Table of Contents

Getting Started
Running Setup for Cisco IOS Release 11.2
Running Setup for Cisco IOS Release 11.3(2)T

Continuing the Setup Script for T1/PRI Cards
Continuing the Setup Script for E1/PRI Cards

Where to Go Next

Using Setup on Cisco IOS Releases 11.2 or 11.3(2)T

This appendix contains instructions for running the setup script for systems containing Cisco IOS Release 11.2 or 11.3 software.

Getting Started

Before you turn on the access server and begin to use the setup script in the System Configuration dialog, make sure you have:

• Already connected the cables to the access server

• Configured your PC terminal emulation program for 9600 baud, 8 data bits, no parity, and 2 stop bits

All configuration will be performed from your PC terminal emulation program window.

Complete these steps:

Step 1 Power ON the access server. The power switch is on the rear panel of the access server, at the lower right corner, near the power cord.

Step 2 Continue with one of the following sections:

• "Running Setup for Cisco IOS Release 11.2"

• "Running Setup for Cisco IOS Release 11.3(2)T"

Running Setup for Cisco IOS Release 11.2

The messages look similar to the following:

---

Note The messages vary, depending on the Cisco IOS software release and feature set you selected. The screen displays in this section are for reference only and might not exactly reflect the messages on your console.

---

System Bootstrap, Version 11.X(X)P, RELEASED SOFTWARE
Copyright (c) 1994-1998 by cisco Systems, Inc.
AS5300 processor with 32768 Kbytes of main memory
 
rommon 1 b f
program load complete, entry point: 0x80008000, size: 0xef4e0
Self decompressing the image : ############################################### 
[OK]
 
Notice: NVRAM invalid, possibly due to write erase.
program load complete, entry point: 0x80008000, size: 0x415b20
Self decompressing the image : ################################################################################################################################################################################################################################################################################################[OK]
 
                 Restricted Rights Legend
 
Use, duplication, or disclosure by the Government is
subject to restrictions as set forth in subparagraph
(c) of the Commercial Computer Software - Restricted
Rights clause at FAR sec. 52.227-19 and subparagraph
(c) (1) (ii) of the Rights in Technical Data and Computer
Software clause at DFARS sec. 252.227-7013.
 
           Cisco Systems, Inc.
           170 West Tasman Drive
           San Jose, California 95134-1706
 
 
 
Cisco Internetwork Operating System Software 
IOS (tm) 5300 Software (C5300-JS-M), Released Version 11.2(19970619:020846) [ppalleti-DVT_08 102]
Copyright (c) 1986-1997 by cisco Systems, Inc.
Compiled Wed 18-Jun-97 22:25 by ppalleti
Image text-base: 0x600088A0, data-base: 0x60738000
 
cisco AS5300 (R4K) processor (revision A) with 32768K/8192K bytes of memory.
Processor board ID 04614954
R4700 processor, Implementation 33, Revision 1.0 (Level 2 Cache)
Bridging software.
SuperLAT software copyright 1990 by Meridian Technology Corp).
X.25 software, Version 2.0, NET2, BFE and GOSIP compliant.
TN3270 Emulation software.
Primary Rate ISDN software, Version 1.0.
Backplane revision 1
Manufacture Cookie is not programmed.
1 Ethernet/IEEE 802.3 interface(s)
1 FastEthernet/IEEE 802.3 interface(s)
48 terminal line(s)
4 Channelized T1/PRI port(s)
128K bytes of non-volatile configuration memory.
8192K bytes of processor board System flash (Read/Write)
4096K bytes of processor board Boot flash (Read/Write)
 
Notice: NVRAM invalid, possibly due to write erase.
          --- System Configuration Dialog ---
 
At any point you may enter a question mark '?' for help.
Use ctrl-c to abort configuration dialog at any prompt.
Default settings are in square brackets '[]'.
 

Step 3 When the following message appears, press Enter to accept the default entry (yes) in square brackets:

Would you like to enter the initial configuration dialog? [yes]:
 

Step 4 When the following message appears, press Enter to see the current interface summary:

First, would you like to see the current interface summary? [yes]: 
 
Any interface listed with OK? value "NO" does not have a valid configuration
 
Interface IP-Address OK? Method Status Protocol
Ethernet0 unassigned  NO  unset  up up
FastEthernet0 unassigned  NO  unset  up  down
 

Step 5 Enter a host name for the access server (this example uses 5300):

Configuring global parameters:
 
  Enter host name [Router]: 5300
 
The enable secret is a one-way cryptographic secret used
instead of the enable password when it exists.
 

Step 6 Enter an enable secret password. This password is encrypted (more secure) and cannot be seen when viewing the configuration:

Enter enable secret: lab
 
The enable password is used when there is no enable secret
and when using older software and some boot images.
 

Step 7 Enter an enable password that is different from the enable secret password. This password is not encrypted (less secure) and can be seen when viewing the configuration:

Enter enable password: guessme
 

Step 8 Enter the virtual terminal password, which prevents unauthenticated access to the router through ports other than the console port:

  Enter virtual terminal password: guessagain
 

Step 9 Respond to the following prompts as appropriate for your network:

Configure SNMP Network Management? [yes]:
    Community string [public]:
  Configure LAT? [no]:
  Configure AppleTalk? [no]: yes
    Multizone networks? [no]: yes
  Configure DECnet? [no]:
  Configure IP? [yes]:
    Configure IGRP routing? [yes]:
      Your IGRP autonomous system number [1]: 15

---

Note If you answer no to IGRP, you will be prompted to configure RIP.

---

  Configure CLNS? [no]:
  Configure IPX? [no]: yes
Configure Vines? [no]: 
   Configure XNS? [no]: 
   Configure Apollo? [no]: 
   Configure bridging? [no]: 
 

Step 10 Configure the asynchronous serial lines for the integrated modems on the modules installed in the access server. (If you want to allow users to dial in through the integrated modems, you must configure the async lines.)

Async lines accept incoming modems calls. If you will have
users dialing in via modems, configure these lines.
 
Configure Async lines? [yes]:
Async line speed [115200]:

---

Note We recommend that you do not change this speed.

---

Will you be using the modems for inbound dialing? [yes]:

---

Note If your asynchronous interfaces will be using the same basic configuration parameters, we recommend answering yes to the next prompt. That way you group the modems so that they can be configured as a group. Otherwise, you will need to configure each interface separately.

---

      Would you like to configure group async interface? [yes]:

---

Note Dynamic IP addresses permit dial-in users to choose a static IP address when they dial in. If you do not allow dynamic IP addresses, the access server will provide IP addresses from an IP address pool that you set up later in the next prompt.

---

      Configure for Dynamic IP addresses? [no]:
      Configure for TCP header compression? [yes]:
      Configure for routing updates on async links? [no]:
      Enter the starting address of IP local pool? [X.X.X.X]: 172.20.30.40

---

Note Make sure the starting and ending addresses of the IP pool are in the same subnet.

---

      Enter the ending address of IP local pool? [X.X.X.X]: 172.20.30.88

What is the username of the test user? [user]:
      What is the password of the test user? [passwd]:
    Will you be using the modems for outbound dialing? [no]:
    Configure for Async IPX? [yes]: no
    Configure for Appletalk Remote Access (ARA)? [no]: yes
      AppleTalk Network for ARAP clients [1]:
      Zone name for ARAP clients [ARA Dialins]:
      Allow ARAP "Guest" logins? [yes/no]: yes
 

Step 11 Configure the Ethernet 0 LAN interface:

Configuring interface Ethernet0: 
  Is this interface in use? [yes]: 
  Configure IP on this interface? [yes]: 
    IP address for this interface: 172.21.40.10
 

The next prompts ask about the number of bits in the host portion of the subnet mask.

    Number of bits in subnet field [0]: 
    Class B network is 172.21.0.0, 0 subnet bits; mask is /16
  Configure AppleTalk on this interface? [no]: yes
    Extended AppleTalk network? [no]: 
    AppleTalk network number [0]: 10
    AppleTalk zone name [myzone]: etherzone
  Configure IPX on this interface? [no]: yes
    IPX network number [1]: 
 

Step 12 Configure the Fast Ethernet 0 interface:

  Is this interface in use? [yes]: 

---

Note Full duplex mode enables simultaneous data transfer between a sending and a receiving station.

---

  Operate in full-duplex mode? [no]: yes
  Operate at 100 Mbps speed? [yes]: yes
  Configure IP on this interface? [yes]: yes
    IP address for this interface: 172.22.50.10
 

The next prompts ask about the number of bits in the host portion of the subnet mask.

    Number of bits in subnet field [0]: 
    Class B network is 172.22.0.0, 0 subnet bits; mask is /16
  Configure AppleTalk on this interface? [no]: yes
    Extended AppleTalk network? [no]: y 
    AppleTalk starting cable range [0]: 
  Configure IPX on this interface? [no]: yes
    IPX network number [2]: 
 

Step 13 Configure the ISDN switch type:

 Do you want to configure ISDN switch type? [yes]: 
  The following ISDN switch types are available:
                [a] primary-4ess
                [b] primary-5ess
                [c] primary-dms100
                [d] primary-net5 
                [e] primary-ntt 
                [f] primary-ts014
  Enter the switch type [b]: 
 

Step 14 If you want users to be able to dial in via ISDN or analog modems, configure the controllers:

---

Note All incoming calls to the access server are handled by the controllers, which route calls to the appropriate place inside the access server for processing.

---

These controllers enable users to dial in via ISDN or analog modems.
 
Do you intend to allow users to dial in? [yes]: 
 
There are 4 controllers on this access server. If you want to use the full capacity of the access server configure all controllers.
 
Controller T1 0,1,..etc  in software corresponds to Port 0,1,..etc
on the back of the access server.
 
Configuring controller T1 0:
  Is this controller in use? [yes]: 
  Will you be using PRI on this controller? [yes]: 
  Would you like to enable multilink PPP? [yes]: 

---

Note  If you want to configure the access server for channelized T1, enter no to the above prompt.

---

Configuring controller T1 1:
  Is this controller in use? [yes]: 
  Will you be using PRI on this controller? [yes]: 
  Would you like to enable multilink PPP? [yes]: 
 
Configuring controller T1 2:
  Is this controller in use? [yes]: 
  Will you be using PRI on this controller? [yes]: 
  Would you like to enable multilink PPP? [yes]: 
 
Configuring controller T1 3:
  Is this controller in use? [yes]: 
  Will you be using PRI on this controller? [yes]: 
  Would you like to enable multilink PPP? [yes]: 
 

When you have completed the initial configuration script, messages similar to the following appear:

Running Setup for Cisco IOS Release 11.3(2)T

The messages look similar to the following:

---

Note The displayed messages depend on the Cisco IOS software release and feature set you selected. The screen displays in this section are for reference only and might not exactly reflect the messages on your console.

---

System Bootstrap, Version 11.3(2)T, RELEASED SOFTWARE
Copyright (c) 1994-1998 by cisco Systems, Inc.
AS5300 processor with 32768 Kbytes of main memory
 
rommon 1 b f
program load complete, entry point: 0x80008000, size: 0xef4e0
Self decompressing the image : ############################################### 
[OK]
 
Notice: NVRAM invalid, possibly due to write erase.
program load complete, entry point: 0x80008000, size: 0x415b20
Self decompressing the image :
##########################################################################
##########################################################################
######################################################################[OK]
 
Restricted Rights Legend
 
Use, duplication, or disclosure by the Government is
subject to restrictions as set forth in subparagraph
(c) of the Commercial Computer Software - Restricted
Rights clause at FAR sec. 52.227-19 and subparagraph
(c) (1) (ii) of the Rights in Technical Data and Computer
Software clause at DFARS sec. 252.227-7013.
 
	Cisco Systems, Inc.
	170 West Tasman Drive
	San Jose, California 95134-1706
 
Cisco Internetwork Operating System Software 
IOS (tm) 5300 Software (C5300-JS-M), Version 11.3(2)T RELEASE SOFTWARE (fc1)
Copyright (c) 1986-1998 by cisco Systems, Inc.
Compiled Wed 11-Feb-98 22:25 by ppalleti
Image text-base: 0x600088A0, data-base: 0x60738000
                    
cisco AS5300 (R4K) processor (revision A) with 32768K/8192K bytes of memory.
 
Processor board ID 04614954
R4700 processor, Implementation 33, Revision 1.0 (Level 2 Cache)
Bridging software.
SuperLAT software copyright 1990 by Meridian Technology Corp).
X.25 software, Version 2.0, NET2, BFE and GOSIP compliant.
TN3270 Emulation software.
Primary Rate ISDN software, Version 1.0.
Backplane revision 1
Manufacture Cookie is not programmed.
1 Ethernet/IEEE 802.3 interface(s)
1 FastEthernet/IEEE 802.3 interface(s)
48 terminal line(s)
4 Channelized T1/PRI port(s)
128K bytes of non-volatile configuration memory.
8192K bytes of processor board System flash (Read/Write)
4096K bytes of processor board Boot flash (Read/Write)
                    
--- System Configuration Dialog ---
                          
At any point you may enter a question mark '?' for help.
Use ctrl-c to abort configuration dialog at any prompt.
Default settings are in square brackets '[]'.
 

Step 18 When the following message appears, press Enter to accept the default entry [yes] in square brackets:

Would you like to enter the initial configuration dialog? [yes]:
 

Step 19 When the following message appears, press Enter to see the current interface summary:

First, would you like to see the current interface summary? [yes]:
 
Any interface listed with OK? value "NO" does not have a valid configuration
 
                            Interface IP-Address      OK? Method Status Protocol
                            Ethernet0 unassigned      NO  unset  up  up

FastEthernet0 unassigned      NO  unset  up 
 

Step 20 Enter a host name for the access server:

Configuring global parameters:
 
  Enter host name [Router]: 5300
 
The enable secret is a one-way cryptographic secret used
instead of the enable password when it exists.
 

Step 21 Enter an enable secret password. This password is encrypted (more secure) and cannot be seen when viewing the configuration:

  Enter enable secret: lab
 
The enable password is used when there is no enable secret
and when using older software and some boot images.
 

Step 22 Enter an enable password. This password is not encrypted (less secure) and can be seen when viewing the configuration:

  Enter enable password: guessme
 

Step 23 Enter the virtual terminal password, which is used for remote console access:

  Enter virtual terminal password: guessagain
 

Step 24 Respond to the following prompts as appropriate for your network:

Configure SNMP Network Management? [yes]:
  Community string [public]:
Configure LAT? [no]:
Configure AppleTalk? [no]: yes
  Multizone networks? [no]: yes
Configure DECnet? [no]:
Configure IP? [yes]:
  Configure IGRP routing? [yes]:
    Your IGRP autonomous system number [1]: 15

---

Note If you answer no to IGRP, you will be prompted to configure RIP.

---

Configure CLNS? [no]:
Configure IPX? [no]: yes
Configure Vines? [no]:
Configure XNS? [no]:
Configure Apollo? [no]:
Configure bridging? [no]:
 

Step 25 Configure the asynchronous serial lines for the integrated modems on the modules installed in the access server. (If you want to allow users to dial in through the integrated modems, you must configure the async lines.)

Async lines accept incoming modems calls. If you will have users dialing in via
                            modems, configure these lines.

Configure Async lines? [yes]:
Async line speed [115200]:

---

Note We recommend that you do not change this speed for modems. However, for V.110 terminal adapters, we recommend that the speed not go above 19200.

---

Will you be using the modems for inbound dialing? [yes]:

---

Note If your asynchronous interfaces will be using the same basic configuration parameters, we recommend that you group them so that they can be configured as a group. Otherwise, you will need to configure each interface separately.

---

Would you like to configure group async interface? [yes]:

---

Note Dynamic IP addresses permit dial-in users to choose a static IP address when they dial in. If you do not allow dynamic IP addresses, the access server will provide IP addresses from an IP address pool that you set up later in the next prompt.

---

Configure for Dynamic IP addresses? [no]:
Configure for TCP header compression? [yes]:
Configure for routing updates on async links? [no]:

---

Note Make sure the starting and ending addresses of the IP pool are in the same subnet.

---

Enter the starting address of IP local pool? [X.X.X.X]: 172.20.30.40
Enter the ending address of IP local pool? [X.X.X.X]: 172.20.30.88
What is the username of the test user? [user]:
What is the password of the test user? [passwd]:
Will you be using the modems for outbound dialing? [no]:
Configure for Async IPX? [yes]: no
Configure for Appletalk Remote Access (ARA)? [no]: yes
  AppleTalk Network for ARAP clients [1]:
  Zone name for ARAP clients [ARA Dialins]:
  Allow ARAP "Guest" logins? [yes/no]: yes
 

Step 26 Configure the Ethernet 0 LAN interface:

Configuring interface Ethernet0:
  Is this interface in use? [yes]:
Configure IP on this interface? [yes]:
  IP address for this interface: 172.21.40.10
 

The next prompts ask about the number of bits in the host portion of the subnet mask.

Number of bits in subnet field [0]: 
  Class B network is 172.21.0.0, 0 subnet bits; mask is /16
Configure AppleTalk on this interface? [no]: yes
  Extended AppleTalk network? [no]: 
  AppleTalk network number [0]: 10
  AppleTalk zone name [myzone]: etherzone
Configure IPX on this interface? [no]: yes
  IPX network number [1]: 
 

Step 27 Configure the Fast Ethernet 0 interface:

Configuring interface FastEthernet0:
Is this interface in use? [yes]: 

---

Note Full duplex mode enables simultaneous data transfer between a sending and a receiving station.

---

Operate in full-duplex mode? [no]: yes
Operate at 100 Mbps speed? [yes]: yes
Configure IP on this interface? [yes]: 
  IP address for this interface: 172.22.50.10

The next prompts ask about the number of bits in the host portion of the subnet mask.

Number of bits in subnet field [0]: 
  Class B network is 172.22.0.0, 0 subnet bits; mask is /16
Configure AppleTalk on this interface? [no]: yes
  Extended AppleTalk network? [no]: yes 
  AppleTalk starting cable range [0]: 
Configure IPX on this interface? [no]: yes
  IPX network number [2]: 

---

Note If your access server is using a T1/PRI card, continue with the section "Continuing the Setup Script for T1/PRI Cards" and if your access server is using a E1/PRI card, continue with the section "Continuing the Setup Script for E1/PRI Cards."

---

Continuing the Setup Script for T1/PRI Cards

This section continues the setup script for T1/PRI cards.

Step 1 Enter the letter corresponding to the ISDN switch type that matches your telco switch type:

Do you want to configure ISDN switch type? [yes]: 
  The following ISDN switch types are available:
   [a] primary-4ess
   [b] primary-5ess
   [c] primary-dms100
   [d] primary-net5 
   [e] primary-ntt 
   [f] primary-ts014
  Enter the switch type [b]: 

Step 2 Press Enter to allow users to dial in via ISDN or analog modems:

Next, you will be prompted to configure controllers.
These controllers enable users to dial in via ISDN or analog modems. 
 
Do you intend to allow users to dial in? [yes]: 
   
There are 4 controllers on this access server. If you want to use
the full capacity of the access server configure all controllers.
 
Controller T1 0,1,..etc  in software corresponds to Port 0,1,..etc
on the back of the access server.
   
PRI configuration can be configured to controllers all at once
based on your PRI controllers selection. Where as CAS configuration 
will be configured individually for each controller.
   

Step 3 Enter the number of controllers you will be using for the PRI configuration:

Enter # of controllers, you will be using for PRI configuration [4]:
    
  Configuring controller parameters:
   
  Configuring controller T1 0:
  Configuring PRI on this controller.
  Configuring controller T1 1:
  Configuring PRI on this controller.

Step 4 Set the CAS configuration options for the first controller you are configuring. First, enter yes to set robbed-bit signaling on the controller:

Configuring controller T1 2:
  Will you be using CT1 (robbed bit signaling) on this controller? [yes]: 

Step 5 Enter your telco framing type:

The following framing types are available: esf | sf
  Enter the framing type [esf]: 

Step 6 Enter your telco line code type:

The following linecode types are available: ami | b8zs
  Enter the line code type [b8zs]: 
 

Step 7 Enter the letter corresponding to the signaling type to support modem pooling over the T1 lines:

The following line signaling types are available:
	    [a] e&m-fgb
    	[b] e&m-fgd
    	[c] e&m-immediate-start
    	[d] fxs-ground-start
    	[e] fxs-loop-start
    	[f] sas-ground-start
    	[g] sas-loop-start
  Enter the line signaling type [a]: 

Step 8 Enter the tone signaling type:

The following tone signaling types are available: dtmf | mf
  Enter the tone signal type [dtmf]: 

Step 9 Press Enter to configure digital number identification service (DNIS) over T1 lines:

Do you want to provision DNIS address information? [yes]: 

Step 10 Set the CAS configuration options for the next controller you are configuring.

Configuring controller T1 3:
  Will you be using CT1 (robbed bit signaling) on this controller? [yes]: 
   
The following framing types are available: esf | sf
  Enter the framing type [esf]: 
   
The following linecode types are available: ami | b8zs
  Enter the line code type [b8zs]: 
   
The following line signaling types are available:
    [a] e&m-fgb
    [b] e&m-fgd
    [c] e&m-immediate-start
    [d] fxs-ground-start
    [e] fxs-loop-start
    [f] sas-ground-start
    [g] sas-loop-start
  Enter the line signaling type [a]: b

After you complete the configuration script, messages similar to the following appear:

Current configuration:
version 11.3
no service password-encryption
!
hostname Router
!
enable secret 5 $1$BzCj$3WnJoC.GO0SmB2U7Bd.Kb1
enable password b
!
no ip routing
isdn switch-type primary-5ess
!
!
controller T1 0
  framing esf
  clock source line primary
  linecode b8zs
  pri-group timeslots 1-24
!
controller T1 1
  framing esf
  clock source line secondary
  linecode b8zs
  pri-group timeslots 1-24
!
controller T1 2
  framing esf
  clock source internal
  linecode b8zs
  cas-group 0 timeslots 1-24 type e&m-fgb dtmf dnis
!
controller T1 3
  framing esf
  clock source internal
  linecode b8zs
  cas-group 0 timeslots 1-24 type e&m-fgd 
!
interface Ethernet0
  no ip address
  no ip route-cache
  shutdown
!
interface Serial0:23
  ip unnumbered Ethernet0
  encapsulation ppp
  no ip mroute-cache
  dialer-group 1
  isdn incoming-voice modem
  peer default ip address pool setup_pool
  ppp authentication chap pap
  ppp multilink
!
interface Serial1:23
  ip unnumbered Ethernet0
  encapsulation ppp
  no ip mroute-cache
  dialer-group 1
  isdn incoming-voice modem
  peer default ip address pool setup_pool
  ppp authentication chap pap
  ppp multilink
!
interface FastEthernet0
  no ip address
  no ip route-cache
  shutdown
!
ip classless
access-list 101 permit ip any any
dialer-list 1 protocol ip list 101
!
line con 0
  logging synchronous
line 1 48
line aux 0
line vty 0 4
  password b
  login
!
scheduler interval 1000
end

Step 11 Enter yes to save the configuration, or enter no to erase it:

Use this configuration? [yes/no]: yes
Building configuration...
Use the enabled mode 'configure' command to modify this configuration.
 
 
Press RETURN to get started!
 
 
%LINK-3-UPDOWN: Interface Ethernet0, changed state to up
%LINK-3-UPDOWN: Interface Serial0, changed state to down
%LINK-3-UPDOWN: Interface Serial1, changed state to down
 
<Additional messages omitted.>
 

Step 12 When the messages stop displaying on your screen, press Enter to get the following prompt:

5300>
%AT-6-ONLYROUTER: Ethernet0: AppleTalk port enabled; no neighbors found

---

Note If you see this message, it means that no other AppleTalk routers were found on the network attached to the port.

---

The 5300> prompt indicates that you are now at the command-line interface (CLI) and you have just completed the basic access server configuration. However, this is not a complete configuration. At this point you have two options:

• Run the setup script in the System Configuration dialog again and create another configuration. Enter the following commands to repeat the setup script:

   5300> enable
   Password: <password>
   5300# setup
 

• Modify the existing configuration or configure additional features with the CLI as described in the earlier chapters in this guide, the Dial Solutions Configuration Guide, the Dial Solutions Command Reference Guide, the Cisco IOS software configuration guide, and the command reference publications.

Continuing the Setup Script for E1/PRI Cards

This section continues the setup script for E1/PRI cards.

Step 1 Enter the letter corresponding to the ISDN switch type that matches your telco switch type:

Do you want to configure ISDN switch type? [yes]: 
  The following ISDN switch types are available:
    [a] primary-4ess
    [b] primary-5ess
    [c] primary-dms100
    [d] primary-net5 
    [e] primary-ntt 
    [f] primary-ts014
  Enter the switch type [d]: 

Step 2 Press Enter to allow users to dial in via ISDN or analog modems:

Next, you will be prompted to configure controllers.
These controllers enable users to dial in via ISDN or analog modems.
  
Do you intend to allow users to dial in? [yes]: 
  
There are 4 controllers on this access server. If you want to use
the full capacity of the access server configure all controllers.
  
Controller E1 0,1,..etc  in software corresponds to Port 0,1,..etc
on the back of the access server.
  
PRI configuration can be configured to controllers all at once
based on your PRI controllers selection. Where as CAS configuration 
will be configured individually for each controller.

Step 3 Enter the number of controllers you will be using for the PRI configuration:

Enter # of controllers, you will be using for PRI configuration [4]: 1
  
Configuring controller parameters:
          
Configuring controller E1 0:
Configuring PRI on this controller.

Step 4 Set the CAS configuration options for the first controller you are configuring. First, enter yes to set channel-associated signaling on the controller:

Configuring controller E1 1:
Will you be using CE1 (channel associated signaling) on this controller? [yes]: 

Step 5 Enter your telco's framing type.

The following framing types are available: no-crc4 | crc4
  Enter the framing type [crc4]: 

Step 6 Enter your telco line code type:

The following linecode types are available: ami | hdb3
  Enter the line code type [hdb3]: 

Step 7 Enter the letter corresponding to the signaling type to support modem pooling over the E1 lines:

The following line signaling types are available:
  [a] e&m-fgb
  [b] e&m-fgd
  [c] e&m-immediate-start
  [d] fxs-ground-start
  [e] fxs-loop-start
  [f] sas-ground-start
  [g] sas-loop-start
  [h] r2-analog
  [i] r2-digital
  [j] r2-pulse
  [k] p7
Enter the line signaling type [i]: 

Step 8 Enter the letter corresponding to the tone signaling type:

The following tone signaling types are available:
  [a] dtmf
  [b] r2-compelled
  [c] r2-non-compelled
  [d] r2-semi-compelled
Enter the tone signaling type [b]: 

Step 9 Press Enter to provision ANI address information over E1 lines:

Do you want to provision ANI address information? [yes]: 

Step 10 Enter the number corresponding to the country for which you are configuring R2 signaling:

R2 signaling is available for the following countries:
  [0] itu
  [1] argentina
  [2] australia
  [3] brazil
  [4] china
  [5] columbia
  [6] costarica
  [7] easteurope
  [8] ecuador itu
  [9] ecuador lme
  [10] greece
  [11] guatemala
  [12] hongkong-china
  [13] indonesia
  [14] israel
  [15] korea
  [16] malaysia
  [17] newzealand
  [18] paraguay
  [19] peru
  [20] philippines
  [21] singapore
  [22] saudiarabia
  [23] southafrica-panaftel
  [24] telmex
  [25] telnor
  [26] thailand
  [27] uruguay
  [28] venezuela
  [29] vietnam
  Enter the country name [0]: 

Step 11 Set the CAS configuration options for the next controller you are configuring. Repeat Step 4 to Step 10 to configure the options:

Configuring controller E1 2:
Will you be using CE1 (channel associated signaling) on this controller? [yes]: 
  
The following framing types are available: no-crc4 | crc4
  Enter the framing type [crc4]: 
 
The following linecode types are available: ami | hdb3
  Enter the line code type [hdb3]: 
  
The following line signaling types are available:
  [a] e&m-fgb
  [b] e&m-fgd
  [c] e&m-immediate-start
  [d] fxs-ground-start
  [e] fxs-loop-start
  [f] sas-ground-start
  [g] sas-loop-start
  [h] r2-analog
  [i] r2-digital
  [j] r2-pulse
  [k] p7
  Enter the line signaling type [i]: h
  
The following tone signaling types are available:
  [a] dtmf
  [b] r2-compelled
  [c] r2-non-compelled
  [d] r2-semi-compelled
  Enter the tone signaling type [b]: c
 
Do you want to provision ANI address information? [yes]: no
         
	R2 signaling is available for the following countries:
  [0] itu
  [1] argentina
  [2] australia
  [3] brazil
  [4] china
  [5] columbia
  [6] costarica
  [7] easteurope
  [8] ecuador itu
  [9] ecuador lme
  [10] greece
  [11] guatemala
  [12] hongkong-china
  [13] indonesia
  [14] israel
  [15] korea
  [16] malaysia
  [17] newzealand
  [18] paraguay
  [19] peru
  [20] philippines
  [21] singapore
  [22] saudiarabia           
  [23] southafrica-panaftel
  [24] telmex
  [25] telnor
  [26] thailand
  [27] uruguay
  [28] venezuela
  [29] vietnam
 
  Enter the country name [0]: 15
  
Configuring controller E1 3:
Will you be using CE1 (channel associated signaling) on this controller? [yes]: 
      
The following framing types are available: no-crc4 | crc4
  Enter the framing type [crc4]: 
 
The following linecode types are available: ami | hdb3
  Enter the line code type [hdb3]: 
 
The following line signaling types are available:
  [a] e&m-fgb
  [b] e&m-fgd
  [c] e&m-immediate-start
  [d] fxs-ground-start
  [e] fxs-loop-start
  [f] sas-ground-start
  [g] sas-loop-start
  [h] r2-analog
  [i] r2-digital
  [j] r2-pulse
  [k] p7
  Enter the line signaling type [i]: j
 
The following tone signaling types are available:
  [a] dtmf
  [b] r2-compelled
  [c] r2-non-compelled
  [d] r2-semi-compelled
  Enter the tone signaling type [b]: d
 
Do you want to provision ANI address information? [yes]: 
  
R2 signaling is available for the following countries:
  [0] itu
  [1] argentina
  [2] australia
  [3] brazil
  [4] china
  [5] columbia
  [6] costarica
  [7] easteurope
  [8] ecuador itu
  [9] ecuador lme
  [10] greece
  [11] guatemala
  [12] hongkong-china
  [13] indonesia
  [14] israel
  [15] korea
  [16] malaysia
  [17] newzealand
  [18] paraguay
  [19] peru
  [20] philippines
  [21] singapore
  [22] saudiarabia           
  [23] southafrica-panaftel
  [24] telmex
  [25] telnor
  [26] thailand
  [27] uruguay
  [28] venezuela
  [29] vietnam
  Enter the country name [0]: 16

After you complete the configuration script, messages similar to the following appear.

5300# wr t
Building configuration...
 
Current configuration:
!
version 11.3
no service password-encryption
!
hostname Router
!
enable secret 5 $1$R20d$Yh/u1cqh63haVfbmHI0r.0
enable password b
!
no ip routing
isdn switch-type primary-net5
!
controller E1 0
clock source line primary
pri-group timeslots 1-31
!
controller E1 1
clock source line secondary
cas-group 0 timeslots 1-15,17-31 type r2-digital r2-compelled ani
cas-custom 0
!  
controller E1 2
clock source internal
cas-group 0 timeslots 1-15,17-31 type r2-analog r2-non-compelled 
cas-custom 0
country telmex use-defaults
category 2
answer-signal group-b 1
!
	controller E1 3
clock source internal
cas-group 0 timeslots 1-15,17-31 type r2-pulse r2-semi-compelled ani
cas-custom 0
country telnor use-defaults
category 2
answer-signal group-b 1
!
interface Ethernet0
no ip address
no ip route-cache
shutdown
!
interface Serial0:15
ip unnumbered Ethernet0
encapsulation ppp
no ip mroute-cache
dialer-group 1
isdn incoming-voice modem
peer default ip address pool setup_pool
ppp authentication chap pap
ppp multilink
!
interface FastEthernet0
no ip address
no ip route-cache
shutdown
!
ip classless
access-list 101 permit ip any any
dialer-list 1 protocol ip list 101
!
line con 0
logging synchronous
line 1 96
line aux 0
line vty 0 4
password b
login
!
scheduler interval 1000
end

Step 12 Enter yes to save the configuration, or enter no to erase it:

Use this configuration? [yes/no]: yes
Building configuration...
Use the enabled mode 'configure' command to modify this configuration.
 
Press RETURN to get started!
 
%LINK-3-UPDOWN: Interface Ethernet0, changed state to up
%LINK-3-UPDOWN: Interface Serial0, changed state to down
%LINK-3-UPDOWN: Interface Serial1, changed state to down
 
<Additional messages omitted.>
 

Step 13 When the messages stop displaying on your screen, press Enter to get the following prompt:

5300>
%AT-6-ONLYROUTER: Ethernet0: AppleTalk port enabled; no neighbors found

---

Note If you see this message, it means that no other AppleTalk routers were found on the network attached to the port.

---

Step 14 The 5300> prompt indicates that you are now at the command-line interface (CLI) and you have just completed the basic access server configuration. However, this is not a complete configuration. At this point you have two options:

• Run the setup script in the System Configuration dialog again and create another configuration. Enter the following commands to repeat the setup script:

   5300> enable
   Password: <password>
   5300# setup
 

• Modify the existing configuration or configure additional features with the CLI as described in the chapter "Basic Configuration," Dial Solutions Guide, Cisco IOS software configuration guide and command reference publications.

Where to Go Next

At this point you can proceed to:

• The chapter "Using Cisco IOS Software" to learn how to use the CLI to configure additional features.

• The chapter "Access Service Security" to configure security on the access server.

• The Dial Solutions Guide, Cisco IOS software configuration guide and command reference publications for more advanced configuration topics. These publications are available on the Documentation CD-ROM that came with your access server, on the World Wide Web from Cisco's home page, or you can order printed copies.

Posted: Thu Apr 1 13:00:49 PST 1999
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