Netopia® Software User Guide Version 7.6.
Copyright Copyright © 2006 Netopia, Inc. Netopia, the Netopia logo, Broadband Without Boundaries, and 3-D Reach are registered trademarks belonging to Netopia, Inc., registered U.S. Patent and Trademark Office. All other trademarks are the property of their respective owners. All rights reserved. Netopia, Inc.
Table of Contents Table of Contents Copyright CHAPTER 1 ..........................................2 Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 What’s New in 7.6.1 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . About Netopia Documentation . . . . . . . . . . . . . . . . . . . . . . . . . Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Documentation Conventions . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Home Page - Basic Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 Manage My Account . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34 Status Details . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 35 Enable Remote Management . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 36 Expert Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Planning for Your Pinholes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 81 Example: A LAN Requiring Three Pinholes . . . . . . . . . . . . . . . . 82 Pinhole Configuration Procedure . . . . . . . . . . . . . . . . . . . . . . . . 84 IPMaps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 87 Configure the IPMaps Feature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 88 FAQs for the IPMaps Feature . . . . . . . . . . .
Table of Contents Use a Netopia Firewall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138 BreakWater Basic Firewall . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 138 Configuring for a BreakWater Setting . . . . . . . . . . . . . . . . . . . . 138 TIPS for making your BreakWater Basic Firewall Selection . . . 140 Basic Firewall Background . . . . . . . . . . . . . . . . . . . . . . . . . . . . 140 IPSec . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Design guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 176 An approach to using filters . . . . . . . . . . . . . . . . . . . . . . . . . . . . 176 Working with IP Filters and Filter Sets . . . . . . . . . . . . . . . . . . 177 Adding a filter set. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Adding filters to a filter set . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Viewing filters . . . . .
Table of Contents Ports: DSL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 225 IP: Interfaces. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 226 DSL: Circuit Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 227 System Log: Entire . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 228 Diagnostics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Dynamic DNS Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . IGMP Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . IP Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Common Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ARP Timeout Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . DSL Settings . . . . . . . . . . . .
Table of Contents Example: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 314 UPnP settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 315 DSL Forum settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 315 TR-064 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 315 TR-069 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Table of Contents Relative storage humidity: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Software and protocols . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Software media: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Routing: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . WAN support: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Security: . . . . . . . . . . . . . . . . .
Table of Contents Security . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 355 Remote Access Control . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 355 Password Protection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 355 Network Address Translation (NAT) . . . . . . . . . . . . . . . . . . . . . 355 Netopia Advanced Features for NAT . . . . . . . . . . . . . . . . . . . . 357 Internal Servers . . . . . . . . . . . . . . . . .
What’s New in 7.6.1 CHAPTER 1 Introduction What’s New in 7.6.1 New in Netopia Firmware Version 7.6.1 are the following features: • VLAN Enhancements - 802.1P and 802.1Q, QoS (Quality of Service) protocols on the MAC (Medium Access Control) level. See “VLAN” on page 111. • Command line reserved address support for DHCP. See page 260 for more information.
About Netopia Documentation ☛ NOTE: This guide describes the wide variety of features and functionality of the Netopia Gateway, when used in Router mode. The Netopia Gateway may also be delivered in Bridge mode. In Bridge mode, the Gateway acts as a pass-through device and allows the workstations on your LAN to have public addresses directly on the Internet. Netopia, Inc. provides a suite of technical information for its 2200- and 3300-series family of intelligent enterprise and consumer Gateways.
Documentation Conventions Documentation Conventions General This manual uses the following conventions to present information: Convention (Typeface) Description bold italic monospaced Menu commands bold italic sans serif Web GUI page links and button names terminal bold terminal Computer display text Italic Italic type indicates the complete titles of manuals.
curly ({ }) brackets, with values sep- Alternative values for an argument are prearated with vertical bars (|). sented in curly ({ }) brackets, with values separated with vertical bars (|).
Organization Organization This guide consists of nine chapters, including a glossary, and an index. It is organized as follows: • Chapter 1, “Introduction” — Describes the Netopia document suite, the purpose of, the audience for, and structure of this guide. It gives a table of conventions. • Chapter 2, “Basic Mode Setup” — Describes how to get up and running with your • • • • • • • • Netopia Gateway. Chapter 3, “Expert Mode” — Focuses on the “Expert Mode” Web-based user interface for advanced users.
CHAPTER 2 Basic Mode Setup Most users will find that the basic Quickstart configuration is all that they ever need to use. This section may be all that you ever need to configure and use your Netopia Gateway. The following instructions cover installation in Router Mode.
Important Safety Instructions POWER SUPPLY INSTALLATION Connect the power supply cord to the power jack on the Netopia Gateway. Plug the power supply into an appropriate electrical outlet. ☛ CAUTION: Depending on the power supply provided with the product, either the direct plug-in power supply blades, power supply cord plug or the appliance coupler serves as the mains power disconnect.
Wichtige Sicherheitshinweise Wichtige Sicherheitshinweise NETZTEIL INSTALLIEREN Verbinden Sie das Kabel vom Netzteil mit dem Power-Anschluss an dem Netopia Gateway. Stecken Sie dann das Netzteil in eine Netzsteckdose. ☛ Achtung: Abhängig von dem mit dem Produkt gelieferten Netzteil, entweder die direkten Steckernetzgeräte, Stecker vom Netzkabel oder der Gerätekoppler dienen als Hauptspannungsunterbrechung. Es ist wichtig, dass das Steckernetzgerät, Steckdose oder Gerätekoppler frei zugänglich sind.
Setting up the Netopia Gateway Refer to your Quickstart Guide for instructions on how to connect your Netopia gateway to your power source, PC or local area network, and your Internet access point, whether it is a dedicated DSL outlet or a DSL or cable modem. Different Netopia Gateway models are supplied for any of these connections. Be sure to enable Dynamic Addressing on your PC. Perform the following: Microsoft Windows: Step 1. Navigate to the TCP/IP Properties Control Panel. a.
Setting up the Netopia Gateway b. Some Windows versions follow a path like this: Start menu -> Control Panel -> Network and Internet Connections -> Network Connections -> Local Area Connection -> Properties -> Internet Protocol [TCP/IP] -> Properties Macintosh MacOS 8 or higher or Mac OS X: Step 1. Access the TCP/IP or Network control panel. a.
b. Mac OS X follows a path like this: Apple Menu -> System Preferences -> Network Then go to Step 2. Step 2. Select Built-in Ethernet Step 3. Select Configure Using DHCP Step 4. Close and Save, if prompted. Proceed to “Configuring the Netopia Gateway” on page 25.
Configuring the Netopia Gateway Configuring the Netopia Gateway 1. Run your Web browser application, such as Firefox or Microsoft Internet Explorer, from the computer connected to the Netopia Gateway. Enter http://192.168.1.254 in the Location text box. The Admin Password page appears. Access to your Netopia device can be controlled through two access control accounts, Admin or User. • The Admin, or administrative user, performs all configuration, management or maintenance operations on the Gateway.
MiAVo VDSL and Ethernet WAN models Quickstart The browser then displays the Quickstart page. 2. Click the Connect to the Internet button. Once a connection is established, your browser is redirected to your service provider’s home page or a registration page on the Internet. ☛ NOTE: For MiAVo Series (3397GP) models, skip the rest of this section. Congratulations! Your configuration is complete. You can skip to “Home Page - Basic Mode” on page 32.
Configuring the Netopia Gateway PPPoE Quickstart For a PPPoE connection, your browser will display a different series of web pages: The browser then displays the Quickstart web page. 3. Enter the username and password supplied by your Internet Service Provider. Click the Connect to the Internet button. Once you enter your username and password here, you will no longer need to enter them whenever you access the Internet.
4. When the connection succeeds, your browser will display a success message. Once a connection is established, your browser is redirected to your service provider’s home page or a registration page on the Internet. 5. 28 Congratulations! Your installation is complete. You can now surf to your favorite Web sites by typing an URL in your browser’s location box or by selecting one of your favorite Internet bookmarks.
Configuring the Netopia Gateway Set up the Netopia Pocket Gateway Your Netopia 3342N/3352N Pocket Gateway comes with its own installation wizard. • If you are using Windows 98, insert the CD. • If you are using Windows XP, Windows 2000, or Windows NT, you don’t even need the CD. Follow these easy setup steps: 1. 2. 3. 4. Plug the Netopia Pocket Gateway into a USB port on your PC.
phone jack USB port Netopia Pocket Gateway/ RJ-11 phone cable 5. 30 The Wizard displays a success message when the settings are configured. The Netopia Installation Wizard will then launch your web browser and display the Welcome page where you configure your Netopia Pocket Gateway.
Netopia Gateway Status Indicator Lights Netopia Gateway Status Indicator Lights Colored LEDs on your Netopia Gateway indicate the status of various port activity. Different Gateway models have different ports for your connections and different indicator LEDs. The Quickstart Guide accompanying your Netopia Gateway describes the behavior of the various indicator LEDs.
Home Page - Basic Mode After you have performed the basic Quickstart configuration, any time you log in to your Netopia Gateway you will access the Netopia Gateway Home Page. You access the Home Page by typing http://192.168.1.254 in your Web browser’s location box. The Basic Mode Home Page appears.
Home Page - Basic Mode The Home Page displays the following information in the center section: Item Serial Number Software Release Description This is the unique serial number of your Gateway. This is the version number of the current embedded software in your Gateway. Warranty Date This is the date that your Gateway was installed and enabled.
Link: Manage My Account You can change your ISP account information for the Netopia Gateway. You can also manage other aspects of your account on your service provider’s account management Web site. Click on the Manage My Account link. The Manage My Account page appears. If you have a PPPoE account, enter your username, and then your new password. Confirm your new password. For security, your actual passwords are not displayed on the screen as you type.
Home Page - Basic Mode Link: Status Details If you need to diagnose any problems with your Netopia Gateway or its connection to the Internet, you can run a sophisticated diagnostic tool. It checks several aspects of your physical and electronic connection and reports its results on-screen. This can be useful for troubleshooting, or when speaking with a technical support technician. Click on the Status Details link. The Diagnostics page appears.
Link: Enable Remote Management This link allows you to authorize a remotely-located person, such as a support technician, to directly access your Netopia Gateway. This is useful for fixing configuration problems when you need expert help. You can limit the amount of time such a person will have access to your Gateway. This will prevent unauthorized individuals from gaining access after the time limit has expired. Click the Enable Rmt Mgmt link. The Enable Remote Management page appears.
Home Page - Basic Mode Link: Expert Mode Most users will find that the basic Quickstart configuration is all that they ever need to use. Some users, however, may want to do more advanced configuration. The Netopia Gateway has many advanced features that can be accessed and configured through the Expert Mode pages. Click the Expert Mode link to display the Expert Mode Confirmation page.
Link: Update Firmware ☛ NOTE: (This link is not available on the 3342/3352 models, since firmware updates must be upgraded via the USB host driver. 3342N/3352N models do support this feature.) Periodically, the embedded firmware in your Gateway may be updated to improve the operation or add new features. Your gateway includes its own onboard installation capability. Your service provider may inform you when new firmware is available, or you can check for yourself. Click the Update Firmware link.
Home Page - Basic Mode Link: Factory Reset In some cases, you may need to clear all the configuration settings and start over again to program the Netopia Gateway. You can perform a factory reset to do this. Click on Factory Reset to reset the Gateway back to its original factory default settings. ☛ NOTE: Exercise caution before performing a Factory Reset. This will erase any configuration changes that you may have made and allow you to reprogram your Gateway.
Accessing the Expert Web Interface CHAPTER 3 Expert Mode Using the Expert Mode Web-based user interface for the Netopia 2200- and 3300-series Gateway you can configure, troubleshoot, and monitor the status of your Gateway. Accessing the Expert Web Interface Open the Web Connection Once your Gateway is powered up, you can use any recent version of the best-known web browsers such as Netscape Navigator or Microsoft Internet Explorer from any LAN-attached PC or workstation. The procedure is: 1. 2.
3. Click on the Expert Mode link in the left-hand column of links. You are challenged to confirm your choice. Click OK. The Home Page opens in Expert Mode.
Accessing the Expert Web Interface Home Page - Expert Mode The Home Page is the summary page for your Netopia Gateway. The toolbar at the top provides links to controlling, configuring, and monitoring pages. Critical configuration and operational status is displayed in the center section. Home Page - Information The Home page’s center section contains a summary of the Gateway’s configuration settings and operational status.
Breakwater Firewall Safe Harbour If the optional feature key is installed: Status of the Breakwater Firewall: ClearSailing, SilentRunning, or LANdLocked. If the optional feature key is installed: SafeHarbour VPN IPsec Tunnel option (if installed): either On or Off.
Toolbar Toolbar The toolbar is the dark blue bar at the top of the page containing the major navigation buttons. These buttons are available from almost every page, allowing you to move freely about the site.
Restart Button: Restart The Restart button on the toolbar allows you to restart the Gateway at any time. You will be prompted to confirm the restart before any action is taken. The Restart Confirmation message explains the consequences of and reasons for restarting the Gateway.
Restart Link: Alert Symbol The Alert symbol appears in the upper right corner if you make a database change; one in which a change is made to the Gateway’s configuration. The Alert serves as a reminder that you must Save the changes and Restart the Gateway before the change will take effect. You can make many changes on various pages, and even leave the browser for up to 5 minutes, but if the Gateway is restarted before the changes are applied, they will be lost.
Help Button: Help Context-sensitive Help is provided in your Gateway. The page shown here is displayed when you are on the Home page or other transitional pages. To see a context help page example, go to Security -> Passwords, then click Help.
Configure Configure Button: Configure The Configuration options are presented in the order of likelihood you will need to use them. Quickstart is typically accessed during the hardware installation and initial configuration phase. Often, these settings should be changed only in accordance with information from your Service Provider. LAN and WAN settings are available to fine-tune your system.
2. Click Connect to the Internet. A brief message is displayed while the Gateway attempts to establish a connection. 3. When the connection succeeds, your browser will display your Service Provider’s home page. If you encounter any problems connecting, refer to the chapters “Basic Troubleshooting” on page 203 or “Advanced Troubleshooting” on page 219.
Configure Link: LAN * Enable Interface: Enables all LAN-connected computers to share resources and to connect to the WAN. The Interface should always be enabled unless you are instructed to disable it by your Service Provider during troubleshooting. * IP Address: The LAN IP Address of the Gateway. The IP Address you assign to your LAN interface must not be used by another device on your LAN network. * IP Netmask: Specifies the subnet mask for the TCP/IP network connected to the virtual circuit.
• Advanced: Clicking on the Advanced link displays the Advanced LAN IP Interface page. • IGMP Forwarding: The default setting is Disabled. If you check this option, it will enable Internet Group Management Protocol (IGMP) multicast forwarding. IGMP allows a router to determine which host groups have members on a given network segment. • RIP Send Mode: Specifies whether the gateway should use Routing Information Protocol (RIP) broadcasts to advertise its routing tables to other routers on your network.
Configure address on a private network behind your Gateway, and still have the computer appear to be on the public network “in front of” the Gateway. • Static Client Address Translation: If you check this checkbox, this feature allows a statically addressed computer whose IP address falls outside of the LAN subnet(s) to simply plug in and get online without any manual configuration on either the host or the Netopia Gateway.
Wireless (supported models) If your Gateway is a wireless model (such as a 3347W) you can enable or disable the wireless LAN (WLAN) by clicking the Wireless link. Wireless functionality is enabled by default. If you uncheck the Enable Wireless checkbox, the Wireless Options are disabled, and the Gateway will not provide or broadcast any wireless LAN services. SSID (Network ID): The SSID is preset to a number that is unique to your unit.
Configure ☛ NOTE: On the 2200-Series Gateways, WEP-Manual privacy is enabled by default. Use the Netopia Installation Wizard on the accompanying Netopia CD to generate WEP keys for connecting wireless client computers. Privacy • Off - No Privacy provides no encryption on your wireless LAN data. • WPA-802.1x provides RADIUS server authentication support. • WPA-PSK provides Wireless Protected Access, the most secure option for your wireless network.
The Pre Shared Key is a passphrase shared between the Router and the clients and is used to generate dynamically changing keys. The passphrase can be 8-63 characters or up to 64 hex characters. It is recommended to use at least 20 characters for best security. • WEP - Automatic is a passphrase generator. You enter a passphrase that you choose in the Passphrase field. The passphrase can be any string of words or numbers.
Configure Click the Submit button. The Alert icon appears. Click the Alert icon, and then the Save and Restart link.
Advanced If you click the Advanced link, the advanced 802.11 Wireless Settings page appears.
Configure options you have enabled. You can then configure: Operating Mode: The pull-down menu allows you to select and lock the Gateway into the wireless transmission mode you want. For compatibility with clients using 802.11b (up to 11 Mbps transmission) and 802.11g (up to 20+ Mbps), select Normal (802.11b + g). To limit your wireless LAN to one mode or the other, select 802.11b Only, or 802.11g Only. ☛ NOTE: If you choose to limit the operating mode to 802.11b or 802.
Enable Closed System Mode: If enabled, Closed System Mode hides the wireless network from the scanning features of wireless client computers. Unless both the wireless clients and the Gateway share the same SSID in Closed System mode, the Gateway’s wireless LAN will not appear as an available network when scanned for by wireless-enabled computers. Members of the Closed System WLAN must log onto the Gateway’s wireless network with the identical SSID as that configured in the router.
Configure Block Wireless Bridging: Check the checkbox to block wireless clients from communicating with other wireless clients on the LAN side of the Gateway. • WEP - Manual allows you to enter your own encryption keys manually. This is a difficult process, but only needs to be done once. Avoid the temptation to enter all the same characters. Encryption Key Size #1 – #4: Selects the length of each encryption key.
Encryption Key #1 – #4: The encryption keys. You enter keys using hexadecimal digits. For 40/64bit encryption, you need ten digits; 26 digits for 128bit, and 58 digits for 256bit WEP. Hexadecimal characters are 0 – 9, and a – f. Examples: • 40bit: 02468ACE02 • 128bit: 0123456789ABCDEF0123456789 • 256bit: 592CA140F0A238B0C61AE162F592CA140F0A238B0C61AE162F21A09C Use WEP encryption key (1 – 4) #: Specifies which key the Gateway will use to encrypt transmitted traffic. The default is key #1.
Configure Multiple SSIDs The Multiple Wireless SSIDs feature allows you to add additional network identifiers (SSIDs or Network Names) for your wireless network. To enable Multiple Wireless SSIDs, click the Multiple SSIDs link. When the Multiple Wireless SSIDs screen appears, check the Enable SSID checkbox for each SSID you want to enable. The screen expands to allow you to name each additional Wireless ID, and specify a Privacy mode for each one.
Privacy modes available from the pull-down menu for the multiple SSIDs are: WPA-PSK, WPA-802.1x, or Off-No Privacy. WEP can also be selected on the additional SSIDs as long as it is not used on the primary SSID. WEP can only be used on one SSID, so any others will not have WEP available. These additional Wireless IDs are “Closed System Mode” Wireless IDs that will not be shown by a client scan, and therefore must be manually configured at the client.
Configure To enable Wireless MAC Authentication, click the MAC Authorization link. When the Wireless MAC Authentication screen appears, check the Enable Wireless MAC Authorization checkbox: The screen expands as follows: Click the Add button. The Authorized Wireless MAC Address Entry screen appears.
Enter the MAC (hardware) address of the client PC you want to authorize for access to your wireless LAN. The Allow Access? checkbox is enabled by default. Unchecking this checkbox specifically denies access from this MAC address. Click the Submit button. ☛ Note: When MAC Authorization is enabled, all wireless clients are blocked until their MAC addresses are added to the Authorized list.
Configure Use RADIUS Server RADIUS servers allow external authentication of users by means of a remote authentication database. The remote authentication database is maintained by a Remote Authentication Dial-In User Service (RADIUS) server. In conjunction with Wireless User Authentication, you can use a RADIUS server database to authenticate users seeking access to the wireless services, as well as the authorized user list maintained locally within the Gateway.
The Advanced Network Configuration page appears. You access the RADIUS Server configuration screen from the Advanced Network Configuration web page, by clicking the RADIUS Server link.
Configure Link: WAN When you click the WAN link, the WAN IP configuration page appears. This page varies depending on the WAN interface of your Netopia Gateway. WAN IP Interfaces: Your IP interfaces are listed. PPP over Ethernet interface Click the PPP over Ethernet link to configure it.
The WAN IP Interface page appears. Enable Interface: You can disable the interface by unchecking the checkbox. However, doing so will disable all ability for your LAN users to connect to the WAN using the Gateway. Address Mapping (NAT): Specifies whether you want the Gateway to use network address translation (NAT) when communicating with remote routers. NAT lets you conceal details of your network from remote routers. By default, address mapping is enabled.
Configure • Always On: This setting provides convenience, but it leaves your network permanently connected to the Internet. • Instant On furnishes almost all the benefits of an Always On connection, but has additional security benefits: - Your network cannot be attacked when it is not connected. - Your network may change address with each connection, making it more difficult to attack.
Set to RIP-2, Netopia Firmware Version 7.6.1 will accept routing information provided by RIP packets from other routers that use different subnet masks. From the pull-down menu, choose Off, RIP-1, RIP-2, RIP-1 compatibility, or RIP-2 with MD5. RIP Receive MD5 Key: (Only appears if RIP-2 with MD5 RIP Receive Mode is selected) The purpose of MD5 authentication is to provide an additional level of confidence that a RIP packet received was generated by a reliable source.
Configure Restart Timer: The number of seconds the Gateway should wait before retransmitting a configuration or termination request. Click the Submit button when you are finished. Ethernet WAN interface Click the Ethernet WAN link to configure it. The WAN IP Interface page appears. Enable Interface: You can disable the interface by unchecking the checkbox. However, doing so will disable all ability for your LAN users to connect to the WAN using the Gateway.
Obtain IP Address Automatically: Your service provider may tell you that the WAN IP Address for your Gateway is static. In this case, disable this checkbox and enter the IP Address and IP Netmask from your Service Provider in the appropriate fields. IP Address: This is the IP Address from your Service Provider when using static IP addressing. IP Netmask: This is the Netmask from your Service Provider when using static IP addressing.
Configure IP Gateway Enable Gateway Option: You can configure the Gateway to send packets to a default gateway if it does not know how to reach the destination host. Interface Type: If you have PPPoE enabled, you can specify that packets destined for unknown hosts will be sent to the gateway being used by the remote PPP peer. If you select ip-address, you must enter the IP address of a host on a local or remote network to receive the traffic. Default Gateway: The IP Address of the default gateway.
ATM VPI/VCI pair, upon saving and restarting, autodetection is disabled and only the new VPI/VCI pair configuration will be enabled. VPI/VCI Autodetection consists of eight static VPI/VCI pair configurations. These are 0/ 35, 8/35, 0/32, 8/32, 1/35, 1/1, 1/32, 2/32. These eight VPI/VCI pairs will be created if the Gateway is configured for autodetection.
Configure VBR has two sub-classes: a. VBR non-real-time (VBR-nrt): Typical applications are non-real-time traffic, such as IP data traffic. This class yields a fair amount of Cell Delay Variation (CDV). b. VBR real time (VBR-rt): Typical applications are real-time traffic, such as compressed voice over IP and video conferencing. This class transmits cells with a more tightly bounded Cell Delay Variation. The applications follow CBR.
Link: Advanced Selected Advanced options are discussed in the pages that follow. Many are self-explanatory or are dictated by your service provider.
Configure Link: IP Static Routes A static route identifies a manually configured pathway to a remote network. Unlike dynamic routes, which are acquired and confirmed periodically from other routers, static routes do not time out. Consequently, static routes are useful when working with PPP, since an intermittent PPP link may make maintenance of dynamic routes problematic. When you click the Static Routes link, the IP Static Routes page appears.
• Interface Type: Choose PPP (vcc1) – depending on the interface; typically vcc1 for DSL – or IP Address from the pull-down menu to specify whether the static route is accessible through PPP or IP address. • Gateway: Enter the IP address of the gateway for the static route. The default gateway must be located on a network connected to your Netopia Gateway configured interface. • Metric: Specifies the hop count for the static route.
Configure Link: IP Static ARP Your Gateway maintains a dynamic Address Resolution Protocol (ARP) table to map IP addresses to Ethernet (MAC) addresses. It populates this ARP table dynamically, by retrieving IP address/MAC address pairs only when it needs them. Optionally, you can define static ARP entries to map IP addresses to their corresponding Ethernet MAC addresses. Unlike dynamic ARP table entries, static ARP table entries do not time out. The IP address cannot be 0.0.0.0.
Example: A LAN Requiring Three Pinholes . The procedure on the following pages describes how you set up your NAT-enabled Netopia Gateway to support three separate applications. This requires passing three kinds of specific IP traffic through to your LAN. Application 1: You have a Web server located on your LAN behind your Netopia Gateway and would like users on the Internet to have access to it.
Configure A diagram of this LAN example is: Gateway my-webserver Internet 192.168.1.1 WAN Ethernet Interface 210.219.41.20 LAN Ethernet Interface NAT my-mailserver 192.168.1.2 NAT Pinholes Embedded Web Server 210.219.41.20:8100 my-games 192.168.1.3 You can also use the LAN-side address of the Gateway, 192.168.1.x:8100 to access the web and 192.168.1.x:23 to access the telnet server.
Pinhole Configuration Procedure. Use the following steps: 1. From the Configure toolbar button -> Advanced link, select the Internal Servers link. Since Port Forwarding is required for this example, the Netopia embedded Web server is configured first. ☛ NOTE: The two text boxes, Web (HTTP) Server Port and Telnet Server Port, on this page refer to the port numbers of the Netopia Gateway’s embedded administration ports.
Configure 5. Click Add. Type your specific data into the Pinhole Entries table of this page. Click Submit. 6. Click on the Add or Edit more Pinholes link. Click the Add button. Add the next Pinhole. Type the specific data for the second Pinhole.
7. Click on the Add or Edit more Pinholes link. Click the Add button. Add the next Pinhole. Type the specific data for the third Pinhole. ☛ NOTE: Note the following parameters for the “my-games” Pinhole: 1. The Protocol ID is UDP. 2. The external port is specified as a range. 3. The Internal port is specified as the lower range entry. 86 8. Click on the Add or Edit more Pinholes link. Review your entries to be sure they are correct. 9. Click the Alert icon.
Configure 10. Click the Save and Restart link to complete the entire Pinhole creation task and ensure that the parameters are properly saved. ☛ NOTE: REMEMBER: When you have re-assigned the port address for the embedded Web server, you can still access this facility. Use the Gateway’s WAN address plus the new port number. In this example it would be : or, in this case, 210.219.41.20:8100 You can also use the LAN-side address of the Gateway, 192.168.1.
Configure the IPMaps Feature FAQs for the IPMaps Feature Before configuring an example of an IPMaps-enabled network, review these frequently asked questions. What are IPMaps and how are they used? The IPMaps feature allows multiple static WAN IP addresses to be assigned to the Netopia Gateway. Static WAN IP addresses are used to support specific services, like a web server, mail server, or DNS server. This is accomplished by mapping a separate static WAN IP address to a specific internal LAN IP address.
Configure IPMaps Block Diagram The following diagram shows the IPMaps principle in conjunction with existing Netopia NAT operations: Netopia Gateway Static IP Addresses for IPMaps Applications WAN Interface LAN Interface 192.168.1.1 NAT/PAT Table 143.137.50.37 143.137.50.36 143.137.50.37 192.168.1.1 143.137.50.36 192.168.1.2 192.168.1.2 143.137.50.35 ... 192.168.1.3 ... 143.137.50.35 Static IP Addresses or DHCP/PPP Served IP Address for Netopia’s default NAT/PAT Capabilities 192.168.1.
Link: Default Server This feature allows you to: • Direct your Gateway to forward all externally initiated IP traffic (TCP and UDP protocols only) to a default host on the LAN. • Enable it for certain situations: – Where you cannot anticipate what port number or packet protocol an in-bound application might use. For example, some network games select arbitrary port numbers when a connection is opened. – When you want all unsolicited traffic to go to a specific LAN host. • Configure for IP Passthrough.
Configure Enter this address in the NAT Server IP Address field. 4. 5. 6. Click the Submit button. Click the Alert button. Click the Save and Restart link to confirm. Typical Network Diagram. A typical network using the NAT Default Server looks like this: Internet Gateway LAN STN #3 192.168.1.3 WAN Ethernet Interface 210.219.41.20 LAN Ethernet Interface NAT LAN STN #2 192.168.1.2 NAT protected Embedded Web Server 210.219.41.20 (Port 80 default) NAT Default Server NAT Default Server 192.168.1.
NAT Combination Application. Netopia’s NAT security feature allows you to configure a sophisticated LAN layout that uses both the Pinhole and Default Server capabilities. With this topology, you configure the embedded administration ports as a first task, followed by the Pinholes and, finally, the NAT Default Server. When using both NAT pinholes and NAT Default Server the Gateway works with the following rules (in sequence) to forward traffic from the Internet to the LAN: 1. 2. 3.
Configure • If you want to manually assign the WAN address to a LAN PC, do not check the DHCP Enable checkbox. • If you check the DHCP Enable checkbox, the screen expands. The Host Hardware Address field displays. Here you enter the MAC address of the designated IP-Passthrough computer. • If this MAC address is not all zeroes, then it will use DHCP to set the LAN host's address to the (configured or acquired) WAN IP address.
Link: Differentiated Services When you click the Differentiated Services link, the Differentiated Services configuration screen appears. Netopia Firmware Version 7.6.1 offers Differentiated Services (Diffserv) enhancements. These enhancements allow your Gateway to make Quality of Service (QoS) decisions about what path Internet traffic, such as Voice over IP (VoIP), should travel across your network.
Configure You can then define Custom Flows. If your applications do not provide Quality of Service (QoS) control, Custom Flows allows you to define streams for some protocols, port ranges, and between specific end point addresses. • To define a custom flow, click the Add button. The Custom Flow Entry screen appears. • Name – Enter a name in this field to label the flow. • Protocol – Select the protocol from the pull-down menu: TCP (default), UDP, ICMP, or Other.
• Quality of Service (QoS) – This is the Quality of Service setting for the flow, based on the TOS bit information. Select Expedite, Assure, or Off (default) from the pull-down menu. The following table outlines the TOS bit settings and behavior: QoS Setting 96 TOS Bit Value Behavior Off TOS=000 This custom flow is disabled. You can activate it by selecting one of the two settings below. This setting allows you to pre-define flows without actually activating them.
Configure Link: DNS Your Service Provider may maintain a Domain Name server. If you have the information for the DNS servers, enter it on the DNS page. If your Gateway is configured to use DHCP to obtain its WAN IP address, the DNS information is automatically obtained from that same DHCP Server. Link: DHCP Server Your Gateway can provide network configuration information to computers on your LAN, using the Dynamic Host Configuration Protocol (DHCP).
You can also specify the length of time the computers can use the configuration information; DHCP calls this period the lease time. Your Service Provider may, for certain services, want to provide configuration from its DHCP servers to the computers on your LANs. In this case, the Gateway will relay the DHCP requests from your computers to a DHCP server in the Service Provider's network. Select Relay-agent and enter the IP address of the Service Provider's DHCP server in the Server Address field.
Configure Link: RADIUS Server RADIUS servers allow external authentication of users by means of a remote authentication database. The remote authentication database is maintained by a Remote Authentication Dial-In User Service (RADIUS) server. In conjunction with Wireless User Authentication, you can use a RADIUS server database to authenticate users seeking access to the wireless services, as well as the authorized user list maintained locally within the Gateway.
Link: SNMP When you click the SNMP link, the SNMP configuration page appears. The Simple Network Management Protocol (SNMP) lets a network administrator monitor problems on a network by retrieving settings on remote network devices. The network administrator typically runs an SNMP management station program on a local host to obtain information from an SNMP agent. In this case, the Netopia Gateway is an SNMP agent.
Configure ☛ WARNING: SNMP presents you with a security issue. The community facility of SNMP behaves somewhat like a password. The community “public” is a well-known community name. It could be used to examine the configuration of your Gateway by your service provider or an uninvited reviewer. The information can be read from the Gateway. If you are strongly concerned about security, you may leave the “public” community blank.
The IP Trap Entry screen appears. Enter an IP Trap Entry IP address. This is the destination for SNMP trap messages, the IP address of the host acting as an SNMP console. Click the Submit button. Click the Alert icon, and in the resulting page, click the Save and Restart link. Link: IGMP (Internet Group Management Protocol) Multicasting is a method for transmitting large amounts of information to many, but not all, computers over an internet.
Configure To configure the IGMP options available in Netopia Gateways, click the IGMP link. The IGMP page appears. You can set the following options: • IGMP Snooping – checking this checkbox enables the Netopia Gateway to “listen in” to IGMP traffic. The Gateway discovers multicast group membership for the purpose of restricting multicast transmissions to only those ports which have requested them.
• Unsolicited Report Interval – the amount of time in seconds between repetitions of a particular computer’s initial report of membership in a group. The default unsolicited report interval is 10 seconds. • Querier Version – select a version of the IGMP Querier from the pull-down menu: v1 or v2. If you know you will be communicating with other hosts that are limited to v1, for backward compatibility, select v1; otherwise, allow the default v2.
Configure Link: UPnP Universal Plug and Play (UPnP™) is a set of protocols that allows a PC to automatically discover other UPnP devices (anything from an internet gateway device to a light switch), retrieve an XML description of the device and its services, control the device, and subscribe to real-time event notification. By default, UPnP is enabled on the Netopia Gateway.
Link: LAN Management TR-064 is a LAN-side DSL Gateway configuration specification. It is an extension of UPnP. It defines more services to locally manage the Netopia Gateway. While UPnP allows open access to configure the Gateway's features, TR-064 requires a password to execute any command that changes the Gateway's configuration. TR-064 is enabled by default. To disable it: • Uncheck the Enabled checkbox, and click the Submit button.
Configure Link: Ethernet Bridge The Netopia Gateway can be used as a bridge, rather than a router. A bridge is a device that joins two networks. As an Internet access device, a bridge connects the home computer directly to the service provider’s network equipment with no intervening routing functionality, such as Network Address Translation. Your home computer becomes just another address on the service provider’s network.
Configuring for Bridge Mode 1. 2. 3. Browse into the Netopia Gateway’s web interface. Click on the Configure button in the upper Menu bar. Click on the LAN link. The LAN page appears. 4. In the box titled LAN IP Interface (Ethernet 100BT): Make note of the Ethernet IP Address and subnet mask. You can use this address to access the router in the future. 5. 6. 108 Click on the Advanced link in the lefthand links toolbar. Under the heading of Services, click on the Ethernet Bridge link.
Configure The Ethernet Bridge page appears. The appearance of this page varies, depending on your Gateway’s interfaces. 7. If available: a. Check the Enable Bridging on Port selection. (This may be Always On.) b. Click Submit. 8. If you want the Gateway to do both bridging and routing, check the Enable Concurrent Bridging/ Routing checkbox. When this mode is enabled, the Gateway will appear to be a router, but also bridge traffic from the LAN if it has a valid LANside address. 9.
You have now configured your Netopia Gateway for bridging, and it will bridge all traffic across the WAN. You will need to make configurations to your machines on your LAN. These settings must be made in accordance with your ISP. If you ever need to get back into the Netopia Gateway again for management reasons, you will need to manually configure your machine to be in the same subnet as the Ethernet interface of the Netopia, since DHCP server is not operational in bridge mode.
Configure Link: VLAN When you click the VLAN link the VLANs page appears. A Virtual Local Area Network (VLAN) is a network of computers that behave as if they are connected to the same wire even though they may be physically located on different segments of a LAN. You set up VLANs by configuring the Gateway software rather than hardware. This makes VLANs very flexible.
An example of multiple VLANs, using a Netopia Gateway with VGx managed switch technology, is shown below: To create a VLAN select a list item from the main VLAN page and click the Edit button. The VLAN Entry page appears. Check the Enable checkbox, and enter a descriptive name for the VLAN.
Configure You can create up to 8 VLANs, and you can also restrict any VLAN, and the computers on it, from administering the Gateway. • VLAN Name – A descriptive name for the VLAN. • Type – Beginning with Firmware Version 7.6.1, LAN or WAN Port(s) can be enabled on the VLAN. You can choose a type designation as follows: By-Port: indicating that the VLAN is port-based.
The VLAN Port Configuration screen appears. • Port interfaces available for this VLAN are listed in the left hand column. • Displayed port interfaces vary depending on the kinds of physical ports on your Gateway, for example, Ethernet, USB, and/or wireless. • Also, if you have multiple wireless SSIDs defined, these may be displayed as well (See Enable Multiple Wireless IDs on page 63) • For Netopia VGx technology models, separate Ethernet switch ports are displayed and may be configured.
Configure • When you enable an interface, the Tag, Priority, and Promote checkboxes appear for that interface. Tag – Packets transmitted from this port through this VLAN must be tagged with the VLAN VID. Packets received through this port destined for this VLAN must be tagged with the VLAN VID by the source. The Tag option is only available on Global type ports. Priority – Use any 802.
• If you want to create more VLANs, click the Advanced link (in the left-hand toolbar) and then the VLAN link in the resulting page, and repeat the process. You can Edit, Clear, Enable, or Disable your VLAN entries by returning to the VLANs page, and selecting the appropriate entry from the displayed list. • When you are finished, click the Alert icon in the upper right-hand corner of the screen, and in the resulting screen, click the Save and Restart link.
Configure The screen expands to display the VLAN settings.
Example #1 You want to configure a 3347NWG-VGx Gateway with two SSIDs (see “Multiple SSIDs” on page 63 for more information) for two VLANs, allowing both access to the Internet. One SSID will be in the same VLAN as the Ethernet Switch, so that those two networks can communicate. The second VLAN will be for the other SSID. The second VLAN will also be denied access to the 3347NWG-VGx web interface and telnet interface.
Configure Since this VLAN will be for SSID1 and Ethernet Port 1, leave Admin Restricted unchecked. This will give this VLAN access to the Gateway. 3. 4. Click the Submit button. In the Port Configuration for VLAN:1 page, you add the Port Interfaces you want associated with the VLAN. In this case, check uplink, eth0.1 and ssid1. 5. 6. Click the Submit button. In the VLAN page, select VLAN #2 in the VLANs list, and click the Edit button. The VLAN Name must be given another unique name.
Since this is for the second SSID that we don’t want to be given access to the Gateway, check the Admin Restricted checkbox. 7. 8. Click the Submit button. Check both the uplink port interface and the ssid2 port interface. Click the Submit button. 10. Once you have finished with the configuration of the VLANs, click on the Alert icon in the upper right hand corner. 9. This will validate that the settings are legal for your network. 11. Click the Save and Restart link.
Configure Example #2 You want to create three separate VLANs for different purposes that will not be communicating with one another. • A Digital Video Recorder (DVR) plugged into port 1. • A Server plugged into port 2. • A Switch plugged into port 3. 1. In the VLAN Name box, enter the name you would like. For example, call it DVR. Leave Admin Restricted unchecked. 2. 3. Click the Submit button. Here you add the Port Interfaces you want associated with the VLAN.
For this case, check uplink and eth0.1. 4. 5. 6. Click the Submit button. In the VLAN page, select VLAN #2 in the VLANs list, and click the Edit button. Continue to add two more VLANs, each with a unique Name. One will need uplink and eth0.
Configure the other with uplink and eth0.3. 7. Once you have finished with the configuration of the VLANs, click on the Alert icon in the upper right hand corner. This will validate that the settings are legal for your network. 8. Click the Save and Restart link. This will restart the Netopia Gateway and retain the VLAN configuration. ☛ Note: To make a set of VLANs non-routable, the uplink port must be included in at least one VLAN. It must then be excluded from any VLANs that are nonroutable.
Link: System The System Name defaults to your Gateway's factory identifier combined with its serial number. Some cable-oriented Service Providers use the System Name as an important identification and support parameter. The System Name can be 1 – 255 characters long; it can include embedded spaces and special characters. The Log Message Level alters the severity at which messages are collected in the Gateway's system log. Do not alter this field unless instructed by your Support representative.
Configure • Syslog: Enable syslog logging in the system. • Syslog Host Name/IP Address: Enter the name or the IP Address of the host that should receive syslog messages. • Facility: From the pull-down menu, select the Syslog facility to be used by the router when generating syslog messages. Options are local0 through local7. • Log Violations: If you check this checkbox, the Gateway will generate messages whenever a packet is discarded because it violates the router's security policy.
Log Event Messages Administration Related Log Messages 1. administrative access attempted: This log-message is generated whenever the user attempts to access the router's management interface. 2. administrative access authenticated and allowed: This log-message is generated whenever the user attempts to access the router's management interface and is successfully authenticated and allowed access to the management interface. 3.
Configure DSL Log Messages (most common): 1. WAN: Data link activated at Kbps (rx/tx) This log message is generated when the DSL link comes up. 2.WAN: Data link deactivated This log message is generated when the DSL link goes down. 3. RFC1483 up This log message is generated when RFC1483 link comes up. 4. RFC1483-: IP down This log message is generated when RFC1483 link goes down. 5.
Access-related Log Messages 128 6. dropped - fragmented packet: This log-message is generated whenever a packet, traversing the router, is dropped because it is fragmented, stateful inspection is turned ON on the packet's transmit or receive interface, and denyfragment option is enabled. 7. dropped - cannot fragment: This log-message is generated whenever a packet traversing the router is dropped because the packet cannot be sent without fragmentation, but the do not fragment bit is set. 8.
Configure Link: Internal Servers Your Gateway ships with an embedded Web server and support for a Telnet session, to allow ease of use for configuration and maintenance. The default ports of 80 for HTTP and 23 for Telnet may be reassigned. This is necessary if a pinhole is created to support applications using port 80 or 23. See “Pinholes” on page 81. for more information on Pinhole configuration.
Link: Software Hosting Software Hosting allows you to host internet applications when NAT is enabled. User(PC) specifies the machine on which the selected software is hosted. You can host different games and software on different PCs. To select the games or software that you want to host for a specific PC, highlight the name(s) in the box on the left side of the screen. Click the Add button to select the software that will be hosted.
Configure List of Supported Games and Software Age of Empires, v.1.0 Age of Empires: The Rise of Rome, v.1.0 Age of Wonders Asheron's Call Baldur's Gate Battlefield Communicator Buddy Phone Calista IP Phone CART Precision Racing, v 1.0 Citrix Metaframe/ICA Client Close Combat for Windows 1.0 Close Combat: A Bridge Too Far, v 2.0 Close Combat III: The Russian Front, v 1.0 Combat Flight Sim: WWII Europe Series, v 1.0 Combat Flight Sim 2: WWII Pacific Thr, v 1.
Motocross Madness 2, v 2.0 Motocross Madness, v 1.0 MSN Game Zone MSN Game Zone (DX7 an 8 Play) Need for Speed 3, Hot Pursuit Need for Speed, Porsche Net2Phone NNTP Operation FlashPoint Outlaws pcAnywhere (incoming) POP-3 PPTP Quake II Quake III Rainbow Six RealAudio Return to Castle Wolfenstein Roger Wilco Rogue Spear ShoutCast Server SMTP SNMP SSH server StarCraft Starfleet Command StarLancer, v 1.
Configure To rename a server, select the server from the pull-down menu. Then type a new name in the text box below the pull-down menu. Click the Update button to save the new name. ☛ NOTE: The new name given to a server is only known to Software Hosting. It is not used as an identifier in other network functions, such as DNS or DHCP.
Link: Clear Options To restore the factory configuration of the Gateway, choose Clear Options. You may want to upload your configuration to a file before performing this function. You can do this using the upload command via the command-line interface. See the upload command on page 249. Clear Options does not clear feature keys or affect the software image. You must restart the Gateway for Clear Options to take effect. Link: Time Zone When you click the Time Zone link, the Time Zone page appears.
Security Security Button: Security The Security features are available by clicking on the Security toolbar button. Some items of this category do not appear when you log on as User.
Link: Passwords Access to your Gateway may be controlled through two optional user accounts, Admin and User. When you first power up your Gateway, you create a password for the Admin account. The User account does not exist by default. As the Admin, a password for the User account can be entered or existing passwords changed. Create and Change Passwords. You can establish different levels of access security to protect your Netopia Gateway settings from unauthorized display or modification.
Security To display the Passwords window, click the Security toolbar button on the Home page. Use the following procedure to change existing passwords or add the User password for your Netopia Gateway: 1. Select the account type from the Username pull-down list. Choose from Admin or User. 2. 3. If you assigned a password to the Netopia Gateway previously, enter your current password in the Old Password field. Enter your new password in the New Password field.
Link: Firewall Use a Netopia Firewall BreakWater Basic Firewall. BreakWater delivers an easily selectable set of preconfigured firewall protection levels. For simple implementation these settings (comprised of three levels) are readily available through Netopia’s embedded web server interface. BreakWater Basic Firewall’s three settings are: • ClearSailing ClearSailing, BreakWater's default setting, supports both inbound and outbound traffic.
Security 4. Click on the radio button to select the protection level you want. Click Submit. Changing the BreakWater setting does not require a restart to take effect. This makes it easy to change the setting “on the fly,” as your needs change.
TIPS for making your BreakWater Basic Firewall Selection Application Select this Level Other Considerations Typical Internet usage (browsing, e-mail) Multi-player online gaming SilentRunning Going on vacation Finished online use for the day Chatting online or using instant messaging LANdLocked LANdLocked ClearSailing ClearSailing Set Pinholes; once defined, pinholes will be active whenever ClearSailing is set. Restore SilentRunning when finished. Protects your connection while your away.
Security This table shows how inbound traffic is treated. Inbound means the traffic is coming from the WAN into the WAN side of the Gateway.
☛ NOTE: The Gateway’s WAN DHCP client port in SilentRunning mode is enabled. This feature allows end users to continue using DHCP-served IP addresses from their Service Providers, while having no identifiable presence on the Internet.
Security Link: IPSec When you click on the IPSec link, the IPSec configuration screen appears. Your Gateway can support two mechanisms for IPSec tunnels: • IPSec PassThrough supports Virtual Private Network (VPN) clients running on LANconnected computers. Normally, this feature is enabled. You can disable it if your LAN-side VPN client includes its own NAT interoperability option. Uncheck the Enable IPSec Passthrough checkbox. • SafeHarbour VPN IPSec is a keyed feature that you must purchase.
SafeHarbour IPSec VPN SafeHarbour VPN IPSec Tunnel provides a single, encrypted tunnel to be terminated on the Gateway, making a secure tunnel available for all LAN- connected users. This implementation offers the following: • Eliminates the need for VPN client software on individual PCs. • Reduces the complexity of tunnel configuration. • Simplifies the ongoing maintenance for secure remote access.
Security A typical SafeHarbour configuration is shown below: Configuring a SafeHarbour VPN Use the following procedure to configure your SafeHarbour tunnel. 1. Obtain your configuration information from your network administrator. The tables “Parameter Descriptions” on page 149 describe the various parameters that may be required for your tunnel. Not all of them need to be changed from the defaults for every VPN tunnel. Consult with your network administrator. 2.
Table 1: IPSec Tunnel Details Parameter Setup Worksheet Parameter Name Peer Internal Network Peer Internal Netmask NAT Enable PAT Address Negotiation Method Local ID Type Local ID Address/Value Local ID Mask Remote ID Type Remote ID Address/Value Remote ID Mask Pre-Shared Key Type Pre-Shared Key DH Group PFS Enable SA Encrypt Type SA Hash Type Invalid SPI Recovery Soft MBytes Soft Seconds Hard MBytes Hard Seconds IPSec MTU Xauth Enable Xauth Username Xauth Password 146 Netopia Gateway On/Off Main/Aggre
Security 3. Be sure that you have SafeHarbour VPN enabled. SafeHarbour is a keyed feature. See “Install Key” on page 197. for information concerning installing Netopia Software Feature Keys. 4. Check the Enable SafeHarbour IPSec checkbox. Checking this box will automatically display the SafeHarbour IPSec Tunnel Entry parameters. Enter the initial group of tunnel parameters. Refer to your Setup Worksheet and the “Parameter Descriptions” on page 149 as required. 5. Enter the tunnel Name.
10.Make the Tunnel Details entries. Enter or select the required settings. Refer to your “IPSec Tunnel Details Parameter Setup Worksheet” on page 146.) Update. The Alert button appears. 12.Click the Alert button. 13.Click Save and Restart. 11.Click Your SafeHarbour IPSec VPN tunnel is fully configured.
Security Parameter Descriptions The following tables describe SafeHarbour’s parameters that are used for an IPSec VPN tunnel configuration: Table 2: IPSec Configuration page parameters Field Description Name The Name parameter refers to the name of the configured tunnel. This is mainly used as an identifier for the administrator. The Name parameter is an ASCII value and is limited to 31 characters. The tunnel name does not need to match the peer gateway.
Table 3: IPSec Tunnel Details page parameters 150 PAT Address If NAT is enabled, this field appears. You can specify a Port Address Translation (PAT) address or leave the default all-zeroes (if Xauth is enabled). If you leave the default. the address will be requested from the remote router and dynamically applied to the Gateway. Negotiation Method This parameter refers to the method used during the Phase I key exchange, or IKE process. SafeHarbour supports Main or Aggressive Mode.
Security Table 3: IPSec Tunnel Details page parameters SA Hash Type SA Hash Type refers to the Authentication Hash algorithm used during SA negotiation. Values supported include MD5 and SHA1. N/A will display if NONE is chosen for Auth Protocol. Invalid SPI Recovery Enabling this allows the Gateway to re-establish the tunnel if either the Netopia Gateway or the peer gateway is rebooted.
Table 3: IPSec Tunnel Details page parameters 152 Xauth Enable Extended Authentication (XAuth), an extension to the Internet Key Exchange (IKE) protocol. The Xauth extension provides dual authentication for a remote user’s Netopia Gateway to establish a VPN, authorizing network access to the user’s central office. IKE establishes the tunnel, and Xauth authenticates the specific remote user's Gateway.
Security Link: Stateful Inspection All computer operating systems are vulnerable to attack from outside sources, typically at the operating system or Internet Protocol (IP) layers. Stateful Inspection firewalls intercept and analyze incoming data packets to determine whether they should be admitted to your private LAN, based on multiple criteria, or blocked. Stateful inspection improves security by tracking data packets over a period of time, examining incoming and outgoing packets.
• UDP no-activity time-out: The time in seconds after which a UDP session will be terminated, if there is no traffic on the session. • TCP no-activity time-out: The time in seconds after which an TCP session will be terminated, if there is no traffic on the session. • Exposed Addresses: The hosts specified in Exposed Addresses will be allowed to receive inbound traffic even if there is no corresponding outbound traffic. This is active only if NAT is disabled on a WAN interface.
Security Add, Edit, or delete exposed addresses options are active only if NAT is disabled on a WAN interface. The hosts specified in exposed addresses will be allowed to receive inbound traffic even if there is no corresponding outbound traffic. • Start Address: Start IP Address of the exposed host range. • End Address: End IP Address of the exposed host range • Protocol: Select the Protocol of the traffic to be allowed to the host range from the pulldown menu. Options are Any, TCP, UDP, or TCP/UDP.
Click the Add button to add a new range of exposed addresses. You can edit a previously configured range by clicking the Edit button, or delete the entry entirely by clicking the Delete button. All configuration changes will trigger the Alert Icon. Click on the Alert icon. This allows you to validate the configuration and reboot the Gateway. Click the Save and Restart link. You will be asked to confirm your choice, and the Gateway will reboot with the new configuration.
Security Stateful Inspection Options Stateful Inspection Parameters are active on a WAN interface only if you enable them on your Gateway. • Stateful Inspection: To enable stateful inspection on this WAN interface, check the checkbox. • Default Mapping to Router: This is disabled by default. This option will allow the router to respond to traffic received on this interface, for example, ICMP Echo requests.
Open Ports in Default Stateful Inspection Installation 158 Port Protocol Description LAN (Private) Interface WAN (Public) Interface 23 TCP telnet Yes No 53 UDP DNS Yes No 67 UDP Bootps Yes No 68 UDP Bootpc Yes No 80 TCP HTTP Yes No 137 UDP Netbios-ns Yes No 138 UDP Netbios-dgm Yes No 161 UDP SNMP Yes No 500 UDP ISAKMP Yes No 520 UDP Router Yes No
Firewall Tutorial Firewall Tutorial General firewall terms ☛ Note: Breakwater Basic Firewall (see “BreakWater Basic Firewall” on page 138) does not make use of the packet filter support and can be used in addition to filtersets 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.
Protocol TCP DATA User Data This header information is what the packet filter uses to make filtering decisions. It is important to note that a packet filter does not look into the IP data stream (the User Data from above) to make filtering decisions. 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.
Firewall Tutorial Example TCP/UDP Ports TCP Port Service UDP Port Service 20/21 FTP 161 SNMP 23 Telnet 69 TFTP 25 SMTP 80 WWW 144 News Firewall design rules There are two basic rules to firewall design: • “What is not explicitly allowed is denied.” and • “What is not explicitly denied is allowed.” The first rule is far more secure, and is the best approach to firewall design. It is far easier (and more secure) to allow in or out only certain services and deny anything else.
and a packet goes through these rules destined for FTP, the packet would forward 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 forward through the first filter rule (WWW), match the second rule (FTP), and the packet is allowed through.
Firewall Tutorial Example filter set page This is an example of the Netopia filter set page: 163
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). Netopia Firmware Version 7.6.1 has the ability to compare source and destination TCP or UDP ports.
Firewall Tutorial Example filters Example 1 Filter Rule: 200.1.1.0 (Source IP Network Address) 255.255.255.128 (Source IP Mask) Forward = No (What happens on match) Incoming packet has the source address of 200.1.1.28 This incoming IP packet has a source IP address that matches the network address in the Source IP Address field in Netopia Firmware Version 7.6.1. This will not forward this packet. Example 2 Filter Rule: 200.1.1.0 (Source IP Network Address) 255.255.255.
Example 4 Filter Rule: 200.1.1.96 (Source IP Network Address) 255.255.255.240 (Source IP Mask) Forward = No (What happens on match) Incoming packet has the source address of 200.1.1.104. This rule does match and this packet will not be forwarded. Example 5 Filter Rule: 200.1.1.96 (Source IP Network Address) 255.255.255.255 (Source IP Mask) Forward = No (What happens on match) Incoming packet has the source address of 200.1.1.96. This rule does match and this packet will not be forwarded.
Firewall Tutorial Link: Packet Filter When you click the Packet Filter link the Filter Sets screen appears. 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 Packet Filter engine allows creation of a maximum of eight Filter Sets. Each Filter Set can consist of many rules. There can be a maximum of 32 filter rules in the system.
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.
Firewall Tutorial 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.
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.
Firewall Tutorial Port numbers A filter can also match a packet’s port number attributes, but only if the filter’s protocol type is set to TCP or UDP, since only those protocols use port numbers.
• 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.
Firewall Tutorial • Fwd: Shows whether the filter forwards (Yes) a packet or discards (No) it when there’s • • • • • a match. Src-IP: The packet source IP address to match. Src-Mask: The packet source subnet mask to match. Dst-IP: The packet destination IP address to match. Dst-Mask: The packet destination IP address to match. Protocol: 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.
• Source IP Address = 199.211.211.17 • Source IP address mask = 255.255.255.255 • Destination IP Address = 0.0.0.0 • Destination IP address mask = 0.0.0.
Firewall Tutorial 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: 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.
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.
Working with IP Filters and Filter Sets Working with IP Filters and Filter Sets To work with filters and filter sets, begin by accessing the filter set pages. ☛ NOTE: Make sure you understand how filters work before attempting to use them. Read the section “Packet Filter” on page 167. The procedure for creating and maintaining filter sets is as follows: 1. Add a new filter set. See Adding a filter set, below. 2. Create the filters for the new filter set. See “Adding filters to a filter set” on page 178.
Enter new name for the filter set, for example Filter Set 1. To save the filter set, click the Submit button. The saved filter set is empty (contains no filters), but you can return to it later to add filters (see “Adding filters to a filter set”). ☛ NOTE: As you begin to build a filter set, and as you add filters, after your first entry, the Alert icon will appear in the upper right corner of the web page. It will remain until all of your changes are entered and validated.
Working with IP Filters and Filter Sets packet WAN input filter LAN packet output filter The Netopia Router Packets in Netopia Firmware Version 7.6.1 pass through an input filter if they originate from 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.
The Filter Set page appears. ☛ Note: There are two Add buttons in this page, one for input filters and one for output filters. 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. 1. To add a filter, click the Add button under Input Rules. The Input Rule Entry page appears.
Working with IP Filters and Filter Sets 2. If you want the filter to forward packets that match its criteria to the destination IP address, check the Forward checkbox. If Forward is unchecked, packets matching the filter’s criteria will be discarded. 3. Enter the Source IP address this filter will match on. You can enter a subnet or a host address. 4. Enter the Source 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.
9. From the Source Port Compare pull-down menu, choose a comparison method for the filter to use on a packet’s source port number. Then select Source Port and enter the actual source port number to match on (see the table on page 171). 10. From the Destination Port Compare pull-down menu, choose a comparison method for the filter to use on a packet’s destination port number. Then select Destination Port and enter the actual destination port number to match on (see the table on page 171). 11.
Associating a Filter Set with an Interface Modifying filters To modify a filter, select a filter from the table and click the Edit button. The Rule Entry page appears. The parameters in this page are set in the same way as the ones in the original Rule Entry page (see “Adding filters to a filter set” on page 178). Deleting filters To delete a filter, select a filter from the table and click the Delete button.
Click the Ethernet 100BT link. The Ethernet 100BT page appears. From the pull-down menu, select the filter set to associate with this interface. Click the Submit button. The Alert icon will appear in the upper right corner of the page. Click the Alert icon to go to the validation page, where you can save your configuration. You can repeat this process for both the WAN and LAN interfaces, to associate your filter sets. When you return to the Filter Sets page, it will display your interface associations.
Associating a Filter Set with an Interface 185
Policy-based Routing using Filtersets Netopia Firmware Version 7.6.1 offers the ability to route IP packets using criteria other than the destination IP address. This is called policy-based routing. You specify the routing criteria and routing information by using IP filtersets to determine the forwarding action of a particular filter. You specify a gateway IP address, and each packet matching the filter is routed according to that gateway address, rather than by means of the global routing table.
Policy-based Routing using Filtersets If you check the Idle Reset checkbox, a match on this rule will keep the WAN connection alive by resetting the idle-timeout status. The Idle Reset setting is used to determine if a packet which matches the filter will cause an “instant-on” link to connect, if it is down; or reset its idle timer, if it is already up.
configure one filter to match the first type of packet and apply Force Routing. A subsequent filter is required to match and forward all other packets. Management IP traffic If the Force Routing filter is applied to source IP addresses, it may inadvertently block communication with the router itself. You can avoid this by preceding the Force Routing filter with a filter that matches the destination IP address of the Gateway itself.
Policy-based Routing using Filtersets Link: Security Log Security Monitoring is a keyed feature. See page 197 for information concerning installing Netopia Software Feature Keys. Security Monitoring detects security-related events, including common types of malicious attacks, and writes them to the security log file. Using the Security Monitoring Log You can view the Security Log at any time. Use the following steps: 1. 2. 3. 4. 5. Click the Security toolbar button. Click the Security Log link.
Your Netopia Gateway has detected and successfully blocked an event that could have compromised the security of your network. Please refer to your customer documentation for a description of the logged event.
Policy-based Routing using Filtersets To reset this log, select Reset from the Security Monitor tool bar. The following message is displayed. The security log has been reset. When the Security Log contains no entries, this is the response: The security log is empty.
Install Button: Install From the Install toolbar button you can Install new Operating System Software and Feature Keys as updates become available. On selected models, you can install a Secure Sockets Layer (SSL V3.0) certificate from a trusted Certification Authority (CA) for authentication purposes. If this feature is available on your Gateway, the Install Certificate link will appear in the Install page as shown. Otherwise, it will not appear.
Install Link: Install Software (This link is not available on the 3342/3352 models, since firmware updates must be upgraded via the USB host driver. 3342N/3352N models are upgradeable by this procedsure.) This page allows you to install an updated release of the Netopia Firmware. Updating Your Gateway’s Netopia Firmware Version. You install a new operating system image in your unit from the Install Operating System Software page.
Step 1: Required Files Upgrading Netopia Firmware Version 7.6.1 requires a Netopia firmware image file. Background Firmware upgrade image files are posted periodically on the Netopia website. You can download the latest operating system software for your Gateway by accessing the following URL: http://www.netopia.com/support/resources/hdwr_option.html Be sure to download the correct file for your particular Gateway. Different Gateway models have different firmware files.
Install 3. Enter the filename into the text box by using one of these techniques: The Netopia firmware file name begins with a shortened form of the version number and ends with the suffix “.bin” (for “binary”). Example: nta760.bin a. Click the Browse button, select the file you want, and click Open. -orb. Enter the name and path of the software image you want to install in the text field. 4. Click the Install Software button.
5. When the success message appears, click the Restart button and confirm the Restart when you are prompted. Your Netopia Gateway restarts with its new image. Verify the Netopia Firmware Release To verify that the Netopia firmware image has loaded successfully, use the following steps: 1. 2. Open a web connection to your Netopia Gateway from the computer on your LAN and return to the Home page. Verify your Netopia firmware release, as shown on the Home Page. This completes the upgrade process.
Install Link: Install Key You can obtain advanced product functionality by employing a software Feature Key. Software feature keys are specific to a Gateway's serial number. Once the feature key is installed and the Gateway is restarted, the new feature's functionality becomes enabled. Use Netopia Software Feature Keys Netopia Gateway users obtain advanced product functionality by installing a software feature key.
4. Click the Install Key button. 5. Click the Restart toolbar button. The Confirmation screen appears.
Install 6. Click the Restart the Gateway link to confirm. To check your installed features: 7. 8. Click the Install toolbar button. Click the list of features link.
The System Status page appears with the information from the features link displayed below. You can check that the feature you just installed is enabled.
Install Link: Install Certificate Secure Sockets Layer (SSL) is a protocol for transmitting private information over the Internet. SSL uses two keys to encrypt data: a public key known to everyone and a private or secret key known only to the recipient of the message. Netopia Firmware Version 7.6.1 uses SSL certificates for TR-069 support. SSL certificates are issued by trusted Certification Authorities (CAs). The CA digitally signs each certificate. Each client contains a list of trusted CAs.
The Install Certificate page appears. 2. 3. 4. 202 Browse to the location where you have saved your certificate and select the file, or type the full path. Click the Install Certificate button. Restart your Gateway.
CHAPTER 4 Basic Troubleshooting This section gives some simple suggestions for troubleshooting problems with your Gateway’s initial configuration. Before troubleshooting, make sure you have • read the Quickstart Guide; • plugged in all the necessary cables; and • set your PC’s TCP/IP controls to obtain an IP address automatically.
Status Indicator Lights The first step in troubleshooting is to check the status indicator lights (LEDs) in the order outlined below. Netopia Gateway 2240N/2241N status indicator lights Power USB Internet DSL Ethernet LED Power 204 Action Green when power is on. Red if device malfunctions. Ethernet Solid green when connected. Flash green when there is activity on the LAN. USB (Model 2241N only) Solid green when connected. Flash green when there is activity on the LAN.
Status Indicator Lights Netopia Gateway 2246N status indicator lights Internet L DSL Ethernet 1, 2, 3, 4 ET Ethernet 1, 2, 3, 4 4 DS Power 3 RN ER LED 2 TE W Power IN PO ETHER NET 1 DSL Internet Action Green when power is on. Red if device malfunctions. Solid green when connected. Flash green when there is activity on the LAN. Solid green when Internet connection is established. Solid green when Broadband device is connected. Flashes green for activity on the WAN port.
Netopia Gateway 2247NWG status indicator lights Internet 206 L DSL ET Wireless RN Ethernet 1, 2, 3, 4 S Power DS Ethernet 1, 2, 3, 4 ES 4 Power LED TE EL ER 3 IR W 2 IN W PO ETHER NET 1 DSL Internet Wireless Action Green when power is on. Red if device malfunctions. Solid green when connected. Flash green when there is activity on the LAN. Flashes green when there is activity on the wireless LAN. Off if driver fails to initialize, or if wireless is disabled.
Status Indicator Lights Netopia Gateway 3340(N) status indicator lights Ethernet Link: Solid green when connected Ethernet Traffic: Flashes green when there is activity on the LAN DSL Traffic: e w iv ct A E Po c nc Sy SL PP Po c ffi D ffi Tr a SL D nk Li Tr a et et rn rn he he Et Et er Blinks green when traffic is sent/received over the WAN Power: Solid green when the power is on PPPoE Active: Solid green when PPPoE is negotiated; otherwise, not lit DSL Sync: Blinking green wi
Netopia Gateway 3341(N), 3351(N) status indicator lights Ethernet Link: Solid green when connected Ethernet Traffic: Flashes green when there is activity on the LAN DSL Traffic: er w iv ct A SB Po c nc Sy SL D U c ffi ffi Tr a SL D nk Li Tr a et et rn rn he he Et Et e Blinks green when traffic is sent/received over the WAN Power: Solid green when the power is on USB Active: Solid green when USB is connected otherwise, not lit DSL Sync: Blinking green with no line attached or trai
Status Indicator Lights Netopia Gateway 3342/3342N, 3352/3352N status indicator lights USB: L DS US B Solid green when USB is connected otherwise, not lit DSL: Blinking green with no line attached or training, solid green when trained with the DSL line. ☛ Special patterns: • Both LEDs are off during boot (power on boot or warm reboot). • When the 3342/3352 successfully boots up, both LEDs flash green once. • Both LEDs are off when the Host OS suspends the device, (e.g.
er C w Po 4 N SY D SL 3 N LA N LA 1 N LA LA N 2 Netopia Gateway 3346(N), 3356(N) status indicator lights Power: Solid green when the power is on DSL Sync: Blinks green with no line attached or training, Solid green when trained with the DSL line LAN 1, 2, 3, 4: Solid green when Ethernet link is established Blinks green when traffic is sent or received over the Ethernet 210
Status Indicator Lights Netopia Gateway 3347W, 3347(N)WG status indicator lights Power - Green when power is applied DSL SYNC Flashes green when training Solid green when trained Flashes green for DSL traffic LAN 1, 2, 3, 4 Solid green when connected to each port on the LAN. Flash green when there is activity on each port. Wireless Link - Flashes green when there is activity on the wireless LAN.
Netopia Gateway MiAVo status indicator lights Front View Power Green when power is on. DSL Flashes green when training Solid green when trained Ethernet 1, 2, 3, 4 Solid green when connected. Flash green when there is activity on the LAN. Wireless Flashes green when there is activity on the wireless LAN.
Status Indicator Lights LED Function Summary Matrix Unlit Power USB Active DSL Sync DSL Traffic Ethernet Traffic Ethernet Link Flashing Green Solid Red No power Power on N/A System failure No signal USB port connected to PC Activity on the USB cable N/A No signal DSL line synched with the DSLAM Attempting to train with DSLAM N/A No signal N/A Activity on the DSL cable N/A No signal N/A Activity on the Ethernet cable N/A No signal Synched with Ethernet card N/A N/A No signal Broad
1. Make sure the you are using the correct cable. The DSL cable is the thin- ner standard telephone cable. DSL Sync Unlit 2. Make sure the DSL cable is plugged into the correct wall jack. 3. Make sure the DSL cable is plugged into the DSL port on the 2200- and 3300-series DSL Gateway. 4. Make sure the DSL line has been activated at the central office DSLAM. 5. Make sure the 2200- and 3300-series DSL Gateway is not plugged into EN Link Unlit a micro filter.
Status Indicator Lights • Make sure your client PC(s) have their wireless cards correctly installed Wireless Link and configured. Unlit • Check your client PC(s) TCP/IP settings to make sure they are receiving • an IP address from the wireless Router. Check the Gateway’s log for wireless driver failure messages.
Factory Reset Switch (optional on some models; 3342/3342N/3352/3352N models do not have a reset switch) Lose your password? This section shows how to reset the Netopia Gateway so that you can access the configuration screens once again. ☛ NOTE: Keep in mind that all of your settings will need to be reconfigured. If you don't have a password, the only way to access the Netopia Gateway is the following: 1. 216 Referring to the following diagram, find the round Reset Switch opening.
Factory Reset Switch 3397GP DSL LAN 4 1 2 3 Power Off/On Factory Reset Switch: Push to clear all settings 2247NWG 3347W/3357W DSL 4 3 LAN 2 1 Power Off / On Factory Reset Switch: Push to clear all settings 2240N Factory Reset Switch: Push to clear all settings Factory Reset Switch: Push to clear all settings 3341/3351 3 Ethernet 4 USB 2241N 1 Power 2 DSL On / Off Factory Reset Switch: Push to clear all settings 2246N 3346/3356 4 3 LAN 2 1 Power Off / On DSL Factory Reset Sw
CHAPTER 5 Advanced Troubleshooting Advanced Troubleshooting can be accessed from the Gateway’s Web UI. Point your browser to http://192.168.1.254. The main page displays the device status. (If this does not make the Web UI appear, then do a release and renew in Windows networking to see what the Gateway address really is.
Home Page The home page displays basic information about the Gateway. This includes the ISP Username, Connection Status, Device Address, Remote Gateway Address, DNS-1, and DNS-2. If you are not able to connect to the Internet, verify the following: Item 220 Description Local WAN IP Address This is the negotiated address of the Gateway’s WAN interface. This address is usually dynamically assigned.
Item Status of Connection Description ‘Waiting for DSL’ is displayed while the Gateway is training. This should change to ‘Up’ within two minutes. If not, make sure an RJ-11 cable is used, the Gateway is connected to the correct wall jack, and the Gateway is not plugged into a micro filter. ‘No Connection’ is displayed if the Gateway has trained but failed the PPPoE login. This usually means an invalid user name or password. Go to Expert Mode and change the PPPoE name and password.
Item Date & Time Description If this is blank, you likely lack a network connection, or your NTP server information is incorrect. If all of the above seem correct, then access Expert Mode by clicking the Expert Mode link. Button: Troubleshoot Expert Mode Expert Mode has advanced troubleshooting tools that are used to pinpoint the exact source of a problem. Clicking the Troubleshoot tab displays a page with links to System Status, Network Tools, and Diagnostics.
Link: System Status In the system status screen, there are several utilities that are useful for troubleshooting. Some examples are given in the following pages.
Link: Ports: Ethernet The Ethernet port selection shows the traffic sent and received on the Ethernet interface. There should be frames and bytes on both the upstream and downstream sides. If there are not, this could indicate a bad Ethernet cable or no Ethernet connection.
Link: Ports: DSL The DSL port selection shows the state of the DSL line, whether it is up or down and how many times the Gateway attempted to train. The state should indicate ‘up’ for a working configuration. If it is not, check the DSL cable and make sure it is plugged in correctly and not connected to a micro filter.
Link: IP: Interfaces The IP interfaces selection shows the state and configuration information for your IP LAN and WAN interfaces. Below is an example: IP interfaces: Ethernet 100BT: ( up broadcast default rip-send v1 rip-receive v1 ) inet 192.168.1.1 netmask 255.255.255.0 broadcast 192.168.1.255 physical address 00-00-00-00-00-00 mtu 1500 PPP over Ethernet vcc1: ( up address-mapping broadcast default admin-disabled rip-send v1 rip-receive v1 ) inet 0.0.0.0 netmask 0.0.0.0 broadcast 0.0.0.
Link: DSL: Circuit Configuration The DSL Circuit Configuration screen shows the traffic sent and received over the DSL line as well as the trained rate (upstream and downstream) and the VPI/VCI. Verify traffic is being sent over the DSL line. If not, check the cabling and make sure the Gateway is not connected to a micro filter. Also verify the correct PVC is listed, which should be 0/35 (some providers use other values, such as 8/35. Check with your provider).
Link: System Log: Entire The system log shows the state of the WAN connection as well as the PPPoE session. Verify that the PPPoE session has been correctly established and there are no failures. If there are error messages, go to the WAN configuration and verify the settings. The following is an example of a successful connection: Message Log: 00:00:00:00 L3 KS: Using configured options found in flash 00:00:00:00 L3 BOOT: Warm start v7.
Link: Diagnostics The diagnostics section tests a number of different things at the same time, including the DSL line, the Ethernet interface and the PPPoE session.
Link: Network Tools Three test tools are available from this page. • NSLookup - converts a domain name to its IP address and vice versa. • Ping - tests the “reachability” of a particular network destination by sending an ICMP echo request and waiting for a reply. • TraceRoute - displays the path to a destination by showing the number of hops and the router addresses of these hops. 1.
PING: The network tools section sends a PING from the Gateway to either the LAN or WAN to verify connectivity. A PING could be either an IP address (163.176.4.32) or Domain Name (www.netopia.com). 2. To use the Ping capability, type a destination address (domain name or IP address) in the text box and click the Ping button. Example: Ping to grosso.com. ping www.grosso.com Pinging 192.150.14.120 from local address 143.137.199.8 (timer gran. 100 ms)... Ping size: 100 Ping count: 5 ICMP echo reply from 192.
Below are some specific tests: Action If PING is not successful, possible causes are: From the Gateway's Network Tools page: Ping the internet default gateway IP address DSL is down, DSL or ATM settings are incorrect; Gateway’s IP address or subnet mask are wrong; gateway router is down. Ping an internet site by IP address Gateway’s default gateway is incorrect, Gateway’s subnet mask is incorrect, site is down.
Example: Show the path to the grosso.com site. traceroute www.grosso.com Traceroute to 192.150.14.120 from address 143.137.199.8 (timer gran. 100 ms)... 30 hops max, 56 byte packets 1 143.137.199.254 100 ms 100 ms 0 ms 2 143.137.50.254 100 ms 0 ms 0 ms 3 143.137.137.254 100 ms 0 ms 100 ms 4 141.154.96.161 0 ms 0 ms 100 ms 5 141.154.8.13 0 ms 100 ms 0 ms 6 4.24.92.97 0 ms 100 ms 0 ms 7 4.24.4.225 100 ms 0 ms 100 ms 8 4.24.7.121 0 ms 0 ms 100 ms 9 4.24.7.113 0 ms 100 ms 0 ms 10 4.24.6.
CHAPTER 6 Command Line Interface The Netopia Gateway operating software includes a command line interface (CLI) that lets you access your Netopia Gateway over a telnet connection. You can use the command line interface to enter and update the unit’s configuration settings, monitor its performance, and restart it.
Overview The CLI has two major command modes: SHELL and CONFIG. Summary tables that list the commands are provided below. Details of the entire command set follow in this section.
Overview CONFIG Commands Command Verbs delete help save script set validate view Status and/or Description Delete configuration list data Help command option Save configuration data Print configuration data Set configuration data Validate configuration settings View configuration data Keywords atm bridge dhcp dmt diffserv dns dslf-cpewan dslf-lanmgnt dynamic-dns ethernet igmp ip ip-maps nat-default pinhole ppp pppoe preferences radius security servers snmp system upnp vlan wireless ATM options (DSL only) Brid
Command Utilities top quit exit Go to top level of configuration mode Exit from configuration mode; return to shell mode Exit from configuration mode; return to shell mode Starting and Ending a CLI Session Open a telnet connection from a workstation on your network. You initiate a telnet connection by issuing the following command from an IP host that supports telnet, for example, a personal computer running a telnet application such as NCSA Telnet.
Using the CLI Help Facility Saving Settings In CONFIG mode, the save command saves the working copy of the settings to the Gateway. The Gateway automatically validates its settings when you save and displays a warning message if the configuration is not correct. Using the CLI Help Facility The help command lets you display on-line help for SHELL and CONFIG commands. To display a list of the commands available to you from your current location within the command line interface hierarchy, enter help.
The only commands you cannot truncate are restart and clear. To prevent accidental interruption of communications, you must enter the restart and clear commands in their entirety. You can use the Up and Down arrow keys to scroll backward and forward through recent commands you have entered. Alternatively, you can use the !! command to repeat the last command you entered. SHELL Commands Common Commands arp nnn.nnn.nnn.nnn Sends an Address Resolution Protocol (ARP) request to match the nnn.nnn.nnn.
SHELL Commands diagnose Runs a diagnostic utility to conduct a series of internal checks and loopback tests to verify network connectivity over each interface on your Netopia Gateway. The console displays the results of each test as the diagnostic utility runs. If one test is dependent on another, the diagnostic utility indents its entry in the console window.
install [server_address] [filename] [confirm] (Not supported on model 3342/3352) Downloads a new version of the Netopia Gateway operating software from a TFTP (Trivial File Transfer Protocol) server, validates the software image, and programs the image into the Netopia Gateway memory. After you install new operating software, you must restart the Netopia Gateway. The server_address argument identifies the IP address of the TFTP server on which your Netopia Gateway operating software is stored.
SHELL Commands • 1 or low – Low-level informational messages or greater; includes trivial status messages. • 2 or medium – Medium-level informational messages or greater; includes status messages that can help monitor network traffic. • 3 or high – High-level informational messages or greater; includes status messages that may be significant but do not constitute errors. • 4 or warning – Warnings or greater; includes recoverable error conditions and useful operator information.
• The -c count argument lets you specify the number of ICMP packets generated for the ping request. Values greater than 250 are truncated to 250. You can use the ping command to determine whether a hostname or IP address is already in use on your network. You cannot use the ping command to ping the Netopia Gateway’s own IP address. quit Exits the Netopia Gateway command line interface. reset arp Clears the Address Resolution Protocol (ARP) cache on your unit.
SHELL Commands reset diffserv Resets the Differentiated Services (diffserv) statistics. reset enet Resets Ethernet statistics to zero reset heartbeat Restarts the heartbeat sequence. reset ipmap Clears the IPMap table (NAT). reset log Rewinds the diagnostic log display to the top of the existing Netopia Gateway diagnostic log. The reset log command does not clear the diagnostic log. The next show log command will display information from the beginning of the log file.
show all-info Displays all settings currently configured in the Netopia Gateway. show bridge interfaces Displays bridge interfaces maintained by the Netopia Gateway. show bridge table Displays the bridging table maintained by the Netopia Gateway. show config Dumps the Netopia Gateway’s configuration script just as the script command does in config mode. show crash Displays the most recent crash information, if any, for your Netopia Gateway. show dhcp agent Displays DHCP relay-agent leases.
SHELL Commands show features Displays standard and keyed features installed in the Netopia Gateway. show group-mgmt Displays the IGMP Snooping Table. See “IGMP (Internet Group Management Protocol)” on page 102 for detailed explanation. show ip arp Displays the Ethernet address resolution table stored in your Netopia Gateway. show ip igmp Displays the contents of the IGMP Group Address table and the IGMP Report table maintained by your Netopia Gateway.
show ip state-insp Displays whether stateful inspection is enabled on an interface or not, exposed addresses and blocked packet statistics because of stateful inspection. show ipmap Displays IPMap table (NAT). show log Displays blocks of information from the Netopia Gateway diagnostic log. To see the entire log, you can repeat the show log command or you can enter show log all. show memory [all] Displays memory usage information for your Netopia Gateway.
SHELL Commands show wireless [all] Shows wireless status and statistics. show wireless clients [ MAC_address ] Displays details on connected clients, or more details on a particular client if the MAC address is added as an argument. telnet { hostname | ip_address } [port] Lets you open a telnet connection to the specified host through your Netopia Gateway. • The hostname argument is the name of the device to which you want to connect; for example, telnet ftp.netopia.com.
who Displays the names of the current shell and PPP users. WAN Commands atmping vccn [ segment | end-to-end ] Lets you check the ATM connection reachability and network connectivity. This command sends five Operations, Administration, and Maintenance (OAM) loopback calls to the specified vpi/vci destination. There is a five second total timeout interval. Use the segment argument to ping a neighbor switch. Use the end-to-end argument to ping a remote end node.
About CONFIG Commands show atm [all] Displays ATM statistics for the Netopia Gateway. The optional all argument displays a more detailed set of ATM statistics. show dsl Displays DSL port statistics, such as upstream and downstream connection rates and noise levels. show ppp [{ stats | lcp | ipcp }] Displays information about open PPP links. You can display a subset of the PPP statistics by including an optional stats, lcp, or ipcp argument for the show ppp command.
Navigating the CONFIG Hierarchy • Moving from CONFIG to SHELL — You can navigate from anywhere in the CONFIG hierarchy back to the SHELL level by entering quit at the CONFIG prompt and pressing RETURN. Netopia-3000/9437188 (top)>> quit Netopia-3000/9437188 > • Moving from top to a subnode — You can navigate from the top node to a subnode by entering the node name (or the significant letters of the node name) at the CONFIG prompt and pressing RETURN.
About CONFIG Commands Entering Commands in CONFIG Mode CONFIG commands consist of keywords and arguments. Keywords in a CONFIG command specify the action you want to take or the entity on which you want to act. Arguments in a CONFIG command specify the values appropriate to your site. For example, the CONFIG command set ip ethernet A ip_address consists of two keywords (ip, and ethernet A) and one argument (ip_address).
Guidelines: CONFIG Commands The following table provides guidelines for entering and formatting CONFIG commands. Command component Command verbs Keywords Argument Text Numbers IP addresses Rules for entering CONFIG commands CONFIG commands must start with a command verb (set, view, delete). You can truncate CONFIG verbs to three characters (set, vie, del). CONFIG verbs are case-insensitive. You can enter “SET,” “Set,” or “set.” Keywords are case-insensitive.
About CONFIG Commands When you are in step mode, the command line interface prompts you to enter required and optional settings. If a setting has a default value or a current setting, the command line interface displays the default value for the command in parentheses. If a command has a limited number of acceptable values, those values are presented in brackets, with each value separated by a vertical line.
CONFIG Commands This section describes the keywords and arguments for the various CONFIG commands. DSL Commands ATM Settings. You can use the CLI to set up each ATM virtual circuit. set atm option {on | off } Enables the WAN interface of the Netopia Gateway to be configured using the Asynchronous Transfer Mode (ATM) protocol. set atm [vcc n] option {on | off } Selects the virtual circuit for which further parameters are set.
CONFIG Commands the raw WAN (DSL) bit rate. The Maximum Burst Size (MBS) is the number of cells that can be sent at the PCR rate, after which the PVC must fall back to the SCR rate. set atm [vcc n] qos sustained-cell-rate { 1 ...n } If QoS class is set to vbr, then specify the sustained-cell-rate that should apply to the specified virtual circuit. This value should be less than, or equal to the Peak Cell Rate, which should be less than, or equal to the line rate. set atm [vcc n] qos max-burst-size { 1 ..
Your Service Provider will indicate the required encapsulation mode. set atm [vccn] pppoe-sessions { 1 ... 8 } Select the number of PPPoE sessions to be configured for VCC 1, up to a total of eight. The total number of pppoe-sessions and PPPoE VCCs configured must be less than or equal to eight. Bridging Settings Bridging lets the Netopia Gateway use MAC (Ethernet hardware) addresses to forward nonTCP/IP traffic from one network to another.
CONFIG Commands set bridge ethernet option { on | off } Enables or disables bridging services for the specified virtual circuit using Ethernet framing. set bridge dsl vccn option { on | off } Enables or disables bridging services for the specified interface. Specified interface must be part of a VLAN if bridge is turned on. Only RFC-1483 Bridged encapsulation is supported currently. • show log command will show that WAN Bridge is enabled when at least one WAN interface is bridged.
set dhcp start-address ip_address If you selected server, specifies the first address in the DHCP address range. The Netopia Gateway can reserve a sequence of up to 253 IP addresses within a subnet, beginning with the specified address for dynamic assignment. set dhcp end-address ip_address If you selected server, specifies the last address in the DHCP address range. set dhcp lease-time lease-time If you selected server, specifies the default length for DHCP leases issued by the Netopia Gateway.
CONFIG Commands DMT Settings DSL Commands set dmt type [ lite | dmt | ansi | multi | adsl2 | adsl2+ | readsl2 | adsl2anxm | adsl2+anxm ] Selects the type of Discrete Multitone (DMT) asynchronous digital subscriber line (ADSL) protocol to use for the WAN interface. Beginning with Firmware Version 7.6, the type value also supports the following settings on certain model units: adsl2, adsl2+, readsl2, adsl2anxm, adsl2+anxm.
• auto - The device will scan for standard telephone service (POTS). If it finds POTS, it disables metallic termination. If it does not find POTS during the search period, then metallic termination is enabled. • disabled - There is no POTS detection, and metallic termination is disabled. • always_on - The device will scan for POTS for information only. Metallic termination is always enabled.
CONFIG Commands rent dynamically-assigned IP address. This allows you to get to the IP address assigned to your Gateway, even though your actual IP address may change as a result of a PPPoE connection to the Internet. set dynamic-dns option [ off | dyndns.org ] set dynamic-dns ddns-host-name myhostname.dyndns.org set dynamic-dns ddns-user-name myusername set dynamic-dns ddns-user-password myuserpassword Enables or disables dynamic DNS services. The default is off. If you specify dyndns.
• Querier Version – select a version of the IGMP Querier: version 1 or version 2. If you know you will be communicating with other hosts that are limited to v1, for backward compatibility, select v1; otherwise, allow the default v2. ☛ NOTE: IGMP Querier version is relevant only if the router is configured for IGMP forwarding. If any IGMP v1 routers are present on the subnet, the querier must use IGMP v1.
CONFIG Commands set igmp query-response-intvl value Sets the query-response interval range: from 5 deci-seconds (tenths of a second) – 255 deci-seconds. The default is 100 deci-seconds. set igmp unsol-report-intvl value Sets the unsolicited report interval: the amount of time in seconds between repetitions of a particular computer’s initial report of membership in a group. The default is 10 seconds. set igmp version value Sets the IGMP querier version: version 1 or version 2.
IP Settings You can use the command line interface to specify whether TCP/IP is enabled, identify a default Gateway, and to enter TCP/IP settings for the Netopia Gateway LAN and WAN ports. ☛ NOTE: For the DSL platform you must identify the virtual PPP interface [vccn], a number from 1 to 8. Common Settings set ip option { on | off } Enables or disables TCP/IP services in the Netopia Gateway. You must enable TCP/IP services before you can enter other TCP/IP settings for the Netopia Gateway.
CONFIG Commands The broadcast address for most networks is the network number followed by 255. For example, the broadcast address for the 192.168.1.0 network would be 192.168.1.255. set ip dsl vccn netmask netmask Specifies the subnet mask for the TCP/IP network connected to the virtual circuit. The subnet mask specifies which bits of the 32-bit binary IP address represents network information. The default subnet mask for most networks is 255.255.255.0 (Class C subnet mask).
If you specify v2-MD5, you must also specify a rip-send-key. Keys are ASCII strings with a maximum of 31 characters, and must match the other router(s) keys for proper operation of MD5 support. set ip dsl vccn rip-receive { off | v1 | v2 | v1-compat | v2-MD5 } Specifies whether the Netopia Gateway should use Routing Information Protocol (RIP) broadcasts to update its routing tables with information received from other routers. If you specify v2-MD5, you must also specify a rip-receive-key.
CONFIG Commands set ip ethernet A netmask netmask Specifies the subnet mask for the local Ethernet interface. The subnet mask specifies which bits of the 32-bit binary IP address represent network information. The default subnet mask for most networks is 255.255.255.0 (Class C subnet mask). set ip ethernet A restrictions { none | admin-disabled } Specifies whether an administrator can open a telnet connection to a Netopia Gateway over an Ethernet interface (A = the LAN) to monitor and configure the unit.
set ip ethernet A rip-receive { off | v1 | v2 | v1-compat | v2-MD5 } Specifies whether the Netopia Gateway should use Routing Information Protocol (RIP) broadcasts to update its routing tables with information received from other routers on your network. If you specify v2-MD5, you must also specify a rip-receive-key. Keys are ASCII strings with a maximum of 31 characters, and must match the other router(s) keys for proper operation of MD5 support.
CONFIG Commands set ip ip-ppp [vccn] address ip_address Assigns an IP address to the virtual PPP interface. If you specify an IP address other than 0.0.0.0, your Netopia Gateway will not negotiate its IP address with the remote peer. If the remote peer does not accept the IP address specified in the ip_address argument as valid, the link will not come up. The default value for the ip_address argument is 0.0.0.
set ip ip-ppp [vccn] rip-send { off | v1 | v2 | v1-compat | v2-MD5 } Specifies whether the Netopia Gateway unit should use Routing Information Protocol (RIP) broadcasts to advertise its routing tables to routers on the other side of the PPP link. An extension of the original Routing Information Protocol (RIP-1), RIP Version 2 (RIP-2) expands the amount of useful information in the packets. While RIP-1 and RIP-2 share the same basic algorithms, RIP-2 supports several new features.
CONFIG Commands Static ARP Settings Your Netopia Gateway maintains a dynamic Address Resolution Protocol (ARP) table to map IP addresses to Ethernet (MAC) addresses. Your Netopia Gateway populates this ARP table dynamically, by retrieving IP address/MAC address pairs only when it needs them. Optionally, you can define static ARP entries to map IP addresses to their corresponding Ethernet MAC addresses. Unlike dynamic ARP table entries, static ARP table entries do not time out.
IP Prioritization set ip prioritize [ off | on ] Allows you to support traffic that has the TOS bit set. This defaults to off. Differentiated Services (DiffServ) The commands in this section are supported beginning with Firmware Version 7.4.2. set diffserv option [ off | on ] Turns the DiffServ option off (default) or on. on enables the service and IP TOS bits are used, even if no flows are defined.
CONFIG Commands set diffserv custom-flows name name protocol [ TCP | UDP | ICMP | other ] direction [ outbound | inbound | both ] start-port [ 0 - 49151 ] end-port [ 0 - 49151 ] inside-ip inside-ip-addr inside-ip-mask inside-ip-netmask outside-ip outside-ip-addr outside-ip-mask outside-ip-netmask qos [ off | assure | expedite ] Defines or edits a custom flow. Select a name for the custom-flow from the set command. The CLI will step into the newly-named or previously-defined flow for editing.
• qos – Allows you to specify the Quality of Service for the flow: off, assure, or expedite. These are used both to mark the IP TOS byte and to distribute packets into the queues as if they were marked by the source. SIP Passthrough set ip sip-passthrough [ on | off ] Turns Session Initiation Protocol application layer gateway client passthrough on or off. The default is on.
CONFIG Commands set ip static-routes destination-network net_address interface { ip-address | ppp-vccn } Specifies the interface through which the static route is accessible. set ip static-routes destination-network net_address gateway-address gate_address Specifies the IP address of the Gateway for the static route. The default Gateway must be located on a network connected to the Netopia Gateway configured interface.
IPMaps Settings set ip-maps name internal-ip Specifies the name and static ip address of the LAN device to be mapped. set ip-maps name external-ip Specifies the name and static ip address of the WAN device to be mapped. Up to 8 mapped static IP addresses are supported.
CONFIG Commands set nat-default host-hardware-address MAC_address } Specifies the hardware (MAC) address of the IP passthrough host. If the MAC address is specified as all-zeroes, the first DHCP client that requests an IP address gets the passthrough address. Network Address Translation (NAT) Pinhole Settings NAT pinholes let you pass specific types of network traffic through the NAT interfaces on the Netopia Gateway.
set pinhole name name external-port-end [ 0 - 49151 ] Specifies the last port number in the range being translated. set pinhole name name internal-ip internal-ip Specifies the IP address of the internal host to which traffic of the specified type should be transferred. set pinhole name name internal-port [ 0 - 65535 ] Specifies the port number your Netopia Gateway should use when forwarding traffic of the specified type.
CONFIG Commands set ppp module [vccn] mru integer Specifies the Maximum Receive Unit (MRU) for the PPP interface. The integer argument can be any number between 128 and 1492 for PPPoE; 1500 otherwise. set ppp module [vccn] magic-number { on | off } Enables or disables LCP magic number negotiation. set ppp module [vccn] protocol-compression { on | off } Specifies whether you want the Netopia Gateway to compress the PPP Protocol field when it transmits datagrams over the PPP link.
set ppp module [vccn] configure-max integer Specifies the maximum number of unacknowledged configuration requests that your Netopia Gateway will send. The integer argument can be any number between 1 and 20. set ppp module [vccn] terminate-max integer Specifies the maximum number of unacknowledged termination requests that your Netopia Gateway will send before terminating the PPP link. The integer argument can be any number between 1 and 10.
CONFIG Commands CHAP and specify the same name and secret on the Netopia Gateway before the link can be established. set ppp module [vccn] port-authentication option [ off | on | pap-only | chap-only ] Specifying on turns both PAP and CHAP on, or you can select PAP or CHAP. Specify the username and password when port authentication is turned on (both CHAP and PAP, CHAP or PAP.) Authentication must be enabled before you can enter other information.
set preference more lines Specifies how many lines of information you want the command line interface to display at one time. The lines argument specifies the number of lines you want to see at one time. The range is 1-65535. By default, the command line interface shows you 22 lines of text before displaying the prompt: More …[y|n] ?.
CONFIG Commands Port Renumbering Settings If you use NAT pinholes to forward HTTP or telnet traffic through your Netopia Gateway to an internal host, you must change the port numbers the Netopia Gateway uses for its own configuration traffic. For example, if you set up a NAT pinhole to forward network traffic on Port 80 (HTTP) to another host, you would have to tell the Netopia Gateway to listen for configuration connection requests on a port number other than 80, such as 6080.
Security Settings Security settings include the Firewall and IPSec parameters. All of the security functionality is keyed. Firewall Settings (for BreakWater Firewall) set security firewall option [ ClearSailing | SilentRunning | LANdLocked ] The 3 settings for BreakWater are discussed in detail on page page 138. SafeHarbour IPSec Settings SafeHarbour VPN is a tunnel between the local network and another geographically dispersed network that is interconnected over the Internet.
CONFIG Commands set security ipsec tunnels name "123" tun-enable (on) {on | off} This enables this particular tunnel. Currently, one tunnel is supported. set security ipsec tunnels name "123" dest-ext-address ip-address Specifies the IP address of the destination gateway. set security ipsec tunnels name "123" dest-int-network ip-address Specifies the IP address of the destination computer or internal network.
set security ipsec tunnels name "123" IKE-mode pre-shared-key ("") {hex string} See page 143 for details about SafeHarbour IPsec tunnel capability. Example: 0x1234 set security ipsec tunnels name "123" IKE-mode neg-method {main | aggressive} See page 143 for details about SafeHarbour IPsec tunnel capability. Note: Aggressive Mode is a little faster, but it does not provide identity protection for negotiations nodes.
CONFIG Commands set security ipsec tunnels name "123" IKE-mode PFS-enable { off | on } See page 143 for details about SafeHarbour IPsec tunnel capability. set security ipsec tunnels name "123" IKE-mode invalid-spi-recovery { off | on } Enables the Gateway to re-establish the tunnel if either the Netopia Gateway or the peer gateway is rebooted. set security ipsec tunnels name "123" xauth enable {off | on } Enables or disables Xauth extensions to IPsec, when IKE-mode neg-method is set to aggressive.
set security ipsec tunnels name "123" local-id id_value Specifies the NAT local ID value as specified in the local-id-type for the specified IPsec tunnel, when Aggressive Mode is set.
CONFIG Commands Internet Key Exchange (IKE) Settings The following four IPsec parameters configure the rekeying event.
Stateful Inspection Stateful inspection options are accessed by the security state-insp tag. set security state-insp [ ip-ppp | dsl ] vccn option [ off | on ] set security state-insp ethernet [ A | B ] option [ off | on ] Sets the stateful inspection option off or on on the specified interface. This option is disabled by default. Stateful inspection prevents unsolicited inbound access when NAT is disabled.
CONFIG Commands set security state-insp udp-timeout [ 30 - 65535 ] Sets the stateful inspection UDP timeout interval, in seconds. set security state-insp xposed-addr exposed-address# "n" Allows you to add an entry to the specified list, or, if the list does not exist, creates the list for the stateful inspection feature. xposed-addr settings only apply if NAT is off. Example: set security state-insp xposed-addr exposed-address# (?): 32 32 has been added to the xposed-addr list.
set security state-insp xposed-addr exposed-address# "n" start-port [ 1 - 65535 ] set security state-insp xposed-addr exposed-address# "n" end-port [ 1 - 65535 ] Packet Filtering Settings Packet Filtering settings are supported beginning with Firmware Version 7.4. Packet Filtering has two parts: • Create/Edit/Delete Filter Sets, create/edit/delete rules to a Filter Set. • Associate a created Filter Set with a WAN or LAN interface See “Packet Filter” on page 167 for more information.
CONFIG Commands set security pkt-filter filterset filterset-name [ in | out ] index frc-rte [ on | off ] Turns forced routing on or off for the specified filter rule. A match on this rule will force a route for packets. The default is off. set security pkt-filter filterset filterset-name [ in | out ] index gateway ip_addr Specifies the gateway IP address for forced routed packets, if forced routing is enabled.
set security pkt-filter filterset filterset-name [ in | out ] index tos-mask value Specifies the TOS (Type Of Service) mask to match packets. The value for tos-mask can be from 0 – 255. set security pkt-filter filterset filterset-name [ in | out ] index protocol value Specifies the protocol value to match packets, the type of higher-layer Internet protocol the packet is carrying, such as TCP or UDP. The value for protocol can be from 0 – 255.
CONFIG Commands Operator Action le Less than or equal to eq Equal to ge Greater than or equal to gt Greater than set security pkt-filter filterset filterset-name [ in | out ] index src-port value Specifies the source IP port to match packets (the port on the sending host that originated the packet, if the underlying protocol is TCP or UDP).
SNMP Settings The Simple Network Management Protocol (SNMP) lets a network administrator monitor problems on a network by retrieving settings on remote network devices. The network administrator typically runs an SNMP management station program on a local host to obtain information from an SNMP agent such as the Netopia Gateway. set snmp community read name Adds the specified name to the list of communities associated with the Netopia Gateway.
CONFIG Commands SNMP Notify Type Settings SNMP Notify Type is supported beginning with Firmware Version 7.4.2.
set system diagnostic-level { off | low | medium | high | alerts | failures } Specifies the types of log messages you want the Netopia Gateway to record. All messages with a level equal to or greater than the level you specify are recorded. For example, if you specify set system diagnostic-level medium, the diagnostic log will retain medium-level informational messages, alerts, and failure messages. Specifying off turns off logging.
CONFIG Commands set system password { admin | user } Specifies the administrator or user password for a Netopia Gateway. When you enter the set system password command, you are prompted to enter the old password (if any) and new password. You are prompted to repeat the new password to verify that you entered it correctly the first time. To prevent anyone from observing the password you enter, characters in the old and new passwords are not displayed as you type them.
out, each heartbeat sequence will send out a total 20 heartbeats, spaced at 30 second intervals, and then sleep for 30 minutes. So to have the Gateway send out packets “forever”, this number can be set very high. If it is 1440 and the interval is 1 minute, say, the heartbeat will go out every minute for 1440 minutes, or one day, before sleeping. • The sleep setting is part of sequence control. This is the time to sleep before starting another heartbeat sequence, in d:h:m:s.
CONFIG Commands http:///optionalPath https:///optionalPath:port https:///optionalPath /optionalPath:port /optionalPath If the port number is omitted, port 80 will be assumed. Save and Restart are required to enforce these commands. Syslog set system syslog option [ off | on ] Enables or disables system syslog feature.
Default syslog installation procedure 1. Access the router via telnet from the private LAN. DHCP server is enabled on the LAN by default. 2. The product’s stateful inspection feature must be enabled in order to examine TCP, UDP and ICMP packets destined for the router or the private hosts. This can be done by entering the CONFIG interface.
CONFIG Commands 5. set system ntp alt-server-address Type the command to save the configuration • Type save • Exit the configuration interface by typing exit • Restart the router by typing restart The router will reboot with the new configuration in effect.
Wireless Settings (supported models) set wireless option ( on | off ) Administratively enables or disables the wireless interface. set wireless network-id ssid { network_name } Specifies the wireless network id for the Gateway. A unique ssid is generated for each Gateway. You must set your wireless clients to connect to this exact id, which can be changed to any 32-character string. set wireless auto-channel mode { off | at-startup | continuous } Specifies the wireless AutoChannel Setting for 802.
CONFIG Commands set wireless mode { both-b-and-g | b-only | g-only } Beginning with Netopia Firmware Version 7.5.1. specifies the wireless operating mode for connecting wireless clients: both-b-and-g, b-only, or g-only, and locks the Gateway in that mode. ☛ NOTE: If you choose to limit the operating mode to B or G only, clients using the mode you excluded will not be able to connect. set wireless multi-ssid option { on | off } Beginning with Netopia Firmware Version 7.5.1.
set wireless multi-ssid second-ssid-privacy { off | WEP | WPA-PSK | WPA-802.1x } set wireless multi-ssid third-ssid-privacy { off | WEP | WPA-PSK | WPA-802.1x } set wireless multi-ssid fourth-ssid-privacy { off | WEP | WPA-PSK | WPA-802.1x } Specifies the type of privacy enabled on multiple SSIDs when multi-ssid option is set to on. off = no privacy; WEP = WEP encryption; WPA-PSK = Wireless Protected Access/PreShared Key; WPA-802.1x = Wireless Protected Access/802.1x authentication.
CONFIG Commands set wireless multi-ssid second-ssid-wepkey { hexadecimal digits } set wireless multi-ssid third-ssid-wepkey { hexadecimal digits } set wireless multi-ssid fourth-ssid-wepkey { hexadecimal digits } Specifies a WEP key for the multiple SSIDs, when second-, third-, or fourth-ssid-privacy is set to WEP. For 40/64bit encryption, you need 10 digits; 26 digits for 128bit, and 58 digits for 256bit WEP. Valid hexadecimal characters are 0 – 9, a – f.
protect your network and data from intruders. Note that 40bit is the same as 64bit and will work with either type of wireless client. The default is off. A single key is selected (see default-key) for encryption of outbound/transmitted packets. The WEP-enabled client must have the identical key, of the same length, in the identical slot (1..4) as the wireless Gateway, in order to successfully receive and decrypt the packet.
CONFIG Commands set wireless network-id privacy encryption-key1 { hexadecimal digits } set wireless network-id privacy encryption-key2 { hexadecimal digits } set wireless network-id privacy encryption-key3 { hexadecimal digits } set wireless network-id privacy encryption-key4 { hexadecimal digits } The encryption keys. Enter keys using hexadecimal digits. For 40/64bit encryption, you need 10 digits; 26 digits for 128bit, and 58 digits for 256bit WEP. Valid hexadecimal characters are 0 – 9, a – f.
Wireless MAC Address Authorization Settings set wireless mac-auth option { on | off } Enabling this feature limits the MAC addresses that are allowed to access the LAN as well as the WAN to specified MAC (hardware) addresses. set wireless mac-auth wrlss-MAC-list mac-address MAC-address_string Enters a new MAC address into the MAC address authorization table. The format for an Ethernet MAC address is six hexadecimal values between 00 and FF inclusive separated by colons or dashes (e.g., 00:00:C5:70:00:04).
CONFIG Commands set radius radius-port port_number Specifies the port on which the RADIUS server is listening. The default value is 1812. VLAN Settings These settings are supported beginning with Firmware Version 7.4.2, and enhanced in Firmware Version 7.6.1. You can create up to 32 VLANs, and you can also restrict any VLAN, and the computers on it, from administering the Gateway. See “VLAN” on page 111 for more information. set vlan name string Sets the descriptive name for the VLAN.
You must save the changes, exit out of configuration mode, and restart the Gateway for the changes to take effect. Example: • Navigate to the VLAN item: Netopia-3000/9437188 (top)>> vlan Netopia-3000/9437188 (vlan)>> set vlan (vlan) node list ... Select (name) node to modify from list, or enter new (name) to create.
CONFIG Commands uplink option (off) [ off | on ]: on ipsec-mgmt1 option (off) [ off | on ]: Netopia-3000/9437188 (vlan)>> ☛ Note: To make a set of VLANs non-routable, the uplink port must be included in at least one VLAN and must be excluded from any VLANs that are non-routable. UPnP settings set upnp option [ on | off ] PCs using UPnP can retrieve the Gateway’s WAN IP address, and automatically create NAT port maps.
TR-069. DSL Forum CPE WAN Management Protocol (TR-069) provides services similar to UPnP and TR-064. The communication between the Netopia Gateway and management agent in UPnP and TR-064 is strictly over the LAN, whereas the communication in TR-069 is over the WAN link for some features and over the LAN for others. TR-069 allows a remote Auto-Config Server (ACS) to provision and manage the Netopia Gateway.
CONFIG Commands On units that support SSL, the format for the ACS URL can also be: https://some_url.com:port_number or https://123.45.678.
VDSL Settings ☛ CAUTION! These settings are for very advanced users and lab technicians. Exercise extreme caution when modifying any of these settings.
CONFIG Commands VDSL Parameter Defaults Parameter Default Meaning sys-option 0x00 VDSL system option(bit0=ntr, 1=margin, 2=ini, 3=pbo, 4=tlan, 5=pbo) sys-bandplan 0x02 VDSL system bandplan(bp_3_998_4=2, bp4_997_3=3, bp5_997_3=4…) psd-mask-level 0x00 VDSL system psd mask(def=0, 1=ansim1cab, 2=ansim2cab, 3=etsim1cab, 4=etsim2cab) pbo-k1_1 0x00 VDSL system power back-off k1_1 pbo-k1_2 0x00 VDSL system power back-off k1_2 pbo-k1_3 0x00 VDSL system power back-off k1_3 pbo-k2_1 0x00 VDSL s
VDSL Parameters Accepted Values Parameter sys-option 320 Accepted Values Bit[0]: NTR_DISABLE Bit[1]: ALW_MARGIN_ADJUST. 1: the SNR margin for the optional band is reduced by up to 2.5 dB, but never below a minimum of 4 dB. Bit[2]: SUPPORT_INI Bit[4]: TLAN Enable Bit[5]: PBO Weak mode Enable (Applicable only when PBO Bit[3]=0. Bit[6]: ADSL_SAFE_MODE Enable Bit[7]: TLAN_SAFE_MODE Enable (Applicable only when TLAN Enable Bit[4] is set.
CONFIG Commands VDSL Parameters Accepted Values Parameter sys-bandplan Accepted Values BP1_998_3 (0x00) BP2_998_3 (0x01) BP998_3B_8_5M (0x01) BP3_998_4 (0x02) BP998_4B_12M (0x02) BP4_997_3 (0x03) BP997_3B_7_1M (0x03) BP5_997_3 (0x04) BP6_997_4 (0x05) BP997_4B_7_1M (0x05) BP7_MXU_3 (0x06) FLEX_3B_8_5M (0x06) BP8_MXU_2 (0x07) BP9_998_2 (0x08) BP10_998_2 (0x09) BP998_2B_3_8M (0x09) BP11_998_2 (0x0A) BP12_998_2 (0x0B) BP13_MXU_3 (0x0C) BP14_MXU_3 (0x0D) BP15_MXU_3 (0x0E) BP16_997_4B_4P (0x0F) BP17_998_138_440
VDSL Parameters Accepted Values Parameter psd-mask-level 0x00 -- default mask (old gains from before) 0x01 -- ANSI M1 CAB 0x02 -- ANSI M2 CAB 0x03 -- ETSI M1 CAB 0x04 -- ETSI M2 CAB 0x05 -- ITU-T Annex F (Japan) 0x06 - ANSI M1 Ex 0x07 - ANSI M2 Ex 0x08 -- ETSI M1 Ex 0x09 - ETSI M2 Ex 0x0A - RESERVED 0x0B - PSD_K (Korean M1 FTTCab -59dBm/Hz) pbo-k1_1 K1 and K2 parameters allow the user more flexibility in using Upstream Power Back-Off (UPBO) on CPE modem.
CONFIG Commands VDSL Parameters Accepted Values Parameter port-bandplan Accepted Values BP1_998_3 (0x00) BP2_998_3 (0x01) BP998_3B_8_5M (0x01) BP3_998_4 (0x02) BP998_4B_12M (0x02) BP4_997_3 (0x03) BP997_3B_7_1M (0x03) BP5_997_3 (0x04) BP6_997_4 (0x05) BP997_4B_7_1M (0x05) BP7_MXU_3 (0x06) FLEX_3B_8_5M (0x06) BP8_MXU_2 (0x07) BP9_998_2 (0x08) BP10_998_2 (0x09) BP998_2B_3_8M (0x09) BP11_998_2 (0x0A) BP12_998_2 (0x0B) BP13_MXU_3 (0x0C) BP14_MXU_3 (0x0D) BP15_MXU_3 (0x0E) BP16_997_4B_4P (0x0F) BP17_998_138_44
VDSL Parameters Accepted Values Parameter 324 Accepted Values framing-mode HDLC – 0x80 AUTO – 0x90 ATM – 0x00 band-mod Bit 0, 1: Tx Cfg band 1- All tones on 2- All tones below 640 Khz are turned off 3- All tones below 1.1 Mhz are turned off Bit 2,3: Not used Bit 4,5: Rx Cfg band 1- All tones on 2- All tones below 640 Khz are turned off 3- All tones below 1.1 Mhz are turned off Bit 6, 7:Optional band 0- No Optional band 1- ANNEX_A_6_32 ( ie. 25KHz to 138 KHz) 2- ANNEX_B_32_64 (ie.
CONFIG Commands VDSL Parameters Accepted Values Parameter Accepted Values rx-filter 0: using internal filter in Rx path 1: using K1 external filter in Rx path (for Korea VLR Application) 2: using U1 external filter in Rx path (for US / Korea VLR Application) 3: using H1 external filter in Rx path (for 100/100 Application) dying-gasp Dying Gasp is a message sent from CPE to CO using the indicator bit. It indicates that the CPE is experiencing an impending loss of power.
CHAPTER 7 Glossary 10Base-T. IEEE 802.3 specification for Ethernet that uses unshielded twisted pair (UTP) wiring with RJ-45 eight-conductor plugs at each end. Runs at 10 Mbps. 100Base-T. IEEE 802.3 specification for Ethernet that uses unshielded twisted pair (UTP) wiring with RJ-45 eight-conductor plugs at each end. Runs at 100 Mbps. -----A----ACK. Acknowledgment. Message sent from one network device to another to indicate that some event has occurred. See NAK. access rate.
ADSL. Asymmetric Digital Subscriber Line. Modems attached to twisted pair copper wiring that transmit 1.5-9 Mbps downstream (to the subscriber) and 16 -640 kbps upstream, depending on line distance. (Downstream rates are usually lower that 1.5Mbps in practice.) AH. The Authentication Header provides data origin authentication, connectionless integrity, and anti-replay protection services. It protects all data in a datagram from tampering, including the fields in the header that do not change in transit.
BRI. Basic Rate Interface. ISDN standard for provision of low-speed ISDN services (two B channels (64 kbps each) and one D channel (16 kbps)) over a single wire pair. bridge. Device that passes packets between two network segments according to the packets' destination address. broadcast. Message sent to all nodes on a network. broadcast address. Special IP address reserved for simultaneous broadcast to all network nodes. buffer. Storage area used to hold data until it can be forwarded. -----C----carrier.
CPIP. Carrier Pigeon Internet Protocol. RFC 1149 - Standard for the transmission of IP datagrams on avian carriers. The IP datagram is printed, on a small scroll of paper, in hexadecimal, with each octet separated by whitestuff and blackstuff. The scroll of paper is wrapped around one leg of the avian carrier. A band of duct tape is used to secure the datagram's edges. The bandwidth is limited to the leg length. The MTU is variable, and paradoxically, generally increases with increased carrier age.
DH Group. Diffie-Hellman is a public key algorithm used between two systems to determine and deliver secret keys used for encryption. Groups 1, 2 and 5 are supported. Also, see Diffie-Hellman listing. DHCP. Dynamic Host Configuration Protocol. A network configuration protocol that lets a router or other device assign IP addresses and supply other network configuration information to computers on your network. dial on demand.
dynamic DNS. Allows you to use the free services of www.dyndns.org. Dynamic DNS automatically directs any public Internet request for your computer's name to your current dynamically-assigned IP address. -----E----echo interval. Frequency with which the router sends out echo requests. Enable. This toggle button is used to enable/disable the configured tunnel. encapsulation.
buffers approach capacity, the modem signals the computer to stop while it catches up on processing the data in the buffer. See CTS, RTS, xon/xoff. fragmentation. Process of breaking a packet into smaller units so that they can be sent over a network medium that cannot transmit the complete packet as a unit. frame. Logical grouping of information sent as a link-layer unit. Compare datagram, packet. FTP. File Transfer Protocol.
hop. A unit for measuring the number of routers a packet has passed through when traveling from one network to another. hop count. Distance, measured in the number of routers to be traversed, from a local router to a remote network. See metric. hub. Another name for a repeater. The hub is a critical network element that connects everything to one centralized point. A hub is simply a box with multiple ports for network connections. Each device on the network is attached to the hub via an Ethernet cable.
IPCP. Internet Protocol Control Protocol. A network control protocol in PPP specifying how IP communications will be configured and operated over a PPP link. IPSEC. A protocol suite defined by the Internet Engineering Task Force to protect IP traffic at packet level. It can be used for protecting the data transmitted by any service or application that is based on IP, but is commonly used for VPNs. ISAKMP.
-----M----magic number. Random number generated by a router and included in packets it sends to other routers. If the router receives a packet with the same magic number it is using, the router sends and receives packets with new random numbers to determine if it is talking to itself. MD5. A 128-bit, message-digest, authentication algorithm used to create digital signatures. It computes a secure, irreversible, cryptographically strong hash value for a document. Less secure than variant SHA-1. metric.
eration firewall technologies inspect between 1 and 3 layers of the 7 layer model, while our SMLI engine inspects layers 2 through 7. -----N----NAK. Negative acknowledgment. See ACK. Name. The Name parameter refers to the name of the configured tunnel. This is mainly used as an identifier for the administrator. The Name parameter is an ASCII and is limited to 31 characters. The tunnel name is the only IPSec parameter that does not need to match the peer gateway. NCP. Network Control Protocol.
Peer Internal IP Network. The Peer Internal IP Network is the private, or Local Area Network (LAN) address of the remote gateway or VPN Server you are communicating with. Peer Internal IP Netmask. The Peer Internal IP Netmask is the subnet mask of the Peer Internal IP Network. PFS Enable. Enable Perfect Forward Secrecy. PFS forces a DH negotiation during Phase II of IKE-IPSec SA exchange. You can disable this or select a DH group 1, 2, or 5.
QoS also provides priority for one or more flows, such that one flow does not make other flows fail. -----R----repeater. Device that regenerates and propagates electrical signals between two network segments. Also known as a hub. RFC. Request for Comment. Set of documents that specify the conventions and standards for TCP/IP networking. RIP. Routing Information Protocol. Protocol responsible for distributing information about available routes and networks from one router to another. RJ-11.
• • • • • The encryption algorithm for ESP The encryption and authentication keys Lifetime of encryption keys The lifetime of the SA Replay prevention sequence number and the replay bit table An arbitrary 32-bit number called a Security Parameters Index (SPI), as well as the destination host’s address and the IPSEC protocol identifier, identify each SA. An SPI is assigned to an SA when the SA is negotiated. The SA can be referred to by using an SPI in AH and ESP transformations. SA is unidirectional.
STATEFUL. The Netopia Gateway monitors and maintains the state of any network transaction. In terms of network request-and-reply, state consists of the source IP address, destination IP address, communication ports, and data sequence. The Netopia Gateway processes the stream of a network conversation, rather than just individual packets.
-----U----UTP. Unshielded twisted pair cable. -----V----VDSL. Very high rate Digital Subscriber Line. VDSL transmits high speed data over short reaches of twisted-pair copper telephone lines, with a range of speeds depending upon actual line length. Both data channels will be separated in frequency from bands used for POTS and ISDN, enabling service providers to overlay VDSL on existing services. At present the two high speed channels will also be separated in frequency. VJ. Van Jacobson.
Description CHAPTER 8 Technical Specifications and Safety Information Description Dimensions: Smart Modems: 13.5 cm (w) x 13.5 cm (d) x 3.5 cm (h); 5.25” (w) x 5.25” (d) x 1.375” (h) Wireless Models: 19.5 cm (w) x 17.0 cm (d) x 4.0 cm (h); 7.6” (w) x 6.75” (d) x 1.5” (h) 3342/3342N/3352/3352N: 8.5 cm (w) x 4.5 cm (d) x 2 cm (h); 3.375” (w) x 1.75” (d) x .875” (h) 2200-Series Modems: 1.06"(2.69 cm) H, 4.36" (11.07 cm) W, 5.71"(14.50 cm) L 2200-Series Wireless Models: 1.2"(3.0cm) H, 8.7" (22.0 cm) W, 5.
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 TFTP or web upload.
Agency approvals Agency approvals North America Safety Approvals: ■ United States – UL 60950, Third Edition ■ Canada – CSA: CAN/CSA-C22.2 No. 60950-00 EMC: ■ United States – FCC Part 15 Class B ■ Canada – ICES-003 Telecom: ■ United States – 47 CFR Part 68 ■ Canada – CS-03 International Safety Approvals: ■ Low Voltage (European directive) 73/23 ■ EN60950 (Europe) EMI Compatibility: ■ 89/336/EEC (European directive) ■ EN55022:1994 ■ EN300 386 V1.2.
The Netopia Firmware Version 7.6 complies with the following EU directives: ■ Low Voltage, 73/23/EEC ■ EMC Compatibility, 89/336/EEC, conforming to EN 55 022 Manufacturer’s Declaration of Conformance ☛ Warnings: This is a Class B 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.
Manufacturer’s Declaration of Conformance ☛ 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 Class B digital apparatus meets all requirements of the Canadian Interference Causing Equipment Regulations.
Important Safety Instructions Australian Safety Information The following safety information is provided in conformance with Australian safety requirements: Caution DO NOT USE BEFORE READING THE INSTRUCTIONS: Do not connect the Ethernet ports to a carrier or carriage service provider’s telecommunications network or facility unless: a) you have the written consent of the network or facility manager, or b) the connection is in accordance with a connection permit or connection rules.
47 CFR Part 68 Information 47 CFR Part 68 Information FCC Requirements 1. The Federal Communications Commission (FCC) has established Rules which permit this device to be directly connected to the telephone network. Standardized jacks are used for these connections. This equipment should not be used on party lines or coin phones. 2.
d) The REN is used to determine the number of devices that may be connected to a telephone line. Excessive RENs on a telephone line may result in the devices not ringing in response to an incoming call. In most but not all areas, the sum of RENs should not exceed five (5.0). To be certain of the number of devices that may be connected to a line, as determined by the total RENs, contact the local telephone company.
CHAPTER 9 Overview of Major Capabilities The Netopia Gateway offers simplified setup and management features as well as advanced broadband router capabilities. The following are some of the main features of the Netopia Gateway: • “Wide Area Network Termination” on page 352 The Gateway combines an ADSL modem with an Internet router. It translates protocols used on the Internet to protocols used by home personal computers and eliminates the need for special desktop software (i.e. PPPoE).
Wide Area Network Termination PPPoE/PPPoA (Point-to-Point Protocol over Ethernet/ATM) The PPPoE specification, incorporating the PPP and Ethernet standards, allows your computer(s) to connect to your Service Provider’s network through your Ethernet WAN connection. The Netopia-series Gateway supports PPPoE, eliminating the need to install PPPoE client software on any LAN computers.
Simplified Local Area Network Setup • Your network may change address with each connection making it more difficult to attack. When you configure Instant On access, you can also configure an idle time-out value. Your Gateway monitors traffic over the Internet link and when there has been no traffic for the configured number of seconds, it disconnects the link. When new traffic that is destined for the Internet arrives at the Gateway, the Gateway will instantly re-establish the link.
☛ NOTE: The Netopia DNS Proxy only proxies UDP DNS queries, not TCP DNS queries. Management Embedded Web Server There is no specialized software to install on your PC to configure, manage, or maintain your Netopia Gateway.
Security TraceRoute - displays the path to a destination by showing the number of hops and the router addresses of these hops. The system log also provides diagnostic information. ☛ NOTE: Your Service Provider may request information that you acquire from these various diagnostic tools. Individual tests may be performed at the command line. (See “Command Line Interface” on page 235.).
from routers on networks connected to its WAN interface. In other words, the end computer stations on your LAN are invisible from the Internet. Only a single WAN IP address is required to provide this security support for your entire LAN. LAN sites that communicate through an Internet Service Provider typically enable NAT, since they usually purchase only one IP address from the ISP.
Security ☛ NOTE: 1. The default setting for NAT is ON. 2. Netopia uses Port Address Translation (PAT) to implement the NAT facility. 3. NAT Pinhole traffic (discussed below) is always initiated from the WAN side. Netopia Advanced Features for NAT Using the NAT facility provides effective LAN security. However, there are user applications that require methods to selectively by-pass this security function for certain types of Internet traffic.
Common TCP/IP protocols and ports are: FTP (TCP 21) SMTP (TCP 25) SNMP (TCP 161, UDP 161) telnet (TCP 23) HTTP (TCP 80) See page 81 for How To instructions. Default Server This feature allows you to: • Direct your Gateway to forward all externally initiated IP traffic (TCP and UDP protocols only) to a default host on the LAN. • Enable it for certain situations: Where you cannot anticipate what port number or packet protocol an in-bound application might use.
Security IP-Passthrough Netopia OS now offers an IP passthrough feature. The IP passthrough feature allows a single PC on the LAN to have the Gateway’s public address assigned to it. It also provides PAT (NAPT) via the same public IP address for all other hosts on the private LAN subnet. VPN IPSec Pass Through This Netopia service supports your independent VPN client software in a transparent manner.
☛ NOTE: Typically, no special configuration is necessary to use the IPSec pass through feature. In the diagram, VPN PC clients are shown behind the Netopia Gateway and the secure server is at Corporate Headquarters across the WAN. You cannot have your secure server behind the Netopia Gateway. When multiple PCs are starting IPSec sessions, they must be started one at a time to allow the associations to be created and mapped.
Security device with the requisite level of QoS and correct feature sets — making it ideal for delivery of triple play voice, video, and data services. VGx was developed to ensure that subscribers receive the quality of voice, video, and data services they expect — to prevent a large data download from causing jittery video or poor voice quality.
Index Symbols !! command 240 A Access the GUI 41 Address resolution table 247 Administrative restrictions 271 Administrator password 41, 136, 238 Arguments, CLI 253 ARP Command 240, 250 Authentication 282 Authentication trap 298 auto-channel mode 306 AutoChannel Setting 59, 306 B Bridging 258 Broadcast address 266, 268 C CLI 235 !! command 240 Arguments 253 Command shortcuts 239 Command truncation 252 Configuration mode 251 Keywords 253 Navigating 252 Prompt 239, 251 Restart command 240 SHELL mode 239 V
DSL Forum settings 315 E Echo request 281 echo-period 281 Embedded Web Server 354 Ethernet address 258 Ethernet statistics 245 F Feature Keys Obtaining 197 filter parts 170 parts of 170 filter priority 169 filter set adding 177 display 172 filter sets adding 177 defined 168 deleting 183 disadvantages 167 using 177 filtering example #1 173 filters actions a filter can take 169 adding to a filter set 179 defined 168 deleting 183 input 178 modifying 183 364 output 178 using 176, 177 viewing 182 firewall 24
Install Software 192 Quickstart 49, 51, 69 Local Area Network 353 Location, SNMP 298 Log 248 Logging in 238 lost echoes 281 M Magic number 281 Memory 248 Metric 277 Multiple SSIDs 63 Multiple Wireless SSIDs Wireless 63, 307 N Nameserver 262 NAT 271, 278, 355 Traffic rules 92 NAT Default Server 358 Netmask 269 Network Address Translation 355 Network Test Tools 354 NSLookup 354 O set upnp option 315 Operating Mode Wireless 59, 307 P PAP 352 Password 136 Administrator 41, 136, 238 User 41, 136, 238 persist
Restrictions 271 RIP 267, 269 Routing Information Protocol (RIP) 267, 269 S Secondary nameserver 262 Secure Sockets Layer 201 Security filters 167 Security log 190 Set bncp command 256, 257, 258 Set bridge commands 258 Set DMT commands 261 Set dns commands 262 Set ip static-routes commands 276 Set ppp module port authentication command 283 Set preference more command 284 Set preference verbose command 283 set security state-insp 292 Set servers command 285 Set servers telnet-tcp command 285 Set snmp sysgro
Syslog 124 System contact, SNMP 298 System diagnostics 300 system idle-timeout 300 Termination 360 W Wide Area Network 352 Wireless 54 T Telnet 238, 278 Telnet command 249 Telnet traffic 285 TFTP 278 TFTP server 242 Toolbar 45 TOS bit 170, 186 TraceRoute 230, 355 Trap 298 Trivial File Transfer Protocol 242 Truncation 252 Z Zero Touch 302 U UPnP 105 User name 238 User password 41, 136, 238 V set atm 256, 257 View command 254 view config 249 VLAN ID 113 VLAN Settings 313 VLANs 111 VPN IPSec Pass Through
Netopia 2200 and 3300 series by Netopia Netopia, Inc.
