Avocent Home Theater Server Cyclades PR4000 User Manual

Cyclades-PR4000  
Installation Manual  
Mid-range, Multi-protocol, Expandable Remote Access Server  
Cyclades Corporation  
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Cyclades-PR4000  
Table of Contents  
CHAPTER 1 HOW TO USE THIS MANUAL ........................................................................................................ 8  
Installation Assumptions .................................................................................................................................... 9  
Text Conventions.............................................................................................................................................. 10  
Icons................................................................................................................................................................. 10  
Cyclades Technical Support and Contact Information ..................................................................................... 11  
CHAPTER 2 WHAT IS IN THE BOX .................................................................................................................. 13  
SWAN Expansion Card .................................................................................................................................... 14  
CHAPTER 3 USING CYROS MENUS ............................................................................................................... 18  
Connection Using the Console Cable and a Computer or Terminal ................................................................ 18  
Special Keys ................................................................................................................................................. 20  
The CyROS Management Utility .................................................................................................................. 21  
Operating the Front-Panel Display................................................................................................................... 25  
Modem Overview.......................................................................................................................................... 26  
Interface Overview........................................................................................................................................ 28  
IP Traffic........................................................................................................................................................ 29  
Syslog Messages ......................................................................................................................................... 29  
System Info................................................................................................................................................... 29  
CHAPTER 4 STEP-BY-STEP INSTRUCTIONS FOR COMMON APPLICATIONS........................................... 30  
Example 1 Using the PR4000 as a Remote Access Server ........................................................................... 30  
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Example 2 Connection to an Internet Access Provider via Modem................................................................ 37  
CHAPTER 5 CONFIGURATION OF THE ETHERNET INTERFACE ................................................................ 45  
The IP Network Protocol .................................................................................................................................. 45  
IP Bridge ....................................................................................................................................................... 47  
Other Parameters............................................................................................................................................. 48  
CHAPTER 6 THE SWAN INTERFACE .............................................................................................................. 49  
CHAPTER 7 THE E1 AND T1 INTERFACES, WITHOUT SIGNALING............................................................. 52  
CHAPTER 8 THE E1 AND T1 INTERFACES, WITH SIGNALING .................................................................... 57  
The CCS Signaling Mode (ISDN-PRI) ............................................................................................................. 59  
The CAS Signaling Mode................................................................................................................................. 62  
Parameters Independent of Signaling Mode ................................................................................................... 63  
Multilink Options ........................................................................................................................................... 64  
CHAPTER 9 NETWORK PROTOCOLS............................................................................................................. 75  
The IP Protocol................................................................................................................................................. 76  
The Transparent Bridge Protocol ..................................................................................................................... 78  
CHAPTER 10 DATA-LINK PROTOCOLS (ENCAPSULATION) ......................................................................... 79  
PPP (The Point-to-Point Protocol) ................................................................................................................... 79  
CHAR ............................................................................................................................................................... 81  
PPPCHAR ........................................................................................................................................................ 82  
HDLC................................................................................................................................................................ 82  
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Frame Relay..................................................................................................................................................... 82  
X.25 .................................................................................................................................................................. 87  
X.25 with PAD (Packet Assembler/Disassembler)........................................................................................... 90  
CHAPTER 11 ROUTING PROTOCOLS............................................................................................................. 91  
Routing Strategies............................................................................................................................................ 91  
Static Routing ............................................................................................................................................... 91  
Dynamic Routing .......................................................................................................................................... 91  
Static Routes .................................................................................................................................................... 92  
RIP Configuration ............................................................................................................................................. 95  
OSPF................................................................................................................................................................ 96  
OSPF Configuration on the Interface ........................................................................................................... 97  
OSPF Global Configurations ........................................................................................................................ 99  
BGP-4 Configuration ...................................................................................................................................... 103  
CHAPTER 12 CYROS, THE OPERATING SYSTEM....................................................................................... 114  
Creation of the host table ............................................................................................................................... 114  
Creation of user accounts and passwords..................................................................................................... 114  
IP Accounting ................................................................................................................................................. 116  
CHAPTER 13 NAT (NETWORK ADDRESS TRANSLATION) ........................................................................ 117  
Types of Address Translation ..................................................................................................................... 119  
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CHAPTER 14 RULES AND FILTERS .............................................................................................................. 123  
Configuration of IP Filters............................................................................................................................... 123  
Traffic Rule Lists............................................................................................................................................. 132  
CHAPTER 15 IPX (INTERNETWORK PACKET EXCHANGE) ...................................................................... 138  
Enabling IPX................................................................................................................................................... 139  
Configuring the Ethernet Interface ................................................................................................................. 139  
Configuring Other Interfaces .......................................................................................................................... 139  
PPP............................................................................................................................................................. 139  
Frame Relay ............................................................................................................................................... 140  
X.25 ............................................................................................................................................................ 140  
Routing ........................................................................................................................................................... 140  
The SAP (Service Advertisement Protocol) Table ......................................................................................... 141  
CHAPTER 16 VIRTUAL PRIVATE NETWORK CONFIGURATION ................................................................. 142  
APPENDIX A TROUBLESHOOTING ................................................................................................................ 147  
What to Do if the Login Screen Does Not Appear When Using a Console. .................................................. 147  
What to Do if the Router Does Not Work or Stops Working. ......................................................................... 148  
Testing the Ethernet Interface. ....................................................................................................................... 149  
Testing the WAN Interface ............................................................................................................................. 150  
How to Test the Modems................................................................................................................................ 152  
APPENDIX B. HARDWARE SPECIFICATIONS ............................................................................................... 155  
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General Specifications ................................................................................................................................... 155  
External Interfaces ......................................................................................................................................... 156  
Console Port ............................................................................................................................................... 156  
Ethernet Port .............................................................................................................................................. 157  
T1 and E1 ................................................................................................................................................... 158  
Cables ............................................................................................................................................................ 159  
Straight-Through Cable .............................................................................................................................. 159  
Cross Cable ................................................................................................................................................ 160  
Router-MD / V.35 Cable ............................................................................................................................. 161  
DB-25 to M.34 Adapter............................................................................................................................... 162  
.................................................................................................................................................................... 162  
Cross Cable for Testing the T1/E1 Ports.................................................................................................... 163  
ISO 2110 Standard Cable........................................................................................................................... 164  
E1 / DB-15 Cable........................................................................................................................................ 165  
APPENDIX C CONFIGURATION WITHOUT A CONSOLE ............................................................................. 166  
Requirements ................................................................................................................................................. 166  
Procedure....................................................................................................................................................... 166  
APPENDIX D INSTALLATION OF ADDITIONAL DIGITAL MODEMS ............................................................. 167  
INDEX ................................................................................................................................................................ 172  
Table of Contents  
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Cyclades-PR4000  
CHAPTER 1 HOW TO USE THIS MANUAL  
Three Cyclades manuals are related to the PR4000.  
1 The Quick Installation Manual -- provided with the router,  
2 The Installation Manual -- available electronically on the Cyclades web site,  
3 The CyROS Reference Guide -- also available electronically on the Cyclades web site.  
CyROS stands for the Cyclades Routing Operating System. It is the operating system for all Cyclades Power  
Routers (PR1000, PR2000, PR3000, and PR4000). The CyROS Reference Guide contains complete information  
about the features and configuration of all products in the PR line.  
CyROS is constantly evolving, and the menus in this manual might be slightly different from the menus in the  
router. The latest version of all three manuals (and the latest version of CyROS) can be downloaded from Cyclades’  
web site. All manuals indicate on the second page the manual version and the corresponding version of CyROS.  
The first three chapters of this manual should be read in the order written, with exceptions given in the text. The  
most appropriate example in Chapter 4 should then be read, with chapters 5 through 14 providing complementary  
information.  
Chapter 2 - What is in the Box - explains how the router should be connected.  
Chapter 3 -Using Menus - describes CyROS menu navigation.  
Chapter 4 -Step-by-Step Instructions for Common Applications - guide to configuration with detailed examples.  
Chapters 5 to 11- Basic router configuration information for applications that do not fit any of the examples in  
chapter 4.  
Chapter 12 - CyROS - shows how to set router specific parameters and create lists of hosts and users.  
Chapter 13 - Network Address Translation - describes CyROS’ NAT implementation.  
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Chapter 14- Filters and Rules - demonstrates how to protect your router from undesired traffic.  
Chapter 15 - IPX - presents the hidden menus available only in routers with IPX activated.  
Chapter 16 - Virtual Private Network - describes CyROS’ VPN implementation.  
Appendix A - Troubleshooting - provides solutions and tests for typical problems.  
Appendix B - Hardware Specifications.  
Appendix C - Configuration Without a Console.  
Appendix D - Modem Installation and Configuration  
Installation Assumptions  
This Installation Manual assumes that the reader understands networking basics and is familiar with the terms  
and concepts used in Local Area and Wide Area Networking.  
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Text Conventions  
Common text conventions are used. A summary is presented below:  
Convention  
Description  
CONFIG=>INTERFACE=>L A combination of menu items, with the last being either a menu item, a  
parameter, or a command. In this example, L lists the interface configuration.  
<INTERFACE>  
A variable menu item that depends on hardware options or a choice of  
hardware or software options.  
IP Address  
Screen Text  
A parameter or menu item referenced in text, without path prepended.  
Screen Text  
<ESC>, <Enter>  
Simbols representing special keyboard keys.  
Icons  
Icons are used to draw attention to important text.  
Icon  
Meaning  
Why  
What is Wrong?  
When an error is common, text with this icon will mention the symptoms and  
how to resolve the problem.  
Where Can I Find  
More Information?  
CyROS contains many features, and sometimes related material must be  
broken up into digestible pieces. Text with this icon will indicate the relevant  
section.  
Caution!  
Not following instructions can result in damage to the hardware. Text with  
this icon will warn when damage is possible.  
Reminder.  
Certain instructions must be followed in order. Text with this icon will explain  
the proper steps.  
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Cyclades Technical Support and Contact Information  
All Cyclades products include limited free technical support, software upgrades and manual updates.  
These updates and the latest product information are available at:  
http://www.cyclades.com  
ftp://ftp.cyclades.com/pub/cyclades  
Before contacting us for technical support on a configuration problem, please collect the information  
listed below.  
The Cyclades product name and model.  
Applicable hardware and software options and versions.  
Information about the environment (network, carrier, etc).  
The product configuration. Print out a copy of the listing obtained by selecting INFO=>SHOW  
CONFIGURATION=>ALL.  
A detailed description of the problem.  
The exact error or log messages printed by the router or by any other system.  
The Installation Guide for your product.  
Contact information in case we need to contact you at a later time.  
In the United States and Canada, contact technical support by phone or e-mail:  
Phone: (510) 770-9727 (9:00AM to 5:00PM PST)  
Fax: (510) 770-0355  
Outside North America, please contact us through e-mail or contact your local Cyclades distributor or representative.  
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Cyclades-PR4000  
The mailing address and general phone numbers for Cyclades Corporation are:  
Cyclades Corporation  
Phone: + 01 (510) 770-9727  
Fax: + 01 (510) 770-0355  
41829 Albrae Street  
Fremont, CA 94538  
USA  
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Cyclades-PR4000  
CHAPTER 2 WHAT IS IN THE BOX  
The following are included with the PR4000:  
• PR4000 Main Unit  
• Power Cord  
• Quick Installation Manual and Documentation CD  
• Mounting Kit with Handles  
• Console Cable  
Port 1 10 BaseT  
T1/E1 100 BaseT  
Power  
Cyclades - PR4000  
1
Interface Cable Slot  
0
10 BaseT  
Console  
Port  
Port 2  
T1/E1  
Expansion  
Slot  
Power Cable  
/ / / / / / / / / /  
Console Cable  
Labeled “Console”  
Cyclades-PR4000  
Quick Installation Manual  
CD-Rom Containing  
Documentation  
Mounting Kit  
FIGURE 2.1 ITEMS INCLUDED WITH ALL PR4000 MODELS  
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SWAN Expansion Card  
The PR4000 is often sold with a SWAN card in the expansion slot. The SWAN can be connected to a modem or  
DSU/CSU as shown in Figure 2.3. Cables are not included with the product.  
Back Panel of PR4000  
Slot with  
SWAN RSV Card  
or  
DB-25  
Male  
DB-25  
Male  
V.35 Cable Set  
Straight Cable  
DB-25 Male  
DB-25  
Male  
DB-25 Female/ M.34  
Male Converter  
RS-232 Modem  
with DB-25  
Interface  
V.35 DSU/CSU  
with M.34  
Interface  
FIGURE 2.3 SWAN EXPANSION CARD SHOWING CABLE CONNECTIONS  
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Provisioning the T1/E1 Dialup Lines  
This section provides information useful when provisioning the T1 or E1 dialup trunk lines for use with the Cyclades-  
PR4000 Remote Access Server. Line provisioning parameters vary widely depending on the switch being used at  
the central office and the service options offered by the carrier. In North America and Japan, a digital trunk uses  
a T1 speed of 1.5Mbps. In Europe and most other countries, a digital trunk runs at E1 speeds of 2Mbps. A digital  
trunk is a Time Division Multiplexed (TDM) line that carries information from several channels in digital form. In a  
given country, only E1 or T1 is offered.  
Signaling: ISDN-PRI (CCS) or CAS  
Phone lines carry signaling information used to establish and maintain connections. In a regular phone this  
information translates into dialing, ring, busy signal, dial tone, caller ID, etc. In an analog phone line, the signaling  
information shares the channel used to carry voice. In a T1 or E1 trunk, the signaling information for the trunk can  
be carried by a separate channel or can share the same channel used to carry data. There are three basic  
signaling protocols: ISDN-PRI (T1 or E1), CAS-BR (T1), or R2D/MFR2 (E1).  
Newer systems use the ISDN-PRI signaling protocol, with channels dedicated to control. With this protocol, a T1  
line carries 23 phone connections and an E1 line carries 30 phone connections.  
In North America, older T1 systems use CAS (Channel Associated Signaling) protocols. These protocols “steal”  
some of the bandwidth from the data channels using a scheme called “bit robbing” (BR) and allow a T1 line to  
carry 24 phone connections. In other countries, older E1 systems use R2D/MFR2 signaling with a dedicated  
channel, leaving 30 phone connections. Lines with CAS or R2D/MFR2 signaling are sometimes referred as  
“Channelized T1/E1” or “DS-1”.  
ISDN-PRI provides more control over connections than the older CAS or R2Ds. Given a choice between ISDN-  
PRI and CAS/R2D, select ISDN-PRI.  
Number of Phone Lines  
In most applications, the maximum number of phone lines (for the protocol used) are purchased. However, it is  
also possible to request fewer lines. When using fewer lines, make sure to disable the remaining channels using  
the menu CONFIG =>INTERFACE =>E1/T1 =><CHANNEL> =>ENCAPSULATION =>INACTIVATE.  
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ISDN Switch Type (ISDN-PRI only)  
Different switch vendors have different signaling protocol implementations. If you are in the US and are given a  
choice of ISDN switch types, select National ISDN 2, which is intended to be the US standard switch type. Other  
common and acceptable options are Custom AT&T 5ESS and Northern Telecom DMS-100. In Europe, Euro  
ISDN (ETSI) is the standard ISDN switch type, but there are still some variations in use. Examples are TR6 in  
Germany and VN6 in France. Australia, Japan and Korea each have their own standard switch type. Other  
countries usually adopt the European standards.  
Data/Voice Support  
From the phone system standpoint, analog modem connections (V.34, V.90, K56 flex) are “voice” while “data”  
refers to digital connections using ISDN-BRI or V.110. Lines with CAS signaling support only voice calls. Most  
ISDN-PRI lines support both data and voice channels, but some lines are configured to support only voice or only  
data. If given a choice, both voice and data support is preferable. If only one may be chosen, voice should be  
chosen to support modem (V.34, V.90) clients and data should be chosen to support clients using ISDN-BRI or  
V.110. The Cyclades-PR4000 supports both digital and analog calls and can terminate both at the same time in  
the same trunk.  
Phone Numbers, Hunting Groups, and Hunting Sequence  
Each T1/E1 channel can have a different phone number or be organized into hunting groups with the same phone  
number. In the second case, the client gets the first available line within the hunting group. The line allocation can  
be done in a linear (the first available line gets a new call, from the first line to the last or vice-versa) or round-robin  
fashion. ISPs usually group all lines into one hunting group so that all customers call the same phone number.  
Breaking the trunk into more than one hunting group can be used to reserve a certain number of lines for different  
classes of customers.  
One-Way or Two-Way Service  
A line can only receive calls (dial-in) or receive and generate calls (dial-out). An ISP usually only needs to receive  
calls and one-way service is the recommended configuration unless you plan to support services that require dial-  
out (fax servers, call back, etc.).  
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Signaling Method and Dialing Method (T1 CAS-BR only)  
T1 with CAS signaling may require additional parameters. For Signaling Method, the selection may be MFR1,  
DTMF or no signaling. For Dialing Method, the selection may be wink-start or loop-start. The suggested choice  
is wink-start.  
Line Coding  
This refers to the way the digital data is encoded in the line. For T1 lines, the options are usually Bipolar with 8  
Zeroes Substitution (B8ZS) or Alternate Mark Inversion (AMI). B8ZS is better suited to digital transmissions, so it  
should be the choice if available. For E1 lines, the options are usually High Density Bipolar of Order 3 (HDB3) and  
Alternate Mark Inversion (AMI). HDB3 is the more modern of the two and better suited to digital transmissions.  
Framing  
This refers to how the data bits are framed in the TDM bus. For T1 lines, the possibilities are D4 Super Frame  
(D4) or Extended Super Frame (ESF). ESF provides error checking and should be the choice if available. For E1  
lines, the choices are usually Frame Alignment Signal with or without CRC4 (4-bit Cyclic Redundancy Check). If  
given a choice, select a line with CRC4, which will provide error checking.  
Termination at the Customer Premises  
The Cyclades-PR4000 supports T1 on a standard 100-Ohm RJ-48C connector and E1 on a standard 120-Ohm  
RJ-48C connector. In some countries, especially those using E1 lines, the termination may be provided on a  
Coax G703 connector (75 Ohms). An external interface converter (balum) is necessary in this case.  
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Chapter 3 Using CyROS Menus  
This chapter explains CyROS menu navigation and special keys. There are four ways to interact with CyROS:  
• Traditional menu interface using a console or Telnet session,  
• CyROS Management Utility based on interactive HTML pages,  
• Front-panel display,  
• SNMP (explained in the CyROS Reference Manual).  
Connection Using the Console Cable and a Computer or Terminal  
The first step is to connect a computer or terminal to the router using the console cable. If using a computer,  
HyperTerminal can be used in the Windows operating system or kermit in the Unix operating system. The termi-  
nal parameters should be set as follows:  
• Serial Speed: 9600 bps  
• Data Length: 8 bits  
• Parity: None  
• Stop Bits: 1 stop bit  
• Flow Control: Hardware flow control or none  
Once the console connection is correctly established, a Cyclades banner and login prompt should appear on the  
terminal screen. If nothing appears, see the first section of the troubleshooting appendix for help. The second  
step is to log in. The preset super-user user ID is “super” and the corresponding preset password is “surt”. The  
password should be changed as soon as possible, as described in chapter 13 of the installation manual and at the  
end of every example in chapter 4. The login prompt and main menu are shown in Figure 3.1.  
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Cyclades-PR4000  
[PR4000] login : super  
[PR4000] Password : ****  
Cyclades Router (Router Name) – Main Menu  
1 – Config  
4 – Debug  
2 – Applications 3 – Logout  
5 – Info 6 – Admin  
Select Option ==>  
FIGURE 3.1 LOGIN PROMPT AND MAIN MENU  
All menus have the following elements:  
• Title – In the example in Figure 3.1: “Main Menu”.  
• Prompt – The text: “Select Option ==>” (this text can be changed by the super user.)  
• Options –The menu options, which are selected by number.  
• Router Name – The default is the name of the product. Each router can be renamed by the super user for  
easier identification.  
Menus can also be navigated using a short-cut method. This method must be activated first by choosing a  
shortcut chraacter (“+” in the example that follows) in the CONFIG =>SYSTEM =>ROUTER DESCRIPTION menu.  
Typing 4+1+1 at the main-menu prompt, for example, is equivalent to choosing option 4 in the main menu (Debug),  
then choosing option 1 in the debug menu (Trace), then choosing option 1 in the trace menu (Driver Trace). In  
addition to menus, some screens have questions with letter choices. In the line below, several elements may be  
identified:  
lmi-type((A)NSI, (G)roup of four, (N)one )[A]:  
• Parameter description – The name of the parameter to be configured, in this case “lmi-type”.  
• Options – Legal choices. The letter in parentheses is the letter that selects the corresponding option.  
• Current value – The option in square brackets is the current value.  
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Pressing <Enter> without typing a new value leaves the item unchanged.  
Special Keys  
<Enter> or <Ctrl+M>  
<ESC> or <Ctrl+I>  
These keys are used to end the input of a value.  
These keys are used to cancel a selection or return to the previous menu. In  
some isolated cases, this key jumps to the next menu in a series of menus at the  
same level.  
<Backspace> or <Ctrl+H> These keys have the expected effect of erasing previously typed characters.  
L
When available, this option displays the current configuration. For example, in  
the Ethernet Interface Menu, “L” displays the Ethernet configuration.  
This key combination works like a toggle switch to allow display of one page of  
information at a time or display the entire configuration without page breaks.  
This key combination disables any traces activated in the Debug Menu.  
<Ctrl+L>  
<Ctrl+C>  
On leaving a menu where a change in configuration was made, CyROS will ask whether or not the change is to be  
saved:  
(D)iscard, save to (F)lash, or save to (R)un configuration:  
Selecting Discard will eliminate all changes made since the last time the question was asked. Saving to Flash  
memory makes all changes permanent. The changes are immediately effective and are saved to the configuration  
vector in flash memory. In this case, the configuration is maintained even after a router reboot. Saving only to the  
Run configuration makes all changes effective immediately, but nothing is saved permanently until explicitly saved  
to flash (which can be done with the option ADMIN =>WRITE CONFIGURATION=>TO FLASH).  
The menus and parameter lists are represented in this manual by tables. The first column contains the menu item  
or the parameter, and the second column contains its description.  
This menu interface is also available via Telnet if one of the interfaces has been connected and configured. The  
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Cyclades-PR4000  
menu interface is the same as that described earlier in this section. Using Telnet instead of a console for the initial  
Ethernet configuration is discussed in Appendix C of the Installation Manual.  
The CyROS Management Utility  
After one of the interfaces has been connected and configured, there is another way to interact with CyROS. Type  
the IP address in the location field in an HTML browser of a PC connected locally or remotely through the configured  
interface. A super-user ID and password will be requested (these are the same ID and password used with the  
line-terminal interface). A clickable image of the router back panel will apear, as shown in Figure 3.2.  
Cyros Management Utility  
Firmware version: Cyclades-PR4000: Cyros V_1.9.0i (Mar/28/00) #2  
Configuration Menu Interface (Text Mode)  
Global Ras Table  
End HTTP session  
FIGURE 3.2 CYROS MANAGEMENT UTILITY HOME PAGE  
The link Configuration Menu Interface will present an HTML version of the CyROS Main Menu, described previously.  
Clicking on an interface will show its current status and some additional information. The link Global RAS Table  
will show a table similar to that shown in Figure 3.3. Clicking on End HTTP Session will terminate the connection.  
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Cyclades-PR4000  
CyROS Management Utility  
Global Remote Access Table Port Status  
Start Session  
Seq# Slot #2 Port#1  
User Name  
Elapsed Time Connect String  
Caller ID  
Time  
Md=23 V34 28800 26400  
1
2
3
4
5
6
7
8
Slot #2 Port#3  
Slot #2 Port#6  
Slot #2 Port#7  
Arlt  
Apr/18 18:11  
0:04:46  
0:10:46  
0:05:09  
2:10:56  
0:07:47  
0:35:27  
0:05:58  
0:06:34  
1115553000  
1115551268  
1115554811  
1115550000  
1115559743  
1115557553  
1115551174  
1115559800  
LAPM/V42Bis  
Md=12 V90 28800 42666  
LAPM/V42Bis  
Marquez  
Neruda  
Apr/18 18:05  
Apr/18 18:31  
Apr/18 16:05  
Apr/18 18:08  
Apr/18 17:41  
Apr/18 18:10  
Md=21 V34 28800 24000  
LAPM/V42Bis  
Md=13 V34 28800 16800  
LAPM/V42Bis  
Slot #2 Port#10 Cervantes  
Slot #2 Port#11 Casares  
Slot #2 Port#15 Allende  
Slot #2 Port#17 Skarmeta  
Md=17 V90 24000 28000  
LAPM/V42Bis  
Md=19 V34 31200 33600  
LAPM/V42Bis  
Md=20 V34 28800 31200  
LAPM/V42Bis  
Md=18 V32 1440  
Slot #2 Port#  
Rozenmacher Apr/18 18:09  
FIGURE 3.3 GLOBAL RAS TABLE  
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Cyclades-PR4000  
Clicking on one of the links in the Global RAS Table will provide more detailed information about the connection  
and the user. An example is shown in Figure 3.4. The user can be disconnected with the hangup button and the  
interface can be temporarily disabled by clicking on the administrative down button.  
Slot #2 Port #26 Status  
Username: cas  
Start Session Time: Apr/18/00 18:01:29  
Elapsed Time: 0:11:01  
Inactivity Timeout: None  
Caller ID: 5554321  
modem Id 9 V32B Initial Rate 14400/14400 Current Rate 14400/14400 LAPM/V42Bis  
Number of transmitted Frames: 237670  
Number of transmitted bytes: 106541777  
Number of transmission errors: 2368  
Number of received frames: 245235  
Number of received bytes: 34399893  
Number of reception errors: 96  
PPP LCP state = OPENED  
PPP PAP state = OPENED  
PPP NCP (IPCP) state = OPENED Local IPaddr (200.200.200.200) Remote IPaddr (200.200.200.100)  
Hangup Connection  
Admin. DOWN  
Current Administrative Status is UP. Change it to  
Go Back  
FIGURE 3.4 CHANNEL DETAILS  
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Cyclades-PR4000  
Returning to the CyROS Management Utility Home Page, clicking on a T1 or E1 port on the figure will display the  
channel details. There is a toggle button in the upper-right-hand corner which toggles between name and speed.  
When set to name, as shown in Figure 3.5, passing the mouse over a channel displays the username. When set  
to speed, it displays the carrier and speed of the connection. The ports are color-coded with the current status.  
CyROS Management Utility  
E1 Line - Signalling Type [CAS BR]  
Port In Test  
Inactive Port  
Hardware Error  
Waiting Connection  
Administrative Down  
Connection OK  
Connecting  
FIGURE 3.5 CHANNEL SUMMARY WITH TOGGLE SET TO NAME  
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Operating the Front-Panel Display  
The Cyclades logo appears on the front-panel display (shown in Figure 3.6) after a sucessful boot.  
Cyclades - PR4000  
LCD  
100Base-T  
RX  
Port 1  
TX  
Link  
Port 2  
Collision  
Ethernet 1  
Menu  
Select  
10Base-T  
Ethernet 2  
10Base-T/ 100Base-T  
FIGURE 3.6 FRONT-PANEL DISPLAY  
There are 5 push buttons: 4 arrows and one menu selection button. Pressing the menu selection button displays  
the main menu, which contains the following options:  
• Modem Overview  
• Interface Overview  
• IP Traffic  
• Syslog Messages  
• System Info  
• Reboot (If configured to appear using the menu item CONFIG =>SYSTEM =>HARDWARE)  
• Quit  
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Modem Overview  
The status of each connection can be displayed by modem or by interface.  
Modem Order  
This menu item presents a screen with one box for each modem. Each row corresponds to a Modem board.  
When 64 modems are present, the screen will appear as in Figure 3.7. The box on the upper left is the first  
modem, the upper right is the eight modem, and so forth for as many modems as are installed.  
Modem Idle  
Modem Connecting  
Modem Connected  
ND  
Modem Transmitting and Receiving  
Modem Transmitting  
TR  
T
T
AD  
R
R
Modem Receiving  
R
TR  
ND  
NO  
AD  
AD  
ND  
NO  
RE  
IN  
Modem Administrative Down  
Modem Not Detected  
Modem Not Operational  
NO NO  
Modem Reserved  
Modem Initializing  
FIGURE 3.7 MODEM ORDER SCREEN  
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Slot/Link Order  
This menu item presents a screen with one box per T1/E1 channel. Figure 3.8 shows two lines with 30 channels  
each. The box on the upper left is the first channel, the upper right is the eighth channel, and so forth for as many  
channels as are configured.  
R
Slot/Link Not Configured  
Slot/Link Idle  
AD  
Modem Connecting  
TR  
Modem Connected  
ND  
Modem Transmitting and Receiving  
Modem Transmitting  
TR  
T
NO  
R
Modem Receiving  
FIGURE 3.8 SLOT/LINK ORDER SCREEN  
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Interface Overview  
This screen presents the status of each E1/T1 interface and indicates which modem has been allocated to each  
channel. The ordering of the channels is the same as for the previous screen  
AD  
40  
21  
Not Configured  
Not Connected  
09  
AD  
39  
Connected (PRI)  
Admin Down  
01  
AD  
AD  
01  
Connected to a modem  
(Number of The Modem Allocated)  
25  
FIGURE 3.9 INTERFACE OVERVIEW SCREEN  
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IP Traffic  
After choosing the interface desired, a bar graph showing bytes per second or packets per second is displayed. It  
is a snapshot of the last 10 minutes of IP traffic through the interface (TX for transmitted and RX for received), with  
a refresh every minute. The arrow keys toggle the display between bytes and packets per second. Pressing  
<menu select> returns to the main menu.  
Syslog Messages  
Selecting this menu item leads to another menu that allows changes in the display of syslog messages. Syslog  
messages are administrative and debug events. The following options are available:  
• Display - Exibits the last syslog message generated by CyROS. Arrow keys may be used to see the syslog  
history.  
• Stop - New syslog messages are discarded. The syslog history remains unchanged.  
• Start - New syslog messages are stored in the syslog history and are displayed.  
• Clear - Clears the syslog history.  
• Quit - Returns to the main menu.  
System Info  
This menu item presents a sequence of four screens: Hardware Information, Board Information, Modem Information,  
and Boot Information. Any arrow key switches between screens. The menu select key returns to the main menu.  
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CHAPTER 4 STEP-BY-STEP INSTRUCTIONS FOR COMMON APPLICATIONS  
This chapter provides detailed examples that can be used as models for similar applications. Turn to the example  
that is closest to your application, read the explanations, and fill in the blank spaces with parameters appropriate  
to your system. At the end of the section, you should have listed all the parameters needed to configure the  
router. At that point, read chapter 3 if you have not already, and configure your router with help from later chapters  
of the Installation Guide, when needed.  
Please read the entire example and follow the instructions before turning the router on. The router is  
programmed to log the super user off after 10 minutes of inactivity. All data not explicitly saved to  
memory is then lost. Collecting the data while configuring the router will likely cause delays and  
frustration.  
Example 1 Using the PR4000 as a Remote Access Server  
This example explains the configuration of an E1 or T1 line with signaling, the most common option when the  
PR4000 is used as a RAS. When the incoming call is made by a computer using a modem, the internal digital  
modems are used to convert analog signals to digital signals. Either CAS or CCS signaling can be used in this  
case. When the incoming call is made by an ISDN-BRI line subscriber (and the E1/T1 line is configured for CCS),  
the digital modems are bypassed.  
This section will guide you through a complete RAS configuration. Figure 4.1 shows the example system used in  
this section. Spaces have been provided next to the parameters needed for the configuration so you can fill in the  
parameters for your system. Do this now before continuing.  
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IP Address: 100.130.130.200  
_ _ _ _ _ _ _ _ _ _  
Key: Pinocchio  
Radius  
Server  
LAN  
PC  
_ _ _ _ _ _ _  
IP Address: 100.130.130.1  
_ _ _ _ _ _ _ _ _ _  
Network: 100.130.130.0  
_ _ _ _ _ _ _ _ _ _  
Mask: 255.255.255.0  
_ _ _ _ _ _ _ _ _  
PC  
PR4000  
Telephone Number:  
5533-3333 _ _ _ _ _ _ _  
Network  
Terminator  
T1/E1  
Multiple Calls  
IP Addresses: 100.130.130.11  
_ _ _ _ _ _ _ _ _  
100.130.130.12 …  
ISDN-BRI  
Line  
Telephone/ISDN  
Network  
Remote  
IP Address  
Assigned on  
Connection  
Modem  
PC  
FIGURE 4.1 RAS EXAMPLE SHOWING DIAL-IN USERS  
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STEP ONE  
The first step is to determine the parameters needed to configure the Fast Ethernet interface (ETH0). The parameters  
in the Network Protocol Menu (IP) are shown in Figure 4.2. Fill in the blanks for your application in the right-most  
column. These parameters will be entered into the PR4000 later, after all parameters have been determined.  
Each parameter in this menu is explained in more detail in chapter 5 of the Installation Guide.  
CONFIG=>INTERFACE=>FAST ETHERNET=>NETWORK PROTOCOL=>IP  
Menu  
Parameter  
Example  
Your Application  
Active or Inactive  
Active enables IP communication (IPX and Transparent  
Bridge are not used in this example).  
Interface Unnumbered Numbered  
Primary IP Address  
Subnet Mask  
100.130.130.1  
255.255.255.0  
Secondary IP Address 0.0.0.0 for none.  
Enable Dynamic Local No  
IP Address  
IP MTU  
Use the preset value, 1500. This determines whether  
or not a given IP datagram is fragmented.  
NAT  
Global, because NAT is not being used in this example.  
ICMP Port  
Incoming Rule List  
Inactive  
None, filters and traffic control are not included in this  
example.  
Outgoing Rule List  
Name  
Proxy ARP  
IP Bridge  
None, filters and traffic control are not included in this  
example.  
Inactive  
Inactive  
FIGURE 4.2 ETHERNET NETWORK PROTOCOL MENU PARAMETERS  
STEP TWO  
No more parameters are necessary for the Ethernet interface. The next step is the configuration of the E1 or T1  
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line using the controller. Both CAS and CCS signaling are explained. Which one is used will depend on the  
services offered by the telephone system.  
CONFIG=>CONTROLLER=>T1/E1  
Menu  
Parameter  
Example  
Your Application  
Frame Mode  
This value is provided by the T1/E1 line provider.  
For T1,  
(Extended Super Frame, the most common)  
ESF  
and D4 are the options. For E1, CRC4 (the most  
common) and Non-CRC4 are the options.  
Line Code  
This value is provided by the T1/E1 line provider. For T1,  
B8ZS (Bipolar 8 Zero Substitution, the most common) and  
(Alternate Mark Inversion) are used. For E1, the  
AMI  
choices are  
(High-Density Bipolar) and  
.
AMI  
HDB3  
Signaling Mode  
for ISDN-PRI (digital or analog remote access).  
for analog, modem-based remote access (usually  
CCS  
CAS  
used with telephone networks that do not support ISDN).  
Clock Mode (CAS only) Slave  
Line Build Out  
Applies only to T1. The T1 service provider should supply  
this parameter.  
Receiver Sensitivity  
Companding Mode  
Short Haul  
This value is provided by the T1/E1 line provider.  
A-law is usually used for E1 lines and u-law is usually  
used for T1 lines.  
Signaling Type  
(CAS only)  
Wink Start or Loop Start for T1 and R2 Digital ITU-T for  
E1 are the options  
Tone Signaling  
CAS Only. This value is provided by the T1/E1 line  
provider. DTMF is the most common for T1 and MFR2  
Compelled is the most common for E1.  
Type ? to the options available for each country. This  
value is provided by the T1/E1 line provider.  
Country Signaling  
FIGURE 4.3 E1/T1 CONTROLLER MENU PARAMETERS  
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STEP THREE  
It is likely that not just anyone should have access to your LAN. A Radius or Tacacs server can be used to  
authenticate the username and password of the incoming connection request. A Radius server is used in this  
example. More than one Radius server can be configured. Fill in the data for your Radius Server in the table  
below.  
Menu CONFIG=>SECURITY=>RADIUS=>RADIUS STATUS=>ADD  
Parameter  
Example  
Your Application  
Radius Server IP Address  
Radius Server Type  
Radius Server Retries  
Radius Server Timeout  
Radius Server Encryption  
Key  
100.130.130.200  
Both Authentication and Accounting.  
5
5
pinocchio  
Radius Server  
1812. Older standards used 1645.  
Yes  
Authentication Port  
Radius Server Send Start  
accounting  
FIGURE 4.4 RADIUS SERVER PARAMETERS  
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STEP FOUR  
The RAS Wizard can be used to set up a PPP Remote Access Server using modems or DSU/CSUs and dial-up  
lines. The wizard can be used for one port or a range of ports. If the Wizard is used for a range or all ports, the  
ports will be numbered consecutively.  
Menu CONFIG=>INTERFACE=>T1/E1(ISDN-PRI)=><CHANNEL>=>WIZARDS=>RAS PROFILE  
Parameter  
Example  
Your Application  
Remote IP Address  
100.130.130.11  
Phone Number (CAS Only) This number is only used for callback (in the  
outgoing connection request).  
Digital Modem Profile ID  
(CAS Only)  
1
FIGURE 4.5 RAS WIZARD PARAMETERS  
STEP FIVE  
Now that the parameters have been defined, enter into each menu described above, in the order presented (read  
chapter 3, Using Menus, if you have not done so already). Set the parameters in each menu according to the  
values you wrote in the figures above. Save the configuration to flash memory at each step when requested —  
configurations saved in run memory are erased when the router is turned off. If you saved part of the configuration  
to run memory for some reason, save to flash memory now using the menu option ADMIN =>WRITE  
CONFIGURATION =>TO FLASH. Be sure to change the superuser password using the menu option CONFIG  
=>SECURITY =>USERS =>MODIFY. The user ID, super, can remain the same, but the password must be  
changed to avoid unauthorized access.  
If the Radius Server does not appear to be working, try switching the UDP port setting. This often resolves Radius  
problems. The menu item INFO =>AUTH. SERVERS STATUS =>RADIUS SERVERS STATUS also provides  
information about the status of the Radius Server. Any status other than OK means that either the RAS configuration  
is incorrect or the Radius Server configuration is incorrect. It may be necessary to reboot the router after performing  
the configuration described in step three, for the changes to take effect.  
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At this point, you should create a back-up of the configuration file (in binary) and print out a listing of the configuration.  
Instructions for creating a back-up of the configuration file:  
Use the menu option ADMIN =>WRITE CONFIGURATION =>TO FTP SERVER. Fill in the IP address of the  
computer where the configuration file should be saved, the file name, the directory name, and the user account  
information. This configuration file can later be downloaded with the ADMIN =>LOAD CONFIGURATION =>FTP  
SERVER option.  
Instructions for listing the configuration:  
The menu option INFO =>SHOW CONFIGURATION =>ALL will list to the terminal screen the configuration of the  
router. This can be saved as a text file and/or printed on a printer.  
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Example 2 Connection to an Internet Access Provider via Modem  
This section will guide you through a complete router installation for the connection of a LAN to an Internet access  
provider via PPP. The configuration of NAT (Network Address Translation) will also be shown. Figure 4.6 shows  
the example system used in this section. Spaces have been provided next to the parameters needed for the  
configuration where you can fill in the parameters for your system. Do this now before continuing.  
RS-232 _ _ _  
DSU/CSU  
Network  
192.168.0.0  
PC  
Host  
PR4000  
Host  
192.168.0.30 _ _ _ _ _ _ _ _ _  
192.168.0.11  
IP Address  
Assigned  
Dynamically  
192.168.0.10 _ _ _ _ _ _ _ _ _  
192.168.0.1_ _ _ _ _ _ _ _ _  
FIGURE 4.6 CONNECTION TO ACCESS PROVIDER USING A SWAN INTERFACE AND A MODEM  
Please read the entire example and follow the instructions before turning the router on. The router is  
programmed to log the super user off after 10 minutes of inactivity. All data not explicitly saved to  
memory is then lost. Collecting the data while configuring the router will likely cause delays and  
frustration.  
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STEP ONE  
The first step is to determine the parameters needed to configure the Ethernet interface (ETH0). The parameters  
in the Network Protocol Menu (IP) are shown in Figure 4.7. Fill in the blanks for your application in the right-most  
column. These parameters will be entered into the router later, after all parameters have been chosen. Each  
parameter in this menu is explained in more detail in chapter 5 of the Installation Guide.  
Menu CONFIG=>INTERFACE=>ETHERNET=>NETWORK PROTOCOL=>IP  
Parameter  
Example  
Your Application  
Active or Inactive  
Active enables IP communication (IPX  
and Transparent Bridge are not used in  
this example).  
Interface Numbered  
/Unnumbered  
Primary IP Address  
Subnet Mask  
Secondary IP  
Address  
Numbered  
192.168.0.1  
255.255.255.0  
0.0.0.0 for none  
IP MTU  
Use the preset value, 1500. This  
determines whether or not a given IP  
datagram is fragmented.  
Local  
NAT  
ICMP Port  
Incoming Rule List  
Inactive  
None, filters and traffic control are not  
included in this example.  
None, filters and traffic control are not  
included in this example.  
Inactive  
Outgoing Rule List  
Name  
Proxy ARP  
IP Bridge  
Inactive  
FIGURE 4.7 ETHERNET NETWORK PROTOCOL MENU PARAMETERS  
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STEP TWO  
No more parameters are necessary for the Ethernet interface. The other interface to be configured is the SWAN  
in slot 1. The SWAN physical media parameters are shown in Figure 4.8. Fill in the values for your application.  
The SWAN configuration is described in more detail in chapter 6 of the Installation Guide.  
CONFIG=>INTERFACE=>SWAN=>PHYSICAL  
Menu  
Parameter  
Mode  
Speed  
Example  
Asynchronous  
115.2k  
Your Application  
FIGURE 4.8 SWAN PHYSICAL MENU PARAMETERS  
STEP THREE  
The network protocol parameters, shown in Figure 4.9, are similar to those for the Ethernet interface. Fill in the  
parameters for your network in the right-most column. For an example using NAT where the Primary IP Address  
is not dynamically assigned, see the chapter dedicated to NAT in the Installation Manual.  
CONFIG=>INTERFACE=>SWAN=>NETWORK PROTOCOL=>IP  
Menu  
Parameter  
Example  
Your Application  
Active or Inactive  
Active enables IP communication (IPX  
and Transparent Bridge are not used in  
this example).  
Interface  
Numbered  
Unnumbered/  
Numbered  
Primary IP Address  
0.0.0.0 (This number will be assigned  
by the Access Provider dynamically.)  
255.0.0.0  
Subnet Mask  
FIGURE 4.9 SWAN NETWORK PROTOCOL (IP) MENU PARAMETERS  
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Parameter  
Example  
Your Application  
Secondary IP  
Address  
0.0.0.0 for none  
Enable Dynamic  
Local IP Address  
Yes, because the IP address of the  
SWAN interface will be assigned  
dynamically.  
Remote IP Address  
Type  
Any  
Remote IP Address  
IP MTU  
0.0.0.0  
Use the preset value, 1500. This  
determines whether or not a given IP  
datagram is fragmented.  
NAT  
Global Assigned because the IP  
address of the SWAN interface will be  
assigned dynamically.  
ICMP Port  
Inactive  
Incoming Rule List  
None, filters and traffic control are not  
included in this example.  
None, filters and traffic control are not  
included in this example.  
Outgoing Rule List  
Name  
Routing of Broadcast Inactive  
Messages  
FIGURE 4.9 CONTINUED -- SWAN NETWORK PROTOCOL (IP) MENU PARAMETERS  
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STEP FOUR  
The Encapsulation parameters for PPP are less straight-forward. Many of them are based on decisions that  
cannot be shown in a diagram. Fortunately, the choices made here will mostly affect the performance of the link,  
rather than whether it works or not. Fill in the parameters appropriate for your system, consulting chapter 11 of the  
Installation Guide for more information if necessary.  
Menu CONFIG=>INTERFACE=>SWAN=>ENCAPSULATION=>PPP  
Parameter  
MLPPP  
Example  
No  
Your Application  
PPP Inactivity  
Timeout  
None so that the connection is never  
broken.  
Enable Van Jacobson No  
IP Header  
Compression  
Disable LCP Echo  
Requests  
No  
Edit ACCM  
No Value. This will depend on the  
modem used.  
Time Interval to Send Use the preset value, one.  
Config Requests  
Enable Predictor  
Compression  
No  
FIGURE 4.10 PPP ENCAPSULATION MENU PARAMETERS  
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STEP FIVE  
A static route must be added to tell the router that all traffic not intended for the local LAN should be sent to the  
Access Provider. Chapter 12 of the Installation Guide explains static routes and other routing methods available  
in CyROS. Fill in the spaces in Figure 4.11 with the values for your application.  
Menu CONFIG=>STATIC ROUTES=>IP=>ADD ROUTE  
Parameter  
Destination IP  
Address  
Example  
Type in the word "DEFAULT".  
Your Application  
Gateway or  
Interface  
Interface  
Interface, because the IP addresses  
are not known at configuration time.  
Link 1 in the example.  
Is This a Backup  
Route?  
No  
OSPF Advertises  
This Static Route  
No  
FIGURE 4.11 STATIC ROUTE MENU PARAMETERS  
STEP SIX  
NAT must now be activated. There are two varieties of NAT: Normal and Expanded. This example uses the  
Normal NAT Mode. The other mode is explained in the chapter on NAT in the Installation Manual.  
Menu CONFIG =>SECURITY =>NAT =>GENERAL  
Parameter  
Nat Status  
Nat Mode  
Example  
Enabled  
Normal  
Your Application  
Disable Port Translation No  
FIGURE 4.12 GENERAL NAT PARAMETERS  
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STEP SEVEN  
NAT parameters will now be determined for routing outside of the local LAN. Network Address Translation maps  
the local IP addresses, registered in the local address range menu below, to the one global IP address assigned  
by the access provider. Local IP addresses not indicated in this menu will not be translated.  
Menu CONFIG =>SECURITY =>NAT =>LOCAL ADDRESS =>ADD RANGE  
Parameter  
Example  
Your Application  
First IP Address of  
New Range  
192.168.0.10  
Number of IP  
Addresses in the  
Range  
21  
FIGURE 4.13 NAT LOCAL ADDRESS RANGE MENU PARAMETERS  
The factory preset values for all other NAT parameters are appropriate for this example.  
STEP EIGHT  
Now that the parameters have been defined, enter into each menu described above, in the order presented (read  
chapter 3, Using Menus, if you have not done so already). Set the parameters in each menu according to the  
values you wrote in the figures above. Save the configuration to flash memory at each step when requested —  
configurations saved in run memory are erased when the router is turned off. If you saved part of the configuration  
to run memory for some reason, save to flash memory now using the menu option ADMIN =>WRITE  
CONFIGURATION =>TO FLASH.  
STEP NINE  
The Ethernet interface can be tested as described in the troubleshooting appendix. The SWAN interface can be  
tested in a similar manner. At this point, you should create a back-up of the configuration file (in binary) and print  
out a listing of the configuration.  
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Instructions for creating a back-up of the configuration file.  
Use the menu option ADMIN =>WRITE CONFIGURATION =>TO FTP SERVER. Fill in the IP address of the  
computer where the configuration file should be saved, the file name, the directory name, and the user account  
information. This configuration file can later be downloaded with the ADMIN =>LOAD CONFIGURATION =>FTP  
SERVER option.  
Instructions for listing the configuration.  
The menu option INFO =>SHOW CONFIGURATION =>ALL will list to the terminal screen the configuration of the  
router. This can be saved as a text file and/or printed on a printer.  
Chapter 4 - Step-by-Step Instructions  
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Cyclades-PR4000  
CHAPTER 5 CONFIGURATION OF THE ETHERNET INTERFACE  
The PR4000 has one Ethernet 10/100Base-T interface, provided in a standard RJ-45 modular jack, which should  
be connected to an Ethernet hub or switch. Use a standard 10/100Base-T straight-through cable (not included).  
When the Ethernet link is correctly connected, the link LED will be lit. The menus for the Ethernet Interface are  
independent of the speed of the link.  
If your network uses 10Base2 (thin coaxial cable) or 10Base5 (thick coaxial cable), you will need a transceiver to  
convert between the different Ethernet media. A crossover cable is required for direct connection to a computer  
(an RJ-45 Ethernet pinout is provided in appendix B). Note: While Cyclades Power Routers work with most  
standard RJ-45 cable/connectors, shielded Ethernet cables should be used to avoid interference with other  
equipment .  
The parameters in the encapsulation menu are preset at the factory and it is usually not necessary to change  
them. The first step in the Ethernet configuration is to choose which network protocol to use and assign values to  
the relevant parameters. Either IP, Transparent Bridge, or IPX (optional) must be activated. In this chapter, IP  
Bridges are also described. Use the information provided below to set the parameters for the Ethernet interface.  
The IP Network Protocol  
Some parameters are explained in detail in later chapters. At this point, the preset values provided by the  
operating system can be accepted and the interface will work at a basic level.  
Network Protocol Menu CONFIG =>INTERFACE =>ETHERNET =>NETWORK PROTOCOL =>IP  
Parameter  
Description  
Active or Inactive  
Activates this interface.  
Interface  
Unnumbered interfaces are used for point-to-point connections.  
Unnumbered  
Assign IP From  
Interface  
Applies to Unnumbered interfaces. Applies the IP address of another router interface  
to this one.  
Primary IP Address  
Subnet Mask  
This table is continued.  
Applies to Numbered interfaces. Address assigned to this interface.  
Applies to Numbered interfaces. Subnet mask of the network.  
Chapter 5 - Configuration of the Ethernet Interface  
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Cyclades-PR4000  
Network Protocol Menu (Continued)  
Parameter  
Secondary IP  
Address  
Description  
Applies to Numbered interfaces. Indicates a second (or third, etc. up to eight) IP  
address that can be used to refer to this interface. This parameter and the next are  
repeated until no value is entered.  
Subnet Mask  
IP MTU  
Applies to  
interfaces. Subnet mask of  
.
Secondary IP Address  
Numbered  
Assigns the size of the Maximum Transmission Unit for the interface. This determines  
whether or not a given IP datagram is fragmented.  
NAT  
Determines the type of IP address if NAT is being used. Use  
otherwise. See  
Global  
chapter 13 or the examples in chapter 2 for details on how to configure NAT.  
causes the router to send ICMP Port Unreachable messages when it receives  
ICMP Port  
Active  
UDP or TCP messages for ports that are not recognized. This type of message is  
used by some traceroute applications, and if disabled, the router might not be identified  
in the traceroute output. However, there are security and performance reasons to  
leave this option  
.
Inactive  
Incoming Rule List  
Filter rule list for incoming packets. See chapter 14 for instructions on how this  
parameter should be set.  
Detailed Incoming IP Applies when a list is selected in the previous parameter. See explanation of IP  
Accounting  
Accounting in chapter 12. IP Accounting for a rule requires that the parameter  
CONFIG =>RULES LIST=>IP=>CONFIGURE RULES=>ADD RULE=>ALLOW  
ACCOUNT PROCESS also be Yes.  
Outgoing Rule List  
Name  
Filter rule list for outgoing packets. See chapter 14 for instructions on how this  
parameter should be set.  
Detailed Outgoing IP Applies when a list is selected in the previous parameter. See explanation of Detailed  
Accounting  
Incoming IP Accounting.  
Routing of Broadcast Activating this parameter causes the router to route broadcast messages from the LAN  
Messages  
to the WAN and vice-versa. An individual interface can be excluded by setting this  
parameter to Inactive, without effecting the broadcast of messages on the other  
interfaces.  
Proxy ARP  
Causes the router to answer ARP requests with its own MAC address for IP addresses  
reachable on another interface.  
Chapter 5 - Configuration of the Ethernet Interface  
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Cyclades-PR4000  
IP Bridge  
An IP Bridge is used to divide a network without subnetting. Whenever a subnetwork is created, two IP numbers  
are lost — one describing the network and the other reserved for broadcast. This does not occur with an IP  
Bridge.  
200.240.240.9  
200.240.240.3  
200.240.240.2  
200.240.240.1  
ETH0  
PR4000  
Link 1  
PR3000  
..................................  
ETH0  
200.240.240.8  
200.240.240.4  
FIGURE 5.1 IP BRIDGE EXAMPLE  
Chapter 5 - Configuration of the Ethernet Interface  
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Cyclades-PR4000  
In Figure 5.1, an example of the use of an IP Bridge is given. From the available IP addresses, the range  
200.240.240.4 to 200.240.240.8 is bridged to another physical location. The following parameters apply only for  
IP Bridge.  
Network Protocol Menu (Continued) -- (IP Bridge)  
Parameter  
Description  
IP Bridge  
Activates the IP Bridge functionality.  
The following parameters apply only if IP Bridge is Active.  
Initial IP Address to  
be Bridged  
Indicates the start of the range of IP addresses to be transferred to another physical  
location. This and the next three parameters are repeated in case the bridge is to be  
broken up into various sections. Up to 8 sections can be defined. In the example, this  
value is 200.240.240.4.  
Ending IP Address to Indicates the end of the range of IP addresses to be transferred to another physical  
be Bridged  
location. In the example, this value is 200.240.240.8.  
Broadcast Over the  
Link  
Allows propagation of broadcast IP packets over this bridge.  
Bridge Over Link  
Indicates which link forms the other half of the bridge. In the example, link 1 is used.  
Other Parameters  
Transparent Bridge is covered in chapter 7 and IPX is covered in chapter 15. The parameters defined in the  
Routing Protocol and Traffic Control Menus should be set after reading chapters 11 and 14, respectively. It is  
probably best to complete the basic configuration of all router interfaces, then return to the routing protocol and  
traffic control menus after general routing and traffic control strategies have been defined.  
Chapter 5 - Configuration of the Ethernet Interface  
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Cyclades-PR4000  
CHAPTER 6 THE SWAN INTERFACE  
This chapter describes how to configure a SWAN interface. The physical link should be set up as shown in  
chapter 2, according to the type of modem or device at the other end of the connection and the type of SWAN port.  
STEP ONE  
The first step in the SWAN interface configuration is to define its physical characteristics. These parameters are  
presented in the Physical Menu Table.  
Physical Menu CONFIG=>INTERFACE=>SWAN=>PHYSICAL  
Parameter  
Description  
Mode  
Asynchronous or Synchronous. This parameter is determined by the mode of the  
device at the other end of the connection.  
Clock Source  
Receive Clock  
Applies for Synchronous Mode. Whether this interface provides clock for the device at  
the other end of the cable or vice-versa. When the interface is connected to a modem,  
the  
is always  
.
External  
Clock Source  
Applies for  
. When this interface provides clock, it can either  
Internal Clock Source  
compare incoming messages with the clock it is generating (Internal) or with the clock  
it receives from the sender along with the message (External). External is  
recommended.  
Speed  
Applies for Internal Clock Source. Determines at which speed the data will be sent  
across the line.  
Media for SWAN  
Cable  
Type of cable -- RS-232, V.35 or X.21. Usually the type is cable is detected by the  
router.  
Chapter 6 - Configuration of the SWAN Interface  
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Cyclades-PR4000  
STEP TWO  
The second step is to choose a data-link protocol in the Encapsulation menu. There are many encapsulation  
options on this interface.  
For synchronous communication:  
• Frame Relay: the Frame Relay Protocol is based on frame switching and constructs a permanent virtual  
circuit (PVC) between two or more points.  
• X.25: The X.25 Protocol is generally used to connect to a public network. The router can act either as a DTE  
or a DCE.  
• HDLC: A proprietary alternative to PPP.  
For synchronous or asynchronous communication:  
• PPP: The PPP (Point-to-Point) protocol is used for leased, dial-up, and ISDN lines. Multilink PPP is also  
provided.  
Information on how to determine the values of the parameters for each data-link protocol is provided in chapter 8.  
STEP THREE  
The third step is to set the Network Protocol parameters. Information for this step is provided in chapter 7.  
Chapter 6 - Configuration of the SWAN Interface  
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Cyclades-PR4000  
STEP FOUR  
If PPP Encapsulation is being used, a type of authentication should be chosen. This is done in the authentication  
menu.  
Authentication Menu CONFIG=>INTERFACE=>SWAN=>AUTHENTICATION  
Parameter  
Description  
Authentication Type  
Local uses the list of users defined in CONFIG=> SECURITY=>USERS=>ADD.  
uses either Radius or Tacacs to authenticate the user.  
Server  
Remote is when this interface is considered to be the user and the  
end of the  
other  
connection performs the authentication  
Username  
Password  
Applies when Authentication Type is Remote. The username the remote device  
expects to receive.  
Applies when Authentication Type is Remote. The password the remote device  
expects to receive.  
Authentication Server Applies when Authentication Type is Server. Indicates that either a Radius or Tacacs  
server is used for validation. The location and other parameters of the server must be  
configured in CONFIG=> SECURITY. See section 4.3 of the CyROS Reference  
Guide.  
Authentication  
Protocol  
Applies when  
be used for authentication.  
is . Either PAP or CHAP or both can  
or  
Authentication Type Local Server  
STEP FIVE  
The parameters defined in the Routing Protocol and Traffic Control Menus should be set after reading chapters 9  
and 12, respectively. It is probably best to complete the basic configuration of all router interfaces, then return to  
the routing protocol and traffic control menus after general routing and traffic control strategies have been defined.  
Chapter 6 - Configuration of the SWAN Interface  
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Cyclades-PR4000  
CHAPTER 7 THE E1 AND T1 INTERFACES, WITHOUT SIGNALING  
The menus relating to configuration of the E1 and T1 interfaces without signaling are given in this chapter. T1 is  
a standard used in the United States, Canada, and Japan. It has a clock speed of 1.5MHz and has 24 channels  
of 64K each. One of the channels is reserved for signaling when ISDN/PRI is used. E1 is a standard used in  
Europe and many other countries. It has a clock speed of 2MHz and has 32 channels with two reserved for  
signaling. Aside from this, there are few differences between the two standards in terms of configuration.  
The Controller menu tree for the PR4000 (for Signaling Mode = None) is shown in figure 7.1  
Config  
Frame Mode  
Line Code  
Controller  
T1/E1  
Signaling Mode  
Clock Mode  
Line Build Out  
Receiver Sensitivity  
Companding Mode  
Add Group  
Timeslot  
Timeslot Allocation  
Timeslot Start  
Timeslot End  
Timeslot N  
Delete Group  
Edit Group  
Channel Group Number  
Channel Group Number  
Rest Same as Add Group  
Clear All Groups  
FIGURE 7.1 PR4000 CONTROLLER MENU TREE  
Chapter 7 - The E1 and T1 Interfaces, Without Signaling  
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Cyclades-PR4000  
The controller parameters are explained in the table that follows.  
Controller Menu CONFIG=>CONTROLLER=>T1/E1  
Parameter  
Frame Mode  
Description  
: ESF (Extended Super Frame, the most common) and D4 are the options.  
T1  
:
(the most common) and  
are the options.  
Non-CRC4  
E1 CRC4  
Line Code  
: B8ZS (Bipolar 8 Zero Substitution, the most common) and AMI (Alternate Mark  
T1  
Inversion).  
:
(High-Density Bipolar) and  
.
E1 HDB3  
AMI  
for channelized lines without signaling,  
Signaling Mode  
Only appears for the PR4000.  
None  
otherwise, see chapter 8.  
Clock Mode  
Selects the clock mode: Master or Slave.  
Line Build Out  
Applies only to T1. Sets the attenuation on the TX line. The T1 service provider  
should supply this parameter.  
Receiver Sensitivity  
Short haul is usually used. Long haul is necessary if attenuation prevents reception of  
data, usually when the router is installed more than 2000 feet from the cable  
termination.  
For the CCS Signaling Mode (ISDN-PRI) and the CAS Signaling Mode, read chapter 8  
of  
INSTEAD  
this chapter.  
The T1/E1 interface can be broken up into channels, defined by timeslots. Each timeslot is a slice of time allotted  
to throughput from a particular source. The configuration can be done in three ways:  
1 Full T1/E1: Only one channel group is defined and no others are allowed. All timeslots are allocated  
automatically to this channel.  
2 Fractional T1/E1: Only one channel group is defined. One or more timeslots are allocated to this channel.  
The number of timeslots can be increased at a later time.  
3 Channelized T1/E1: Many channels are defined, with one or more timeslots allocated to each channel.  
Chapter 7 - The E1 and T1 Interfaces, Without Signaling  
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53  
Cyclades-PR4000  
STEP ONE  
The first step in the T1/E1 configuration is the assigning of channel groups, performed in the channel groups  
menu shown in Figure 8.1. A brief description of the add group menu parameters is given in the table.  
Add Channel Group Menu CONFIG =>CONTROLLER =>T1/E1 =>CHANNEL GROUPS =>ADD GROUP  
Parameter  
Description  
Timeslot  
Full is used for Full T1/E1 as described above. Fractional is for Fractional or  
Channelized T1/E1 as described above.  
Timeslot Allocation  
Contiguous allows configuration of a range of timeslots while Manual presents each  
available timeslot one by one.  
Timeslot Start  
Timeslot End  
Timeslot N  
Applies for Contiguous Timeslot Allocation. Defines the beginning of the range.  
Applies for Contiguous Timeslot Allocation. Defines the end of the range.  
Applies for Manual Timeslot Allocation. Allows inclusion of this timeslot in the channel.  
STEP TWO  
The parameters for each E1/T1 channel are configured in the CONFIG =>INTERFACE =>T1/E1 =><CHANNEL>  
menu. A summary menu tree is given in Figure 7.2.  
A brief description of each principal item appears in the following table.  
E1/T1 Interface Menu CONFIG=>INTERFACE=>T1/E1=><CHANNEL>  
Menu Item  
Description  
Encapsulation  
Network Protocol  
Determines the data-link layer protocol to be used for this communication link.  
Provides menus for the IP and Transparent Bridge parameters, including rules to be  
applied to this interface.  
Routing Protocol  
Traffic Control  
Submenus for RIP and OSPF configuration.  
Sets the bandwidth of the connection for use with traffic control rules and associates a  
traffic control rule list to this interface. See chapter 14 for more information on traffic  
control rules.  
Authentication  
Determines the method used for authentication for connections on this line.  
Chapter 7 - The E1 and T1 Interfaces, Without Signaling  
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Cyclades-PR4000  
Config  
Interface  
Channel  
(if Channelized)  
T1/E1  
Encapsulation  
Frame Relay [menu shown in a later figure]  
PPP [menu shown in a later figure]  
X.25 [menu shown in a later figure]  
HDLC  
Keep Alive Interval  
Inactive  
Network Protocol [menu shown in a later figure]  
Routing Protocol [menu shown in a later figure]  
Traffic Control  
Authentication  
General  
Bandwidth  
IP Traffic Control List  
Authentication Type  
Username  
Password  
Authentication Server  
Authentication Protocol  
FIGURE 7.2 E1/T1 INTERFACE CONFIGURATION MENU TREE  
STEP THREE  
There are many encapsulation options on this interface.  
For full T1/E1:  
Frame Relay,  
PPP,  
X.25, and  
HDLC.  
Chapter 7 - The E1 and T1 Interfaces, Without Signaling  
55  
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Cyclades-PR4000  
For channelized T1/E1:  
PPP and HDLC.  
The Encapsulation options are described in chapter 10.  
STEP FOUR  
The Network Protocol Menu parameters must be set next. A description of these parameters appears in chapter  
9. The remaining menus in Figure 7.2 are described in later chapters. Routing Protocols is the subject of chapter  
11, and Traffic Control is discussed in chapter 14. The Authentication Menu is only relevant when PPP Encapsulation  
is used.  
Authentication Menu CONFIG =>INTERFACE =>T1/E1 =><CHANNEL> =>AUTHENTICATION  
Parameter  
Description  
Authentication Type  
Local uses the list of users defined in CONFIG =>SECURITY =>USERS =>ADD.  
uses either Radius or Tacacs to authenticate the user.  
Server  
is when this interface is considered to be the user and the  
end of the  
other  
Remote  
connection performs the authentication  
Username  
Password  
Applies when Authentication Type is Remote. The username the remote device  
expects to receive.  
Applies when Authentication Type is Remote. The password the remote device  
expects to receive.  
Authentication Server Applies when Authentication Type is Server. Indicates that either a Radius or Tacacs  
server is used for validation. The location and other parameters of the server must be  
configured in CONFIG=>SECURITY. See section 4.3 of the CyROS Reference Guide.  
Authentication  
Protocol  
Applies when Authentication Type is Local or Server. Either PAP or CHAP or both can  
be used for authentication.  
Chapter 7 - The E1 and T1 Interfaces, Without Signaling  
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56  
Cyclades-PR4000  
CHAPTER 8 THE E1 AND T1 INTERFACES, WITH SIGNALING  
Two varieties of signaling are available. The older mode, called CAS, and the newer mode, called CCS (which is  
used for ISDN-PRI). The first step in the configuration process is to configure the channels using the Controller  
menu. The Controller Menu tree is shown in Figure 8.1. The parameters are described in the table that follows.  
Config  
Controller  
E1/T1  
Frame Mode  
Line Code  
Signaling Mode  
Clock Mode  
Receiver Sensitivity  
Companding Mode  
Signaling Type  
Tone Signaling  
Contry Signaling  
Switch Type  
FIGURE 8.1 THE CONTROLLER MENU TREE  
Chapter 8 - The E1 and T1 Interfaces, With Signaling  
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Cyclades-PR4000  
Controller Menu CONFIG=>CONTROLLER=>T1/E1  
Parameter  
Description  
Frame Mode  
: ESF (Extended Super Frame, the most common) and D4 are the options.  
: CRC4 (the most common) and Non-CRC4 are the options.  
T1  
E1  
Line Code  
: B8ZS (Bipolar 8 Zero Substitution, the most common) and AMI (Alternate Mark  
T1  
Inversion).  
: HDB3 (High-Density Bipolar) and AMI.  
E1  
Signaling Mode  
for channelized lines without signaling (see chapter 7),  
for ISDN-PRI and  
CCS CAS  
None  
for analog, modem-based remote access (usually used with telephone networks that do not  
support ISDN).  
Clock Mode  
Selects the clock mode:  
or .  
Master Slave  
Line Build Out  
Applies only to T1. Sets the attenuation on the TX line. The T1 service provider should  
supply this parameter.  
Receiver  
Sensitivity  
Companding  
Mode  
Short haul is usually used. Long haul is necessary if attenuation prevents reception of  
data, usually when the router is installed more than 2000 feet from the cable termination.  
Defines the compression mode to be used. Depends on the telephone exchange and the  
E1/T1 provider should supply this parameter. A-law is usually used for E1 lines and u-law  
is usually used for T1 lines.  
Signaling Type  
Tone Signaling  
Applies when Signaling Mode is CAS. Selects the signaling type. This should be supplied  
by the service provider. The options are R2-Digital, ITU-T, and R2-Analog.  
Applies when Signaling Mode is CAS. Will depend on what is expected by the line provider.  
DTMF is the most common tone signaling for T1 and MFR2 Compelled is the most  
common for E1.  
Country  
Signaling  
Applies when Signaling Mode is CAS. Determines country-dependent signaling  
parameters.  
Switch Type  
Applies when Signaling Mode is CCS. Selects the signaling protocol. This should be  
supplied by the service provider.  
Chapter 8 - The E1 and T1 Interfaces, With Signaling  
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Cyclades-PR4000  
The CCS Signaling Mode (ISDN-PRI)  
ISDN, the Integrated Services Digital Network, was intended to be a digital upgrade to the current analog telephone  
system. The ISDN discussed in this chapter is N-ISDN, where the N is for Narrow Band. A Broad Band ISDN also  
exists. There are two ISDN interfaces:  
BRI — Basic Rate Interface — used for residential or small-business access.  
PRI — Primary Rate Interface — used to provide access or used by large businesses for access.  
Two PRI interfaces are provided on the PR4000 via E1 or T1 ports with CCS Signaling. These connections can  
be digital or analog (via a modem). The data layer protocols CHAR, PPPCHAR and Slip are used with a modem  
connection.  
A typical application in an Internet Service Provider is shown in Figure 8.2.  
Integrated  
RAS  
Application  
Server  
ISDN Line  
Telephone/  
ISDN Network  
Analog Line  
BRI Line  
Router  
PC  
Remote Users  
PC  
FIGURE 8.2 ISDN-PRI APPLICATION EXAMPLE  
Chapter 8 - The E1 and T1 Interfaces, With Signaling  
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Cyclades-PR4000  
After the channel groups are defined, the ISDN line and channels must be configured. The ISDN-PRI Interface  
Configuration Menu tree is shown in Figure 8.3.  
T1/E1  
(ISDN-PRI)  
Config  
Interface  
ISDN  
Main Phone  
Idle Timeout  
T200  
N200  
T203  
Add Entry  
Destination IP Address  
DestinationPhone #  
Slot N Channel #  
Delete Entry  
Edit Entry  
Clear All Entries  
Same as Add Entry  
One  
Channel  
Encapsulation  
Network Protocol  
Routing Protocol  
ISDN  
Bandwidth  
IP Traffic Control List  
Traffic Control  
Authenticarion Type  
Username  
Passaword  
Authentication  
Authentication Server  
Authenticarion Protocol  
Wizards  
Range  
Same Parameters as One Channel  
Same Parameters as One Channel  
All Channels  
FIGURE 8.3 ISDN-PRI INTERFACE CONFIGURATION MENU TREE  
Chapter 8 - The E1 and T1 Interfaces, With Signaling  
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Cyclades-PR4000  
The general ISDN options are explained first.  
ISDN General Menu CONFIG=>INTERFACE=>T1/E1(ISDN-PRI)=>ISDN  
Parameter  
Description  
Main Phone #  
Principal phone number assigned to the ISDN trunk line. Leave this parameter blank if this  
number should not be confirmed by the router. This is recommended when the provider  
does not send the trunk line number in the incoming call message.  
Time, in minutes, for the connection to time out if there is no traffic. For this to work, any  
status messages, like PPP's LCP Echo Requests, must be disabled. The value 0 disables  
the timeout function.  
Idle Timeout  
T200  
N200  
T203  
Data-layer timer. When the router sends a command, this timer determines how long it  
should wait for a response.  
Data-layer number of re-tries. When the T200 period passes without a response, the  
command is re-sent up to N200 times.  
When no messages are received for T203 seconds, an enquiry (RR or RNR) is sent.  
At the end of this parameter list appears the menu for the dial-out table. It can also be reached by using the  
<ESC> key at any time during the parameter list.  
Each entry is an association between a channel and the IP Address and Phone number at the other end of the  
connection. The router uses the IP information stored here in its routing table. When a packet arrives at the  
router, and the IP is listed in the dial-out table, the router will attempt a connection on the slot indicated using the  
associated phone number. The parameters for each entry are given next.  
Add Entry Menu CONFIG =>INTERFACE =>T1/E1(ISDN-PRI)= >ISDN =><ESC> =>ADD ENTRY  
Parameter  
Destination IP  
Address  
Description  
IP Address assigned to the remote connection.  
Destination  
Phone #  
Phone number assigned to the remote connection  
Slot N Channel # Channel used to reach this destination.  
Chapter 8 - The E1 and T1 Interfaces, With Signaling  
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The CAS Signaling Mode  
A typical application that uses CAS Signaling is shown in Figure 8.4.  
Integrated  
RAS  
Application  
Server  
CAS Line  
Telephone  
Network  
Analog Line  
Analog Line  
Router  
PC  
Remote Users  
PC  
FIGURE 8.4 CAS APPLICATION EXAMPLE  
The CAS Signaling Mode does not have a menu equivalent to the CONFIG =>INTERFACE =>T1/E1(ISDN-PRI)  
=>ISDN menu described above. Both signaling modes have a mode-specific menu at the channel level, with  
different names, but basically the same function. This menu, CONFIG =>INTERFACE =>T1/E1 =><CHANNEL>  
=>SIGNALING, will be described in the next section. The Interface Configuration tree for E1/T1 with CAS Signaling  
is shown in Figure 8.5  
Chapter 8 - The E1 and T1 Interfaces, With Signaling  
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Cyclades-PR4000  
One Channel  
Encapsulation  
Network Protocol  
Routing Protocol  
Signaling  
Config  
E1/T1 (CAS)  
Interface  
Bandwidth  
IP Traffic Control List  
Traffic Control  
Authentication  
Wizards  
Authentication Type  
Username  
Password  
Authentication Server  
Authentication Protocol  
Range  
Same Parameters as One Channel  
Same Parameters as One Channel  
All Channels  
FIGURE 8.5 CAS INTERFACE CONFIGURATION MENU TREE  
Parameters Independent of Signaling Mode  
The channel specific parameters can be set for each channel individually, for a range of channels, or for all  
channels. Wizards are available to automatically configure the channels for typical applications. Details appear  
at the end of this chapter. The notation <CHANNEL> will be used to represent One Channel, Range, or All  
Channels where appropriate. The following menu options are available for each channel:  
Chapter 8 - The E1 and T1 Interfaces, With Signaling  
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Channel Menu CONFIG=>INTERFACE=>T1/E1=><CHANNEL>  
Menu Option  
Encapsulation  
Network Protocol  
Description  
Determines the data-link layer protocol to be used for this communication link.  
Provides menus for the IP and Transparent Bridge parameters, including rules to be applied to this  
interface.  
Routing Protocol  
ISDN(CCS) / Signaling  
(CAS)  
Configures RIP parameters.  
Sets parameters particular to the signaling mode, and determines the phone number and modem  
profile.  
Traffic Control  
Sets the Bandwidth of the connection for use with traffic control rules and associates a Traffic Control  
Rule List to this interface. See section 4.7 for more information on traffic control rules.  
Determines the method used for authentication for connections on this line.  
Tools that aid in the configuration of the interface for common applications.  
Authentication  
Wizards  
The encapsulation options, PPP, PPPCHAR, CHAR, Slip, and SlipChar are discussed in chapter 10.  
Multilink Options  
There are three ways to make two or more physical links perform as one logical link:  
1 Multichassis, Multilink PPP,  
2 Multilink PPP,  
3 CyROS Multilink (at the network-protocol level).  
Multichassis PPP is a feature that allows two or more connections to different PR4000s on the same LAN act as  
one logical connection. The Cyclades Multichassis PPP implementation is compatible with the Lucent Portmaster  
3 (either PR4000s/PR3000s or Portmaster 3s can be used to form the multichassis circuit). The multichassis PPP  
functionality is demonstrated in Figures 8.6 and 8.7.  
Figure 8.6 shows a RAS bank in an Internet Service Provider. The RAS that receives the first connection becomes  
the master and the connection becomes the primary link. The information sent on link 1 passes through the RAS  
and continues on to its destination (in this example, a server on the LAN). At the same time, the RAS (IP  
200.200.200.1 in the example) sends a broadcast message to all other RASs in the same group letting them know  
that it has the primary link for this PPP connection.  
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Cyclades-PR4000  
Internet Service Provider  
ISDN  
Modem  
Server  
Packet  
LAN  
Packet  
Link 1  
PR4000  
Master  
Primary Link  
MC PPP End Point Discriminator 11:22:33:44:55:66  
MC PPP IP Address (Ethernet IP Address): 200.200.200.1  
BC  
PR4000  
BC  
MC PPP End Point Discriminator 11:22:33:44:55:66  
MC PPP IP Address (Ethernet IP Address): 200.200.200.2  
PR4000  
BC  
MC PPP End Point Discriminator 11:22:33:44:55:66  
MC PPP IP Address (Ethernet IP Address): 200.200.200.3  
FIGURE 8.6 FIRST INCOMING CONNECTION OF A MULTICHASSIS PPP CIRCUIT  
The RAS that receives the second connection from the same ISDN modem (shown in Figure 8.7), has already  
been informed by the broadcast message that the first RAS has the primary link. The connection is set up as a  
secondary link with this RAS (IP 200.200.200.3 in the example) as the slave. The information is not sent directly  
to its final destination. Rather, the packets are sent to the master RAS where they are joined with packets sent  
through other physical links before being forwarded to their final destination.  
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The info menu items INFO=> SHOW MCPPP LINKS and INFO=> SHOW MCPPP NEIGHBORS provide information  
about the PPP connections and the other RASs forming the circuit. The tool DEBUG=> MESSAGE TRACE=>  
MCPPP may be useful in discovering MCPPP problems. Another tool exists which must be used in the RAS  
containing the primary link for a given PPP connection. The menu option ADMIN=> KILL VIRTUAL SESSION will  
show all active secondary links. Selecting one of them will cause the master RAS to send a message to the slave  
RAS holding that secondary link, ordering it to drop its connection.  
Internet Service Provider  
ISDN  
Modem  
Server  
LAN  
Packet  
Link 1  
PR4000  
Master  
Link 2  
Primary Link  
IP Address 200.200.200.1  
PR4000  
IP Address 200.200.200.2  
IP Address 200.200.200.3  
Secondary Link  
PR4000  
Slave  
Packet  
FIGURE 8.7 SECOND INCOMING CONNECTION OF A MULTICHASSIS PPP CIRCUIT  
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Cyclades-PR4000  
Multilink PPP (MLPPP) is similar in functionality to the Multichassis feature. The primary difference is that all  
physical links reside in the same RAS/Router. It is similar to the CyROS Multilink capability described in section  
4.4 of the CyROS Refrence Guide, but it is implemented at the data-link level instead of the network-protocol  
level. When compared to Multilink, MLPPP is slightly more efficient and less generic (because it applies only to  
PPP encapsulation).  
Router A  
Modem  
Modem  
Modem  
Link 2 (Bundle 6)  
Modem  
Link 1  
(Bundle 6)  
Router B  
FIGURE 8.8 MULTILINK PPP EXAMPLE  
In Figure 8.8, Router B connects to Router A via two modem connections to achieve a larger bandwidth.  
Router A accepts the two physical connections, but treats them as one logical connection (one “bundle”).  
MLPPP must be enabled on all interfaces that will form this bundle, (and on both sides of the connection), with  
the same bundle identifier specified for each.  
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Configuration of Multilink PPP (with an extension to Multichassis Multilink PPP) includes the following steps:  
STEP ONE  
The first four parameters in the PPP Menu must be defined. The PPP Menu can be reached by following the path:  
CONFIG =>INTERFACE =><INTERFACE or LINK> =>ENCAPSULATION =>PPP. The first parameter enables  
MLPPP. The second parameter determines the type of connection (leased line, dial-in, etc.). The third parameter  
is the number assigned to the bundle, as described above (except for dial-in lines, where the bundle is defined  
dynamically). The number itself is not important, but must be consistently used by the routers on both ends of the  
connection. The fourth parameter determines the maximum number of links included in the multilink PPP circuit.  
STEP TWO (only for Multichassis Multilink PPP)  
The menu CONFIG =>IP =>MCPPP contains the only two parameters necessary to enable MCPPP. The first is  
the MCPPP End Point Discriminator, which must be the same for all RASs that will participate in the Multichassis  
Multilink PPP Circuit. The value of the number is immaterial, but it must have the form of a MAC number, as  
shown in the example. The other parameter is the MCPPP IP Address, which must be the same as the Ethernet  
IP address for the LAN where the other RASs are located. The MCPPP parameters must be set for all the RASs  
that will participate in the circuit.  
The Network Protocol Menu tree is explained in chapter 9. The only routing protocol available is RIP. RIP is  
described in chapter 11. For each channel, certain signaling parameters must be configured. This menu tree is  
shown in Figure 8.9.  
ISDN/  
SIgnaling  
Config  
Interface  
E1/T1  
<Channel>  
Connection Type  
Phone #  
Increment By  
Digital Modem Profile ID  
Automatic Dial Out  
Use DSP to Dial-Out  
FIGURE 8.9 CHANNEL ISDN (OR SIGNALING) MENU TREE  
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Channel ISDN Menu CONFIG=>INTERFACE=>T1/E1(ISDN-PRI)=><CHANNEL> =>ISDN  
or  
Channel Signaling Menu CONFIG=>INTERFACE=>T1/E1(CAS)=><CHANNEL> =>SIGNALING  
Parameter  
Description  
Connection Type  
Applies only for ISDN. Whether the line will be used to receive (dial-in) or send (dial-out)  
messages, or both.  
Phone # for this  
Channel  
Applies for Dial-in, or Both. If a specific phone number is assigned to each channel,  
enter it here. Usually this does not happen.  
Increment By  
Applies only for CAS, when configuring a range or all channels. Increment by zero  
assigns all channels in the range the same phone number (set in the previous item).  
Increment by one assigns consecutive phone numbers to all channels in the selected  
range.  
Digital Modem  
Profile ID  
Applies for Dial-in, or Both. The modem profiles are defined in CONFIG =>SYSTEM  
=>MODEMS =>DIGITAL MODEM.  
Automatic Dial Out Applies only for ISDN and Dial-out. If  
, the router will try to connect with the first  
Yes  
destination listed in the dial-out table as soon as the ISDN line is up and synchronized. If  
, the connection will occur only on demand.  
No  
Applies only for ISDN and Dial-out or Both. If  
Use DSP to Dial  
Out  
, the connection will be analog  
Yes  
(modem). If  
, digital.  
No  
The Authentication Menu Tree, which appears only for PPP and PPPCHAR encapsulation, is shown in Figure 8.3.  
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Authentication Menu CONFIG =>INTERFACE =>T1/E1=><CHANNEL> =>AUTHENTICATION  
Parameter  
Description  
Authentication Type Local uses the list of users defined in CONFIG=> SECURITY=>USERS=>ADD.  
uses either Radius or Tacacs to authenticate the user.  
Server  
is when this interface is considered to be the user and the  
end of the  
other  
Remote  
connection performs the authentication  
Username  
Password  
Applies when Authentication Type is Remote. The username the remote device expects  
to receive.  
Applies when Authentication Type is Remote. The password the remote device expects  
to receive.  
Authentication  
Server  
Applies when Authentication Type is Server. Indicates that either a Radius or Tacacs  
server is used for validation. The location and other parameters of the server must be  
configured in CONFIG=> SECURITY. See section 4.3.  
Applies when Authentication Type is Local or Server. Either PAP or CHAP or both can  
be used for authentication.  
Authentication  
Protocol  
Wizards were created to simplify the E1/T1 configuration for common applications. The Wizards Menu tree is  
shown in Figure 8.10, and its parameters are explained in the next table. The parameters set automatically are  
given in the tables that follow.  
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Config  
Interface  
T1/E1  
<Channel>  
Wizards  
TS Profile  
Username  
Phone #  
Digital Modem Profile ID  
RAS Profile  
Remote IP Address  
Phone #  
Digital Modem Profile ID  
LAN-to-LAN Profile  
Primary IP Address  
Subnet Mask  
Secondary IP Address  
Subnet Mask  
Remote IP Address Type  
Remote IP Address  
Phone #  
Digital Modem Profile ID  
Copy From Channel  
Channel  
FIGURE 8.10 WIZARDS MENU TREE  
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Wizards Menu CONFIG =>INTERFACE =>T1/E1 =><CHANNEL> =>WIZARDS  
Menu Items  
Description  
TS Profile  
Used to create a local host Terminal Server. For CCS, the only parameter is the  
Username. For CAS, the parameters are the Username, the Phone Number for the  
channel, and the Digital Modem Profile ID.  
RAS Profile  
Used to set up a PPP Remote Access Server using modems and dial-up lines. The  
Remote IP Address of the first port is the only parameter, for CCS. For CAS, the  
parameters are Remote IP Address, the Phone Number for the channel, and the  
Digital Modem Profile ID. If the Wizard is used for a range or all ports, the following  
ports will be the numbered consecutively.  
Lan-to-Lan Profile  
Used to connect two LANs. The only parameters are the  
, the  
Primary IP Address  
, any  
and  
, the  
Subnet Mask  
Secondary IP Addresses  
Subnet Masks Remote IP  
Address Type and the Address. For CAS, the parameters Phone Number and Digital  
Modem Profile ID are also requested.  
Copy From Channel Used to copy an entire configuration from one channel to another, while changing the  
IP address so that the ports are numbered consecutively.  
The parameters automatically configured by the terminal server wizard are shown in Figure 8.11.  
Encapsulation  
CHAR  
Device Type  
Terminal  
TCP KeepAlive  
Inactive  
Terminal Type  
ANSI  
Escape Session Character Code  
Switch Session Character Code  
Direct Login User  
Dial-Out  
1
11  
***  
Non-Automatic (CCS only)  
*** for CAS  
Phone #  
Digital Modem Profile ID #  
*** for CAS  
FIGURE 8.11 PARAMETERS SET BY THE TS WIZARD  
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The parameters automatically configured by the RAS wizard are shown in Figure 8.12.  
Encapsulation  
PPPCHAR  
IP Protocol  
Active  
Interface  
Unnumbered  
Primary IP Address  
Subnet Mask  
***  
*Depends on the IP  
Remote IP Address Type  
Remote IP Address  
IP MTU  
Fixed  
***  
1500  
NAT - Address Scope  
ICMP Port  
Global  
Inactive  
Incoming Filter List  
Outgoing Filter List None  
Interface Transparent Bridge  
Bandwidth  
None  
None  
Inactive  
0
IP Traffic Control List  
Van Jacobson IP Header Compression  
LCP ECHO Requests  
Time Interval to Send Config Requests:  
ACCM for Reception:  
Escape Session Character Code  
Switch Session Character Code  
Predictor Compression  
Inactivity Timeout  
None  
Disabled  
Enabled  
1
000A0000  
1
11  
Disabled  
None  
Link Authentication Method  
Connection  
PAP/CHAP Local Authenticator  
Dial-In  
Phone #  
*** for CAS  
Digital Modem Profile ID #  
*** for CAS  
FIGURE 8.12 PARAMETERS SET BY THE RAS WIZARD  
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The parameters automatically set by the Lan-to-Lan wizard are shown in Figure 8.13.  
Encapsulation  
PPP  
IP Protocol  
Interface  
Primary IP Address  
Subnet Mask  
Active  
Numbered  
***  
***  
Secondary IP Address  
Secondary Subnet Mask  
Remote IP Address Type  
Remote IP Address  
IP MTU  
***  
***  
***  
***  
1500  
NAT - Address Scope  
ICMP Port  
Incoming Filter List  
Outgoing Filter List None  
Interface Transparent Bridge  
Bandwidth  
Global  
Inactive  
None  
None  
Inactive  
0
IP Traffic Control List  
Van Jacobson IP Header Compression  
LCP ECHO Requests  
Time Interval to Send Config Requests:  
ACCM for Reception:  
Predictor Compression  
Inactivity Timeout  
Link Authentication Method  
Connection  
None  
Disabled  
Enabled  
1
00000000  
Disabled  
None  
None  
Dial-In  
*** for CAS  
*** for CAS  
Phone #  
Digital Modem Profile ID #  
FIGURE 8.13 PARAMETERS SET BY THE LAN-TO-LAN WIZARD  
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CHAPTER 9 NETWORK PROTOCOLS  
The second step in most interface configurations is to choose which network protocol to use and assign values to  
the relevant parameters. At least one of IP, Transparent Bridge, or IPX (optional, and discussed in chapter 15)  
must be activated. Use the information provided below to set the parameters for each interface. The Ethernet  
network protocol menu includes IP bridging and is explained in chapter 5. The SWAN Network Protocol Menu is  
given in figure 7.1. Note that this menu varies slightly for each interface. Specific information on the options for  
each interface is provided in the CyROS Reference Guide in the chapter for the interface.  
Config  
Interface  
SWAN  
Network Protocol  
IP  
Active  
Interface Unnumbered/Numbered  
Assign IP from Interface  
Primary IP address  
Subnet Mask  
Secondary IP Address  
Subnet Mask  
IP MTU  
NAT  
ICMP Port  
Incoming Rule List Name  
Detailed Incoming IP Accounting  
Outgoing Rule List Name  
Detailed Outgoing IP Accounting  
Routing of Broadcast Messages  
Transparent  
Bridge  
Status  
Port Priority  
Incoming Rule List Name  
Outgoing Rule List Name  
FIGURE 7.1 NETWORK PROTOCOL MENU TREE FOR THE SWAN INTERFACE  
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The IP Protocol  
If the preset values provided by the operating system are accepted, the interface will work at a basic level. The  
most common options are explained in the following table.  
Network Protocol (IP) Menu CONFIG=>INTERFACE=><LINK>=>NETWORK PROTOCOL=>IP  
Parameter  
Description  
Active or Inactive  
Interface Unnumbered  
Activates this interface.  
Unnumbered interfaces can be used for point-to-point connections.  
Assign IP From Interface Applies to Unnumbered interfaces. Applies the IP address of another router  
interface to this one.  
Primary IP Address  
Subnet Mask  
Secondary IP Address  
Applies to Numbered interfaces. Address assigned to this interface.  
Applies to Numbered interfaces. Subnet mask of the network.  
Applies to Numbered interfaces. Indicates a second (or third, etc. up to eight) IP  
address that can be used to refer to this interface. This parameter and the next are  
repeated until no value is entered.  
Subnet Mask  
Applies to Numbered interfaces. Subnet mask of Secondary IP Address.  
Enable Dynamic Local IP The terminal connected through PAD assigns an IP address to the router for  
Address purposes of their connection.  
Remote IP Address Type The computer connected through PAD or PPP sends its IP address in the  
negotiation package.  
Fixed: The IP address sent must match the number set in the next parameter.  
Same Net: The IP address sent must be an address in the network set in the next  
parameter.  
Any: The IP address can be any number that does not conflict with any local IP  
address.  
None: Any IP address is accepted. This is not recommended.  
Remote IP Address.  
this table is continued  
If Remote IP Address Type not None. Used in conjunction with the previous  
parameter.  
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Network Protocol (IP) Menu (Continued)  
Parameter  
Description  
IP MTU  
Assigns the size of the Maximum Transmission Unit for the interface. This  
determines whether or not a given IP datagram is fragmented.  
Determines the type of IP address if NAT is being used. Use Global otherwise.  
See chapter 11 or the examples in chapter 4 for details on how to configure NAT.  
Active causes the router to send ICMP Port Unreachable messages when it  
receives UDP or TCP messages for ports that are not recognized. This type of  
message is used by some traceroute applications, and if disabled, the router might  
not be identified in the traceroute output. However, there are security and  
performance reasons to leave this option Inactive.  
NAT  
ICMP Port  
Incoming Rule List  
Filter rule list for incoming packets. See chapter 12 for instructions on how this  
parameter should be set.  
Detailed Incoming IP  
Accounting  
Applies when a list is selected in the previous parameter. See explanation of IP  
Accounting later in this chapter. IP Accounting for a rule requires that the  
parameter CONFIG =>RULES LIST=>IP=>CONFIGURE RULES=>ADD RULE  
=>ALLOW ACCOUNT PROCESS also be Yes.  
Outgoing Rule List Name Filter rule list for outgoing packets. See chapter 12 for instructions on how this  
parameter should be set.  
Detailed Outgoing IP  
Accounting  
Applies when a list is selected in the previous parameter. See explanation of  
Detailed Incoming IP Accounting.  
Routing of Broadcast  
Messages  
Activating this parameter causes the router to route broadcast messages from the  
LAN to the WAN and vice-versa. An individual interface can be excluded by setting  
this parameter to Inactive, without effecting the broadcast of messages on the other  
interfaces.  
Chapter 9 Network Protocols  
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The Transparent Bridge Protocol  
The Transparent Bridge Protocol can be used in conjunction with either IP or IPX. A detailed explanation of its use  
appears in section 4.6 of the CyROS Reference Guide.  
Transparent Bridge Menu CONFIG=>INTERFACE=>SWAN=>NETWORK PROTOCOL=>TRANSPARENT  
BRIDGE  
Parameter  
Status  
Description  
Activates the Transparent Bridge on this interface.  
Port Priority  
For the Spanning Tree Algorithm, a priority is given to each link in the router and to  
each router in the network. See CONFIG=>TRANSPARENT BRIDGE  
=>SPANNING TREE in the CyROS Reference Guide for more information.  
Incoming Rule List Name Transparent Bridge rule list name for incoming packets. Note: Rule lists for  
Transparent Bridge and IP are created separately. See section 4.7 in the CyROS  
Reference Guide for instructions on how this rule list is created.  
Outgoing Rule List Name Filter rule list name for outgoing packets. See section 4.7 in the CyROS Reference  
Guide for instructions on how this rule list is created.  
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CHAPTER 10 DATA-LINK PROTOCOLS (ENCAPSULATION)  
Each encapsulation option is presented in a separate section in this chapter. Not all data-link protocols are  
available for all interfaces.  
PPP (The Point-to-Point Protocol)  
PPP is the only encapsulation option than can be either synchronous or asynchronous. It is important to choose  
between them in CONFIG =>INTERFACE =><LINK> =>PHYSICAL before entering the Encapsulation menu.  
The menu options depend on this choice. (Note: not all interfaces support both the synchronous and asynchronous  
modes. In this case, there is no physical menu.)  
The configuration of the PPP data-link protocol is confined to one menu, CONFIG =>INTERFACE =><LINK>  
=>ENCAPSULATION =>PPP. Information about all the parameters appearing in this menu is provided in the  
table below. Not all parameters will appear for all interfaces.  
PPP Menu CONFIG =>INTERFACE =><LINK> =>ENCAPSULATION =>PPP  
Parameter  
Description  
MLPPP  
Enables Multilink PPP on this interface. MLPPP is described in the CyROS  
Reference Guide for each interface that supports it.  
Applies for MLPPP = Yes. Type of line used on this link.  
Leased, Dial-in, etc.  
Identification for This Bundle Applies for MLPPP = Yes and Dial-out or Leased. An integer value.  
Total Number of lines for  
This Bundle  
Applies for MLPPP = Yes. Maximum number of links allowed in the bundle.  
PPP Inactivity Timeout  
Applies to asynchronous connections only. The connection is closed when  
data does not pass through the line for this period of time.  
Enable Van Jacobson IP  
Header Compression  
Allows the link to receive compressed packets. This type of compression is  
useful for low-speed links and/or small packets. It is not recommended for fast  
links, as it requires CPU time.  
Transmit Compressed  
Packets  
Applies when Enable Van Jacobson IP Header Compression is Yes. This  
parameter causes the link to send compressed packets.  
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PPP Menu (Continued)  
Parameter  
Description  
Disable LCP Echo  
Requests  
LCP (Link Control Protocol) messages are normally exchanged to monitor the status  
of the link. Disabling these messages reduces traffic, but the link then has no way of  
knowing if the other end is still connected.  
Time Interval to Send Config Request messages are used to negotiate the parameters at the start of a PPP  
Config Requests  
connection. For a slow line, this time should be increased to allow the reply to return  
to the sender. If not, the sender will assume it was lost and send another.  
Applies to asynchronous connections only. Permits control character mapping  
negotiation on asynchronous links. This is useful when you need to send a control  
character as data (e.g. XON/XOFF, Crtl A, etc.) over an asynchronous link and do not  
want it interpreted by the modem or other device in the middle. The map is built up  
with the following commands.  
Edit ACCM  
Clear – Resets the ACCM table toggle;  
Toggle XON/XOFF – Add XON/XOFF control characters to the ACCM table;  
Toggle Char – Add other control characters to the ACCM table, using their ASCII  
value.  
Typing the option once (for example, X), includes it in the table. Typing it again  
excludes it from the table. More details are given in the CyROS Reference Guide.  
Enables data compression using the Predictor algorithm. This feature should be  
enabled only if Cyclades' equipment is being used on both ends of the connection  
because there is no established standard for data compression interoperability. Data  
compression is very CPU-intensive, making this feature effective only for links running  
at speeds under 1Mbps. At higher speeds, the time necessary to compress data  
offsets the gains in throughput achieved by data compression.  
Enable Predictor  
Compression  
Number of Bits for  
Compression  
Connection Type  
Applies when Predictor Compression Enabled. Sixteen is fastest, but 10 must be  
used if the router on the other end is a PathRouter, for compatibility.  
Applies to asynchronous connections only. NT-Serial Cable is a direct connection to  
a Windows NT computer. This is necessary because NT requires a negotiation  
before the beginning of the PPP negotiation. Direct is used for other connections  
using cables or leased lines.  
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CHAR  
The configuration of the CHAR data-link protocol is confined to one menu, CONFIG =>INTERFACE =><LINK>  
=>ENCAPSULATION =>CHAR. Information about all the parameters appearing in this menu is provided in the  
table below. Not all parameters will appear for all interfaces.  
CHAR Encapsulation Menu CONFIG=>INTERFACE =><LINK>=>ENCAPSULATION =>CHAR  
Parameter  
Description  
Device Type  
Determines whether a Terminal, Printer, or Socket device will be connected to this  
port.  
TCP Keep Alive Timer The delay between Keep Alive messages sent by TCP.  
Terminal Type  
Switch Session  
Character Code  
Escape Session  
Character Code  
Username  
For a terminal, ANSI is generally used. For a printer, dumblp is generally used.  
Applies for Terminal Device. Control character used to switch sessions. 1 is Ctrl-  
A, 2 is Ctrl-B, etc. The value 254 disables this option.  
Applies for Terminal Device. Control character used while in a telnet session, to  
return to the router menu without closing the session.  
Applies for a Terminal Device. Must be entered into the local user table first. See  
chapter 10. If this parameter is left blank, the user will have to enter a username  
Applies for Socket Device. Wait is used when the remote application will start the  
communication. When Start is used, a connection is attempted as soon as the line  
is considered operational.  
Wait for or Start a  
Connection  
Destination Hostname  
Applies for Socket Device. The remote hostname to which the socket will be  
connected, if the previous parameter was start. This name must have been  
defined in the host table. See chapter 10.  
Filter Null Char after CR Applies for Socket Device. Interprets a CR NULL sequence, received on a TCP  
Char connection, as CR (only).  
Idle Timeout in Minutes Applies for Socket Device. The connection is broken if no traffic passes in this time.  
DTR ON Only if Socket Applies for Socket Device. If False, the Data Terminal Ready line is switched on  
Connection Established when the router is booted.  
Device Attached to This Applies for Socket Device. Yes if the device attached to the socket will echo the  
Port Will Send ECHO  
chacters sent to it.  
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PPPCHAR  
The configuration of the PPPCHAR protocol is contained in the menu CONFIG =>INTERFACE =><LINK>  
=>ENCAPSULATION =>PPPCHAR. The parameters for PPPCHAR are a combination of those for PPP and  
CHAR. See the tables describing the PPP and CHAR options for guidance in configuring this protocol.  
HDLC  
This data-link protocol is a proprietary alternative to PPP. It has only one parameter, the HDLC Keepalive Interval.  
This is the time interval between transmission of Keepalive messages. The receiver of these messages must  
send keepalive messages with the same frequency or will be considered inoperative.  
Frame Relay  
FR supports multiple connections over a single link. Each data link connection (DLC) has a unique DLCI (data  
link connection identifier). This allows multiple logical connections to be multiplexed over a single channel.  
These are called Permanent Virtual Circuits (PVCs). The DLCI has only local significance and each end of the  
logical connection assigns its own DLCI from the available local numbers.  
Traffic Control based on Data Link Connection  
Traffic Control as described in chapter 14 can also be performed on a Frame Relay interface for each permanent  
virtual connection. The parameters in the Add DLCI menu are used in the same manner as those described in  
chapter 14. More details are available in the CyROS Reference Guide.  
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STEP ONE  
The first step is to set the general Frame Relay parameters, those applying to all DLCs. This is done in the Frame  
Relay Menu. The parameters are shown in the table below. Most of these depend on the standards used by the  
Frame Relay Network Provider.  
The Local Management Interface (LMI) Protocol provides services not available in simple Frame Relay. It is used  
for controlling the connection between the user and the network. It monitors this link, maintains the list of DLCs,  
and sends status messages about the PVCs. A separate virtual circuit is created to pass this information (DLCI  
0).  
Frame Relay Menu CONFIG=>INTERFACE=><LINK>=>ENCAPSULATION =>FRAME RELAY  
Parameter  
Description  
SNAP IP  
Indicates that the Sub-Network Access Protocol should be used. The router on the sending  
end must be using the same header type (NLPID or SNAP) as the router on the receiving  
end. See the CyROS Reference Guide for more information.  
LMI  
Selects the Local Management Interface specification to be used. ANSI, Group of Four  
(defined by the vendors that first implemented Frame Relay), Q933a (defined by ITU-T), and  
None (used for a dedicated FR connection without a network).  
T391  
N391  
Interval between the LMI Status Enquiry messages.  
Full Status Polling Counter. Full Status Enquiry messages are sent every N391-th LMI Status  
Enquiry message.  
N392  
Error Threshold. The network counts how many events occur within a given period and  
considers an interface inactive when the number of events exceeds a threshold. N393 is the  
number of events to be considered and N392 the number of errors within this period. If N392  
of the last N393 events are errors, the interface is deemed inactive. A successful event is the  
receipt of a valid Status Enquiry message  
N393  
CIR  
Monitored Events Count. See the description of N392. This value must be larger than N392.  
Committed Information Rate, in percentage of total bandwidth (bandwidth defined in  
CONFIG=>INTERFACE=>SWAN =>TRAFFIC CONTROL =>GENERAL =>BANDWIDTH).  
Traffic above this rate may be discarded if the network is congested.  
Enables traffic control per DLCI. Traffic control options appear in the Add DLCI Menu.  
Bandwidth  
Reservation  
FRF-12  
When set, indicates the size of the FRF012 fragment in bytes (range: 40-1600).  
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STEP TWO  
After configuring the general parameters, each DLC must be defined. An example will be used to demonstrate the  
procedure.  
A public Frame Relay network connecting offices in São Paulo, Rio de Janeiro, Salvador, and Recife is shown in Figure  
11.1. Each router will have a routing table pairing destination network with router interface and gateway. A Frame  
Relay Address Map is also created (either statically or dynamically) to associate each DLCI with the destination  
router IP.  
For the router in Salvador, the Frame Relay address map will look like this:  
DLCI  
11  
21  
IP  
200.1.1.1  
200.1.1.4  
200.1.1.3  
81  
Data link connections are defined in the Add DLCI menu, which appears at the end of the Frame Relay parameter  
list. It can be reached by passing through all parameters or by using the <ESC> key at any point in the parameter  
list.  
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São Paulo  
Network: 192.168.200.0  
Rio de Janeiro  
Network: 192.168.201.0  
Router  
Router  
200.1.1.1  
200.1.1.4  
21  
81  
11  
200.1.1.2  
200.1.1.3  
Router  
Router  
Salvador  
Network: 192.168.203.0  
Recife  
Network: 192.168.202.0  
FIGURE 8.1 PERMANENT VIRTUAL CIRCUITS BETWEEN OFFICES  
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Add DLCI Menu CONFIG=>INTERFACE =><LINK> =>ENCAPS =>FRAME RELAY =><ESC> =>ADD DLCI  
Parameter  
Description  
DLCI Number  
Used to identify the DLC. This number is supplied by the Public Frame Relay  
network provider. The DLCIs are stored in a table which can be seen with the L  
command.  
Frame Relay Address Determines the method used for mapping the remote IP address to the Permanent  
Map  
Virtual Circuit. Static maps one IP address to this DLCI. Inverse ARP maps the IP  
address dynamically, in a manner similar to the ARP table.  
IP Address  
Applies when Frame Relay Address Map is Static. Provides the IP address to be  
used for static address mapping.  
Enable Predictor  
Compression  
Enables data compression using the Predictor algorithm. This feature should be  
enabled only if Cyclades' equipment is being used on both ends of the connection  
because there is no established standard for data compression interoperability. Data  
compression is very CPU-intensive, making this feature effective only for links running  
at speeds under 1Mbps. At higher speeds, the time necessary to compress data  
offsets the gains in throughput achieved by data compression.  
Number of Bits for  
Compression  
DLCI Priority Level  
Applies when Predictor Compression Enabled. Sixteen is fastest, but 10 must be  
used if the router on the other end is a PathRouter, for compatibility.  
This is the equivalent of CONFIG=>RULES LIST=>IP =>CONFIGURE  
RULES=>ADD RULE=>FLOW PRIORITY LEVEL. See the section on traffic control  
in chapter 12.  
Reserved Bandwidth This is the equivalent of CONFIG=>RULES LIST=>IP =>CONFIGURE  
RULES=>ADD RULE=>RESERVED BANDWIDTH. Defines what percentage of the  
CIR (Committed Information Rate) for an interface will be set aside for this DLC. See  
the section on traffic control in chapter 12.  
Bandwidth Priority  
Level  
This is the equivalent of CONFIG=>RULES LIST=>IP =>CONFIGURE  
RULES=>ADD RULE=>BANDWIDTH PRIORITY LEVEL. See the section on traffic  
control in chapter 12.  
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To edit the DLCI table, use the list command (CONFIG=>INTERFACE=><LINK>=>ENCAPSULATION  
=>FRAME RELAY=>L) to discover the number CyROS has assigned to each table entry. It will not be the  
same as the DLCI.  
Modem or  
DSU/CSU  
Router / DTE  
Router / DTE  
Switch / DCE  
Switch / DCE  
X.25  
FIGURE 8.2 PUBLIC X.25 NETWORK EXAMPLE  
X.25  
A Cyclades Router can act either as a DTE (Data-terminal Equipment) connected to a public X.25 network or as  
a DTE or DCE (Data circuit-terminating Equipment) as part of a private X.25 network. The first case is discussed  
in this chapter. The second case is described in the CyROS Reference Guide. Both Permanent Virtual Circuits  
(PVCs) and Switched Virtual Circuits (SVCs) can be defined. A PVC requires that two DTEs be permanently  
connected.  
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STEP ONE  
First, the general X.25 protocol parameters are set in the X.25 Menu. A detailed description of the X.25 parameters  
and their values for the example is provided in the table below.  
X.25 Menu CONFIG=>INTERFACE=><LINK>=>ENCAPSULATION =>X.25  
Parameter  
Description  
X.121 (Local DTE) Address Address assigned to this interface (provided by the public X.25 Network  
Provider). Can be up to 15 digits.  
Switch Mode Active  
Causes the Router to act as a switch.  
Applies when Switch Mode is Active.  
Incoming Calls Received  
Over the Other X.25 Links  
With Unknown Destination  
DTE Can be Forwarded  
Through This Link  
Suppress Calling Address Public X.25 Network: This parameter must be chosen according to the  
guidelines given by the Public X.25 Network provider. When activated, the  
sender's Local DTE address is not included in the Call Request Message.  
Inactivity Timeout  
Time until connection is automatically terminated by the router if there is no  
traffic.  
Configure as DTE or DCE As mentioned above, the router can act either as the recipient of information  
(DTE), or as the passer-on of information (DCE). Public X.25 Network: Both  
routers are DTEs.  
Number of Virtual Circuits Indicates the maximum number of virtual circuits (total of PVCs and SVCs)  
allowed on this interface. The maximum is 64.  
Number of Permanent  
Virtual Circuits  
Indicates the number of permanent virtual circuits that will be connected through  
this interface. This maximum is also 64.  
this table continued  
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X.25 Menu (Continued)  
Parameter  
Description  
Layer 3 Window Size  
The layer 3 (packet) level window represents the number of sequentially  
numbered packets that can be sent before an acknowledgement must be  
received. This number may be negotiated if the Window Size Facility is utilized  
(see last parameter in this table).  
Layer 2 Window Size  
The layer 2 (frame) level window represents the number of sequentially  
numbered frames that can be sent before an acknowledgement must be  
received. The frame numbers are independent of the packet numbers.  
The packet size to be sent across the interface. This number may be  
negotiated if the Packet Size Facility is utilized (see last parameter in this table).  
Number of times an information frame can be resent, without response, before  
the link is considered down.  
Packet Size  
Number of Retries N2  
TL  
Time the frame level waits for an acknowledgement for a given frame before re-  
sending it.  
T2  
Time that can elapse, after receiving a frame, until the router must send an  
acknowledgement.  
T21  
T23  
Call Request response Timer. After this time has elapsed, the DTE sends a  
Clear message.  
Clear Request response Timer. After this time has elapsed, the DTE  
retransmits the Clear message.  
Negotiable Facilities  
Send Facility  
Initiates facility negotiation during virtual circuit creation.  
Determines which facilities are negotiated during virtual circuit creation: Packet  
size is part of the flow control parameters negotiation, Throughput is part of the  
throughput class negotiation, and N3 Window (Level 3 Window Size, above) is  
part of the flow control parameters negotiation.  
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STEP TWO  
The next step is to create a static routing table associating each remote X.121 address with an IP address or a  
TCP Socket location. This is done in the Add DTE menu, which appears at the end of the X.25 parameter list. It  
can be reached by passing through all X.25 parameters or by using the <ESC> key at any point in the parameter  
list.  
X.25 Add DTE Menu CONFIG=>INTERFACE=><LINK>=>ENCAPSULATION =>X.25=><ESC>=>Add DTE  
Parameter  
Description  
Type of Logical Address IP Address or TCP Socket. Users that intend to use the TCP Socket option should  
see the CyROS Reference Guide.  
IP Address  
X.121(DTE) Address  
VC Number  
Enable Predictor  
Compression  
Applies for IP Address Type. IP Address of remote DTE device.  
Address of remote DTE device.  
Number assigned to this circuit, if it is a PVC. For SVCs, the value should be zero.  
Applies for IP Address Type. Enables data compression using the Predictor  
algorithm. This feature should be enabled only if Cyclades' equipment is being  
used on both ends of the connection because there is no established standard for  
data compression interoperability. Data compression is very CPU-intensive,  
making this feature effective only for links running at speeds under 1Mbps. At  
higher speeds, the time necessary to compress data offsets the gains in throughput  
achieved by data compression.  
Number of Bits for  
Compression  
Applies when Predictor Compression Enabled. Sixteen is fastest, but 10 must be  
used if the router on the other end is a Cyclades PathRouter, for compatibility.  
X.25 with PAD (Packet Assembler/Disassembler)  
PAD acts as a protocol converter, allowing a user to access the packet-switched network via a serial terminal.  
This asynchronous connection is then converted into synchronous communication with the router and the network  
beyond (using the telnet application available in the router). Please see the CyROS Reference Guide for information  
about this Encapsulation option.  
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CHAPTER 11 ROUTING PROTOCOLS  
Routing Strategies  
Routing can be done either statically or dynamically.  
Static Routing  
Static routing is recommended when the network contains a small number of routers and other equipment. When  
a system is simple and without redundant links, static routing is the simplest option. Even with some redundant  
links, a multilink circuit can be created for semi-dynamic routing behavior. Multilink circuits are described in  
section 4.4 of the CyROS Reference Guide.  
Dynamic Routing  
Dynamic routing is recommended when the network contains a large number or routers with redundant links  
between them. RIP and OSPF are currently available in the Power Router line. RIP is simpler to configure and  
is appropriate for systems that are stable (links do not go down often). OSPF is more complicated to configure,  
requires much more CPU, and is not necessarily available in all equipment in a network. A mixture of RIP, OSPF,  
and static routes is often used.  
BGP-4 is a dynamic routing protocol used to route packets on the Internet. It is used in addition to the protocols  
RIP and OSPF or static routing.  
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Static Routes  
Routers used in very small or simple networks may use static routes as the primary routing method. When RIP or  
OSPF are used, some static routes may still be needed. Configuration of static routes will be explained using two  
examples.  
Network 2  
142.10.0.0  
Mask: 255.255.0.0  
142.10.0.3  
D
142.10.0.2  
142.10.0.4  
192.168.100.0  
Mask: 255.255.255.0  
C
192.168.100.1  
Router 2  
Router 1  
142.10.0.1  
F
10.0.0.3  
192.168.100.3  
192.168.100.2  
E
Network 3  
10.0.0.0  
Mask: 255.0.0.0  
B
10.0.0.2  
Network 1  
10.0.0.1  
A
FIGURE 12.1 STATIC ROUTING EXAMPLE 1  
In the first example, three networks are connected by 2 routers. The routing table for router 1 will automatically  
include servers A,B,C, and D, as they are direct links. A static route must be created for access to Network 3.  
This type of route, a Gateway route, tells the router that any message not intended for hosts A, B, C or D should  
be sent to Router 2. Details are given in the parameter table that follows.  
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Router 2  
Unnumbered  
Interfaces  
192.168.100.1  
Slot 3  
ETH0  
Connection  
Point-to-Point  
Slot 1  
F
Router 1  
10.0.0.3  
ETH0  
Network 3  
E
B
Network 1  
A
FIGURE 12.2 STATIC ROUTING EXAMPLE 2  
Figure 12.2 shows another static routing example to explain the Gateway or Interface parameter. Between the  
two routers is a point-to-point connection. Another network could be created, but is not necessary. Both routers  
can be assigned unnumbered interfaces, because everything that leaves one router is sent to the other.  
To define static routes, enter the menu CONFIG =>STATIC ROUTES =>IP =>ADD ROUTE. A description of the  
parameters in this menu, with the configuration for Router 1 in the examples above, is given in the table that  
follows.  
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Add Static Route Menu CONFIG =>STATIC ROUTES =>IP =>ADD ROUTE  
Parameter  
Destination IP  
Address  
Description  
Address that route will lead to. To configure a default route, type "default" for this  
parameter, otherwise enter 0.0.0.0 in both this and the next parameter.  
-- for the static route between Router 1 and Network 3, the IP  
Both Examples  
address is 192.168.100.0.  
-- To access all hosts in Network 3, its mask, 255.255.255.0, is used.  
Subnet Mask  
Both Examples  
Gateway or Interface  
-- the route is to a gateway.  
-- the route is to an interface since unnumbered interfaces are being  
Example 1  
Example 2  
used.  
Gateway IP Address  
Interface  
Applies only when previous parameter is  
. It must be an address visible to  
Gateway  
, it is 142.10.0.4.  
the router. In  
Example 1  
Applies only when previous parameter is Interface. Select the port (Ethernet or slot  
N) that will be unnumbered. In , it is Slot 1.  
Example 2  
Relative cost of this link. Generally measured in number of routers between two IP  
addresses. -- 1.  
Metric  
Both Examples  
Is This a Backup  
Route?  
Indicates that this route is used as a backup in a multilink circuit. See section 4.4 for  
more information about multilink circuits.  
OSPF Advertises  
This Static Route  
Static routes defined in the router can be advertised by OSPF. Both this parameter  
and the parameter CONFIG=>IP=>OSPF=>GLOBAL=>ADVERTISE STATIC  
ROUTES must be set to Yes for the route to be advertised.  
External Metric  
Applies when OSPF Advertises This Static Route is set to Yes. Defines the metric  
that will be advertised by OSPF.  
External Metric-Type  
Applies when OSPF Advertises This Static Route is set to Yes. For Type 1, the total  
metric of this route is composed of the internal metric (inside the autonomous system)  
and the external metric (provided in the previous parameter). For Type 2, the total  
metric of this route is the value provided in the previous parameter.  
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RIP Configuration  
CyROS supports three basic types of RIP:  
1 RIP1 [RFC 1058]  
2 RIP2 with broadcast (compatible with RIP1) [RFC 1723]  
3 RIP2 with multicast [RFC 1723]  
The primary difference between RIP1 and RIP2 is that only RIP2 advertises subnet masks and next hops. If the  
network contains equipment that understands only RIP1 packets, then RIP1 or RIP2 with broadcast should be  
used. See RFC 1723, item 3.3 for more details. If only RIP2 is used, RIP2 with multicast is recommended.  
Unlike static routes RIP is configured on each interface rather than in a global menu. The menu is the same for all  
interfaces and its parameters are presented in the table below.  
RIP Menu CONFIG =>INTERFACE =><LINK> =>ROUTING PROTOCOL =>RIP  
Parameter  
Description  
Send RIP  
Listen RIP  
RIP2 Authentication  
Causes the router to transmit RIP messages.  
Causes the router to accept RIP messages.  
Applies if RIP2 was chosen in the first two options. Activates RIP message  
authentication with a password.  
RIP2 Authentication  
Password  
Applies if  
transmitted RIP messages.  
is . Password used for both received and  
RIP2 Authentication Active  
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OSPF  
The OSPF (Open Shortest Path First) routing protocol is significantly more complicated than RIP. The determination  
of which protocol is better suited to a given network is beyond the scope of this manual. An example network  
using OSPF is given in Figure 12.3.  
AREA 1  
Router 2  
AREA 0  
(Backbone)  
Router 0  
To Another  
Autonomous System  
Router 1  
Link 1  
Router 5  
Router 3  
Router 6  
Router 4  
AREA 2  
AN AUTONOMOUS SYSTEM  
Area Border  
Routers:  
R3, R6, R8  
Virtual  
Link  
Router 7  
AREA 3  
AS Boundary  
Router: R5  
Router 8  
Router 9  
FIGURE 12.3 OSPF EXAMPLE  
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First, some definitions:  
• An Autonomous System (AS) is a portion of the network that will use a single routing strategy. It is made up  
of a backbone area and optionally of non-backbone areas.  
• OSPF Areas are sub-systems that have identical routing databases. An area generally has no knowledge of  
the routing databases of other areas.  
• The Backbone connects areas and contains any routers not contained in another area.  
• An Area Border Router connects areas and contains a separate database for each area it is contained in.  
• An Autonomous System Boundary Router (ASBR) connects Autonomous Systems. The other Autonomous  
System does not necessarily need to use OSPF.  
STEP ONE  
If using OSPF for the first time, sketch the network and determine which routers will make up the backbone and  
each area. Determine if each router is an area border router or an autonomous system boundary router.  
OSPF Configuration on the Interface  
STEP TWO  
Contrary to most other protocols in CyROS, OSPF must first be configured on each interface, then configured in  
the CONFIG =>IP =>OSPF menu. Enter into each interface and set the parameters listed in the table.  
OSPF Menu CONFIG =>INTERFACE =><LINK> =>ROUTING PROTOCOL =>OSPF  
Parameter  
OSPF on This  
Interface  
Description  
Activates OSPF. Enable Inactive is used to temporarily disable the OSPF protocol  
without erasing the parameters set below. This is useful when OSPF is first configured,  
as the general parameters must be set afterwards in CONFIG=>IP =>OSPF and OSPF  
cannot function without them.  
Parameters that apply only when OSPF on This Interface is Disabled.  
Advertise This Non- Causes the router to include this interface in its advertisements through other interfaces  
OSPF Interface  
(as an external route).  
This table is continued.  
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OSPF Menu (continued)  
External Metric  
Defines the metric that will be advertised by OSPF.  
External Metric Type For Type 1, the total metric of this route is composed of the internal metric (inside the  
autonomous system) and the external metric (provided in the previous parameter). For  
, the total metric of this route is the value provided in the previous parameter.  
Type 2  
Parameters that apply only when  
is .  
or  
OSPF on This Interface Enable Enable Inactive  
Area ID  
Identifies the area to which the interface belongs. Areas are created here, then later  
defined in CONFIG=>IP=>OSPF =>AREA. Has the format of an IP address, but is not  
linked to any IP address in the system. Small OSPF networks will typically have only  
one area (the backbone area represented by 0.0.0.0).  
Router Priority  
Priority used by OSPF in multicast networks to elect the designated router. A priority of  
1 will make this router the most likely to be chosen. A priority of 2 will make it second  
most likely. Set it to 0 (zero) if this router should never be the designated router.  
Estimated transit time in seconds to route a packet through this interface. Use the  
preset value (1) or increase the number for slow links  
Transit Delay in  
Seconds  
Retransmit Interval * Time in seconds between link-state advertisement retransmissions for adjacencies  
belonging to this interface.  
Hello Interval *  
Dead Interval *  
Poll Interval *  
Time in seconds between the hello packets on this interface.  
Inactivity time (seconds) before a neighbor router is considered down.  
Time in seconds between the hello packets sent to an inactive, non-broadcast, multi-  
access neighbor.  
Password *  
Metric  
String of up to 8 characters used to authenticate OSPF packages. The use of this  
password is enabled in CONFIG=>IP=>OSPF=>AREA=>AUTHENTICATION TYPE  
Defines the cost for normal service. For consistent routing, this parameter should be  
determined in the same manner for all routers in the OSPF Area. Normally, metric cost  
is defined as an inverse function of interface throughput (e.g. 1 for 100Mbps, 10 for  
10Mbps, 65 for T1, 1785 for 56kbps, etc).  
Advertise Secondary Causes the router to advertise additional addresses assigned to this interface. These  
IP Address are configured in CONFIG => INTERFACE =><LINK> =>NETWORK PROTOCOL =>IP.  
* Inside a given area, these 4 parameters should be the same for all routers.  
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OSPF Global Configurations  
STEP THREE  
After completing the OSPF interface configuration for all interfaces (even those that will not use OSPF), navigate  
to the OSPF Menu, CONFIG=>IP=>OSPF. Enter into the OSPF Global Commands menu and set the parameters  
as indicated in the table below.  
OSPF Global Commands Menu CONFIG =>IP =>OSPF =>GLOBAL  
Parameter  
OSPF Protocol  
Router ID  
Description  
Enables OSPF on all interfaces.  
Assigns a unique ID to the router for use by the OSPF protocol. It must be one of the  
router's IP addresses.  
AS Boundary Router An Autonomous System Boundary Router (ASBR) can convert external routes into  
OSPF routes. Which external routes is determined through the following parameters.  
In the figure, only Router 5 is an ASBR.  
The following parameters apply only to  
.
Autonomous System Boundary Routers  
Originate Default  
Gateway  
Router will advertise itself as the Default Gateway (DG).  
Advertisement  
Default Gateway  
External Metric  
Default Gateway  
Applies when Originate Default Gateway Advertisement is set to Yes. Defines the  
metric that will be advertised by OSPF.  
Applies when Originate Default Gateway Advertisement is set to Yes. For Type 1, the  
External Metric-Type total metric of this route is composed of the internal metric (inside the autonomous  
system) and the external metric (provided in the previous parameter). For Type 2, the  
total metric of this route is the value provided in the previous parameter.  
Advertise RIP Routes Routes learned through the RIP protocol will be converted to OSPF as external routes.  
RIP External Metric  
Applies when Advertise RIP routes is set to Yes. Defines the metric that will be  
advertised by OSPF.  
This table is continued.  
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OSPF Global Commands (Continued)  
Parameter  
Description  
RIP External Metric- Applies when Advertise RIP routes is set to Yes. For Type 1, the total metric of this  
Type  
route is composed of the internal metric (inside the autonomous system) and the  
external metric (provided in the previous parameter). For Type 2, the total metric of  
this route is the value provided in the previous parameter.  
Advertise Non-OSPF A router can have both OSPF and non-OSPF interfaces. This option causes the router  
interfaces  
to advertise when these non-OSPF interfaces are up or down. When OSPF is  
disabled on an interface, the parameter CONFIG=>INTERFACE =>  
<LINK>  
=>ROUTING PROTOCOL =>OSPF =>ADVERTISE THIS NON-OSPF INTERFACE  
must also be set to Yes for the interface to be advertised.  
Advertise Static  
Routes  
Static routes defined in the router will be converted to OSPF. Note that static routes  
can be configured individually as advertised or not in the parameter  
CONFIG=>STATIC ROUTES=>IP=>ADD ROUTE=>OSPF ADVERTISES THIS  
STATIC ROUTE. Both parameters must be  
for the route to be advertised.  
Yes  
STEP FOUR  
The next step is to define the areas created in step two. This is done in the OSPF Area Menu.  
Area Menu CONFIG =>IP =>OSPF =>AREA  
Parameter  
Description  
Area ID  
Has the format of an IP address, but is not linked to any IP address in the system. Use  
the CONFIG=>IP=>OSPF=>L option to see which areas have been defined, and use  
the area ID here.  
Authentication Type  
Simple password authentication can be used in OSPF. The authentication type should  
be the same for all routers in an OSPF Area. If used, the password for each interface  
is set in CONFIG=>INTERFACE=><INTERFACE>=>ROUTING PROTOCOL =>OSPF  
=>PASSWORD.  
This table is continued.  
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Area Menu (continued)  
Area Range N Status An Area Border Router (ABR) advertises link states for all networks within the area.  
The number of such advertisements can potentially be reduced by condensing  
different IP networks into a single range.  
Area Range N Net  
Address  
Applies when Area Range N Status is Active.  
Sets the network IP address for the range.  
Area Range N Mask Applies when Area Range N Status is Active.  
Sets the network IP mask for the range.  
STEP FIVE  
The CONFIG =>IP =>OSPF =>NEIGHBORS menu is required if the router uses OSPF over non-broadcast multi-  
access interfaces such as X.25 and Frame Relay. If this is the case, set the parameters described in the following  
table.  
Neighbors Menu CONFIG=>IP =>OSPF =>NEIGHBORS  
Parameter  
Description  
Interface  
Link for which neighbors will be defined. In the OSPF example, consider link 1 of  
Router 3.  
Neighbor's IP  
The router ID of the neighboring router. For Router 3, link 1, use the router ID of router  
1.  
Neighbor's Status  
includes link in OSPF database.  
Enable  
Enable Inactive leaves link in OSPF database, but router at end of link (Router 1 in this  
case) no longer passes OSPF information.  
Disable deactivates neighbor link and erases Neighbor’s IP.  
Neighbor's Priority  
Priority used by OSPF in multicast networks to elect the designated router. A priority of  
1 will make this router the most likely to be chosen. A priority of 2 will make it second  
most likely. Set it to 0 (zero) if this router should never be the designated router. An  
example can be seen in Area 1 in the figure -- Router 1 should never be the  
Designated Router because it does not have a direct link to Router 2. Either Router 0  
or Router 3 should be chosen.  
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STEP SIX  
It is not always possible to connect all areas directly to the backbone. When an area is connected to the backbone  
only through another area, two virtual links must be created. One from the backbone to the unattached area and  
one from the unattached area to the backbone. If this occurs in the network containing the router, enter the Virtual  
Links Menu to configure this link. In the table listing the parameters, the link between Area 3 (router 8) and the  
backbone is used as an example.  
Virtual Links Menu CONFIG =>IP =>OSPF =>VIRTUAL LINKS  
Parameter  
Description  
Transit Area ID  
ID of the OSPF Area sandwiched between this router and the backbone. In the figure,  
area 2 is the area used to link Router 8 with the Backbone. This ID has the form of an  
IP address.  
Neighbor's ID  
Virtual Link Status  
Router ID of router at end of virtual link. In the example, this will be Router 6.  
Activates the virtual link.  
Parameters available only when Virtual Link Status is Active.  
Transit Delay in  
Seconds  
Estimated transit time in seconds to route a packet from Router 8 to Router 6. Use the  
preset value (1) or increase the number for slow links.  
Retransmit Interval in Time in seconds between link-state advertisement retransmissions for adjacencies  
Seconds*  
belonging to this interface.  
Hello Interval in  
Seconds*  
Time in seconds between the hello packets on this interface.  
Dead interval in  
Seconds*  
Inactivity time (seconds) before a neighbor router is considered down.  
Password*  
String of up to 8 characters used to authenticate OSPF packages. The use of this  
password is enabled in CONFIG  
=>IP=>OSPF=>AREA=>AUTHENTICATION TYPE.  
* Inside a given area, these 4 parameters should be the same for all routers. In the example virtual link, they  
should be the same as those used for the backbone.  
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BGP-4 Configuration  
The BGP-4 routing protocol is used for routing on the Internet, performed between Autonomous Systems (ASs).  
An autonomous system is defined as:  
· A set of routers and networks under the same administration.  
· An interconnected network, where no router is reachable solely through a path exterior to the AS  
Each AS is identified by a 16-bit AS number. This number is supplied by the service provider.  
Steps  
1. Complete the Global Parameters  
2. Register the neighbors of the autonomous system, the routers with which it this router exchanges information.  
At this point, the BGP-4 protocol is up and running. All remaining steps are fine tuning to improve performance  
and reduce the size of the routing table.  
If some routes that might be received are undesired, they can be filtered as they enter (or leave) so that they are  
not placed in the routing table (or are not propagated to other autonomous systems).  
This requires the following three steps:  
3. Create an Access List  
4. Add rules to the Access List  
5. Return to the Neighbor configuration and match each list to the neighbor it should be applied to.  
In some cases, a route should be accepted, but with changes determined by policies defined by the system  
administrator. In this case, a route map should be created indicating which of the path attributes of the incoming  
(or outgoing) message should be changed. This route map can be associated with a filter so that only specific  
rules will be altered. The steps are the following:  
6. Create a route map/sequence pair  
7. Edit the neighbor definition to link it to the new route map  
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The last option is to aggregate the addresses contained in the local autonomous system in order to present an  
aggregated route to the outside world. This is done in the last step.  
8. Aggregate the addresses contained in the AS.  
The steps defined above will now be clarified.  
STEP ONE  
The global parameters apply to the router’s AS. Classless Inter-Domain Routing (CIDR) Address notation is used  
instead of the normal IP Address and Subnet mask notation. Both are shown in Figure 12.4.  
AS 100  
200.50.51.0  
255.255.255.0  
200.50.51.0 / 24  
AS 747  
PR3000  
PR3000  
100.100.100.1  
200.200.200.1  
..................................  
..................................  
100.100.100.2  
Tele Popeye  
200.50.50.0  
255.255.255.0  
200.50.50.0 / 24  
AS 310  
PR3000  
200.200.200.2  
..................................  
Tele Brutus  
FIGURE 12.4 EXAMPLE SYSTEM WITH PR3000 IN AS 100 BEING CONFIGURED  
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CONFIG=>IP=>BGP4=>GLOBAL  
Parameter  
Description  
BGP4 Protocol  
Local AS Number  
Router Identifier  
Cluster Identifier  
Default Local  
Preference  
Activates the protocol.  
This number is assigned by the service provider.  
Usually the same as the Router ID, one of the interface IP addresses  
Only used when this router is used as a router reflector.  
Value of the attribute "local pref" used by IBGP.  
Accept Connections Allows BGP connections from neighbors that have not been specified in the Neighbors  
From All Peers  
Advertise Direct  
Routes  
Menu.  
Allows the removal of the interface routes from the list of routes to be advertised. In  
the example these would be 100.100.100.1, 200.200.200.1 and the LAN interface IP  
address.  
Advertise Static  
Routes  
Allows the removal of static routes from the list of routes to be advertised.  
Advertise RIP Routes Allows the removal of routes learned via RIP from the list of routes to be advertised.  
Advertise OSPF  
Routes  
Allows the removal of routes learned via OSPF from the list of routes to be advertised.  
The BGP network menu allows registration of the IP Addresses contained in the AS. This will mark these routes  
as IGP instead of EGP or incomplete in the path origin attribute.  
CONFIG=>IP=>BGP4=>BGP NETWORK=>ADD  
Parameter  
Description  
Network Address  
Network IP address of network to be added.  
Network Mask (bitlen) Mask in CIDR format.  
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STEP TWO  
The neighbor menu identifies the routers inside and outside the AS that will communicate with the router via BGP-  
4. Each update message exchanged between routers contains path attributes. How these path attributes are  
manipulated by the router when routes are received or sent to each neighbor is determined here.  
CONFIG=>IP=>BGP4=>NEIGHBOR=>ADD  
Parameter  
Description  
Name  
A string to facilitate identification of the Neighbor. In the example above, the names  
Popeye and Brutus could be used.  
IP Address  
The IP address at the other end of the connection. For AS 747, the value is  
100.100.100.2.  
Description  
Another string to identify the Neighbor.  
AS Number  
The AS number assigned to the neighbor.  
Maximum routes  
Source IP Address  
When set, indicates the maximum number of routes accepted from this neighbor.  
When this number is set, the protocol accepts TCP/BGP connections only when the  
destination IP is this value. For Popeye, the value would be 100.100.100.1.  
Causes the router to not initiate BGP connections with this neighbor.  
Yes causes the router to NOT include its own AS number in the "AS Path" path  
attribute for update messages sent to this neighbor.  
Passive  
Transparent-AS  
Transparent-NextHop Yes causes the router to NOT alter the "NextHop" path attribute for update messages  
sent to this neighbor.  
NextHop Self  
Yes causes the router to change the NextHop path attribute for update messages sent  
to this neighbor. The value is replaced by the Source IP Address set above.  
Route Reflector Client Indicates that this router is a route reflector and the neighbor is a route reflector client.  
Weight  
Indicates the relative importance of the routes received from this neighbor. Routes  
with greater weights are chosen over routes with lesser weights.  
When set, indicates the maximum number of routes that the router will accept in a  
single update message from this router.  
When a message is not received from this neighbor for the holdtime, the neighbor is  
considered inactive.  
Maximum-Prefix  
Holdtime  
This table is continued.  
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CONFIG=>IP=>BGP4=>NEIGHBOR=>ADD (continued)  
Keepalive  
Connection Retry  
Time  
Interval between keepalive messages sent to this neighbor.  
When a connection with this neighbor is broken, the router try to reconnect with  
frequency 1 divided by the Connection Retry Time.  
Start Time  
Time delay before router tries to connect  
Incoming Distribution Applies a distribution access list to update messages received from this neighbor.  
Access List Name  
Outgoing Distribute  
Access List Name  
Incoming Filter  
Access List Name  
Outgoing Filter  
Applies a distribution access list to update messages sent to this neighbor.  
Applies a filter access list to update messages received from this neighbor.  
Applies a filter access list to update messages sent to this neighbor.  
Access List Name  
Incoming Community Applies a filter access list to update messages received from this neighbor.  
Access List Name  
Outgoing Community Applies a filter access list to update messages sent to this neighbor.  
Access List Name  
Incoming Route Map Applies a route map to update messages received from this neighbor.  
Number  
Outgoing Route Map Applies a route map to update messages sent to this neighbor.  
Number  
Neighbor Alias  
Address  
Additional address used by the other router.  
STEP THREE  
Figure 12.5 shows an example of a route that could be filtered out. The preferred route from 5 to 1 is through 4,  
with 6 serving as a reliable backup. Any route received from neighbor 2 which includes 5 will probably be a  
duplicate of the equivalent route received from 4. In order to reduce the size of the routing table, all routes  
received from 2 than contain 5 can be filtered out of incoming update messages.  
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d
R
o
e
r
u
t
i
s
e
d
n
e
U
2
3
PR3000  
1
4
..  
..  
..  
..  
P
r
..  
..  
..  
..  
..  
..  
..  
..  
..  
e
..  
..  
..  
..  
f
e
o
R
u
t
e
r
r
e
d
5
100.10.0.0/16  
6
B
a
c
k
e
t
u
u
p
R
o
FIGURE 12.5 MULTIPLE ROUTES CONTAINING AS 5  
CONFIG=>IP=>BGP4=>ACCESS LIST=>ADD  
Parameter  
Description  
Access List Name  
Name assigned to list, to indicate which interface and direction it applies to. A typical  
name for the example is from_two_p.  
Access List Type  
The AS Path type allows filtering by AS number; the Dist BGP type allows filtering by  
IP address and the Community BGP type allows filtering by community. In the figure,  
the filtering can be done based either on AS 5 or the address 100.10.0.0/16  
Enables the rule.  
Rule Status  
Default Scope  
If the default of the list is permit, the default of each rule must be deny and the  
corresponding rule must define which routes must be discarded. If the default of the  
list is deny, the default of each rule must be permit and the corresponding rule must  
define which routes will be accepted (with all others being discarded).  
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STEP FOUR  
An access list needs at least one rule. The example in Figure 12.6 shows three access lists, each one with  
several rules. Each neighbor can be assigned up to 6 access lists, as seen in step 2.  
Discarded  
Routes  
Discarded  
Routes  
Discarded  
Routes  
BGP-4  
Message From  
Tele Popeye  
Route Map  
Access list  
popeye_comm  
type Community  
Access list  
popeye_dist  
type Distribution  
Access list  
popeye_path  
type AS Path  
FIGURE 12.6 UPDATE MESSAGE ARRIVING FROM TELE POPEYE PASSING THROUGH 3 FILTERS AND  
A ROUTE MAP  
An update message arriving from the neighbor called Popeye in step 2 will pass through the filters assigned to it  
in the Neighbor Menu. The figure shows the case where the scope of the list is permit and that of the rules is deny.  
Each rule causes routes to be discarded until finally the shortened message arrives at the route map (if one has  
been configured for this neighbor).  
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CONFIG=>IP=>BGP4=>ACCESS LIST=>CONFIGURE RULES=><ACCESS LIST NAME>=>ADD  
Parameter  
Rule Status  
Scope  
Description  
Enables the rule.  
See explanation of this parameter in step 3.  
Rule AS Position  
Applies only for Access List Type equal to AS Path. Limits the search on AS number to  
a particular position in the route. For the example in Figure 12.5, Any would be the  
correct choice because AS 5 will appear in the middle or the beginning of the route.  
Applies only for Access List Type equal to AS Path. Applies the rule to routes  
containing this AS number, with the restriction given in the preceding parameter.  
Applies only for Access List Type equal to Dist BGP. Exact filters rules that match the  
IP Address/Mask pair exactly. Refine matches more specific routes.  
Applies only for Access List Type equal to Dist BGP. Applies the rule to routes with  
this IP number and the mask defined in the next parameter.  
Applies only for Access List Type equal to Dist BGP. The shortened mask that is used  
with the IP address defined in the previous parameter.  
Rule AS Number  
Rule Distr. Search  
Type  
Rule Distr. Address  
Rule Distr. Mask  
Bitlen  
Community  
Applies only for Access List Type equal to Community BGP. Applies this rule to the  
community number entered or to well-known communities defined in RFC 1997, BGP  
Communities.  
STEP FIVE  
Each access list can be applied to more than one interface. The access list parameters in the Neighbor Menu for  
the appropriate neighbor should be set now, since the access lists did not exist during step two.  
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STEP SIX  
A route map can either apply to all routes not discarded by the access lists, as shown in Figure 12.6, or to routes  
filtered by a particular access list, as shown in Figure 12.7.  
Discarded  
Routes  
Discarded  
Routes  
BGP-4  
Message From  
Tele Popeye  
Access list  
popeye_comm  
type Community  
Access list  
popeye_dist  
type Distribution  
Access list  
popeye_path  
type AS Path  
Route Map  
FIGURE 12.7 ROUTE MAP ASSOCIATED WITH AN ACCESS LIST  
In figure 12.7, the access list popeye_path is associated with sequence 2 of Route Map 1. Instead of the access  
list causing the disposal of the routes that match its rules, it causes the application of the route map.  
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CONFIG=>IP=>BGP4=>ROUTE MAP=>ADD  
Parameter  
Description  
Route Map Number  
Sequence Number  
Match List Name  
Weight  
Identifies the route map  
Identifies the sequence within the route map. The numbers need not be consecutive.  
Associates an access list with this sequence, as shown in the figure above.  
Alters the weight used to determine the best path. This value replaces the importance  
assigned to the route by the weight parameter in the neighbor configuration.  
Origin, Set Nexthop, These parameters modify the path attributes with the same name in the update  
Set Metric, Set Local message.  
Preference, Set  
Atomic Aggregate,  
Set Aggregate AS  
number, Set AS Path,  
AS Path Prepend,  
AS Path AS-SET  
STEP SEVEN  
The neighbor definition should now be changed again to include the new route map. This is done in the Neighbor  
Menu described in step 2.  
STEP EIGHT  
This last step permits aggregation of networks inside the AS to simplify routing tables. In the example in Figure  
12.4, the two networks can be aggregated to form one network with the IP address/Mask of 200.50.50.0/23.  
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CONFIG=>IP=>BGP4=>AGGREGATE ADDRESSES=>ADD  
Parameter  
Number  
Description  
An ID for reference.  
Address  
Mask (bitlen)  
AS Set  
The aggregated address. In the example, 200.50.50.0.  
The mask for the aggregated address. In the example, 23.  
Yes causes the route to be tagged with the AS Set path attribute. Otherwise, the AS  
Sequence path attribute is assigned.  
Summary Only  
Yes removes all more specific routes, leaving only the aggregated form. No maintains  
both the individual and aggregated routes.  
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CHAPTER 12 CYROS, THE OPERATING SYSTEM  
This chapter explains various operating system features that are not covered in other chapters:  
• creation of the host table  
• creation of user accounts and passwords  
• IP Accounting  
Creation of the host table  
CyROS allows identification of hosts by name. In the menu CONFIG =>SYSTEM=>HOSTS, each host is assigned  
a number (1 to 32), and a host name (a maximum of 8 characters). The IP address to be associated with this host  
name and the port to be used for telnet is then requested. This host name can be used in aplications like ping and  
telnet, and in some other configuration menus.  
Another way to identify hosts by name is to configure access to a DNS Server. This is done in the menu CONFIG  
=>IP =>DNS CLIENT. The domain name where the router is located and two DNS Server IP addresses are the  
only parameters.  
Creation of user accounts and passwords  
Four users are preset:  
1 super with the password surt,  
2 usr with no password,  
3 auto with no password, and  
4 pppauto with no password  
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Other users can be created and the user “usr” can be assigned a password. The password of the super user  
should be changed as soon as possible. The menu CONFIG=>SECURITY=>USERS allows addition, deletion,  
and modification of the list of users. The parameters are:  
• User Name,  
• Password,  
• User Type: Super, Usr, Auto, or PPPAuto,  
• User Status: Disabled or Enabled,  
• Hosts 1 through 4 (the host names entered here must already exist in the host table).  
• Automatic login name for hosts 1 through 4 (only for user of type auto)  
Then the main menu items for this user are determined:  
Telnet,  
• Ping,  
• Traceroute,  
• PPP,  
• SLIP.  
Lastly, any restrictions as to how the user may log in are defined:  
• Console,  
Terminal,  
• PPP Terminal,  
Telnet,  
• PAD Terminal.  
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The super user has access to all menus. The usr user is shown a menu, upon sucessful login, with the items  
chosen in the user’s profile. The pppauto user is connected directly to the user via PPP. No menu appears. The  
auto user is connected via telnet directly to the host specified as host 1 in the user profile. If an automatic login  
name is indicated when the auto user is configured, the user is logged in to the remote host directly (though a  
password may be necessary, depending on the remote host configuration).  
IP Accounting  
IP Accounting is used to count the total number of packets allowed (or not) to pass through an interface. Statistics  
are given for packets that meet the criterions defined in a rule. (Traffic Rules are not supported). To see all  
packets, a special rule list permitting everything can be defined. Rules are described in chapter 14.  
Two versions of the IP account table are available for viewing. The result of INFO =>SHOW ACCOUNT TABLE  
=>SUMMARY is shown below for four filter rules.  
IP Accounting Table  
Interface Direction Filter List Rule Bytes Packets  
Ethernet  
Ethernet  
slot 3  
Outgoing  
Incoming  
Outgoing  
Incoming  
generic  
generic  
swan3out  
swan3in  
0
0
17  
15  
24876 3072  
49254 3358  
21362 3223  
32563 3131  
slot 3  
Detailed information can be accessed via SNMP.  
To use IP Accounting, two parameters must be set. When a rule is created, the parameter CONFIG =>RULES  
LIST =>IP =>CONFIGURE RULES =>ADD RULE =>ALLOW ACCOUNT PROCESS must be Yes. Additionally,  
when applying a rule to an interface, the parameter CONFIG =>INTERFACE =>ETHERNET =>NETWORK  
PROTOCOL =>IP =>DETAILED INCOMING /OUTGOING IP ACCOUNTING must also be Enabled.  
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CHAPTER 13 NAT (NETWORK ADDRESS TRANSLATION)  
NAT exists to convert local IP addresses into Internet “global” IP addresses. Internet IP addresses are assigned  
by Internet providers. Due to the explosion of the internet, these numbers are scarce. Certain ranges of IP  
addresses are reserved for internal use only — they may not have a direct connection to the Internet. These are  
used as local IP addresses. Figure 11.1 shows an example of the utility of NAT:  
Networks  
192.168.0.0 &  
200.200.200.0  
Global Address Range  
- Network: 200.240.230.224  
- Mask: 255.255.255.240  
ftp  
Server  
192.168.0.30  
Host  
Host  
PC  
200.240.230.2  
WWW  
Server  
192.168.0.31  
200.200.200.11  
200.200.200.10  
PR4000 With  
Expanded NAT  
192.168.0.5  
Router Ethernet Port  
Primary IP Address: 192.168.0.1  
Secondary IP Address: 200.200.200.1  
FIGURE 11.1 NAT EXAMPLE  
In this example, the company has:  
14 global IP addresses available for NAT, 200.240.230.225 to 200.240.230.238,  
Two networks connected to the router via the Ethernet Interface, one of which will be translated,  
Two servers that are accessed via the same global IP address, assigned statically.  
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There are two types of NAT available in CyROS -- Normal NAT and Expanded NAT. This chapter describes  
Expanded NAT. A description of Normal NAT appears in Chapter 4 of the CyROS Reference Guide.  
What is the difference between Expanded and Normal Mode NAT? The Normal Mode is a previous  
implementation of NAT used in the Power Router line. It has been maintained for backward  
compatibility. Expanded NAT provides static translation not only from one IP address to another, but  
from one IP address/port pair to another IP address/port pair.  
As a preview, after configuring the router as shown in the example, CONFIG =>SECURITY =>NAT =>L will  
display:  
NAT Enabled  
NAT mode Expanded  
Port map translation Enabled  
UDP Timeout (min) 5  
DNS Timeout (min) 1  
TCP Timeout (min) 1440  
TCP flags Timeout (min) 1  
NAT Global Addresses  
#
1
address range  
200.240.230.225 to 200.240.230.238  
NAT Local Addresses  
#
1
address range  
192.168.0.0  
255.255.255.0  
translated  
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NAT Static Translation Table  
# Global address / port  
local address / Port  
Protocol  
TPC  
1 200.240.230.225 /  
2 200.240.230.225 /  
3 200.240.230.225 /  
20  
21  
80  
192.168.0.30  
192.168.0.30  
192.168.0.31  
/
/
/
20  
21  
80  
TPC  
TPC  
Types of Address Translation  
In dynamic address translation, a pool of global IP addresses is loosely related to a pool of local IP addresses.  
Mapping of one onto the other is done dynamically whenever a computer on the local network requests a connection  
to the external network. When the connection is broken, the global IP address is returned to the pool. Hosts  
connected via dynamic address translation must initiate all connections with the external network.  
In static address translation, one global IP address (or global IP address / port pair) is permanently associ-  
ated with one local IP address (or global IP address / port pair). In the example, the web server is connected to  
one of the global IP addresses for services on port 80, reducing the IP address pool to 13. Static address  
translation is used when the connection with the external network is to be initiated from either side — external  
or internal.  
Translation may be done in two ways:  
1 Address translation only – each global address is assigned to a single local address when necessary. In the  
example, there are only 13 global addresses available and more than 13 hosts . With this type of translation,  
only 13 servers can connect to the Internet at any given time.  
2 Port and address translation — the UDP/TCP port and local IP address are translated as a pair. With this  
type of translation, only ONE global address is needed. All hosts can be mapped to the same global IP  
address. This can be used in our example to allow all hosts in the 192.168.0.0 network access to the Internet  
at the same time.  
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An overview of the NAT menu is shown in the table below.  
NAT Menu CONFIG =>SECURITY =>NAT  
Menu Option  
Description  
General  
Parameters for enabling NAT and choosing the NAT Mode. Also includes port  
translation option.  
Global Address  
Local Address  
Static Translation  
Timeout  
The first and last IP addresses in the range. In the example, these numbers are  
200.240.230.225 and 200.240.230.238.  
The local network IP address and network mask, and whether or not the network should  
be translated. In the example, these numbers are 192.168.0.0 and 255.255.255.0.  
Defines a static translation between a global IP address/port pair and a local IP  
address/port pair. In the example, three such pairs are defined.  
Definition of inactivity timeouts for UDP, DNS, and TCP dynamic NAT translations.  
STEP ONE  
The first step in the configuration of NAT is to enable NAT and choose the NAT Mode (Normal or Extended). Only  
the extended mode is discussed in this chapter. The normal mode is a previous version of NAT maintained for  
backwards compatability. See chapter 4 of the CyROS Reference Guide for information about the Normal Mode.  
NAT Menu CONFIG =>SECURITY =>NAT =>GENERAL  
Menu Option  
NAT Status  
NAT Mode  
Description  
Enables NAT.  
Provides a choice between the previous NAT version (the Normal Mode) and the new  
Extended NAT version.  
Disable Port  
Translation  
Disables/enables NAT with port translation. If this parameter is changed while the router  
is in use, all the active translations are destroyed, and their entries are removed from the  
translation table.  
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STEP TWO  
The parameters in the Timeout Menu are explained in more detail below. The preset values should be appropriate  
for most applications.  
Timeout and Options Menu CONFIG =>SECURITY =>NAT =>TIMEOUT AND OPTIONS  
Parameter  
Description  
UDP Timeout  
Inactivity time required before a UDP translation is removed from the translation table.  
An entry is created in the translation table the first time a UDP packet passes through the  
interface. Five minutes is a reasonable time.  
DNS Timeout  
TCP Timeout  
Inactivity time required before a DNS translation is removed from the translation table.  
Inactivity time required before a TCP translation is removed from the translation table.  
This time should be relatively long, because under normal conditions TCP connections  
are formally disconnected with FIN (No more data from sender) or RST (Reset  
Connection) flags.  
TCP Flags Timeout Inactivity time required, after the receipt of a FIN, RST, or SYN (Synchronize sequence  
numbers) flag, before a TCP translation is removed from the translation table. This time  
can be relatively short, because after the TCP connection has been closed, there is no  
further need for its address translation.  
STEP THREE  
The next step is to define the global address range to which the local addresses will be translated. This is done in  
the menu CONFIG =>SECURITY =>NAT =>GLOBAL ADDRESSES =>ADD RANGE. The First IP Address in  
the example in Figure 11.1 is 200.240.230.225, while the Last IP Address is 200.240.230.238.  
The local address ranges must also be entered into the router in the menu CONFIG =>SECURITY =>NAT =>LOCAL  
ADDRESSES =>ADD RANGE. Here, the Network IP Address (192.168.0.0 in the example) and Network Mask  
(255.255.255.0 in the example) are entered. Since this range is to be translated, the parameter Should This  
Range be Translated should be set to Yes. In the example, the network 200.200.200.0 is not to be translated.  
This can be configured by adding a new range and setting the translation parameter to No, or by simply not adding  
the range.  
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STEP FOUR  
If static translations are to be performed, as described in the example, the parameters in the Static Translation  
Menu must be set. A brief explanation of each parameter is given in the table.  
Static Translation Menu CONFIG =>SECURITY =>NAT =>STATIC TRANSLATION => ADD ENTRY  
Parameter  
Description  
Global IP Address One of the addresses assigned by the Internet access provider and included in one of  
the NAT global address ranges.  
Protocol  
TCP, UDP, ICMP, or any protocol.  
Global Port  
The port to be translated on the WAN side. When a request comes in on port 80 for IP  
200.240.230.225 in the example, it is sent to the server with IP 192.168.0.31, port 80  
The IP address of the server (on the LAN, in the example) which is translated to an  
Internet IP address.  
The port to be translated on the LAN side. When a request comes in on port 80 for IP  
200.240.230.225 in the example, it is sent to the server with IP 192.168.0.31, port 80.  
Local IP Address  
Local Port  
STEP FIVE  
After the NAT menu parameters have been set, the NAT property in the Network Protocol Menu of each interface  
must be configured. In the example, the IP Address of the Ethernet interface is not assigned dynamically. The  
parameter CONFIG =>INTERFACE =>ETHERNET =>NETWORK PROTOCOL =>IP=>NAT - DYNAMIC ADDRESS  
ASSIGNMENT should be set to Inactive. The IP address of the interface connecting the router to the Internet is  
also assigned by the super user in the example, rather than dynamically. The parameter CONFIG =>INTERFACE  
=>SWAN =>NETWORK PROTOCOL =>IP=>NAT - DYNAMIC ADDRESS ASSIGNMENT would also be set to  
Inactive.  
After NAT has been configured and is running, the menu option INFO =>SHOW STATISTICS =>NAT will show  
Network Address Translation Statistics.  
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CHAPTER 14 RULES AND FILTERS  
There are four basic types of rules:  
1 IP filter rules,  
2 Radius rules (actually a combination of previously defined IP filter rules),  
3 traffic control rules, and  
4 transparent bridge rules (similar to IP filter rules, but for applications that use a transparent bridge).  
IP filter rules and traffic control rules will be covered in detail in this chapter. See section 4.7 of the CyROS  
Reference Guide for more information about all four types of rules.  
As an introduction, the Rules List Menu Tree is presented in Figure 12.1. First, a rule list is created and named.  
Second, rules are added to the list and defined.  
Configuration of IP Filters  
IP Filter rules are a very important part of a network’s firewall. They permit packets into or out of the network  
depending on the source and destination IP addresses, the source and destination ports, the protocol used, and  
the ACK bit for TCP packets. The Syslog can be used to monitor the packets that meet the rules applied in this  
menu.  
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Config  
Rules List  
IP  
Add Rule List  
Rule List Name  
Rule Status  
Rule List Type  
Default Scope  
Edit Rule List  
Same as Add  
Rule List  
Incoming Rule List Name  
Outgoing Rule List Name  
Linked Rule List Name N  
Configure Rules  
Rule List Name  
Add Rule  
Insert as Rule Number  
Rule Status  
Scope  
Rule Priority Level  
Reserved Bandwidth  
Bandwidth Priority Level  
Protocol  
Source IP Operator  
IP Address Start Mask  
IP Address Start  
IP Address End  
Destination IP Operator  
IP Address Start Mask  
IP Address Start  
IP Address End  
Source Port Operator  
Source Port Start  
Source Port End  
Destination Port Operator  
Destination Port Start  
Destination Port End  
Allow TCP connections  
Allow Account Process  
Delete Rule  
Edit Rule  
Rule to delete  
Same Parameters as Add Rule  
Clear Rule List  
FIGURE 12.1 THE RULES LIST MENU TREE  
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Exterior Router  
ETH0  
Perimeter Network  
192.168.0.0  
Slot 1  
192.168.0.1  
192.168.0.2  
172.16.0.0  
Router  
Slot 1  
Interior Router  
192.168.0.3  
ETH0  
Bastion  
Host  
10.0.0.0  
Extension to Network  
FIGURE 12.2 FIREWALL EXAMPLE  
Figure 12.2 will be used to show how both an exterior router and an interior router would be configured using the  
filters available in CyROS.  
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Exterior Router  
The exterior router is the network’s first defense against attacks. For this reason, it is reasonable to prohibit all  
packets except for those explicitly allowed. This is done by choosing the Default Scope to be Deny. Thus, ALL  
desired traffic must be expressly allowed by the rules in the rule list.  
W
o
r
l
d
o
f
P
o
s
s
i
b
l
e
P
a
c
k
e
t
Let  
e-mail in  
s
Let  
e-mail out  
DENY  
Let Telnet  
Connections Out  
FIGURE 12.3 DENY AS DEFAULT SCOPE  
In Figure 12.3, a conceptual equivalent of the interface is shown. All packets except those which fall into the holes  
in the ball will be denied entry in to or out of the network.  
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Steps necessary to activate filtering on the exterior router in the example:  
1 There are two interfaces with two directions each. Filtering on link 1 requires the creation of two rule lists,  
called exterior_in and exterior_out. Create them using the menu CONFIG =>RULES LIST =>IP  
=>ADD RULE LIST and the following parameters:  
Rule List Type = Filter  
Default Scope = Deny  
Linked Rule List Name = None  
2 Create the rules for each rule list in the order in which they should be evaluated. The order is important and  
mis-ordering the rules can cause unexpected results. This is done in the menu CONFIG =>RULES LIST  
=>IP =>CONFIGURE RULES. The parameters for rules 0 and 1 in the example are shown in Figure 12.4.  
3 Link the rule lists to the respective interface parameters in the menu CONFIG =>INTERFACE =><INTERFACE>  
=>NETWORK PROTOCOL =>INCOMING/ OUTGOING RULE LIST NAME. exterior_in should be set as the  
incoming rule list name and exterior_out should be set as the outgoing rule list name.  
Exterior_in, rule 0, allows a remote computer to connect to the bastion host using the TCP protocol on its  
SMTP port. Exterior_out, rule 0, allows the Bastion Server to RESPOND to the connection started by the  
remote computer. To send e-mail out, two more rules would be needed. If all the router needs to do is receive e-  
mail, the configuration is done. If not, other “holes” must be created in the deny ball.  
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The configuration for “Let e-mail in” is shown in the following figure (obtained by selecting CONFIG =>RULES  
LIST =>IP =>L in the menus):  
Rules Lists  
Rule List Name  
Rule  
Status  
Default  
Scope  
List  
Type  
Linked  
Rule  
List  
exterior_in  
exterior_out  
Enabled  
Enabled  
Deny  
Deny  
Filter  
Filter  
Filter_list Name exterior_in  
Rule 0  
Status  
Scope  
Protocol  
Enabled  
Permit  
TCP  
Source IP Operator  
Destination IP Operator  
Destination IP start  
Destination IP Mask  
Source Port Operator  
Source Port Start  
None  
Equal  
192.168.0.3  
255.255.255.255  
Greater than  
1023  
Destination Port Operator Equal  
Destination Port Start  
TCP connections allowed  
Account Process allowed  
SMTP  
Y
N
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Filter_list Name exterior_out  
Rule 0  
Status  
Scope  
Enabled  
Permit  
Protocol  
TCP  
Source IP Operator  
Source IP start  
Source IP Mask  
Destination IP Operator  
Source Port Operator  
Source Port Start  
Equal  
192.168.0.3  
255.255.255.255  
None  
Equal  
SMTP  
Destination Port Operator Greater than  
Destination Port Start  
TCP connections allowed  
Account Process allowed  
1023  
N
N
FIGURE 12.4 OUTPUT FOR IP FILTERING EXAMPLE  
Interior Router  
If an interior router exists in the network, the administrator may decide to use a Default Scope of Permit. In this  
case, all undesired traffic must be excluded by a rule in the rule list. In Figure 12.5, a conceptual equivalent of  
the interface is shown.  
All packets except those which fall into the holes in the ball will be allowed entry in to or out of the network.  
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P
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si  
b
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P
a
Stop  
Forged Packets  
c
k
e
t
s
PERMIT  
Don’t Allow  
Access to News  
PERMIT  
Stop Telnets  
From the Outside  
(Except Bastion Host)  
PERMIT  
FIGURE 12.5 PERMIT DEFAULT SCOPE  
The configuration for “Stop forged packets” is shown in the following listing:  
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Rules Lists  
Rule List Name  
Rule  
Status  
Default  
Scope  
List  
Type  
Linked  
Rule  
List  
slot1_in  
Enabled  
Permit  
Filter  
Filter_list Name slot1_in  
Rule 0  
Status  
Scope  
Protocol  
Enabled  
Deny  
0
Source IP Operator  
Source IP start  
Source IP Mask  
Destination IP Operator  
Source Port Operator  
Destination Port Operator  
TCP connections allowed  
Account Process allowed  
Equal  
10.0.0.0  
255.0.0.0  
None  
None  
None  
Y
N
Slot1_in, rule 0, prohibits any incoming packets with source IP addresses of the internal network. Since the  
addresses used for internal networks cannot be routed on the Internet, they cannot be valid unless there is a leak  
of traffic through another router to the perimeter network.  
Imagine that, as shown in the figure, the network is expanded and another range of IP addresses is used (not a  
sub-network). Rule 0in the list Slot1_inwill not protect this network. Either another rule can be added to this  
list, or the new router can filter packets into its area (or both).  
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Traffic Rule Lists  
There are three kinds of traffic rules that can be configured in CyROS. The first two determine a division of  
bandwidth for traffic flowing out of the router:  
1 Traffic Shaping (the division of bandwidth is strictly adhered to),  
2 Bandwidth Reservation (the division with the larger priority can steal bandwidth from the others),  
An example showing the first two types is given in figure 12.6.  
Network of  
Client A  
50% or more  
of total bandwidth  
INTERNET  
Link 3  
Link 0  
11.11.11.1  
Link 2  
33.33.33.1  
25% or less  
of total bandwidth  
Link 1  
22.22.22.1  
25% or less  
of total bandwidth  
Client C  
Client B  
FIGURE 12.6 TRAFFIC RULE EXAMPLE 1  
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The third determines which services have priority flowing through the router:  
3 Service Prioritization.  
An Internet provider has three clients connected to the same router. Client A is larger and without traffic control  
would overwhelm the router to the exclusion of Clients B and C. The administrator decides to divide the flow out  
of the router (to the Internet) into three portions: 50% guaranteed for Client A, and the rest divided equally  
between Clients B and C. Since he does not want to limit Client A needlessly, the bandwidth Client A uses can be  
increased on demand if the total bandwidth is not being used up by the other two clients. This is Bandwidth  
Reservation.  
The two clients with 25% bandwidth each are given lesser, but equal priorities. They can not share bandwidth or  
steal it from Client A. However, each has the right to 25% of the total bandwidth on link 3 if it is needed. This is  
Traffic Shaping.  
Note that this rule list is applied to link 3, and not separately on links 0-2.  
Steps for this configuration.  
1 Create a Traffic Rule list traffic_1. This is done in the CONFIG =>RULES LIST =>IP => ADD RULE LIST  
menu with the Rule List Type set to Traffic.  
2 Create rules for each of the three source IP addresses. This is done in the CONFIG =>RULES LIST =>IP  
=>ADD RULE menu. The parameters for each rule are shown in Figure 12.7. Of the traffic parameters, only  
the Reserved Bandwidth and Bandwidth Priority parameters are important in this example. Flow Priority is  
not used.  
3 Enter into the configuration for link 3 and change the parameter CONFIG =>INTERFACE =><INTERFACE>  
=>TRAFFIC CONTROL =>GENERAL =>IP TRAFFIC CONTROL LIST = traffic_1.  
Note that the bandwidth used for the percentage calculation is that set in CONFIG =>INTERFACE =><INTERFACE>  
=>TRAFFIC CONTROL =>GENERAL =>BANDWIDTH, and not the actual bandwidth available in the link.  
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Rules Lists  
Rule List Name Rule  
Status  
Default  
Scope  
List  
Type  
Linked  
Rule  
List  
traffic_1  
Enabled  
Traffic  
Filter_list Name traffic_1  
Rule 0  
Status  
Enabled  
Flow priority  
Rule bandwidth  
Bandwidth priority  
Protocol  
0
50%  
1
0
Source IP Operator  
Source IP start  
Source IP Mask  
Destination IP Operator  
Source Port Operator  
Equal  
11.11.11.0  
255.255.255.0  
None  
None  
Destination Port Operator None  
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Rule 1  
Status  
Enabled  
Flow Priority  
0
Rule bandwidth  
25%  
Bandwidth priority  
Protocol  
Source IP Operator  
Source IP start  
Source IP Mask  
Destination IP Operator  
Source Port Operator  
Destination Port Operator  
2
0
Equal  
22.22.22.0  
255.255.255.0  
None  
None  
None  
Rule 2  
Status  
Enabled  
Flow Priority  
0
Rule bandwidth  
Bandwidth priority  
Protocol  
25%  
2
0
Source IP Operator  
Source IP start  
Source IP Mask  
Destination IP Operator  
Source Port Operator  
Destination Port Operator  
Equal  
33.33.33.0  
255.255.255.0  
None  
None  
None  
FIGURE 12.7 OUTPUT SHOWING PARAMETERS FOR TRAFFIC RULE EXAMPLE 1  
An example showing the third type of traffic control is given in Figure 12.8. The network administrator wants to  
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prioritize the access to his web server. He also wants to prioritize e-mail sent by his SMTP server, but the priority  
should be lower. All other traffic should have the lowest priority. For web server access, the important flow  
direction is not the user requests, but rather the data requested. The traffic control rule must be placed on link 2.  
In the case of e-mail, the important flow is the data leaving the e-mail server, and not the acknowledgements back.  
This is also governed by link 2. (Note: flow control could be placed on the data request packets and the SMTP  
acknowledgements by associating rules to link 1.)  
E-mail Server  
Port: Any  
Web Server  
out  
Back  
E-mail  
ACKs  
Link 2  
PR4000  
Link 1  
Requests  
Port: 80  
Data  
Requested  
INTERNET  
Port: 25 (SMTP)  
E-mail Server  
Port: Any  
Web Client  
FIGURE 12.8 TRAFFIC RULE EXAMPLE 2  
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The configured rules will appear as shown in the following listing.  
Note that for this type of traffic control, of the traffic-specific parameters only Flow Priority is used. The Reserved  
Bandwidth and Bandwidth Priority parameters are not important. A system needing all three is conceivable, but  
much too complicated to show in this manual.  
Rules Lists  
Rule List Rule  
Default List  
Linked  
Name  
Status Scope  
Type  
Rule  
List  
web_access Enabled  
Filter_list Name web_access  
Rule 0  
Traffic  
Rule 1  
Status  
Enabled  
1
0%  
0
TCP  
None  
None  
Status  
Enabled  
2
0%  
Flow priority  
Rule bandwidth  
Bandwidth priority  
Protocol  
Source IP Operator  
Destination IP  
Operator  
Flow Priority  
Rule bandwidth  
Bandwidth priority  
Protocol  
Source IP Operator  
Destination IP  
Operator  
0
TCP  
None  
None  
Source Port Operator Equal  
Source Port Operator None  
Source Port Start  
80  
Destination Port  
Operator  
Equal  
Destination Port  
Operator  
None  
Destination Port  
Start  
SMTP  
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CHAPTER 15 IPX (INTERNETWORK PACKET EXCHANGE)  
IPX is an alternative to IP, proprietary to Novell. When IPX is activated, many new menus appear to allow  
configuration of this type of network. IP and IPX can both be active in the router simultaneously, and an interface  
can have both IP and IPX traffic passing through it. IPX is not discussed in the other chapters of this manual to  
avoid confusion for those who are using IP.  
Server Named “Colombo”  
Novell Network Management Station  
Mac Address: 00: 60: 2E: 00: 11: 11  
Internal Network Number: 00000003  
IPX Network  
Number: 00A0B000  
PR2000  
Static Route  
ETH0  
Internal Network  
Number: 00000001  
Slot 1  
IPXWAN Network  
Number: 00B0C000  
PR3000  
Windows Network with  
Network Number: 00010001  
.
..  
..  
..  
..  
..  
..  
..  
....  
Internal Network  
Number: 00000002  
Mac Address: 00: 60: 2E: 00: 11: 00  
..  
..  
..  
..  
.
..  
..  
..  
FIGURE 13.1 IPX NETWORK EXAMPLE  
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Enabling IPX  
The first step is to activate the IPX feature in the router. This is accomplished using the menu option ADMIN  
=>ENABLE FEATURES => IPX. The IPX protocol must also be activated in the menu CONFIG =>IPX => GENERAL.  
In this menu, the Internal Network Number (the unique number assigned to the router) and the Maximum Number  
of Hops must be defined. The maximum number of hops defines how many routers can be on the path from this  
router to the destination of any packet sent through this interface.  
Configuring the Ethernet Interface  
The example in Figure 13.1 will be used to explain the remaining parameters that must be configured. The  
Ethernet interface for the PR2000 is examined first. In the menu CONFIG =>INTERFACE => ETHERNET =>  
ENCAPSULATION, the Ethernet interface must be activated. The MAC address should be correct, as it is preset  
at the factory. For IPX, the Encapsulation parameter should be set according to the value used by the servers on  
the network..  
In the menu CONFIG =>INTERFACE => ETHERNET => NETWORK PROTOCOL => IPX, the protocol should be  
activated and the LAN Network Number (00A0B000 in the example) set. All other parameters are explained in  
chapter 5.  
Configuring Other Interfaces  
This stage depends on which board is occupying slot 1 and which encapsulation will be used. Each encapsulation  
option will be discussed separately. Read the chapter describing the configuration for the appropriate interface,  
consulting this section for details on IPX-specific parameters.  
PPP  
The parameters for the PPP data-link protocol are discussed in chapter 10. Only the parameters particular to the  
IPX protocol will be described here. The are located in the CONFIG =>INTERFACE =><INTERFACE>  
=>ENCAPSULATION =>PPP. The first parameter is the IPXWAN Network Number, shown in Figure 13.1 as  
00B0C000. IPX Compression can be enabled, and if so the Number of Compression Slots determined. If enabled,  
it must be used on both sides of the link (both routers in Figure 13.1) in order for the link to work.  
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The parameter Send SAP Update can be set to Demand, Periodic, or None. This parameter affects both SAP and  
RIP. Periodic causes the router to send these messages every minute, while choosing Demand will cause the  
router to send messages only when a message request is received.  
Frame Relay  
Frame Relay parameters are explained in chapter 10. The IPX-protocol-specific parameters are the same as  
those described in the preceding section, but are located in the menu CONFIG =>INTERFACE =><INTERFACE>  
=>ENCAPSULATION =>FRAME RELAY => <ESC> => ADD DLCI.  
X.25  
X.25 is explained in chapter 10. The IPX-protocol-specific parameters are the same as those described in the  
PPP section, but are located in the menu CONFIG =>INTERFACE =><INTERFACE> =>ENCAPSULATION =>X25  
=> <ESC> => ADD DTE.  
Routing  
Routing can be done statically, by configuring static routes, or dynamically using RIP. RIP is described in chapter  
11. To create a static route, as shown in Figure 13.1, navigate to the menu CONFIG => STATIC ROUTES => IPX  
=>ADD ROUTE. The parameters for the system shown in the example are the following:  
Add IPX Static Route Menu CONFIG => STATIC ROUTES => IPX =>ADD ROUTE  
Parameter  
Value for the Example  
Destination Network 00010001  
Number  
Interface  
Slot 1  
Next Hop Node  
Number of Hops  
Number of Ticks  
00602e001100  
1 (one router is between the router being configured and the network to be reached)  
1 (related to the time necessary to reach the network)  
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The routing table is displayed by the menu option INFO => SHOW ROUTING TABLE => IPX. For the example,  
and using only the static route created above, the routing table appears as in Figure 13.2.  
Destination Interface/ Subinterface/ hops ticks Type  
Remote address  
00000001  
00A0B000  
00010001  
00B0C000  
0
0
1
1
1
1
PrimaryNet  
Connected  
Static  
Ethernet  
Slot1 Node 00602E001100 1  
Slot1  
0
Connected  
FIGURE 13.2 ROUTING TABLE FOR THE EXAMPLE  
The SAP (Service Advertisement Protocol) Table  
In Novell networks, a given server can provide various services. In order for the router to identify these servers,  
their locations and services are entered into a SAP table in the router. This is done using the menu CONFIG  
=>IPX => SAP TABLE. The parameters for each entry are shown in the table.  
SAP Table Menu CONFIG =>IPX => SAP TABLE  
Parameter  
Description  
Service Type  
Service this server offers. ? provides a list of valid codes. For the server Columbo, in  
the example, this code is 0166.  
In the example, the name is Columbo.  
00000003  
Server Name  
Service Network  
Number  
Server Node  
Server Socket  
Number  
00602e001111  
? provides a list of valid codes.  
Number of Hops  
Number of routers between this router and the server. 0 in the example.  
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CHAPTER 16 VIRTUAL PRIVATE NETWORK CONFIGURATION  
The Virtual Private Network utility can be used on any link using IP routing. It is used to provide greater security  
between two or more networks connected through a public communications network. The basic concepts are  
presented in Figure 14.1. An IP datagram is sent by a device on the LAN. The message arrives at the router. The  
router has two tables. One with all the IP addresses contained in the Local Security Network and another with all  
the IP addresses in the Remote Security Networks. If the source IP address is contained in the Local Security  
Network list and the destination IP address is contained in the Remote Security Network list, the message is  
encrypted and encapsulated. The only destination address is that for the remote gateway (defined in the Remote  
Security Network list). Upon arrival at the remote gateway, the packet is unwrapped and sent to its destination.  
Message  
Message  
PC  
PC  
Local  
Gateway  
Remote  
Gateway  
IP Datagram  
sent by user  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
Header  
PR4000  
Header  
PR3000  
Message  
Message  
Source IP Address  
Destination IP Address  
IP Options and Data  
Source IP Address  
Destination IP Address  
IP Options and Data  
Public  
Network  
As sent by  
local Gateway  
As received by  
remote Gateway  
Header with destination:  
remote security gateway  
IP Address  
Header with destination:  
remote security gateway  
IP Address  
Conversion  
performed by Router  
with Cyclades’ VPN  
Encrypted IP Datagram  
Encrypted IP Datagram  
FIGURE 14.1 CONVERSION PERFORMED BY CYCLADES’ VIRTUAL PRIVATE NETWORK UTILITY  
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An example showing a local security network and two remote security networks is shown in Figure 14.2. The  
PR4000 in the local security network will be configured step by step. (Which network is considered local and  
which network is considered remote depends on the router being configured.)  
STEP ONE  
The Virtual Private Network Utility must be Enabled in the ADMIN =>ENABLE FEATURES =>VPN menu before it  
can be used. Navigate to this menu and enter the password supplied by Cyclades to activate VPN.  
STEP TWO  
Link 1 of the PR4000 (RSG3) should be fully configured and operational before beginning the VPN configuration.  
Each router has an IP address (with optional secondary IP addresses) for each numbered interface. In addition,  
each router has a Router IP Address which is one of the interface IP addresses. This router IP address is used  
whenever a single IP address is needed to identify the router. It is critical that each router being used as a remote  
security gateway have this parameter defined. It is NOT defined automatically. Navigate to CONFIG =>IP  
=>ROUTER IP and confirm that this parameter has been defined and is set to the value desired. An address that  
can be routed on the internet is generally used.  
Important!! The Router IP Addresses for the other Remote Security Gateways (RSG1 and RSG2 in the example)  
must also be known before beginning the configuration of RSG3.  
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REMOTE SECURITY NETWORK 1  
Router  
IP:10..255.255.0  
Link 1  
IP: 50.50.50.1  
RSG1  
PR4000  
LOCAL SECURITY NETWORK  
IP: 10.0.0.0  
Router IP Address:  
9.9.9.1  
RSG3 - Remote  
Security Gateway  
IP Network  
Router  
Link 1  
IP: 70.70.70.1  
Link 2  
IP: 190.190.190.1  
REMOTE SECURITY NETWORK 2  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
..  
ETH0  
Link 1  
IP: 20.20.20.1  
IP:172.16.0.0  
PR3000  
Router IP Address:  
190.190.190.1  
RSG2  
PR2000  
IP:192.168.0.0  
Router IP Address:  
20.20.20.1  
FIGURE 14.2 VIRTUAL PRIVATE NETWORK EXAMPLE  
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STEP THREE  
Use the menu item INFO =>SHOW ROUTING TABLE to confirm that the other Remote Security Gateways (RSGs),  
and all the networks included in the Remote Security Networks, are reachable. In the example, this would require  
that all of the following appear in RSG3’s routing table:  
RSG1 router IP address: 9.9.9.1  
Network connected to RSG1 that will be included in Remote Security Network 1: 10.255.255.0  
RSG2 router IP address: 20.20.20.1  
Network connected to RSG2 that will be included in Remote Security Network 2: 192.168.0.0  
These IP addresses should appear as a destination or be contained in one of the destination networks listed in the  
routing table. If an address is not in the routing table, add it following the instructions given in chapter 11 for static  
routes.  
STEP FOUR  
The next step is to define the devices contained in the Local Security Network. Navigate to the menu CONFIG  
=>SECURITY =>VPN =>LOCAL IP NETWORKS =>ADD NETWORK. Enter the Network IP address and mask  
for all devices to be included in the local network for VPN purposes. In the example, the networks 10.0.0.0 and  
172.16.0.0 must be added.  
Traffic from other networks attached to the router will still be routed. The only difference is that the  
messages will be forwarded without processing and encryption by the VPN software.  
STEP FIVE  
The Gateways (represented by RSG1 and RSG2 in the example) must be defined. The Router IP address for  
each gateway is requested, along with a secret. This secret is not global, but rather applies to each pair of RSGs.  
If RSG3 defines the secret for RSG1 as rumpelstiltskin, then RSG1’s secret for RSG3 must also be rumpelstiltskin.  
It is critical that the Router IP Address (as described in step two) be used, and not the IP address of the link  
connected to the IP network (unless the two IP addresses happen to be the same).  
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STEP SIX  
Now, the Remote Security Networks must be defined. This is done in the CONFIG =>SECURITY =>VPN  
=>REMOTE IP NETWORKS =>ADD NETWORK menu. The IP address and network mask must be defined for  
all remote devices to be included in the remote network for VPN communication. The Remote Security Gateway  
IP address (set in step five) must also be given for each network. In the example, the RSG IP address for the  
network 10.255.255.0 is 9.9.9.1, and the RSG IP address for the network 192.168.0.0 is 20.20.20.1.  
STEP SEVEN  
The last step is to activate VPN and configure the VPN options. Be aware that after activating VPN on the local  
network, data sent to the remote network will not be forwarded until VPN is configured and activated on that  
network too. The VPN Options Menu parameters should be set using the guidelines given below. The options  
should be defined identically for all Remote Security Gateways in a VPN.  
VPN Options Menu CONFIG =>SECURITY =>VPN =>OPTIONS  
Parameter  
Description  
Cyclades VPN Status Activates the Virtual Private Network. Warning: until VPN is activated on both ends of  
a given tunnel, all traffic will halt.  
Tunnel Keepalive  
Timeout  
Tunnel Keepalive  
Retries  
Keepalive messages are sent across each tunnel with this frequency, to make sure  
that the router on the other end of the connection is operating.  
If a keepalive message reply is not received, the router sends the request again this  
number of times.  
Tunnel Inactivity  
Timeout  
If no messages are passed for this time period (keepalive messages not included), the  
tunnel will be disconnected.  
Time Interval for VPN This is the time between retries (for either tunnel creation or keepalive requests that  
Retries are not acknowledged).  
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APPENDIX A TROUBLESHOOTING  
What to Do if the Login Screen Does Not Appear When Using a Console.  
1 Check the configuration of the terminal. The correct values are given in chapter 2.  
2 Check to see if the router booted correctly. Before the login screen appears, boot messages should appear  
on the screen. If the system halts while booting, the last message on the screen should give an indication of  
what went wrong. Boot messages will also appear on the LCD display on the front panel of the PR4000.  
When the boot process is complete, the Cyclades logo will appear on the screen.  
3 While the router is booting, the LEDs labeled Port 1 and Port 2 indicate the stage of the boot process, as  
shown in Figure A.1.  
Test "CPU" 3" 2" "1" Boot Code step  
1
2
3
4
5
6
7
8
Off  
Off  
Off  
Off  
Off  
Off  
Off  
On  
On  
On  
On  
Off Off On Boot Code CRC check  
Off On off Configuration vector load  
Off On on DRAM test  
On Off off Flash memory - Configuration validation  
On Off on Flash memory - Code validation  
On On off Interface cards detection  
On On on Ethernet port detection  
Off Off off Real Time Clock test  
9
10  
11  
Off Off on Boot code selection  
off On off Load of the operating code  
off On on Control is being passed to the operating code  
FIGURE A.1 ILLUMINATION OF LEDS WHILE ROUTER IS BOOTING.  
Note that all four LEDs blinking simultaneously indicates a memory problem, such as when no RAM is installed.  
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What to Do if the Router Does Not Work or Stops Working.  
1 Check that the cables are connected correctly and firmly.  
2 Confirm that the Link LED is lit for the (Fast) Ethernet Port being used, indicating proper Ethernet cable  
termination. If it is not lit, check both ends of the (Fast) Ethernet cable and the hub connection. If it is lit, test  
the interface as described in the next section.  
3 If port 2 is not being used, the port 2 LED doubles as a CPU status LED. If port 2 is being used, disconnect the  
cable temporarily to see the CPU status. The Port 2 LED should blink consistently one second on, one  
second off. If this is not the case, see figure A.2 for an interpretation of the blink pattern.  
Event  
Port 2 LED Morse code  
S (short, short, short...)  
L (long, long, long, ...)  
Normal Operation  
Flash Memory Error – Code  
Flash Memory Error – Configuration S, L  
Ethernet Error  
S, S, L  
No Interface Card Detected  
Network Boot Error  
Real-Time Clock Error  
S, S, S, L  
S, S, S, S, L  
S, S, S, S, S, L  
FIGURE A.2 PORT 2 (CPU) LED CODE INTERPRETATION  
Note: The Ethernet error mentioned in Figure A.2 will occur automatically if the Fast Ethernet link is not connected  
to an external hub during boot. If the Fast Ethernet is not being used or is connected later, this error can be  
ignored.  
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4 Make sure any external modem, DSU/CSU, or interface equipment is properly connected and that the interface  
configuration is correct. Many cables have the same connector, but are not interchangeable.  
5 Make sure that the line (T1 or E1) is active. The menu command INFO=>SHOW STATUS will show the status  
of each channel. A status of Not Synchronized could mean that the problem is related to the line. The line  
provider should be able to test the connection. If, after testing the line, the not synchronized status persists,  
try testing the T1/E1 ports as described later in this chapter.  
6 Confirm that the interface configuration is correct and has been saved to either flash or run, and that the  
Controller Menu parameters are correct. Compare the cable pinout to the connector pinout (shown in Appendix  
B of the Installation Manual). Different standards exist and an adaptor may be necessary.  
7 Place a call to the PR4000 and see if a modem is being allocated. The menu command INFO=>SHOW  
DIGITAL MODEMS=>SHOW STATUS displays the status of each modem and related information. This  
information is also available using the CyROS Management Utility or the LCD display on the front panel. See  
chapter 3 for more information on using CyROS.  
8 Setting the menu item CONFIG=>SYSTEM=>SYSLOG to level 7 will cause the syslog to show if incoming  
calls are reaching the PR4000. The menu INFO=>SHOW STATISTICS may also show useful information.  
9 Many problems are due to an incorrect configuration of the switch on the part of the line provider. See  
chapter 2, What is in the Box, for guidance in the solution of problems of this type.  
Testing the Ethernet Interface.  
The simplest way to test the link is by using the ping application. (If the Ethernet Interface appears to not be  
working, it will be necessary to connect the console cable and access CyROS using a Computer or terminal.)  
From the main menu, choose APPLICATIONS =>PING. Enter the IP number of a host on the network for the  
HOST parameter and accept the preset values for the rest of the parameters. The output on the screen should  
appear as shown below.  
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Pinging the router from a host on the network should give similar results. If the test fails, confirm that the link LED  
on the front panel is lit and that the IP Address and Subnet Mask parameters in the Network Protocol menu are  
correct for the network to which the router is attached. The command CONFIG =>INTERFACE =>ETHERNET  
=>L will display the current values of the interface parameters.  
Host [host00] : 200.246.93.37  
packet size (number from 32 to 1600) [32] :  
count (0 if forever or 1 to 30000) [5] :  
interval in ms (20 to 60000) [1000] :  
PING 200.246.93.37 (200.246.93.37): 32 data bytes  
32 bytes from (200.246.93.37): icmp_seq=1 ttl=127 time=1.96 ms  
32 bytes from (200.246.93.37): icmp_seq=2 ttl=127 time=1.02 ms  
32 bytes from (200.246.93.37): icmp_seq=3 ttl=127 time=0.99 ms  
32 bytes from (200.246.93.37): icmp_seq=4 ttl=127 time=0.99 ms  
32 bytes from (200.246.93.37): icmp_seq=5 ttl=127 time=0.98 ms  
--- 200.246.93.37 ping statistics ---  
5 packets transmitted, 5 packets received, 0% packet loss  
round-trip min/avg/max = 0.98/1.19/1.96 ms  
Testing the WAN Interface  
The WAN interface can be tested using ping as described in the previous section. If the ping is not successful,  
check the routing table to see if a route to the destination exists (INFO =>SHOW ROUTING TABLE). The menu  
items INFO =>SHOW STATISTICS =>SWAN and INFO =>SHOW STATUS =>SWAN may also provide useful  
information.How to Test if the T1/E1 Ports are Working  
If the PR4000 does not seem to be working properly, and none of the above advice has located the problem, the  
hardware interfaces should be tested. This will determine if the problem is hardware, software, or configuration  
related. If the T1/E1 ports pass the test below, the problem must be external (line) or due to an incorrect configuration  
or software problem.  
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Use of a Cross Cable for Testing T1/E1 Ports and Modems  
Two tests can be performed with the cross cable: one tests the two T1/E1 ports while the other tests the 2 ports  
and the modems. The pin diagram of the cross cable is shown in Appendix B. Before starting the tests, connect  
the two T1/E1 ports using the cross cable.  
Testing the Two T1/E1 Ports  
1. In the CyROS main menu, choose the following menu options: DEBUG =>HARDWARE TESTS=>HW DEBUG.  
Choose to test ports T1/E1 2 and T1/E1 3. (Slot 2 is T1/E1 port 1 and slot 3 is T1/E1 port 2.)  
2. In the T1/E1 2 Tests Menu, select Comm. Test (master).  
3. In the T1/E1 3 Tests Menu, select Comm. Test (slave).  
The screen output of the test should appear as shown in the following figure.  
Daughter Boards tests statistics:  
Slot 2 (E1) - Communication test:  
Last  
Status:  
Line Mode  
Synchronized  
Status  
Master  
Bandwidth  
Fractional  
Clock  
Slave  
General statistics:  
Sent:  
Received:  
No errors.  
3 packets/273 bytes.  
3 packets/471 bytes.  
Slot 3 (E1) - Communication test:  
Last  
Status:  
Line Mode  
Synchronized  
Status  
Slave  
Bandwidth  
Fractional  
Clock  
Master  
General statistics:  
Sent:  
Received:  
No errors.  
3 packets/471 bytes.  
3 packets/273 bytes.  
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Let the test run for at least 1 minute. If both slots show no errors, the test was sucessful.  
How to Test the Modems  
1. In the CyROS main menu, choose the following menu options: DEBUG=> HARDWARE TEST=>DSP TEST.  
2. The first parameter will be Number of Modems to be Tested Each Time. Enter the number of modems in your  
system. The maximum is 62.  
3. The second parameter is Number of Tests to be Performed. Enter zero for continuous tests. Tests can be  
stopped at any time with the escape key.  
The test will be performed repeatedly until you use the <ESC> key. After each test, results similar to the following  
will be displayed on the screen:  
*****TEST NUMBER 1 - TESTING 12 MODEMS. ********  
Resetting communication ...  
Waiting for the lines and the modems ... OK  
Allocating modems ... 60 modems connected  
DSPs connection timeout  
Starting data communication ...  
Communication completed!  
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* * * DPS TEST RESULTS * * *  
Errored Seconds: first line->0; second line->0  
link Slot  
Out  
DSP  
56  
58  
60  
62  
0
2
4
6
8
10  
12  
14  
In  
Tx  
Tx Time RXErr TXNOK Conn  
DSP PCKts Bytes  
1
2
3
1
2
3
57  
59  
61  
63  
1
3
5
7
9
11  
13  
15  
100 25000  
97 24250  
96 24000  
88 24500  
91 22750  
98 24500  
97 24250  
99 24750  
13  
28  
33  
23  
57  
23  
28  
18  
0
0
0
31  
0
35  
0
110  
46  
0
0
3
4
2
9
2
3
1
0
0
2
2
OK  
OK  
OK  
OK  
OK  
OK  
OK  
OK  
NOK  
OK  
OK  
OK  
4
5
4
5
6
7
6
7
8
9
8
9
0
0
10  
11  
12  
10  
11  
12  
100 25000  
98 24500  
98 24500  
14  
23  
23  
0
106  
0
The Conn column often shows a NOK for a few modems each test due to the short timeout value. After a few  
tests, the NOKs should dissapear.  
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Let the test run for a while. After typing <ESC> to end the tests, CyROS will compile a summary of the data similar  
to the following:  
* * * * * F I N A L S T A T I S T I C S * * * * *  
DSP Board number 1 :  
DSP N.  
Not  
Dis  
Out-  
RXERR TXERR TXBYTES RXBYTES  
ID  
Tests Conn Conn bound  
50056  
50058  
50042  
50016  
50084  
50106  
50094  
50070  
49846  
49979  
49373  
49944  
49419  
49491  
49177  
49789  
0
1
2
3
4
5
6
7
2
2
2
2
2
2
2
2
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
1
1
1
0
0
0
1
6
0
5
2
11  
4
113  
0
74  
135  
112  
102  
The exact numbers in this output are not important. If the ratios RXERR/RXBYTES and TXERR/TXBYTES are  
both less than 0.02, then the test was sucessful.  
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APPENDIX B. HARDWARE SPECIFICATIONS  
General Specifications  
The Cyclades-PR4000 power requirements, environmental conditions and physical specifications are listed in the  
table below.  
Power Requirements  
Input voltage range  
115 to 230 VAC. Some models have an  
external switch to select between 115 and  
230 VAC. Models with a universal power  
supply have an input voltage range of 110-  
240 VAC.  
Input frequency range  
Power (base unit)  
50/60 Hz, single phase  
250W  
Environmental Conditions  
Operating temperature  
Relative humidity  
32o to 112o F (0o to 44o Celsius)  
5% to 95%, non-condensing  
Altitude  
Operating 10,000 feet max. (3000 m)  
Physical Specifications  
External dimensions  
Weight (base unit only)  
17”W x 8.5”D x 3.5”H  
3.0 Kg (6.6 pounds)  
Appendix B - Hardware Specifications  
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155  
Cyclades-PR4000  
External Interfaces  
Console Port  
An RS-232 DTE port is provided for communication with a configuration terminal. A maximum speed of 115.2kbps  
is supported on this port. Use a straight-through cable to connect to DCE devices (modems, for example). Use a  
cross-cable to connect to a DTE device (terminal, host computer, etc). The pinout diagram is shown below.  
CONSOLE PORT  
Pin  
1
2
RS-232 Signal  
RTS  
DTR  
1
8
3
TX  
4
5
6
Ground  
CTS  
RX  
7
8
DCD  
DSR  
FIGURE B.1 CONSOLE PORT - RS-232 INTERFACE WITH AN RJ-45 FEMALE CONNECTOR  
Appendix B - Hardware Specifications  
156  
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Cyclades-PR4000  
Ethernet Port  
The PR3000 Ethernet port meets IEEE I802.3 physical specifications. It provides a single Ethernet interface and  
supports 10Base-T (Unshielded Twisted Pair) on a standard RJ-45 female connector.  
ETHERNET PORT  
Pin  
1
2
3
4
Ethernet Signal  
TPTX+  
TPTX-  
TPRX+  
N.C.  
1
8
5
N.C.  
6
TPRX-  
N.C.  
N.C.  
7
8
FIGURE B.2 ETHERNET PORT - RJ-45 FEMALE CONNECTOR  
Appendix B - Hardware Specifications  
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157  
Cyclades-PR4000  
T1 and E1  
Both the T1 and E1 interfaces use an 8-pin RJ-48C female connector.  
T1/E1 Interface  
Pin  
1
2
Signal  
RXTIP  
RXRING  
N.C.  
3
4
5
6
TXTIP  
TXRING  
N.C.  
7
N.C.  
8
N.C.  
FIGURE B.3 T1 OR E1 - RJ-48C FEMALE CONNECTOR  
Appendix B - Hardware Specifications  
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158  
Cyclades-PR4000  
Cables  
Please refer to chapter 2, What is in the Box, to see which cables are provided with the PR4000 and which cables  
are optional.  
Straight-Through Cable  
Straight-Through Cable  
DB-25 Male  
Cyclades Router  
DB-25 Male  
DCE / DTE  
Signal Pin  
Pin Signal  
TxD  
RxD  
RTS  
CTS  
DSR  
Gnd  
DCD  
2
3
4
5
6
7
8
2
3
4
5
6
7
8
TxD  
RxD  
RTS  
CTS  
DSR  
Gnd  
DCD  
TxClk_DTE 15  
RxClk 17  
DTR 20  
15 TxClk_DTE  
17 RxClk  
20 DTR  
RI 22  
TxClk_DCE 24  
22 RI  
24 TxClk_DCE  
FIGURE B.4 PINOUT DIAGRAM OF THE STRAIGHT CABLE - DB-25 MALE TO DB-25 MALE  
Appendix B - Hardware Specifications  
159  
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Cyclades-PR4000  
Cross Cable  
Cross Cable  
DB-25 Male  
Signal Pin  
DB-25 Male  
Pin Signal  
PGnd  
TxD  
RxD  
1
2
3
4
5
7
8
20  
1
3
2
4
5
7
8
20  
6
PGnd  
RxD  
TxD  
RTS  
RTS  
CTS  
Gnd  
DCD  
DTR  
CTS  
Gnd  
DCD  
DTR  
DSR  
RxD V.35 + (B)  
DSR  
TxD V.35 + (B)  
6
13  
11  
14  
12  
24  
17  
15  
19  
25  
16  
21  
13  
18  
11  
13  
12  
14  
15  
17  
24  
16  
25  
19  
18  
23  
21  
RxD V.35 + (B)  
TxD V.35 - (A)  
RxD V.35 - (A)  
TxClk_DTE (A)  
TxD V.35 + (B)  
RxD V.35 - (A)  
TxD V.35 - (A)  
TxD V.35 - (A)  
RxClk  
TxClk DCE  
TxClk_DCE V.35 + (B)  
RxClk V.35 + (B)  
TxClk DTE V.35 - (B)  
TxClk_DCE V.35 - (A)  
RxClk V.35 - (A)  
RxClk  
TxClk_DCE  
TxClk_DTE V.35 + (B)  
RxClk V.35 + (B)  
TxClk DCE V.35 - (B)  
TxClk_DTE V.35 - (A)  
RxClk V.35 - (A)  
TxClk DCE V.35 - (A)  
TxClk DTE V.35 - (A)  
FIGURE B.5 PINOUT DIAGRAM OF THE CROSS CABLE - DB-25 MALE TO DB-25 MALE  
Appendix B - Hardware Specifications  
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160  
Cyclades-PR4000  
Router-MD / V.35 Cable  
DB-25 Male  
DB-25 Male  
Cyclades Router  
Telebrás CSU/DSU  
DB-25 Male  
Signal  
Pin  
Pin  
PGnd  
RTS  
CTS  
1
5
7
9
- A  
- C  
- D  
- E  
1
4
5
6
DSR  
Gnd  
DCD  
13 - B  
10 - F  
15 - S  
7
8
TxD/V.35 (B)  
TxD/V.35 (A)  
RxD/V.35 (B)  
RxD/V.35 (A)  
TxClk_DTE/V.35 (B)  
TxClk_DTE/V.35 (A)  
TxClk_DCE/V.35 (B)  
TxClk_DCE/V.35 (A)  
RxClk/V.35 (A)  
RxClk/V.35 (B)  
11  
12  
13  
14  
16  
18  
19  
21  
23  
25  
2
- P  
17 - T  
- R  
16 - AA  
- Y  
4
DB-25 Male  
3
24 - W  
11 - U  
6
- V  
19 - X  
FIGURE B.6 ROUTER MD / V.35 CABLE - DB-25 MALE TO DB-25 MALE  
Appendix B - Hardware Specifications  
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161  
Cyclades-PR4000  
DB-25 to M.34 Adapter  
Female  
Retention  
Screw  
DB-25 Female  
Signal Pin  
M.34 Male  
Pin Signal  
PGnd  
RTS  
CTS  
DSR  
Gnd  
1
4
5
6
7
8
A
C
D
E
B
F
PGnd  
RTS  
CTS  
DSR  
Gnd  
DCD  
DCD  
Male  
Retention  
Screw  
TxD/V.35 (B) 11  
TxD/V.35 (A) 12  
RxD/V.35 (B) 13  
S
P
T
TxD (B)  
TxD (A)  
RxD (B)  
RxD (A)  
Female  
Retention  
Screw  
RxD/V.35 (A) 14  
R
TxClk_DTE/V.35 (B) 16  
TxClk_DTE/V.35 (A) 18  
TxClk_DCE/V.35 (B) 19  
DTR 20  
TxClk_DCE/V.35 (A) 21  
RxClk V.35 (A) 23  
RxClk V.35 (B) 25  
AA TxClk_DTE (B)  
Y
W
H
U
V
TxClk_DTE (A)  
TxClk_DCE (B)  
DTR  
TxClk_DCE (A)  
RxClk (A)  
RxClk (B)  
X
FIGURE B.7 DB-25 TO M.34 ADAPTER  
Appendix B - Hardware Specifications  
162  
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Cyclades-PR4000  
Cross Cable for Testing the T1/E1 Ports  
Please see appendix A for a description of the use of this cable.  
Loopback Cable  
RJ-48C  
RJ-48C  
RxTip 1  
RxRing 2  
TxTip 4  
4 TxTip  
5 TxRing  
1 RxTip  
2 RxRing  
TxRing 5  
FIGURE B.8 PINOUT DIAGRAM OF THE CROSS CABLE FOR TESTS, RJ-48C MALE TO RJ-48C MALE  
Appendix B - Hardware Specifications  
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163  
Cyclades-PR4000  
ISO 2110 Standard Cable  
DB-25 Male  
DB-25 Male  
Cyclades Router  
V.35 Modem -  
ISO 2110 Standard  
DB-25 Male  
Signal  
Pin  
Pin  
PGnd  
RTS  
CTS  
DSR  
Gnd  
1
4
5
6
7
8
- A  
- C  
- D  
- E  
- B  
- F  
1
4
5
6
7
8
DCD  
TxD/V.35 (B)  
TxD/V.35 (A)  
RxD/V.35 (B)  
RxD/V.35 (A)  
TxClk_DTE/V.35 (B)  
TxClk_DTE/V.35 (A)  
TxClk_DCE/V.35 (B)  
TxClk_DCE/V.35 (A)  
RxClk/V.35 (B)  
RxClk/V.35 (A)  
14 - S  
- P  
16 - T  
- R  
12 - AA  
15 - Y  
11 - W  
24 - U  
17 - V  
11  
12  
13  
14  
16  
18  
19  
21  
23  
25  
2
3
DB-25 Male  
9
- X  
FIGURE B.9 PINOUT DIAGRAM OF THE ISO 2110 STANDARD CABLE- DB-25 MALE TO DB-25 MALE  
Appendix B - Hardware Specifications  
164  
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Cyclades-PR4000  
E1 / DB-15 Cable  
RJ-45 Male  
DB-15 Male  
Pin  
Pin  
1
2
4
5
3
11  
1
9
B. 10 PINOUT OF THE E1 / DB-15 CABLE - RJ-45 MALE TO DB-15 MALE  
Appendix B - Hardware Specifications  
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165  
Cyclades-PR4000  
APPENDIX C CONFIGURATION WITHOUT A CONSOLE  
When a terminal or PC is not available for use as a console, the router has a special feature that allows configuration  
of the Ethernet interface from any PC on the LAN. The router “adopts” the destination IP address of the first non-  
UDP packet received from the LAN and accepts the connection. (After configuration of the Ethernet interface,  
with or without a console, the remaining configuration can be done via telnet.)  
It is recommended that a console be used for the initial configuration of the router, due to the  
hardware and software diagnostic messages given on the console screen. If a console is not  
available, follow the instructions in this appendix to configure the Ethernet interface.  
Requirements  
The router must be set to the factory default. If the router is being moved from one location to another, the  
configuration should be reset using the menu option ADMIN =>LOAD CONFIGURATION =>FACTORY DEFAULTS  
before the router is moved.  
Procedure  
1 Edit the ARP table of the PC in the LAN and associate the MAC address of the router (affixed to the underside  
of the router) to the IP address for the interface. In Unix and Microsoft Windows systems, the command to  
manipulate the ARP table is something similar to arp -s <IP address> <MAC address>. In Unix, type man  
arpfor help. In Microsoft Windows, type “arp /?for information about this command.  
2 Telnet to the IP address specified above. The router will receive the packet because of the modified ARP  
table and use the IP address for its Ethernet interface.  
3 The new IP address is saved only in run memory. The configuration must be explicitly saved to flash using  
the menu option ADMIN =>WRITE CONFIGURATION =>TO FLASH. Do this now.  
4 The Ethernet and other interfaces can now be configured using the telnet session established.  
If the connection fails or if the link goes down before the IP address is saved to flash, a console must be used.  
Appendix C - Configuration Without a Console  
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166  
Cyclades-PR4000  
APPENDIX D INSTALLATION OF ADDITIONAL DIGITAL MODEMS  
The purpose of this appendix is to describe the correct procedure for the installation of the digital modem board in  
the PR4000. When the PR4000 is purchased with modems, the modems are installed at the factory. This chapter  
should be read ONLY when modems are purchased at a later date.  
The modems are extremely sensitive to static electricity, (more so than RAM), and should be handled with caution.  
The body carries static electricity and if the person installing the board is not correctly grounded, the modem  
board could suffer irreversible damage. Please follow the instructions outlined below carefully to avoid damaging  
the board.  
Step One:  
Unplug the PR4000 from the power source and remove the power cord. Remove all cables connecting the PR4000  
to other devices.  
Step Two:  
Carry the PR4000 to a workbench or table with an anti-static surface and wrist-strap. If a workbench of this type  
is not available, use the wrist strap sent with the modems (a wrist-strap is not included for all countries due to  
differences between electrical installations). The directions should be followed carefully. Please note that the  
wrist-strap should not be connected to the PR4000 because it is no longer plugged in and thus no longer connected  
to ground.  
Step Three:  
Remove the four top screws and the eight screws on the bottom edges of the PR4000, as shown in the figure.  
167  
Appendix D - Installation of Additional Digital Modems  
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Cyclades-PR4000  
Step Four:  
Attach the wrist-strap to your wrist.  
.
Step Five:  
Remove the PR4000’s cover. Be careful to not touch any components inside the PR4000’s case, as they also can  
be damaged by static electricity.  
Cyclades - PR4000  
LCD Display_  
100Base-T  
RX  
Port  
1
TX  
Link  
Port  
2
Collision  
Ethernet  
10Base-T  
1
Menu  
Select  
Ethernet  
2
10Base-T/ 100Base-T  
Cover  
Base  
168  
Appendix D - Installation of Additional Digital Modems  
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Cyclades-PR4000  
Step Six:  
Open the clamps on the slot where the board will be installed, as shown in the figure.  
Clamp  
Slot  
The slots are numbered from 0 to 7. The software does not depend on the board being installed in a particular  
slot, but installing the first board in slot 0, the second in slot 1, and so on makes the installation of each succeeding  
board easier. It is important that each board be handled as few times as possible.  
Step Seven:  
Confirm that the wrist-strap is grounded. Remove the modem board from its anti-static packaging, being careful  
to not touch the components or metal parts of the board (see the figure).  
169  
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Cyclades-PR4000  
Step Eight:  
Insert the board carefully into the slot, aligning the indentations in the board with the guides of the slot. Forcing the  
board or pushing it in at an angle can damage the board and the slot.  
Step Nine:  
Push the board into the slot until the clamps close around the board.  
Clamp  
Slot  
170  
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Cyclades-PR4000  
Step Ten:  
Replace the PR4000’s cover and replace the screws. Now you can remove the wrist-strap.  
Step Eleven:  
Reconnect the PR4000’s cables, including the console cable. Start up the terminal program used to access the  
PR4000. Plug in the power cable and turn the PR4000 on. When the PR4000 boots, the following messages  
should appear (two boards are shown in this example):  
DSP Cards Detected . . . . . . . . . . . . OK  
8-DSP CARD on DIMM 1  
8-DSP CARD on DIMM 2  
Loading modem 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13,  
14, 15, 16 . . . done  
If there is a problem with the board or if the messages shown above (for the correct number of modems) do not  
appear, call Cyclades’ Technical Support.  
The board should be connected to the PR4000 only by its presence in the slot. The terminals on the  
opposite side of the board are not intended to be used for a connection.  
171  
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Cyclades-PR4000  
Index  
B
Examples  
connection via modem 37  
remote access server 30  
Menu  
controller menu  
Bandwidth Reservation 132  
PR4000 52  
C
controller menu, with signaling 57  
E1/T1 interface configuration menu  
with signaling 64  
F
Cables  
Flash Memory 20  
Framing 17  
console 13  
SWAN 14  
without signaling 55  
Menu Navigation 18  
Modem Status 149  
Mounting Kit 13  
Multilink  
CyROS multilink 64  
CAS Signaling Mode 62  
CCS Signaling Mode 59  
Connection to an Internet Access Provider  
H
Hardware Specifications 155  
Hot Keys  
esc - moving between menus 20  
L - list current configuration 20  
Hunting Groups 16  
37  
Cyclades  
ftp site 11  
telephones 11  
CyROS  
menus 18  
what is...? 8  
multichassis, multilink PPP (MCPPP) 64  
multilink PPP (MLPPP) 64  
I
N
Icons 10  
IP Bridges 47  
IP Filter Rules 123  
ISDN Switch Type 16  
ISDN-PRI, see E1 and T1 Interfaces, with  
signaling  
NAT 37, 43, 117  
Navigation 18  
Network Address Translation, see NAT  
Not Synchronized Status 149  
D
Dialing Method 17  
Download  
of the router configuration 36  
O
Open Shortest Path First, see OSPF  
OSPF 96  
areas 97  
autonomous system 97  
virtual links 102  
L
E
LEDs 147  
Line Coding 17  
Lucent Portmaster 3 64  
E1 and T1 Interfaces  
channelized T1/E1 53  
fractional T1/E1 53  
full T1/E1 53  
with signaling 57  
lan-to-lan wizard 74  
RAS wizard 73  
M
P
Manuals  
for this product 8  
Memory, flash 20  
Ping Application 149  
Printing the configuration 36  
Provisioning the T1/E1 Dialup Lines 15  
terminal server wizard 72  
without signaling 52  
Index  
172  
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Cyclades-PR4000  
R
U
Radius Server 34  
Reserved IP Addresses 117  
RIP  
interface configuration 95  
Routing Protocol  
RIP, see RIP  
Using CyROS menus 18  
V
Version  
of CyROS  
newest, via ftp 8  
of manual  
Rules Lists 123  
Run Configuration 20  
newest, via ftp 8  
W
S
Wizards, Configuration 35  
Saving Changes  
to flash 20  
to flash at a later time 20  
to run configuration 20  
Service Prioritization 133  
Signaling Method 17  
Signaling Protocols 15  
SNMP  
and IP accounting 116  
Static Routes 42  
SWAN Expansion Card 14  
SWAN Interface 49  
testing 150  
Syslog 149  
T
T1 Interface, see E1 and T1 Interfaces  
Technical Support 11  
Telephone Numbers 11  
Tests of Modems & Interfaces 150  
Text Conventions 10  
Traffic Rule Lists 132  
Traffic Shaping 132  
Troubleshooting 147  
Index  
173  
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Cyclades Australia  
Phone: +61 7 3279 4320  
Fax: +61 7 3279 4393  
www.au.cyclades.com  
Cyclades South America  
Phone: 55-11-5033-3333  
Fax: 55-11-5033-3388  
www.cyclades.com.br  
Cyclades Corporation  
41829 Albrae Street  
Fremont, CA 94538 - USA  
Phone: (510) 770-9727  
Fax: (510) 770-0355  
www.cyclades.com  
Cyclades Italy  
Phone: +39 329 0990451  
Cyclades Philippines  
Phone: (632) 813-0353  
Fax: (632) 655-2610  
www.ph.cyclades.com  
Cyclades UK  
Cyclades Germany  
Phone: +49 (0)81 22 90 99-90  
Fax: +49 (0)81 22 90 999-33  
www.cyclades.de  
Phone: +44 1724 277179  
Fax: +44 1724 279981  
www.uk.cyclades.com  
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