Cisco Systems Network Router 1604 User Manual

C H A P T E R  
3
Configuring the Cisco 1604 Router  
This chapter describes how to configure the Cisco 1604 router to dial out to the Cisco AS5300.  
Network Topology, Hardware, and Software Selections  
Figure 3-1 Case Study Scenario Network Topology from the Perspective of the Cisco 1604  
Branch office  
server  
Headquarters  
10.1.254.1  
255.255.255.0  
10.1.4.1  
255.255.255.0  
BRI line  
PC  
PC  
E0  
PSTN/ISDN  
Cisco AS5300  
Cisco  
1604  
10.1.254.4  
255.255.255.0  
Table 3-1 provides detailed information about the end-to-end connections for the Cisco 1604. This is  
the network administrator’s top-level design table. The Cisco 1604’s WAN default gateway is  
10.1.254.1, which is configured on the Cisco AS5300 as the dialer interface address.  
Table 3-1 Network Device Characteristics  
Ethernet IP  
Address  
Host Name/  
Assigned Phone Number User Name  
Username  
Password  
Site Hardware WAN IP Address  
Cisco 1604  
10.1.254.4  
255.255.255.0  
10.1.4.1  
255.255.255.0  
Directory number =  
5125554433  
robo-austin  
hq-sanjose  
austin-pw  
Cisco AS5300 10.1.254.1  
255.255.255.0  
Dialer Interface  
10.1.1.10  
255.255.255.0  
4085551234  
hq-sanjose-pw  
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Chapter 3 Configuring the Cisco 1604 Router  
Step 1—Configuring the Host Name, Password, and Time Stamps  
cisco 1604 (68360) processor (revision C) with 17920K/512K bytes of memory.  
Processor board ID 08823977, with hardware revision 00972006  
Bridging software.  
X.25 software, Version 3.0.0.  
Basic Rate ISDN software, Version 1.1.  
1 Ethernet/IEEE 802.3 interface(s)  
1 ISDN Basic Rate interface(s)  
System/IO memory with parity disabled  
2048K bytes of DRAM onboard 16384K bytes of DRAM on SIMM  
System running from FLASH  
8K bytes of non-volatile configuration memory.  
12288K bytes of processor board PCMCIA flash (Read ONLY)  
--- System Configuration Dialog ---  
When you are asked the question, “Would you like to enter the initial configuration dialog? [yes/no]:”,  
enter no.  
Would you like to enter the initial configuration dialog? [yes/no]: no  
Would you like to terminate autoinstall? [yes]: yes  
Press RETURN to get started!  
00:00:17: %QUICC_ETHER-1-LOSTCARR: Unit 0, lost carrier. Transceiver problem?  
00:00:17: %LINK-3-UPDOWN: Interface Ethernet0, changed state to up  
00:00:17: %LINK-3-UPDOWN: Interface Serial0, changed state to down  
00:00:17: %LINEPROTO-5-UPDOWN: Line protocol on Interface BRI0, changed state todown  
00:00:17: %LINEPROTO-5-UPDOWN: Line protocol on Interface BRI0:1, changed state to down  
00:00:17: %LINEPROTO-5-UPDOWN: Line protocol on Interface BRI0:2, changed state to down  
00:00:17: %LINEPROTO-5-UPDOWN: Line protocol on Interface Ethernet0, changed state to  
down  
00:00:17: %LINEPROTO-5-UPDOWN: Line protocol on Interface Serial0, changed stat to down  
00:00:44: %LINK-5-CHANGED: Interface BRI0, changed state to administratively down  
00:00:46: %LINK-5-CHANGED: Interface Serial0, changed state to administratively down  
00:00:46: %LINK-5-CHANGED: Interface Ethernet0, changed state to administratively down  
00:00:47: %IP-5-WEBINST_KILL: Terminating DNS process  
Router>  
Step 1—Configuring the Host Name, Password, and Time  
Stamps  
Assign a host name to the Cisco 1604, enable basic security, and turn on time stamping.  
Assigning a host name helps you to distinguish between different network devices.  
Enabling passwords helps you to prevent unauthorized configuration changes.  
Setting time stamps helps you to trace debug output for testing connections—not knowing exactly  
when an event occurs hinders you from examining background processes.  
As you configure the software, make sure that all logging dialog generated by the router appears on your  
terminal screen. If it does not, enter the terminal monitor EXEC command. If you are configuring the  
router with the console port, logging automatically appears.  
You can use security measures in addition to those described in Steps 4 and 5 below to further encrypt  
the password. See the Cisco IOS Security Configuration Guide and Cisco IOS Security Command  
Reference for more information.  
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Chapter 3 Configuring the Cisco 1604 Router  
Verifying Host Name, Password, and Time Stamp Configuration  
To configure the host name, password and timestamps for the Cisco 1604, enter the following  
commands beginning in user EXEC mode:  
Step 1  
Step 2  
Enter privileged EXEC mode.  
Router> enable  
Enter global configuration mode.  
Router# configure terminal  
Enter configuration commands, one per line. End  
with CNTL/Z.  
Step 3  
Step 4  
Assign a host name to the router. This host name is typically used during authentication with the central  
site.  
Router(config)# hostname robo-austin  
Enter a secret enable password that secures privileged EXEC mode. Be sure to change “guessme” to  
your own secret password.  
robo-austin(config)# enable secret guessme  
Step 5  
Step 6  
Encrypt passwords in the configuration file for greater security.  
hq-sanjose(config)# service password-encryption  
Enable millisecond time stamping on debug and logging output. Time stamps are useful for detailed  
access tracing.  
hq-sanjose(config)# service timestamps debug datetime msec  
hq-sanjose(config)# service timestamps log datetime msec  
Verifying Host Name, Password, and Time Stamp Configuration  
To verify configuration of the Cisco 1604’s host name, password, and time stamps:  
Step 1  
Enter the show running command:  
robo-austin# show running  
Building configuration...  
Current configuration:  
!
version 12.0  
service timestamps debug uptime  
service timestamps log uptime  
service password-encryption  
!
hostname robo-austin  
!
enable secret 5 $1$og7B$nSwMZM0NBKTPhV09KVgxl1  
!
interface Ethernet0  
no ip address  
shutdown  
!
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Chapter 3 Configuring the Cisco 1604 Router  
Step 2—Configuring Local AAA Security  
interface Serial0  
no ip address  
shutdown  
!
interface BRI0  
no ip address  
shutdown  
!
ip classless  
!
!
line con 0  
line vty 0 4  
login  
!
Step 2  
Step 3  
Log in with your new enable password.  
Exit out of enable mode by using the disable command.  
The prompt changes from robo-austin#to robo-austin>.  
Enter the enable command followed by your password.  
Step 4  
Step 5  
Enter the show privilege command to show the current security privilege level, which is level 15:  
robo-austin# disable  
robo-austin> enable  
Password:  
robo-austin# show privilege  
Current privilege level is 15  
robo-austin#  
Tips  
If you have trouble:  
Make sure the Caps Lock key is off.  
Make sure you entered the correct password. Passwords are case sensitive.  
Step 2—Configuring Local AAA Security  
The Cisco IOS security model to use on all Cisco devices is authentication, authorization, and  
accounting (AAA). AAA provides the primary framework through which you set up access control on  
the access server.  
Authentication—Who are you?  
Authorization—What can you do?  
Accounting—What did you do?  
In this case study, the same authentication method is used on all interfaces. AAA is set up to use the  
local database configured on the Cisco 1604 router. This local database is created with the username  
configuration commands.  
Note  
Setting up your AAA security at this point in the configuration process is a matter of “best  
practices”; it ensures that the configuration is managed for most effectiveness.  
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Chapter 3 Configuring the Cisco 1604 Router  
Verifying Local AAA Security Configuration  
To configure local AAA security on the Cisco 1604, enter the following commands beginning in global  
configuration mode:  
Step 1  
Create a local username for yourself. Make sure to change “joe-admin” to your own username and  
“joe-password” to your own password. This step prevents you from getting locked out of the router  
when you enable AAA.  
robo-austin(config)# username joe-admin password joe-password  
Step 2  
Step 3  
Enable AAA access control. This step immediately enables login and PPP authentication.  
robo-austin(config)# aaa new-model  
Configure AAA to perform login authentication by using the local username database. The login  
keyword indicates authentication of EXEC (shell) users.  
robo-austin(config)# aaa authentication login default local  
Step 4  
Note  
Configure PPP authentication to use the local database if the session was not already authenticated by  
login.  
robo-austin(config)# aaa authentication ppp default local  
After you finish setting up basic security, you can enhance the security solution by  
extending it to an external TACACS+ or RADIUS server. However, this case study  
describes only local AAA security.  
Verifying Local AAA Security Configuration  
To verify the local AAA security configuration on the Cisco 1604:  
Step 1  
Step 2  
Log in with your username:password.  
Enter the login command at the EXEC (shell) prompt. Do not disconnect your EXEC session until you  
can log in successfully. (If you get locked out, recover your password by rebooting the router.)  
robo-austin# login  
User Access Verification  
Username: joe-admin  
Password:  
robo-austin#  
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Chapter 3 Configuring the Cisco 1604 Router  
Step 3—Configuring the Ethernet Interface  
Step 3  
Enter the show running command to see the Cisco 1604’s current configuration:  
robo-austin# show running  
Building configuration...  
Current configuration:  
!
version 12.0  
service timestamps debug uptime  
service timestamps log uptime  
service password-encryption  
!
hostname robo-austin  
!
aaa new-model  
aaa authentication login default local  
aaa authentication ppp default local  
enable secret 5 $1$og7B$nSwMZM0NBKTPhV09KVgxl1  
!
username joe-admin password 7 <removed>  
!
interface Ethernet0  
no ip address  
shutdown  
!
interface Serial0  
no ip address  
shutdown  
!
interface BRI0  
no ip address  
shutdown  
!
ip classless  
!
!
line con 0  
line vty 0 4  
!
Step 3—Configuring the Ethernet Interface  
Assign an IP address to the Cisco 1604’s Ethernet interface. Test the interface by pinging it from a PC  
on the LAN.  
To configure the Ethernet interface, enter the following commands beginning in global configuration  
mode:  
Step 1  
Configure the IP address and subnet mask on the Ethernet interface.  
robo-austin(config)# interface ethernet 0  
robo-austin(config-if)# ip address 10.1.4.1 255.255.255.0  
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Chapter 3 Configuring the Cisco 1604 Router  
Verifying the Ethernet Interface Configuration  
Step 2  
Bring up the interface. This command changes the state of the interface from administratively down to  
up.  
robo-austin(config-if)# no shutdown  
Verifying the Ethernet Interface Configuration  
To verify the Cisco 1604’s Ethernet interface configuration:  
Step 1  
Enter the show ip interface brief command, which enables you to quickly check the status of all router  
interfaces.  
The field “administratively down” means that the interface is configured with the shutdown  
command.  
Step 2  
To bring the interface up, you must enter the no shutdown command. In the example below, the Status  
column refers to the ability to physically connect the network at Layer 1—needed for getting clocks  
(timing signals) and carrier signals. The Protocol column refers to the ability to see traffic flow, which  
typically occurs at the data link layer. For example, the Ethernet interface sends a loopback Ethernet  
packet out to itself through the Ethernet LAN:  
robo-austin# show ip interface brief  
Interface  
BRI0  
BRI0:1  
BRI0:2  
Ethernet0  
Serial0  
IP-Address  
unassigned  
unassigned  
unassigned  
10.1.4.1  
OK? Method Status  
Protocol  
YES unset administratively down down  
YES unset administratively down down  
YES unset administratively down down  
YES manual up  
YES unset administratively down down  
up  
unassigned  
In the next example, note that the status is up but the protocol is down. The following logging message  
appears at 00:40:20: “Unit 0, lost carrier. Transceiver problem?.” After the Ethernet cable is  
plugged into the Ethernet port, the interface comes up. See 00:40:25.  
robo-austin# show ip interface brief  
Interface  
BRI0  
BRI0:1  
IP-Address  
unassigned  
unassigned  
unassigned  
10.1.4.1  
OK? Method Status  
Protocol  
YES unset administratively down down  
YES unset administratively down down  
YES unset administratively down down  
YES manual up  
YES unset administratively down down  
BRI0:2  
Ethernet0  
Serial0  
robo-austin#  
down  
unassigned  
00:40:20: %QUICC_ETHER-1-LOSTCARR: Unit 0, lost carrier. Transceiver problem?  
00:40:25: %LINEPROTO-5-UPDOWN: Line protocol on Interface Ethernet0, changed sta  
te to up  
robo-austin#  
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Chapter 3 Configuring the Cisco 1604 Router  
Verifying the Ethernet Interface Configuration  
Step 3  
Establish connectivity with an Ethernet-based device. In this example, IP address 10.1.4.2 is assigned  
to the first external PC on this LAN to test for router-to-PC connectivity. The PC’s DOS prompt  
application is opened and the ping 10.1.4.1 command is issued.  
Microsoft(R) Windows 95  
(C)Copyright Microsoft Corp 1981-1996.  
C:\WINDOWS> ping 10.1.4.1  
Pinging 10.1.4.1 with 32 bytes of data:  
Reply from 10.1.4.1: bytes=32 time=3ms TTL=236  
Reply from 10.1.4.1: bytes=32 time=2ms TTL=236  
Reply from 10.1.4.1: bytes=32 time=3ms TTL=236  
Reply from 10.1.4.1: bytes=32 time=2ms TTL=236  
Step 4  
Ping the PC from the Cisco 1604. If the PC has not yet used any IP services or drivers, the connection  
might fail. The preferred method is to ping the router from a PC on the LAN first:  
robo-austin# ping 10.1.4.2  
Type escape sequence to abort.  
Sending 5, 100-byte ICMP Echos to 10.1.4.2, timeout is 2 seconds:  
!!!!!  
Success rate is 100 percent (5/5), round-trip min/avg/max = 4/5/8 ms  
Step 5  
If you know that the Ethernet interface is up but not performing correctly, enter the show interface  
ethernet 0 command. This example shows errors in the counters because the Ethernet cable was not  
plugged in:  
robo-austin# show interface ethernet 0  
Ethernet0 is up, line protocol is up  
Hardware is QUICC Ethernet, address is 0060.834f.6626 (bia 0060.834f.6626)  
Internet address is 10.1.4.1/24  
MTU 1500 bytes, BW 10000 Kbit, DLY 1000 usec, rely 234/255, load 1/255  
Encapsulation ARPA, loopback not set, keepalive set (10 sec)  
ARP type: ARPA, ARP Timeout 04:00:00  
Last input 00:00:08, output 00:00:04, output hang never  
Last clearing of "show interface" counters never  
Queueing strategy: fifo  
Output queue 0/40, 0 drops; input queue 0/75, 0 drops  
5 minute input rate 0 bits/sec, 0 packets/sec  
5 minute output rate 0 bits/sec, 0 packets/sec  
2 packets input, 644 bytes, 0 no buffer  
Received 2 broadcasts, 0 runts, 0 giants, 0 throttles  
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort  
0 input packets with dribble condition detected  
28 packets output, 2905 bytes, 0 underruns  
25 output errors, 0 collisions, 2 interface resets  
0 babbles, 0 late collision, 0 deferred  
3 lost carrier, 0 no carrier  
0 output buffer failures, 0 output buffers swapped out  
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Chapter 3 Configuring the Cisco 1604 Router  
Step 4—Configuring Basic Rate Interface  
Step 4—Configuring Basic Rate Interface  
Enable the Cisco 1604’s Basic Rate Interface (BRI) connectivity with the telephone company’s central  
office switch. PPP framing is used on the B channels.  
You can authenticate the remote side on any connection. The callin keyword used in Step 7 below means  
that all outbound connection attempts made by the Cisco 1604 will not authenticate the remote peer,  
which is the device at the other end of the PPP link (Cisco AS5300). Only the calls that come into the  
Cisco 1604 are authenticated.  
Note  
On BRI interfaces, it is not necessary to configure dialer inband because the BRI  
interfaces are dialer inband interfaces by default. Interfaces BRI0:1 and BRI0:2 are  
controlled by the dialer interface interface bri 0.  
To configure BRI on the Cisco 1604, enter the following commands beginning in global configuration  
mode:  
Step 1  
Step 2  
Configure the ISDN switch type, which is basic-ni1 in this example.  
robo-austin(config)# isdn switch-type basic-ni1  
Configure the IP address and subnet mask on the BRI interface.  
robo-austin(config)# interface bri 0  
robo-austin(config-if)# ip address 10.1.254.4 255.255.255.0  
Step 3  
Configure your SPIDs, which are required by many switch types.  
robo-austin(config-if)# isdn spid1 51255544330101  
robo-austin(config-if)# isdn spid2 51255544340101  
Step 4  
Step 5  
Step 6  
Step 7  
Enable PPP.  
robo-austin(config-if)# encapsulation ppp  
Disable fair queuing.  
robo-austin(config-if)# no fair-queue  
Enable PPP multilink.  
robo-austin(config-if)# ppp multilink  
Enable CHAP and PAP authentication on the interface during LCP negotiation. The access server first  
authenticates with CHAP. If CHAP is not used by the remote client, then the access server tries PAP.  
CHAP is requested first.  
robo-austin(config-if)# ppp authentication chap pap callin  
Step 8  
Bring up the interface. The no shutdown command changes the state of the interface from  
administratively down to up.  
robo-austin(config-if)# no shutdown  
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Chapter 3 Configuring the Cisco 1604 Router  
Verifying BRI Configuration  
Verifying BRI Configuration  
Step 1  
Enter the no shutdown command. The following output messages appear:  
robo-austin(config-if)# no shutdown  
robo-austin#  
00:45:01: %LINK-3-UPDOWN: Interface BRI0:1, changed state to down  
00:45:01: %LINK-3-UPDOWN: Interface BRI0:2, changed state to down  
00:45:01: %LINK-3-UPDOWN: Interface BRI0, changed state to up  
robo-austin#  
00:45:02: %ISDN-6-LAYER2UP: Layer 2 for Interface BR0, TEI 100 changed to up  
00:45:02: %ISDN-6-LAYER2UP: Layer 2 for Interface BR0, TEI 101 changed to up  
robo-austin(config-if)#  
This example shows the BRI0:1 and BRI0:2 states change to “down” because the previous state was  
“administratively down.” The BRI0 D channel changes to “up” as it spoofs for the two B channels. After  
the D channel finds the B channels, the B channels change state to “up.” The Cisco 1604 communicates  
with the telephone switch and receives its TEI numbers for its two B channels.  
Step 2  
Enter the show isdn status command to check the Cisco 1604’s ISDN status:  
robo-austin# show isdn status  
Global ISDN Switchtype = basic-ni  
ISDN BRI0 interface  
dsl 0, interface ISDN Switchtype = basic-ni  
Layer 1 Status:  
ACTIVE  
Layer 2 Status:  
TEI = 100, Ces = 1, SAPI = 0, State = MULTIPLE_FRAME_ESTABLISHED  
TEI = 101, Ces = 2, SAPI = 0, State = MULTIPLE_FRAME_ESTABLISHED  
Spid Status:  
TEI 100, ces = 1, state = 5(init)  
spid1 configured, no LDN, spid1 sent, spid1 valid  
Endpoint ID Info: epsf = 0, usid = 2, tid = 1  
TEI 101, ces = 2, state = 5(init)  
spid2 configured, no LDN, spid2 sent, spid2 valid  
Endpoint ID Info: epsf = 0, usid = 4, tid = 1  
Layer 3 Status:  
0 Active Layer 3 Call(s)  
Activated dsl 0 CCBs = 0  
Total Allocated ISDN CCBs = 0  
The fields in the output example resulting from Step 2 above are described in Table 3-2:  
Table 3-2 Field Descriptions for the show isdn status Command Output  
Field  
BRI0  
DSL  
Description  
Basic Rate Interface. The BRI 0 interface corresponds to DSL-0, which has three channels (2B +D).  
Digital Subscriber Line.  
Terminal Equipment Identifier.  
Call Control Block.  
TEI  
CCB  
LDN  
Local Directory Number.  
Service Profile Identifier.  
SPID  
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Chapter 3 Configuring the Cisco 1604 Router  
Step 5—Configuring Dial-on-Demand Routing  
Step 3  
Enter the show ip interface brief command to check the current state of the interface:  
robo-austin# show ip interface brief  
Interface  
BRI0  
BRI0:1  
BRI0:2  
Ethernet0  
Serial0  
IP-Address  
10.1.254.4  
unassigned  
unassigned  
10.1.4.1  
OK? Method Status  
YES manual up  
YES unset down  
YES unset down  
YES manual up  
Protocol  
up  
down  
down  
up  
unassigned  
YES unset administratively down down  
Note  
Note that the status and protocol for BRI 0 and Ethernet 0 are both up/up, which  
is what is expected. The term “manual” means that you manually configured the  
interface since the last reboot. The two B channels (BRI0:1 and BRI0:2) are down  
because there are no active calls on the BRI interface at this time.  
Tips  
If you have trouble:  
Make sure the correct ISDN switch type and SPIDs are configured.  
Make sure your BRI line is connected to the correct port.  
Step 5—Configuring Dial-on-Demand Routing  
Set up the Dial-on-Demand Routing (DDR) routing components on the Cisco 1604. In most cases, a  
remote site with a single LAN requires a simple DDR configuration, which supports the routing table  
and call control in a circuit-switched environment.  
In this case study, DDR takes the standard dialer map approach. You must configure specific parameters  
to establish connectivity with the Cisco AS5300 by using sync PPP. Parameters include a static route,  
username:password, and a dialer map.  
To configure DDR, enter the following commands beginning in global configuration mode:  
Step 1  
Step 2  
Enter the configuration mode for the BRI interface.  
robo-austin(config)# interface bri 0  
Define the interesting packets that activate the ISDN connection. Interesting packets reset the idle timer  
and trigger dialing. This dialer filter is defined by the dialer-list 2 command. See Step 7.  
robo-austin(config-if)# dialer-group 2  
Step 3  
Step 4  
Step 5  
Disable fair queuing.  
robo-austin(config-if)# no fair-queue  
Disable the Cisco discovery protocol unless you are using it for a specific purpose.  
robo-austin(config-if)# no cdp enable  
Configure the interface to bring up the second B channel when the bandwidth load exceeds 60/255.  
robo-austin(config-if)# dialer load-threshold 60 either  
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Chapter 3 Configuring the Cisco 1604 Router  
Verifying DDR Configuration  
Step 6  
Build a dialer map that maps to the Cisco AS5300’s IP address, host name, and directory number. The  
static route in Step 8 points to this dialer map.  
robo-austin(config-if)# dialer map ip 10.1.254.1 name hq-sanjose 14085551234  
robo-austin(config-if)# exit  
Step 7  
Step 8  
Define a DDR’s dialer-list to allow any IP packets to establish and maintain calls.  
robo-austin(config)# dialer-list 2 protocol ip permit  
Create a static route for the next hop, which is the Cisco AS5300’s WAN port. IP address 10.1.254.1 is  
used on the Cisco AS5300’s dialer interface. This static route points at the dialer map on the access  
server’s dialer interface.  
robo-austin(config) ip route 0.0.0.0 0.0.0.0 10.1.254.1 permanent  
Step 9  
Enter the password used by the Cisco 1604 for when the Cisco AS5300 (hq-sanjose) authenticates by  
using CHAP. On Cisco IOS devices, the PPP name is determined by one of the following commands:  
hostname, sgbp group, ppp pap sent-username, or ppp chap hostname.  
robo-austin(config)# username hq-sanjose password austin-pw  
Step 10 Ensure that all unknown subnets use the default route.  
robo-austin(config)# ip classless  
Verifying DDR Configuration  
To verify the Cisco 1604’s DDR configuration:  
Step 1  
Enter the show ip route command to confirm that the static route is installed and pointing at your dialer  
map address. Configure the static IP default route before you enter this command:  
robo-austin# show ip route  
Codes: C - connected, S - static, I - IGRP, R - RIP, M - mobile, B - BGP  
D - EIGRP, EX - EIGRP external, O - OSPF, IA - OSPF inter area  
N1 - OSPF NSSA external type 1, N2 - OSPF NSSA external type 2  
E1 - OSPF external type 1, E2 - OSPF external type 2, E - EGP  
i - IS-IS, L1 - IS-IS level-1, L2 - IS-IS level-2, * - candidate default  
U - per-user static route, o - ODR  
Gateway of last resort is 10.1.254.1 to network 0.0.0.0  
10.0.0.0/24 is subnetted, 2 subnets  
C
C
S*  
10.1.4.0 is directly connected, Ethernet0  
10.1.254.0 is directly connected, BRI0  
0.0.0.0/0 [1/0] via 10.1.254.1  
Note  
The static route is the first software building block that receives the packet routed  
to the dialer map. The route must direct the packets to the dialer map before the  
DDR features can establish connectivity.  
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Chapter 3 Configuring the Cisco 1604 Router  
Verifying DDR Configuration  
Step 2  
Enter the show dialer command. The following example shows that the Cisco 1604 has not placed any  
calls yet, and there have been no failures. An ISDN interface is a dialer interface. Key statistics are  
shown for each B channel:  
robo-austin# show dialer  
BRI0 - dialer type = ISDN  
Dial String  
14085551234  
Successes  
0
Failures  
0
Last called  
never  
Last status  
-
0 incoming call(s) have been screened.  
0 incoming call(s) rejected for callback.  
BRI0:1 - dialer type = ISDN  
Idle timer (120 secs), Fast idle timer (20 secs)  
Wait for carrier (30 secs), Re-enable (15 secs)  
Dialer state is idle  
BRI0:2 - dialer type = ISDN  
Idle timer (120 secs), Fast idle timer (20 secs)  
Wait for carrier (30 secs), Re-enable (15 secs)  
Dialer state is idle  
Step 3  
Step 4  
Enter the show dialer map command to see the static dialer map that was built to the Cisco AS5300.  
This map is built by using the phone number and WAN IP address of the access server:  
robo-austin# show dialer map  
Static dialer map ip 10.1.254.1 name hq-sanjose (14085551234) on BRI0  
Enter the show running command to see the Cisco 1604’s current configuration:  
robo-austin# show running  
Building configuration...  
Current configuration:  
!
version 12.0  
service timestamps debug uptime  
service timestamps log uptime  
service password-encryption  
!
hostname robo-austin  
!
aaa new-model  
aaa authentication login default local  
aaa authentication ppp default if-needed local  
enable secret 5 $1$aZ1D$wNO71EpS6y5zRYuW9qFEr.  
!
username joe-admin password 0 6y5zRYuW9qFEr$wNO71EpS6$aZ1  
username hq-sanjose password 0 $wNO71EpS6y5zy5zRYuW9aZ1D$w  
isdn switch-type basic-ni  
!
interface Ethernet0  
ip address 10.1.4.1 255.255.255.0  
!
interface Serial0  
no ip address  
shutdown  
!
interface BRI0  
ip address 10.1.254.4 255.255.255.0  
encapsulation ppp  
dialer map ip 10.1.254.1 name hq-sanjose 14085551234  
dialer load-threshold 60 either  
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Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
dialer-group 2  
isdn switch-type basic-ni  
isdn spid1 51255544330101  
isdn spid2 51255544340101  
no cdp enable  
ppp authentication chap pap callin  
ppp multilink  
hold-queue 75 in  
!
ip classless  
ip route 0.0.0.0 0.0.0.0 10.1.254.1 permanent  
!
dialer-list 2 protocol ip permit  
!
line con 0  
line vty 0 4  
!
end  
Tips  
To see the load currently assigned to the interface, enter the show interface bri 0:1 command.  
Search for the output field “load x/255.” Use SNMP to monitor the load on an interface. How you  
set the threshold depends on each site’s characteristics, such as traffic patterns and WAN costs. If  
you are in an environment where all calls are local, then you can set up the connections full time.  
Large ISDN phone bills arise due to failure to appropriately tune filters and load thresholds. Filters  
are dialer lists, which are applied with dialer groups. The dialer-list command and dialer-group  
command control the first B channel. The dialer load-threshold command controls the behavior  
when additional B channels are connected.  
In this case study, the Cisco AS5300 does not dial out to the remote sites. Therefore, do not tune  
the central site’s dialer threshold setting. Only the remote side is in charge of opening and closing  
channels based on the settings of the dialer commands.  
Make sure you configured the correct SPID numbers on the BRI interface.  
Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
The test strategy is to ping the Cisco AS5300’s WAN port; then, ping the backbone behind the access  
server. Cisco recommends you ping the domain name server (DNS) on the backbone since this device  
should always be up and operating.  
Pinging a next-hop IP address can have complications in an IP-unnumbered environment. For example,  
complications arise when WAN interfaces are configured with unnumbered IPs.  
Note  
The typical low-level test to verify connectivity in a sync PPP environment is to ping a  
device on the other end of the WAN link. In a modem environment (async PPP), the  
low-level test is to establish an EXEC shell on the router.  
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Chapter 3 Configuring the Cisco 1604 Router  
Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
Figure 3-2 Case Study Lab Environment for Testing the Cisco 1604’s Connection to the Cisco AS5300  
10.1.254.1  
PSTN  
BRI  
Cisco AS5300  
(hq-sanjose)  
Test PC  
DNS server  
10.2.2.3  
10.1.4.2  
Ethernet  
BRI  
Cisco 1604  
(robo-austin)  
10.1.254.4  
RS-232  
console  
Administrator's PC  
(configuration and logging)  
Step 1  
Enter the following commands to start debugging. Use the following example as a guide. Examining  
the background processes is essential for effective troubleshooting:  
robo-austin# undebug all  
All possible debugging has been turned off  
robo-austin# terminal monitor  
robo-austin# debug dialer  
Dial on demand events debugging is on  
robo-austin# debug isdn q931  
ISDN Q931 packets debugging is on  
robo-austin# debug ppp negotiation  
PPP protocol negotiation debugging is on  
robo-austin# debug ppp authentication  
PPP authentication debugging is on  
robo-austin# debug ip peer  
IP peer address activity debugging is on  
Step 2  
Verify that your routing table points to the Cisco AS5300 at headquarters—the hq-sanjose network  
access server (NAS):  
robo-austin# show ip route  
Codes: C - connected, S - static, I - IGRP, R - RIP, M - mobile, B - BGP  
D - EIGRP, EX - EIGRP external, O - OSPF, IA - OSPF inter area  
N1 - OSPF NSSA external type 1, N2 - OSPF NSSA external type 2  
E1 - OSPF external type 1, E2 - OSPF external type 2, E - EGP  
i - IS-IS, L1 - IS-IS level-1, L2 - IS-IS level-2, * - candidate default  
U - per-user static route, o - ODR  
Gateway of last resort is 10.1.254.1 to network 0.0.0.0  
10.0.0.0/24 is subnetted, 2 subnets  
C
C
S*  
10.1.4.0 is directly connected, Ethernet0  
10.1.254.0 is directly connected, BRI0  
0.0.0.0/0 [1/0] via 10.1.254.1  
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Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
Step 3  
Step 4  
Verify that the correct dialer map exists:  
robo-austin# show dialer map  
Static dialer map ip 10.1.254.1 name hq-sanjose (14085551234) on BRI0  
Ping the IP address assigned to the Cisco AS5300’s dialer interface. Note that the Cisco 1604  
(robo-austin) quickly gets 4 of 5 pings back from the Cisco AS5300 (hq-sanjose). After the ping is sent,  
examine the background processes in the debug output that follows the ping example shown below:  
robo-austin# ping 10.1.254.1  
Type escape sequence to abort.  
Sending 5, 100-byte ICMP Echos to 10.1.254.1, timeout is 2 seconds:  
.!!!!  
Success rate is 80 percent (4/5), round-trip min/avg/max = 116/182/372ms  
robo-austin#  
The following comments apply to the debug output example that follows:  
a. See 08:03:55.  
The source and destination IP addresses of the DDR dial cause display.  
(s=10.1.254.4, d=10.1.254.1)  
b. See 08:03:55.  
Hq-sanjose’s hunt group number is dialed.  
(Attempting to dial 14085551234)  
c. See 08:03:55.  
ISDN Setup is transmitted.  
(TX -> SETUP pd = 8 callref = 0x2F)  
d. See 08:03:55.  
A synchronous data bearer capability displays.  
(Bearer Capability i = 0x8890)  
e. See 08:03:55.  
The outgoing LCP configuration request is made.  
(BR0:1 LCP: O CONFREQ [Closed] id 42 len 28)  
f. See 08:03:55.  
The incoming LCP configuration request wants to authenticate with CHAP.  
(AuthProto CHAP (0x0305C22305))  
g. See 08:03:55.  
The outgoing acknowledgment says this peer will do CHAP.  
(LCP: O CONFACK [REQsent])  
h. See 08:03:55.  
Both PPP peers have received LCP CONFACK. LCP is now open.  
(BR0:1 LCP: State is Open)  
i. See 08:03:55.  
Authentication phase is initiated by robo-austin.  
(BR0:1 PPP: Phase is AUTHENTICATING, by the peer)  
j. See 08:03:55.  
Robo-austin accepts a CHAP challenge initiated by hq-sanjose. The device robo-austin is not  
authenticating hq-sanjose, which is the desired behavior for this scenario.  
(BR0:1 CHAP: I CHALLENGE id 5 len 31 from "hq-sanjose")  
(BR0:1 CHAP: O RESPONSE id 5 len 32 from "robo-austin")  
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Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
k. See 08:03:55.  
The robo-austin PPP peer is successfully authenticated by the hq-sanjose peer.  
(BR0:1 CHAP: I SUCCESS id 5 len 4)  
l. See 08:03:55.  
MultiLink PPP uses a virtual-access interface to host the bundle.  
(BR0:1 PPP: Phase is VIRTUALIZED)  
m. See 08:03:56.  
LCP on Virtual-Access2 is forced up as it was already negotiated on the physical interface. For  
more information, enter the show interface virtual-access2 conf and debug vtemp commands.  
(%LINK-3-UPDOWN: Interface Virtual-Access2, changed state to up)  
(Vi2 PPP: Phase is UP)  
n. See 08:03:56.  
IPCP negotiation begins.  
(Vi2 IPCP: O CONFREQ [Closed] id 1 len 10)  
(Vi2 IPCP:  
Address 10.1.254.4 (0x03060A01FE04))  
o. See 08:03:56.  
IP can now be used across this PPP connection.  
(Vi2 IPCP: I CONFACK [ACKsent] id 1 len 10)  
(Vi2 IPCP: State is Open)  
p. See 08:03:57.  
A route is installed to 10.1.254.1 to match the IP address negotiated by the peer.  
(BR0 IPCP: Install route to 10.1.254.1)  
q. See 08:03:57 and 08:04:01.  
The connection is made to hq-sanjose.  
(Line protocol on Interface Virtual-Access2, changed state to up)  
(Interface BRI0:1 is now connected to 14085551234 hq-sanjose)  
robo-austin# ping 10.1.254.1  
Type escape sequence to abort.  
Sending 5, 100-byte ICMP Echos to 10.1.254.1, timeout is 2 seconds:  
.!!!!  
Success rate is 80 percent (4/5), round-trip min/avg/max = 116/182/372ms  
robo-austin#  
08:03:55: BRI0: Dialing cause ip (s=10.1.254.4, d=10.1.254.1)  
08:03:55: BRI0: Attempting to dial 14085551234  
08:03:55: ISDN BR0: TX -> SETUP pd = 8 callref = 0x2F  
08:03:55:  
08:03:55:  
08:03:55:  
Bearer Capability i = 0x8890  
Channel ID i = 0x83  
Keypad Facility i = '14085551234'  
08:03:55: ISDN BR0: RX <- CALL_PROC pd = 8 callref = 0xAF  
08:03:55: Channel ID i = 0x89  
08:03:55: ISDN BR0: RX <- CONNECT pd = 8 callref = 0xAF  
08:03:55: ISDN BR0: TX -> CONNECT_ACK pd = 8 callref = 0x2F  
08:03:55: %LINK-3-UPDOWN: Interface BRI0:1, changed state to up  
08:03:55: BR0:1 PPP: Treating connection as a callout  
08:03:55: BR0:1 PPP: Phase is ESTABLISHING, Active Open  
08:03:55: BR0:1 PPP: No remote authentication for call-out  
08:03:55: BR0:1 LCP: O CONFREQ [Closed] id 42 len 28  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
MagicNumber 0x623E5C69 (0x0506623E5C69)  
MRRU 1524 (0x110405F4)  
EndpointDisc 1 Local  
(0x130E01726F626F2D61757374696E)  
08:03:55: BR0:1 LCP: I CONFREQ [REQsent] id 7 len 32  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
AuthProto CHAP (0x0305C22305)  
MagicNumber 0xE16A73E6 (0x0506E16A73E6)  
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Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
MRRU 1524 (0x110405F4)  
EndpointDisc 1 Local  
(0x130D0168712D73616E6A6F7365)  
08:03:55: BR0:1 LCP: O CONFACK [REQsent] id 7 len 32  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
AuthProto CHAP (0x0305C22305)  
MagicNumber 0xE16A73E6 (0x0506E16A73E6)  
MRRU 1524 (0x110405F4)  
EndpointDisc 1 Local  
(0x130D0168712D73616E6A6F7365)  
08:03:55: BR0:1 LCP: I CONFACK [ACKsent] id 42 len 28  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
08:03:55: BR0:1 LCP:  
MagicNumber 0x623E5C69 (0x0506623E5C69)  
MRRU 1524 (0x110405F4)  
EndpointDisc 1 Local  
(0x130E01726F626F2D61757374696E).  
08:03:55: BR0:1 LCP: State is Open  
08:03:55: BR0:1 PPP: Phase is AUTHENTICATING, by the peer  
08:03:55: BR0:1 CHAP: I CHALLENGE id 5 len 31 from "hq-sanjose"  
08:03:55: BR0:1 CHAP: O RESPONSE id 5 len 32 from "robo-austin"  
08:03:55: BR0:1 CHAP: I SUCCESS id 5 len 4  
08:03:55: BR0:1 PPP: Phase is VIRTUALIZED  
08:03:55: BR0:1 IPCP: Packet buffered while building MLP bundle  
interface  
08:03:56: Vi2 PPP: Phase is DOWN, Setup  
08:03:56: %LINEPROTO-5-UPDOWN: Line protocol on Interface BRI0:1,  
changed state to up  
08:03:56: %LINK-3-UPDOWN: Interface Virtual-Access2, changed state to up  
08:03:56: Vi2 PPP: Treating connection as a callout  
08:03:56: Vi2 PPP: Phase is ESTABLISHING, Active Open  
08:03:56: Vi2 PPP: No remote authentication for call-out  
08:03:56: Vi2 LCP: O CONFREQ [Closed] id 1 len 28  
08:03:56: Vi2 LCP:  
08:03:56: Vi2 LCP:  
08:03:56: Vi2 LCP:  
MagicNumber 0x623E60D6 (0x0506623E60D6)  
MRRU 1524 (0x110405F4)  
EndpointDisc 1 Local  
(0x130E01726F626F2D61757374696E)  
08:03:56: Vi2 PPP: Phase is UP  
08:03:56: Vi2 IPCP: O CONFREQ [Closed] id 1 len 10  
08:03:56: Vi2 IPCP:  
Address 10.1.254.4 (0x03060A01FE04)  
08:03:56: Vi2 PPP: Pending ncpQ size is 1  
08:03:56: BR0:1 IPCP: Redirect packet to Vi2  
08:03:56: Vi2 IPCP: I CONFREQ [REQsent] id 1 len 10  
08:03:56: Vi2 IPCP:  
Address 10.1.254.1 (0x03060A01FE01)  
08:03:56: set_ip_peer_addr: Vi2: address = 10.1.254.1 (7)  
08:03:56: Vi2 IPCP: O CONFACK [REQsent] id 1 len 10  
08:03:56: Vi2 IPCP:  
08:03:57: Vi2 IPCP: I CONFACK [ACKsent] id 1 len 10  
08:03:57: Vi2 IPCP: Address 10.1.254.4 (0x03060A01FE04)  
Address 10.1.254.1 (0x03060A01FE01)  
08:03:57: Vi2 IPCP: State is Open  
08:03:57: dialer Protocol up for Vi2  
08:03:57: BR0 IPCP: Install route to 10.1.254.1  
08:03:57: %LINEPROTO-5-UPDOWN: Line protocol on Interface  
Virtual-Access2, changed state to up  
08:04:01: %ISDN-6-CONNECT: Interface BRI0:1 is now connected to  
14085551234 hq-sanjose  
Step 5  
Ping the DNS server behind hq-sanjose. The DNS server is the first backbone device that Cisco 1604  
will try to use. The DNS server in this case study uses 10.2.2.3.  
robo-austin# ping 10.2.2.3  
Type escape sequence to abort.  
Sending 5, 100-byte ICMP Echos to 10.2.2.3, timeout is 2 seconds:  
!!!!!  
Success rate is 100 percent (5/5), round-trip min/avg/max = 4/7/12 ms  
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Chapter 3 Configuring the Cisco 1604 Router  
Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
Step 6  
Enter additional commands as illustrated below to verify robo-austin’s connection with hq-sanjose:  
robo-austin# show dialer map  
Static dialer map ip 10.1.254.1 name hq-sanjose (14085551234) on BRI0  
robo-austin# show dialer  
BRI0 - dialer type = ISDN  
Dial String  
14085551234  
Successes  
1
Failures  
0
Last called  
00:00:30  
Last status  
successful  
0 incoming call(s) have been screened.  
0 incoming call(s) rejected for callback.  
BRI0:1 - dialer type = ISDN  
Idle timer (120 secs), Fast idle timer (20 secs)  
Wait for carrier (30 secs), Re-enable (15 secs)  
Dialer state is multilink member  
Dial reason: ip (s=10.1.254.4, d=10.1.254.1)  
Connected to 14085551234 (hq-sanjose)  
BRI0:2 - dialer type = ISDN  
Idle timer (120 secs), Fast idle timer (20 secs)  
Wait for carrier (30 secs), Re-enable (15 secs)  
Dialer state is idle  
Virtual-Access2 - dialer type = IN-BAND SYNC NO-PARITY  
Rotary group 0, priority 0  
Idle timer (120 secs), Fast idle timer (20 secs)  
Wait for carrier (30 secs), Re-enable (15 secs)  
Dialer state is data link layer up  
Time until disconnect 105 secs  
Connected to 14085551234 (hq-sanjose)  
robo-austin# show ppp multilink  
Bundle hq-sanjose, 1 member, Master link is Virtual-Access2  
Dialer Interface is BRI0  
0 lost fragments, 0 reordered, 0 unassigned, sequence 0x0/0x0 rcvd/sent  
0 discarded, 0 lost received, 1/255 load  
Member Link: 1 (max not set, min not set)  
BRI0:1  
robo-austin# show interface bri 0:1  
BRI0:1 is up, line protocol is up  
Hardware is BRI  
MTU 1500 bytes, BW 64 Kbit, DLY 20000 usec, rely 255/255, load 1/255  
Encapsulation PPP, loopback not set, keepalive set (10 sec)  
LCP Open, multilink Open  
Last input 00:00:07, output 00:00:07, output hang never  
Last clearing of "show interface" counters never  
Queueing strategy: fifo  
Output queue 0/40, 0 drops; input queue 0/75, 0 drops  
5 minute input rate 0 bits/sec, 0 packets/sec  
5 minute output rate 0 bits/sec, 0 packets/sec  
472 packets input, 13496 bytes, 0 no buffer  
Received 469 broadcasts, 0 runts, 0 giants, 0 throttles  
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort  
504 packets output, 18013 bytes, 0 underruns  
0 output errors, 0 collisions, 0 interface resets  
0 output buffer failures, 0 output buffers swapped out  
104 carrier transitions  
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Step 6—Testing the Cisco 1604 Connection to the Cisco AS5300  
robo-austin# show ip interface brief  
Interface  
BRI0  
BRI0:1  
BRI0:2  
Ethernet0  
Serial0  
IP-Address  
10.1.254.4  
unassigned  
unassigned  
10.1.3.1  
OK? Method Status  
YES manual up  
YES unset up  
YES unset down  
YES manual up  
Protocol  
up  
up  
down  
up  
unassigned  
unassigned  
YES unset administratively down down  
YES unset up up  
Virtual-Access2  
robo-austin# show interface bri 0 1 2  
BRI0:1 is up, line protocol is up  
Hardware is BRI  
MTU 1500 bytes, BW 64 Kbit, DLY 20000 usec, rely 255/255, load 1/255  
Encapsulation PPP, loopback not set, keepalive set (10 sec)  
LCP Open, multilink Open  
Last input 00:00:00, output 00:00:00, output hang never  
Last clearing of "show interface" counters never  
Queueing strategy: fifo  
Output queue 0/40, 0 drops; input queue 0/75, 0 drops  
5 minute input rate 0 bits/sec, 0 packets/sec  
5 minute output rate 0 bits/sec, 0 packets/sec  
478 packets input, 13592 bytes, 0 no buffer  
Received 474 broadcasts, 0 runts, 0 giants, 0 throttles  
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort  
509 packets output, 18093 bytes, 0 underruns  
0 output errors, 0 collisions, 0 interface resets  
0 output buffer failures, 0 output buffers swapped out  
104 carrier transitions  
BRI0:2 is down, line protocol is down  
Hardware is BRI  
MTU 1500 bytes, BW 64 Kbit, DLY 20000 usec, rely 255/255, load 1/255  
Encapsulation PPP, loopback not set, keepalive set (10 sec)  
LCP Closed, multilink Closed  
Closed: IPCP  
Last input 00:09:36, output 00:09:36, output hang never  
Last clearing of "show interface" counters never  
Queueing strategy: fifo  
Output queue 0/40, 0 drops; input queue 0/75, 0 drops  
5 minute input rate 0 bits/sec, 0 packets/sec  
5 minute output rate 0 bits/sec, 0 packets/sec  
23 packets input, 722 bytes, 0 no buffer  
Received 23 broadcasts, 0 runts, 0 giants, 0 throttles  
0 input errors, 0 CRC, 0 frame, 0 overrun, 0 ignored, 0 abort  
22 packets output, 727 bytes, 0 underruns  
0 output errors, 0 collisions, 0 interface resets  
0 output buffer failures, 0 output buffers swapped out  
2 carrier transitions  
robo-austin# show user  
Line  
* 0 con 0  
BR0:1  
User  
admin  
hq-sanjoe Sync PPP  
Host(s)  
idle  
Idle Location  
0
00:00:38  
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3-21  
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Chapter 3 Configuring the Cisco 1604 Router  
Step 7—Confirming the Cisco 1604 Final Running Configuration  
Step 7—Confirming the Cisco 1604 Final Running Configuration  
Enter the show running command to see the Cisco 1604 final running configuration:  
robo-austin# show running  
Building configuration...  
Current configuration:  
!
version 12.0  
service timestamps debug uptime  
service timestamps log uptime  
service password-encryption  
!
hostname robo-austin  
!
aaa new-model  
aaa authentication login default local  
aaa authentication ppp default if-needed local  
enable secret 5 $1$aZ1D$wNO71EpS6y5zRYuW9qFEr.  
!
username joe-admin password 7 <removed>  
username hq-sanjose password 7 <removed>  
isdn switch-type basic-ni!  
!
interface Ethernet0  
ip address 10.1.4.1 255.255.255.0  
!
interface BRI0  
ip address 10.1.254.4 255.255.255.0  
encapsulation ppp  
no ip route-cache  
dialer map ip 10.1.254.1 name hq-sanjose 14085551234  
dialer load-threshold 60 either  
dialer-group 2  
isdn switch-type basic-ni  
isdn spid1 51255544330101  
isdn spid2 51255544340101  
no cdp enable  
ppp authentication chap callin  
ppp multilink  
hold-queue 75 in  
!
ip classless  
ip route 0.0.0.0 255.0.0.0 10.1.254.1 permanent  
!
!
dialer-list 2 protocol ip permit  
!
line con 0  
line vty 0 4  
!
end  
Step 8—Saving the Configuration  
Save the configuration to the Cisco 1604’s NVRAM by entering the copy running-config  
startup-config command.  
robo-austin# copy running-config startup-config  
Cisco IOS Dial Services Quick Configuration Guide  
3-22  
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