Preparing for First-Time Startup

This chapter provides the information you need to prepare for first-time startup. Read it before you power up your system.

Preparing for first-time startup is highly recommended to take advantage of the full range of configurability available on Cisco routers. Note that you are not required to plan your network before sitting at the console and using the setup command facility for the first time. Connecting to the console port is required. However, by separating the planning tasks from the configuration tasks you can tailor the router to meet your needs and to fit within a consistent scheme.

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Note A graphical representation of a setup command facility session has been provided in Appendix A.

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This chapter describes the following tasks:

• Filling in the System Configuration Worksheet (global parameters)

• Filling in Interface Configuration Worksheets (interface parameters)

• Connecting to the console port

The values on these worksheets map to the two-part configuration process of the setup command which is automatically invoked at first-time startup. In the first part, "Configuring global parameters," you specify global or system-wide configuration information. You will use the values you have filled in on the System Configuration Worksheet. In the second part, "Configuring interface parameters," you configure each individual interface. You will use the values you have filled in on the Interface Configuration Worksheet. Blank configuration worksheets have been provided at the back of this guide for your convenience.

Each Interface Configuration Worksheet can accommodate four interfaces. If you will be installing more than four interfaces on your router, make copies of the blank worksheets.

In the following descriptions of the parameters that you will determine, the factory default is marked with the Default: label.

Filling in the System Configuration Worksheet

The System Configuration Worksheet, if properly filled out, will contain all the values you need to enter at the "Configuring global parameters:" portion of the setup command facility. Remember, the setup command facility is automatically invoked at first-time startup. You want all your preparations to be complete so that you can get your system up and running quickly and uneventfully.

The System Configuration Worksheet can assist you in gathering and maintaining information about your system. Two levels of information are listed on the System Configuration Worksheet:

• System hardware information

• Global parameters

System hardware information is not requested at first-time startup, but is useful to note on the System Configuration Worksheet to complete your records. Global parameters, however, are requested at first-time startup.

In the following parameter descriptions, the action you need to take to fill in the worksheet is marked with the Action: label.

The System Configuration Worksheet is shown on the next page. Retrieve the blank System Configuration Worksheet provided at the back of this guide before continuing. As you proceed through the following descriptions, record your information on it.

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Note To configure a specific protocol on an individual interface, you must first specify that protocol as a global parameter. For example, if you determine that XNS is to be installed in your system, you should also be prepared to provide interface-specific information for XNS on the Interface Configuration worksheet. You cannot configure XNS at the interface level if you have not specified it at the global level. You will never see XNS parameters at the interface level of the setup command facility if you specify no at the global level of the setup command facility.

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System Configuration Worksheet

Determining System Hardware Information

This section contains information that helps you record the system hardware information on the System Configuration Worksheet. This
information is not requested at first-time startup.

System Type

Cisco offers several network routers designed to accommodate a wide variety of connectors, appliques, and interface controller cards. The system type is clearly marked on the front of your router. The system types available are as follows:

• AGS+

• AGS

• MGS

• CGS

• IGS/L, IGS/R, or IGS/TR

• Cisco 3000

• Cisco 4000

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Note For the A-type, M, and C chassis, the connectors and appliques on a new system are installed at the factory according to customer specifications. If you have an existing system and want to change the factory preconfigurations, you will need to order the card, connector, or applique separately, and consult the configuration notes that accompany the new component for installation instructions.

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Default: None

Action: Circle your system type from those listed on the System Configuration Worksheet.

System Serial Number

Each system has a serial number placed on the bottom panel. This information may be useful in tracking your physical inventory.

Default: None

Action: Note your system serial number on the worksheet.

Number of Interfaces

The number of interfaces depends on the type of system you have and the number of interface cards you have installed. If you are installing a new system, it will be preconfigured at the factory, meaning that the number of interfaces are determined when you order the system. Check the back of your router to determine the installed interfaces.

The number of interfaces installed will affect the second part of the configuration process. It will determine how many Interface Configuration Worksheets you will need to fill out, and it will determine the information you need to provide at first-time startup.

Default: None

Action: Note the number of interfaces on the System Configuration Worksheet.

Determining Global Parameters

This section contains information about each global parameter that is configurable through the setup command facility. Use this information to complete the System Configuration Worksheet.

Host Name

The host name is the name of the host computer of the network server. The name you specify is used in the system prompts and can contain 1 to 80 uppercase and lowercase alphanumeric characters. The host name is case sensitive.

Try to use names that will help you to identify the location of the router, or to whom it is providing routing services. If you will be naming more than one host within your network, try to devise a consistent naming scheme so that host identification is easy.

Default: Router

Action: Note the host name in the System Configuration Worksheet the way you want it to appear in the system prompts.

Enable Password

Your system has two levels of security: user and privileged. The commands available at the user level are a subset of those available at the privileged level. Because many of the privileged commands are used to set operating parameters, these should be password-protected to prevent unauthorized use.

The enable password allows a user access to the privileged command level. There is no default enable password. However, the enable password you set during first-time startup up will display as the default the next time you run the setup command facility.

An enable password can contain 1 to 80 uppercase and lowercase alphanumeric characters; a number cannot be the first character. Spaces are also valid password characters; for example, "two words" is a valid password.

For more information about the enable password, refer to the "Establishing Passwords and System Security" section of the Router Products Configuration and Reference publication.

Default: None

Action: Note the enable password on the System Configuration Worksheet.

Virtual Terminal Password

In addition to the enable password, each virtual terminal line can also have an individual password. Virtual terminals require a password. If you do not set a password, the system will respond to attempted connections by displaying an error message and closing the connection. (Virtual terminals are used when you access the router remotely via the Telnet or DEC MOP protocols.)

A virtual terminal password can contain from 1 to 80 uppercase and lowercase alphanumeric characters; a number cannot be the first character. Spaces are also valid password characters; for example, "two words" is a valid password. The virtual terminal password is case sensitive. There is no default virtual terminal password. However, the virtual terminal password you set during first-time startup will display as the default the next time you run the setup command facility.

If desired, you can allow line connections without a password. Refer to the "Establishing Passwords and System Security" section of the Router Products Configuration and Reference publication for more information.

Default: None

Action: Note the virtual terminal password on the System Configuration Worksheet.

SNMP

The Simple Network Management Protocol (SNMP) is the most widely supported open standard for network management. It provides a means to access and set configuration and runtime parameters of routers and communication servers. SNMP defines a set of functions that may be used to monitor and control network elements.

SNMP is configured on a global basis only; it cannot be specified for individual interfaces.

Default: No

Action: Circle Yes on the System Configuration Worksheet if you want to configure SNMP on a system-wide basis. At first-time startup this value configures read-only SNMP with a blank password. If you do not want to run SNMP on your system, circle No.

IP and Routing Protocol

The Internet Protocol (IP) was originally defined by the United States Department of Defense (DoD) as a standard protocol for interconnecting computers from different manufacturers on a given network. IP is now the de facto standard for vendor-independent networking.

Default: Yes

Action: Circle Yes on the System Configuration Worksheet if you plan to route IP. Circle No if you do not want to route IP on your system.

You need to select an interior routing protocol for IP. You can specify only one interior routing protocol to operate on your system using the setup command facility: Interior Gateway Routing Protocol (IGRP) or Routing Information Protocol (RIP). These protocols are mutually exclusive.

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Note Other routing protocols are available available on Cisco routers However, you cannot configure them through the setup command facility. You must enable it through other commands. Refer to the Router Products Configuration and Reference for more information about the other routing protocols.

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• IGRP routing

IGRP, developed by Cisco Systems, provides dynamic internetwork routing that automatically adapts to changes in network topology or status. It is especially valuable in large networks with complex topologies, comprised of segments having different bandwidth and delay characteristics.

If you will be using IGRP routing, you also need to provide an autonomous system number.

Default: Yes

Action: Circle Yes if you plan to route IGRP or No if you do not want to use IGRP routing.

• IGRP autonomous system number

Autonomous system numbers usually are assigned by the DDN Network Information Center. An autonomous system number is used to distinguish different groups within a network, or autonomous system. The system number must be a decimal number between 1 and 65535.

Default: 1

Action: Note the system number you want to assign to your system on the System Configuration Worksheet.

• RIP routing

RIP is used by Berkeley-derived UNIX systems to dynamically exchange routing information among a small set of computers. Usually, all the participating machines attach to a single local area network. RIP works well for small, isolated networks with simple topologies.

During first-time startup, you will not be asked whether you want RIP routing during first-time startup unless you specifically answer No to IGRP routing.

Default: Yes

Action: Circle Yes to configure RIP routing or No if you do not want to configure RIP routing.

DECnet Information

DECnet is a protocol suite developed and supported by Digital Equipment Corporation. The DECnet protocol associates addresses with machines, not interfaces.

A router can only have one DECnet address. DECnet addresses are specified by area number and node number. For example, in DECnet address 53.6, DECnet host 6 is located in area 53.

An area can span many routers and many areas can be attached to a single cable. Therefore, if a DECnet host such as a router exists on many cables, it uses the same area/node address for itself on all of them. This type of addressing is called DECnet Phase IV addressing.

Default: No

Action: Circle Yes on the System Configuration Worksheet if you plan to use DECnet Phase V addressing. Circle No if you do not want to use DECnet Phase IV. If you want Phase V addressing, you must select Connectionless Network Services (CLNS) protocol in addition to selecting No DECnet Phase IV addressing.

If you will be using DECnet Phase IV addressing, you must also provide the area number, node number, and whether you want area routing. Indicate values on the System Configuration Worksheet for the following:

• Area number

Area numbers are values that indicate a contiguous set of network segments.

Default: 1

Action: Assign a decimal number in the range 1 through 63.

• Node number

Each area consists of machines uniquely identified by their node number.

Default: 1

Action: Assign a decimal number in the range 1 through 1023.

• Area (Level 2) routing

A DECnet router always participates in the routing protocol for its home area. However, it does not necessarily participate in the routing protocol used to get packets into other areas. Instead, it routes packets destined to other areas via an area router.

Default: No

Action: Circle Yes if your router will have direct connections to other area routers in other areas. Circle No if you do not want to configure area routing.

XNS Use

XNS was originally designed to run over Ethernet. XNS can be routed over Ethernets, FDDI, Token Rings, and over point-to-point serial lines. Cisco Systems supports the Xerox Network Service (XNS) protocols. For detailed information about Cisco's implementation of the XNS protocols, refer to the "Routing XNS" chapter in the Router Products Configuration and Reference publication.

Default: No

Action: Circle Yes on the System Configuration Worksheet if you plan to configure XNS routing on your system. Circle No if do not want to configure XNS routing on your system.

Novell IPX

Novell IPX is the network protocol used by Novell's NetWare products. Cisco Systems supports Novell IPX. For detailed information about Cisco's implementation of Novell IPX, refer to the "Routing Novell IPX" chapter in the Router Products Configuration and Reference publication.

Default: No

Action: Circle Yes if you plan to configure Novell IPX or No if you do not want to configure Novell IPX.

Apollo

The Apollo Domain (Apollo) routing protocol is the native-mode networking protocol for Apollo workstations. This protocol allows an Apollo host to have interfaces on more than one physical network. Each physical network is identified by a unique 32-bit addresses in hexadecimal. The address is made up of a network number followed by a host number.

Cisco's implementation supports packet forwarding and routing for Apollo on Ethernet, FDDI, and serial interfaces using HDLC and X.25 encapsulation. Direct attachment to the 12-megabit Domain Token Ring is not supported.

Default: No

Action: Circle Yes to configure Apollo or No if you do not want to configure Apollo.

If you will be configuring Apollo on your router, you must also determine the Apollo routing number.

• Apollo routing number

An Apollo routing number is the Apollo host number. This number must be a unique five-digit hexadecimal number between 1 and FFFFE.

Default: 1

Action: Note the routing number you want to assign to your system on the System Configuration Worksheet.

AppleTalk

AppleTalk is a network protocol developed by Apple Computer. It was designed as a client-server, or distributed, network system. Users share network resources such as files and printers with other users. Interaction with servers are transparent to the user.

Cisco routers support the AppleTalk network protocol (both extended and nonextended) over FDDI, Ethernet, Token Ring, synchronous serial, and X.25 interfaces.For detailed information about Cisco's implementation of AppleTalk, refer to the "Routing AppleTalk" chapter in the Router Products Configuration and Reference publication.

Default: No

Action: Circle Yes to configure AppleTalk or No if you do not want to configure AppleTalk.

If you will be configuring AppleTalk on your router, you must also determine whether you will have multizone networks.

• Multizone networks

Multiple zones are an option in AppleTalk Phase 2 (extended), but not in AppleTalk Phase 1 (nonextended). If you have Phase 2 and the internetwork compatibility flag is set to "yes," then you must not configure a multizone network; compatible internetworks cannot use multiple AppleTalk zones.

Default: No

Action: Circle Yes if you plan to configure multizone networks or No if you do not want to configure multizone networks.

CLNS

The Cisco Systems routing software supports packet forwarding and routing for the Connectionless Network Services Protocol (CLNS), an International Organization for Standardization (ISO) implementation. CLNS provides the basis for DECnet Phase V.

To understand CLNS routing, you need to be familiar with the hierarchical concepts of domain and area. At the top of the hierarchy is a set of routing domains. The domain address uniquely identifies the routing domain. Within each routing domain is one or more areas. The area address uniquely identifies the area. For detailed information about Cisco's implementation of CLNS, refer to the "Switching ISO CLNS" and "ISO CLNS Routing Protocols" chapters in the Router Products Configuration and Reference publication.

Default: Yes

Action: Circle Yes if you plan to configure CLNS. Circle No if you do not want to configure CLNS for your system.

If you plan to configure CLNS on your system, you can provide router tag, domain, area, and station ID information or you can allow the system to use default values.

• CLNS router tag

By specifying a router tag, you can refer to an area symbolically, rather than using an area number that may be hard to remember. A router tag can contain 1 to 80 alphanumeric characters. It is not case sensitive.

Default: area_1

Action: Note your CLNS router tag on the System Configuration Worksheet.

• CLNS domain

Areas are connected to other areas to form routing domains.A domain can be a 1- to 22-digit hexadecimal number in the form XX.XXXX.XXXX.XXXX.XXXX.XXXX.

If you use the default domain number 49, your number is not globally unique and you will experience difficulty when connecting to other domains.

Default: 49

Action: Note your CLNS domain number on the System Configuration Worksheet.

• CLNS area

In the CLNS protocol, the lowest level of the routing hierarchy is the area. An area is a set of networks connected by routers. An area number is represented by a four-digit hexadecimal number in the range 0001 through FFFF.

Default: 0001

Action: Note your CLNS area number on the System Configuration Worksheet.

• CLNS station ID

Each host needs a unique number; the CLNS station ID provides this unique host number.The station ID is a 12-digit hexadecimal value in the form XXXX.XXXX.XXXX.

Default: The default is based on the MAC layer address of the lowest Ethernet interface.

Action: Note your CLNS station ID on the System Configuration Worksheet.

Banyan VINES

The Banyan Systems Virtual Network Services (VINES) protocol was designed for PC networks. Cisco routers support the VINES network protocol over all medias types. For detailed information about Cisco's
implementation of VINES, refer to the "Routing VINES" chapter in the Router Products Configuration and Reference publication.

Default: No

Action: Circle Yes if you plan to configure VINES. Circle No if you do not want to configure VINES.

Bridging

Cisco Systems' routers support transparent and source-route bridging. However, you can configure only transparent bridging using the setup command facility.

You can configure transparent bridging only if your system has bridging software installed. To determine whether your system has bridging capability, look at the installed hardware banner displayed at the first-time startup. Note that bridging, like routing, is configured for the system as a whole. That is, if a protocol is being bridged, it must be bridged on all interfaces. Therefore, you cannot route IP on one interface and bridge it on another.

For more information on bridging, refer to the bridging section in the Router Products Configuration and Reference publication.

Default: No

Action: Circle Yes if you plan to configure transparent bridging (and bridging software has been ordered and installed). Circle No if you do not want to configure transparent bridging on your system.

ISDN BRI Switch Type

The Integrated Services Digital Network (ISDN) Basic Rate Interface is currently supported on the Cisco 3000 only. An ISDN BRI connection is made up of two B-channels that are each treated as a single serial line. You can use the B-channels with HDLC and Point-to-Point Protocol (PPP) encapsulation. Although each channel is treated as a separate line, you cannot configure the channels separately. A single switch type must be configured for the router as a whole.

The possible switch types are as follows:

• Basic rate switches (basic-net3)

• AT&T 5ESS basic rate switches (basic-5ess)

• NT DMS-100 basic rate switches (basic-dms100)

• French VN2 ISDN switches (vn2)

• Japanese KDD ISDN switches (kdd)

• Japanese NTT ISDN switches (ntt)

• German 1TR6 ISDN switches (basic-1tr6)

Default: None

Action: Note the value associated with the switch type you plan to configure on the System Configuration Worksheet. The valid values are presented in parentheses in the list above.

Filling in the Interface Configuration Worksheet

After you complete the System Configuration Worksheet, fill in the Interface Configuration Worksheet. The interface parameters depend on the decisions you have made about the global parameters. For example, if you have not configured a protocol at the global level, you do not need to configure it at the interface level.

You need to provide the information in this section for each of the installed interfaces.

The Interface Configuration Worksheet, if properly filled out, will contain all the values you need to enter at the "Configuring interface parameters:" portion of the setup command facility. Remember, the setup command facility is automatically invoked at first-time startup. You want all your preparations to be complete.

The Interface Configuration Worksheet can assist you in gathering and maintaining information about the installed interfaces. Two levels of information are listed on the Interface Configuration Worksheet: system hardware information and interface parameters. System hardware information is not requested at first-time startup, but is useful to note on the Interface Configuration Worksheet to complete your records. Interface parameters, however, are requested at first-time startup.

In the following descriptions of the parameters that you will determine, the action you need to take to fill in the worksheet for each parameter is marked with the Action: label.

The Interface Configuration Worksheet is shown on the following page. Retrieve the blank Interface Configuration Worksheet provided at the back of this guide before continuing. As you proceed through the following descriptions, record the information on it.

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Note If you will be installing more than four interfaces on your router, you will need more than one Interface Configuration Worksheet. You made need to make copies of the blank worksheets provided.

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Interface Configuration Worksheet

Determining System Hardware Information

The values for the following system hardware information should be the same as the ones you have indicated on the System Configuration Worksheet:

• System type

• System serial number

• Host name

• Number of interfaces

Refer to the "Filling in the System Configuration Worksheet" section earlier in this chapter for information about these values.

Determining Interface Parameters

This section contains information about each interface parameter that is configurable through the setup command facility. Use this information to complete the Interface Configuration Worksheet.

Interface Name

The setup command facility automatically presents each installed interface for you to configure. The interfaces are presented in the same order as they are installed in the chassis. For example, if you have two Token Ring interfaces, you would be prompted to configure interface TokenRing1 after you completed TokenRing0.

The number of interfaces indicates how many columns you will need to provide information in. If you have more than four interfaces, you will need more than one Interface Configuration Worksheet.

Default: The default is based on the interfaces installed in the chassis.

Action: Write each interface name across the top of the Interface Configuration Worksheet in the row labeled "Interface Name."

Interface In Use

The setup command facility lets you decide whether you want to configure an installed interface at first-time startup. If at first-time startup you accept the configuration script, the system will shut down the interfaces that you have indicated not to configure.

Default: Yes

Action: If you plan to configure a particular interface at first-time startup, write Yes in the column for that interface. If you do not plan to configure the interface at first-time startup, write No.

Token Ring Speed

If you have a Token Ring board installed, you need to select a speed for your network. You can select 4 to set the Token Ring speed to 4 Mbps, or 16 to set the Token Ring speed to 16 Mbps. Note once you set this value, you will not be asked again by the setup command facility.

Caution If you select the wrong speed, the ring will be brought down.

Default: 16

Action: Select the correct Token Ring speed for your network.

IP for an Interface

You need to determine whether IP routing will be used for a particular interface.

Default: Yes

Action: Write Yes on the Interface Configuration Worksheet if you plan to use IP routing for the interface. Write No if you do not want to use IP routing for the interface. Repeat this for each of the installed interfaces you plan to configure.

• IP unnumbered

If you will be using IP routing on a serial interface, you must determine whether it will be unnumbered.

Default: No

Action: Write Yes on the Interface Configuration Worksheet if you plan to use IP unnumbered routing for the interface. Write No if you do not want to use IP unnumbered routing for the interface. Repeat this for each of the installed serial interfaces you plan to configure.

• Interface name

If you selected unnumbered, you need to provide an interface name. The interface name is the name of another interface on which the router has an assigned IP address.

Default: None

Action: Write an interface name such as Ethernet 0 onto the Interface Configuration Worksheet to be used by the serial interface you plan to use IP unnumbered routing. Repeat this for each of the installed serial interfaces you plan to configure.

If you will be using IP routing on an interface you must also provide the IP address and subnet mask bits for that interface. Indicate values on the Interface Configuration Worksheet as follows:

• IP address for this interface

Internet addresses are 32-bit values assigned to hosts that use the IP protocols. These addresses are usually written in dotted decimal format (four decimal numbers separated by periods) such as 192.17.5.100. Each number is an eight-bit value between 0 and 255.

The addresses are divided into three classes; the classes differ in the number of bits allocated to the network and host portions of the address.

The Class A Internet address format allocates the highest eight bits to the network field and sets the highest-order bit to 0 (zero). The remaining 24 bits form the host field.

The Class B Internet address allocates the highest 16 bits to the network field and sets the two highest-order bits to 1, 0. The remaining 16 bits form the host field.

The Class C Internet address allocates the highest 24 bits to the network field and sets the three highest-order bits to 1,1,0. The remaining eight bits form the host field.

Default: None

Action: Enter your Internet address in dotted decimal form (for example, 131.108.2.5).

Table 1-1 provides a summary of subnetting parameters.

Summary of Subnetting Parameters

First Class	First Byte	Network Bits	Host Bits
A	1-126	8	24
B	128-191	16	16
C	192-223	24	8

• Subnet mask bits

Subnetting is an extension of the Internet addressing scheme, which allows multiple, physical networks to exist within a single Class A, B, or C network. The usual practice is to use a few of the leftmost bits in the host portion of the network address for a subnet field. The subnet mask controls whether or not subnetting is in effect on a network.

Internet addressing conventions allow either 24, 16, or 8 bits for a subnet mask, depending on whether your address is Class A, B, or C, respectively. However, because the last two of these bits are used for the host address, the setup command facility allows you to specify up to 22, 14, or 6 bits for your subnet mask.

Default: 0

Action: Subnet mask bits should be defined as a decimal number between 0 and 22, 0 and 14, or 0 and 6, depending on whether your network is Class A, B, or C, respectively. Do not specify 1 as the number of bits for the subnet field. Such a specification would provide either an all zeros or all ones subnet field, both of which are reserved by Internet conventions.

DECnet for an Interface

Determine whether DECNet Phase IV addressing will be used on a particular interface.

Default: No

Action: Write Yes on the Interface Configuration Worksheet if you plan to use DECnet Phase IV addressing for the interface. Write No if you do not want to use DECnet Phase IV addressing. for the interface. Repeat this for each of the installed interfaces you plan to configure.

If you will be using DECnet Phase IV addressing on an interface, you must also provide the route cost for that interface. Indicate a value on the Interface Configuration Worksheet as follows:

• Cost

To enable DECnet on an interface, a route cost must be associated with the interface. This cost is used by the DECnet routing protocol to determine favorable paths.

Default: 10

Action: Write a decimal number between 1 and 63 on the Interface Configuration Worksheet. A suggested cost for the Ethernet is 4, for FDDI it is 1, for Token Ring it is 10, and for serial links it is greater than 10.

XNS for an Interface

Determine whether XNS will be used on a particular interface.

Default: No

Action: Write Yes on the Interface Configuration Worksheet if you plan to use XNS on the interface. Write No if you do not want to use XNS on the interface. Repeat this for each of the installed interfaces you plan to configure.

If you will be using XNS on an interface, you must also provide the network number for that interface. Indicate the information on the Interface Configuration Worksheet as follows:

• XNS network number

An XNS network number is a 32-bit value. XNS requires that a network number be associated with every network segment. It must be a decimal number between 1 and 4294967294.

Default: The default is 1 for the first interface, 2 for the second interface, and so on.

Action: Write the XNS network number on the Interface Configuration Worksheet.

Novell for an Interface

Determine whether Novell IPX will be used on a particular interface.

Default: No

Action: Write Yes on the Interface Configuration Worksheet if you plan to use Novell IPX on the interface. Write No if you do not want to use Novell IPX on the interface. Repeat this for each of the installed interfaces you plan to configure.

If you will be using Novell on an interface, you must also provide the network number for that interface. Indicate the network number on the Interface Configuration Worksheet as follows:

• Novell network number

A Novell network number is a 32-bit value. Novell requires that a network number be associated with every network segment. It must be a hexadecimal decimal number between 1 and FFFFFFFE.

Default: The default is 1 for the first interface, 2 for the second interface, and so on.

Action: Write the Novell network number on the Interface Configuration Worksheet for the interface. Repeat for each interface.

Apollo for an Interface

Determine whether Apollo Domain addressing will be used on a particular interface.

Default: No

Action: Write Yes on the Interface Configuration Worksheet if you plan to use Apollo Domain (Apollo) addressing on the interface. Write No if you do not want to use Apollo on the interface. Repeat this for each of the installed interfaces you plan to configure.

If you will be using Apollo on an interface, you must also provide the network number for that interface. Indicate the network number on the Interface Configuration Worksheet as follows:

• Apollo network number

An Apollo network number is a 32-bit value. It must be a decimal number between 1 and FFFFFFFE.

Default: None

Action: Write the Apollo network number for the interface on the Interface Configuration Worksheet. Repeat this for each of the installed interfaces you plan to configure.

AppleTalk for an Interface

Determine whether AppleTalk will be used on a particular interface.

Default: No

Action: Write Yes on the Interface Configuration Worksheet if you plan to use AppleTalk on the interface. Write No if you do not want to use AppleTalk on the interface. Repeat this for each of the installed interfaces you plan to configure.

Remember, during configuration of the global parameters, you specified whether you wanted to configure multizone networks. Your answer applies to every interface you configure.

If you will be using AppleTalk on an interface, you must also provide the other information for that interface. Indicate the following information on the Interface Configuration Worksheet.

• Extended AppleTalk

Extended AppleTalk networks, a feature of AppleTalk Phase 2, support Token Ring and FDDI protocols and assign a node to a cable range instead of a single network number. Token Ring and FDDI
interfaces are automatically configured for extended AppleTalk networks, therefore this question applies to Ethernet and serial
interfaces only.

Default: No

Action: Write Yes on the Interface Configuration Worksheet if you plan to use extended AppleTalk on the interface. Write No if you do not want to use extended AppleTalk on the interface.

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Note If you answer Yes, you need to specify the starting and ending cable ranges and multiple AppleTalk zone names. If you answer No, you need to specify the AppleTalk network number and a single AppleTalk zone name.

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• AppleTalk starting cable range

A cable range specifies a contiguous list of network numbers from which nodes can dynamically assign their addresses. If you have a network with fewer than one hundred nodes connected to the same network, you can specify a cable range with the same starting and ending value. If you want the router to obtain its configuration from an existing router directly connected to the segment, specify the value 0.

If you specify the value 0, you will not need to provide an ending cable range or AppleTalk zone name. A starting cable range value must be a decimal number between 0 and 65279.

Default: 0

Action: Write the starting cable range on the Interface Configuration Worksheet.

• AppleTalk ending cable range

An ending cable range value must be a decimal number between 4 and 65279.

Default: The default is the value assigned to the starting cable range.

Action: Write the ending cable range for the extended AppleTalk network.

• AppleTalk network number

AppleTalk network numbers are required for nonextended AppleTalk networks. An AppleTalk network number is a 16-bit value. AppleTalk Phase 2 requires that a network number be associated with every network segment.

A network number must be a decimal number between 0 and 65279.

Default: The default is 1 for the first interface, 2 for the second interface, and so on.

Action: Write the AppleTalk network number on the Interface Configuration Worksheet. Repeat this for each of the installed
interfaces you plan to configure.

• AppleTalk zone name

An AppleTalk zone name merges arbitrary networks into a single logical collection of services for network users. Take care to assign zone names that are meaningful to users who are not necessarily familiar with the network. Examples of good names include MIS, Menlo Park, and Third Floor. Examples of bad names include EtherTalk, T1-Serial, and BOS-12.

Multiple networks can share the same zone name. For Token Ring and FDDI interfaces as well as others for which you specified an extended network, you can enter multiple zone names. When you have entered the final zone name and want to view the next prompt, just press Return without typing any characters.

Default: The default is myzone.

Action: Write the AppleTalk zone name or names on the Interface Configuration Worksheet. Repeat this for each of the installed interfaces you plan to configure.

CLNS for an Interface

Determine whether CLNS will be used on a particular interface.

Default: Yes

Action: Write Yes on the Interface Configuration Worksheet if you plan to use CLNS on the interface. Write No if you do not want to use CLNS on the interface. Repeat this for each of the installed interfaces you plan to configure.

Banyan VINES for an Interface

Determine whether Banyan VINES will be used on a particular interface.

Default: Yes

Action: Write Yes on the Interface Configuration Worksheet if you plan to use VINES on the interface. Write No if you do not want to use Vines on the interface. Repeat this for each of the installed interfaces you plan to configure.

Bridging for an Interface

Determine whether transparent bridging will be used on a particular interface.

Default: Yes

Action: Write Yes on the Interface Configuration Worksheet if you plan to use transparent bridging on the interface. Write No if you do not want to use transparent bridging on the interface. Repeat this for each of the installed interfaces you plan to configure.

You have now completed the Interface Configuration worksheet; now connect to the console port.

Connecting to the Console Port

All the configuration information for first-time startup should be recorded on the worksheets. Now you need to attach an RS-232 ASCII terminal to the system console port located at the rear of the router. Configure the terminal to operate at the following rates:

• 9600 baud

• 8 data bits

• no parity

• 1 stop bit

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Note We recommend that you make network connections before first-time startup. Refer to the appropriate hardware installation and maintenance publication for details about cabling considerations and
establishing electrical connections.

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If you have filled out both worksheets and have connected to the console port, you are now ready for first-time startup. Proceed to the chapter, "First-Time Startup."