™
Netopia D-Series DSL DSUs
D3100-I IDSL
D3232 IDSL
D7100 SDSL
D7171 SDSL
User’s Reference Guide
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Contents
Part I: Getting Started
Chapter 1 — Introduction.......................................................... 1-9
Overview....................................................................... 1-9
Features and capabilities ............................................. 1-10
In DSU mode ..................................................... 1-10
G
B
In Ethernet filtering bridge mode .......................... 1-10
About DSL Bonding ...................................................... 1-10
How to use this guide .................................................. 1-11
Chapter 2 — Making the Physical Connections ........................ 2-13
Find a location............................................................. 2-13
What you need ............................................................ 2-13
Identify the connectors and attach the cables ................ 2-14
Filtering Bridge mode .......................................... 2-14
DSU mode ......................................................... 2-14
Connect Line ports to mutiple DSL lines
(D3232 only) ..................................................... 2-15
Netopia D-Series DSL DSU back panel ports .................. 2-15
Netopia D-Series DSL DSU status lights ........................ 2-16
Chapter 3 — Connecting to Your Local Area Network ............... 3-19
Netopia D-Series Configuration Modes ........................... 3-19
Filtering bridge mode .......................................... 3-19
DSU mode ......................................................... 3-20
Readying computers on your local network..................... 3-21
Connecting to an Ethernet network................................ 3-22
10Base-T........................................................... 3-22
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iv
User’s Reference Guide
Chapter 4 — Configuring TCP/ IP............................................. 4-25
Configuring TCP/ IP on Windows 95, 98, or NT computers 4-26
Configuring TCP/ IP on Macintosh computers .................. 4-28
Part II: Advanced Configuration
Chapter 5 — Console-Based Management ............................... 5-33
Connecting a console cable to your Netopia D-Series...... 5-34
Connecting through a Telnet session ............................. 5-35
Configuring Telnet software ................................. 5-36
Navigating through the console screens ........................ 5-36
Chapter 6 — WAN and System Configuration ........................... 6-37
System Configuration screens ...................................... 6-38
Navigating through the system configuration screens...... 6-39
System configuration features ............................. 6-39
Management IP setup......................................... 6-40
Filter sets .......................................................... 6-41
Date and time .................................................... 6-41
Console configuration ......................................... 6-41
SNMP (Simple Network Management Protocol)..... 6-42
Security............................................................. 6-42
Upgrade feature set ........................................... 6-42
Logging ............................................................. 6-42
Installing the Syslog client .................................. 6-43
DSL Bonding (iMux)...................................................... 6-44
What DSL Bonding does ..................................... 6-44
Netopia DSL Bonding.......................................... 6-45
WAN configuration........................................................ 6-45
Chapter 7 — Monitoring Tools ................................................. 7-49
Quick View status overview .......................................... 7-49
General status ................................................... 7-50
Status lights ...................................................... 7-50
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Contents
v
Statistics & Logs ......................................................... 7-51
General Statistics .............................................. 7-51
Event histories ............................................................ 7-52
System Information...................................................... 7-55
SNMP ......................................................................... 7-55
The SNMP Setup screen ..................................... 7-56
SNMP traps ....................................................... 7-57
Chapter 8 — Security ............................................................. 8-59
Suggested security measures ....................................... 8-59
User accounts ............................................................. 8-59
Telnet access .............................................................. 8-61
About filters and filter sets ........................................... 8-62
What’s a filter and what’s a filter set?.................. 8-62
How filter sets work............................................ 8-62
How individual filters work................................... 8-64
Design guidelines ............................................... 8-68
Filtering tutorial ........................................................... 8-69
General filtering terms ........................................ 8-69
Basic IP packet components ............................... 8-69
Basic protocol types ........................................... 8-70
Filter basics ....................................................... 8-72
Example IP filters ............................................... 8-73
Working with Filters and filter sets ................................. 8-75
Adding a filter set ............................................... 8-76
Adding filters to a filter set .................................. 8-78
Viewing filter sets ............................................... 8-82
Modifying filter sets ............................................ 8-83
Deleting a filter set............................................. 8-83
Generic filters .............................................................. 8-84
About generic filters ........................................... 8-85
G
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vi
User’s Reference Guide
Chapter 9 — Utilities and Diagnostics ..................................... 9-89
Ping............................................................................ 9-90
Trace Route ................................................................. 9-92
Telnet client................................................................. 9-93
Disconnect Telnet console session ............................... 9-94
Factory defaults ........................................................... 9-94
Transferring configuration and firmware files with TFTP.... 9-94
Updating firmware .............................................. 9-95
Downloading configuration files ........................... 9-96
Uploading configuration files ............................... 9-97
Transferring configuration and firmware files
with XMODEM.............................................................. 9-97
Updating firmware .............................................. 9-98
Downloading configuration files ........................... 9-99
Uploading configuration files ............................... 9-99
Restarting the system................................................ 9-100
Part III: Appendixes
Appendix A — Troubleshooting..............................................A-103
Configuration problems .............................................. A-103
Console connection problems ........................... A-104
Network problems ............................................ A-104
How to reset the Netopia D-Series to factory defaults ... A-105
Power outages ........................................................... A-105
Technical support ...................................................... A-106
How to reach us ............................................... A-106
Appendix B — Binary Conversion Table ..................................B-109
Appendix C — Further Reading..............................................C-113
Appendix D — Technical Specifications and Safety Information
............................................................................................D-117
Pinouts for V.35 DCE cable ......................................... D-117
Pinouts for D3232 Splitter.......................................... D-119
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Contents
vii
Description................................................................ D-120
Power requirements ......................................... D-120
Environment .................................................... D-120
Software and protocols ..................................... D-120
Agency approvals ....................................................... D-120
Regulatory notices ........................................... D-121
Important safety instructions ............................ D-122
Glossary
G
Limited Warranty and Limitation of Remedies
Index
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viii
User’s Reference Guide
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Part I: Getting Started
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User’s Reference Guide
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Introduction 1-11
Chapter 1
Introduction
Overview
The Netopia D-Series DSL DSUs are Digital Service Units or intelligent Ethernet filtering bridges for SDSL or
IDSL connections. They feature the ability to sense the connection type (Frame Relay or RFC 1483 DSL) and
automatically configure themselves for use as a DSU to Ethernet bridge. In either configuration the Netopia
D-Series offers management features available locally or remotely, either in-band or out-of-band. The DSU mode
offers a convenient way to migrate existing DDS or T1 service that uses an external CSU/ DSU to connect to
SDSL or IDSL. In the intelligent Ethernet bridge mode, the Netopia D-Series includes packet filtering for
enhanced security on the LAN and efficient use of the DSL link.
The Netopia D7100 and D7171 use an SDSL link to a Copper Mountain DSLAM for the WAN connection.
The Netopia D3100-I and D3232 use an ISDN Digital Subscriber Line (IDSL) to provide remote users
dedicated, digital access, even if they are connected to a central office via a digital loop carrier (DLC)
system or an ISDN repeater.
The Netopia D3232 and D7171 use DSL bonding technology, as available through Copper Mountain
DSLAMs, to effectively double or quadruple the bandwidth of the DSL link.
In DSU mode the Auxiliary port functions as a Synchronous serial port supplying a V.35 DCE interface for
connection to another router. In bridging mode the Ethernet hub bridges traffic as a proxy for the MAC address
supplied by the remote end of the DSL link.
The MAC address, or Media Access Control address is the physical address of a device connected to a network,
expressed as a 48-bit hexadecimal number. Sometimes this is called the hardware address, and is a unique
number assigned to each device by the manufacturer.
The Netopia D-Series provides an auto-sensing function that determines if the Auxiliary port or the hub is
associated with the DSL connection. In either case you can manage the device via the hub using Telnet or
SNMP, or via the serial console.
The hub effectively has two Ethernet MAC addresses in bridging mode: the proxied address that the remote end
This section covers the following topics:
“Features and capabilities” on page 1-12
“About DSL Bonding” on page 1-12
“How to use this guide” on page 1-13
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1-12 User’s Reference Guide
Features and capabilities
The Netopia D-Series DSL DSUs all provide the following features:
Status lights (LEDs) for easy monitoring and troubleshooting.
Support for console-based management over Telnet or serial cable connection.
Wall-mountable, bookshelf (side-stackable), or desktop-stackable design for efficient space usage.
In DSU mode
DSU mode (Frame Relay): Copper Mountain DSL to V.35 for connection to an external router using
RFC1490 Frame Relay protocol.
Industry-standard V.35 interface for connection to external router.
Management Access: Password protected access to management tools with up to four user names and
passwords.
In Ethernet filtering bridge mode
Ethernet bridge or LAN extension mode (RFC 1483): Copper Mountain DSL to Ethernet for direct connection
to a LAN using RFC 1483 protocol.
Inter-operates with Copper Mountain Networks Copper Edge™ access concentrator with integrated
management.
Connectivity to Ethernet LANs via built-in 8 port 10Base-T hub with uplink port.
Security Features (Intelligent bridge mode):
Packet Filters (8 user definable filter sets using up to 255 rules): IP and MAC layer packet filtering; Filter
packets on source or destination address, service or protocol; filter incoming packets for security, or
outgoing packets for more efficient use of DSL bandwidth.
Management Access: Password protected access to management tools with up to 4 user names and
passwords.
About DSL Bonding
DSL Bonding, also called inverse multiplexing or IMUX, technology combines the bandwidth of multiple DSL
(Digital Subscriber Line) circuits into a single virtual data pipe.
Before DSL Bonding was developed, the maximum speed of a DSL connection was dependent on the
customer's distance from the central office. DSL Bonding allows customers who are located at greater
distances from the central office to aggregate DSL circuits, in order to achieve two or more times the speed
otherwise available to them with a single line.
The premise behind DSL Bonding is to provide a cost-effective means of bridging the bandwidth gap between
relatively low network speeds and much higher rates, thereby allowing high-speed applications to use bandwidth
up to 3 Mbps.
Netopia's DSL routers and DSUs with bonding allow users with 1.5 Mbps SDSL connections to enjoy speeds of
over 3 Mbps, twice as fast as T1. They also allow customers who, because of line quality problems, were
previously limited to a 144 Kbps IDSL connection, to enjoy speeds of up to 576 Kbps using four IDSL lines.
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Introduction 1-13
How to use this guide
This guide is designed to be your single source for information about your Netopia D-Series DSL DSU. It is
intended to be viewed on-line, using the powerful features of the Adobe Acrobat Reader. The information display
has been deliberately designed to present the maximum information in the minimum space on your screen. You
can keep this document open while you perform any of the procedures described, and find useful information
about the procedure you are performing.
If you prefer to work from hard copy rather than on-line documentation, you can also print out all of the manual,
or individual sections. The pages are formatted to print on standard 8 1/ 2 by 11 inch paper. We recommend
that you print on three-hole punched paper, so you can put the pages in a binder for future reference. For your
convenience, a printed copy can be purchased from Netopia. Order part number TED-DSU/ Doc.
This guide is organized into chapters describing the Netopia D-Series’s advanced features. You may want to
read each chapter’s introductory section to familiarize yourself with the various features available.
Use the guide’s table of contents and index to locate informational topics.
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1-14 User’s Reference Guide
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Making the Physical Connections 2-15
Chapter 2
This section tells you how to make the physical connections to your Netopia D-Series DSL DSU. This section
“What you need” on page 2-15
“Identify the connectors and attach the cables” on page 2-16
“Netopia D-Series DSL DSU back panel ports” on page 2-17
“Netopia D-Series DSL DSU status lights” on page 2-18
Find a location
When choosing a location for the Netopia D-Series, consider:
Available space and ease of installation
Physical layout of the building and how to best use the physical space available for connecting your Netopia
D-Series to the LAN or router
Available wiring and jacks
Distance from the point of installation to the next device (length of cable or wall wiring)
Ease of access to the front of the unit for configuration and monitoring
Ease of access to the back of the unit for checking and changing cables
Cable length and network size limitations when expanding networks
What you need
Locate all items that you need for the installation.
Included in your Netopia D-Series package are:
The Netopia D-Series DSL DSU
A power adapter and cord with a mini-DIN8 connector
Two RJ-45 10Base-T Ethernet or Line cables
A dual DE-9 and mini-DIN8 to DE-9 console cable (for a PC or a Macintosh)
An HD-15 to V.35 DCE interface cable
Two splitters (D3232 only)
The CustomerCare CD containing an Internet browser, Adobe Acrobat Reader for Windows and Macintosh,
ZTerm terminal emulator software and NCSA Telnet for Macintosh, and documentation
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2-16 User’s Reference Guide
You will need:
A Windows 95-, 98-, 2000-, or NT–based PC or a Macintosh computer with Ethernet connectivity for
configuring the Netopia D-Series. This may be built-in Ethernet or an add-on card, with TCP/ IP installed and
configured. See Chapter 4, “Configuring TCP/ IP.”
An SDSL or IDSL wall outlet wired for a connection to a Competitive Local Exchange Carrier (CLEC) that
supports Digital Subscriber Line connections.
Identify the connectors and attach the cables
Identify the connectors and switches on the back panel and attach the necessary Netopia D-Series cables.
The figure below displays the back of the Netopia D-Series DSL DSU.
Netopia D-Series DSL DSU back panel
Line port
Line port
8
Ethernet
1
Auxiliary
Console
Power
Line 2
Line 1
Normal
Uplink
1
Crossover switch
Auxiliary port
Power port
8 port Ethernet hub
Console port
Filtering Bridge mode
1. Connect the mini-DIN8 connector from the power adapter to the power port, and plug the other end into an
electrical outlet.
2. Connect one end one of the RJ-45 cables to the Line 1 port, and the other end to your SDSL or IDSL wall
outlet.
3. Connect one end of one of the RJ-45 Ethernet cables to any of the Ethernet ports on the Netopia D-Series
and the other end to your computer or to your network.
(If you are connecting the Netopia D-Series to an existing Ethernet hub, use Ethernet port #1 on the
Netopia D-Series and set the crossover switch to the Uplink position.)
You should now have: the power adapter plugged in; the Ethernet cable connected between the Netopia
D-Series and your computer or network; and the SDSL or IDSL cable connected between the Netopia
D-Series and the SDSL or IDSL wall outlet.
DSU mode
1. Connect the mini-DIN8 connector from the power adapter to the power port, and plug the other end into an
electrical outlet.
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Making the Physical Connections 2-17
2. Connect one end one of the RJ-45 cables to the Line 1 port, and the other end to your SDSL or IDSL wall
outlet.
3. Connect one end of one of the RJ-45 Ethernet cables to any of the Ethernet ports on the Netopia D-Series
and the other end to your computer or to your network.
(If you are connecting the Netopia D-Series to an existing Ethernet hub, use Ethernet port #1 on the
Netopia D-Series and set the crossover switch to the Uplink position.) This connection will provide
management access to the Netopia D-Series.
4. Connect the HD-15 end of the supplied V.35 interface cable to the Auxiliary port and the other end to your
external Frame Relay router. The unit will auto-detect filtering bridge mode or DSU mode, based on which
cables are connected and traffic on the lines.
Connect Line ports to mutiple DSL lines (D3232 only)
On the Netopia D3232 DSU, you can connect the Line ports to up to 4 DSL lines using the splitters provided
with your equipment.
1. Connect one end of one of the RJ-45 cables to the Line 1 port, and the other end to the port on the single
end of the splitter.
2. Connect one end of another RJ-45 cable to either of the ports on the double end of the splitter, and the
other end of the RJ-45 cable to one of your SDSL or IDSL wall outlets.
3. Connect one end of another RJ-45 cable to the second port on the double end of the splitter, and the other
end of the RJ-45 cable to another of your SDSL or IDSL wall outlets.
4. Repeat steps 1-3 with the Line 2 port, the second splitter, and a third and fourth SDSL or IDSL wall outlets.
Netopia D-Series DSL DSU back panel ports
The following table describes all the Netopia D-Series DSL DSU back panel ports.
Port
Power port
Description
A mini-DIN8 power adapter cable connection.
Line port 1 and 2
Two RJ-45 telephone-style jacks labelled Line 1 and Line 2 for your SDSL or
IDSL connections.
Console port
A DE-9 console port for a direct serial connection to the console screens. You
can use this if you are an experienced user. See “Connecting a console cable to
your Netopia D-Series” on page 5-36.
Auxiliary port
An HD-15 auxiliary port for attaching the V.35 interface cable to an external
Frame Relay router in DSU mode. In Filtering Bridge mode you can connect an
external modem to this port for remote out-of-band management. This
application requires separate purchase of the Async cable (Part TE6/ DB25).
Crossover switch
A crossover switch with Normal and Uplink positions. If you use Ethernet Port
#1 for a direct Ethernet connection between a computer and the Netopia
D-Series, set the switch to the Normal position. If you are connecting the
Netopia D-Series to an Ethernet hub, use Ethernet port #1 on the Netopia
D-Series and set the switch to the Uplink position.
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2-18 User’s Reference Guide
Port
Description
8-port Ethernet hub
Eight 10Base-T Ethernet jacks. You will use one of these to configure the
Netopia D-Series. For a new installation, use the Ethernet connection.
Alternatively, you can use the console connection to run console-based
management using a direct serial connection. You can either connect your
computer directly to any of the Ethernet ports on the Netopia D-Series, or
connect both your computer and the Netopia D-Series to an existing Ethernet
hub on your LAN.
Netopia D-Series DSL DSU status lights
The figure below represents the Netopia D-Series status light (LED) panel.
Netopia D-Series LED front panel
2 3 4 5
6 7
8 9 10 11
12 13 14 15 16171819 2021
1
L in k /R e c e iv e
WA N 1
WA N 2
E t h e r n e t
The following table summarizes the meaning of the various LED states and colors:
When this happens...
the LEDs...
The corresponding line passes supervisory traffic between
the Digital Subscriber Line Access Multiplexer (DSLAM) and
the Netopia D-Series
2 or 8 flashes yellow.
The WAN interface is operational
3 or 9 is green.
The line is unavailable
3 or 9 flashes red.
The WAN on Channel 1 has carrier
Data is transmitted or received on the WAN on Channel 1
The WAN on Channel 2 has carrier
4 or 10 is green.
4 or 10 flashes yellow.
5 or 11 is green. (D3232 only)
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Making the Physical Connections 2-19
When this happens...
the LEDs...
Data is transmitted or received on the WAN on Channel 2
Console cable is attached and has carrier
Data is transmitted or received
5 or 11 flashes yellow. (D3232 only)
6 and 7 are green.
6 and 7 flash yellow.
Data is transmitted or received by the ethernet controller
The Ethernet interface detects a collision
Link is detected
12 flashes yellow.
13 flashes red.
14 though 21 are solid green.
14 though 21 flash green.
Data are received on their respective ports
Note: Console carrier (6) is ignored if the console is not configured for a remote modem.
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2-20 User’s Reference Guide
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Connecting to Your Local Area Network 3-21
Chapter 3
This chapter describes how to physically connect the Netopia D-Series to your local area network (LAN). Before
you proceed, make sure the Netopia D-Series is properly configured. You can customize the Netopia D-Series’s
configuration for your particular LAN requirements using console-based management (see “Console-Based
This section covers the following topics:
“Netopia D-Series Configuration Modes” on page 3-21
“Readying computers on your local network” on page 3-23
“Connecting to an Ethernet network” on page 3-24
Netopia D-Series Configuration Modes
The Netopia D-Series DSL DSU can be used in either of two ways:
as an intelligent Ethernet filtering bridge for DSL connections, or
as a Digital Service Unit
When the appropriate cables are connected, it senses the connection type (Frame Relay or ATM FUNI) and
automatically configures itself for use as a DSU or a DSL to Ethernet bridge.
See the following sections for suggestions on how to connect the Netopia D-Series to different types of
networks.
Filtering bridge mode
The following figure shows a typical configuration for the filtering bridge mode:
BUSINESS
Servers or
Workstations
T
HUB
ISP
CENTRAL
OFFICE
7
SDSL
100
Netopia D
SDSL CSU/DSU
Servers or
Workstations
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3-22 User’s Reference Guide
In bridge mode the Netopia D-Series performs a simple algorithm. When the Netopia D-Series receives a packet
on the Ethernet hub, the packet is examined for its destination Media Access Control (MAC) address.
The MAC address is the physical address of a device connected to a network, expressed as a 48-bit
hexadecimal number. Sometimes this is called the hardware address, and is a unique number assigned to each
device by the manufacturer.
If the destination MAC address is the Netopia D-Series’s MAC address, based on its serial number, and it is for
management purposes (Telnet or SNMP) or is an ICMP that needs response, it is accepted. If it is the MAC
address that is being proxied (supplied by the DSLAM) it is encapsulated in ATM FUNI and transmitted over the
DSL connection. A packet received from the DSL connection will be de-encapsulated and its MAC address
examined. Either it is management traffic for the Netopia D-Series, or it is encapsulated for Ethernet and
transmitted over the hub.
DSU mode
The DSU behavior is similar, except that the datalink encapsulation on the WAN is Frame Relay, and the
destination for packets from the WAN is the Auxiliary port. The Ethernet hub is only available for management
(Telnet or SNMP).
A special male HD-15 to female V.35 cable supports the Netopia D-Series as a DCE connecting the Auxiliary
port to a Frame Relay Access Device (FRAD) such as a sync serial router.
The following figure shows a typical configuration for the DSU mode:
BUSINESS
Router
35
V.
T
ISP
CENTRAL
OFFICE
SDSL
Ethernet (management)
7
100
Netopia D
SDSL CSU/DSU
Servers or
Workstations
The sections that follow refer to the filtering bridge mode only.
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Connecting to Your Local Area Network 3-23
Readying computers on your local network
PC and Macintosh computers must have certain components installed before they can communicate through
the Netopia D-Series. The following illustration shows the minimal requirements for a typical PC or Macintosh
computer.
Application software
TCP/ IP stack
Ethernet Driver
Your PC
or Macintosh
computer
To the Netopia D-Series
newsgroups, etc. These applications may require some configuration. Examples include the Eudora e-mail client
and the Web browsers Microsoft Internet Explorer and Netscape Navigator.
TCP/ IP stack: This is the software that lets your PC or Macintosh communicate using Internet protocols.
TCP/ IP stacks must be configured with some of the same information you used to configure the Netopia
D-Series. There are a number of TCP/ IP stacks available for PC computers. Windows 95 includes a built-in
TCP/ IP stack. See “Configuring TCP/ IP on Windows 95 or 98 computers” on page 4-28. Macintosh computers
use either MacTCP or Open Transport. See “Configuring TCP/ IP on Macintosh computers” on page 4-30.
Ethernet: Ethernet hardware and software drivers enable your PC or Macintosh computer to communicate on
the LAN.
EtherTalk and LocalTalk: These are AppleTalk protocols used over Ethernet.
Once the Netopia D-Series is properly configured and connected to your LAN, PC and Macintosh computers that
have their required components in place will be able to connect to the Internet or other remote IP networks.
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3-24 User’s Reference Guide
Connecting to an Ethernet network
The Netopia D-Series supports Ethernet connections through its eight Ethernet ports. The Netopia D-Series
automatically detects which Ethernet port is in use.
10Base-T
You can connect a standard 10Base-T Ethernet network to the Netopia D-Series using any of its available
Ethernet ports.
Netopia D-Series back panel
8
Ethernet
1
Auxiliary
Console
Power
Line
Normal
Uplink
1
The Netopia D-Series in a 10Base-T network
To connect your 10Base-T network to the Netopia
D-Series through an Ethernet port, use a
10Base-T cable with RJ-45 connectors.
8
Ethernet
1
If you have more than eight devices to connect,
you can attach additional devices using another
10Base-T hub.
Nor-
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Connecting to Your Local Area Network 3-25
If you add devices connected through a hub, connect the hub to Ethernet port number 1 on the Netopia
D-Series and set the Normal/ Uplink switch to Uplink.
8
Ethernet
1
Nor-
PC
Macintosh
PC
10Base-T
Hub
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3-26 User’s Reference Guide
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Configuring TCP/IP 4-27
Chapter 4
Configuring TCP/IP
Computers on your network must have TCP/ IP installed and configured. This chapter tells you how to configure
TCP/ IP on the desktop computers on your network.
This chapter covers the following topics:
“Configuring TCP/ IP on Windows 95 or 98 computers” on page 28
“Configuring TCP/ IP on Macintosh computers” on page 30
Note: For information on configuring TCP/ IP on Windows 2000 or NT computers, please see the Microsoft
documentation.
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4-28 User’s Reference Guide
Configuring TCP/IP on Windows 95 or 98 computers
Configuring TCP/ IP on a Windows computer requires the following:
An Ethernet card (also known as a network adapter)
The TCP/ IP protocol must be “bound” to the adapter or card
If you are manually configuring for a fixed or static IP address, perform the following:
1. Go to Start Menu/ Settings/ Control Panels and double click the Ne twork icon. From the Network
components list, select the Configuration tab.
2. Select TCP/ IP-->Your Network Card. Then select Properties. In the TCP/ IP Properties screen (shown
below), select the IP Addre s s tab. Click “Specify an IP Address.”
Enter the following:
IP Addre s s : 192.168.1.2
Subne t Mas k: 255.255.255.0, or for 12-user models 255.255.255.240
This address is an example of one that can be used to configure the Netopia D-Series with the Easy
option in the SmartStart Wizard. Your ISP or network administrator may ask you to use a different IP
address and subnet mask.
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Configuring TCP/IP 4-29
3. Click on the Gate way tab (shown below).
Under “New gateway,” enter
192.168.1.1. Click Add. This is the
Netopia D-Series’s pre-assigned IP
address.
Click on the DNS Configuration tab. Click Enable DNS.
Enter the following
information:
Hos t: Type the name
you want to give to
this computer.
Domain: Type your
domain name. If you
don't have a domain
name, type your ISP's
domain name; for
example,
netopia.com.
DNS Se rve r Se arch
Orde r: Type the
primary DNS IP
address given to you
by your ISP. Click
Add. Repeat this process for the secondary DNS.
Domain Suffix Se arch Orde r: Enter the same domain
name you entered above.
4. Click OK in this window, and the next window. When prompted, reboot the computer.
Note : You can also use these instructions to configure other computers on your network with manual or static
IP addresses. Be sure each computer on your network has its own IP address.
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4-30 User’s Reference Guide
Configuring TCP/IP on Macintosh computers
The following is a quick guide to configuring TCP/ IP for MacOS computers. Configuring TCP/ IP in a Macintosh
computer requires the following:
You must have either Open Transport or Classic Networking (MacTCP) installed.
You must have built-in Ethernet or a third-party Ethernet card and its associated drivers installed in your
Macintosh.
If you are manually configuring for a fixed or static IP address,
perform the following:
1. Go to the Apple menu. Select Control Pane ls and then
TCP/ IP or MacTCP.
2. With the TCP/ IP window open, go to the Edit menu and
select Us e r Mode . Choose Advance d and click OK.
Or, in the MacTCP window, select Ethe rne t and click the
More button.
3. In the TCP/ IP window or in the MacTCP/ More window, select or type information into the fields as shown in
the following table.
Option:
Connect via:
Select/ Type:
Ethernet
Configure:
Manually
IP Address:
Subnet mask:
192.168.1.2
255.255.255.0, or for 12-user models
255.255.255.240
Router or Gateway address:
Name server address:
192.168.1.1
Enter the primary and secondary name server
addresses given to you by your ISP
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Configuring TCP/IP 4-31
Option:
Select/ Type:
Implicit Search Path:
Starting domain name:
Enter your domain name; if you do not have a
domain name, enter the domain name of your ISP
4. Close the TCP/ IP or MacTCP control panel and save the settings.
5. If you are using MacTCP, you must restart the computer. If you are using Open Transport, you do not need
to restart. These are the only fields you need to modify in this screen.
Note : You can also use these instructions to configure other computers on your network with manual or static
IP addresses. Be sure each computer on your network has its own IP address.
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4-32 User’s Reference Guide
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Part II: Advanced Configuration
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User’s Reference Guide
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Console-Based Management 5-35
Chapter 5
Console-Based Management
Console-based management is a menu-driven interface for the capabilities built in to the Netopia D-Series.
Console-based management provides access to a wide variety of features that the Netopia D-Series supports.
You can customize these features for your individual setup. This chapter describes how to access the
This section covers the following topics:
“Connecting a console cable to your Netopia D-Series” on page 5-36
“Connecting through a Telnet session” on page 5-37
“Navigating through the console screens” on page 5-38
Console-based management screens contain five entry points to the Netopia D-Series configuration and
monitoring features. The entry points are displayed in the Main Menu shown below:
Netopia D3232 v4.6
WAN Configuration...
System Configuration...
Utilities & Diagnostics...
Statistics & Logs...
Quick View...
Return/Enter for WAN Line configuration.
You always start from this main screen.
Note: Although it references the Netopia D3232, this screen applies to all Netopia D-Series DSL DSUs.
The WAN Configuration menu displays and permit changing the following options:
Clock Source: Network or Internal
Bridge Mode Filter Set: Basic Firewall or NetBIOS Filter
Remove Filter Set
The System Configuration menus display and permit changing:
Management IP Setup. See “Management IP setup” on page 6-42.
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5-36 User’s Reference Guide
SNMP (Simple Network Management Protocol). See “SNMP” on page 7-57.
Security. See “Security” on page 8-61.
Upgrade feature set. See “Upgrade feature set” on page 6-44.
Logging. See “Event histories” on page 7-54.
The Utilities & Diagnostics menus provide a selection of seven tools for monitoring and diagnosing the
Netopia D-Series's behavior, as well as for updating the firmware and rebooting the system. See “Utilities
The Statistics & Logs menus display nine sets of tables and device logs that show information about your
Netopia D-Series, your network and their history. See “Statistics & Logs” on page 7-53 for detailed
information.
The Quick View menu displays at a glance current real-time operating information about your Netopia
D-Series. See “Quick View status overview” on page 7-51 for detailed information.
Connecting a console cable to your Netopia D-Series
If you will be assigning an IP address to the Netopia D-Series other than the default 192.168.1.1, it is best to
access the unit through the serial console.
You can perform all of the system configuration activities for your Netopia D-Series through a local serial
console connection using terminal emulation software, such as HyperTerminal provided with Windows95 on the
PC, or ZTerm, included on the CustomerCare CD, for Macintosh computers.
The Netopia D-Series back panel has a connector labeled “Console” for attaching the Netopia D-Series to either
a PC or Macintosh computer via the serial port on the computer. (On a Macintosh computer, the serial port is
called the Modem port or Printer port.) This connection lets you use the computer to configure and monitor the
Netopia D-Series via the console screens.
8
Ethernet
1
Auxiliary
Console
Power
Line
Normal
Uplink
1
Console connection port
DB-9 (male)
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Console-Based Management 5-37
To connect the Netopia D-Series to your computer for serial console communication, use the supplied dual
console cable connector end appropriate to your platform:
One DB-9 connector end attaches to a PC.
The mini-DIN8 connector end attaches to a Macintosh computer.
The DB-9 end of the Console cable attaches to the Netopia D-Series’s Console port.
If you connect a PC with Microsoft Windows 95 or NT, you can use the HyperTerminal application bundled
with the operating system.
If you connect a Macintosh computer, you can use the ZTerm terminal emulation program on the supplied
CustomerCare CD.
Launch your terminal emulation software and configure the communications software for the values shown in
the table below. These are the default communication parameters that the Netopia D-Series uses.
Parameter
Terminal type
Suggested Value
PC: ANSI-BBS
Mac: ANSI, VT-100, or VT-200
Data bits
Parity
8
None
Stop bits
Speed
1
57600 bits per second
None
Flow Control
Note: The Netopia D-Series firmware contains an autobaud detection feature. If you
are at any screen on the serial console, you can change your baud rate and press
Return (HyperTerminal for the PC requires a disconnect). The new baud rate is
displayed at the bottom of the screen.
Connecting through a Telnet session
Features of the Netopia D-Series can be configured through the console screens via Telnet.
Before you can access the console screens through Telnet, you must have:
A network connection locally to the Netopia D-Series or IP access to the Netopia D-Series.
The default IP address of the Netopia D-Series is 192.168.1.1, subnet mask 255.255.255.0. In order to
perform the initial configuration via Telnet your computer must have an IP address between 192.168.1.2
and 192.168.1.254, subnet mask 255.255.255.0.
Caution: If you change the Netopia D-Series’s IP address to some value outside of this range, you may lose
contact with the unit via Telnet.
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5-38 User’s Reference Guide
Alternatively, you can have a direct serial console cable connection using the provided console cable for
your platform (PC or Macintosh) and the Console port on the back of the Netopia D-Series. For more
information on attaching the console cable, see “Connecting a console cable to your Netopia D-Series” on
page 5-36.
Telnet software installed on the computer you will use to configure the Netopia D-Series
Configuring Telnet software
If you are configuring your Netopia D-Series using a Telnet session, your computer must be running a Telnet
software program.
If you connect a PC with Microsoft Windows, you can use a Windows Telnet application or simply run Telnet
from the Start menu.
If you connect a Macintosh computer, you can use the NCSA Telnet program supplied on the CustomerCare
CD. You install NCSA Telnet by simply dragging the application from the CD to your hard disk.
Navigating through the console screens
Use your keyboard to navigate the Netopia D-Series’s configuration screens, enter and edit information, and
make choices. The following table lists the keys to use to navigate through the console screens.
To...
Use These Keys...
Up, Down, Left, and
Move through selectable items in a screen or pop-up menu
Right Arrow
To set a change to a selected item or open a pop-up menu of
options for a selected item like entering an upgrade key
Return or Enter
Change a toggle value (Yes/ No, On/ Off)
Restore an entry or toggle value to its previous value
Move one item up
Tab
Esc
Up arrow or Control + k
Move one item down
Down arrow or Control + O
Display a dump of the device event log
Display a dump of the WAN event log
Refresh the screen
Control + e
Control + f
Control + L
Go to topmost selectable item
Go to bottom right selectable item
<
>
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WAN and System Configuration 6-39
Chapter 6
WAN and System Configuration
This chapter describes how to use the console-based management screens to access and configure advanced
features of your Netopia D-Series DSL DSU. You can customize these features for your individual setup. These
menus provide a powerful method for experienced users to set up their Netopia D-Series’s connection and
system configuration.
This chapter also describes DSL Bonding, or iMux, and how to configure your Netopia D-Series equipment to
use it.
“Navigating through the system configuration screens” on page 6-41
“System configuration features” on page 6-41
“DSL Bonding (iMux)” on page 6-46
“WAN configuration” on page 6-47
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6-40 User’s Reference Guide
System Configuration screens
You can connect to the Netopia D-Series’s system configuration screens in either of two ways:
By using Telnet with the Netopia D-Series’s Ethernet port IP address. The default is 192.168.1.1, subnet
mask 255.255.255.0.
Through the console port, using a local terminal (see “Connecting a console cable to your Netopia
D-Series” on page 5-36)
You can also retrieve the Netopia D-Series’s configuration information and remotely set its parameters using
the Simple Network Management Protocol (see “SNMP” on page 7-57).
Open a Telnet connection to the Netopia D-Series’s IP address; for example, the default “192.168.1.1.”
The console screen will open to the Main Menu, similar to the screen shown below:
Netopia D3232 v4.6
WAN Configuration...
System Configuration...
Utilities & Diagnostics...
Statistics & Logs...
Quick View...
Return/Enter displays options for the system.
You always start from this main screen.
Note: Although it references the Netopia D3232, this screen applies to all Netopia D-Series DSL DSUs.
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WAN and System Configuration 6-41
Navigating through the system configuration screens
To help you find your way to particular screens, some sections in this guide begin with a graphical path guide
similar to the following example:
System
Configuration
Main
Menu
Management IP
Setup
IP Setup
This particular path guide shows how to get to the Management IP Setup screens. The path guide represents
these steps:
1. Beginning in the Main Menu, select System Configuration and press Return. The System Configuration
screen appears.
2. Select Management IP Setup and press Return. The IP Setup screen appears.
To go back in this sequence of screens, use the Escape key.
System configuration features
The Netopia D-Series DSL DSU’s default settings may be all you need to configure your Netopia D-Series. Some
users, however, require advanced settings or prefer manual control over the default selections. For these users,
the Netopia D-Series provides system configuration options.
To access the system configuration screens, select System Configuration in the Main Menu, then press
Return.
The System Configuration menu screen appears:
System Configuration
Management IP Setup...
Filter Sets...
Date and Time...
Console Configuration...
SNMP (Simple Network Management Protocol)...
Security...
Upgrade Feature Set...
Logging...
Return/Enter to configure Networking Protocols (such as TCP/IP).
Use this screen if you want options beyond Easy Setup.
Options available under the System Configuration menu are described in the following sections.
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6-42 User’s Reference Guide
Management IP setup
Consult your network administrator or Internet service provider to obtain the IP setup information such as the
Ethernet IP address, Ethernet subnet mask, default IP gateway. You will need this information before changing
any of the settings in this screen. Changes made in this screen will take effect only after the Netopia D-Series
is reset.
To go to the IP Setup options screen, from the Main Menu, select System Configuration then Network
Protocols Setup, and then IP Setup.
Management
Main
Menu
System
Configuration
IP
IP Setup
Setup
The IP Setup screen appears.
This screen allows you to change the Netopia D-Series’s Ethernet IP Address, Subnet Mask, and Default IP
Gateway.
IP Setup
Ethernet IP Address:
Ethernet Subnet Mask:
192.168.1.1
255.255.255.0
Default IP Gateway:
0.0.0.0
Enter an IP address in decimal and dot form (xxx.xxx.xxx.xxx).
Set up the basic IP attributes of your Netopia in this screen.
Follow these steps to configure IP Setup for your Netopia D-Series:
Select Ethernet IP Address and enter the IP address for the Netopia D-Series’s Ethernet port.
Select Ethernet Subnet Mask and enter the subnet mask for the Ethernet IP address that you entered in
the last step.
Select Default IP Gateway and enter the IP address for a default gateway. This can be the address of any
major router accessible to the Netopia D-Series.
A default gateway should be able to successfully route packets when the Netopia D-Series cannot
recognize the intended recipient’s IP address. A typical example of a default gateway is the ISP’s router, in
bridge mode, or the locally attached router, in DSU mode.
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WAN and System Configuration 6-43
Filter sets
When using the Netopia D-Series in bridge mode only, these screens allow you to configure security on your
network by means of filter sets. Details are given in “About filters and filter sets” on page 8-64.
Date and time
You can set the system’s date and time in the Set Date and Time screen.
Select Date and Time in the System Configuration screen and press Return. The Set Date and Time screen
appears.
Set Date and Time
System Date Format:
Current Date (MM/DD/YY):
MM/DD/YY
3/16/1999
System Time Format:
Current Time:
AM or PM:
AM/PM
10:29
AM
Follow these steps to set the system’s date and time:
1. Select System Date Format. A popup allows you to choose the format used in your country or locality.
Options are: MM/ DD/ YY, DD/ MM/ YY, and YY/ MM/ DD.
2. Select Current Date and enter the date in the appropriate format. Use one- or two-digit numbers for the
month and day, and the last two digits of the current year. The date’s numbers must be separated by
forward slashes (/ ).
3. Select System Time Format. A popup allows you to choose either AM/ PM or 24hr formats.
4. Select Current Time and enter the time in the format HH:MM, where HH is the hour (using either the
12-hour or 24-hour clock) and MM is the minutes.
5. If you chose AM/ PM format, select AM or PM and choose AM or PM. If you chose 24hr format, this menu
item is hidden.
Console configuration
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6-44 User’s Reference Guide
You can change the default terminal communications parameters to suit your requirements.
To go to the Console Configuration screen, select Console Configuration in the System Configuration screen.
Console Configuration
Baud Rate...
57600
No
Hardware Flow Control:
SET CONFIG NOW
CANCEL
Follow these steps to change a parameter’s value:
1. Select the parameter you want to change.
2. Select a new value for the parameter. Return to step 1 if you want to configure another parameter.
unchanged and exit the Console Configuration screen.
SNMP (Simple Network Management Protocol)
Management Protocol (SNMP) agent. Details are given in “SNMP” on page 7-57.
Security
These screens allow you to add users and define passwords on your network. Details are given in “Security” on
page 8-61.
Upgrade feature set
You can upgrade your Netopia D-Series by adding new feature sets through the Upgrade Feature Set utility.
See the release notes that came with your Netopia D-Series or feature set upgrade, or visit the Netopia Web
site at www.netopia.com for information on new feature sets, how to obtain them, and how to install them on
your Netopia D-Series.
Logging
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WAN and System Configuration 6-45
You can configure a UNIX-style syslog client for the PC to report a number of subsets of the events entered in
the Netopia D-Series’s WAN Event History. See “WAN Event History” on page 7-55.The Syslog client daemon
program (for the PC only) is supplied as a .ZIP file on the CustomerCare CD.
Select Logging from the System Configuration menu.
The Logging Configuration screen appears.
Logging Configuration
WAN Event Log Options
Log Boot and Errors:
Log Line Specific:
Yes
Yes
Syslog Parameters
Syslog Enabled:
Hostname or IP Address:
Facility...
No
Local 0
Return/Enter accepts * Tab toggles * ESC cancels.
By default, all events are logged in the event history.
By toggling each event descriptor either Yes or No, you can determine which ones are logged and which are
ignored.
You can enable or disable the syslog client dynamically. When enabled, it will report any appropriate and
previously unreported events.
You can specify the syslog server’s address either in dotted decimal format or as a DNS name up to 63
characters.
You can specify the UNIX syslog Facility to use by selecting the Facility pop-up.
Installing the Syslog client
The Goodies folder on the CustomerCare CD contains a Syslog client daemon program that can be configured to
report the WAN events you specified in the Logging Configuration screen.
To install the Syslog client daemon, exit from the graphical CustomerCare CD program and locate the CD
directory structure through your Windows desktop, or through Windows Explorer. Go to the Goodies directory on
the CD and locate the Sds15000.exe program. This is the Syslog daemon installer. Run the Sds15000.exe
program and follow the on screen instructions for enabling the Windows Syslog daemon.
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6-46 User’s Reference Guide
The following screen shows a sample syslog dump of WAN events:
6, 152, 173.166.107.100, 3/10/99, 9:55:03 AM, RFC1483: IP up, channel 2, gateway: 163.176.107.1
6, 152, 173.166.107.100, 3/10/99, 9:55:08 AM, RFC1483-2 rate set to 576 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:09 AM, DML-4 up
6, 152, 173.166.107.100, 3/10/99, 9:55:10 AM, RFC1483-2 rate set to 432 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:10 AM, RFC1483-2 rate set to 432 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:13 AM, DML-3 up
6, 152, 173.166.107.100, 3/10/99, 9:55:13 AM, DML-1 up
6, 152, 173.166.107.100, 3/10/99, 9:55:13 AM, DML-2 up
6, 152, 173.166.107.100, 3/10/99, 9:55:14 AM, >>WAN: Data link activated at 144 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:14 AM, >>WAN: Data link activated at 144 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:14 AM, >>WAN: Data link activated at 144 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:15 AM, RFC1483-2 rate set to 144 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:17 AM, RFC1483: Channel 2 up
6, 152, 173.166.107.100, 3/10/99, 9:55:20 AM, >>WAN: Data link activated at 144 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:23 AM, BRIDGE: Line is up in ATM-Funi mode
6, 152, 173.166.107.100, 3/10/99, 9:55:24 AM, --Device restarted----------------------------
6, 152, 173.166.107.100, 3/10/99, 9:55:36 AM, >>WAN: IDSL 1 activated at 1568 Kbps
6, 152, 173.166.107.100, 3/10/99, 9:55:37 AM, BRIDGE: Line is up in ATM-Funi mode
DSL Bonding (iMux)
DSL Bonding, also called inverse multiplexing or IMUX, technology combines the bandwidth of multiple DSL
(Digital Subscriber Line) circuits into a single virtual data pipe.
Before DSL Bonding was developed, the maximum speed of a DSL connection was dependent on the
customer's distance from the central office. DSL Bonding allows customers who are located at greater
distances from the central office to aggregate DSL circuits, in order to achieve two or more times the speed
otherwise available to them with a single line.
The premise behind DSL Bonding is to provide a cost-effective means of bridging the bandwidth gap between
relatively low network speeds and much higher rates, thereby allowing high-speed applications to use bandwidth
up to 3 Mbps.
Netopia's DSL routers and DSUs with bonding allow users with 1.5 Mbps SDSL connections to enjoy speeds of
over 3 Mbps, twice as fast as T1. They also allow customers who, because of line quality problems, were
previously limited to a 144 Kbps IDSL connection, to enjoy speeds of up to 576 Kbps.
What DSL Bonding does
DSL Bonding is the opposite, or inverse, of traditional multiplexing:
The concept of multiplexing applies when a number of relatively small data streams are combined into a
single line with greater bandwidth, in order to increase the efficiency and maximize utilization of a higher
speed WAN connection. An example of multiplexing would be the combination of multiple DS0 links in a
single T1 or E1 circuit.
DSL Bonding takes a single high-speed data stream and spreads it across several lower speed physical
links, which logically form a single aggregated channel or group. Multiple SDSL or IDSL lines are combined
to create a single logical data channel that is the aggregate of the individual lines’ bandwidths, minus a
small amount used for overhead. A packet of information from a LAN, video conferencing session, or other
data application is broken down into individual bits or cells which are transmitted in a round robin fashion
across two SDSL or IDSL circuits. At the other end of the link, the bits or cells are reassembled in the
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WAN and System Configuration 6-47
same order in which they were transmitted, and the reconstructed packet is sent on to the recipient’s
networking equipment.
From the point of view of the routers or other devices connected to the inverse multiplexers, they are
communicating via a single high-speed WAN channel at some multiple of the SDSL or IDSL rate. This is
especially important when an application’s bandwidth requirements are high. But a high bandwidth service is
either difficult to obtain or too expensive. Some examples include: a university offering remote educational
services, or distance learning, may require very high bandwidth across the WAN in order to maintain acceptable
quality for its classroom video. Bringing together relatively less expensive, lower speed SDSL or IDSL circuits to
form a single high-speed link often saves a company a significant amount money. The savings can pay for the
inverse multiplexer in a few months.
Netopia DSL Bonding
Netopia’s DSL Bonding implementation is based on a technique used in Copper Mountain Networks
CopperEdge DSL Access Concentrators. Copper Mountain’s approach conforms with the Multi-link Frame Relay
(MFR) protocol. However, where DML operates between the CPE and DSLAM, MFR would more likely operate
between the CPE and Frame Relay terminator (potentially the ISP’s router).
Currently, the D-Series equipment does not support the potential use of more than one ISDN U-BRI channel for
switched ISDN applications – the additional BRIs available on a single or dual WAN module configuration can
only be bonded to the first BRI in IDSL DML mode.
The Copper Mountain approach allows the bonding of multiple physical DSL links into a single logical channel.
The logical channel may use RFC1483 FUNI, RFC1490 and/ or Q.922 Frame Relay, or RFC1661/ 1662 PPP data
link encapsulations. In addition, the physical links support Copper Mountain’s control protocol (CMCP).
WAN configuration
To configure your Wide Area Network (WAN) connection and DSL link, navigate to the WAN Configuration screen
from the Main Menu and select WAN Configuration, then Choose Interface to Configure.
Note: On the Netopia D7100, select WAN Configuration, then SDSL Line Configuration. Skip to page 6-49.
WAN
Setup
WAN
Configuration
Choose Interface
to Configure
Main
Menu
The Choose Interface to Configure screen appears.
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6-48 User’s Reference Guide
The screen below shows the ISDN/ IDSL option for the WAN to be configured on the D3100-I or D3232.
Choose Interface to Configure
ISDN/IDSL (Wan Module 1 and 2) Setup...
Auxiliary Serial Port Setup...
The screen below shows the D7171’s SDSL option.
Choose Interface to Configure
CMN SDSL (Wan Module 1 and 2) Setup...
Auxiliary Serial Port Setup...
These screens show the dual WAN interfaces as a single bonded interface, and you configure them together by
selecting (Wan Module 1 and 2) Setup... and pressing Return.
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WAN and System Configuration 6-49
The Line Configuration screen appears, IDSL Line Configuration for the D3100-I or D3232,
IDSL Line Configuration
+----------+
+----------+
Clock Source...
| Network |
| Internal |
+----------+
Bridge Mode Filter Set...
Remove Filter Set
Filter Set 1
Return/Enter goes to new screen.
or SDSL Line Configuration for the D7100.
SDSL Line Configuration
+----------+
+----------+
| Network |
| Internal |
+----------+
Filter Set 1
Clock Source...
Bridge Mode Filter Set...
Remove Filter Set
Return/Enter goes to new screen.
or SDSL Line Configuration for the D7171.
SDSL Line Configuration
Clock Source...
Network
Data Link Encapsulation...
RFC1483
Prioritize Delay-Sensitive Data: No
Enter Information supplied to you by your telephone company.
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6-50 User’s Reference Guide
The Clock Source may be either Network or Internal. If you select Network (the default), the Netopia
D-Series IDSL interface functions in customer premise equipment (CPE) mode. This mode is the normal
mode for communicating with an ISP. If you select Internal, the Netopia D-Series functions in central office
another Netopia IDSL device operating in CPE mode.
A Data Rate pop-up item is available only if the clock source is Internal. This item allows you to set the
data rate for the DSL link (and the attached CPE device).
A Bridge Mode Filter Set pop-up item allows you to select a filter set to make active on the IDSL or SDSL
link. See “About filters and filter sets” on page 8-64 for more information.
You can deactivate any previously selected filter set by selecting Remove Filter Set and pressing Return.
A Data Link Encapsulation pop-up item allows you to select an ecapsulation type for the link.
Prioritize Delay-Sensitive Data may be either Yes or No. The default is No.
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Monitoring Tools 7-51
Chapter 7
Monitoring Tools
This chapter discusses the Netopia D-Series’s device and network monitoring tools. These tools can provide
statistical information, report on current network status, record events, and help in diagnosing and locating
problems.
“Statistics & Logs” on page 7-53
“Event histories” on page 7-54
“System Information” on page 7-57
“SNMP” on page 7-57
Quick View status overview
You can get a useful, overall status report from the Netopia D-Series in the Quick View screen. To go to the
Quick View screen, select Quick View in the Main Menu.
Main
Quick View
Menu
The Quick View screen has three status sections:
General status
Current WAN Connection Status
LED Status
Note: The status sections vary according to the interface of your Netopia D-Series.
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7-52 User’s Reference Guide
General status
Quick View
11/5/1999 12:42:24 PM
Default IP Gateway: 0.0.0.0
Domain Name Server: 0.0.0.0
Domain Name: None Provided
CPU Load: 10% Unused Memory: 228 KB
WAN Interface Group -- ISDN/IDSL
----------------MAC Address--------IP Address-------IPX Address---------------
Ethernet Hub: 00-00-c5-70-03-48 192.168.1.1
DSL Bond:
00-00-c5-70-03-4a 0.0.0.0
Current Frame Relay Status
--DLCIs In Use--Bytes Rx----Bytes Tx---Frames Rx---Frames Tx---FECNs+BECNs----
0
0
0
0
0
0
LED Status
LNK RDY CH1 CH2 LNK LNK LNK RDY CH1 CH2 DATA | '-'= Off 'G'= Green
G
- R - -
Y
-
- R - -
- | ’R’= Red ’Y’= Yellow
Current Date: The current date; this can be set with the Date and Time utility (see “Date and time” on
page 6-43).
Default IP Gateway: The Netopia D-Series’s default gateway, which must be manually configured. If you are
using the Netopia D-Series’s defaults this value will be 0.0.0.0. If you have assigned an IP address as your
default gateway, it is shown here.
CPU Load: Percentage of the system’s resources being used by all current transmissions.
Unused Memory: The total remaining system memory available for use.
IP Address: The Netopia D-Series’s IP address, entered in the IP Setup screen.
MAC Address: The Netopia D-Series’s hardware address, for each MAC layer interface.
Status lights
This section shows the current real-time status of the Netopia D-Series’s status lights (LEDs). It is useful for
remotely monitoring the Netopia D-Series’s status. The Quick View screen’s arrangement of LEDs corresponds
to the physical arrangement of LEDs on the Netopia D-Series.
-PWR-+-----WAN1------+--CON--AUX--+-----WAN2------+--EN--+--------LEDS---------
LNK RDY CH1 Ch2 LNK LNK LNK RDY CH1 CH2 DATA | '-'= Off 'G'= Green
G
- G - -
Y
-
- - - -
- | 'R'= Red 'Y'= Yellow
Each LED representation can report one of four states:
–: A dash means the LED is off.
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Monitoring Tools 7-53
R: The letter “R” means the LED is red.
G: The letter “G” means the LED is green.
Y: The letter “Y” means the LED is yellow.
The section “Netopia D-Series DSL DSU status lights” on page 2-18 describes the meanings of the colors for
each LED.
Statistics & Logs
Main
Menu
Statistics & Logs
General Statistics
When you are troubleshooting your Netopia D-Series, the Statistics & Logs screens provide insight into the
recent event activities of the Netopia D-Series.
From the Main Menu go to Statistics & Logs and select one of the options described in the sections below.
General Statistics
To go to the General Statistics screen, select General Statistics and press Return. The General Statistics
screen appears.
General Statistics
Physical I/F----Rx Bytes---Tx Bytes---Rx Pkts---Tx Pkts----Rx Err----Tx Err
Ethernet Hub
Aux Sync
IDSL 1
123456789 123456789 12345678 12345678 12345678 12345678
123456789 123456789 12345678 12345678 12345678 12345678
123456789 123456789 12345678 12345678 12345678 12345678
Network----------Rx Bytes---Tx Bytes---Rx Pkts---Tx Pkts----Rx Err----Tx Err
IP 123456789 123456789 12345678 12345678 12345678 12345678
The General Statistics screen displays information about data traffic on the Netopia D-Series’s data ports. This
information is useful for monitoring and troubleshooting your LAN. Note that the counters roll over at their
maximum field width, that is, they restart again at 0.
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Physical Interface
The top left side of the screen lists total packets received and total packets transmitted for the following data
ports:
Ethernet Hub
Aux Sync
IDSL 1 or SDSL 1
Network Interface
The bottom left side of the screen lists total packets received and total packets transmitted for the following
protocols:
IP (IP packets on the Ethernet)
The right side of the table lists the total number of occurrences of each of six types of communication
statistics:
Rx Bytes. The number of bytes received
Tx Bytes. The number of bytes transmitted
Rx Packets: The number of packets received
Tx Pkts. The number of packets transmitted
Rx Err: The number of bad Ethernet packets received
Tx Err: An error occurring when Ethernet packets are transmitted simultaneously by nodes on the LAN
Event histories
The Netopia D-Series records certain relevant occurrences in event histories. Event histories are useful for
diagnosing problems because they list what happened before, during, and after a problem occurs. You can view
two different event histories: one for the Netopia D-Series’s system and one for the WAN. The Netopia
D-Series’s built-in battery backup prevents loss of event history from a shutdown or reset.
The Netopia D-Series’s event histories are structured to display the most recent events first, and to make it
easy to distinguish error messages from informational messages. Error messages are prefixed with an
asterisk. Both the WAN Event History and Device Event History retain records of the 128 most recent events.
In the Statistics & Logs screen, select WAN Event History. The WAN Event History screen appears.
Main
Menu
• WAN Event History
• Device Event History
Statistics & Logs
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WAN Event History
The WAN Event History screen lists a total of 128 events on the WAN. The most recent events appear at the
top.
WAN Event History
Current Date -- 11/5/99
11:48:19 AM
-Date-----Time-----Event------------------------------------------------------
----------------------------------SCROLL UP-----------------------------------
11/04/99 17:46:21 RFC1483: IP up, channel 2, gateway: 163.176.107.1
11/04/99 17:46:17 RFC1483-2 rate set to 576 Kbps
11/04/99 17:46:17 DML-4 up
11/04/99 17:46:17 RFC1483-2 rate set to 432 Kbps
11/04/99 17:46:17 RFC1483-2 rate set to 432 Kbps
11/04/99 17:46:17 DML-3 up
11/04/99 17:46:17 DML-1 up
11/04/99 17:46:17 DML-2 up
11/04/99 17:46:15 >>WAN: Data link activated at 144 Kbps
11/04/99 17:46:15 >>WAN: Data link activated at 144 Kbps
11/04/99 17:46:15 >>WAN: Data link activated at 144 Kbps
11/04/99 17:46:15 RFC1483-2 rate set to 144 Kbps
11/04/99 17:46:15 RFC1483: Channel 2 up
11/04/99 17:46:15 >>WAN: Data link activated at 144 Kbps
---------------------------------SCROLL DOWN----------------------------------
Clear History...
Return/Enter on event item for details or SCROLL [UP/DOWN] item for scrolling.
Each entry in the list contains the following information:
Time: Time of the event.
Date: Date of the event.
Event: A brief description of the event.
Ch.: The channel involved in the event.
Dir. Number: The directory number (number dialed) involved in the event (switched circuit models only).
The first event in each call sequence is marked with double arrows (>>).
Failures are marked with an asterisk (*).
If the event history exceeds the size of the screen, you can scroll through it by using the SCROLL UP and
SCROLL DOWN items.
To scroll up, select SCROLL UP at the top of the list and press Return. To scroll down, select SCROLL DOWN at
the bottom of the list and press Return.
To get more information about any event listed in the WAN Event History, select the event and then press
Return. A dialog box containing more information about the selected event will appear. Press Return or Escape
to dismiss the dialog box.
To clear the event history, select Clear History at the bottom of the history screen and press Return.
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Device Event History
The Device Event History screen lists a total of 128 port and system events, giving the time and date for each
event, as well as a brief description. The most recent events appear at the top.
In the Statistics & Logs screen, select Device Event History. The Device Event History screen appears.
Device Event History
Current Date -- 3/10/99 10:41:49 AM
-Date-----Time-----Event------------------------------------------------------
----------------------------------SCROLL UP-----------------------------------
03/10/99 10:22:48 Telnet connection up, address 192.168.1.2
03/10/99 10:15:56 --BOOT: Cold start v4.6
03/09/99 16:43:07 --BOOT: Warm start v4.6
03/09/99 16:34:20 --BOOT: Cold start v4.6
03/09/99 11:10:12 --BOOT: Cold start v4.6
-------------------------------
-------------------------------
-------------------------------
-------------------------------
03/08/99 18:06:19 BOOT: Reverted to default configuration
03/08/99 18:06:19 --BOOT: Warm start v4.6
-------------------------------
---------------------------------SCROLL DOWN----------------------------------
Clear History...
Return/Enter on event item for details or SCROLL [UP/DOWN] item for scrolling.
If the event history exceeds the size of the screen, you can scroll through it by using SCROLL UP and SCROLL
DOWN.
To scroll up, select SCROLL UP at the top of the list and press Return. To scroll down, select SCROLL DOWN at
the bottom of the list and press Return.
To obtain more information about any event listed in the Device Event History, select the event and then press
Return. A dialog box containing more information about the selected event appears. Press Return or Escape to
dismiss the dialog box.
To clear the Device Event History, select Clear History and press Return.
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Monitoring Tools 7-57
System Information
The System Information screen gives a summary view of the general system level values in the Netopia
D-Series DSL DSU.
From the Statistics & Logs menu select System Information. The System Information screen appears.
System Information
Serial Number
Firmware Version
70-03-48 (7340872)
4.6
Processor Speed (MHz)
Flash ROM Capacity (MBytes)
DRAM Capacity (MBytes)
33
1
4
Ethernet
8 Port 10Base-T
Auxiliary Serial Port
WAN 1 Interface
WAN 2 Interface
Switched Async
CMN SDSL, fw v1.40.13
CMN SDSL, fw v1.40.13
AppleTalk Feature Set
Analog Dial-In Kit
Not Installed
Installed
IMUX Support
Installed
Note: The information display varies by model, firmware version, feature set, and so on.
You can tell at a glance your particular system configuration.
SNMP
The Netopia D-Series includes a Simple Network Management Protocol (SNMP) agent, allowing monitoring and
configuration by a standard SNMP manager.
The Netopia D-Series supports the following management information base (MIB) documents:
MIB II (RFC 1213)
Interface MIB (RFC 1229)
Ethernet MIB (RFC 1643)
Netopia MIB
These MIBs are on the CustomerCare CD included with the Netopia D-Series. Load these MIBs into your SNMP
management software in the order they are listed here. Follow the instructions included with your SNMP
manager on how to load MIBs.
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The SNMP Setup screen
From the Main Menu, select SNMP in the System Configuration screen and press Return. The SNMP Setup
screen appears.
System
Configuration
Main
Menu
SNMP
SNMP Setup
System Name:
System Location:
System Contact:
Read-Only Community String:
Read/Write Community String:
public
private
Authentication Traps Enable:
IP Trap Receivers...
Off
Configure optional SNMP parameters from here.
Follow these steps to configure the first three items in the screen:
1. Select System Name and enter a descriptive name for the Netopia D-Series’s SNMP agent.
2. Select System Location and enter the Netopia D-Series’s physical location (room, floor, building, etc.).
3. Select System Contact and enter the name of the person responsible for maintaining the Netopia
D-Series.
System Name, System Location, and System Contact set the values returned by the Netopia D-Series SNMP
agent for the SysName, SysLocation, and SysContact objects, respectively, in the MIB II system group. Although
optional, the information you enter in these items can help a system administrator manage the network more
efficiently.
Community strings
The Read-Only Community String and the Read/ Write Community String are like passwords that must be used
by an SNMP manager querying or configuring the Netopia D-Series. An SNMP manager using the Read-Only
Community String can examine statistics and configuration information from the Netopia D-Series, but cannot
modify the Netopia D-Series’s configuration. An SNMP manager using the Read/ Write Community String can
both examine and modify configuration parameters.
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Monitoring Tools 7-59
By default, the read-only and read/ write community strings are set to “public” and “private,” respectively. You
should change both of the default community strings to values known only to you and trusted system adminis-
trators.
To change a community string, select it and enter a new value.
Setting the Read-Only and Read-Write community strings to the empty string will block all SNMP requests to the
Netopia D-Series. (The Netopia D-Series may still send SNMP Traps if those are properly enabled.)
This allows the administrator to block SNMP access to the Netopia D-Series, and to provide more granular
control over the allowed SNMP operations to the Netopia D-Series.
Setting only the Read-Write community string to the empty string will block SNMP Set Requests to the
Netopia D-Series, but Get Requests and Get-Next Requests will still be honored using the Read-Only
community string (assuming that is not the empty string).
Setting only the Read-Only community string to the empty string will not block Get Requests or Get-Next
Requests since those operations (and Set Requests) are still allowed using the (non-empty) Read-Write
community string.
Even if you decide not to use SNMP, you should change the community strings. This prevents unauthorized
access to the Netopia D-Series through SNMP. For more information on security issues, see “Security” on
page 8-61.
SNMP traps
An SNMP trap is an informational message sent from an SNMP agent (in this case, the Netopia D-Series) to a
manager. When a manager receives a trap, it may log the trap as well as generate an alert message of its own.
Standard traps generated by the Netopia D-Series include the following:
An authentication failure trap is generated when the Netopia D-Series detects an incorrect community
string in a received SNMP packet. Authentication Traps Enable must be On for this trap to be generated.
A cold start trap is generated after the Netopia D-Series is reset.
An interface down trap (ifDown) is generated when one of the Netopia D-Series’s interfaces, such as a
port, stops functioning or is disabled.
An interface up trap (ifUp) is generated when one of the Netopia D-Series’s interfaces, such as a port,
begins functioning.
The Netopia D-Series sends traps using UDP (for IP networks).
You can specify which SNMP managers are sent the IP traps generated by the Netopia D-Series. Up to eight
receivers can be set. You can also review and remove IP traps.
To go to the IP Trap Receivers screen, select IP Trap Receivers. The IP Trap Receivers screen appears.
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IP Trap Receivers
Display/Change IP Trap Receiver...
Add IP Trap Receiver...
Delete IP Trap Receiver...
Return/Enter to modify an existing Trap Receiver.
Navigate from here to view, add, modify and delete IP Trap Receivers.
Setting the IP trap receivers
1. Select Add IP Trap Receiver.
2. Select Receiver IP Address or Domain Name. Enter the IP address or domain name of the SNMP manager
you want to receive the trap.
3. Select Community String if you enabled one in the SNMP Setup screen, and enter the appropriate
password.
4. Select Add Trap Receiver Now and press Return. You can add up to seven more receivers.
Viewing IP trap receivers
To display a view-only table of IP trap receivers, select Display/ Change IP Trap Receiver in the IP Trap
Receivers screen.
Modifying IP trap receivers
1. To edit an IP trap receiver, select Display/ Change IP Trap Receiver in the IP Trap Receivers screen.
2. Select an IP trap receiver from the table and press Return.
3. In the Change IP Trap Receiver screen, edit the information as needed and press Return.
Deleting IP trap receivers
1. To delete an IP trap receiver, select Delete IP Trap Receiver in the IP Trap Receivers screen.
2. Select an IP trap receiver from the table and press Return.
3. In the dialog box, select Continue and press Return.
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Security 8-61
Chapter 8
Security
The Netopia D-Series provides a number of security features to help protect its configuration screens and your
local network from unauthorized access. Although these features are optional, it is strongly recommended that
you use them.
“About filters and filter sets” on page 8-64
“Filtering tutorial” on page 8-71
“Working with Filters and filter sets” on page 8-77
“Generic filters” on page 8-86
Suggested security measures
In addition to setting up user accounts, Telnet access, and filters (all of which are covered later in this chapter),
there are other actions you can take to make the Netopia D-Series and your network more secure:
Change the SNMP community strings (or passwords). The default community strings are universal and
could easily be known to a potential intruder.
Configure the Netopia D-Series through the serial console port to ensure that your communications cannot
be intercepted.
User accounts
When you first set up and configure the Netopia D-Series, no passwords are required to access the
configuration screens. Anyone could tamper with the Netopia D-Series’s configuration by simply connecting it to
a console.
However, by adding user accounts, you can protect the most sensitive screens from unauthorized access. User
accounts are composed of name/ password combinations that can be given to authorized users.
Caution!
You are strongly encouraged to add protection to the configuration screens. Unprotected screens could allow an
unauthorized user to compromise the operation of your entire network.
Once user accounts are created, users who attempt to access protected screens will be challenged. Users who
enter an incorrect name or password are returned to a screen requesting a name/ password combination to
access the Main Menu.
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8-62 User’s Reference Guide
To set up user accounts, in the System Configuration screen select Security and press Return.
System
Configuration
Main
Menu
Security
The Security Options screen appears.
Security Options
Enable Telnet Console Access:
Enable Telnet Access to SNMP Screens:
Yes
Yes
Show Users...
Add User...
Delete User...
Password for This Screen (11 chars max):
Return/Enter accepts * Tab toggles * ESC cancels.
Set up configuration access options here.
Protecting the Security Options screen
The first screen you should protect is the Security Options screen, because it controls access to the
configuration screens. Access to the Security Options screen can be protected with a password.
Select Password for This Screen in the Security Options screen and enter a password. Make sure this
password is secure and is different from any of the user account passwords.
Protecting the configuration screens
You can protect the configuration screens with user accounts. You can administer the accounts from the
Security Options screen. You can create up to four accounts.
To display a view-only list of user accounts, select Show Users in the Security Options screen.
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Security 8-63
To add a new user account, select Add User in the Security Options screen and press Return. The Add Name
With Write Access screen appears.
Add Name With Write Access
Enter Name:
Enter Password (11 characters max):
ADD NAME/PASSWORD NOW
CANCEL
Follow these steps to configure the new account:
1. Select Enter Name and enter a descriptive name (for example, the user’s first name).
2. Select Enter Password and enter a password.
3. To accept the new name/ password combination, select ADD NAME/ PASSWORD NOW. To exit the Add
Name With Write Access screen without saving the new account, select CANCEL. You are returned to the
Security Options screen.
To delete a user account, select Delete User to display a list of accounts. Select an account from the list and
press Return to delete it. To exit the list without deleting the selected account, press Escape.
Telnet access
Telnet is a TCP/ IP service that allows remote terminals to access hosts on an IP network. The Netopia D-Series
supports Telnet access to its configuration screens.
Caution!
You should consider password-protecting or restricting Telnet access to the Netopia D-Series if you suspect
there is a chance of tampering.
To restrict Telnet access, select Security in the Advanced Configuration menu. The Security Options screen will
appear. There are two levels of Telnet restriction available:
To restrict Telnet access to the SNMP screens, select Enable Telnet Access to SNMP Screens and toggle it to
No. (See “SNMP traps” on page 7-59.)
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8-64 User’s Reference Guide
To restrict Telnet access to all of the configuration screens, select Enable Telnet Console Access and toggle it
to No.
About filters and filter sets
Important Note: The Netopia D-Series’s filter sets only work when the unit is in bridge mode. They have no
effect when the unit is in DSU mode.
Security should be a high priority for anyone administering a network connected to the Internet. Using packet
filters to control network communications can greatly improve your network’s security.
The Netopia D-Series’s packet filters are designed to provide security for the Internet connections made to and
from your network. You can customize the Netopia D-Series’s filter sets for a variety of packet filtering
applications. Typically, you use filters to selectively admit or refuse TCP/ IP connections from certain remote
networks and specific hosts. You will also use filters to screen particular types of connections. This is
commonly called firewalling your network.
Before creating filter sets, you should read the next few sections to learn more about how these powerful
security tools work.
What’s a filter and what’s a filter set?
A filter is a rule that lets you specify what sort of data can flow in and out of your network. A particular filter can
be either an input filter—one that is used on data (packets) coming in to your network from the Internet—or an
output filter—one that is used on data (packets) going out from your network to the Internet.
A filter set is a group of filters that work together to check incoming or outgoing data. A filter set can consist of
a combination of input and output filters.
How filter sets work
A filter set acts like a team of customs inspectors. Each filter is an inspector through which incoming and
outgoing packages must pass. The inspectors work as a team, but each inspects every package individually.
Each inspector has a specific task. One inspector’s task may be to examine the destination address of all
outgoing packages. That inspector looks for a certain destination—which could be as specific as a street
address or as broad as an entire country—and checks each package’s destination address to see if it matches
that destination.
FROM:
FROM:
FROM:
T
TO:
TO:
A filter inspects data packets like a customs inspector scrutinizing packages.
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Security 8-65
Filter priority
Continuing the customs inspectors analogy, imagine the inspectors lined up to examine a package. If the
package matches the first inspector’s criteria, the package is either rejected or passed on to its destination,
depending on the first inspector’s particular orders. In this case, the package is never seen by the remaining
inspectors.
packet
first
filter
no
match?
send
to next
filter
yes
pass or
discard?
discard
(delete)
pass
to network
If the package does not match the first inspector’s criteria, it goes to the second inspector, and so on. You can
see that the order of the inspectors in the line is very important.
For example, let’s say the first inspector’s orders are to send along all packages that come from Rome, and the
second inspector’s orders are to reject all packages that come from France. If a package arrives from Rome,
the first inspector sends it along without allowing the second inspector to see it. A package from Paris is
ignored by the first inspector, rejected by the second inspector, and never seen by the others. A package from
London is ignored by the first two inspectors, so it’s seen by the third inspector.
In the same way, filter sets apply their filters in a particular order. The first filter applied can pass or discard a
packet before that packet ever reaches any of the other filters. If the first filter can neither pass nor discard the
packet (because it cannot match any criteria), the second filter has a chance to pass or reject it, and so on.
Because of this hierarchical structure, each filter is said to have a priority. The first filter has the highest priority,
and the last filter has the lowest priority.
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8-66 User’s Reference Guide
How individual filters work
As described above, a filter applies criteria to an IP packet and then takes one of three actions:
A filter’s actions
Passes the packet to the local or remote network
Blocks (discards) the packet
Ignores the packet
A filter passes or blocks a packet only if it finds a match after applying its criteria. When no match occurs, the
filter ignores the packet.
A filtering rule
The criteria are based on information contained in the packets. A filter is simply a rule that prescribes certain
actions based on certain conditions. For example, the following rule qualifies as a filter:
Block all Telnet attempts that originate from the remote host 199.211.211.17.
This rule applies to Telnet packets that come from a host with the IP address 199.211.211.17. If a match
occurs, the packet is blocked.
Here is what this rule looks like when implemented as a filter on the Netopia D-Series:
+-#--Source IP Addr--Dest IP Addr-----Proto-Src.Port-D.Port--On?-Fwd-+
+--------------------------------------------------------------------+
| 1 199.211.211.17 0.0.0.0
TCP 23
Yes No |
+--------------------------------------------------------------------+
To understand this particular filter, look at the parts of an IP filter.
Parts of an IP filter
There are two types if filters and filter sets: IP filters and Generic filters. The following discussion applies only to
IP filters and filter sets.
An IP filter consists of criteria based on packet attributes. A typical IP filter can match a packet on any one of
the following attributes:
The source IP address (where the packet was sent from)
The destination IP address (where the packet is going)
The type of higher-layer Internet protocol the packet is carrying, such as TCP or UDP
Port numbers
An IP filter can also match a packet’s port number attributes. The filter can be configured to match the
following:
The source port number (the port on the sending host that originated the packet)
The destination port number (the port on the receiving host that the packet is destined for)
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Security 8-67
By matching on a port number, an IP filter can be applied to selected services, such as Telnet, FTP, and World
Wide Web. The tables below show a few common services and their associated port numbers.
Internet service
FTP
TCP port
Internet service
Finger
TCP port
20/ 21
23
79
80
Telnet
World Wide Web
News
SMTP (mail)
Gopher
25
144
513
70
rlogin
Internet service
UDP port
Internet service
UDP port
Who Is
43
AppleTalk Routing
202
Maintenance (at-rtmp)
World Wide Web
80
AppleTalk Name Binding
(at-nbp)
202
SNMP
TFTP
161
69
AURP (AppleTalk)
who
387
513
Port number comparisons
An IP filter can also use a comparison option to evaluate a packet’s source or destination port number. The
comparison options are:
No Compare: No comparison of the port number specified in the filter with the packet’s port number.
Not Equal To: For the filter to match, the packet’s port number cannot equal the port number specified in the
filter.
Less Than: For the filter to match, the packet’s port number must be less than the port number specified in the
filter.
Less Than or Equal: For the filter to match, the packet’s port number must be less than or equal to the port
number specified in the filter.
Equal: For the filter to match, the packet’s port number must equal the port number specified in the filter.
Greater Than: For the filter to match, the packet’s port number must be greater than the port number specified
in the filter.
Greater Than or Equal: For the filter to match, the packet’s port number must be greater than or equal to the
port number specified in the filter.
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Other filter attributes
There are three other attributes to each filter:
The filter’s order (i.e., priority) in the filter set
Whether the filter is currently active
Whether the filter is set to pass (forward) packets or to block (discard) packets
Putting the parts together
When you display a filter set, its filters are displayed as rows in a table:
+-#---Source IP Addr---Dest IP Addr-----Proto-Src.Port-D.Port--On?-Fwd-+
+----------------------------------------------------------------------+
| 1 192.211.211.17 0.0.0.0
TCP 0
23
Yes No |
| 2 0.0.0.0
0.0.0.0
0.0.0.0
0.0.0.0
0.0.0.0
TCP NC
ICMP --
TCP NC
UDP NC
=6000 Yes No |
| 3 0.0.0.0
--
Yes Yes |
| 4 0.0.0.0
>1023 Yes Yes |
| 5 0.0.0.0
>1023 Yes Yes |
|
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|
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|
|
|
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|
|
|
|
|
|
+----------------------------------------------------------------------+
The table’s columns correspond to each filter’s attributes:
#: The filter’s priority in the set. Filter number 1, with the highest priority, is first in the table.
Source IP Addr: The packet source IP address to match.
Dest IP Addr: The packet destination IP address to match.
Proto: The protocol to match. This can be entered as a number (see the table below) or as TCP or UDP if those
protocols are used.
Protocol
Number to use
Full name
N/ A
ICMP
TCP
0
1
Ignores protocol type
Internet Control Message Protocol
Transmission Control Protocol
User Datagram Protocol
6
UDP
17
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Security 8-69
Src. Port: The source port to match. This is the port on the sending host that originated the packet.
D. Port: The destination port to match. This is the port on the receiving host for which the packet is intended.
On?: Displays Yes when the filter is in effect or No when it is not.
Fwd: Shows whether the filter forwards (Yes) a packet or discards (No) it when there’s a match.
Filtering example #1
Returning to our filtering rule example from above (see page 8-67), look at how a rule is translated into an IP
filter. Start with the rule, then fill in the filter’s attributes:
1. The rule you want to implement as a filter is:
Block all Telnet attempts that originate from the remote host 199.211.211.17.
2. The host 199.211.211.17 is the source of the Telnet packets you want to block, while the destination
address is any IP address.
The Source IP Address Mask and Destination IP Address Mask fields indicate how many bits in the
corresponding address the filter rule applies to.
How these IP addresses are masked determines what the final match will be, although the mask is not
displayed in the table that displays the filter sets (you set it when you create the filter). In fact, since the
mask for the destination IP address is 0.0.0.0, the address for Dest IP Addr could have been anything. The
mask for Source IP Addr must be 255.255.255.255 since an exact match is desired.
Source IP address mask = 255.255.255.255
Dest IP Addr = 0.0.0.0
Destination IP address mask = 0.0.0.0
3. Using the tables on page 8-67, find the destination port and protocol numbers (the Telnet port):
Proto = TCP (or 6)
D. Port = 23
4. The filter should be enabled and instructed to block the Telnet packets containing the source address
shown in step 2:
On? = Yes
Fwd = No
This four-step process is how we produced the following filter from the original rule:
+-#---Source IP Addr---Dest IP Addr-----Proto-Src.Port-D.Port--On?-Fwd-+
+----------------------------------------------------------------------+
| 1 192.211.211.17 0.0.0.0
|
ANY --
--
Yes No |
|
+----------------------------------------------------------------------+
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8-70 User’s Reference Guide
Filtering example #2
Suppose a filter is configured to block all incoming IP packets with the source IP address of 200.233.14.0,
regardless of the type of connection or its destination. The filter would look like this:
+-#---Source IP Addr---Dest IP Addr-----Proto-Src.Port-D.Port--On?-Fwd-+
+----------------------------------------------------------------------+
| 1 200.233.14.0
|
0.0.0.0
ANY --
--
Yes No |
|
+----------------------------------------------------------------------+
This filter blocks any packets coming from a remote network with the IP network address 200.233.14.0. The 0
at the end of the address signifies any host on the class C IP network 200.233.14.0. If, for example, the filter
is applied to a packet with the source IP address 200.233.14.5, it will block it.
In this case, the mask, which does not appear in the table, must be set to 255.255.255.0. This way, all
packets with a source address of 200.233.14.x will be matched correctly, no matter what the final address byte
is.
Note: The protocol attribute for this filter is 0 by default. This tells the filter to ignore the IP protocol or type of
IP packet.
Design guidelines
Careful thought must go into designing a new filter set. You should consider the following guidelines:
Be sure the filter set’s overall purpose is clear from the beginning. A vague purpose can lead to a faulty
set, and that can actually make your network less secure.
Be sure each individual filter’s purpose is clear.
Determine how filter priority will affect the set’s actions. Test the set (on paper) by determining how the
filters would respond to a number of different hypothetical packets.
Consider the combined effect of the filters. If every filter in a set fails to match on a particular packet, the
packet is:
Passed if all the filters are configured to discard (not forward)
Discarded if all the filters are configured to pass (forward)
Discarded if the set contains a combination of pass and discard filters
Disadvantages of filters
Although using filter sets can greatly enhance network security, there are disadvantages:
Filters are complex. Combining them in filter sets introduces subtle interactions, increasing the likelihood
of implementation errors.
Enabling a large number of filters can have a negative impact on performance. Processing of packets will
take longer if they have to go through many checkpoints.
Too much reliance on packet filters can cause too little reliance on other security methods. Filter sets are
not a substitute for password protection, effective safeguarding of passwords, caller ID, the “must match”
option in the answer profile, PAP or CHAP in connection profiles, callback, and general awareness of how
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Security 8-71
your network may be vulnerable.
An approach to using filters
The ultimate goal of network security is to prevent unauthorized access to the network without compromising
authorized access. Using filter sets is part of reaching that goal.
Each filter set you design will be based on one of the following approaches:
“That which is not expressly permitted is prohibited.”
“That which is not expressly prohibited is permitted.”
The first rule is far more secure, and is the best approach to filter design. It is far easier (and more secure) to
allow in or out only certain services and deny anything else. If the other rule is used, you would have to figure
out everything that you want to disallow, now and in the future.
Filtering tutorial
General filtering terms
Filter rule: A filter set is comprised of individual filter rules.
Filter set: A grouping of individual filter rules.
Firewall: A component or set of components that restrict access between a protected network and the Internet,
or between two networks.
Host: A workstation on the network.
Packet: Unit of communication on the Internet.
Packet filter: Packet filters allow or deny packets based on source or destination IP addresses, TCP or UDP
ports, or the TCP ACK bit.
Port: A number that defines a particular type of service.
Basic IP packet components
All IP packets contain the same basic header information, as follows:
Source IP Address
Destination IP Address
Source Port
Destination Port
Protocol
163.176.132.18
163.176.4.27
2541
80
TCP
ACK Bit
Yes
DATA
User Data
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8-72 User’s Reference Guide
This header information is what the packet filter uses to make filtering decisions. It is important to note that an
IP packet filter does not look into the IP data stream (the User Data from above) to make filtering decisions.
Generic filters can look into the data.
Basic protocol types
TCP: Transmission Control Protocol. TCP provides reliable packet delivery and has a retransmission
mechanism (so packets are not lost). RFC 793 is the specification for TCP.
UDP: User Datagram Protocol. Unlike TCP, UDP does not guarantee reliable, sequenced packet delivery. If data
does not reach its destination, UDP does not retransmit the data. RFC 768 is the specification for UDP.
There are many more ports defined in the Assigned Addresses RFC. The tables on page 8-66 show some of
these port assignments.
Filter Logic
Filter design is a test of logic, and filter rule ordering is critical. If a packet is passed through a series of filter
rules and then the packet matches a rule, the appropriate action is taken. The packet will not pass through the
remainder of the filter rules.
For example, if you had the following filter set...
Allow WWW access;
Allow FTP access;
Allow SMTP access;
Deny all other packets.
and a packet goes through these rules destined for FTP, the packet would pass through the first rule (WWW), go
through the second rule (FTP), and match this rule; the packet is allowed through.
If you had this filter set for example....
Allow WWW access;
Allow FTP access;
Deny FTP access;
Deny all other packets.
and a packet goes through these rules destined for FTP, the packet would pass through the first filter rule
(WWW), match the second rule (FTP), and the packet is allowed through. Even though the next rule is to deny all
FTP traffic, the FTP packet will never make it to this rule.
Binary representation
It is easiest when doing filtering to convert the IP address and mask in question to binary. This will allow you to
perform the logical AND to determine whether a packet matches a filter rule.
Logical AND function
When a packet is compared (in most cases) a logical AND function is performed. First the IP addresses and
subnet masks are converted to binary and then combined with AND. The rules for the logical use of AND are as
follows:
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Security 8-73
0 AND 0 = 0
0 AND 1 = 0
1 AND 0 = 0
1 AND 1 = 1
For example:
Filter rule:
Deny
IP: 163.176.1.15BINARY: 10100011.10110000.00000001.00001111
Mask: 255.255.255.255BINARY:11111111.11111111.11111111.11111111
Incoming Packet:
IP 163.176.1.15BINARY: 10100011.10110000.00000001.00001111
If you put the incoming packet and subnet mask together with AND, the result is:
10100011.10110000.00000001.00001111
which matches the IP address in the filter rule and the packet is denied.
Implied rules
With a given set of filter rules, there is an Implied rule that may or may not be shown to the user. The implied
rule tells the filter set what to do with a packet that does not match any of the filter rules. An example of implied
rules is as follows:
Implied
Meaning
Y+Y+Y=N
N+N+N=Y
Y+N+Y=N
If all filter rules are YES, the implied rule is NO.
If all filter rules are NO, the implied rule is YES.
If a mix of YES and NO filters, the implied rule is NO.
Established connections
The TCP header contains one bit called the ACK bit (or TCP Ack bit). This ACK bit appears only with TCP, not
UDP. The ACK bit is part of the TCP mechanism that guaranteed the delivery of data. The ACK bit is set
whenever one side of a connection has received data from the other side. Only the first TCP packet will not have
the ACK bit set; once the TCP connection is in place, the remainder of the TCP packets with have the ACK bit
set.
The ACK bit is helpful for filter design and reduces the number of potential filter rules. A filter rule could be
created just allowing incoming TCP packets with the ACK bit set, since these packets had to be originated from
the local network.
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8-74 User’s Reference Guide
Example IP Filter set screen
This is an example of the Netopia Filter set screen:
Change Input Filter 1
Enabled:
Forward:
Type...
Yes
No
IP
Source IP Address:
Source IP Address Mask:
0.0.0.0
0.0.0.0
Dest. IP Address:
Dest. IP Address Mask:
0.0.0.0
0.0.0.0
Protocol Type:
TCP
Source Port Compare...
Source Port ID:
No Compare
0
Dest. Port Compare...
Dest. Port ID:
Established TCP Conns. Only:
Equal
2000
No
Return/Enter accepts * Tab toggles * ESC cancels.
Enter the packet specific information for this filter.
Filter basics
In the source or destination IP address fields, the IP address that is entered must be the network address of
the subnet. A host address can be entered, but the applied subnet mask must be 32 bits (255.255.255.255).
Example network
Incoming
Packet Filter
Netopia
Internet
DATA
IP: 200.1.1.??
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Security 8-75
Example IP filters
Example 1
Write a filter rule that blocks the class C subnet represented by 200.1.1.0/ 25 from accessing the net.
Filter Rule:
200.1.1.0
(Source IP Network Address)
(Source IP Mask)
255.255.255.128
Forward = No
(What happens on match)
Incoming packet has the source address of 200.1.1.28
To determine if the packet will match on the filter, perform a Boolean AND on the source IP address and the
filter’s source IP mask:
IP Address
Binary Representation of
the last byte of the IP
address
200.1.1.28
AND
00011100
(Source address in incoming IP packet)
255.255.255.128 10000000
00000000
(Perform the logical AND)
(Logical AND result)
This incoming IP packet has a source IP address that matches the network address in the Source IP Address
field (whose last byte is binary 00000000) in the Netopia D-Series. This will not forward this packet.
Example 2
Filter Rule:
200.1.1.0
(Source IP Network Address)
(Source IP Mask)
255.255.255.128
Forward = No
(What happens on match)
Incoming packet has the source address of 200.1.1.184.
IP Address
200.1.1.184
AND
Binary Representation
10111000
(Source address in incoming IP packet)
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8-76 User’s Reference Guide
255.255.255.128 10000000
10000000
(Perform the logical AND)
(Logical AND result)
This incoming IP packet (10000000) has a source IP address that does not match the network address in the
Source IP Address field (00000000) in the Netopia D-Series. This rule will forward this packet because the
packet does not match.
Example 3
Filter Rule:
200.1.1.96
(Source IP Network Address)
(Source IP Mask)
255.255.255.240
Forward = No
(What happens on match)
Incoming packet has the source address of 200.1.1.184.
IP Address
Binary Representation of
last byte
200.1.1.184
AND
10111000
(Source address in incoming IP packet)
255.255.255.240 11110000
10110000
(Perform the logical AND)
(Logical AND result)
Since the Source IP Network Address in the Netopia D-Series’s filter rule is 01100000 (=96 decimal), and the
source IP address after the logical AND is 1011000, this rule does not match and this packet will be passed.
Example 4
Filter Rule:
200.1.1.96
(Source IP Network Address)
(Source IP Mask)
255.255.255.240
Forward = No
(What happens on match)
Incoming packet has the source address of 200.1.1.104.
IP Address
200.1.1.104
AND
Binary Representation
01101000
(Source address in incoming IP packet)
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Security 8-77
255.255.255.240 11110000
01100000
(Perform the logical AND)
(Logical AND result)
Since the Source IP Network Address in the Netopia D-Series’s filter rule is 01100000 (=96 decimal), and the
source IP address after the logical AND is 01100000, this rule does match and this packet will not be passed.
Example 5
Filter Rule:
200.1.1.96
(Source IP Network Address)
(Source IP Mask)
255.255.255.255
Forward = No
(What happens on match)
Incoming packet has the source address of 200.1.1.96.
IP Address
200.1.1.96
AND
Binary Representation
01100000
(Source address in incoming IP packet)
255.255.255.255 11111111
01100000
(Perform the logical AND)
(Logical AND result)
Since the Source IP Network Address in the Netopia D-Series is 01100000, and the source IP address after the
logical AND is 01100000, this rule does match and this packet will NOT be passed. This rule masks off a
single IP address.
Working with Filters and filter sets
This section covers Filters and filter sets.
Configuration
Menu
Filter
Sets
To work with filters and filter sets, begin by accessing the filter set screens.
Note: Make sure you understand how filters work before attempting to use them. Read the section “About
filters and filter sets,” beginning on page 8-64.
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8-78 User’s Reference Guide
Filter Sets
Add Filter Set...
Display/Change Filter Set...
Delete Filter Set...
Return/Enter to modify an existing Filter Set.
Set Up IP Filter Sets (Firewalls) from this and the following Menus.
The procedure for creating and maintaining filter sets is as follows:
1. Add a new filter set.
2. Create the filters for the new filter set.
3. View, change, or delete individual filters and filter sets.
The following sections explain how to execute these steps.
Adding a filter set
You can create up to 255 filter rules. You can use them in any combination of input or output in up to eight filter
sets.
To add a new filter set, select Add Filter Set in the Filter Sets screen and press Return. The Add Filter Set
screen appears.
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Security 8-79
Add Filter Set...
Filter Set 1
Filter Set Name:
ADD FILTER SET
CANCEL
Configure the Filter Set name and its associated Filters.
Naming a new filter set
All new filter sets have a default name. The first filter set you add will be called Filter Set 1, the next filter will be
Filter Set 2, and so on.
To give a new filter set a different name, select Filter Set Name and enter a new name for the filter set.
To save the filter set, select ADD FILTER SET. The saved filter set is empty (contains no filters), but you can
return to it later to add filters (see “Modifying filter sets” on page 8-85). Or you can add filters to your new set
before saving it (see “Adding filters to a filter set” on page 8-80).
To leave the Add Filter Set screen without saving the new filter set Select CANCEL. You are returned to the Filter
Sets screen.
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8-80 User’s Reference Guide
Input and output filters—source and destination
There are two kinds of filters you can add to a filter set: input and output. Input filters check packets received
from the Internet, destined for your network. Output filters check packets transmitted from your network to the
Internet.
packet
input filter
LAN
WAN
packet
output filter
The Netopia D7100
Packets in the Netopia D-Series pass through an input filter if they originate in the WAN and through an output filter if they’re
being sent out to the WAN.
The process for adding input and output filters is exactly the same. The main difference between the two
involves their reference to source and destination. From the perspective of an input filter, your local network is
the destination of the packets it checks, and the remote network is their source. From the perspective of an
output filter, your local network is the source of the packets, and the remote network is their destination.
Type of filter
“Source” means
“Destination” means
Input filter
The remote network
The local network
The local network
Output filter
The remote network
Adding filters to a filter set
In this section you’ll learn how to add an input filter to a filter set. Adding an output filter works exactly the same
way, providing you keep the different source and destination perspectives in mind.
To add an input filter, navigate to the Display/ Change Filter Set screen and select Display/ Change Filter Set.
System
Configuration
Display/ Change
Filter Set
Main
Menu
Filter
Sets
A popup menu displays a list of the filter sets you have created.
Select the one you want to edit.
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Security 8-81
The Display/ Change Filter Set screen appears.
Display/Change Filter Set...
Filter Set 1
Filter Set Name:
Add Input Filter to Filter Set...
Display/Change Input Filter...
Delete Input Filter...
Move Input Filter...
Add Output Filter to Filter Set...
Display/Change Output Filter...
Delete Output Filter...
Move Output Filter...
To add an input filter, select Add Input Filter to Filter Set.
The Add Filter screen appears. (To add an output filter, select Add Output Filter.)
Add Filter
Enabled:
Forward:
Type...
Yes
No
IP
Source IP Address:
Source IP Address Mask:
0.0.0.0
0.0.0.0
Dest. IP Address:
Dest. IP Address Mask:
0.0.0.0
0.0.0.0
Protocol Type:
UDP
Source Port Compare...
Source Port ID:
No Compare
0
Dest. Port Compare...
Dest. Port ID:
No Compare
0
ADD THIS FILTER NOW
CANCEL
Return/Enter to set comparison of packet Port ID and Filter Port ID.
Enter the IP specific information for this filter.
1. To make the filter active in the filter set, select Enabled and toggle it to Yes. If Enabled is toggled to No, the
filter can still exist in the filter set, but it will have no effect.
2. If you want the filter to forward packets that match its criteria to the destination IP address, select Forward
and toggle it to Yes. If Forward is toggled to No, packets matching the filter’s criteria will be discarded.
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8-82 User’s Reference Guide
3. Select Type. A popup menu offers the option of either IP or Generic. If you choose IP, continue with the next
step. If you choose Generic filtering, skip to the section “Generic filters” on page 8-86.
Warning: Changing the filter Type clears the filter values if any were previously entered.
4. Select Source IP Address and enter the source IP address this filter will match on. You can enter a subnet
or a host address.
5. Select Source IP Address Mask and enter a mask for the source IP address. This allows you to further
modify the way the filter will match on the source address. Enter 0.0.0.0 to force the filter to match on all
source IP addresses, or enter 255.255.255.255 to match the source IP address exclusively.
6. Select Dest. IP Address and enter the destination IP address this filter will match on. You can enter a
7. Select Dest. IP Address Mask and enter a mask for the destination IP address. This allows you to further
modify the way the filter will match on the destination address. Enter 0.0.0.0 to force the filter to match on
all destination IP addresses.
8. Select Protocol Type and enter ICMP, TCP, UDP, Any, or the number of another IP transport protocol (see
Note: If Protocol Type is set to TCP or UDP, the settings for port comparison that you configure in steps 9.
and 10. will appear. These settings only take effect if the Protocol Type is TCP or UDP.
9. Select Source Port Compare and choose a comparison method for the filter to use on a packet’s source
port number. Then select Source Port ID and enter the actual source port number to match on (see the
table on page 8-67).
10. Select Dest. Port Compare and choose a comparison method for the filter to use on a packet’s destination
port number. Then select Dest. Port ID and enter the actual destination port number to match on (see the
table on page 8-67).
11. When you are finished configuring the filter, select ADD THIS FILTER NOW to save the filter in the filter set.
Select CANCEL to discard the filter and return to the Add Filter Set screen.
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Security 8-83
Moving filters
The Move Input/ Output Filter permits reordering of rules in a filter set.
+#----Source IP Addr---Dest IP Addr-----Proto-Src.Port-D.Port--On?-Fwd-+
+----------------------------------------------------------------------+
| 1
| 2
| 3
| 4
| 5
|
1.1.1.1
0.0.0.0
ANY --
--
No
--
--
--
Yes No |
000000000000
4.4.4.4
000000000000
0.0.0.0
0
=
Yes No |
ANY --
ANY --
ANY --
Yes No |
3.3.3.3
5.5.5.5
0.0.0.0
0.0.0.0
Yes No |
Yes No |
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
|
+----------------------------------------------------------------------+
Arrows move filter. RETURN/ENTER to accept new filter location. ESC aborts.
All operations are done from a single popup.
In the Display/ Change Filter Set screen, select Move Input Filter (or Move Output Filter). A selection mode
popup appears. In this mode you scroll to the rule you want to move and press Return on a rule to select it
for moving.
The help text tells you what is expected.
After pressing Return you are in Move mode. Arrow keys move the selected rule up or down. When you
press Return again the rule is put in the new location permanently and the popup is dismissed. You can
press Escape at any time in the popup to abort the move and restore the filter set to its original ordering.
Viewing filters
To display a view-only table of input (output) filters, select Display/ Change Input Filter or Display/ Change
Output Filter in the Display/ Change Filter Set screen.
Modifying filters
To modify a filter, select Display/ Change Input Filter or Display/ Change Output Filter in the Display/ Change
Filter Set screen to display a table of filters.
Select a filter from the table and press Return. The Change Filter screen appears. The parameters in this
screen are set in the same way as the ones in the Add Filter screen (see “Adding filters to a filter set” on
page 8-80).
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8-84 User’s Reference Guide
Change Filter
Enabled:
Forward:
No
No
Source IP Address:
Source IP Address Mask:
0.0.0.0
0.0.0.0
Dest. IP Address:
Dest. IP Address Mask:
0.0.0.0
0.0.0.0
Protocol Type:
0
Source Port Compare...
Source Port ID:
Dest. Port Compare...
Dest. Port ID:
No Compare
0
No Compare
0
Enter the IP specific information for this filter.
Deleting filters
To delete a filter, select Delete Input Filter or Delete Output Filter in the Add Filter Set screen to display a table
of filters.
Select the filter from the table and press Return to delete it. Press Escape to exit the table without deleting the
filter.
Viewing filter sets
To display a view-only list of filter sets, select Display/ Change Filter Set in the Filter Sets screen.
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Modifying filter sets
To modify a filter set, select Display/ Change Filter Set in the Filter Sets screen to display a list of filter sets.
Select a filter set from the list and press Return. The Change Filter Set screen appears. The items in this
screen are the same as the ones in the Add Filter screen (see “Adding filters to a filter set” on page 8-80).
Display/Change Filter Set...
Filter Set Name:
Filter Set 1
Add Input Filter to Filter Set...
Display/Change Input Filter...
Delete Input Filter...
Move Input Filter...
Add Output Filter to Filter Set...
Display/Change Output Filter...
Delete Output Filter...
Move Output Filter...
Deleting a filter set
Note: If you delete a filter set, all of the filters it contains are deleted as well. To reuse any of these filters in
another set, before deleting the current filter set you’ll have to note their configuration and then recreate them.
To delete a filter set, select Delete Filter Set in the Filter Sets screen to display a list of filter sets.
Select a filter set from the list and press Return to delete it. Press Escape to exit the list without deleting the
filter set.
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8-86 User’s Reference Guide
Generic filters
If you chose Generic filtering in step 3. on page 8-82, the Add Filter screen changes as shown:
Add Filter
Enabled:
Forward:
Type...
Yes
No
Generic
Value:
Mask:
Offset:
000000000000
000000000000
0
Compare:
Equal
No
Chain to Next Filter:
ADD THIS FILTER NOW
CANCEL
Enter the IP specific information for this filter.
Note: Generic filters are more complicated to use than IP filters. If you plan to filter only IP traffic, we
recommend that you use IP filters instead.
Generic filters are performed on packets as a whole, after layer 2 encapsulation is removed (ATM-FUNI or Frame
Relay). You configure them in much the same way as the IP version.
The Value and Mask fields can be 8 bytes in length, two characters per byte, so for example a MAC
address is 6 bytes: 00-00-C5-60-34-74.
The Value, Mask, and Offset are used together to determine if the packet matches the filter. The Value is
logically ANDed with the Mask; the Offset specifies the number of bytes into the packet where the Value
ANDed with the Mask must be present. If these match, the filter matches the packet.
Several Generic Filters can be ANDed together by toggling Chain to Next Filter to Yes. In this case all the
filters chained must match the packet, and the last filter in the chain determines the Forwarding decision.
The Compare field works as it does in the Filter version
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Security 8-87
About generic filters
One of the more difficult aspects of writing Generic filter sets is determining how many bytes into the packet
(the Offset) the value you want to test is. In order to find the Offset value a good understanding of packet
formats is helpful. The following figure depicts a typical packet format structure for purposes of this example.
Destination
Address
Source
Frame Type
Frame Data
64 - 1500 octets
2
CRC
4 octets
3
Address
6 octets
6 octets
2 octets
0
1
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|Version| IHL |Type of Service|
Total Length
|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Identification |Flags| Fragment Offset
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Time to Live | Protocol | Header Checksum
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Source Address
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Destination Address
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Options Padding
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
|
|
|
|
|
|
|
|
|
|
data
|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
IP Header Format
Note that one tick mark represents one bit position.
0
1
2
3
0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
Source Port
|
Destination Port
|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Sequence Number
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Acknowledgment Number
|
|
|
|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
| Data |
| Offset| Reserved |R|C|S|S|Y|I|
|G|K|H|T|N|N|
|U|A|P|R|S|F|
|
|
|
Window
|
|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
Checksum
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
Options Padding
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
|
Urgent Pointer
|
|
|
|
|
data
|
+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+
TCP Header Format
Note that one tick mark represents one bit position.
Observe that the first six bytes of the packet (frame) are used to indicate the destination MAC address and the
next six are used define the source MAC address. So, for example, to write a Generic filter set that would block
all incoming traffic to Mac address 00-00-c8-e3-95 you could create a filter rule like this:
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8-88 User’s Reference Guide
Add Input Filter
Enabled:
Forward:
Type...
Yes
No
Generic
Value:
Mask:
Offset:
0000C8E395000000
FFFFFFFFFF000000
6
Compare:
Equal
No
Chain to Next Filter:
ADD THIS FILTER NOW
CANCEL
Enter the packet specific information for this filter.
Note the Offset is set to look at a value six bytes into the packet, the Value is 0000C8E395000000 and
the Mask is set to match only the hexidecimal digits we're interested in -- the ones that represent the MAC
address.
The next item that's commonly evaluated in a Generic filter is the frame type. The frame type is located at
an offset of twelve bytes. For IP packets it has a value of 0800 (hex) and for ARP the value is 0806 (hex).
So a filter set summary to block all incoming IP and ARP packets looks like this:
+-#----Value-------------Mask--------------Offst-Compare--Chain---On?-Fwd-+
+-------------------------------------------------------------------------+
| 1
| 2
|
0800000000000000 FFFF000000000000 12
0806000000000000 FFFF000000000000 12
=
=
No
No
Yes No |
Yes No |
|
|
|
A filter set blocking all incoming IPX requires two filter rules. One to verify the byte with offset of 12 bytes is
less than 600 (hex) ANDed (chained with) a filter that verifies the byte offset by 14 is not equal to FFFF.
The filter set should look like this (with the first filter rule's chain field set to “Yes” because the packet has
to match both rules to be qualified as an IPX packet.)
+-#----Value-------------Mask--------------Offst-Compare--Chain---On?-Fwd-+
+-------------------------------------------------------------------------+
| 1
| 2
|
0600000000000000 FFFF000000000000 12
FFFF000000000000 FFFF000000000000 14
<
=
Yes
No
Yes
|
Yes No |
|
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The following example further illustrates filter rule chaining, different sized masks and the full 8 bytes of the
Value field.
Create a filter set designed to block telnet access from a given external node (the example below uses
176.163.52.18) to a given internal node (176.163.107.254).
The filter rule summary (input) should look like this:
+-#----Value-------------Mask--------------Offst-Compare--Chain---On?-Fwd-+
+-------------------------------------------------------------------------+
| 1
| 2
| 3
| 4
| 5
|
0500000000000000 0F00000000000000 14
0800000000000000 FFFF000000000000 12
0600000000000000 FF00000000000000 23
B0A33412B0A3B0FE FFFFFFFFFFFFFFFF 26
0017000000000000 FFFF000000000000 36
=
=
=
=
=
No
Yes No |
Yes
Yes
Yes
No
Yes
Yes
Yes
|
|
|
Yes No |
|
Filter #1 checks that the IHL has a size of 5. This is a useful security check to verify a potential hacker has
not padded the packet with options that would then throw off following filter rule checks on bytes further
into the packet.
Filter #2 checks the incoming packet is IP.
Filter #3 checks that the packet is using TCP.
Filter #4 simultaneously checks the source IP address is 176.163.52.18 (= B0A33412 in hex) and the
destination IP address is 176.163.107.254 (= B0A3B0FE in hex).
Filter #5 checks the TCP port address is telnet (= 23 decimal = 17 hex).
Note: This filter set is presented only to illustrate how Generic filtering works. You are strongly advised to
actually use IP filters to block IP only traffic.
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8-90 User’s Reference Guide
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Utilities and Diagnostics 9-91
Chapter 9
“Factory defaults” on page 9-96
“Transferring configuration and firmware files with XMODEM” on page 9-99
“Restarting the system” on page 9-102
Note: These utilities and tests are accessible only through the console-based management screens. See
Chapter 5, “Console-Based Management,” for information on accessing the console-based management
screens.
You access the Utilities & Diagnostics screens from the Main Menu.
Utilities & Diagnostics
Ping...
Trace Route...
Telnet...
Disconnect Telnet Console Session...
Trivial File Transfer Protocol (TFTP)...
X-Modem File Transfer...
Revert to Factory Defaults...
Restart System...
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9-92 User’s Reference Guide
Ping
The Netopia D-Series includes a standard Ping test utility. A Ping test generates IP packets destined for a
particular (Ping-capable) IP host. Each time the target host receives a Ping packet, it returns a packet to the
original sender.
Ping allows you to see whether a particular IP destination is reachable from the Netopia D-Series. You can also
ascertain the quality and reliability of the connection to the desired destination by studying the Ping test’s
statistics.
In the Utilities & Diagnostic screen, select Ping and press Return. The ICMP Ping screen appears.
ICMP Ping
Name of Host to Ping:
Packets to Send:
Data Size:
5
56
1
Delay (seconds):
START PING
Status:
Packets Out:
Packets In:
Packets Lost:
Round Trip Time
(Min/Max/Avg):
0
0
0 (0%)
0.000 / 0.000 / 0.000 secs
Enter the IP Address/Domain Name of a host to ping.
Send ICMP Echo Requests to a network host.
To configure and initiate a Ping test, follow these steps:
1. Select Name of Host to Ping and enter the destination domain name or IP address.
2. Select Packets to Send to change the default setting. This is the total number of packets to be sent during
the Ping test. The default setting is adequate in most cases, but you can change it to any value from 1 to
4,294,967,295.
3. Select Data Size to change the default setting. This is the size, in bytes, of each Ping packet sent. The
default setting is adequate in most cases, but you can change it to any value from 0 (only header data) to
1664.
4. Select Delay (seconds) to change the default setting. The delay, in seconds, determines the time between
Ping packets sent. The default setting is adequate in most cases, but you can change it to any value from
0 to 4,294,967. A delay of 0 seconds forces packets to be sent immediately, one after another.
5. Select START PING and press Return to begin the Ping test. While the test is running, the START PING
item becomes STOP PING. To manually stop the Ping test, select STOP PING and press Return or Escape.
While the Ping test is running and when it is over, a status field and a number of statistical items are active on
the screen. These are described below.
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Status: The current status of the Ping test. This item can display the status messages shown in the table
below:
Message
Description
Resolving host name
Can’t resolve host name
Pinging
Finding the IP address for the domain name-style address
IP address can’t be found for the domain name–style name
Ping test is in progress
Complete
Ping test was completed
Cancelled by user
Ping test was cancelled manually
Destination unreachable from
w.x.y.z
Ping test was able to reach the router with IP address w.x.y.z, which
reported that the test could not reach the final destination
Couldn’t allocate packet buffer
Couldn’t open ICMP port
Couldn’t proceed with Ping test; try again or reset system
Couldn’t proceed with Ping test; try again or reset system
Packets Out: The number of packets sent by the Ping test.
Packets In: The number of return packets received from the target host. To be considered “on time,” return
packets are expected back before the next packet in the sequence of Ping packets is sent. A count of the
number of late packets appears in parentheses to the right of the Packets In count.
In the example that follows, a Netopia D-Series is sending Ping packets to another host, which responds with
return Ping packets. Note that the second return Ping packet is considered to be late because it is not received
by the Netopia D-Series before the third Ping packet is sent. The first and third return Ping packets are on time.
time
send Ping packet 1
Netopia
receive Ping packet 1
host
host
send return Ping packet 1
receive return Ping packet 1
Netopia
Netopia
send Ping packet 2
receive Ping packet 2
send return Ping packet 2
host
host
send Ping packet 3
Netopia
Netopia
receive return Ping packet 2
receive Ping packet 3
host
host
send return Ping packet 3
receive return Ping packet 3
Netopia
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9-94 User’s Reference Guide
Packets Lost: The number of packets unaccounted for, shown in total and as a percentage of total packets
sent. This statistic may be updated during the Ping test, and may not be accurate until after the test is over.
However, if an escalating one-to-one correspondence is seen between Packets Out and Packets Lost, and
Packets In is noticeably lagging behind Packets Out, the destination is probably unreachable. In this case, use
STOP PING.
Round Trip Time (Min/ Max/ Avg): Statistics showing the minimum, maximum, and average number of
seconds elapsing between the time each Ping packet was sent and the time its corresponding return Ping
packet was received.
The time-to-live (TTL) value for each Ping packet sent by the Netopia D-Series is 255, the maximum allowed. The
TTL value defines the number of IP routers that the packet can traverse. Ping packets that reach their TTL value
are dropped, and a “destination unreachable” notification is returned to the sender (see the table on the
previous page). This ensures that no infinite routing loops occur. The TTL value can be set and retrieved using
the SNMP MIB-II ip group’s ipDefaultTTL object.
Trace Route
You can count the number of routers between your Netopia D-Series and a given destination with the Trace
Route utility.
In the Statistics & Diagnostics screen, select Trace Route and press Return. The Trace Route screen appears.
Trace Route
Host Name or IP Address:
Maximum Hops:
Timeout (seconds):
30
5
Use Reverse DNS:
Yes
START TRACE ROUTE
Enter the IP Address/Domain Name of a host.
Trace route to a network host.
To trace a route, follow these steps:
1. Select Host Name or IP Address and enter the name or address of the destination you want to trace.
2. Select Maximum Hops to set the maximum number of routers to count between the Netopia D-Series and
the destination router, up to the maximum of 64. The default is 30 hops.
3. Select Timeout (seconds) to set when the trace will timeout for each hop, up to 10 seconds. The default is
3 seconds.
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Utilities and Diagnostics 9-95
4. Select Use Reverse DNS to learn the names of the routers between the Netopia D-Series and the
destination router. The default is Yes.
5. Select START TRACE ROUTE and press Return. A scrolling screen will appear that lists the destination,
number of hops, IP addresses of each hop, and DNS names, if selected.
6. Cancel the trace by pressing Escape. Return to the Trace Route screen by pressing Escape twice.
Telnet client
The Telnet client mode replaces the normal menu mode. Telnet sessions can be cascaded, that is, you can
initiate a Telnet client session when using a Telnet console session. To activate the Telnet client, select Telnet
from the Utilities & Diagnostics menu.
The Telnet client screen appears.
Telnet
Host Name or IP Address:
Control Character to Suspend:
Q
START A TELNET SESSION
Enter the IP Address/Domain Name of a host.
Enter the host name or the IP address in dotted decimal format of the machine you want to telnet into and
press Return.
Either accept the default control character “Q” used to suspend the Telnet session, or type a different one.
START A TELNET SESSION becomes highlighted.
Press Return and the Telnet session will be initiated.
To suspend the session, press Control-Q, or whatever other control character you specified.
Two new options will appear in the Telnet screen (not shown):
Resume Suspended Session – select this one if you want to go back to your Telnet session
Terminate Suspended Session – select this one if you want to end the session
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9-96 User’s Reference Guide
Disconnect Telnet console session
If you want to close your Telnet Console session, select Disconnect Telnet Console Session and press Return.
A dialog box appears asking you to cancel or continue your selection.
Utilities & Diagnostics
+------------------------------------------------------+
+------------------------------------------------------+
|
|
| Are you sure you want to close this Console Session? |
|
|
|
|
|
|
|
|
CANCEL
CONTINUE
+------------------------------------------------------+
X-Modem File Transfer...
Revert to Factory Defaults...
Restart System...
If you select Continue, you will immediately terminate your session.
Factory defaults
You can reset the Netopia D-Series to its factory default settings. In the Utilities & Diagnostics screen, select
Revert to Factory Defaults and press Return. Select CONTINUE in the dialog box and press Return. The
Netopia D-Series will reboot and its settings will return to the factory defaults, deleting your configurations.
If you lose your password and are unable to access the console screens, you can manually reset the Netopia
D-Series in an emergency. See “How to reset the Netopia D-Series to factory defaults,” in Appendix A, “Trouble-
shooting.”
Note: Reset to factory defaults with caution. You will need to reconfigure all of your settings in the Netopia
D-Series.
Transferring configuration and firmware files with TFTP
Trivial File Transfer Protocol (TFTP) is a method of transferring data over an IP network. TFTP is a client-server
application, with the Netopia D-Series as the client. To use the Netopia D-Series as a TFTP client, a TFTP server
must be available. Netopia, Inc. has a public access TFTP server on the Internet where you can obtain the latest
firmware versions.
To use TFTP, select Trivial File Transfer Protocol (TFTP) in the Statistics & Diagnostics screen and press
Return. The Trivial File Transfer Protocol (TFTP) screen appears.
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Utilities and Diagnostics 9-97
Trivial File Transfer Protocol (TFTP)
TFTP Server Name:
Firmware File Name:
GET ROUTER FIRMWARE FROM SERVER...
GET WAN MODULE FIRMWARE FROM SERVER...
Config File Name:
GET CONFIG FROM SERVER...
SEND CONFIG TO SERVER...
TFTP Transfer State -- Idle
TFTP Current Transfer Bytes -- 0
The sections below describe how to update the Netopia D-Series’s firmware and how to download and upload
configuration files.
Updating firmware
Firmware updates may be available periodically from Netopia or from a site maintained by your organization’s
network administrator.
There are two types of firmware in the Netopia D-Series DSL DSU: router firmware and WAN module firmware.
The router firmware governs how the Netopia D-Series communicates with your network and the WAN module;
the WAN module firmware governs how the WAN module communicates with the remote site. WAN module
firmware is included on your CustomerCare CD for XMODEM transfer and later updates will be available on the
Netopia website. Router firmware updates are also periodically posted on the Netopia website.
To update either the Netopia D-Series’s or the internal WAN module’s firmware, follow these steps:
Select TFTP Server Name and enter the server name or IP address of the TFTP server you will use. The
server name or IP address is available from the site where the server is located.
Select Firmware File Name and enter the name of the file you will download. The name of the file is
available from the site where the server is located. You may need to enter a file path along with the file
name (for example, bigroot/ config/ myfile).
Select GET ROUTER FIRMWARE FROM SERVER or GET WAN MODULE FIRMWARE FROM SERVER and
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9-98 User’s Reference Guide
press Return. You will see the following dialog box:
+-----------------------------------------------------------+
+-----------------------------------------------------------+
|
|
|
|
|
|
|
|
Are you sure you want to read the firmware now?
The device will reset when the transfer is complete. |
|
CANCEL
CONTINUE
|
|
+-----------------------------------------------------------+
Select CANCEL to exit without downloading the file, or select CONTINUE to download the file. The system
will reset at the end of the file transfer to put the new firmware into effect. While the system resets, the
LEDs will blink on and off.
Caution!
Be sure the firmware update you load onto your Netopia D-Series is the correct version for your particular
model. Some models do not support all firmware versions. Loading an incorrect firmware version can
permanently damage the unit.
Do not manually power down or reset the Netopia D-Series while it is automatically resetting or it could be
damaged.
If you choose to download the firmware, the TFTP Transfer State item will change from Idle to Reading
Firmware. The TFTP Current Transfer Bytes item will reflect the number of bytes transferred.
Downloading configuration files
The Netopia D-Series can be configured by downloading a configuration file using TFTP. Once downloaded, the
file reconfigures all of the Netopia D-Series’s parameters as if someone had manually done so through the
console port.
To download a configuration file, follow these steps:
Select TFTP Server Name and enter the server name or IP address of the TFTP server you will use. The
server name or IP address is available from the site where the server is located.
Select Config File Name and enter the name of the file you will download. The name of the file is available
from the site where the server is located. You may need to enter a file path along with the file name (for
example, bigroot/ config/ myfile).
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Select GET CONFIG FROM SERVER and press Return. You will see the following dialog box:
+-----------------------------------------------------------+
+-----------------------------------------------------------+
|
|
|
|
|
|
|
Are you sure you want to read the configuration now? |
The device will reset when the transfer is complete. |
|
CANCEL
CONTINUE
|
|
+-----------------------------------------------------------+
Select CANCEL to exit without downloading the file, or select CONTINUE to download the file. The system
will reset at the end of the file transfer to put the new configuration into effect.
If you choose to download the configuration file, the TFTP Transfer State item will change from Idle to
Uploading configuration files
Using TFTP, you can send a file containing a snapshot of the Netopia D-Series’s current configuration to a TFTP
server. The file can then be downloaded by a different Netopia D-Series unit to configure its parameters (see
“Downloading configuration files” on page 9-98). This is useful for configuring a number of routers with identical
parameters, or just for creating configuration backup files.
Uploading a file can also be useful for troubleshooting purposes. The uploaded configuration file can be tested
on a different Netopia D-Series unit by Netopia or your network administrator.
To upload a configuration file, follow these steps:
1. Select TFTP Server Name and enter the server name or IP address of the TFTP server you will use. The
server name or IP address is available from the site where the server is located.
2. Select Config File Name and enter a name for the file you will upload. The file will appear with the name you
choose on the TFTP server. You may need to enter a file path along with the file name (for example,
Mypc/ Netopia/ myfile).
3. Select SEND CONFIG TO SERVER and press Return. Netopia will begin to transfer the file.
4. The TFTP Transfer State item will change from Idle to Writing Config. The TFTP Current Transfer Bytes
item will reflect the number of bytes transferred.
Transferring configuration and firmware files with XMODEM
You can transfer configuration and firmware files with XMODEM through the Netopia D-Series’s console port. Be
sure your terminal emulation program supports XMODEM file transfers.
To go to the X-Modem File Transfer screen, select it in the Utilities & Diagnostics menu.
Note: The X-Modem File Transfer screen is only available if you are connected via the Console port.
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X-Modem File Transfer
Send Firmware to Netopia...
Send Config to Netopia...
Receive Config from Netopia...
Send Firmware to Netopia WAN module...
WAN module Firmware Status:
IDLE
Updating firmware
Firmware updates may be available periodically from Netopia or from a site maintained by your organization’s
network administration. The procedure below applies whether you are using the console or the WAN interface
module.
Follow these steps to update the Netopia D-Series’s firmware:
1. Make sure you have the firmware file on disk and know the path to its location.
2. Select Send Firmware to Netopia (or Send Firmware to Netopia WAN module) and press Return. The
following dialog box appears:
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
|
|
|
| Are you sure you want to send a firmware file to your Netopia?
| If so, when you hit Return/Enter on the CONTINUE button, you will |
| have 10 seconds to begin the transfer from your terminal program. |
|
|
|
|
|
|
CANCEL
CONTINUE
+--------------------------------------------------------------------+
3. Select CANCEL to exit without downloading the file, or select CONTINUE to download the file.
If you choose CONTINUE, you will have ten seconds to use your terminal emulation software to initiate an
XMODEM transfer of the firmware file. If you fail to initiate the transfer in that time, the dialog box will
disappear and the terminal emulation software will inform you of the transfer’s failure. You can then try
again.
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The system will reset at the end of a successful file transfer to put the new firmware into effect. While the
system resets, the LEDs will blink on and off.
Caution!
Do not manually power down or reset the Netopia D-Series while it is automatically resetting or it could be
damaged.
Downloading configuration files
The Netopia D-Series can be configured by downloading a configuration file. The downloaded file reconfigures all
of the Netopia D-Series’s parameters.
Configuration files are available from a site maintained by your organization’s network administrator or from
your local site (see “Uploading configuration files,” below).
Follow these steps to download a configuration file:
1. Make sure you have the configuration file on disk and know the path to its location.
2. Select Send Config to Netopia and press Return. The following dialog box appears:
+--------------------------------------------------------------------+
+--------------------------------------------------------------------+
|
|
|
| Do you want to send a saved configuration to your Netopia?
| If so, when you hit Return/Enter on the CONTINUE button, you will |
| have 10 seconds to begin the transfer from your terminal program. |
|
|
|
|
|
|
CANCEL
CONTINUE
+--------------------------------------------------------------------+
3. Select CANCEL to exit without downloading the file, or select CONTINUE to download the file.
If you choose CONTINUE, you will have ten seconds to use your terminal emulation software to initiate an
XMODEM transfer of the configuration file. If you fail to initiate the transfer in that time, the dialog box will
disappear and the terminal emulation software will inform you of the transfer’s failure. You can then try
again.
The system will reset at the end of a successful file transfer to put the new configuration into effect.
Uploading configuration files
A file containing a snapshot of the Netopia D-Series’s current configuration can be uploaded from the Netopia
D-Series to disk. The file can then be downloaded by a different Netopia D-Series to configure its parameters
(see “Downloading configuration files,” above). This is useful for configuring a number of routers with identical
parameters or for creating configuration backup files.
Uploading a file can also be useful for troubleshooting purposes. The uploaded configuration file can be tested
on a different Netopia D-Series by Netopia or your network administrator.
The procedure below applies whether you are using the console or the WAN interface. To upload a configuration
file:
1. Decide on a name for the file and a path for saving it.
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2. Select Receive Config from Netopia and press Return. The following dialog box appears:
+--------------------------------------------------------------------+
|
|
| Are you sure you want to save your current Netopia configuration? |
| If so, when you hit Return/Enter on the CONTINUE button, you will |
| have 10 seconds to begin the transfer from your terminal program. |
|
|
|
|
|
|
CANCEL
CONTINUE
+--------------------------------------------------------------------+
3. Select CANCEL to exit without uploading the file, or select CONTINUE to upload the file.
If you choose CONTINUE, you will have ten seconds to use your terminal emulation software to initiate an
XMODEM transfer of the configuration file. If you fail to initiate the transfer in that time, the dialog box will
disappear and the terminal emulation software will inform you of the transfer’s failure. You can then try
again.
Restarting the system
You can restart the system by selecting the Restart System item in the Utilities & Diagnostics screen.
You must restart the system whenever you reconfigure the Netopia D-Series and want the new parameter values
to take effect. Under certain circumstances, restarting the system may also clear up system or network
malfunctions. Some configuration processes automatically restart the system to apply the changes you have
made.
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Part III: Appendixes
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User’s Reference Guide
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Troubleshooting A-105
Appendix A
Troubleshooting
This appendix is intended to help you troubleshoot problems you may encounter while setting up and using the
Netopia D-Series. It also includes information on how to contact Netopia Technical Support.
Important information on these problems can be found in the event histories kept by the Netopia D-Series.
“Configuration problems” on page A-105
“How to reset the Netopia D-Series to factory defaults” on page A-107
“Power outages” on page A-107
“Technical support” on page A-108
Configuration problems
If you encounter problems during your initial configuration process, review the following suggestions before
calling for technical support. There are four zones to consider when troubleshooting initial configuration:
1. The computer’s connection to the Netopia D-Series
2. The Netopia D-Series’s connection to the telecommunication line(s)
3. The telecommunication line’s connection to your ISP
4. The ISP’s connection to the Internet
If the connection from the computer to the Netopia D-Series was not successful, verify that the following
conditions are in effect:
The Netopia D-Series is turned on.
An Ethernet cable connects your PC’s Ethernet card or built-in Ethernet port to the Netopia D-Series.
Telnet is available on your PC or Macintosh. (On a PC, it must be specified in your system path. You can
usually find the application as “c:\ windows\ telnet.exe”.)
Your PC or Macintosh is properly configured for TCP/ IP.
Your PC or Macintosh has an IP address.
Your PC or Macintosh has a subnet mask that matches or is compatible with the Netopia D-Series’s subnet
mask.
Note: If you are attempting to modify the IP address or subnet mask from a previous, successful configuration
attempt, you will need to clear the IP address or reset your Netopia D-Series to the factory default before
reinitiating the configuration process. For further information on resetting your Netopia D-Series to factory
default, see “Factory defaults” on page 9-96.
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A-106 User’s Reference Guide
Console connection problems
Can’t see the configuration screens (nothing appears)
Make sure the cable connection from the Netopia D-Series’s console port to the computer being used as a
console is securely connected.
Make sure the terminal emulation software is accessing the correct port on the computer that’s being
used as a console.
Try pressing Ctrl-L or Return or the up or down key several times to refresh the terminal screen.
Make sure that flow control on serial connections is turned off.
Junk characters appear on the screen
Check that the terminal emulation software is configured correctly.
Check the baud rate. The default values are 9600, N, 8, and 1.
Characters are missing from some of the configuration screens
Try changing the Netopia D-Series’s default speed of 9600 bps and setting your terminal emulation
software to match the new speed.
Network problems
Problems communicating with remote IP hosts
Verify the accuracy of the default gateway’s IP address (entered in the IP Setup or Easy Setup screen).
Use the Netopia D-Series’s Ping utility, in the Utilities & Diagnostics screen, and try to ping local and
remote hosts. See “Ping” on page 9-92 for instructions on how to use the Ping utility. If you can
successfully ping hosts using their IP addresses but not their domain names (198.34.7.1 but not
garcia.netopia.com, for example), verify that the DNS server’s IP address is correct and that it is reachable
from the Netopia D-Series (use Ping).
If you are using filters, check that your filter sets are not blocking the type of connections you are trying to
make.
Local routing problems
Observe the Ethernet LEDs to see if data traffic flow appears to be normal.
Check the WAN statistics and LAN statistics screens to see more specific information on data traffic flow
and address serving. See “Statistics & Logs” on page 7-53 for more information.
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Troubleshooting A-107
How to reset the Netopia D-Series to factory defaults
Lose your password? This section shows how to reset the Netopia D-Series so that you can access the console
screens once again. Keep in mind that all of your connection profiles and settings will need to be reconfigured.
If you don't have a password, the only way to get back into the Netopia D-Series is the following:
1. Turn the Netopia D-Series upside down.
2. Referring to the diagram below, find the paper clip size Reset Switch slot.
Reset Switch Slot
3. Carefully insert the larger end of a standard size paper clip until you contact the internal Reset Switch. (No
need to unwind the paper clip.)
4. Press this switch.
5. This will reset the unit to factory defaults and you will now be able to reprogram the Netopia D-Series.
Power outages
If you suspect that power was restored after a power outage and the Netopia D-Series is connected to a remote
site, you may need to switch the Netopia D-Series off and then back on again. After temporary power outages,
a connection that still seems to be up may actually be disconnected. Rebooting the Netopia D-Series should
reestablish the connection.
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A-108 User’s Reference Guide
Technical support
Netopia, Inc. is committed to providing its customers with reliable products and documentation, backed by
excellent technical support.
Before contacting Netopia
Look in this guide for a solution to your problem. You may find a solution in this troubleshooting appendix or in
other sections. Check the index for a reference to the topic of concern. If you cannot find a solution, complete
the environment profile below before contacting Netopia technical support.
Environment profile
Locate the Netopia D-Series’s model number, product serial number, and firmware version. The serial
number is on the bottom of the Netopia D-Series, along with the model number. The firmware version
appears in the Netopia D-Series’s Main Menu screen.
Model number:
Serial number:
Firmware version:
What kind of local network(s) do you have, with how many devices?
Ethernet
LocalTalk
EtherTalk
TCP/ IP
IPX
Other:
How to reach us
We can help you with your problem more effectively if you have completed the environment profile in the
previous section. If you contact us by telephone, please be ready to supply Netopia Technical Support with the
information you used to configure the Netopia D-Series. Also, please be at the site of the problem and prepared
to reproduce it and to try some troubleshooting steps.
When you are prepared, contact Netopia Customer Service by e-mail, telephone, fax, or post:
Internet: techsports@netopia.com (for technical support)
info@netopia.com (for general information)
Phone: 1 800-782-6449
Fax: 1 510-814-5023
Netopia, Inc.
Customer Service
2470 Mariner Square Loop
Alameda, California 94501
USA
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Troubleshooting A-109
Netopia Bulletin Board Service: 1 510-865-1321
Online product information
Product information can be found in the following:
Netopia World Wide Web server via http:/ / www.netopia.com
Internet via anonymous FTP to ftp.netopia.com/ pub
FAX-Back
This service provides technical notes that answer the most commonly asked questions, and offers solutions for
many common problems encountered with Netopia products.
FAX-Back: +1 510-814-5040
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A-110 User’s Reference Guide
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Binary Conversion Table B-111
Appendix B
Binary Conversion Table
This table is provided to help you choose subnet numbers and host numbers for IP and MacIP networks that
use subnetting for IP addresses.
Table 1:
Decimal
Binary
Decimal
Binary
Decimal
Binary
Decimal
Binary
0
0
1
32
100000
1000001
100010
100011
100100
100101
100110
100111
101000
101001
101010
101011
101100
101101
101110
101111
110000
110001
110010
110011
110100
110101
110110
64
1000000
1000001
1000010
1000011
1000100
1000101
1000110
1000111
1001000
1001001
1001010
1001011
1001100
1001101
1001110
1001111
1010000
1010001
1010010
1010011
1010100
1010101
1010110
96
1100000
1100001
1100010
1100011
1100100
1100101
1100110
1100111
1101000
1101001
1101010
1101011
1101100
1101101
1101110
1101111
1110000
1110001
1110010
1110011
1110100
1110101
1110110
1
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
97
2
10
98
3
11
99
4
100
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
5
101
6
110
7
111
8
1000
1001
1010
1011
1100
1101
1110
1111
10000
10001
10010
10011
10100
10101
10110
9
10
11
12
13
14
15
16
17
18
19
20
21
22
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B-112 User’s Reference Guide
Table 1:
Decimal
Binary
Decimal
Binary
Decimal
Binary
Decimal
Binary
23
10111
55
110111
111000
111001
111010
111011
111100
111101
111110
111111
87
88
89
90
91
92
93
94
95
1010111
1011000
1011001
1011010
1011011
1011100
1011101
1011110
1011111
119
120
121
122
123
124
125
126
127
1110111
1111000
1111001
1111010
1111011
1111100
1111101
1111110
1111111
24
25
26
27
28
29
30
31
11000
11001
11010
11011
11100
11101
11110
11111
56
57
58
59
60
61
62
63
Table 2:
Decimal
Binary
Decimal
Binary
Decimal
Binary
Decimal
Binary
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
10000000
10000001
10000010
10000011
10000100
10000101
10000110
10000111
10001000
10001001
10001010
10001011
10001100
10001101
10001110
10001111
10010000
10010001
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
10100000
10100001
10100010
10100011
10100100
10100101
10100110
10100111
10101000
10101001
10101010
10101011
10101100
10101101
10101110
10101111
10110000
10110001
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
11000000
11000001
11000010
11000011
11000100
11000101
11000110
11000111
11001000
11001001
11001010
11001011
11001100
11001101
11001110
11001111
11010000
11010001
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
11100000
11100001
11100010
11100011
11100100
11100101
11100110
11100111
11101000
11101001
11101010
11101011
11101100
11101101
11101110
11101111
11110000
11110001
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Binary Conversion Table B-113
Table 2:
Decimal
Binary
Decimal
Binary
Decimal
Binary
Decimal
Binary
146
147
148
149
150
151
152
153
154
155
156
157
158
159
10010010
10010011
10010100
10010101
10010110
10010111
10011000
10011001
10011010
10011011
10011100
10011101
10011110
10011111
178
179
180
181
182
183
184
185
186
187
188
189
190
191
10110010
10110011
10110100
10110101
10110110
10110111
10111000
10111001
10111010
10111011
10111100
10111101
10111110
10111111
210
211
212
213
214
215
216
217
218
219
220
221
222
223
11010010
11010011
11010100
11010101
11010110
11010111
11011000
11011001
11011010
11011011
11011100
11011101
11011110
11011111
242
243
244
245
246
247
248
249
250
251
252
253
254
255
11110010
11110011
11110100
11110101
11110110
11110111
11111000
11111001
11111010
11111011
11111100
11111101
11111110
11111111
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B-114 User’s Reference Guide
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Further Reading C-115
Appendix C
Further Reading
Alexander, S. & R. Droms, DHCP Options and BOOTP Vendor Extensions, RFC 2131, Silicon Graphics, Inc.,
Bucknell University, March 1997.
Angell, David. ISDN for Dummies Foster City, CA: IDG Books Worldwide, 1995. Thorough introduction to ISDN
for beginners.
Apple Computer, Inc. AppleTalk Network System Overview. Reading, MA: Addison-Wesley Publishing Company,
Inc., 1989.
Apple Computer, Inc. Planning and Managing AppleTalk Networks. Reading, MA: Addison-Wesley Publishing
Company, Inc., 1991.
Asymmetric Digital Subscriber Line (ADSL) Forum, Framing and Encapsulation Standards for ADSL: Packet
Mode, TR-003, June 1997.
Black, U. Data Networks: Concepts, Theory and Practice. Englewood Cliffs, NJ: Prentice Hall, 1989.
Black, U. Physical Level Interfaces and Protocols. Los Alamitos, CA: IEEE Computer Society Press, 1988.
Black, Uyless. Emerging Communications Technologies Englewood Cliffs, NJ: PTR Prentice Hall, 1994.
Describes how emerging communications technologies, including ISDN and Frame Relay, operate and where
they fit in a computer/ communications network.
Bradley, T., C. Brown & A. Malis, Multiprotocol Interconnect over Frame Relay, Network Working Group, Internet
Engineering Task Force, RFC 1490, July 1993.
Case, J.D., J.R. Davins, M.S. Fedor, and M.L. Schoffstall. "Introduction to the Simple Gateway Monitoring
Protocol." IEEE Network: March 1988.
Case, J.D., J.R. Davins, M.S. Fedor, and M.L. Schoffstall. "Network Management and the Design of SNMP."
ConneXions: The Interoperability Report, Vol. 3: March 1989.
Chapman, D. Brent. “Network (In)Security Through IP Packet Filtering” Paper available from Great Circle
Associates, 1057 West Dana Street, Mountain View, CA 94041.
Chapman, D. Brent, and Elizabeth D. Zwicky. Building Internet Firewalls Sebastopol, CA: O’Reilly & Associates,
1995. Dense and technical, but Chapter 6 provides a basic introduction to packet filtering.
Chappell, L. Novell's Guide to NetWare LAN Analysis. San Jose, CA: Novell Press, 1993.
Clark, W. "SNA Internetworking." ConneXions: The Interoperability Report, Vol. 6, No. 3: March 1992.
Comer, D.E. Internetworking with TCP/ IP: Principles, Protocols, and Architecture Vol. I, 2nd ed. Englewood
Cliffs, NJ: Prentice Hall, 1991.
Copper Mountain Networks, Internal Control Protocol (ICP) Interface Control Document (ICD), January 5, 1998.
Davidson, J. An Introduction to TCP/ IP. New York, NY: Springer-Verlag, 1992.
Droms, R., Dynamic Host Configuration Protocol, RFC 2131, Bucknell University, March 1997.
Ferrari, D. Computer Systems Performance Evaluation. Englewood Cliffs, NJ: Prentice Hall, 1978.
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C-116 User’s Reference Guide
Garcia-Luna-Aceves, J.J. "Loop-Free Routing Using Diffusing Computations." Publication pending in IEEE/ ACM
Transactions on Networking, Vol. 1, No. 1, 1993.
Garfinkel, Simson. PGP: Pretty Good Privacy Sebastopol, CA: O’Reilly & Associates, 1991. A guide to the free
data encryption program PGP and the issues surrounding encryption.
Green, J.K. Telecommunications, 2nd ed. Homewood, IL: Business One Irwin, 1992.
Heinanen, J., Multiprotocol Encpasulation over ATM Adaptation Layer 5, RFC 1483, July 1993.
Jones, N.E.H., and D. Kosiur. MacWorld Networking Handbook. San Mateo, CA: IDG Books Worldwide, Inc.,
1992.
Kousky, K. "Bridging the Network Gap." LAN Technology, Vol. 6, No. 1: January 1990.
LaQuey, Tracy. The Internet Companion: A Beginner's Guide to Global Networking Reading, MA: Addison-Wesley
Publishing Company, 1994.
Leinwand, A., and K. Fang. Network Management: A Practical Perspective. Reading, MA: Addison-Wesley
Publishing Company, 1993.
Levine, John R., and Carol Baroudi. The Internet for Dummies Foster City, CA: IDG Books Worldwide, 1993.
Covers all of the most popular Internet services, including e-mail, newsgroups, and the World Wide Web. Also
has information on setting up individual workstations with TCP/ IP stacks.
Lippis, N. "The Internetwork Decade." Data Communications, Vol. 20, No. 14: October 1991.
McNamara, J.E. Local Area Networks. Digital Press, Educational Services, Digital Equipment Corporation, 12
Crosby Drive, Bedford, MA 01730.
Malamud, C. Analyzing Novell Networks. New York, NY: Van Nostrand Reinhold, 1991.
Malamud, C. Analyzing Sun Networks. New York, NY: Van Nostrand Reinhold, 1991.
Martin, J. SNA: IBM's Networking Solution. Englewood Cliffs, NJ: Prentice Hall, 1987.
Martin, J., with K.K. Chapman and the ARBEN Group, Inc. Local Area Networks: Architectures and Implementa-
tions. Englewood Cliffs, NJ: Prentice Hall, 1989.
Miller, A. Mark. Analyzing Broadband Networks (Frame Relay, SMDS, & ATM) M&T Books, San Mateo, CA, 1994.
An intermediate/ advanced reference on Frame Relay technologies.
Miller, M.A. Internetworking: A Guide to Network Communications LAN to LAN; LAN to WAN, 2nd. ed. San Mateo,
CA: M&T Books, 1992.
Miller, M.A. LAN Protocol Handbook. San Mateo, CA: M&T Books, 1990.
Miller, M.A. LAN Troubleshooting Handbook. San Mateo, CA: M&T Books, 1989.
Perlman, R. Interconnections: Bridges and Routers. Reading, MA: Addison-Wesley Publishing Company, 1992.
Rose, M.T. The Open Book: A Practical Perspective on OSI. Englewood Cliffs, NJ: Prentice Hall, 1990.
Rose, M.T. The Simple Book: An Introduction to Management of TCP/ IP-based Internets. Englewood Cliffs, NJ:
Prentice Hall, 1991.
Schwartz, M. Telecommunications Networks: Protocols, Modeling, and Analysis. Reading, MA: Addison-Wesley
Publishing Company, 1987.
Sherman, K. Data Communications: A User's Guide. Englewood Cliffs, NJ: Prentice Hall, 1990.
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Further Reading C-117
Sidhu, G.S., R.F. Andrews, and A.B. Oppenheimer. Inside AppleTalk, 2nd ed. Reading, MA: Addison-Wesley
Publishing Company, 1990.
Siyan, Karanjit. Internet Firewall and Network Security Indianapolis, IN: New Riders Publishing, 1995. Similar to
the Chapman and Zwicky book.
Smith, Philip. Frame Relay Principles and Applications Reading, MA: Addison-Wesley Publishing Company, 1996.
Covers information on Frame Relay, including the pros and cons of the technology, description of the theory and
application, and an explanation of the standardization process.
Spragins, J.D., et al. Telecommunications Protocols and Design. Reading, MA: Addison-Wesley Publishing
Company, 1991.
Stallings, W. Data and Computer Communications. New York, NY: Macmillan Publishing Company, 1991.
Stallings, W. Handbook of Computer-Communications Standards, Vols. 1–3. Carmel, IN: Howard W. Sams,
1990.
Stallings, W. Local Networks, 3rd ed. New York, NY: Macmillan Publishing Company, 1990.
Stevens, W.R. TCP/ IP Illustrated, Vol 1. Reading, MA: Addison-Wesley Publishing Company, 1994.
Sunshine, C.A. (ed.). Computer Network Architectures and Protocols, 2nd ed. New York, NY: Plenum Press,
1989.
Tannenbaum, A.S. Computer Networks, 2nd ed. Englewood Cliffs, NJ: Prentice Hall, 1988.
Terplan, K. Communication Networks Management. Englewood Cliffs, NJ: Prentice Hall, 1992.
Tsuchiya, P. "Components of OSI: IS-IS Intra-Domain Routing." ConneXions: The Interoperability Report, Vol. 3,
No. 8: August 1989.
Tsuchiya, P. "Components of OSI: Routing (An Overview)." ConneXions: The Interoperability Report, Vol. 3, No.
8: August 1989.
Zimmerman, H. "OSI Reference Model–The ISO Model of Architecture for Open Systems Interconnection." IEEE
Transactions on Communications COM-28, No. 4: April 1980.
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C-118 User’s Reference Guide
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Technical Specifications and Safety Information D-119
Appendix D
Technical Specifications and Safety Information
Pinouts for V.35 DCE cable
VIO
1
2
3
4
A
B
C
D
BRN
BRN/BLK
RED
RED/BLK
5
E
6
7
8
9
F
H
J
K
ORG
ORG/BLK
YEL
YEL/BLK
10
L
11
12
13
14
M
N
P
R
GRN
GRN/BLK
BLU
15
S
Shield
T
U
V
W
X
Y
Z
AA
BB
CC
DD
EE
FF
HH
JJ
KK
LL
MM
NN
Shield
BRAID
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D-120 User’s Reference Guide
HD-15
V.35
(not used)
Pin 1
Pin A
Pin B
Pin C
Pin D
Pin E
Pin 2
Signal Ground
Request to Send
Clear to Send
Data Set Ready
Data Carrier Detect
Data Terminal Ready
(not used)
Pin 3
Pin 4
Pin 5
Pin 6
Pin F
Pin 7
Pin H
Pin J
Pin 8
Pin 9
Pin K
Pin L
(not used)
Pin 10
Pin 11
Pin 12
Pin 13
Pin 14
Pin 15
(not used)
Pin M
Pin N
Pin P
(not used)
(not used)
Transmit Data (P)
Receive Data (P)
Transmit Data (N)
Receive Data (N)
Ext. Transmit Clock (P)
Receive Clock (P)
Ext. Transmit Clock (N)
Receive Clock (N)
Transmit Clock (P)
(not used)
Pin R
Pin S
Pin T
Pin U
Pin V
Pin W
Pin X
Pin Y
Pin Z
Pin AA
Pin BB
Pin CC
Pin DD
Pin EE
Pin FF
Pin HH
Pin JJ
Pin KK
Pin LL
Pin MM
Pin NN
Transmit Clock (N)
(not used)
(not used)
(not used)
(not used)
(not used)
(not used)
(not used)
(not used)
(not used)
(not used)
(not used)
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Technical Specifications and Safety Information D-121
Pinouts for D3232 Splitter
B8
B7
B6
B5
B4
B3
B2
B1
TCP2
1
2
3
4
5
6
7
8
TCN2
TCP1
RCP1 (TIP1)
RCN1 (RING1)
TCN1
RCP2 (TIP2)
A8
A7
A6
A5
A4
A3
A2
A1
RCN2 (RING2)
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D-122 User’s Reference Guide
Description
Dimensions: 124.0 cm (w) x 20.0 cm (d) x 5.3 cm (h)
9.4” (w) x 7.9” (d) x 2.1” (h)
Communications interfaces: The Netopia D-Series DSL DSU has an RJ-45 jack for IDSL or SDSL connections;
an 8–port 10Base-T Ethernet hub for your LAN connection; a DB-9 Console port; and an HD-15 Auxiliary port
that can be used as either a serial or LocalTalk port.
Power requirements
12 VDC input
1.5 amps
Environment
Operating temperature: 0° to +40° C
Storage temperature: 0° to +70° C
Relative storage humidity: 20 to 80% noncondensing
Software and protocols
Software media: Software preloaded on internal flash memory; field upgrades done via download to internal
flash memory via XMODEM or TFTP
Routing: TCP/ IP Internet Protocol Suite, RIP, AppleTalk*, LocalTalk-to-Ethernet routing*, AURP tunneling*,
MacIP*, IPX
* Optional add-on feature
WAN support: IDSL or SDSL
Security: IP/ IPX firewalls, UI password security
SNMP network management: SNMPv1, MIB-II (RFC 1213), Interface MIB (RFC 1229), Ethernet MIB (RFC
1643), AppleTalk MIB-I (1243), Netopia D-Series MIB
Management/ configuration methods: HTTP (Web server), serial console, remote modem console, Telnet,
SNMP
Diagnostics: Ping, event logging, routing table displays, traceroute, statistics counters, web-based
management
Agency approvals
The Netopia D-Series DSL DSU has met the safety standards (per CSA-950) of the Canadian Standards
Association for Canada.
The Netopia D-Series DSL DSU has met the safety standards (per UL-1950) of the Underwriters Laboratories for
the United States.
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Technical Specifications and Safety Information D-123
Regulatory notices
Warning
This is a Class A product. In a domestic environment this product may cause radio interference, in which case
the user may be required to take adequate measures. Adequate measures include increasing the physical
distance between this product and other electrical devices.
United States. This equipment has been tested and found to comply with the limits for a Class A digital device,
pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against
harmful interference when the equipment is operated in a commercial environment. This equipment generates,
uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction
manual, may cause harmful interference to radio communications. Operation of this equipment in a residential
area is likely to cause harmful interference in which case the user will be required to correct the interference at
his own expense. Operation is subject to the following two conditions: (1) this device may not cause harmful
interference, and (2) this device must accept any interference received, including interference that may cause
undesired operation.
Service requirements. In the event of equipment malfunction, all repairs should be performed by our Company
or an authorized agent. Under FCC rules, no customer is authorized to repair this equipment. This restriction
applies regardless of whether the equipment is in or our of warranty. It is the responsibility of users requiring
service to report the need for service to our Company or to one of our authorized agents. Service can be
obtained at Netopia, Inc., 2470 Mariner Square Loop, Alameda, California, 94501.
Important
This product was tested for FCC compliance under conditions that included the use of shielded cables and
connectors between system components. Changes or modifications to this product not authorized by the
manufacturer could void your authority to operate the equipment.
Canada. This digital apparatus does not exceed the Class A limits for radio noise emission from digital
apparatus set out in the Radio Interference Regulations of the Canadian Department of Communications.
Le présent appareil numérique n'émet pas de bruits radioélectriques dépassant les limites applicables aux
appareils numériques de la classe A prescrites dans le Réglement sur le brouillage radioélectrique édicté par le
ministère des Communications du Canada.
Declaration for Canadian users
The Canadian Industry Canada label identifies certified equipment. This certification means that the equipment
meets certain telecommunications network protective, operation, and safety requirements. The Department
does not guarantee the equipment will operate to the user’s satisfaction.
Before installing this equipment, users should ensure that it is permissible to be connected to the facilities of
the local telecommunications company. The equipment must also be installed using an acceptable method of
connection. In some cases, the company’s inside wiring associated with a single line individual service may be
extended by means of a certified connector assembly (telephone extension cord). The customer should be
aware that compliance with the above conditions may not prevent degradation of service in some situations.
Repairs to the certified equipment should be made by an authorized Canadian maintenance facility designated
by the supplier. Any repairs or alterations made by the user to this equipment, or equipment malfunctions, may
give the telecommunications company cause to request the user to disconnect the equipment.
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D-124 User’s Reference Guide
Users should ensure for their own protection that the electrical ground connections of the power utility,
telephone lines, and internal metallic water pipe system, if present, are connected together. This precaution
may be particularly important in rural areas.
Caution
Users should not attempt to make such connections themselves, but should contact the appropriate electric
inspection authority, or electrician, as appropriate.
The load number (LN) assigned to each terminal device denotes the percentage of the total load to be
connected to a telephone loop that is used by the device to prevent overloading. The termination on a loop may
consist of any combination of devices subject only to the requirement that the total of the load numbers of all
the devices does not exceed 100.
Important safety instructions
Caution
The direct plug-in power supply serves as the main power disconnect; locate the direct plug-in power supply
near the product for easy access.
For use only with CSA Certified Class 2 power supply, rated 12VDC, 1.5A.
Telecommunication installation cautions
Never install telephone wiring during a lightning storm.
Never install telephone jacks in wet locations unless the jack is specifically designed for wet locations.
Never touch uninsulated telephone wires or terminals unless the telephone line has been disconnected at
the network interface.
Use caution when installing or modifying telephone lines.
Avoid using a telephone (other than a cordless type) during an electrical storm. There may be a remote risk
of electric shock from lightning.
Do not use the telephone to report a gas leak in the vicinity of the leak.
Battery
The Netopia D-Series’s lithium battery is designed to last for the life of the product. The battery is not user-ser-
viceable.
Caution!
Danger of explosion if battery is incorrectly replaced.
Replace only with the same or equivalent type recommended by the manufacturer. Dispose of used batteries
according to the manufacturer's instructions.
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Glossary-125
Glossary
access line: A telephone line reaching from the telephone company central office to a point usually on your
premises. Beyond this point the wire is considered inside wiring.
analog: In telecommunications, telephone transmission and/ or switching that is not digital. An analog phone
transmission is one that was originally intended to carry speech or voice, but may with appropriate
modifications be used to carry data of other types.
ANSI (American National Standards Institute): Devises and proposes recommendations for international
communications standards. See also CCITT.
AppleTalk: A comprehensive network system designed and developed by Apple Computer, Inc. AppleTalk
allows many different types of computer systems, printers, and servers to communicate on a variety of cabling
schemes, including LocalTalk and Ethernet cabling. In this manual, AppleTalk refers especially to the protocols
or rule sets that govern this communication.
AppleTalk address: A unique identifier for each device using AppleTalk that allows information to be sent and
received correctly. An AppleTalk address always includes a network number wherever two or more AppleTalk
networks are connected together by routers.
AURP (Apple Update-based Router Protocol): An enhanced AppleTalk routing protocol. AURP provides
improved support for AppleTalk over wide area networks (WANs) and tunneling through non-AppleTalk (IP)
networks. AURP features include network number remapping, clustering of remote network numbers, and hop
count reduction.
backbone: A network topology consisting of a single length of cable with multiple network connection points.
bandwidth: The range of frequencies, expressed in Kilobits per second, that can pass over a given data
transmission channel within a network. The bandwidth determines the rate at which information can be sent
through a channel - the greater the bandwidth, the more information that can be sent in a given amount of time.
BAP (Bandwidth Allocation Protocol): Protocol that manages the dynamic bandwidth allocation of
implementations supporting the PPP Multilink protocol. This is done by defining the Bandwidth Allocation
Protocol (BAP), as well as its associated control protocol, the Bandwidth Allocation Control Protocol (BACP). BAP
can be used to manage the number of links in a multilink bundle.
baud rate: The rate of the signaling speed of a transmission medium.
bit: A binary digit; the smallest unit of data in the binary counting system. A bit has a value of either 0 or 1.
bits per second (bps): A measure of the actual data transmission rate. The bps rate may be equal to or greater
than the baud rate, depending on the modulation technique used to encode bits into each baud interval. The
correct term to use when describing modem data transfer speeds.
bps: See bits per second.
branch: A length of cable in a star network that goes from the center of the star to a wall jack.
broadcast: A network transaction that sends data to all hosts connected to the network.
burstiness: Data that uses bandwidth only sporadically; that is, information that does not use the total
bandwidth of a circuit 100 percent of the time. During pauses, channels are idle; and no traffic flows across
them in either direction. Interactive and LAN-to-LAN data is bursty in nature, because it is sent intermittently,
and in between data transmission the channel experiences idle time waiting for the DTEs to respond to the
transmitted data user’s input of waiting for the user to send more data.
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126 User’s Reference Guide
byte: A group of bits, normally eight, which represent one data character.
CallerID: See CND.
CCITT (Comite Consultatif International Telegraphique et Telephonique): International Consultative
Committee for Telegraphy and Telephony, a standards organization that devises and proposes recommenda-
tions for international communications. See also ANSI (American National Standards Institute).
CHAP (Challenge Handshake Protocol): A method for ensuring secure network access and communications.
Class A, B, and C networks: The values assigned to the first few bits in an IP network address determine
which class designation the network has. In decimal notation, Class A network addresses range from 1.X.X.X to
126.X.X.X, Class B network addresses range from 128.1.X.X to 191.254.X.X, and Class C addresses range
from 192.0.1.X to 223.255.254.X.
client: An intelligent workstation that makes requests to other computers known as servers. PC computers on
a LAN can be clients.
clustering: A feature that clusters remapped network numbers into a range of sequential network numbers.
CNA (Calling Number Authentication): A security feature that will reject an incoming call if it does not match
the Calling Number field in one of the Netopia ISDN Router’s connection profiles.
CND (Calling Number Delivery): Also known as caller ID, a feature that allows the called customer premises
equipment (CPE) to receive a calling party’s directory number during the call establishment phase.
community strings: Sequences of characters that serve much like passwords for devices using SNMP.
Different community strings may be used to allow an SNMP user to gather device information or change device
configurations.
CRC (Cyclic Redundancy Check): A computational means to ensure the integrity of a block of data. The
mathematical function is computed, before the data is transmitted at the originating device. Its numerical value
is computed based on the content of the data. This value is compared with a recomputed value of the function
at the destination device.
DCE (Data Communications Equipment): Term defined by standards committees that applies to
communications equipment, typically modems or printers, as distinct from other devices that attach to the
network, typically personal computers or data terminals (DTE). The distinction generally refers to which pins in
an RS-232-C connection transmit or receive data. Also see DTE.
DDP (Datagram Delivery Protocol): Defines socket-to-socket delivery of datagrams over an AppleTalk internet.
default zone: When a Phase II EtherTalk network includes more than one zone, all routers on that network
must be configured to assign one of these zones as a default zone. The default zone is temporarily assigned to
any Phase II EtherTalk node that hasn’t chosen a zone. The user may choose another zone by opening the
Network Control Panel, selecting the correct physical connection, and then choosing a zone in the scrolling field
displayed.
DHCP (Dynamic Host Configuration Protocol): A service that lets clients on a LAN request configuration
information, such as IP host addresses, from a server.
DNS (Domain Name Service): A TCP/ IP protocol for discovering and maintaining network resource information
distributed among different servers.
download: The process of transferring a file from a server to a client.
DSU: Digital Service Unit. A device for connecting a communications line to an external digital circuit.
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Glossary-127
DTE (Data Terminal Equipment): Term defined by standards committees, that applies to communications
equipment, typically personal computers or data terminals, as distinct from other devices that attach to the
network, typically modems or printers (DCE). The distinction generally refers to which pins in an RS-232-C
connection transmit or receive data. Pins 2 and 3 are reversed. Also see DCE.
EIA (Electronic Industry Association): A North American standards association.
Ethernet: A networking protocol that defines a type of LAN characterized by a 10 Mbps (megabits per second)
data rate. Ethernet is used in many mainframe, PC, and UNIX networks, as well as for EtherTalk.
Ethernet address: Sometimes referred to as a hardware address. A 48-bits long number assigned to every
Ethernet hardware device. Ethernet addresses are usually expressed as 12-character hexadecimal numbers,
where each hexadecimal character (0 through F) represents four binary bits. Do not confuse the Ethernet
address of a device with its network address.
EtherTalk: Apple’s data-link software that allows an AppleTalk network to be connected by Ethernet cables.
EtherTalk is a protocol within the AppleTalk protocol set. Two versions of EtherTalk are in common use,
designated as Phase I and Phase II EtherTalk.
extended network: A network using AppleTalk Phase II protocols; EtherTalk 2.0 and TokenTalk are extended
networks. LocalTalk networks are compatible with Phase II but are not extended because a single LocalTalk
network cannot have multiple network numbers or multiple zone names.
firmware: System software stored in a device’s memory that controls the device. The Netopia ISDN Router’s
firmware can be updated.
gateway: A device that connects two or more networks that use different protocols. Gateways provide address
translation services, but do not translate data. Gateways must be used in conjunction with special software
packages that allow computers to use networking protocols not originally designed for them.
hard seeding: A router setting. In hard seeding, if a router that has just been reset detects a network number
or zone name conflict between its configured information and the information provided by another router, it
disables the router port for which there is a conflict. See also non-seeding, seeding, seed router, and soft
seeding.
HDLC (High-Level Data Link Control): A generic link-level communications protocol developed by the
International Organization for Standardization (ISO). HDLC manages synchronous, code-transparent, serial
information transfer over a link connection. See also SDLC (Synchronous Data Link Control).
header: In packets, a header is part of the envelope information that surrounds the actual data being
transmitted. In e-mail, a header is usually the address and routing information found at the top of messages.
hop: A single traverse from one node to another on a LAN.
hop count: The number of nodes (routers or other devices) a packet has gone through. If there are six routers
between source and destination nodes, the hop count for the packet will be six when it arrives at its destination
node. The maximum allowable hop count is usually 15.
hop count reduction: A feature of AURP supported by the Netopia ISDN Router. Tunnels and point-to-point
links over WANs can often exceed the maximum allowable hop count of 15 routers. Network administrators can
use the hop count reduction feature to set up tunnels and point-to-point links that exceed the 15-router limit.
host: A single, addressable device on a network. Computers, networked printers, and routers are hosts.
host computer: A communications device that enables users to run applications programs to perform such
functions as text editing, program execution, access to data bases, etc.
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128 User’s Reference Guide
internet: A set of networks connected together by routers. This is a general term, not to be confused with the
large, multi-organizational collection of IP networks known as the Internet. An internet is sometimes also known
as an internetwork.
internet address, IP address: Any computing device that uses the Internet Protocol (IP) must be assigned an
internet or IP address. This is a 32-bit number assigned by the system administrator, usually written in the form
of 4 decimal fields separated by periods, e.g., 192.9.200.1. Part of the internet address is the IP network
number (IP network address), and part is the host address (IP host address). All machines on a given IP
network use the same IP network number, and each machine has a unique IP host address. The system
administrator sets the subnet mask to specify how much of the address is network number and how much is
host address. See also Class A, B, and C networks.
IP (Internet Protocol): A networking protocol developed for use on computer systems that use the UNIX
operating system. Often used with Ethernet cabling systems. In this manual, IP is used as an umbrella term to
cover all packets and networking operations that include the use of the Internet Protocol. See also TCP/ IP.
IP address, IP host address, IP network address: See internet address.
IP broadcast: See broadcast.
IP tunneling: See AURP.
IPX (Internet Packet Exchange): A protocol used by Novell NetWare networks.
ISDN (Integrated Services Digital Network): A method of transmitting data digitally over telephone lines.
ISP (Internet service provider): A company that provides Internet-related services. Most importantly, an ISP
provides Internet access services and products to other companies and consumers.
ITU (International Telecommunication Union): United Nations specialized agency for telecommunications.
Successor to CCITT.
LAN (local area network): A privately owned network that offers high-speed communications channels to
connect information processing equipment in a limited geographic area.
LocalTalk: The cabling specification for AppleTalk running at a speed of 230.4 kbps (kilobits per second).
MAC Address: Media Access Control address. The physical address of a device connected to a network,
expressed as a 48-bit hexadecimal number. Sometimes this is called the hardware address, and is a unique
number assigned to each device by the manufacturer.
MacIP: A protocol in which IP packets are encapsulated within AppleTalk headers, for transmission over
AppleTalk networks. MacIP requires the presence of at least one AppleTalk–IP gateway. MacIP is usually used to
allow an AppleTalk computer to communicate with an IP computer.
MacIP client: A Macintosh computer that is using the MacIP protocol to communicate with an IP computer.
MIB (management information base): A standardized structure for SNMP management information.
modem: A device used to convert digital signals from a computer into analog signals that can be transmitted
across standard analog (not ISDN) telephone lines. Modem is a contraction of modulator-demodulator.
NAT (Network Address Translation): A feature that allows communication between the LAN connected to the
Netopia ISDN Router and the Internet using a single IP address, instead of having a separate IP address for
each computer on the network.
NetBIOS: A network communications protocol used on PC LANs.
network: A group of computer systems and other computer devices that communicate with one another.
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Glossary-129
network administrator: A person who coordinates the design, installation, and management of a network. A
network administrator is also responsible for troubleshooting and for adding new users to the network.
network log: A record of the names of devices, location of wire pairs, wall-jack numbers, and other information
about the network.
network number: A unique number for each network in an internet. AppleTalk network numbers are assigned
by seed routers, to which the network is directly connected. An isolated AppleTalk network does not need a
network number.
network number remapping: Resolves network number conflicts when two or more AppleTalk networks that
may have duplicate network numbers are connected together. The Netopia ISDN Router lets you set up a range
of network numbers into which remote AppleTalk network numbers are remapped.
network range: A unique set of contiguous numbers associated with an extended network; each number in a
network range can be associated with up to 253 node addresses.
node: See host.
non-seeding: A router setting that causes it to request network number and zone information from any other
routers on the network connected to the non-seeding port. If it receives this information, it begins to route
packets through that port. See also hard seeding, seeding, seed router, and soft seeding.
packet: A group of fixed-length binary digits, including the data and call control signals, that are transmitted
through an X.25 packet-switching network as a composite whole. The data, call control signals, and possible
error control information are arranged in a predetermined format. Packets do not always travel the same
pathway but are arranged in proper sequence at the destination side before forwarding the complete message
to an addressee.
packet-switching network: A telecommunications network based on packet-switching technology, wherein a
transmission channel is occupied only for the duration of the transmission of the packet.
PAP (PPP authentication protocol): A method for ensuring secure network access.
parameter: A numerical code that controls an aspect of terminal and/ or network operation. Parameters
control such aspects as page size, data transmission speed, and timing options.
port: A location for passing data in and out of a device, and, in some cases, for attaching other devices or
cables.
port number: A number that identifies a TCP/ IP-based service. Telnet, for example, is identified with TCP port
23.
POTS (plain old telephone service): Ordinary analog telephone service such as that used for voice
transmission, as distinct from digital service.
PPP (Point-to-Point Protocol): A protocol for framing IP packets and transmitting them over a serial line.
protocol: A set of rules for communication, sometimes made up of several smaller sets of rules also called
protocols. AppleTalk is a protocol that includes the LocalTalk, EtherTalk, and TokenTalk protocols.
remapping: See network number remapping.
RFC (Request for Comment): A series of documents used to exchange information and standards about the
Internet.
RIP (Routing Information Protocol): A protocol used for the transmission of IP routing information.
RJ-11: A telephone-industry standard connector type, usually containing four pins.
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130 User’s Reference Guide
RJ-45: A telephone-industry standard connector type usually containing eight pins.
router: A device that supports network communications. A router can connect identical network types, such as
LocalTalk-to-LocalTalk, or dissimilar network types, such as LocalTalk-to-Ethernet. However—unless a gateway is
available—a common protocol, such as TCP/ IP, must be used over both networks. Routers may be equipped to
provide WAN line support to the LAN devices they serve. They may also provide various management and
monitoring functions as well as a variety of configuration capabilities.
router port: A physical or logical connection between a router and a network. Where a network only allows the
use of one protocol, each physical connection corresponds to one logical router port. An example is the Netopia
ISDN Router’s LocalTalk port. Where a network allows the use of several protocols, each physical connection
may correspond to several logical router ports—one for each protocol used. Each router port has its own
network address.
routing table: A list of networks maintained by each router on an internet. Information in the routing table
helps the router determine the next router to forward packets to.
SDLC (Synchronous Data Link Control): A link-level communications protocol used in an International
Business Machines (IBM) Systems Network Architecture (SNA) network that manages synchronous,
code-transparent, serial information transfer over a link connection. SDLC is a subset of the more generic HDLC
(High-Level Data Link Control) protocol developed by the International Organization for Standardization (ISO).
seeding: A method for ensuring that two or more routers agree about which physical networks correspond to
which network numbers and zone names. There are three options: non-seeding, soft seeding, and hard seeding.
Seeding can often be set separately for each router port. See also hard seeding, non-seeding, seed router, and
soft seeding.
seed router: A router that provides network number and zone information to any router that starts up on the
same network. See also hard seeding, non-seeding, seeding, and soft seeding.
serial port: A connector on the back of the workstation through which data flows to and from a serial device.
server: A device or system that has been specifically configured to provide a service, usually to a group of
clients.
SNMP (Simple Network Management Protocol): A protocol used for communication between management
consoles and network devices. The Netopia ISDN Router can be managed through SNMP.
soft seeding: A router setting. In soft seeding, if a router that has just been reset detects a network number or
zone name conflict between its configured information for a particular port and the information provided by
another router connected to that port, it updates its configuration using the information provided by the other
router. See also hard seeding, non-seeding, seeding, and seed router.
subnet: A network address created by using a subnet mask to specify that a number of bits in an internet
address will be used as a subnet number rather than a host address.
subnet mask: A 32-bit number to specify which part of an internet address is the network number, and which
part is the host address. When written in binary notation, each bit written as 1 corresponds to 1 bit of network
address information. One subnet mask applies to all IP devices on an individual IP network.
TCP/ IP (Transmission Control Protocol/ Internet Protocol): An open network standard that defines how
devices from different manufacturers communicate with each other over one or more interconnected networks.
TCP/ IP protocols are the foundation of the Internet, a worldwide network of networks connecting businesses,
governments, researchers, and educators.
telephone wall cable: 2-pair, 4-pair, or 8-pair, 22- or 24-gauge solid copper wire cable. Telephone wall cable is
sometimes called telephone station cable or twisted-pair cable.
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Glossary-131
TFTP (Trivial File Transfer Protocol): A protocol used to transfer files between IP nodes. TFTP is often used to
transfer firmware and configuration information from a UNIX computer acting as a TFTP server to an IP
networking device, such as the Netopia ISDN Router.
thicknet: Industry jargon for 10Base5 coaxial cable, the original Ethernet cabling.
thinnet: Industry jargon for 10Base2 coaxial cable, which is thinner (smaller in diameter) than the original
Ethernet cabling.
UDP (User Datagram Protocol): A TCP/ IP protocol describing how packets reach applications in destination
nodes.
wall jack: A small hardware component used to tap into telephone wall cable. An RJ-11 wall jack usually has
four pins; an RJ-45 wall jack usually has eight pins.
WAN (wide area network): A network that consists of nodes connected by long-distance transmission media,
such as telephone lines. WANs can span a state, a country, or even the world.
WAN IP: In addition to being a router, the Netopia ISDN Router is also an IP address server. There are four
protocols it can use to distribute IP addresses over the WAN which include: DHCP, BootP, IPCP, and MacIP. WAN
IP is a feature for both the Small Office and Corporate Netopia ISDN Router models.
wiring closet: A central location where a building’s telephone and network wiring is connected. Multi-story
buildings often have a main wiring closet in the basement and satellite wiring closets on each floor.
zone: An arbitrary subset of nodes within an AppleTalk internet. Creating multiple zones makes it easier for
users to locate network services. The network administrator defines zones when he or she configures routers.
Isolated networks have no zones. LocalTalk and EtherTalk Phase I networks may have no more than one zone
each. EtherTalk Phase II and TokenTalk networks may have more than one zone each. Several networks of any
AppleTalk type may share a zone name.
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132 User’s Reference Guide
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Index-133
D
Index
D. port 69
date and time
setting 43
Numerics
37
10Base-T 24
10Base-T, connecting 24
designing a new filter set 70
with TFTP 98
A
features 41
with XMODEM 101
application software 23
B
Easy Setup
navigating 38
back panel 16
ports 17
C
23
capabilities 12
community strings 58
configuration
device 56
WAN 55
troubleshooting
PC 105
configuration files
features 12
parts 66
adding 78
display 68
downloading with TFTP 98
downloading with XMODEM 101
uploading with TFTP 99
uploading with XMODEM 101
configuration screens
protecting 62
configuring
configuring the console 44
connecting to the configuration screens 40
console
adding 78
defined 64
deleting 85
disadvantages 70
modifying 85
using 77
configuring 44
viewing 84
connection problems 106
screens, connecting to 40
console configuration 44
console-based management
configuring with 35, 39
filtering example #1 69
filters
actions a filter can take 66
adding to a filter set 80
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Index-134
defined 64
deleting 84
Generic 86
input 80
IP 66
modifying 83
output 80
Easy Setup 38
Netopia
connecting to Ethernet, rules 24
monitoring 51
security 61
using 71, 77
viewing 83
system utilities and diagnostics 91
network problems 106
firmware files
further reading 115
G
general statistics 53
Generic filters 86
Glossary 125
password
user accounts 61
port number
H
comparisons 67
port numbers 66
I
IMUX 12, 46
IP filters 66
IP setup 42
IP trap receivers
deleting 60
R
setting 60
viewing 60
S
security
L
LED status 52
LEDs 18, 52
filters 64
measures to increase 61
telnet 63
M
user accounts (passwords) 61
security options screen 62
protecting 62
MIBs supported 57
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Index-135
SNMP
SNMP
W
community strings 58
MIBs supported 57
setup screen 58
traps 59
WAN
event history 55
statistics 53
src. port 69
statistics, WAN 53
support
XMODEM file transfers
technical 108
T
downloading configuration files 101
updating firmware 100
uploading configuration files 101
TCP/ IP stack 23
technical support 108
telnet 37
access 40, 63
terminal emulation software
configuring 38
default settings 37
TFTP
transferring files 96
Trivial File Transfer Protocol, see TFTP
troubleshooting 105
configuration
PC 105
event histories 54
WAN statistics 53
U
updating firmware
with TFTP 97
with XMODEM 100
updating Netopia’s firmware 97
uploading configuration files 99
with TFTP 99
with XMODEM 101
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Index-136
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Limited Warranty and Limitation of Remedies-137
Limited Warranty and Limitation of Remedies
Netopia warrants to you, the end user, that the Netopia D-Series DSL DSU (the “Product”) will be free from
defects in materials and workmanship under normal use for a period of one (1) year from date of purchase.
Netopia’s entire liability and your sole remedy under this warranty during the warranty period is that Netopia
shall, at its sole option, either repair or replace the Product.
In order to make a claim under this warranty you must comply with the following procedure:
1. Contact Netopia Customer Service within the warranty period to obtain a Return Materials Authorization
(“RMA”) number.
2. Return the defective Product and proof of purchase, shipping prepaid, to Netopia with the RMA number
prominently displayed on the outside of the package.
If you are located outside of the United States or Canada, please contact your dealer in order to arrange for
warranty service.
THE ABOVE WARRANTIES ARE MADE BY NETOPIA ALONE, AND THEY ARE THE ONLY WARRANTIES MADE BY
ANYONE REGARDING THE ENCLOSED PRODUCT. NETOPIA AND ITS LICENSOR(S) MAKE NO OTHER
WARRANTIES, EXPRESS OR IMPLIED, INCLUDING WITHOUT LIMITATION THE IMPLIED WARRANTIES OF MER-
CHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE, REGARDING THE ENCLOSED PRODUCT. EXCEPT AS
OTHERWISE EXPRESSLY PROVIDED ABOVE, NETOPIA AND ITS LICENSOR(S) DO NOT WARRANT, GUARANTEE OR
MAKE ANY REPRESENTATION REGARDING THE USE OR THE RESULTS OF THE USE OF THE PRODUCT IN TERMS
OF ITS CORRECTNESS, ACCURACY, RELIABILITY, CURRENTNESS, OR OTHERWISE. THE ENTIRE RISK AS TO THE
RESULTS AND PERFORMANCE OF THE PRODUCT IS ASSUMED BY YOU. THE EXCLUSION OF IMPLIED
WARRANTIES IS NOT PERMITTED BY SOME STATES OR JURISDICTIONS, SO THE ABOVE EXCLUSION MAY NOT
APPLY TO YOU. IN THAT CASE, ANY IMPLIED WARRANTIES ARE LIMITED IN DURATION TO NINETY (90) DAYS
FROM THE DATE OF DELIVERY OF THE PRODUCT. THERE MAY BE OTHER RIGHTS THAT YOU MAY HAVE WHICH
VARY FROM JURISDICTION TO JURISDICTION.
REGARDLESS OF WHETHER OR NOT ANY REMEDY SET FORTH HEREIN FAILS OF ITS ESSENTIAL PURPOSE, IN
NO EVENT WILL NETOPIA, ITS LICENSOR(S) AND THE DIRECTORS, OFFICERS, EMPLOYEES OR AGENTS OF ANY
OF THEM BE LIABLE TO YOU FOR ANY CONSEQUENTIAL, INCIDENTAL OR INDIRECT DAMAGES (INCLUDING
DAMAGES FOR LOSS OF BUSINESS PROFITS, BUSINESS INTERRUPTION, LOSS OF BUSINESS INFORMATION,
AND THE LIKE) ARISING OUT THE USE OR INABILITY TO USE THE PRODUCT EVEN IF NETOPIA OR ITS
LICENSOR(S) HAVE BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. BECAUSE SOME STATES OR
JURISDICTIONS DO NOT ALLOW THE EXCLUSION OR LIMITATION OF LIABILITY FOR CONSEQUENTIAL OR
INCIDENTAL DAMAGES, THE ABOVE LIMITATIONS MAY NOT APPLY TO YOU. NETOPIA AND ITS LICENSOR(S)
LIABILITY TO YOU FOR ACTUAL DAMAGES FROM ANY CAUSE WHATSOEVER, AND REGARDLESS OF THE FORM
OF THE ACTION (WHETHER IN CONTRACT, TORT [INCLUDING NEGLIGENCE], PRODUCT LIABILITY OR
OTHERWISE), WILL BE LIMITED TO $50.
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138 User’s Reference Guide
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