思科路由器广域网协议设置
思科(Cisco)路由器是通过何种方式,来提供超越基本数据访问的优势,并作为可实现最高生产率和投资回报的集成路由系统的一部分,提供话音、安全和无线等服务。下面小编准备了关于思科路由器广域网协议设置,欢迎大家参考!
一、HDLC
HDLC是CISCO路由器使用的缺省协议,一台新路由器在未指定封装协议时默认使用HDLC封装。
1. 有关命令
端口设置
| 任务 | 命令 |
| 设置HDLC封装 | encapsulation hdlc |
| 设置DCE端线路速度 | clockrate speed |
| 复位一个硬件接口 | clear interface serial unit |
| 显示接口状态 | show interfaces serial [unit] 1 |
Router#show interface serial 0
Serial 0 is up, line protocol is up
Hardware is MCI Serial
Internet address is 150.136.190.203, subnet mask is 255.255.255.0
MTU 1500 bytes, BW 1544 Kbit, DLY 20000 usec, rely 255/255, load 1/255
Encapsulation HDLC, loopback not set, keepalive set (10 sec)
Last input 0:00:07, output 0:00:00, output hang never
Output queue 0/40, 0 drops; input queue 0/75, 0 drops
Five minute input rate 0 bits/sec, 0 packets/sec
Five minute output rate 0 bits/sec, 0 packets/sec
16263 packets input, 1347238 bytes, 0 no buffer
Received 13983 broadcasts, 0 runts, 0 giants
2 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 2 abort
22146 packets output, 2383680 bytes, 0 underruns
0 output errors, 0 collisions, 2 interface resets, 0 restarts
1 carrier transitions
2. 举例
Router1:
interface Serial0
ip address 192.200.10.1 255.255.255.0
clockrate 1000000
Router2:
interface Serial0
ip address 192.200.10.2 255.255.255.0
!
3. 举例使用E1线路实现多个64K专线连接.
相关命令:
| 任务 | 命令 |
| 进入controller配置模式 | controller {t1 | e1} number |
| 选择帧类型 | framing {crc4 | no-crc4} |
| 选择line-code类型 | linecode {ami | b8zs | hdb3} |
| 建立逻辑通道组与时隙的映射 | channel-group number timeslots range1 |
| 显示controllers接口状态 | show controllers e1 [slot/port]2 |
2.使用show controllers e1观察controller状态,以下为帧类型为crc4时controllers正常的状态.
Router# show controllers e1
e1 0/0 is up.
Applique type is Channelized E1 - unbalanced
Framing is CRC4, Line Code is HDB3 No alarms detected.
Data in current interval (725 seconds elapsed):
0 Line Code Violations, 0 Path Code Violations
0 Slip Secs, 0 Fr Loss Secs, 0 Line Err Secs, 0 Degraded Mins
0 Errored Secs, 0 Bursty Err Secs, 0 Severely Err Secs, 0 Unavail Secs
Total Data (last 24 hours) 0 Line Code Violations, 0 Path Code Violations,
0 Slip Secs, 0 Fr Loss Secs, 0 Line Err Secs, 0 Degraded Mins,
0 Errored Secs, 0 Bursty Err Secs, 0 Severely Err Secs, 0 Unavail Secs
以下例子为E1连接3条64K专线, 帧类型为NO-CRC4,非平衡链路,路由器具体设置如下:
shanxi#wri t
Building configuration...
Current configuration:
!
version 11.2
no service udp-small-servers
no service tcp-small-servers
!
hostname shanxi
!
enable secret 5 $1$XN08$Ttr8nfLoP9.2RgZhcBzkk/
enable password shanxi
!
!
ip subnet-zero
!
controller E1 0
framing NO-CRC4
channel-group 0 timeslots 1
channel-group 1 timeslots 2
channel-group 2 timeslots 3
!
interface Ethernet0
ip address 133.118.40.1 255.255.0.0
media-type 10BaseT
!
interface Ethernet1
no ip address
shutdown
!
interface Serial0:0
ip address 202.119.96.1 255.255.255.252
no ip mroute-cache
!
interface Serial0:1
ip address 202.119.96.5 255.255.255.252
no ip mroute-cache
!
interface Serial0:2
ip address 202.119.96.9 255.255.255.252
no ip mroute-cache
!
no ip classless
ip route 133.210.40.0 255.255.255.0 Serial0:0
ip route 133.210.41.0 255.255.255.0 Serial0:1
ip route 133.210.42.0 255.255.255.0 Serial0:2
!
line con 0
line aux 0
line vty 0 4
password shanxi
login
!
end
二、PPP
PPP(Point-to-Point Protocol)是SLIP(Serial Line IP protocol)的继承者,它提供了跨过同步和异步电路实现路由器到路由器(router-to-router)和主机到网络(host-to-network)的连接。
CHAP(Challenge Handshake Authentication Protocol)和PAP(Password Authentication Protocol) (PAP)通常被用于在PPP封装的串行线路上提供安全性认证。使用CHAP和PAP认证,每个路由器通过名字来识别,可以防止未经授权的访问。
CHAP和PAP在RFC 1334上有详细的说明。
1. 有关命令
端口设置
| 任务 | 命令 |
| 设置PPP封装 | encapsulation ppp1 |
| 设置认证方法 | ppp authentication {chap | chap pap | pap chap | pap} [if-needed] [list-name | default] [callin] |
| 指定口令 | username name password secret |
| 设置DCE端线路速度 | clockrate speed |
2. 举例
路由器Router1和Router2的S0口均封装PPP协议,采用CHAP做认证,在Router1中应建立一个用户,以对端路由器主机名作为用户名,即用户名应为router2。同时在Router2中应建立一个用户,以对端路由器主机名作为用户名,即用户名应为router1。所建的这两用户的password必须相同。
设置如下:
Router1:
hostname router1
username router2 password xxx
interface Serial0
ip address 192.200.10.1 255.255.255.0
clockrate 1000000
ppp authentication chap
!
Router2:
hostname router2
username router1 password xxx
interface Serial0
ip address 192.200.10.2 255.255.255.0
ppp authentication chap
三、x.25
1. X25技术
X.25规范对应OSI三层,X.25的第三层描述了分组的格式及分组交换的过程。X.25的第二层由LAPB(Link Access Procedure, Balanced)实现,它定义了用于DTE/DCE连接的帧格式。X.25的第一层定义了电气和物理端口特性。
X.25网络设备分为数据终端设备(DTE)、数据电路终端设备(DCE)及分组交换设备(PSE)。DTE是X.25的末端系统,如终端、计算机或网络主机,一般位于用户端,Cisco路由器就是DTE设备。DCE设备是专用通信设备,如调制解调器和分组交换机。PSE是公共网络的主干交换机。
X.25定义了数据通讯的电话网络,每个分配给用户的x.25 端口都具有一个x.121地址,当用户申请到的是SVC(交换虚电路)时,x.25一端的用户在访问另一端的用户时,首先将呼叫对方x.121地址,然后接收到呼叫的一端可以接受或拒绝,如果接受请求,于是连接建立实现数据传输,当没有数据传输时挂断连接,整个呼叫过程就类似我们拨打普通电话一样,其不同的是x.25可以实现一点对多点的连接。其中x.121地址、htc均必须与x.25服务提供商分配的参数相同。X.25 PVC(永久虚电路),没有呼叫的过程,类似DDN专线。
2. 有关命令:
| 任务 | 命令 |
| 设置X.25封装 | encapsulation x25 [dce] |
| 设置X.121地址 | x25 address x.121-address |
| 设置远方站点的地址映射 | x25 map protocol address [protocol2address2[...[protocol9 address9]]]x121-address [option] |
| 设置最大的双向虚电路数 | x25 htc citcuit-number1 |
| 设置一次连接可同时建立的虚电路数 | x25 nvc count2 |
| 设置x25在清除空闲虚电路前的等待周期 | x25 idle minutes |
| 重新启动x25,或清一个svc,启动一个pvc相关参数 | clear x25 {serial number | cmns-interface mac-address} [vc-number] 3 |
| 清x25虚电路 | clear x25-vc |
| 显示接口及x25相关信息 |
show interfaces serial show x25 interface show x25 map show x25 vc |
2、虚电路计数从1到8,缺省为1。
3、在改变了x.25各层的相关参数后,应重新启动x25(使用clear x25 {serial number | cmns-interface mac-address} [vc-number]或clear x25-vc命令),否则新设置的参数可能不能生效。同时应对照服务提供商对于x.25交换机端口的设置来配置路由器的相关参数,若出现参数不匹配则可能会导致连接失败或其它意外情况。
3. 实例:
3.1. 在以下实例中每二个路由器间均通过svc实现连接。
路由器设置如下:
Router1:
interface Serial0
encapsulation x25
ip address 192.200.10.1 255.255.255.0
x25 address 110101
x25 htc 16
x25 nvc 2
x25 map ip 192.200.10.2 110102 broadcast
x25 map ip 192.200.10.3 110103 broadcast
!
Router2:
interface Serial0
encapsulation x25
ip address 192.200.10.2 255.255.255.0
x25 address 110102
x25 htc 16
x25 nvc 2
x25 map ip 192.200.10.1 110101 broadcast
x25 map ip 192.200.10.3 110103 broadcast
!
Router:
interface Serial0
encapsulation x25
ip address 192.200.10.3 255.255.255.0
x25 address 110103
x25 htc 16
x25 nvc 2
x25 map ip 192.200.10.1 110101 broadcast
x25 map ip 192.200.10.2 110102 broadcast
!
相关调试命令:
clear x25-vc
show interfaces serial
show x25 map
show x25 route
show x25 vc
3.2. 在以下实例中路由器router1和router2均通过svc与router连接,但router1和router2不通过svc直接连接,此三个路由器的串口运行RIP路由协议,使用了子接口的概念。由于使用子接口,router1和router2均学习到了访问对方局域网的路径,若不使用子接口,router1和router2将学不到到对方局域网的路由。
子接口(Subinterface)是一个物理接口上的多个虚接口,可以用于在同一个物理接口上连接多个网。我们知道为了避免路由循环,路由器支持split horizon法则,它只允许路由更新被分配到路由器的其它接口,而不会再分配路由更新回到此路由被接收的接口。
无论如何,在广域网环境使用基于连接的接口(象 X.25和Frame Relay),同一接口通过虚电路(vc)连接多台远端路由器时,从同一接口来的路由更新信息不可以再被发回到相同的接口,除非强制使用分开的物理接口连接不同的路由器。Cisco提供子接口(subinterface)作为分开的接口对待。你可以将路由器逻辑地连接到相同物理接口的不同子接口, 这样来自不同子接口的.路由更新就可以被分配到其他子接口,同时又满足split horizon法则。
Router1:
interface Serial0
encapsulation x25
ip address 192.200.10.1 255.255.255.0
x25 address 110101
x25 htc 16
x25 nvc 2
x25 map ip 192.200.10.3 110103 broadcast
!
router rip
network 192.200.10.0
!
Router2:
interface Serial0
encapsulation x25
ip address 192.200.11.2 255.255.255.0
x25 address 110102
x25 htc 16
x25 nvc 2
x25 map ip 192.200.11.3 110103 broadcast
!
router rip
network 192.200.11.0
!
Router:
interface Serial0
encapsulation x25
x25 address 110103
x25 htc 16
x25 nvc 2
!
interface Serial0.1 point-to-point
ip address 192.200.10.3 255.255.255.0
x25 map ip 192.200.10.1 110101 broadcast
!
interface Serial0.2 point-to-point
ip address 192.200.11.3 255.255.255.0
x25 map ip 192.200.11.2 110102 broadcast
!
router rip
network 192.200.10.0
network 192.200.11.0
四、Frame Relay
1. 帧中继技术
帧中继是一种高性能的WAN协议,它运行在OSI参考模型的物理层和数据链路层。它是一种数据包交换技术,是X.25的简化版本。它省略了X.25的一些强健功能,如提供窗口技术和数据重发技术,而是依靠高层协议提供纠错功能,这是因为帧中继工作在更好的WAN设备上,这些设备较之X.25的WAN设备具有更可靠的连接服务和更高的可靠性,它严格地对应于OSI参考模型的最低二层,而X.25还提供第三层的服务,所以,帧中继比X.25具有更高的性能和更有效的传输效率。
帧中继广域网的设备分为数据终端设备(DTE)和数据电路终端设备(DCE),Cisco路由器作为 DTE设备。
帧中继技术提供面向连接的数据链路层的通信,在每对设备之间都存在一条定义好的通信链路,且该链路有一个链路识别码。这种服务通过帧中继虚电路实现,每个帧中继虚电路都以数据链路识别码(DLCI)标识自己。DLCI的值一般由帧中继服务提供商指定。帧中继即支持PVC也支持SVC。
帧中继本地管理接口(LMI)是对基本的帧中继标准的扩展。它是路由器和帧中继交换机之间信令标准,提供帧中继管理机制。它提供了许多管理复杂互联网络的特性,其中包括全局寻址、虚电路状态消息和多目发送等功能。
2. 有关命令:
端口设置
| 任务 | 命令 |
| 设置Frame Relay封装 | encapsulation frame-relay[ietf] 1 |
| 设置Frame Relay LMI类型 | frame-relay lmi-type {ansi | cisco | q933a}2 |
| 设置子接口 | interface interface-type interface-number.subinterface-number [multipoint|point-to-point] |
| 映射协议地址与DLCI | frame-relay map protocol protocol-address dlci [broadcast]3 |
| 设置FR DLCI编号 | frame-relay interface-dlci dlci[broadcast] |
2.从Cisco IOS版本11.2开始,软件支持本地管理接口(LMI)“自动感觉”, “自动感觉”使接口能确定交换机支持的LMI类型,用户可以不明确配置LMI接口类型。
3.broadcast选项允许在帧中继网络上传输路由广播信息。
3. 帧中继point to point配置实例:
Router1:
interface serial 0
encapsulation frame-relay
!
interface serial 0.1 point-to-point
ip address 172.16.1.1 255.255.255.0
frame-reply interface-dlci 105
!
interface serial 0.2 point-to-point
ip address 172.16.2.1 255.255.255.0
frame-reply interface-dlci 102
!
interface serial 0.3 point-to-point
ip address 172.16.4.1 255.255.255.0
frame-reply interface-dlci 104
!
Router2:
interface serial 0
encapsulation frame-relay
!
interface serial 0.1 point-to-point
ip address 172.16.2.2 255.255.255.0
frame-reply interface-dlci 201
!
interface serial 0.2 point-to-point
ip address 172.16.3.1 255.255.255.0
frame-reply interface-dlci 203
!
相关调试命令:
show frame-relay lmi
show frame-relay map
show frame-relay pvc
show frame-relay route
show interfaces serial
go top
4. 帧中继 Multipoint 配置实例:
Router1:
interface serial 0
encapsulation frame-reply
!
interface serial 0.1 multipoint
ip address 172.16.1.2 255.255.255.0
frame-reply map ip 172.16.1.1 201 broadcast
frame-reply map ip 172.16.1.3 301 broadcast
frame-reply map ip 172.16.1.4 401 broadcast
!
Router2:
interface serial 0
encapsulation frame-reply
!
interface serial 0.1 multipoint
ip address 172.16.1.1 255.255.255.0
frame-reply map ip 172.16.1.2 102 broadcast
frame-reply map ip 172.16.1.3 102 broadcast
frame-reply map ip 172.16.1.4 102 broadcast
!
五、ISDN
1. 综合数字业务网(ISDN)
综合数字业务网(ISDN)由数字电话和数据传输服务两部分组成,一般由电话局提供这种服务。ISDN的基本速率接口(BRI)服务提供2个B信道和1个D信道(2B+D)。BRI的B信道速率为64Kbps,用于传输用户数据。D信道的速率为16Kbps,主要传输控制信号。在北美和日本,ISDN的主速率接口(PRI)提供23个B信道和1个D信道,总速率可达1.544Mbps,其中D信道速率为64Kbps。而在欧洲、澳大利亚等国家,ISDN的PRI提供30个B信道和1个64Kbps D信道,总速率可达2.048Mbps。我国电话局所提供ISDN PRI为30B+D。
2. 基本命令
| 任务 | 命令 |
| 设置ISDN交换类型 | isdn switch-type switch-type1 |
| 接口设置 | interface bri 0 |
| 设置PPP封装 | encapsulation ppp |
| 设置协议地址与电话号码的映射 | dialer map protocol next-hop-address[name hostname] [broadcast] [dial-string] |
| 启动PPP多连接 | ppp multilink |
| 设置启动另一个B通道的阈值 | dialer load-threshold load |
| 显示ISDN有关信息 | show isdn {active | history | memory | services | status [dsl | interface-type number] | timers} |
| 按区域分关键字 | 交换机类型 |
| Australia | |
| basic-ts013 | Australian TS013 switches |
| Europe | |
| basic-1tr6 | German 1TR6 ISDN switches |
| basic-nwnet3 | Norway NET3 switches (phase 1) |
| basic-net3 | NET3 ISDN switches (UK, Denmark, and other nations); covers the Euro-ISDN E-DSS1 signalling system |
| primary-net5 | NET5 switches (UK and Europe) |
| vn2 | French VN2 ISDN switches |
| vn3 | French VN3 ISDN switches |
| Japan | |
| ntt | Japanese NTT ISDN switches |
| primary-ntt | Japanese ISDN PRI switches |
| North America | |
| basic-5ess | AT&T basic rate switches |
| basic-dms100 | NT DMS-100 basic rate switches |
| basic-ni1 | National ISDN-1 switches |
| primary-4ess | AT&T 4ESS switch type for the U.S. (ISDN PRI only) |
| primary-5ess | AT&T 5ESS switch type for the U.S. (ISDN PRI only) |
| primary-dms100 | NT DMS-100 switch type for the U.S. (ISDN PRI only) |
| New Zealand | |
| basic-nznet3 | New Zealand Net3 switches |
设置如下:
Router1:
hostname router1
user router2 password cisco
!
isdn switch-type basic-net3
!
interface bri 0
ip address 192.200.10.1 255.255.255.0
encapsulation ppp
dialer map ip 192.200.10.2 name router2 572
dialer load-threshold 80
ppp multilink
dialer-group 1
ppp authentication chap
!
dialer-list 1 protocol ip permit
!
Router2:
hostname router2
user router1 password cisco
!
isdn switch-type basic-net3
!
interface bri 0
ip address 192.200.10.2 255.255.255.0
encapsulation ppp
dialer map ip 192.200.10.1 name router1 571
dialer load-threshold 80
ppp multilink
dialer-group 1
ppp authentication chap
!
dialer-list 1 protocol ip permit
!
Cisco路由器同时支持回拨功能,我们将路由器Router1作为Callback Server,Router2作为Callback Client。
与回拨相关命令:
| 任务 | 命令 |
| 映射协议地址和电话号码,并在接口上使用在全局模式下定义的PPP回拨的映射类别。 | dialer map protocol address namehostname class classname dial-string |
| 设置接口支持PPP回拨 | ppp callback accept |
| 在全局模式下为PPP回拨设置映射类别 | map-class dialer classname |
| 通过查找注册在dialer map里的主机名来决定回拨. | dialer callback-server [username] |
| 设置接口要求PPP回拨 | ppp callback request |
Router1:
hostname router1
user router2 password cisco
!
isdn switch-type basic-net3
!
interface bri 0
ip address 192.200.10.1 255.255.255.0
encapsulation ppp
dialer map ip 192.200.10.2 name router2 class s3 572
dialer load-threshold 80
ppp callback accept
ppp multilink
dialer-group 1
ppp authentication chap
!
map-class dialer s3
dialer callback-server username
dialer-list 1 protocol ip permit
!
Router2:
hostname router2
user router1 password cisco
!
isdn switch-type basic-net3
!
interface bri 0
ip address 192.200.10.2 255.255.255.0
encapsulation ppp
dialer map ip 192.200.10.1 name router1 571
dialer load-threshold 80
ppp callback request
ppp multilink
dialer-group 1
ppp authentication chap
!
dialer-list 1 protocol ip permit
!
相关调试命令:
debug dialer
debug isdn event
debug isdn q921
debug isdn q931
debug ppp authentication
debug ppp error
debug ppp negotiation
debug ppp packet
show dialer
show isdn status
举例:执行debug dialer命令观察router2呼叫router1,router1回拨router2的过程.
router1#debug dialer
router2#ping 192.200.10.1
router1#
00:03:50: %LINK-3-UPDOWN: Interface BRI0:1, changed state to up
00:03:50: BRI0:1:PPP callback Callback server starting to router2 572
00:03:50: BRI0:1: disconnecting call
00:03:50: %LINK-3-UPDOWN: Interface BRI0:1, changed state to down
00:03:50: BRI0:1: disconnecting call
00:03:50: BRI0:1: disconnecting call
00:03:51: %LINK-3-UPDOWN: Interface BRI0:2, changed state to up
00:03:52: callback to router2 already started
00:03:52: BRI0:2: disconnecting call
00:03:52: %LINK-3-UPDOWN: Interface BRI0:2, changed state to down
00:03:52: BRI0:2: disconnecting call
00:03:52: BRI0:2: disconnecting call
00:04:05: : Callback timer expired
00:04:05: BRI0:beginning callback to router2 572
00:04:05: BRI0: Attempting to dial 572
00:04:05: Freeing callback to router2 572
00:04:05: %LINK-3-UPDOWN: Interface BRI0:1, changed state to up
00:04:05: BRI0:1: No callback negotiated
00:04:05: %LINK-3-UPDOWN: Interface Virtual-Access1, changed state to up
00:04:05: dialer Protocol up for Vi1
00:04:06: %LINEPROTO-5-UPDOWN: Line protocol on Interface BRI0:1, changed state
to up
00:04:06: %LINEPROTO-5-UPDOWN: Line protocol on Interface Virtual-Access1, chang
ed state to up
00:04:11: %ISDN-6-CONNECT: Interface BRI0:1 is now connected to 572
#router1
4. ISDN访问首都在线263网实例:
本地局部网地址为10.0.0.0/24,属于保留地址,通过NAT地址翻译功能,局域网用户可以通过ISDN上263网访问Internet。263的ISDN电话号码为2633,用户为263,口令为263,所涉及的命令如下表:
| 任务 | 命令 |
| 指定接口通过PPP/IPCP地址协商获得IP地址 | ip address negotiated |
| 指定内部和外部端口 | ip nat {inside | outside} |
| 使用ppp/pap作认证 | ppp authentication pap callin |
| 指定接口属于拨号组1 | dialer-group 1 |
| 定义拨号组1允许所有IP协议 | dialer-list 1 protocol ip permit |
| 设定拨号,号码为2633 | dialer string 2633 |
| 设定登录263的用户名和口令 | ppp pap sent-username 263 password 263 |
| 设定默认路由 | ip route 0.0.0.0 0.0.0.0 bri 0 |
| 设定符合访问列表2的所有源地址被翻译为bri 0所拥有的地址 | ip nat inside source list 2 interface bri 0 overload |
| 设定访问列表2,允许所有协议 | access-list 2 permit any |
hostname Cisco2503
!
isdn switch-type basic-net3
!
ip subnet-zero
no ip domain-lookup
ip routing
!
interface Ethernet 0
ip address 10.0.0.1 255.255.255.0
ip nat inside
no shutdown
!
interface Serial 0
shutdown
no description
no ip address
!
interface Serial 1
shutdown
no description
no ip address
!
interface bri 0
ip address negotiated
ip nat outside
encapsulation ppp
ppp authentication pap callin
ppp multilink
dialer-group 1
dialer hold-queue 10
dialer string 2633
dialer idle-timeout 120
ppp pap sent-username 263 password 263
no cdp enable
no ip split-horizon
no shutdown
!
ip classless
!
! Static Routes
!
ip route 0.0.0.0 0.0.0.0 bri 0
!
! Access Control List 2
!
access-list 2 permit any
!
dialer-list 1 protocol ip permit
!
! Dynamic NAT
!
ip nat inside source list 2 interface bri 0 overload
snmp-server community public ro
!
line console 0
exec-timeout 0 0
!
line vty 0 4
!
end
5. Cisco765M通过ISDN拨号上263
由于Cisco765的设置命令与我们常用的Cisco路由器的命令不同,所以以下列举了通过Cisco765上263访问Internet的具体命令行设置步骤。
>set system c765
c765> set multidestination on
c765> set switch net3
c765> set ppp multilink on
c765> cd lan
c765:LAN> set ip routing on
c765:LAN> set ip address 10.0.0.1
c765:LAN> set ip netmask 255.0.0.0
c765:LAN> set briding off
c765:LAN>cd
c765> set user remotenet
New user remotenet being created
c765:remotenet> set ip routing on
c765:remotenet> set bridging off
c765:remotenet> set ip framing none
c765:remotenet> set ppp clientname 263
c765:remotenet> set ppp password client
Enter new Password: 263
Re-Type new Password: 263
c765:remotenet> set ppp authentication out none
c765:remotenet> set ip address 0.0.0.0
c765:remotenet> set ip netmask 0.0.0.0
c765:remotenet> set ppp address negotiation local on
c765:remotenet> set ip pat on
c765:remotenet> set ip route destination 0.0.0.0/0 gateway 0.0.0.0
c765:remotenet> set number 2633
c765:remotenet> set active
命令描述如下:
| 任务 | 命令 |
| 设置路由器系统名称 | set system c765 |
| 允许路由器呼叫多个目的地 | set multidestination on |
| 设置ISDN交换机类型为NET3 | set switch net3 |
| 允许点到点间多条通道连接实现负载均衡 | set ppp multilink on |
| 关掉桥接 | set briding off |
| 建立用户预制文件用于设置拨号连接参数- 可以设置多个用户预制文件用于相同的物理端口对应于不同的连接。 | set user remotenet |
| 使用PPP/IPCP | set ip framing none |
| 设置上网用户帐号 | set ppp clientname 263 |
| 设置上网口令 |
set ppp password client Enter new Password: 263 Re-Type new Password: 263 |
| 不用PPP/CHAP或PAP做认证 | set ppp authentication out none |
| 允许地址磋商 | set ppp address negotiation local on |
| 设置地址翻译 | set ip pat on |
| 设置默认路由 | set ip route destination 0.0.0.0/0 gateway 0.0.0.0 |
| 设置ISP的电话号码 | set number 2633 |
| 激活用户预制文件 | set active |
电话网络(PSTN)是目前普及程度最高、成本最低的公用通讯网络,它在网络互连中也有广泛的应用。电话网络的应用一般可分为两种类型,一种是同等级别机构之间以按需拨号(DDR)的方式实现互连,一种是ISP为拨号上网为用户提供的远程访问服务的功能。
1. 远程访问
1.1.Access Server基本设置:
选用Cisco2511作为访问服务器,采用IP地址池动态分配地址.远程工作站使用WIN95拨号网络实现连接。
全局设置:
| 任务 | 命令 |
| 设置用户名和密码 | username username password password |
| 设置用户的IP地址池 | ip local pool {default | pool-name low-ip-address [high-ip-address]} |
| 指定地址池的工作方式 | ip address-pool [dhcp-proxy-client | local] |
| 任务 | 命令 |
| 设置封装形式为PPP | encapsulation ppp |
| 启动异步口的路由功能 | async default routing |
| 设置异步口的PPP工作方式 | async mode {dedicated | interactive} |
| 设置用户的IP地址 | peer default ip address {ip-address | dhcp | pool [pool-name]} |
| 设置IP地址与Ethernet0相同 | ip unnumbered ethernet0 |
| 任务 | 命令 |
| 设置modem的工作方式 | modem {inout|dialin} |
| 自动配置modem类型 | modem autoconfig discovery |
| 设置拨号线的通讯速率 | speed speed |
| 设置通讯线路的流控方式 | flowcontrol {none | software [lock] [in | out] | hardware [in | out]} |
| 连通后自动执行命令 | autocommand command |
Router:
hostname Router
enable secret 5 $1$EFqU$tYLJLrynNUKzE4bx6fmH//
!
interface Ethernet0
ip address 10.111.4.20 255.255.255.0
!
interface Async1
ip unnumbered Ethernet0
encapsulation ppp
keepalive 10
async mode interactive
peer default ip address pool Cisco2511-Group-142
!
ip local pool Cisco2511-Group-142 10.111.4.21 10.111.4.36
!
line con 0
exec-timeout 0 0
password cisco
!
line 1 16
modem InOut
modem autoconfigure discovery
flowcontrol hardware
!
line aux 0
transport input all
line vty 0 4
password cisco
!
end
相关调试命令:
show interface
show line
1.2. Access Server通过Tacacs服务器实现安全认证:
使用一台WINDOWS NT服务器作为Tacacs服务器,地址为10.111.4.2,运行Cisco2511随机带的Easy ACS 1.0软件实现用户认证功能.
相关设置:
| 任务 | 命令 |
| 激活AAA访问控制 | aaa new-model |
| 用户登录时默认起用Tacacs+做AAA认证 | aaa authentication login default tacacs+ |
| 列表名为no_tacacs使用ENABLE口令做认证 | aaa authentication login no_tacacs enable |
| 在运行PPP的串行线上采用Tacacs+做认证 | aaa authentication ppp default tacacs+ |
| 由TACACS+服务器授权运行EXEC | aaa authorization exec tacacs+ |
| 由TACACS+服务器授权与网络相关的服务请求。 | aaa authorization network tacacs+ |
| 为EXEC会话运行记帐.进程开始和结束时发通告给TACACS+服务器。 | aaa accounting exec start-stop tacacs+ |
| 为与网络相关的服务需求运行记帐包括SLIP,PPP,PPP NCPs,ARAP等.在进程开始和结束时发通告给TACACS+服务器。 | aaa accounting network start-stop tacacs+ |
| 指定Tacacs服务器地址 | tacacs-server host 10.111.4.2 |
| 在Tacacs+服务器和访问服务器设定共享的关键字,访问服务器和Tacacs+服务器使用这个关键字去加密口令和响应信息。这里使用tac作为关键字。 | tacacs-server key tac |
hostname router
!
aaa new-model
aaa authentication login default tacacs+
aaa authentication login no_tacacs enable
aaa authentication ppp default tacacs+
aaa authorization exec tacacs+
aaa authorization network tacacs+
aaa accounting exec start-stop tacacs+
aaa accounting network start-stop tacacs+
enable secret 5 $1$kN4g$CvS4d2.rJzWntCnn/0hvE0
!
interface Ethernet0
ip address 10.111.4.20 255.255.255.0
!
interface Serial0
no ip address
shutdown
interface Serial1
no ip address
shutdown
!
interface Group-Async1
ip unnumbered Ethernet0
encapsulation ppp
async mode interactive
peer default ip address pool Cisco2511-Group-142
no cdp enable
group-range 1 16
!
ip local pool Cisco2511-Group-142 10.111.4.21 10.111.4.36
tacacs-server host 10.111.4.2
tacacs-server key tac
!
line con 0
exec-timeout 0 0
password cisco
login authentication no_tacacs
line 1 16
login authentication tacacs
modem InOut
modem autoconfigure type usr_courier
autocommand ppp
transport input all
stopbits 1
rxspeed 115200
txspeed 115200
flowcontrol hardware
line aux 0
transport input all
line vty 0 4
password cisco
!
end
2. DDR(dial-on-demand routing)实例
此例通过Cisco 2500系列路由器的aux端口实现异步拨号DDR连接。Router1拨号连接到Router2。其中采用PPP/CHAP做安全认证,在Router1中应建立一个用户,以对端路由器主机名作为用户名,即用户名应为Router2。同时在Router2中应建立一个用户,以对端路由器主机名作为用户名,即用户名应为Router1。所建的这两用户的password必须相同。
相关命令如下:
| 任务 | 命令 |
| 设置路由器与modem的接口指令 | chat-script script-name EXPECT SEND EXPECT SEND (etc.) |
| 设置端口在挂断前的等待时间 | dialer idle-timeout seconds |
| 设置协议地址与电话号码的映射 |
dialer map protocol next-hop-address[name hostname] [broadcast] [modem-script modem-regexp] [system-script system-regexp] [dial-string] |
| 设置电话号码 | dialer string dial-string |
| 指定在特定线路下路由器默认使用的chat-script | script {dialer|reset} script-name |
hostname Router1
!
enable secret 5 $1$QKI7$wXjpFqC74vDAyKBUMallw/
!
username Router2 password cisco
chat-script cisco-default "" "AT" TIMEOUT 30 OK "ATDT \T" TIMEOUT 30 CONNECT \c
!
interface Ethernet0
ip address 10.0.0.1 255.255.255.0
!
interface Async1
ip address 192.200.10.1 255.255.255.0
encapsulation ppp
async default routing
async mode dedicated
dialer in-band
dialer idle-timeout 60
dialer map ip 192.200.10.2 name Router2 modem-script cisco-default 573
dialer-group 1
ppp authentication chap
!
ip route 10.0.1.0 255.255.255.0 192.200.10.2
dialer-list 1 protocol ip permit
!
line con 0
line aux 0
modem InOut
modem autoconfigure discovery
flowcontrol hardware
Router2:
hostname Router2
!
enable secret 5 $1$F6EV$5U8puzNt2/o9g.t56PXHo.
!
username Router1 password cisco
!
interface Ethernet0
ip address 10.0.1.1 255.255.255.0
!
interface Async1
ip address 192.200.10.2 255.255.255.0
encapsulation ppp
async default routing
async mode dedicated
dialer in-band
dialer idle-timeout 60
dialer map ip 192.200.10.1 name Router1
dialer-group 1
ppp authentication chap
!
ip route 10.0.0.0 255.255.255.0 192.200.10.1
dialer-list 1 protocol ip permit
!
line con 0
line aux 0
modem InOut
modem autoconfigure discovery
flowcontrol hardware
!
相关调试命令:
debug dialer
debug ppp authentication
debug ppp error
debug ppp negotiation
debug ppp packet
show dialer
3. 异步拨号备份DDN专线:
此例主连接采用DDN专线,备份线路为电话拨号。当DDN专线连接正常时,主端口S0状态为up,line protocol亦为up,则备份线路状态为standby,line protocol为down,此时所有通信均通过主接口进行。当主接口连接发生故障时,端口状态为down,则激活备份接口,完成数据通信。此方法不适合为X.25做备份。因为,配置封装为X.25的接口只要和X.25交换机之间的连接正常其接口及line protocol的状态亦为 up,它并不考虑其它地方需与之通信的路由器的状态如何,所以若本地路由器状态正常,而对方路由器连接即使发生故障,本地也不会激活备份线路。例4将会描述如何为X.25做拨号备份。
以下是相关命令:
| 任务 | 命令 |
| 指定主线路改变后,次线路状态发生改变的延迟时间 | backup delay {enable-delay | never} {disable-delay | never} |
| 指定一个接口作为备份接口 | backup interface type number |
!
enable secret 5 $1$J5vn$ceYDe2FwPhrZi6qsIIz6g0
enable password cisco
!
username c4700 password 0 cisco
ip subnet-zero
chat-script cisco-default "" "AT" TIMEOUT 30 OK "ATDT \T" TIMEOUT 30 CONNECT \c
chat-script reset atz
!
interface Ethernet0
ip address 16.122.51.254 255.255.255.0
no ip mroute-cache
!
interface Serial0
backup delay 10 10
backup interface Serial2
ip address 16.250.123.18 255.255.255.252
no ip mroute-cache
no fair-queue
!
interface Serial1
no ip address
no ip mroute-cache
shutdown
!
interface Serial2
physical-layer async
ip address 16.249.123.18 255.255.255.252
encapsulation ppp
async mode dedicated
dialer in-band
dialer idle-timeout 60
dialer map ip 16.249.123.17 name c4700 6825179
dialer-group 1
ppp authentication chap
!
interface Serial3
no ip address
shutdown
no cdp enable
!
interface Serial4
no ip address
shutdown
no cdp enable
!
interface Serial5
no ip address
no ip mroute-cache
shutdown
!
interface Serial6
no ip address
no ip mroute-cache
shutdown
!
interface Serial7
no ip address
no ip mroute-cache
shutdown
!
interface Serial8
no ip address
no ip mroute-cache
shutdown
!
interface Serial9
no ip address
no ip mroute-cache
shutdown
!
interface BRI0
no ip address
no ip mroute-cache
shutdown
!
router eigrp 200
network 16.0.0.0
!
ip classless
!
dialer-list 1 protocol ip permit
!
line con 0
line 2
script dialer cisco-default
script reset reset
modem InOut
modem autoconfigure discovery
rxspeed 38400
txspeed 38400
flowcontrol hardware
line aux 0
line vty 0 4
password cisco
login
!
end
c2522rb#
4. 异步拨号备份X.25:
设置X.25的拨号备份,首先X.25连接的端口必须运行动态路由协议,异步拨号口必须使用静态路由.本例选择EIGRP作为路由选择协议,将静态路由的Metric的值设置为200,由于EIGRP的默认Metric为90,所以当同时有两条路径通往同一网段时,其中Metric值小的路径生效,而当X.25连接出现问题时,路由器无法通过路由协议学习到路由表,则此时静态路由生效,访问通过拨号端口实现。当X.25连接恢复正常时,路由器又可以学习到路由表,则由于 Metric值的不同,静态路由自动被动态路由所代替,这样就实现了备份的功能。
路由器Router1配置如下:
hostname router1
!
enable secret 5 $1$UTvD$99YiY2XsRMxHudcYeHn.Y.
enable password cisco
!
username router2 password cisco
ip subnet-zero
chat-script cisco-default "" "AT" TIMEOUT 30 OK "ATDT \T" TIMEOUT 30 CONNECT \c
chat-script reset atz
interface Ethernet0
ip address 202.96.38.100 255.255.255.0
!
interface Serial0
ip address 202.96.0.1 255.255.255.0
encapsulation x25
x25 address 10112227
x25 htc 16
x25 map ip 202.96.0.2 10112225 broadcast
!
interface Serial1
no ip address
shutdown
!
!
interface Async 1
ip address 202.96.1.1 255.255.255.252
encapsulation ppp
dialer in-band
dialer idle-timeout 60
dialer map ip 202.96.1.2 name router2 modem-script cisco-default 2113470
dialer-group 1
ppp authentication chap
!
router eigrp 200
redistribute connected
network 202.96.0.0
!
ip route 202.96.37.0 255.255.255.0 202.96.1.2 200
dialer-list 1 protocol ip permit
line con 0
line aux 0
script dialer cisco-default
script reset reset
modem InOut
modem autoconfigure discovery
transport input all
rxspeed 38400
txspeed 38400
flowcontrol hardware
line vty 0 4
password cisco
login
!
end
路由器Router2配置如下:
hostname router2
!
enable secret 5 $1$T4IU$2cIqak8f/E4Ug6dLT0k.J0
enable password cisco
!
username router1 password cisco
ip subnet-zero
chat-script cisco-default "" "AT" TIMEOUT 30 OK "ATDT \T" TIMEOUT 30 CONNECT \c
chat-script reset atz
!
interface Ethernet0
ip address 202.96.37.100 255.255.255.0
!
interface Serial0
ip address 202.96.0.2 255.255.255.0
no ip mroute-cache
encapsulation x25
x25 address 10112225
x25 htc 16
x25 map ip 202.96.0.1 10112227 broadcast
!
interface Serial1
no ip address
shutdown
!
interface Async1
ip address 202.96.1.2 255.255.255.252
encapsulation ppp
keepalive 30
async default routing
async mode dedicated
dialer in-band
dialer idle-timeout 60
dialer wait-for-carrier-time 120
dialer map ip 202.96.1.1 name router1 modem-script cisco-default 2113469
dialer-group 1
ppp authentication chap
!
router eigrp 200
redistribute static
network 202.96.0.0
!
no ip classless
ip route 202.96.38.0 255.255.255.0 202.96.1.1 200
dialer-list 1 protocol ip permit
!
line con 0
exec-timeout 0 0
line aux 0
script reset reset
modem InOut
modem autoconfigure discovery
transport input all
rxspeed 38400
txspeed 38400
flowcontrol hardware
line vty 0 4
password cisco
login
!
end
【思科路由器广域网协议设置】相关文章:
思科路由器路由协议设置10-03
思科路由器设置11-13
思科路由器设置界面11-06
思科路由器怎么设置04-02
思科路由器怎么设置08-12
思科路由器设置VPDN的方法10-31
思科路由器设置方法和常见配置命令10-03