 0:158(158) ack 1 win 46
21:07:23.179826 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: P 0:158(158) ack 1 win 46(ipip-proto-4)
21:07:23.182035 IP 10.1.1.1.tbsite.net.58749 > 10.2.2.3.http: . ack 283 win 54
21:07:23.182045 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: . ack 283 win 54(ipip-proto-4)
21:07:23.182150 IP 10.1.1.1.58749 > 10.2.2.3.http: F 158:158(0) ack 284 win 54
21:07:23.182155 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: F 158:158(0) ack 284 win 54(ipip-proto-4)
RS上:
# tcpdump host 10.2.2.2 or host 10.1.1.1 |grep -v vrrp
tcpdump: verbose output suppressed, use -v or -vv for full protocol decode
listening on eth0, link-type EN10MB (Ethernet), capture size 96 bytes
21:07:23.178964 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: S 954375443:954375443(0) win 5840(ipip-proto-4)
21:07:23.179006 IP 10.2.2.3.http > 10.1.1.1:58749: S 3018764770:3018764770(0) ack 954375444 win 5792
21:07:23.180837 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: . ack 1 win 46(ipip-proto-4)
21:07:23.180844 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: P 1:159(158) ack 1 win 46(ipip-proto-4)
21:07:23.180878 IP 10.2.2.3.http > 10.1.1.1.58749: . ack 159 win 54
21:07:23.181330 IP 10.2.2.3.http > 10.1.1.1.58749: P 1:283(282) ack 159 win 54
21:07:23.181460 IP 10.2.2.3.http > 10.1.1.1.58749: F 283:283(0) ack 159 win 54
21:07:23.182970 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: . ack 283 win 54(ipip-proto-4)
21:07:23.183084 IP 10.2.2.2 > 10.3.3.3: IP 10.1.1.1.58749 > 10.2.2.3.http: F 159:159(0) ack 284 win 54(ipip-proto-4)
21:07:23.183096 IP 10.2.2.3.http > 10.1.1.1.58749: . ack 160 win 54
看懂没,从RS返回client的包确实没有经过LB,而是直接发给了client。
学习 了 。
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