一.概述: 默认情况下,不管是Inside还是DMZ区映射到Outside区的地址或服务,Inside和DMZ区都无法通过映射后地址来访问内部
服务器。ASA8.3版本之后有一种新的NAT叫Twice-NAT,它可以在一个NAT语句中既匹配源地址,又匹配目标地址,并且可以对源地址、目标地址,端口号,三个参数中一~三个参数的转换。
二.基本思路:
A.Inside区映射到Outside区
①Outside区访问Inside区映射后的地址没有问题
②Inside区访问Inside区映射后的地址,通过Twice NAT做源地址和目标地址转换
---将源地址转换为Inside接口地址,目标地址转换为Inside设备实际地址
---如果不做源地址,因为访问的数据流来回路径不同,无法建立会话
③DMZ区访问Inside区映射后的地址,通过Twice NAT做目标地址转换
---将目标地址转换为Inside设备的实际地址
---因为两边都是实际地址,因此需要Inside和DMZ互相有对方的路由
---也可以同时做源地址转换,将源地址转换为Iniside接口地址,为了便于审计,不建议这样做
B.DMZ区映射到Outside区
①Outside区访问DMZ区映射后的地址没有问题
②Inside区访问DMZ区映射后的地址,通过Twice NAT做目标地址转换
---将目标地址转换为DMZ区设备的实际地址
---因为两边都是实际地址,因此需要Inside和DMZ互相有对方的路由
---也可以同时做源地址转换,将源地址转换为DMZ接口地址,为了便于审计,不建议这样做
---实际用模拟器测试,却发现不做源地址转换,经常报 -- bad sequence number的错误
---想不来为什么会报序列号错误,即使用MPF设置set connection random-sequence-number disable,也只是缓解,还是会偶尔出现,觉得可能是模拟器的缘故
③DMZ区访问DMZ区映射后的地址,通过Twice NAT做源地址和目标地址转换
---将源地址转换为DMZ接口地址,目标地址转换为DMZ区设备实际地址
---如果不做源地址,因为访问的数据流来回路径不同,无法建立会话
三.测试拓扑:
R1-----SW--(Inside)----ASA---(Outside)----R4
| |
| |
R2 R3(DMZ)
四.测试需求:
A.将R2的TCP23端口映射到ASA的Outside接口的23端口上
----要求R1~R4都能通访问ASA的Outside接口的23端口访问到R2的23端口
B.将R3的TCP23端口映射到ASA的Outside接口的2323端口上
----要求R1~R4都能通访问ASA的Outside接口的2323端口访问到R3的23端口
五.基本配置:
A.R1:
interface FastEthernet0/0
ip address 10.1.1.1 255.255.255.0
no shut
ip route 0.0.0.0 0.0.0.0 10.1.1.10
B.R2
interface FastEthernet0/0
ip address 10.1.1.2 255.255.255.0
no shut
ip route 0.0.0.0 0.0.0.0 10.1.1.10
line vty 0 4
password cisco
login
C.ASA:
interface GigabitEthernet0
nameif Inside
security-level 100
ip address 10.1.1.10 255.255.255.0
no shut
interface GigabitEthernet1
nameif DMZ
security-level 50
ip address 192.168.1.10 255.255.255.0
no shut
interface GigabitEthernet2
nameif Outside
security-level 0
ip address 202.100.1.10 255.255.255.0
no shut
D.R3:
interface FastEthernet0/0
ip address 192.168.1.3 255.255.255.0
no shut
ip route 0.0.0.0 0.0.0.0 192.168.1.10
line vty 0 4
password cisco
login
E.R4:
interface FastEthernet0/0
ip address 202.100.1.4 255.255.255.0
no shut
五.ASA的NAT及策略配置:
A.动态PAT允许Inside和DMZ区能访问公网
object network Inside-NET
subnet 10.1.1.0 255.255.255.0
nat (Inside,Outside) dynamic interface
object network DMZ-NET
subnet 192.168.1.0 255.255.255.0
nat (DMZ,Outside) dynamic interface
B.静态PAT将R2和R3映射出去:
object network Inside-R2
host 10.1.1.2
nat (Inside,Outside) static interface service tcp 23 23
object network DMZ-R3
host 192.168.1.3
nat (DMZ,Outside) static interface service tcp 23 2323
C.防火墙策略:
①开启icmp审查:
policy-map global_policy
class inspection_default
inspect icmp
②Outside口放行策略:
access-list OUTSIDE extended permit tcp any object Inside-R2 eq telnet
access-list OUTSIDE extended permit tcp any object DMZ-R3 eq telnet
access-group OUTSIDE in interface Outside
③DMZ口放行策略:
access-list DMZ extended permit tcp any object Inside-R2 eq telnet
access-list DMZ extended permit icmp any any
access-list DMZ extended deny ip any object Inside-NET
access-list DMZ extended permit ip any any
access-group DMZ in interface DMZ
---备注:这里只是测试,实际除非必要,尽量不要放行DMZ到Inside的访问,要放行也需要针对主机放行
D.测试:
①Inside区和DMZ区能访问公网:
R1#PING 202.100.1.4
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 202.100.1.4, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 4/80/168 ms
R2#ping 202.100.1.4
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 202.100.1.4, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 24/67/156 ms
R3#ping 202.100.1.4
Type escape sequence to abort.
Sending 5, 100-byte ICMP Echos to 202.100.1.4, timeout is 2 seconds:
!!!!!
Success rate is 100 percent (5/5), round-trip min/avg/max = 20/120/204 ms
②被映射后的端口只能被Outside区访问:
R4#TELNET 202.100.1.10 23
Trying 202.100.1.10 ... Open
User Access Verification
Password:
R2>show users
Line User Host(s) Idle Location
0 con 0 idle 00:55:06
* 66 vty 0 idle 00:00:00 202.100.1.4
Interface User Mode Idle Peer Address
R2>
R4#TELNET 202.100.1.10 2323
Trying 202.100.1.10, 2323 ... Open
User Access Verification
Password:
R3>show users
Line User Host(s) Idle Location
0 con 0 idle 00:51:12
* 66 vty 0 idle 00:00:00 202.100.1.4
Interface User Mode Idle Peer Address
R3>
R1#telnet 202.100.1.10
Trying 202.100.1.10 ...
% Connection timed out; remote host not responding
六.ASA的Twice NAT配置:
A.使得Inside区访问Inside区映射后的地址时,既做源地址转换,又做目标地址转换
①配置对象:
object network Public-R2
host 202.100.1.10
object service tcp23
service tcp destination eq telnet
②配置twice-NAT:
nat (Inside,Inside) source static any interface destination static Public-R2 Inside-R2 service tcp23 tcp23
③允许相同接口的访问:
same-security-traffic permit intra-interface
---因为访问时,既从Inside口进,又从Inside出,所以需要这条
④测试:
R1#telnet 202.100.1.10
Trying 202.100.1.10 ... Open
User Access Verification
Password:
R2>show users
Line User Host(s) Idle Location
0 con 0 idle 01:07:35
* 66 vty 0 idle 00:00:0010.1.1.10
Interface User Mode Idle Peer Address
R2>
R2#telnet 202.100.1.10
Trying 202.100.1.10 ... Open
User Access Verification
Password:
R2>show users
Line User Host(s) Idle Location
0 con 0 202.100.1.10 00:00:00
* 66 vty 0 idle 00:00:0010.1.1.10
Interface User Mode Idle Peer Address
B.使得Inside区访问DMZ区映射后的地址时,只做目标地址转换
①配置对象:
object network Public-R3
host 202.100.1.10
object network DMZ-R3
host 192.168.1.3
object service tcp2323
service tcp destination eq 2323
②配置twice-NAT:
nat (Inside,DMZ) source static any any destination static Public-R3 DMZ-R3 service tcp2323 tcp23
③测试:
R1#telnet 202.100.1.10 2323
Trying 202.100.1.10, 2323 ...
% Connection timed out; remote host not responding
R3#debug ip tcp packet port 23
TCP Packet debugging is on for port number 23
R3#
*Mar 1 13:18:25.648: tcp0: I LISTEN 10.1.1.1:17155 192.168.1.3:23 seq 1568429504
OPTS 4 SYN WIN 4128
*Mar 1 13:18:25.652: tcp0: O SYNRCVD 10.1.1.1:17155 192.168.1.3:23 seq 1603796811
OPTS 4 ACK 1568429505 SYN WIN 4128
*Mar 1 13:18:25.656: tcp0: I SYNRCVD 10.1.1.1:17155 192.168.1.3:23 seq 4193850862
OPTS 4 SYN WIN 4128
*Mar 1 13:18:25.660: tcp0: O SYNRCVD 10.1.1.1:17155 192.168.1.3:23 seq 1603796811
ACK 1568429505 WIN 4128
*Mar 1 13:18:25.660: TCP0: bad seg from 10.1.1.1 -- bad sequence number: port 23 seq 4193850862 ack 0 rcvnxt 1568429505 rcvwnd 4128 len 0
④解决方法:
---修改NAT,做源地址转换
nat (Inside,DMZ) source static any interface destination static Public-R3 DMZ-R3 service tcp2323 tcp23
⑤再次测试:
R1#telnet 202.100.1.10 2323
Trying 202.100.1.10, 2323 ... Open
User Access Verification
Password:
R3>show users
Line User Host(s) Idle Location
0 con 0 idle 00:02:15
* 66 vty 0 idle 00:00:00 192.168.1.10
Interface User Mode Idle Peer Address
R3>
R2#telnet 202.100.1.10 2323
Trying 202.100.1.10, 2323 ... Open
User Access Verification
Password:
R3>show users
Line User Host(s) Idle Location
0 con 0 idle 00:03:13
66 vty 0 idle 00:00:58 192.168.1.10
* 67 vty 1 idle 00:00:00 192.168.1.10
Interface User Mode Idle Peer Address
R3>
C.使得DMZ区访问Inside区映射后的地址时,只做目标地址转换
①配置对象:
---前面已经定义
②配置twice-NAT:
nat (DMZ,Inside) source static any any destination static Public-R2 Inside-R2 service tcp23 tcp23
③测试:
R3#telnet 202.100.1.10
Trying 202.100.1.10 ... Open
User Access Verification
Password:
R2>show users
Line User Host(s) Idle Location
0 con 0 202.100.1.10 00:02:49
* 66 vty 0 idle 00:00:00192.168.1.3
Interface User Mode Idle Peer Address
R2>
D.使得DMZ区访问DMZ区映射后的地址时,既做源地址转换,又做目标地址转换
①配置对象:
---前面已经定义
②配置twice-NAT:
nat (DMZ,DMZ) source static any interface destination static Public-R3 DMZ-R3 service tcp2323 tcp23
---前面已经配置:same-security-traffic permit intra-interface
④测试:
R3#telnet 202.100.1.10 2323
Trying 202.100.1.10, 2323 ... Open
User Access Verification
Password:
R3>show users
Line User Host(s) Idle Location
0 con 0 202.100.1.10 00:00:00
66 vty 0 idle 00:07:01 192.168.1.10
67 vty 1 idle 00:06:02 192.168.1.10
* 68 vty 2 idle 00:00:00 192.168.1.10
Interface User Mode Idle Peer Address
R3>