Wuxi MitraStar Technology DSL100HNUT1V3 802.11n 2x2 Wireless ADSL2+ 4-port Gateway User Manual DSL 100HNU T1 v3 User s Guide

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User’s Guide
DSL-100HNU-T1 v3
802.11n 2x2 Wireless ADSL2+ 4-port Gateway
Default Login Details
http://192.168.1.1
User Name: admin
Password: 1234
Firmware Version 1.14
Edition 1, 12/2014
Copyright © 2014 MitraStar Technology Corp.



IMPORTANT!
READ CAREFULLY BEFORE USE.
KEEP THIS GUIDE FOR FUTURE REFERENCE.
Graphics in this book may differ slightly from the product due to differences in operating systems,
operating system versions, or if you installed updated firmware/software for your device. Every
effort has been made to ensure that the information in this manual is accurate.
Related Documentation
• Quick Start Guide
The Quick Start Guide shows how to connect the Device and get up and running right away.
Contents
Chapter 1: Introduction
Overview
Ways to Manage the Device
Good Habits for Managing the Device
10
Applications for the Device
10
Internet Access
11
Wireless Access
11
Using the WLAN/WPS Button
12
The RESET Button
12
Using the Reset Button
12
LEDs (Lights)
15
Chapter 2: Introducing the Web Configurator
15
Overview
15
Accessing the Web Configurator
17
The Web Configurator Layout
17
Title Bar
18
Main Window
19
Chapter 3: Quick Start
19
Overview
19
Quick Start Setup
22
Chapter 4: Connection Status and System Info
22
Overview
22
The Connection Status Screen
24
The System Info Screen
28
Chapter 5: WAN Setup
28
Overview
29
What You Can Do in the WAN Screens
29
What You Need to Know About WAN
31
Before You Begin
32
The Internet Connection Screen
36
Advanced Internet Connection
38
The More Connections Screen
39
More Connections Edit
Contents
43
Configuring More Connections Advanced Setup
44
The 3G Backup Screen
47
WAN Technical Reference
47
Encapsulation
48
Multiplexing
48
VPI and VCI
48
IP Address Assignment
50
Chapter 6: Wireless
50
Overview
50
What You Can Do in this Chapter
50
Wireless Network Overview
52
Before You Begin
52
Wireless General Screen
54
No Security
55
Basic (Static WEP/Shared WEP Encryption)
56
More Secure (WPA2-PSK)
57
WPA2 Authentication
59
More AP Screen
60
Edit More AP
61
MAC Authentication Screen
63
The WPS Screen
65
The WDS Screen
67
The WMM Screen
68
Scheduling Screen
69
Add or Edit Schedule
69
Advanced Screen
71
Technical Reference
71
Additional Wireless Terms
72
Wireless Security Overview
74
Signal Problems
74
BSS
75
MBSSID
76
Wireless Distribution System (WDS)
77
Chapter 7: Home Networking
77
Overview
77
What You Can Do in this Chapter
77
What You Need To Know
80
The LAN Setup Screen
82
The Static DHCP Screen
82
Before You Begin
84
The IP Alias Screen
Contents
85
The UPnP Screen
86
The IPv6 LAN Setup Screen
91
The File Sharing Screen
92
Before You Begin
94
Edit File Sharing User
95
The Printer Server Screen
95
Before You Begin
96
Technical Reference
98
Installing UPnP in Windows Example
101
Using UPnP in Windows XP Example
107
Chapter 8: Static Route
107
Overview
107
What You Can Do in this Chapter
108
Configuring Static Route
109
Add/Edit Static Route
110
IPv6 Static Route
111
IPv6 Static Route Edit
112
Chapter 9: Quality of Service (QoS)
112
Overview
112
What You Can Do in this Chapter
112
What You Need to Know
113
The QoS General Screen
114
The Queue Setup Screen
115
Edit a QoS Queue
116
The Class Setup Screen
118
Add/Edit QoS Class
122
The QoS Policer Setup Screen
123
Add/Edit a QoS Policer
125
The QoS Game List Screen
125
QoS Technical Reference
125
DiffServ
127
Chapter 10: Network Address Translation (NAT)
127
Overview
127
What You Can Do in this Chapter
127
What You Need To Know
128
The General Screen
128
The Port Forwarding Screen
129
The Port Forwarding Screen
131
The Port Forwarding Add/Edit Screen
132
The DMZ Screen
Contents
133
The ALG Screen
133
Technical Reference
133
NAT Definitions
134
What NAT Does
135
How NAT Works
136
Chapter 11: Port Binding
136
Overview
137
The Port Binding Screen
138
Port Binding Summary Screen
140
The Any Port Any Service Edit Screen
143
Chapter 12: Dynamic DNS
143
Overview
143
What You Need To Know
144
The Dynamic DNS Screen
145
Chapter 13: Filter
145
Overview
145
What You Can Do in the Filter Screens
146
The IP/MAC Filter Screen
148
The IPv6/MAC Filter Screen
151
Chapter 14: Firewall
151
Overview
151
What You Can Do in the Firewall Screens
152
What You Need to Know About Firewall
153
Firewall General Screen
154
Default Action Screen
155
Rules Screen
157
Rules Add Screen
159
Customized Services
160
Customized Service Add/Edit
161
DoS Screen
161
The DoS Advanced Screen
163
Configuring Firewall Thresholds
164
Firewall Technical Reference
164
Firewall Rules Overview
165
Guidelines For Enhancing Security With Your Firewall
165
Security Considerations
166
Triangle Route
169
Chapter 15: Parental Control
Contents
169
Overview
169
The Parental Control Screen
171
Add/Edit a Parental Control Rule
173
Chapter 16: Certificates
173
Overview
173
What You Can Do in this Chapter
173
What You Need to Know
174
Verifying a Certificate
175
Local Certificates
177
Trusted CA
178
Trusted CA Import
179
View Certificate
181
Chapter 17: System Monitor
181
Overview
181
What You Can Do in this Chapter
181
What You Need To Know
182
The Log Screen
183
The WAN Traffic Status Screen
184
The LAN Traffic Status Screen
185
The NAT Traffic Status Screen
187
Chapter 18: User Account
187
Overview
187
The User Account Screen
189
Chapter 19: TR-069 Client
189
Overview
189
The TR-069 Client Screen
191
Chapter 20: System
191
Overview
191
The System Screen
192
Chapter 21: Time Setting
192
Overview
192
The Time Setting Screen
194
Chapter 22: Log Setting
194
Overview
195
The Log Setting Screen
Contents
198
Chapter 23: Firmware Upgrade
198
Overview
198
The Firmware Upgrade Screen
200
Chapter 24: Backup/Restore
200
Overview
200
The Backup/Restore Screen
202
The Reboot Screen
203
Chapter 25: Remote Management
203
Overview
203
What You Can Do in the Remote Management Screens
204
What You Need to Know About Remote Management
204
The WWW Screen
205
Configuring the WWW Screen
206
Telnet Screen
207
FTP Screen
208
SNMP Screen
209
Configuring SNMP
210
DNS Screen
211
ICMP Screen
212
SSH Screen
213
SSH Example
216
Chapter 26: Diagnostic
216
Overview
216
What You Can Do in the Diagnostic Screens
216
The Ping Screen
217
The DSL Line Screen
220
Chapter 27: Troubleshooting
220
Overview
220
Power, Hardware Connections, and LEDs
221
Device Access and Login
222
Internet Access
223
Wireless Internet Access
224
USB Device Connection
225
UPnP
226
Appendix A: Legal Information
230
Index
Contents
Chapter 1
Introduction
Chapter
C H A PT ER 1
1.1 Overview
The DSL-100HNU-T1 v3 is an ADSL2+ router which allows super-fast, secure Internet access over
analog (POTS) telephone lines. It supports Asynchronous Transfer Mode (ATM). You can have ADSL,
ADSL2, ADSL2+ connections.
The Device integrates DSL and NAT for ease of installation and high-speed, shared Internet access. It
also provides a complete security solution with a robust firewall and content filtering. The product
name format indicates the following:
• “H” denotes an integrated 4-port hub (switch).
• “N” denotes IEEE 802.11n wireless networking support.
• “U” denotes a USB port used to set up a 3G WAN connection via a 3G wireless card or share files
via a USB memory stick or a USB hard drive. The Device can also function as a print server with an
USB printer connected.

Only use firmware for your Device’s specific model. Refer to the label on the bottom of
your Device.
1.2 Ways to Manage the Device
Use any of the following methods to manage the Device.
• Web Configurator. Use a (supported) web browser to manage the Device.
• FTP for firmware upgrades and configuration backup/restore.
• TR-069. This auto-configuration server remotely configures your device.
1.3 Good Habits for Managing the Device
Do the following things regularly to make the Device more secure and to manage the Device more
effectively.
• Change the password. Use a password that’s not easy to guess and that consists of different
types of characters, such as numbers and letters.
• Write down the password and put it in a safe place.
Chapter 1
Introduction
• Back up the configuration (and make sure you know how to restore it). Restoring an earlier
working configuration may be useful if the device becomes unstable or even crashes. If you forget
your password, you will have to reset the Device to its factory default settings. If you backed up an
earlier configuration file, you would not have to totally re-configure the Device. You could simply
restore your last configuration.
1.4 Applications for the Device
Here are some example uses for the Device.
1.4.1 Internet Access
Your Device provides shared Internet access by connecting the DSL port to the DSL or MODEM jack
on a splitter or your telephone jack. Computers can connect to the Device’s LAN ports (or
wirelessly).
Figure 1 Device’s Router Features
LAN
DSL
Configure firewall and filtering features on the Device for secure Internet access. Set the firewall to
allow responses from the Internet for traffic initiated from your network and block traffic initiated
from the Internet. This blocks probes from the outside to your network, but lets you safely browse
the Internet and download files.
Use the filtering feature to block access to specific web sites or Internet applications such as MSN or
Yahoo Messenger. You can also configure IP/MAC filtering rules for incoming or outgoing traffic.
Use QoS to efficiently manage traffic on your network by giving priority to certain types of traffic
and/or to particular computers. For example, you could make sure that the Device gives voice over
Internet calls high priority, and/or limit bandwidth devoted to the boss’s excessive file downloading.
Chapter 1
Introduction
10
1.5 Wireless Access
The Device serves as a wireless Access Point (AP) to let wireless clients such as notebook computers,
smart phones, and tablets connect to the Internet without Ethernet cables.
Configure your wireless network through the Web Configurator, or the WPS button.
Figure 2 Wireless Access Example
1.5.1 Using the WLAN/WPS Button
By default, the Device’s wireless network is enabled. To turn it off, simply press the WPS/WLAN
button on top of the Device for over 5 seconds. The WLAN/WPS LED turns off.
Use the WLAN/WPS button to quickly set up a secure wireless connection between the Device and a
WPS-compatible client by adding one device at a time. To activate WPS:
With the POWER LED on steady, press the WLAN/WPS button for 1 second and release it.
Chapter 1
Introduction
11
2
Within two minutes, press the WPS button on a WPS-enabled client within range of the Device. The
WPS/WLAN LED should flash while the Device sets up a WPS connection with the client.
The WPS/WLAN LED shines green for a successful connection.
1.6 The RESET Button
If you forget your password or cannot access the web configurator, use the RESET button at the
back of the device to reload the factory-default configuration file. This means that you will lose all
configurations that you had previously and the user name and password will be reset to the default.
1.6.1 Using the Reset Button
With the POWER LED on steady, press the RESET button for ten seconds or until the POWER LED
begins to blink and then release it. When the POWER LED begins to blink, the defaults have been
restored and the device restarts.
1.7 LEDs (Lights)
The following graphic displays the labels of the LEDs.
Figure 3 LEDs
Chapter 1
Introduction
12
None of the LEDs are on if the Device is not receiving power.
Table 1 LED Descriptions
LED
COLOR
STATUS
DESCRIPTION
POWER
Green
On
The Device is receiving power and ready for use.
Blinking
The Device is self-testing.
On
The Device has hardware failure.
Blinking
Firmware upgrade is in progress.
Red
Off
ETHERNET
Green
The Device is not receiving power.
On
The Device has a successful 100 Mbps Ethernet connection with a
device on the Local Area Network (LAN).
Blinking
The Device is sending or receiving data to/from the LAN at 100 Mbps.
1-4
Off
WLAN/
WPS
Green
Orange
The Device does not have an Ethernet connection with the LAN.
On
The wireless network is activated.
Blinking
The Device is communicating with other wireless clients.
Blinking
The Device is setting up a WPS connection.
Off
DSL
Green
The wireless network is not activated.
On
The DSL line is up.
Blinking
The DSL line is initializing.
Off
INTERNET
Green
The DSL line is down.
On
The Device has an IP connection but no traffic.
Your device has a WAN IP address (either static or assigned by a DHCP
server), PPP negotiation was successfully completed (if used) and the
DSL connection is up.
USB
Blinking
The Device is sending or receiving IP traffic.
Off
The Device does not have an IP connection.
Red
On
The Device attempted to make an IP connection but failed.
Green
On
The Device recognizes a USB connection through the USB slot.
Blinking
The Device is sending or receiving data to or from the connected USB
device.
Off
The Device does not detect a USB connection through the USB slot.
Refer to the Quick Start Guide for information on hardware connections.
Chapter 1
Introduction
13
Chapter 1
Introduction
14
Chapter 2
Introducing the Web Configurator
Chapter
C H A PT ER 2
2.1 Overview
The web configurator is an HTML-based management interface that allows easy device setup and
management via Internet browser. Use Internet Explorer 6.0 and later versions, Mozilla Firefox 3
and later versions, or Safari 2.0 and later versions. The recommended screen resolution is 1024 by
768 pixels.
In order to use the web configurator you need to allow:
• Web browser pop-up windows from your device. Web pop-up blocking is enabled by default in
Windows XP SP (Service Pack) 2.
• JavaScript (enabled by default).
• Java permissions (enabled by default).
2.1.1 Accessing the Web Configurator
Make sure your Device hardware is properly connected (refer to the Quick Start Guide).
Launch your web browser.
Type "192.168.1.1" as the URL.
A password screen displays. Type “admin” as the default Username and “1234” as the default
password to access the device’s Web Configurator. Click Login. If you have changed the password,
enter your password and click Login.
Figure 4 Password Screen
Chapter 2
Introducing the Web Configurator
15
 For security reasons, the Device automatically logs you out if you do not use the web
configurator for five minutes (default). If this happens, log in again.
The following screen displays if you have not yet changed your password. It is strongly
recommended you change the default password. Enter a new password, retype it to confirm and
click Apply; alternatively click Skip to proceed to the main menu if you do not want to change the
password now.
Figure 5 Change Password Screen
The Connection Status screen appears.
Figure 6 Connection Status
Chapter 2
Introducing the Web Configurator
16
7
Click System Info to display the System Info screen, where you can view the Device’s interface and
system information.
2.2 The Web Configurator Layout
Click Connection Status > System Info to show the following screen.
Figure 7 Web Configurator Layout
As illustrated above, the main screen is divided into these parts:
• A - title bar
• B - main window
• C - navigation panel
2.2.1 Title Bar
The title bar shows the Wizard and Logout icons in the upper right corner.
Chapter 2
Introducing the Web Configurator
17
Click the Wizard icon to configure basic initial settings. Click the Logout icon to log out of the web
configurator.
2.2.2 Main Window
The main window displays information and configuration fields. It is discussed in the rest of this
document.
Click LAN Device on the System Info screen (a in Figure 7 on page 17) to display the Connection
Status screen. See Chapter 4 on page 24 for more information on the System Info and Connection
Status screens.
Click Virtual Device on the System Info screen (b in Figure 7 on page 17) to display a visual graphic
showing the connection status of the Device’s ports. The connected ports are in color and
disconnected ports are gray.
Figure 8 Virtual Device
Chapter 2
Introducing the Web Configurator
18
Chapter 3
Quick Start
Chapter
C H A PT ER 3
3.1 Overview
Use the Quick Start screens to configure the Device’s time zone, basic Internet access, and wireless
settings.
 See the rest of this guide for background information on the features in this chapter.
3.2 Quick Start Setup
The Quick Start Wizard appears automatically after login. Or you can click the Start icon in the top
right corner of the web configurator to open the quick start screens. Select the time zone of the
Device’s location and click Next.
Figure 9 Time Zone
Chapter 3
Quick Start
19
2
Enter your Internet connection information in this screen. The screen and fields to enter may vary
depending on your current connection type. Click Next.
Figure 10 WAN Interface Selection
Chapter 3
Quick Start
20
3
Turn the wireless LAN on or off. If you keep it on, record the security settings so you can configure
your wireless clients to connect to the Device. Click Save.
Figure 11 Internet Connection
Your Device saves your settings and attempts to connect to the Internet.
Chapter 3
Quick Start
21
Chapter 4
Connection Status and System
Info
4.1
Chapter
C H A PT ER 4
Overview
After you log into the web configurator, the Connection Status screen appears. This shows the
network connection status of the Device and clients connected to it.
Use the System Info screen to look at the current status of the device, system resources, interfaces
(LAN, WAN and WLAN), and SIP accounts. You can also register and unregister SIP accounts.
If you click Virtual Device on the System Info screen, a visual graphic appears, showing the
connection status of the Device’s ports. See Section 2.2.2 on page 18 for more information.
4.2
The Connection Status Screen
Use this screen to view the network connection status of the device and its clients. A warning
message appears if there is a connection problem. You can configure how often you want the
Device to update this screen in Refresh Interval.
Figure 12 Connection Status: Icon View
Chapter 4
Connection Status and System Info
22
To view the connected LAN devices in a list, click List View in the Viewing mode selection box.
Figure 13 Connection Status: List View
In Icon View, if you want to view information about a client, click the client’s name and Info.
In List View, you can also view the client’s information.
Chapter 4
Connection Status and System Info
23
4.3
The System Info Screen
Click Connection Status > System Info to open this screen.
Figure 14 System Info Screen
Each field is described in the following table.
Table 2 System Info Screen
LABEL
DESCRIPTION
Refresh Interval
Select how often you want the Device to update this screen from the drop-down list
box.
Device Information
Host Name
Chapter 4
This field displays the Device system name. It is used for identification. You can change
this in the Maintenance > System screen’s Host Name field.
Connection Status and System Info
24
Table 2 System Info Screen (continued)
LABEL
DESCRIPTION
Model Name
This is the model name of your device.
MAC Address
This is the MAC (Media Access Control) or Ethernet address unique to your Device.
Firmware Version
This field displays the current version of the firmware inside the device. It also shows
the date the firmware version was created. Go to the Maintenance > Firmware
Upgrade screen to change it.
DSL Version
This is the current version of the Device’s DSL modem code.
3G Information
3G Status
This shows the current status of your 3G connection. NoDevice is shown when no 3G
card is inserted.
3G Rate
This shows the rate of the 3G connection if it is available.
3G IP Address
This shows the IP address for the 3G connection.
3G IP Subnet
Mask
This shows the current subnet mask for the 3G connection.
3G Gateway
This shows the IP address of the 3G connection’s default gateway.
3G Primary/
Secondary DNS
This shows the first and second DNS server address assigned by the ISP.
LAN Information
IP Address
This field displays the current IP address of the Device in the LAN.
IP Subnet Mask
This field displays the current subnet mask in the LAN.
DHCP
This field displays what DHCP services the Device is providing to the LAN. Choices are:
Server - The Device is a DHCP server in the LAN. It assigns IP addresses to other
computers in the LAN.
None - The Device is not providing any DHCP services to the LAN.
IPv6 Address
This is the current IPv6 address of the Device in the LAN.
Link-local IPv6
Address
This is the current LAN IPv6 link-local address of the Device.
IPv6 Prefix
This is the current IPv6 prefix length in the LAN.
Preferred/Valid
Time(sec)
This is the Preferred Lifetime and Valid Lifetime in the LAN.
DHCPv6
This field displays what DHCPv6 services the Device is providing to the LAN. Choices
are:
Server - The Device is a DHCPv6 server in the LAN. It assigns IP addresses to other
computers in the LAN.
None - The Device is not providing any DHCPv6 services to the LAN.
Chapter 4
Connection Status and System Info
25
Table 2 System Info Screen (continued)
LABEL
DESCRIPTION
Radvd State
This shows the status of RADVD.
IPv6 LAN DNS1/
DNS2
This is the first/second DNS server IPv6 address the Device passes to the DHCP clients.
WLAN Information
Status
This shows whether or not the wireless LAN is enabled (on).
SSID
This is the descriptive name used to identify the Device in the wireless LAN.
Channel
This is the channel number used by the Device now.
802.11 Mode
This displays the type of 802.11 mode the Device is using in the wireless LAN.
Security Mode
This displays the type of security the Device is using in the wireless LAN.
WPS
Configured displays when a wireless client has connected to the Device or WPS is
enabled and wireless or wireless security settings have been configured.
Unconfigured displays if WPS wireless security settings have not been configured. Off
displays if WPS is disabled.
Scheduling
This shows whether wireless scheduling is enabled or disabled.
WiFi MAC
This is the MAC (Media Access Control) or Ethernet address unique to your Device’s
WiFi interface.
Security
Firewall
This shows whether or not the firewall is enabled (on).
System Status
DSL UpTime
This field displays how long the DSL connection has been active.
System Uptime
This field displays how long the Device has been running since it last started up. The
Device starts up when you plug it in, when you restart it (Maintenance > Reboot), or
when you reset it (see Section 1.6 on page 12).
Current Date/
Time
This field displays the current date and time in the Device. You can change this in
Maintenance > Time Setting.
CPU Usage
This field displays what percentage of the Device’s processing ability is currently used.
When this percentage is close to 100%, the Device is running at full load, and the
throughput is not going to improve anymore. If you want some applications to have
more throughput, you should turn off other applications.
Memory Usage
This field displays what percentage of the Device’s memory is currently used. Usually,
this percentage should not increase much. If memory usage does get close to 100%,
the Device is probably becoming unstable, and you should restart the device. See
Chapter 24 on page 202, or turn off the device (unplug the power) for a few seconds.
Chapter 4
Connection Status and System Info
26
Table 2 System Info Screen (continued)
LABEL
DESCRIPTION
DSL Down
Bandwith
Usage
This field displays what percentage of the Device’s downstream DSL bandwidth is
currently used. When this percentage is close to 100%, the Device is running at full
load, and the throughput is not going to improve anymore. If you want some
applications to have more throughput, you should turn off other applications.
DSL Up
Bandwith
Usage
This field displays what percentage of the Device’s upstream DSL bandwidth is
currently used. When this percentage is close to 100%, the Device is running at full
load, and the throughput is not going to improve anymore. If you want some
applications to have more throughput, you should turn off other applications.
NAT Session
Usage
This field displays what percentage of the Device supported NAT sessions are currently
being used.
Interface Status
Interface
This column displays each interface the Device has.
Status
This field indicates whether or not the Device is using the interface.
For the LAN interfaces, this field displays Up when the Device is using the interface and
Down when the Device is not using the interface.
For the WLAN interface, it displays Active when WLAN is enabled or Down when
WLAN is disabled.
For the 3G USB interface, this field displays Up when using the interface and NoDevice
when no device is detected in any USB slot.
For the xDSL WAN interface, this field displays Down when the line is down or Up
when line is up or connected.
Rate
For the LAN interface, this displays the port speed and duplex setting.
For the WLAN interface, it displays the maximum transmission rate when WLAN is
enabled or N/A when WLAN is disabled.
For the 3G interface, it displays the maximum transmission rate when 3G is enabled or
N/A when 3G is disabled.
For the xDSL WAN interface, it displays the downstream and upstream transmission
rate.
Chapter 4
Connection Status and System Info
27
Chapter 5
WAN Setup
Chapter
C H A PT ER 5
5.1 Overview
This chapter describes how to configure WAN settings from the WAN screens. Use these screens to
configure your Device for Internet access.
A WAN (Wide Area Network) connection connects to another network or the Internet. It connects
your private networks (such as a LAN (Local Area Network) and other networks, so that a computer
in one location can communicate with computers in other locations.
Figure 15 LAN and WAN
LAN
WAN
3G (third generation) standards for the sending and receiving of voice, video, and data in a mobile
environment.
You can attach a 3G wireless adapter to the USB port and set the Device to use this 3G connection
as your WAN or a backup when the wired WAN connection fails.
Figure 16 3G WAN Connection
Chapter 5
WAN Setup
28
5.1.1 What You Can Do in the WAN Screens
• Use the Internet Connection screen (Section 5.2 on page 32) to configure the WAN settings on
the Device for Internet access.
• Use the More Connections screen (Section 5.3 on page 38) to set up additional Internet access
connections.
• Use the 3G Backup screen to configure 3G WAN connection (Section 5.4 on page 44).
5.1.2 What You Need to Know About WAN
Encapsulation Method
Encapsulation includes data from an upper layer protocol into a lower layer protocol. To set up a
WAN connection to the Internet, you need to use the same encapsulation method used by your ISP
(Internet Service Provider). If your ISP offers a dial-up Internet connection using PPPoE (PPP over
Ethernet) or PPPoA, they should also provide a username and password (and service name) for user
authentication.
WAN IP Address
The Device uses its WAN IP address to connect to the Internet and communicate with devices in
other networks. It can be static (fixed) or dynamically assigned by the ISP when the Device connects
to the Internet.
If your ISP assigns you a static WAN IP address, they should also assign you the subnet mask and
DNS server IP address(es) (and a gateway IP address if you use the Ethernet or ENET ENCAP
encapsulation method).
Multicast
Traditionally, IP packets are transmitted in one of either two ways - Unicast (1 sender - 1 recipient) or
Broadcast (1 sender - everybody on the network). Multicast delivers IP packets to a group of hosts
on the network - not everybody and not just one.
IGMP
Devices use the IGMP (Internet Group Management Protocol) network-layer protocol to establish
membership in a multicast group - it does not carry user data. IGMP versions 2 and 3 offer
improvements over the widely-used version 1.
IPv6
IPv6 (Internet Protocol version 6) provides increased IP address space and enhanced features in
comparison to IPv4. The Device supports IPv4/IPv6 dual stack and can connect to IPv4 and IPv6
networks.
Chapter 5
WAN Setup
29
IPv6 Rapid Deployment
Use IPv6 Rapid Deployment (6rd) when the local network uses IPv6 and the ISP has an IPv4 network.
When the Device has an IPv4 WAN address and you set IPv6/IPv4 Dual Stack to IPv4, you can
enable 6rd to encapsulate IPv6 packets in IPv4 packets to cross the ISP’s IPv4 network.
The Device generates a global IPv6 prefix from its IPv4 WAN address and tunnels IPv6 traffic to the
ISP’s Border Relay router (BR in the figure) to connect to the native IPv6 Internet. The local network
can also use IPv4 services. The Device uses it’s configured IPv4 WAN IP to route IPv4 traffic to the
IPv4 Internet.
Figure 17 IPv6 Rapid Deployment
LAN
- I Pv6
- I Pv4
W AN
- I Pv4
- I Pv6 in I Pv4
I SP ( I Pv4)
I Pv6 in I Pv4
BR
I Pv6 I nt ernet
I Pv6 + I Pv4
I Pv4
I Pv4 I nt ernet
Dual Stack Lite
Use Dual Stack Lite when local network computers use IPv4 and the ISP has an IPv6 network. When
the Device has an IPv6 WAN address and you set IPv6/IPv4 Dual Stack to IPv6, you can enable Dual
Stack Lite to use IPv4 computers and services.
Chapter 5
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30
The Device tunnels IPv4 packets inside IPv6 encapsulation packets to the ISP’s Address Family
Transition Router (AFTR in the graphic) to connect to the IPv4 Internet. The local network can also
use IPv6 services. The Device uses it’s configured IPv6 WAN IP to route IPv6 traffic to the IPv6
Internet.
Figure 18 Dual Stack Lite
W AN
- I Pv6
- I Pv4 in I Pv6
LAN
- I Pv6
- I Pv4
I Pv6 + I Pv4
I SP ( I Pv6)
I Pv6
I Pv6 I nt er net
I Pv4 in I Pv6
AFTR
I Pv4 I nt ernet
3G
3G (Third Generation) is a digital, packet-switched wireless technology. Bandwidth usage is
optimized as multiple users share the same channel and bandwidth is only allocated to users when
they send data. It allows fast transfer of voice and non-voice data and provides broadband Internet
access to mobile devices.
Finding Out More
See Section 5.5 on page 47 for technical background information on WAN.
5.1.3 Before You Begin
You need to know your Internet access settings such as encapsulation and WAN IP address. Get this
information from your ISP.
Chapter 5
WAN Setup
31
5.2
The Internet Connection Screen
Use this screen to change your Device’s WAN settings. Click Network Setting > Broadband >
Internet Connection. The screen differs by the mode and encapsulation you select.
Figure 19 Network Setting > Broadband > Internet Connection
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WAN Setup
32
The following table describes the labels in this screen.
Table 3 Network Setting > Broadband >Internet Connection
LABEL
DESCRIPTION
Line
ADSL Mode
Select the kind of connection your Device uses to connect to the ISP.
Use Auto Sync-Up if you are not sure which type to choose.
Use ADSLT1.413, ADSLG.DMT, ADSLG.lite, ADSL2, ADSL2+, ADSL2_AnnexM,
ADSL2+_AnnexM, or READSL2 if you know the specific type of DSL the Device uses
to connect to the ISP.
General
Mode
Select Router (default) from the drop-down list box if your ISP gives you one IP
address only and you want multiple computers to share an Internet account. Select
Bridge when your ISP provides you more than one IP address and you want the
connected computers to get individual IP address from ISP’s DHCP server directly. If
you select Bridge, you cannot use Firewall, DHCP server and NAT on the Device.
Encapsulation
Select the method of encapsulation used by your ISP from the drop-down list box.
This field is available if you select Router in the Mode filed.
User Name
(PPPoA and PPPoE encapsulation only) Enter the user name exactly as your ISP
assigned. If assigned a name in the form user@domain where domain identifies a
service name, then enter both components exactly as given.
Password
(PPPoA and PPPoE encapsulation only) Enter the password associated with the user
name above.
Service Name
(PPPoE only) Type the name of your PPPoE service here.
Multiplex
This displays for an ADSL virtual channel. Select the method of multiplexing used by
your ISP from the drop-down list. Choices are VC-Mux or LLC.
IPv6/IPv4 Dual Stack
This is not available if you select PPPoA in the Encapsulation field.
Select IPv4 to have the Device use only IPv4.
Select IPv4/IPv6 to let the Device connect to IPv4 and IPv6 networks and choose the
protocol for applications according to the address type.
Select IPv6 to have the Device use only IPv6.
PPP Authentication
This is available if you select PPPoE or PPPoA in the Encapsulation field.
The Device supports PAP (Password Authentication Protocol) and CHAP (Challenge
Handshake Authentication Protocol). CHAP provides more security than PAP;
however, PAP has higher availability on more platforms.
Use the drop-down list box to select an authentication protocol for outgoing calls.
Options are:
Auto- Your Device accepts either CHAP or PAP when requested by this remote node.
CHAP - Your Device accepts CHAP only.
PAP - Your Device accepts PAP only.
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33
Table 3 Network Setting > Broadband >Internet Connection (continued)
LABEL
DESCRIPTION
Virtual Circuit ID
VPI (Virtual Path Identifier) and VCI (Virtual Channel Identifier) define a virtual circuit.
Refer to the appendix for more information.
IP Address
You can use these options when you set the Mode field to Router and the IPv6/IPv4
Dual Stack field to IPv4 or IPv4/IPv6.
Select Obtain an IP Address Automatically if the ISP assigns you a dynamic IP
address; otherwise select Static IP Address and type your ISP assigned IP address in
the IP Address field below.
Static IP Address
Select this option If the ISP assigned a fixed IP address.
IP Address
Enter the static IP address provided by your ISP.
IPv6 Tunnel Mode
This is available if you select ENET ENCAP or PPPoE in the Encapsulation field and
IPv4 in the IPv6/IPv4 Dual Stack field.
Select 6rd to tunnel IPv6 traffic from the local network through the ISP’s IPv4
network.
Select 6to4 to enable IPv6 to IPv4 tunneling. This will encapsulate IPv6 packets in
IPv4 packets so they can travel through IPv4 networks.
Relay Server
If you select 6to4 in the IPv6 Tunnel Mode field, enter the tunneling relay server's
IPv4 address in this field.
Via DHCP Option
212
Select this to have the Device detect it automatically through DHCP option 212.
Manual
Select this to manually enter the following 6rd information.
6rd Prefix
Enter an IPv6 prefix for tunneling IPv6 traffic to the ISP’s Border Relay router and
connecting to the native IPv6 Internet.
6rd Prefix Length
Enter the IPv6 prefix length.
IPv4 Mask Length
Enter the subnet mask number for the IPv4 network.
Relay Server
Enter the relay server’s IPv4 address.
DNS Server
Primary / Secondary
DNS
Set how the Device gets the IP addresses of the DNS servers it uses.
UserDefined - enter a static IP address.
Obtained From ISP - when the Device gets its IP address automatically, you can
select this to have it also get the DNS server address.
None - the Device does not use the DNS server entry.
IPv6 Address
Obtain an IP Address
Automatically
Select this option to have the Device use the IPv6 prefix from the connected router’s
Router Advertisement (RA) to generate an IPv6 address.
Static IP Address
When you set the Encapsulation field to ENET ENCAP, select the Static IP Address
option if you have a fixed IPv6 address assigned by your ISP.
Chapter 5
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34
Table 3 Network Setting > Broadband >Internet Connection (continued)
LABEL
DESCRIPTION
DHCP IPv6
Select DHCP&SLAAC to have the use both DHCPv6 and SLAAC to get an IP address.
Select DHCP to obtain an IPv6 address from a DHCPv6 server. The IP address
assigned by a DHCPv6 server has priority over the IP address automatically
generated by the Device using the IPv6 prefix from an RA.
Select Auto to have the Device try to use DHCPv6 to get an IP address and then
SLAAC if DHCPv6 does not work.
Select SLAAC (Stateless address autoconfiguration) to have the Device use the prefix
to automatically generate a unique IP address that does not need to be maintained
by a DHCP server.
Select None if you do not want the Device to obtain an IPv6 address from a DHCPv6
server.
DHCP PD
Select Enable to use DHCP PD (Prefix Delegation) to allow the Device to pass the IPv6
prefix information to its LAN hosts. The hosts can then use the prefix to generate
their IPv6 addresses.
Dual Stack Lite
The Dual Stack Lite fields display when you set the IPv6/IPv4 Dual Stack field to
IPv6. Enable Dual Stack Lite to let local computers use IPv4 through an ISP’s IPv6
network.
Mode
Select Manual if you have the IPv6 address of the Address Family Transition Router
(AFTR), otherwise select Auto to have the Device detect it automatically through
DHCPv6.
Remote IPv6
Address
When you set the Mode field to Manual, specify the AFTR IPv6 address.
IPv6 Address
When you enable Static IP Address, enter the IPv6 address of the Device in the
WAN.
Prefix Length
When you enable Static IP Address, enter the IPv6 prefix length in the WAN here.
IPv6 Default
Gateway
When you enable Static IP Address, enter the IPv6 address of the default gateway
here.
IPv6 DNS Server1
When you enable Static IP Address, enter the primary DNS server IPv6 address
here.
IPv6 DNS Server2
When you enable Static IP Address, enter the secondary DNS server IPv6 address
here.
WAN Identifier Type
Select Manual to manually enter a WAN Identifier as the interface ID to identify the
WAN interface. The Device appends the WAN Identifier to the IPv6 address prefix to
create the routable global IPv6 address. Select EUI64 to use the EUI-64 format to
generate an interface ID from the MAC address of the WAN interface.
WAN Identifier
If you selected Manual, enter the WAN Identifier in this field. The WAN identifier
should be unique and 64 bits in hexadecimal form. Every 16 bit block should be
separated by a colon as in XXXX:XXXX:XXXX:XXXX where X represents a hexadecimal
character. Blocks of zeros can be represented with double colons as in
XXXX:XXXX::XXXX.
Connection (PPPoA and PPPoE encapsulation only)
Chapter 5
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35
Table 3 Network Setting > Broadband >Internet Connection (continued)
LABEL
DESCRIPTION
Keep Alive
Select Keep Alive when you want your connection up all the time. The Device will try
to bring up the connection automatically if it disconnects.
Connect on Demand
Select Connect on Demand when you don't want the connection up all the time and
specify an idle time-out in the Max Idle Timeout field.
Max Idle Time
Specify an idle time-out in the Max Idle Timeout field when you select Connect on
Demand. The default setting of 0 means the Internet session will not timeout.
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
Advanced Setup
Click this to display the Advanced Internet Connection section and edit more
details of your WAN setup.
5.2.1 Advanced Internet Connection
Use this screen to edit your Device's advanced WAN settings. Click the Advanced Setup button in
the Internet Connection screen. The screen appears as shown.
Figure 20 Internet Connection: Advanced Setup
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WAN Setup
36
The following table describes the labels in this screen.
Table 4 Internet Connection: Advanced Setup
LABEL
DESCRIPTION
RIP & Multicast
Setup
This section does not apply when you configure the Device to bridge mode.
RIP Direction
RIP (Routing Information Protocol) allows a router to exchange routing information
with other routers. Use this field to control how much routing information the Device
sends and receives on the subnet.
Select the RIP direction from None, Both, In Only and Out Only.
RIP Version
This field does not apply if you select None in the RIP Direction field.
Select the RIP version from RIP-1, RIP-2B/RIP-2M.
Multicast
Multicast packets are sent to a group of computers on the LAN and are an alternative
to unicast packets (packets sent to one computer) and broadcast packets (packets
sent to every computer).
Devices use the IGMP (Internet Group Management Protocol) network-layer protocol
to establish membership in a multicast group. Select IGMP v1/IGMP v2/IGMP v3.
Select None to disable it.
MLD Proxy
Select the version of MLD proxy (v1 or v2) to have the Device act as for this
connection. This allows the Device to get subscription information and maintain a
joined member list for each multicast group. It can reduce multicast traffic
significantly. Select None to turn off MLD proxy.
ATM QoS
This section is available when the connection’s Virtual Channel field is set to an ADSL
option.
ATM QoS Type
Select CBR (Continuous Bit Rate) to specify fixed (always-on) bandwidth for voice or
data traffic. Select UBR With PCR (Unspecified Bit Rate with Peak Cell Rate) for
applications that are non-time sensitive, such as e-mail. Select Non Realtime VBR
(Variable Bit Rate-non Real Time) or Realtime VBR (Variable Bit Rate-Real Time) for
bursty traffic and bandwidth sharing with other applications.
Peak Cell Rate
Divide the DSL line rate (bps) by 424 (the size of an ATM cell) to find the Peak Cell Rate
(PCR). This is the maximum rate at which the sender can send cells. Type the PCR
here.
Sustain Cell Rate
The Sustain Cell Rate (SCR) sets the average cell rate (long-term) that can be
transmitted. Type the SCR, which must be less than the PCR. Note that system default
is 0 cells/sec.
Maximum Burst
Size
Maximum Burst Size (MBS) refers to the maximum number of cells that can be sent at
the peak rate. Type the MBS, which is less than 65535.
PPPoE Passthrough
If the encapsulation type is PPPoE, select this to enable PPPoE Passthrough. In
addition to the Device’s built-in PPPoE client, you can select this to allow hosts on the
LAN to use PPPoE client software on their computers to connect to the ISP via the
device. Each host can have a separate account and a public WAN IP address.
MTU
Chapter 5
WAN Setup
37
Table 4 Internet Connection: Advanced Setup (continued)
LABEL
DESCRIPTION
MTU
The Maximum Transmission Unit (MTU) defines the size of the largest packet allowed
on an interface or connection. Enter the MTU in this field.
For ENET ENCAP, the MTU value is 1500.
For PPPoE, the MTU value is 1492.
For PPPoA and RFC 1483, the MTU is 65535.
5.3
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
Advanced Setup
Click this to close the Advanced Internet Connection section.
The More Connections Screen
The Device allows you to configure more than one Internet access connection. To configure
additional Internet access connections click Network Setting > Broadband > More Connections.
The screen differs by the encapsulation you select. When you use the Broadband > Internet
Connection screen to set up Internet access, you are configuring the first WAN connection.
Figure 21 Network Setting > Broadband > More Connections
The following table describes the labels in this screen.
Table 5 Network Setting > Broadband > More Connections
LABEL
DESCRIPTION
This is an index number indicating the number of the corresponding connection.
Active
This field indicates whether the connection is active or not. This field is read-only.
Node Name
This is the name of the Internet connection.
VPI/VCI
This field displays the Virtual Path Identifier (VPI) and Virtual Channel Identifier (VCI)
numbers configured for this WAN connection.
Chapter 5
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38
Table 5 Network Setting > Broadband > More Connections (continued)
LABEL
DESCRIPTION
Encapsulation
This field indicates the encapsulation method and multiplexing type the Internet
connection uses.
Modify
The first (ISP) connection is read-only in this screen. Use the Broadband > Internet
Connection screen to edit it.
Click the Edit icon to edit the Internet connection settings. Click this icon on an empty
configuration to add a new Internet access setup.
Click the Remove icon to delete the Internet access setup from your connection list.
5.3.1 More Connections Edit
Use this screen to configure a connection. Click the Edit icon in the More Connections screen to
display the following screen.
Figure 22 More Connections: Edit
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39
The following table describes the labels in this screen.
Table 6 More Connections: Edit
LABEL
DESCRIPTION
General
Active
Select the check box to activate or clear the check box to deactivate this connection.
Node Name
Enter a unique, descriptive name of up to 13 ASCII characters for this connection.
Mode
Select Router from the drop-down list box if your ISP allows multiple computers to share
an Internet account.
If you select Bridge, the Device will forward any packet that it does not route to this
remote node; otherwise, the packets are discarded.
Encapsulation
Select the method of encapsulation used by your ISP from the drop-down list box. This
field is available if you select Router in the Mode field.
User Name
(PPPoA and PPPoE encapsulation only) Enter the user name exactly as your ISP assigned.
If assigned a name in the form user@domain where domain identifies a service name,
then enter both components exactly as given.
Password
(PPPoA and PPPoE encapsulation only) Enter the password associated with the user name
above.
Service
Name
(PPPoE only) Type the name of your PPPoE service here.
Multiplex
Select the method of multiplexing used by your ISP from the drop-down list. Choices are
VC-Mux or LLC.
By prior agreement, a protocol is assigned a specific virtual circuit, for example, VC1 will
carry IP. If you select VC-mux, specify separate VPI and VCI numbers for each protocol.
For LLC-based multiplexing or PPP encapsulation, one VC carries multiple protocols with
protocol identifying information being contained in each packet header. In this case, only
one set of VPI and VCI numbers need be specified for all protocols.
IPv6/IPv4 Dual
Stack
Select IPv4 to have the Device use only IPv4.
Select IPv4/IPv6 to let the Device connect to IPv4 and IPv6 networks and choose the
protocol for applications according to the address type.
Select IPv6 to have the Device use only IPv6.
PPP
Authentication
The Device supports PAP (Password Authentication Protocol) and CHAP (Challenge
Handshake Authentication Protocol). CHAP is more secure than PAP; however, PAP is
readily available on more platforms.
Use the drop-down list box to select an authentication protocol for outgoing calls. Options
are:
AUTO - Your Device accepts either CHAP or PAP when requested by this remote node.
CHAP - Your Device accepts CHAP only.
PAP - Your Device accepts PAP only.
VPI, VCI
Chapter 5
VPI (Virtual Path Identifier) and VCI (Virtual Channel Identifier) define a virtual circuit.
Refer to the appendix for more information.
WAN Setup
40
Table 6 More Connections: Edit (continued)
LABEL
DESCRIPTION
IP Address
You can use these options when you set the Mode field to Router and the IPv6/IPv4
Dual Stack field to IPv4 or IPv4/IPv6.
Select Obtain an IP Address Automatically if the ISP assigns you a dynamic IP address;
otherwise select Static IP Address and type your ISP assigned IP address in the IP
Address field below.
Static IP
Address
Select this option If the ISP assigned a fixed IP address.
IP Address
Enter the static IP address provided by your ISP.
Subnet
Mask
Enter a subnet mask in dotted decimal notation.
Gateway IP
Address
Specify a gateway IP address (supplied by your ISP).
Primary /
Secondary
DNS
Set how the Device gets the IP addresses of the DNS servers it uses.
UserDefined - enter a static IP address.
Obtained From ISP - when the Device gets its IP address automatically, you can select
this to have it also get the DNS server address.
None - the Device does not use the DNS server entry.
IPv6 Address
Obtain an IP
Address
Automatically
Select this option if you want to have the Device use the IPv6 prefix from the connected
router’s Router Advertisement (RA) to generate an IPv6 address.
Static IP
Address
Select this option if you have a fixed IPv6 address assigned by your ISP.
DHCP IPv6
Select DHCP if you want to obtain an IPv6 address from a DHCPv6 server.
The IP address assigned by a DHCPv6 server has priority over the IP address automatically
generated by the Device using the IPv6 prefix from an RA.
Select SLAAC (Stateless address autoconfiguration) to have the Device use the prefix to
automatically generate a unique IP address that does not need to be maintained by a
DHCP server.
DHCP PD
Select Enable to use DHCP PD (Prefix Delegation) to allow the Device to pass the IPv6
prefix information to its LAN hosts. The hosts can then use the prefix to generate their
IPv6 addresses.
IPv6 Address
With Static IP Address enabled, enter the IPv6 address of the Device in the WAN.
Prefix Length
With Static IP Address enabled, enter the IPv6 prefix length in the WAN.
IPv6 Default
Gateway
With Static IP Address enabled, enter the IPv6 address of the default gateway
IPv6 DNS
Server1
With Static IP Address enabled, enter the primary DNS server IPv6 address for the
Device.
Chapter 5
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41
Table 6 More Connections: Edit (continued)
LABEL
DESCRIPTION
IPv6 DNS
Server2
With Static IP Address enabled, enter the secondary DNS server IPv6 address for the
Device.
Connection
Keep Alive
Select Keep Alive when you want your connection up all the time. The Device will try to
bring up the connection automatically if it disconnects.
Connect on
Demand
Select Connect on Demand when you don't want the connection up all the time and
specify an idle time-out in the Max Idle Timeout field.
Max Idle
Timeout
Specify an idle time-out in the Max Idle Timeout field when you select Connect on
Demand. The default setting of 0 means the Internet session will not timeout.
NAT
If you set the Mode field to Router, you can select SUA Only if you have one public IP
address and want to use NAT.
Otherwise, select None to disable NAT.
Back
Click this to return to the previous screen without saving.
Apply
Click this to save your changes.
Advanced
Setup
Click this to display the More Connections Advanced Setup screen and edit more details
of your WAN setup.
Chapter 5
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42
5.3.2 Configuring More Connections Advanced Setup
Use this screen to edit your Device's advanced WAN settings. Click the Advanced Setup button in
the More Connections Edit screen. The screen appears as shown.
Figure 23 More Connections: Edit: Advanced Setup
The following table describes the labels in this screen.
Table 7 More Connections: Edit: Advanced Setup
LABEL
DESCRIPTION
RIP & Multicast Setup
RIP Direction
Select the RIP Direction from None, Both, In Only and Out Only.
RIP Version
You do not configure this field if you set the RIP Direction field to None.
Select the RIP Version from RIP-1, RIP-2B/RIP-2M.
Multicast
Devices use the IGMP (Internet Group Management Protocol) network-layer
protocol to establish membership in a multicast group. Select IGMP v1/IGMP-v2/
IGMP-v3. Select None to disable it.
MLD Proxy
Select the version of MLD proxy (v1 or v2) to have the Device act as for this
connection. This allows the Device to get subscription information and maintain a
joined member list for each multicast group. It can reduce multicast traffic
significantly. Select None to turn off MLD proxy.
ATM QoS
Chapter 5
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43
Table 7 More Connections: Edit: Advanced Setup (continued)
LABEL
DESCRIPTION
ATM QoS Type
Select CBR (Continuous Bit Rate) to specify fixed (always-on) bandwidth for voice or
data traffic. Select UBR With PCR (Unspecified Bit Rate with Peak Cell Rate) for
applications that are non-time sensitive, such as e-mail. Select Non Realtime VBR
(Variable Bit Rate-non Real Time) or Realtime VBR (Variable Bit Rate-Real Time) for
bursty traffic and bandwidth sharing with other applications.
Peak Cell Rate
Divide the DSL line rate (bps) by 424 (the size of an ATM cell) to find the Peak Cell
Rate (PCR). This sets the maximum rate at which the sender can send cells. Type
the PCR here.
Sustain Cell Rate
The Sustain Cell Rate (SCR) sets the average cell rate (long-term) that can be
transmitted. Type the SCR, which must be less than the PCR. Note the system
default of 0 cells/sec.
Maximum Burst
Size
Maximum Burst Size (MBS) refers to the maximum number of cells that can be sent
at the peak rate. Type the MBS (less than 65535).
PPPoE Passthrough
When using the PPPoE the encapsulation type, select this to enable PPPoE
passthrough. In addition to the Device’s built-in PPPoE client, this allows hosts on
the LAN to use PPPoE client software on their computers to connect to the ISP
through the Device. Each host can have a separate account and a public WAN IP
address.
MTU
MTU
The Maximum Transmission Unit (MTU) defines the size of the largest packet
allowed on an interface or connection. Enter the MTU in this field.
For ENET ENCAP, the MTU value equals 1500.
For PPPoE, the MTU value equals 1492.
For PPPoA and RFC, the MTU equals 100-1500.
5.4
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
The 3G Backup Screen
Use this screen to configure your 3G settings. Click Network Setting > Broadband > 3G Backup.
 The actual data rate you obtain varies depending the 3G card you use, the signal strength
to the service provider’s base station, and so on.
Chapter 5
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44
If the signal strength of a 3G network is too low, the 3G card may switch to an available 2.5G or
2.75G network. Refer to Section 5.5 on page 47 for a comparison between 2G, 2.5G, 2.75G and 3G
wireless technologies.
Figure 24 Network Setting > Broadband > 3G Backup
The following table describes the labels in this screen.
Table 8 Network Setting > Broadband > 3G Backup
LABEL
DESCRIPTION
3G Backup
Select Enable 3G Backup to have the Device use the 3G connection as your WAN or
a backup when the wired WAN connection fails.
Card Description
This field displays the manufacturer and model name of your 3G card if you inserted
one in the Device. Otherwise, it displays N/A.
Username
Type the user name (of up to 70 ASCII printable characters) given to you by your
service provider.
Password
Type the password (of up to 70 ASCII printable characters) associated with the user
name above.
Chapter 5
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45
Table 8 Network Setting > Broadband > 3G Backup (continued)
LABEL
DESCRIPTION
PIN
A PIN (Personal Identification Number) code is a key to a 3G card. Without the PIN
code, you cannot use the 3G card.
If your ISP enabled PIN code authentication, enter the 4-digit PIN code (0000 for
example) provided by your ISP. If you enter the PIN code incorrectly, the 3G card
may be blocked by your ISP and you cannot use the account to access the Internet.
If your ISP disabled PIN code authentication, leave this field blank.
Dial String
Enter the phone number (dial string) used to dial up a connection to your service
provider’s base station. Your ISP should provide the phone number.
For example, *99# is the dial string to establish a GPRS or 3G connection in Taiwan.
APN Code
Enter the APN (Access Point Name) provided by your service provider. Connections
with different APNs may provide different services (such as Internet access or MMS
(Multi-Media Messaging Service)) and charge method.
You can enter up to 31 ASCII printable characters. Spaces are allowed.
Obtain an IP
Address
Automatically
Select this option If your ISP did not assign you a fixed IP address.
Use the following
static IP address
Select this option If the ISP assigned a fixed IP address.
IP Address
Enter your WAN IP address in this field if you selected Use the following static IP
address.
Obtain DNS info
dynamically
Select this to have the Device get the DNS server addresses from the ISP
automatically.
Use the following
static DNS IP
address
Select this to have the Device use the DNS server addresses you configure manually.
Primary DNS
server
Enter the first DNS server address assigned by the ISP.
Secondary
DNS server
Enter the second DNS server address assigned by the ISP.
Connection
Select Nailed-UP if you do not want the connection to time out.
Select On-Demand if you do not want the connection up all the time and specify an
idle time-out in the Max Idle Timeout field.
Max Idle Timeout
This value specifies the time in minutes that elapses before the Device automatically
disconnects from the ISP.
Apply
Click Apply to save your changes back to the Device.
Cancel
Click Cancel to return to the previous configuration.
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5.5 WAN Technical Reference
This section provides some technical background information about the topics covered in this
chapter.
5.5.1 Encapsulation
Be sure to use the encapsulation method required by your ISP. The Device supports the following
methods.
5.5.1.1 ENET ENCAP
The Device only implements the MAC Encapsulated Routing Link Protocol (ENET ENCAP) with the IP
network protocol. IP packets get routed between the Ethernet interface and the WAN interface and
then formatted to work in a bridged environment. For instance, it encapsulates routed Ethernet
frames into bridged ATM cells. ENET ENCAP requires that you specify a gateway IP address in the
Gateway IP Address field in the wizard or WAN screen. You can get this information from your ISP.
5.5.1.2 PPP over Ethernet
The Device supports PPPoE (Point-to-Point Protocol over Ethernet). PPPoE specifies how a personal
computer (PC) interacts with a broadband modem (DSL, cable, wireless, etc.) connection. The PPPoE
option provides a dial-up connection using PPPoE.
For the service provider, PPPoE offers an access and authentication method that works with
existing access control systems (for example RADIUS).
PPPoE lets you access one of multiple network services, a function known as dynamic service
selection. This enables the service provider to easily create and offer new IP services for individuals.
Operationally, PPPoE saves significant effort for both you and the ISP or carrier, as it requires no
specific configuration of the broadband modem at the customer site.
By implementing PPPoE directly on the Device (rather than individual computers), the computers on
the LAN do not need PPPoE software installed, since the Device does that part of the task.
Furthermore, with NAT, all of the LANs’ computers will have access.
5.5.1.3 PPPoA
PPPoA stands for Point to Point Protocol over ATM Adaptation Layer 5 (AAL5). A PPPoA connection
functions like a dial-up Internet connection. The Device encapsulates the PPP session based on RFC
1483 and sends it through an ATM PVC (Permanent Virtual Circuit) to the Internet Service Provider’s
(ISP) DSLAM (Digital Subscriber Line (DSL) Access Multiplexer). Please refer to RFC 2364 for more
information on PPPoA. Refer to RFC 1661 for more information on PPP.
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5.5.1.4 RFC 1483
RFC 1483 describes two methods for Multiprotocol Encapsulation over ATM Adaptation Layer 5
(AAL5). The first method allows multiplexing of multiple protocols over a single ATM virtual circuit
(LLC-based multiplexing) and the second method assumes a separate ATM virtual circuit (VC-based
multiplexing) carries each protocol. Please refer to RFC 1483 for more detailed information.
5.5.2 Multiplexing
There are two conventions to identify what protocols the virtual circuit (VC) carries. Use the
multiplexing method required by your ISP.
VC-based Multiplexing
In this case, by prior mutual agreement, each protocol uses a specific virtual circuit; for example,
VC1 carries IP, etc. VC-based multiplexing may be dominant in environments where dynamic
creation of large numbers of ATM VCs is fast and economical.
LLC-based Multiplexing
In this case one VC carries multiple protocols with protocol identifying information being contained
in each packet header. Despite the extra bandwidth and processing overhead, this method may be
advantageous if it is not practical to have a separate VC for each carried protocol, for example, if
charging heavily depends on the number of simultaneous VCs.
5.5.3 VPI and VCI
Be sure to use the correct Virtual Path Identifier (VPI) and Virtual Channel Identifier (VCI) numbers
assigned to you. The valid range for the VPI is 0 to 255 and for the VCI is 32 to 65535 (0 to 31 is
reserved for local management of ATM traffic). Please see the appendix for more information.
5.5.4 IP Address Assignment
A static IP is a fixed IP that your ISP gives you. A dynamic IP is not fixed; the ISP assigns you a
different one each time. The Single User Account feature can be enabled or disabled if you have
either a dynamic or static IP. However the encapsulation method assigned influences your choices
for IP address and ENET ENCAP gateway.
IP Assignment with PPPoA or PPPoE Encapsulation
If you have a dynamic IP, then the IP Address and Gateway IP Address fields are not applicable (N/
A). If you have a Static IP Address assigned by your ISP, then they should also assign you a Subnet
Mask and a Gateway IP Address.
IP Assignment with RFC 1483 Encapsulation
In this case the IP address assignment must be static.
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IP Assignment with ENET ENCAP Encapsulation
In this case you can have either a static or dynamic IP. For a static IP you must fill in all the IP
Address and Gateway IP Address fields as supplied by your ISP. However for a dynamic IP, the
Device acts as a DHCP client on the WAN port and so the IP Address and Gateway IP Address fields
are not applicable (N/A) as the DHCP server assigns them to the Device.
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Chapter 6
Wireless
Chapter
C H A PT ER 6
6.1 Overview
This chapter describes the Device’s Network Setting > Wireless screens. Use these screens to set
up your Device’s wireless connection.
6.1.1 What You Can Do in this Chapter
• Use the General screen to enable the wireless LAN, enter the SSID and select the wireless security
mode (Section 6.2 on page 52).
• Use the More AP screen to set up multiple wireless networks on your Device (Section 6.3 on page
59).
• Use the MAC Authentication screen to allow or deny wireless clients based on their MAC
addresses from connecting to the Device (Section 6.4 on page 61).
• Use the WPS screen to enable or disable WPS, view or generate a security PIN (Personal
Identification Number) (Section 6.5 on page 63).
• Use the WDS screen (see Section 6.6 on page 65) to set up a Wireless Distribution System, in
which the Device acts as a bridge with other access points.
• Use the WMM screen to enable Wi-Fi MultiMedia (WMM) to ensure quality of service in wireless
networks for multimedia applications (Section 6.7 on page 67).
• Use the Scheduling screen to schedule a time period for the wireless LAN to operate each day
(Section 6.8 on page 68).
• Use the Advanced screen to configure advanced wireless features (Section 6.9 on page 69).
You don’t necessarily need to use all these screens to set up your wireless connection. For example,
you may just want to set up a network name, a wireless radio channel and some security in the
General screen.
6.1.2 Wireless Network Overview
Wireless networks consist of wireless clients, access points and bridges.
• A wireless client is a radio connected to a user’s computer.
• An access point is a radio with a wired connection to a network, which can connect with
numerous wireless clients and let them access the network.
• A bridge is a radio that relays communications between access points and wireless clients,
extending a network’s range.
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Traditionally, a wireless network operates in one of two ways.
• An “infrastructure” type of network has one or more access points and one or more wireless
clients. The wireless clients connect to the access points.
• An “ad-hoc” type of network is one in which there is no access point. Wireless clients connect to
one another in order to exchange information.
The following figure provides an example of a wireless network.
Figure 25 Example of a Wireless Network
The wireless network is the part in the blue circle. In this wireless network, devices A and B use the
access point (AP) to interact with the other devices (such as the printer) or with the Internet. Your
Device is the AP.
Every wireless network must follow these basic guidelines.
• Every device in the same wireless network must use the same SSID.
The SSID is the name of the wireless network. It stands for Service Set IDentifier.
• If two wireless networks overlap, they should use a different channel.
Like radio stations or television channels, each wireless network uses a specific channel, or
frequency, to send and receive information.
• Every device in the same wireless network must use security compatible with the AP.
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• Security stops unauthorized devices from using the wireless network. It can also protect the
information that is sent in the wireless network.
Radio Channels
In the radio spectrum, there are certain frequency bands allocated for unlicensed, civilian use. For
the purposes of wireless networking, these bands are divided into numerous channels. This allows
a variety of networks to exist in the same place without interfering with one another. When you
create a network, you must select a channel to use.
Since the available unlicensed spectrum varies from one country to another, the number of
available channels also varies.
6.1.3 Before You Begin
Before you start using these screens, ask yourself the following questions. See Section 6.10 on page
71 if some of the terms used here do not make sense to you.
• What wireless standards do the other wireless devices support (IEEE 802.11g, for example)? What
is the most appropriate standard to use?
• What security options do the other wireless devices support (WPA2-PSK, for example)? What is
the best one to use?
• Do the other wireless devices support WPS (Wi-Fi Protected Setup)? If so, you can set up a wellsecured network very easily.
Even if some of your devices support WPS and some do not, you can use WPS to set up your
network and then add the non-WPS devices manually, although this is somewhat more
complicated to do.
• What advanced options do you want to configure, if any? If you want to configure advanced
options, ensure that you know precisely what you want to do. If you do not want to configure
advanced options, leave them alone.
6.2
Wireless General Screen
Use this screen to enable the Wireless LAN, enter the SSID and select the wireless security mode.
 If you are configuring the Device from a computer connected to the wireless LAN and you
change the Device’s SSID or security settings, you will lose your wireless connection when
you press Apply to confirm. You must then change the wireless settings of your computer
to match the Device’s new settings.
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Click Network Setting > Wireless to open the General screen. Select the Enable Wireless LAN
checkbox to show the Wireless configurations.
Figure 26 Network Setting > Wireless > General
The following table describes the labels in this screen.
Table 9 Network > Wireless LAN > General
LABEL
DESCRIPTION
Wireless Network Setup
Wireless
Select the Enable Wireless LAN check box to activate the wireless LAN.
Note: You must also set the Device’s physical WLAN ON/OFF button to ON to use
wireless LAN. The WLAN LED should be on.
Wireless Network Settings
Wireless Network
Name (SSID)
The SSID (Service Set IDentity) identifies the service set with which a wireless device is
associated. Wireless devices associating to the access point (AP) must have the same
SSID.
Enter a descriptive name (up to 32 English keyboard characters) for the wireless LAN.
Hide SSID
Select this check box to hide the SSID in the outgoing beacon frame so a station
cannot obtain the SSID through scanning using a site survey tool.
Client Isolation
Select this to keep the wireless clients in this SSID from communicating with each
other directly through the Device.
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Table 9 Network > Wireless LAN > General (continued)
LABEL
DESCRIPTION
MBSSID/LAN
Isolation
Select this to keep the wireless clients in this SSID from communicating with clients in
other SSIDs or wired LAN devices through the Device.
Select both Client Isolation and MBSSID/LAN Isolation to allow this SSID’s wireless
clients to only connect to the Internet through the Device.
Channel Selection
Set the channel depending on your particular region.
Select a channel or use Auto to have the Device automatically determine a channel to
use. If you are having problems with wireless interference, changing the channel may
help. Try to use a channel that is as many channels away from any channels used by
neighboring APs as possible. The channel number which the Device is currently using
then displays in the Operating Channel field.
Click this button to have the Device immediately scan for and select a channel (which
is not used by another device) whenever the device reboots or the wireless setting is
changed.
Scan
Operating Channel
This is the channel currently being used by your AP.
Security Level
Security Mode
Select Basic or More Secure to add security on this wireless network. The wireless
clients which want to associate to this network must have same wireless security
settings as the Device. When you select to use a security, additional options appears
in this screen.
Or you can select No Security to allow any client to associate with this network
without any data encryption or authentication.
See the following sections for more details about wireless security modes.
Apply
Click Apply to save your changes back to the Device.
Cancel
Click Cancel to restore your previously saved settings.
6.2.1 No Security
Select No Security to allow wireless stations to communicate with the access points without any
data encryption or authentication.
 If you do not enable any wireless security on your Device, your network is accessible to any
wireless networking device that is within range.
Figure 27 Wireless > General: No Security
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The following table describes the labels in this screen.
Table 10 Wireless > General: No Security
LABEL
DESCRIPTION
Security Level
Choose No Security from the sliding bar.
6.2.2 Basic (Static WEP/Shared WEP Encryption)
WEP encryption scrambles the data transmitted between the wireless stations and the access points
(AP) to keep network communications private. Both the wireless stations and the access points
must use the same WEP key.
There are two types of WEP authentication namely, Open System (Static WEP) and Shared Key
(Shared WEP).
Open system is implemented for ease-of-use and when security is not an issue. The wireless station
and the AP or peer computer do not share a secret key. Thus the wireless stations can associate
with any AP or peer computer and listen to any transmitted data that is not encrypted.
Shared key mode involves a shared secret key to authenticate the wireless station to the AP or peer
computer. This requires you to enable the wireless LAN security and use same settings on both the
wireless station and the AP or peer computer.
In order to configure and enable WEP encryption, click Network Settings > Wireless to display the
General screen. Select Basic as the security level. Then select Static WEP or Shared WEP from the
Security Mode list.
Figure 28 Wireless > General: Basic (Static WEP/Shared WEP)
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The following table describes the labels in this screen.
Table 11 Wireless > General: Basic (Static WEP/Shared WEP)
LABEL
DESCRIPTION
Security Level
Select Basic to enable WEP data encryption.
Generate
password
automatically
Select this option to have the Device automatically generate a password. The password
field will not be configurable when you select this option.
Password 1~4
The password (WEP key) is used to encrypt data. Both the Device and the wireless
stations must use the same password (WEP key) for data transmission.
If you chose 64-bit WEP, then enter any 5 ASCII characters or 10 hexadecimal
characters ("0-9", "A-F").
If you chose 128-bit WEP, then enter 13 ASCII characters or 26 hexadecimal characters
("0-9", "A-F").
WEP Encryption
Select 64-bits or 128-bits.
This dictates the length of the security key that the network is going to use.
6.2.3 More Secure (WPA2-PSK)
The WPA2-PSK security mode provides both improved data encryption and user authentication
over WEP. Using a Pre-Shared Key (PSK), both the Device and the connecting client share a common
password in order to validate the connection. This type of encryption, while robust, is not as strong
as WPA2.
Click Network Settings > Wireless to display the General screen. Select More Secure as the
security level. Then select WPA2-PSK from the Security Mode list.
Figure 29 Wireless > General: More Secure: WPA2-PSK
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The following table describes the labels in this screen.
Table 12 Wireless > General: WPA2-PSK
LABEL
DESCRIPTION
Security Level
Select More Secure to enable WPA2-PSK data encryption.
Security Mode
Select WPA2-PSK from the drop-down list box.
Pre-Shared Key
The encryption mechanisms used for WPA2 and WPA2-PSK are the same. The only
difference between the two is that WPA2-PSK uses a simple common password,
instead of user-specific credentials.
Type a pre-shared key from 8 to 63 case-sensitive ASCII characters or 64 hexidecimal
digits.
more.../hide more
Click more... to show more fields in this section. Click hide more to hide them.
WPA-PSK
Compatible
Enable this to allow wireless devices using WPA-PSK security mode to connect to your
Device. The Device supports WPA-PSK and WPA2-PSK simultaneously.
Group Key Update
Timer
The Group Key Update Timer is the rate at which the RADIUS server sends a new
group key out to all clients.
Encryption
If the security mode is WPA2-PSK and WPA-PSK Compatible is disabled, the
encryption mode is set to AES to enable Advanced Encryption System (AES) security on
your wireless network. AES provides superior security to TKIP.
If the security mode is WPA2-PSK and WPA-PSK Compatible is enabled, the
encryption mode also allows you to select TKIPAES MIX to allow both TKIP and AES
types of security in your wireless network.
6.2.4 WPA2 Authentication
The WPA2 security mode is currently the most robust form of encryption for wireless networks. It
requires a RADIUS server to authenticate user credentials and is a full implementation the security
protocol. Use this security option for maximum protection of your network. However, it is the least
backwards compatible with older devices.
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Click Network Settings > Wireless to display the General screen. Select More Secure as the
security level. Then select WPA2 from the Security Mode list.
Figure 30 Wireless > General: More Secure: WPA2
The following table describes the labels in this screen.
Table 13 Wireless > General: More Secure: WPA2
LABEL
DESCRIPTION
Security Level
Select More Secure to enable WPA2 data encryption.
Security Mode
Choose WPA2 from the drop-down list box.
Authentication Server
IP Address
Enter the IP address of the external authentication server in dotted decimal notation.
Port Number
Enter the port number of the external authentication server. The default port number
is 1812.
You need not change this value unless your network administrator instructs you to do
so with additional information.
Shared Secret
Enter a password (up to 128 alphanumeric characters) as the key to be shared between
the external authentication server and the Device.
The key must be the same on the external authentication server and your Device. The
key is not sent over the network.
more.../hide more
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Table 13 Wireless > General: More Secure: WPA2 (continued)
LABEL
DESCRIPTION
ReAuthentication
Timer
Specify how often wireless stations have to resend user names and passwords in order
to stay connected.
The default value is 0, which means the reauthentication off.
Note: If wireless station authentication is done using a RADIUS server, the
reauthentication timer on the RADIUS server has priority.
WPA Compatible
Select this if you want the Device to support WPA and WPA2 simultaneously.
Group Key Update
Timer
The Group Key Update Timer is the rate at which the RADIUS server sends a new
group key out to all clients.
If the value is set to “0”, the update timer function is disabled.
Encryption
If the security mode is WPA2 and WPA-PSK Compatible is disabled, the encryption
mode is set to AES to enable Advanced Encryption System (AES) security on your
wireless network. AES provides superior security to TKIP.
If the security mode is WPA2 and WPA-PSK Compatible is enabled, the encryption
mode also allows you to select TKIPAES MIX to allow both TKIP and AES types of
security in your wireless network.
6.3
More AP Screen
The Device can broadcast up to four wireless network names at the same time. This means that
users can connect to the Device using different SSIDs. You can secure the connection on each SSID
profile so that wireless clients connecting to the Device using different SSIDs cannot communicate
with each other.
This screen allows you to enable and configure multiple Basic Service Sets (BSSs) on the Device.
Click Network Settings > Wireless > More AP. The following screen displays.
Figure 31 Network Settings > Wireless > More AP
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The following table describes the labels in this screen.
Table 14 Network Settings > Wireless > More AP
LABEL
DESCRIPTION
This is the index number of the entry.
Active
This field indicates whether this SSID is active. A yellow bulb signifies that this SSID is
active. A gray bulb signifies that this SSID is not active.
SSID
An SSID profile is the set of parameters relating to one of the Device’s BSSs. The SSID
(Service Set IDentifier) identifies the Service Set with which a wireless device is
associated.
This field displays the name of the wireless profile on the network. When a wireless
client scans for an AP to associate with, this is the name that is broadcast and seen in
the wireless client utility.
Security
This field indicates the security mode of the SSID profile.
Modify
Click the Edit icon to configure the SSID profile.
6.3.1 Edit More AP
Use this screen to edit an SSID profile. Click the Edit icon next to an SSID in the More AP screen. The
following screen displays.
Figure 32 Wireless > More AP: Edit
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The following table describes the fields in this screen.
Table 15 Wireless > More AP: Edit
LABEL
DESCRIPTION
Wireless Network Setup
Wireless
Select the Enable Wireless LAN check box to activate the wireless LAN.
Wireless Network Settings
Wireless Network
Name (SSID)
The SSID (Service Set IDentity) identifies the service set with which a wireless device
is associated. Wireless devices associating to the access point (AP) must have the
same SSID.
Enter a descriptive name (up to 32 English keyboard characters) for the wireless LAN.
Hide SSID
Select this check box to hide the SSID in the outgoing beacon frame so a station
cannot obtain the SSID through scanning using a site survey tool.
Client Isolation
Select this to keep the wireless clients in this SSID from communicating with each
other directly through the Device.
MBSSID/LAN
Isolation
Select this to keep the wireless clients in this SSID from communicating with clients
in other SSIDs or wired LAN devices through the Device.
Select both Client Isolation and MBSSID/LAN Isolation to allow this SSID’s wireless
clients to only connect to the Internet through the Device.
Security Level
Security Mode
Select Basic (WEP) or More Secure (WPA2-PSK, WPA2) to add security on this
wireless network. Wireless clients must use the same wireless security settings as
the Device to connect to the wireless LAN. After you select to use security, additional
options appears in this screen.
Or you can select No Security to allow any client to connect to this network without
any data encryption or authentication.
See Section 6.2.1 on page 54 through Section 6.2.4 on page 57 for more details
about this field.
6.4
OK
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
MAC Authentication Screen
Use this screen to configure the Device to give exclusive access to specific devices (Allow) or
exclude specific devices from accessing the Device (Deny). Every Ethernet device has a unique MAC
(Media Access Control) address. The MAC address is assigned at the factory and consists of six pairs
of hexadecimal characters, for example, 00:A0:C5:00:00:02. You need to know the MAC addresses of
the devices to configure this screen.
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Use this screen to view your Device’s MAC filter settings and add new MAC filter rules. Click
Network Setting > Wireless > MAC Authentication. The screen appears as shown.
Figure 33 Wireless > MAC Authentication
The following table describes the labels in this screen.
Table 16 Wireless > MAC Authentication
LABEL
DESCRIPTION
SSID
Select the SSID for which you want to configure MAC filter settings.
MAC Restrict
Mode
Define the filter action for the list of MAC addresses in the MAC Address table.
Select Disable to turn off MAC filtering.
Select Deny to block access to the Device. MAC addresses not listed will be allowed to
access the Device.
Select Allow to permit access to the Device. MAC addresses not listed will be denied access
to the Device.
Add new MAC
address
Click this if you want to add a new MAC address entry to the MAC filter list below.
Enter the MAC addresses of the wireless devices that are allowed or denied access to the
Device in these address fields. Enter the MAC addresses in a valid MAC address format, that
is, six hexadecimal character pairs, for example, 12:34:56:78:9a:bc.
Figure 34 Wireless > MAC Authentication > Add new MAC address
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Table 16 Wireless > MAC Authentication (continued)
6.5
LABEL
DESCRIPTION
MAC Address
This is the MAC addresses of the wireless devices that are allowed or denied access to the
Device.
Modify
Click the Delete icon to delete the entry.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to exit this screen without saving.
The WPS Screen
Use this screen to configure WiFi Protected Setup (WPS) on your Device.
WPS allows you to quickly set up a wireless network with strong security, without having to
configure security settings manually. Set up each WPS connection between two devices. Both
devices must support WPS.
 The Device applies the security settings of the SSID1 profile (see Section 6.2 on page 52). If
you want to use the WPS feature, make sure you have set the security mode of SSID1 to
WPA2-PSK or WPA2-PSK/WPA-PSK mixed or no security.
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Click Network Setting > Wireless > WPS. The following screen displays. Select Enable and click
Apply to activate the WPS function. Then you can configure the WPS settings in this screen.
Figure 35 Network Setting > Wireless > WPS
The following table describes the labels in this screen.
Table 17 Network Setting > Wireless > WPS
LABEL
DESCRIPTION
Enable WPS
Select Enable and click Apply to activate WPS on the Device.
Add a new device with WPS Method - These fields display after you enable WPS and click Apply.
Method 1 PBC
WPS
Use this section to set up a WPS wireless network using Push Button Configuration
(PBC).
Click this button to add another WPS-enabled wireless device (within wireless range of
the Device) to your wireless network. This button may either be a physical button on
the outside of device, or a menu button similar to the WPS button on this screen.
Note: You must press the other wireless device’s WPS button within two minutes of
pressing this button.
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Table 17 Network Setting > Wireless > WPS (continued)
LABEL
DESCRIPTION
Method 2 PIN
Use this section to set up a WPS wireless network by entering the PIN (Personal
Identification Number) of the client into the Device.
Register
Enter the PIN of the device that you are setting up a WPS connection with and click
Register to authenticate and add the wireless device to your wireless network.
You can find the PIN either on the outside of the device, or by checking the device’s
settings.
Note: You must also activate WPS on that device within two minutes to have it present
its PIN to the Device.
WPS Configuration Summary
AP PIN
The PIN of the Device is shown here. Enter this PIN in the configuration utility of the
device you want to connect to using WPS.
The PIN is not necessary when you use WPS push-button method.
Click the Generate New PIN button to have the Device create a new PIN.
Status
This displays Configured when the Device has connected to a wireless network using
WPS or Enable WPS is selected and wireless or wireless security settings have been
changed. The current wireless and wireless security settings also appear in the screen.
This displays Not Configured when there is no wireless or wireless security changes
on the Device or you click Release Configuration to remove the configured wireless
and wireless security settings.
6.6
Release
Configuration
This button is available when the WPS status is Configured.
802.11 Mode
This is the 802.11 mode used. Only compliant WLAN devices can associate with the
Device.
SSID
This is the name of the wireless network.
Security
This is the type of wireless security employed by the network.
Pre-Shared Key
This is the wireless LAN password.
Click this button to remove all configured wireless and wireless security settings for
WPS connections on the Device.
Apply
Click Apply to save your changes.
Cancel
Click this to restore your previously saved settings.
The WDS Screen
An AP using the Wireless Distribution System (WDS) can function as a wireless network bridge
allowing you to wirelessly connect wired network segments. The WDS screen allows you to
configure the Device to connect to other APs wirelessly when WDS is enabled.
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Use this screen to set up your WDS (Wireless Distribution System) links between the Device and
other wireless APs. You need to know the MAC address of the peer device. Once the security
settings of peer sides match one another, the connection between devices is made.
 WDS security is independent of the security settings between the Device and any wireless
clients.
 Not all APs support WDS links. Check your other AP’s documentation.
Click Network Setting > Wireless > WDS. The following screen displays.
Figure 36 Network Setting > Wireless > WDS
The following table describes the labels in this screen.
Table 18 Network Setting > Wireless > WDS
LABEL
DESCRIPTION
WDS Security
Select the type of the key used to encrypt data between APs. All the wireless APs
(including the Device) must use the same pre-shared key for data transmission.
The option is available only when you set the security mode to WPA2 or WPA2-PSK in
the Wireless > General screen.
TKIP
Select this to use TKIP (Temporal Key Integrity Protocol) encryption.
AES
Select this to use AES (Advanced Encryption Standard) encryption.
This is the index number of the individual WDS link.
Active
Select this to activate the link between the Device and the peer device to which this entry
refers. When you do not select the check box this link is down.
Remote Bridge
MAC Address
Type the MAC address of the peer device in a valid MAC address format (six hexadecimal
character pairs, for example 12:34:56:78:9a:bc).
PSK
Enter a Pre-Shared Key (PSK) from 8 to 63 case-sensitive ASCII characters (including
spaces and symbols).
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Table 18 Network Setting > Wireless > WDS (continued)
6.7
LABEL
DESCRIPTION
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
The WMM Screen
Use this screen to enable or disable Wi-Fi MultiMedia (WMM) wireless networks for multimedia
applications.
Click Network Setting > Wireless > WMM. The following screen displays.
Figure 37 Network Setting > Wireless > WMM
The following table describes the labels in this screen.
Table 19 Network Setting > Wireless > WMM
LABEL
DESCRIPTION
Enable WMM of
SSID1~4
This enables the Device to automatically give a service a priority level according to the
ToS value in the IP header of packets it sends. WMM QoS (Wifi MultiMedia Quality of
Service) gives high priority to voice and video, which makes them run more smoothly.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
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6.8
Scheduling Screen
Click Network Setting > Wireless > Scheduling to open the Wireless Scheduling screen. Use this
screen to manage schedules that turn off wireless service for power saving purposes.
Figure 38 Network Setting > Wireless > Scheduling
The following table describes the labels in this screen.
Table 20 Network Setting > Wireless > Scheduling
LABEL
DESCRIPTION
Wireless LAN
Scheduling
Select Enable to activate wireless LAN scheduling on your Device.
Add New Rule
Click this to create a new wireless LAN scheduling rule.
This is the index number of the entry.
Rule Name
This field shows the name configured for the scheduling rule.
Days
This field displays to which days of the week the schedule applies.
Start Time
This field displays the time (in 24-hour time format) the rule turns off the wireless LAN.
End Time
This field displays the time (in 24-hour time format) the rule turns the wireless LAN
back on.
Security
This field indicates the security mode of the SSID profile.
Modify
Click the Edit icon to configure the scheduling rule.
Click the Delete icon to remove the scheduling rule.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
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6.8.1 Add or Edit Schedule
Use this screen to add or edit a wireless LAN schedule. In the Network Setting > Wireless >
Scheduling screen, click Add New Rule or the Edit icon next to an existing schedule. The following
screen displays.
Figure 39 Network Setting > Wireless > Scheduling > Add New Rule
The following table describes the fields in this screen.
Table 21 Network Setting > Wireless > Scheduling > Add New Rule
6.9
LABEL
DESCRIPTION
From
Schedule
Rules
To create a new scheduling rule based off an existing one, select it here.
Rule Name
Specify a descriptive name to identify the scheduling rule.
Day
Select the days of the week to which to apply the schedule.
Time of Day
Range
Enter the wireless LAN service start and end times in 24-hour time format.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to exit this screen without saving.
Advanced Screen
Use this screen to configure advanced wireless settings. Click Network Setting > Wireless >
Advanced, the screen appears as shown.
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See Section 6.10.1 on page 71 for detailed definitions of the terms listed in this screen.
Figure 40 Network Setting > Wireless> Advanced
The following table describes the labels in this screen.
Table 22 Network Setting > Wireless> Advanced
LABEL
DESCRIPTION
Fragmentation
Threshold
This is the maximum data fragment size that can be sent. Enter a value between 256 and
2346.
Output Power
Set the output power of the Device. If there is a high density of APs in an area, decrease
the output power to reduce interference with other APs. Select one of the following:
100%, 75%, 50% or 25%.
Preamble
Select a preamble type from the drop-down list menu. Choices are Long or Short.
802.11 Mode
Select 802.11b to allow only IEEE 802.11b compliant WLAN devices to associate with the
Device.
Select 802.11g to allow only IEEE 802.11g compliant WLAN devices to associate with the
Device.
Select 802.11b+g to allow either IEEE 802.11b or IEEE 802.11g compliant WLAN devices to
associate with the Device. The transmission rate of your Device might be reduced.
Select 802.11n to allow only IEEE 802.11n compliant WLAN devices to associate with the
Device.
Select 802.11g+n to allow either IEEE 802.11g or IEEE 802.11n compliant WLAN devices to
associate with the Device. The transmission rate of the Device might be reduced when an
802.11g wireless client is associated with it.
Select 802.11b+g+n to allow IEEE 802.11b, IEEE 802.11g or IEEE 802.11n compliant WLAN
devices to associate with the Device. The transmission rate of the Device might be
reduced when an 802.11b or 802.11g wireless client is associated with it.
Note: The transmission rate varies depending on the mode the wireless client uses to
associate with the Device.
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Table 22 Network Setting > Wireless> Advanced (continued)
LABEL
DESCRIPTION
Channel Width
A standard 20MHz channel offers transfer speeds of up to 150Mbps whereas a 40MHz
channel uses two standard channels and offers speeds of up to 300 Mbps.
Select 20MHz if you want to lessen radio interference with other wireless devices in your
neighborhood or the wireless clients do not support channel bonding.
Select Auto to have the Device configure the wireless channel width automatically.
This field is available only when you set the 802.11 Mode to 802.11n or 802.11b+g+n in
the Advanced Setup screen.
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
6.10 Technical Reference
This section discusses wireless LANs in depth.
6.10.1 Additional Wireless Terms
The following table describes some wireless network terms and acronyms used in the Device’s web
configurator.
Table 23 Additional Wireless Terms
TERM
DESCRIPTION
RTS/CTS Threshold
In a wireless network which covers a large area, wireless devices are sometimes not
aware of each other’s presence. This may cause them to send information to the AP at
the same time and result in information colliding and not getting through.
By setting this value lower than the default value, the wireless devices must sometimes
get permission to send information to the Device. The lower the value, the more often
the devices must get permission.
If this value is greater than the fragmentation threshold value (see below), then
wireless devices never have to get permission to send information to the Device.
Preamble
A preamble affects the timing in your wireless network. There are two preamble
modes: long and short. If a device uses a different preamble mode than the Device
does, it cannot communicate with the Device.
Authentication
The process of verifying whether a wireless device is allowed to use the wireless
network.
Fragmentation
Threshold
A small fragmentation threshold is recommended for busy networks, while a larger
threshold provides faster performance if the network is not very busy.
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6.10.2 Wireless Security Overview
By their nature, radio communications are simple to intercept. For wireless data networks, this
means that anyone within range of a wireless network without security can not only read the data
passing over the airwaves, but also join the network. Once an unauthorized person has access to
the network, he or she can steal information or introduce malware (malicious software) intended to
compromise the network. For these reasons, a variety of security systems have been developed to
ensure that only authorized people can use a wireless data network, or understand the data carried
on it.
These security standards do two things. First, they authenticate. This means that only people
presenting the right credentials (often a username and password, or a “key” phrase) can access the
network. Second, they encrypt. This means that the information sent over the air is encoded. Only
people with the code key can understand the information, and only people who have been
authenticated are given the code key.
These security standards vary in effectiveness. Some can be broken, such as the old Wired
Equivalent Protocol (WEP). Using WEP is better than using no security at all, but it will not keep a
determined attacker out. Other security standards are secure in themselves but can be broken if a
user does not use them properly. For example, the WPA2-PSK security standard is very secure if you
use a long key which is difficult for an attacker’s software to guess - for example, a twenty-letter long
string of apparently random numbers and letters - but it is not very secure if you use a short key
which is very easy to guess - for example, a three-letter word from the dictionary.
Because of the damage that can be done by a malicious attacker, it’s not just people who have
sensitive information on their network who should use security. Everybody who uses any wireless
network should ensure that effective security is in place.
A good way to come up with effective security keys, passwords and so on is to use obscure
information that you personally will easily remember, and to enter it in a way that appears random
and does not include real words. For example, if your mother owns a 1970 Dodge Challenger and
her favorite movie is Vanishing Point (which you know was made in 1971) you could use
“70dodchal71vanpoi” as your security key.
The following sections introduce different types of wireless security you can set up in the wireless
network.
6.10.2.1 SSID
Normally, the Device acts like a beacon and regularly broadcasts the SSID in the area. You can hide
the SSID instead, in which case the Device does not broadcast the SSID. In addition, you should
change the default SSID to something that is difficult to guess.
This type of security is fairly weak, however, because there are ways for unauthorized wireless
devices to get the SSID. In addition, unauthorized wireless devices can still see the information that
is sent in the wireless network.
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6.10.2.2 User Authentication
Authentication is the process of verifying whether a wireless device is allowed to use the wireless
network. You can make every user log in to the wireless network before using it. However, every
device in the wireless network has to support IEEE 802.1x to do this.
For wireless networks, you can store the user names and passwords for each user in a RADIUS
server. This is a server used in businesses more than in homes. If you do not have a RADIUS server,
you cannot set up user names and passwords for your users.
Unauthorized wireless devices can still see the information that is sent in the wireless network, even
if they cannot use the wireless network. Furthermore, there are ways for unauthorized wireless
users to get a valid user name and password. Then, they can use that user name and password to
use the wireless network.
6.10.2.3 Encryption
Wireless networks can use encryption to protect the information that is sent in the wireless
network. Encryption is like a secret code. If you do not know the secret code, you cannot
understand the message.
The types of encryption you can choose depend on the type of authentication. (See Section 6.10.2.2
on page 73 for information about this.)
Table 24 Types of Encryption for Each Type of Authentication
Weakest
No Authentication
RADIUS Server
No Security
WPA
Static WEP
WPA-PSK
Strongest
WPA2-PSK
WPA2
For example, if the wireless network has a RADIUS server, you choose WPA2. If users do not log in to
the wireless network, you can choose no encryption, Static WEP or WPA2-PSK.
Usually, you should set up the strongest encryption that every device in the wireless network
supports. For example, suppose you have a wireless network with the Device and you do not have a
RADIUS server. Therefore, there is no authentication. Suppose the wireless network has two
devices. Device A only supports WEP, and device B supports WEP and WPA2. Therefore, you should
set up Static WEP in the wireless network.
 It is recommended that wireless networks use WPA2-PSK or WPA2 encryption. The other
types of encryption are better than none at all, but it is still possible for unauthorized
wireless devices to figure out the original information pretty quickly.
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When you select WPA2 or WPA2-PSK in your Device, you can also select an option (WPA
compatible) to support WPA as well. In this case, if some of the devices support WPA and some
support WPA2, you should set up WPA2-PSK or WPA2 (depending on the type of wireless network
login) and select the WPA compatible option in the Device.
Many types of encryption use a key to protect the information in the wireless network. The longer
the key, the stronger the encryption. Every device in the wireless network must have the same key.
6.10.3 Signal Problems
Because wireless networks are radio networks, their signals are subject to limitations of distance,
interference and absorption.
Problems with distance occur when the two radios are too far apart. Problems with interference
occur when other radio waves interrupt the data signal. Interference may come from other radio
transmissions, such as military or air traffic control communications, or from machines that are
coincidental emitters such as electric motors or microwaves. Problems with absorption occur when
physical objects (such as thick walls) are between the two radios, muffling the signal.
6.10.4 BSS
A Basic Service Set (BSS) exists when all communications between wireless stations or between a
wireless station and a wired network client go through one access point (AP).
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Intra-BSS traffic is traffic between wireless stations in the BSS. When Intra-BSS traffic blocking is
disabled, wireless station A and B can access the wired network and communicate with each other.
When Intra-BSS traffic blocking is enabled, wireless station A and B can still access the wired
network but cannot communicate with each other.
Figure 41 Basic Service set
6.10.5 MBSSID
Traditionally, you need to use different APs to configure different Basic Service Sets (BSSs). As well
as the cost of buying extra APs, there is also the possibility of channel interference. The Device’s
MBSSID (Multiple Basic Service Set IDentifier) function allows you to use one access point to provide
several BSSs simultaneously. You can then assign varying QoS priorities and/or security modes to
different SSIDs.
Wireless devices can use different BSSIDs to associate with the same AP.
6.10.5.1 Notes on Multiple BSSs
• A maximum of eight BSSs are allowed on one AP simultaneously.
• You must use different keys for different BSSs. If two wireless devices have different BSSIDs (they
are in different BSSs), but have the same keys, they may hear each other’s communications (but
not communicate with each other).
• MBSSID should not replace but rather be used in conjunction with 802.1x security.
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6.10.6 Wireless Distribution System (WDS)
The Device can act as a wireless network bridge and establish WDS (Wireless Distribution System)
links with other APs. You need to know the MAC addresses of the APs you want to link to. Once the
security settings of peer sides match one another, the connection between devices is made.
At the time of writing, WDS security is not compatible with all access points. Refer to your other
access point’s documentation for details.
The following figure illustrates how WDS link works between APs. Notebook computer A is a
wireless client connecting to access point AP 1. AP 1 has no wired Internet connection, but it can
establish a WDS link with access point AP 2, which has a wired Internet connection. When AP 1 has
a WDS link with AP 2, the notebook computer can access the Internet through AP 2.
Figure 42 WDS Link Example
WDS
AP 1
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Chapter 7
7.1
Home Networking
Chapter
C H A PT ER 7
Overview
A Local Area Network (LAN) is a shared communication system to which many computers are
attached. A LAN is usually located in one immediate area such as a building or floor of a building.
The LAN screens can help you configure a LAN DHCP server and manage IP addresses.
LAN
WAN
7.1.1 What You Can Do in this Chapter
• Use the LAN Setup screen to set the LAN IP address, subnet mask, and DHCP settings (Section 7.2
on page 80).
• Use the Static DHCP screen to assign IP addresses on the LAN to specific individual computers
based on their MAC Addresses (Section 7.3 on page 82).
• Use the IP Alias screen (Section 7.4 on page 84) to configure another logical network in the
physical LAN network.
• Use the UPnP screen to enable UPnP (Section 7.5 on page 85).
• Use the UPnP Rule screen to
• Use the IPv6 LAN Setup screen (Section 7.6 on page 86) to configure the IPv6 settings on your
Device’s LAN interface.
• Use the File Sharing screen to enable file-sharing server (Section 7.7 on page 91).
• Use the Printer Server screen to enable the print server (Section 7.8 on page 95).
7.1.2 What You Need To Know
The following terms and concepts may help as you read this chapter.
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7.1.2.1 About LAN
IP Address
Similar to the way houses on a street share a common street name, so too do computers on a LAN
share one common network number. This is known as an Internet Protocol address.
Subnet Mask
The subnet mask specifies the network number portion of an IP address. Your Device will compute
the subnet mask automatically based on the IP address that you entered. You don't need to change
the subnet mask computed by the Device unless you are instructed to do otherwise.
DHCP
DHCP (Dynamic Host Configuration Protocol) allows clients to obtain TCP/IP configuration at startup from a server. This Device has a built-in DHCP server capability that assigns IP addresses and
DNS servers to systems that support DHCP client capability.
DNS
DNS (Domain Name System) maps a domain name to its corresponding IP address and vice versa.
The DNS server is extremely important because without it, you must know the IP address of a
computer before you can access it. The DNS server addresses you enter when you set up DHCP are
passed to the client machines along with the assigned IP address and subnet mask.
7.1.2.2 About UPnP
How do I know if I'm using UPnP?
UPnP hardware is identified as an icon in the Network Connections folder (Windows XP). Each UPnP
compatible device installed on your network will appear as a separate icon. Selecting the icon of a
UPnP device will allow you to access the information and properties of that device.
Cautions with UPnP
The automated nature of NAT traversal applications in establishing their own services and opening
firewall ports may present network security issues. Network information and configuration may
also be obtained and modified by users in some network environments.
When a UPnP device joins a network, it announces its presence with a multicast message. For
security reasons, the Device allows multicast messages on the LAN only.
All UPnP-enabled devices may communicate freely with each other without additional
configuration. Disable UPnP if this is not your intention.
UPnP and ZyXEL
ZyXEL has achieved UPnP certification from the Universal Plug and Play Forum UPnP™
Implementers Corp. (UIC). ZyXEL's UPnP implementation supports Internet Gateway Device (IGD)
1.0.
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See Section 7.10 on page 98 for examples of installing and using UPnP.
7.1.2.3 About File Sharing
Workgroup name
This is the name given to a set of computers that are connected on a network and share resources
such as a printer or files. Windows automatically assigns the workgroup name when you set up a
network.
Shares
When settings are set to default, each USB device connected to the Device is given a folder, called a
“share”. If a USB hard drive connected to the Device has more than one partition, then each
partition will be allocated a share. You can also configure a “share” to be a sub-folder or file on the
USB device.
File Systems
A file system is a way of storing and organizing files on your hard drive and storage device. Often
different operating systems such as Windows or Linux have different file systems. The file sharing
feature on your Device supports FAT16, FAT32, NTFS, EXT2, and EXT3.
Common Internet File System
The Device uses Common Internet File System (CIFS) protocol for its file sharing functions. CIFS
compatible computers can access the USB file storage devices connected to the Device. CIFS
protocol is supported on Microsoft Windows, Linux Samba and other operating systems (refer to
your systems specifications for CIFS compatibility).
7.1.2.4 About Printer Server
Print Server
This is a computer or other device which manages one or more printers, and which sends print jobs
to each printer from the computer itself or other devices.
Operating System
An operating system (OS) is the interface which helps you manage a computer. Common examples
are Microsoft Windows, Mac OS or Linux.
TCP/IP
TCP/IP (Transmission Control Protocol/ Internet Protocol) is a set of communications protocols that
most of the Internet runs on.
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Port
A port maps a network service such as http to a process running on your computer, such as a
process run by your web browser. When traffic from the Internet is received on your computer, the
port number is used to identify which process running on your computer it is intended for.
Supported OSs
Your operating system must support TCP/IP ports for printing and be compatible with the RAW (port
9100) protocol.
The following OSs support Device’s printer sharing feature.
• Microsoft Windows 95, Windows 98 SE (Second Edition), Windows Me, Windows NT 4.0, Windows
2000, Windows XP or Macintosh OS X.
7.2
The LAN Setup Screen
Click Network Setting > Home Networking to open the LAN Setup screen. Use this screen to set
the Local Area Network IP address and subnet mask of your Device and configure the DNS server
information that the Device sends to the DHCP client devices on the LAN.
Figure 43 Network Setting > Home Networking > LAN Setup
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The following table describes the fields in this screen.
Table 25 Network Setting > Home Networking > LAN Setup
LABEL
DESCRIPTION
LAN IP Setup
IP Address
Enter the LAN IP address you want to assign to your Device in dotted decimal notation,
for example, 192.168.1.1 (factory default).
IP Subnet Mask
Type the subnet mask of your network in dotted decimal notation, for example
255.255.255.0 (factory default). Your Device automatically computes the subnet mask
based on the IP address you enter, so do not change this field unless you are
instructed to do so.
RIP Version
RIP (Routing Information Protocol) allows a router to exchange routing information
with other routers. Select the RIP version from RIP-1 and RIP2-B/RIP2-M.
Direction
Use this field to control how much routing information the Device sends and receives
on the subnet. Select the RIP Direction from None, Both, IN Only and OUT Only.
Multicast
IGMP (Internet Group Multicast Protocol) is a network-layer protocol used to establish
membership in a multicast group. The Device supports IGMP v1/IGMP v2/IGMP v3.
Select None to disable it.
IGMP Snooping
Select Enabled to activate IGMP Snooping. This allows the Device to passively learn
memberships in multicast groups. Otherwise, select Disabled to deactivate it.
DHCP Server State
DHCP
Select Enable to have your Device assign IP addresses, an IP default gateway and DNS
servers to LAN computers and other devices that are DHCP clients.
If you select Disable, you need to manually configure the IP addresses of the
computers and other devices on your LAN.
When DHCP is used, the following fields need to be set.
IP Addressing Values
IP Pool Starting
Address
This field specifies the first of the contiguous addresses in the IP address pool.
Pool Size
This field specifies the size, or count of the IP address pool.
DNS Values
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Table 25 Network Setting > Home Networking > LAN Setup (continued)
LABEL
DESCRIPTION
DNS Server 1-2
The Device supports DNS proxy by default. The Device sends out its own LAN IP
address to the DHCP clients as the first DNS server address. DHCP clients use this first
DNS server to send domain-name queries to the Device. The Device sends a response
directly if it has a record of the domain-name to IP address mapping. If it does not, the
Device queries an outside DNS server and relays the response to the DHCP client.
Select From ISP if your ISP dynamically assigns DNS server information (and the
Device's WAN IP address).
Select DNS Proxy to have the DHCP clients use the Device’s own LAN IP address. The
Device works as a DNS relay.
Select User-Defined if you have the IP address of a DNS server. Enter the DNS server's
IP address in the field to the right.
Select None to not configure extra DNS servers.
7.3
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
The Static DHCP Screen
This table allows you to assign IP addresses on the LAN to specific individual computers based on
their MAC Addresses.
Every Ethernet device has a unique MAC (Media Access Control) address. The MAC address is
assigned at the factory and consists of six pairs of hexadecimal characters, for example,
00:A0:C5:00:00:02.
7.3.1 Before You Begin
Find out the MAC addresses of your network devices if you intend to add them to the Static DHCP
screen.
Use this screen to change your Device’s static DHCP settings. Click Network Setting > Home
Networking > Static DHCP to open the following screen.
Figure 44 Network Setting > Home Networking > Static DHCP
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The following table describes the labels in this screen.
Table 26 Network Setting > Home Networking > Static DHCP
LABEL
DESCRIPTION
Add new static
lease
Click this to add a new static DHCP entry.
This is the index number of the entry.
Status
This field displays whether the client is connected to the Device.
Host Name
This field displays the client host name.
MAC Address
The MAC (Media Access Control) or Ethernet address on a LAN (Local Area Network) is
unique to your computer (six pairs of hexadecimal notation).
A network interface card such as an Ethernet adapter has a hardwired address that is
assigned at the factory. This address follows an industry standard that ensures no
other adapter has a similar address.
IP Address
This field displays the IP address relative to the # field listed above.
Reserve
Select the check box in the heading row to automatically select all check boxes or select
individual entry check boxes in each entry to have the Device always assign the
selected entries's IP addresses to the corresponding MAC addresses and host names.
You can select up to 128 entries in this table.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
Refresh
Click Refresh to reload the DHCP table.
If you click Add new static lease in the Static DHCP screen, the following screen displays.
Figure 45 Static DHCP: Add
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The following table describes the labels in this screen.
Table 27 Static DHCP: Add
7.4
LABEL
DESCRIPTION
MAC Address
Enter the MAC address of a computer on your LAN.
IP Address
Enter the IP address that you want to assign to the computer on your LAN with the MAC
address that you will also specify.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to exit this screen without saving.
The IP Alias Screen
IP alias allows you to partition a physical network into different logical networks over the same
Ethernet interface. The Device supports multiple logical LAN interfaces via its physical Ethernet
interface with the Device itself as the gateway for the LAN network.
When you use IP alias, you can also configure firewall rules to control access to the LAN's logical
network (subnet).
Use this screen to change your Device’s IP alias settings. Click Network Setting > Home
Networking > IP Alias to open the following screen.
Figure 46 Network Setting > Home Networking > IP Alias
The following table describes the labels in this screen.
Table 28 Network Setting > Home Networking > IP Alias
LABEL
DESCRIPTION
IP Alias
Select Enable to configure a LAN network for the Device.
IP Address
Enter the IP address of your Device in dotted decimal notation.
Subnet
Mask
Your Device will automatically calculate the subnet mask based on the IP address that you
assign. Unless you are implementing subnetting, use the subnet mask computed by the Device.
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Table 28 Network Setting > Home Networking > IP Alias
7.5
LABEL
DESCRIPTION
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
The UPnP Screen
Universal Plug and Play (UPnP) is a distributed, open networking standard that uses TCP/IP for
simple peer-to-peer network connectivity between devices. A UPnP device can dynamically join a
network, obtain an IP address, convey its capabilities and learn about other devices on the network.
In turn, a device can leave a network smoothly and automatically when it is no longer in use.
See page 98 for more information on UPnP.
Use the following screen to configure the UPnP settings on your Device. Click Network Setting >
Home Networking > Static DHCP > UPnP to display the screen shown next.
Figure 47 Network Setting > Home Networking > UPnP
The following table describes the labels in this screen.
Table 29 Network Settings > Home Networking > UPnP
LABEL
DESCRIPTION
UPnP
Select Enable to activate UPnP. Be aware that anyone could use a UPnP application to
open the web configurator's login screen without entering the Device's IP address
(although you must still enter the password to access the web configurator).
Apply
Click Apply to save your changes.
Cancel
Click this to restore your previously saved settings.
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7.6 The IPv6 LAN Setup Screen
Use this screen to configure the IPv6 settings for your Device’s LAN interface.
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Figure 48 Network Setting > Home Networking > IPv6 LAN Setup
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The following table describes the labels in this screen.
Table 30 Network Setting > Home Networking > IPv6 LAN Setup
LABEL
DESCRIPTION
IPv6 LAN Setup
Link Local Address
Type
Select Manual to manually enter a link local address. Select EUI64 to use the EUI-64
format to generate a link local address from the Ethernet MAC address.
IPv6 Address
If you selected Manual in the Link Local Address Type field, enter the LAN IPv6
address you want to assign to your Device in hexadecimal notation, for example,
fe80::1 (factory default).
Prefix
Enter the address prefix to specify how many most significant bits in an IPv6 address
compose the network address.
MLD Snooping
Multicast Listener Discovery (MLD) allows an IPv6 switch or router to discover the
presence of MLD hosts who wish to receive multicast packets and the IP addresses of
multicast groups the hosts want to join on its network. Select Enabled to activate
MLD Snooping on the Device. This allows the Device to check MLD packets passing
through it and learn the multicast group membership. It helps reduce multicast
traffic.
Lan Global Identifier
Type
Select Manual to manually enter a LAN Identifier as the interface ID to identify the
LAN interface. The LAN Identifier is appended to the IPv6 address prefix to create the
routable global IPv6 address. Select EUI64 to use the EUI-64 format to generate an
interface ID from the Ethernet MAC address.
Lan Identifier
If you selected Manual, enter the LAN Identifier in this field. The LAN identifier
should be unique and 64 bits in hexadecimal form. Every 16 bit block should be
separated by a colon as in XXXX:XXXX:XXXX:XXXX where X is a hexadecimal character.
Blocks of zeros can be represented with double colons as in XXXX:XXXX::XXXX.
IPv6 ULA Address
Type
A unique local address (ULA) is a unique IPv6 address for use in private networks but
not routable in the global IPv6 Internet.
Select Auto Generate to have the Device automatically generate a globally unique
address for the LAN IPv6 address. Select Manual to enter a static IPv6 ULA address.
The address format is like fdxx:xxxx:xxxx:xxxx::/64.
IPv6 ULA Address
If Manual is selected in the IPv6 ULA Address Type field, enter the IPv6 address
prefix that the Device uses for the LAN IPv6 address.
LAN IPv6 Address Setting
Delegate prefix
from WAN
Select this option to automatically obtain an IPv6 network prefix from the service
provider or an uplink router.
Static
Select this option to configure a fixed IPv6 address for the Device’s LAN IPv6 address.
Static IPv6 Address
Prefix
If you select static IPv6 address, enter the IPv6 address prefix that the Device uses for
the LAN IPv6 address.
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Table 30 Network Setting > Home Networking > IPv6 LAN Setup (continued)
LABEL
DESCRIPTION
Prefix length
If you select static IPv6 address, enter the IPv6 prefix length that the Device uses to
generate the LAN IPv6 address.
An IPv6 prefix length specifies how many most significant bits (starting from the left)
in the address compose the network address. This field displays the bit number of
the IPv6 subnet mask.
Preferred Lifetime
Enter the preferred lifetime for the prefix.
Valid Lifetime
Enter the valid lifetime for the prefix.
LAN IPv6 Address
Assign Setup
Select how you want to obtain an IPv6 address:
•
•
•
LAN IPv6 DNS
Assign Setup
Stateless: The Device uses IPv6 stateless autoconfiguration. RADVD (Router
Advertisement Daemon) is enabled to have the Device send IPv6 prefix
information in router advertisements periodically and in response to router
solicitations. DHCPv6 server is disabled.
Stateful: The Device uses IPv6 stateful autoconfiguration. The DHCPv6 server is
enabled to have the Device act as a DHCPv6 server and pass IPv6 addresses to
DHCPv6 clients.
Stateless and Stateful: The Device uses both IPv6 stateless and stateful
autoconfiguration. The LAN IPv6 clients can obtain IPv6 addresses either through
router advertisements or through DHCPv6.
Select how the Device provide DNS server and domain name information to the
clients:
•
•
•
Stateless: The Device uses IPv6 stateless autoconfiguration. RADVD (Router
Advertisement Daemon) is enabled to have the Device send IPv6 prefix
information in router advertisements periodically and in response to router
solicitations. DHCPv6 server is disabled.
Stateful: The Device uses IPv6 stateful autoconfiguration. The DHCPv6 server is
enabled to have the Device act as a DHCPv6 server and pass IPv6 addresses to
DHCPv6 clients.
Stateless and Stateful: The Device uses both IPv6 stateless and stateful
autoconfiguration. The LAN IPv6 clients can obtain IPv6 addresses either through
router advertisements or through DHCPv6.
DHCPv6
DHCPv6 Server
Use this field to Enable or Disable DHCPv6 server on the Device.
DNSv6 Mode
Select the DNS role (Proxy or Relay) that you want the Device to act in the IPv6 LAN
network. Alternatively, select Manual and specify the DNS servers’ IPv6 address in
the fields below.
Primary DNS
This field is available if you choose Manual as the DNSv6 mode. Enter the first DNS
server IPv6 address the Device passes to the DHCP clients.
Secondary DNS
This field is available if you choose Manual as the DNSv6 mode. Enter the second
DNS server IPv6 address the Device passes to the DHCP clients.
Information refresh
time
Enter the number of seconds a DHCPv6 client should wait before refreshing
information retrieved from DHCPv6.
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Table 30 Network Setting > Home Networking > IPv6 LAN Setup (continued)
LABEL
DESCRIPTION
DNS Query Mode
Select how the Device handles clients’ DNS information requests.
•
•
•
•
Advanced Setup
IPv4 DNS Server First: The Device forwards the requests to the IPv4 DNS server
first and then the IPv6 DNS server. Then it sends clients the first DNS information
it receives.
IPv6 DNS Server First: The Device forwards the requests to the IPv6 DNS server
first and then the IPv4 DNS server. Then it sends clients the first DNS information
it receives.
IPv4 DNS Server Only: The Device forwards the requests to the IPv4 DNS server
and sends clients the DNS information it receives.
IPv6 DNS Server Only: The Device forwards the requests to the IPv6 DNS server
and sends clients the DNS information it receives.
Click this to open the IPv6 LAN Setup Advanced Setup section.
RADVD Setup
Send RA on
Select this to have the Device send router advertisement messages to the LAN hosts.
Router advertisement is a response to a router solicitation or a periodical multicast
advertisement from a router to advertise its presence and other parameters, such as
IPv6 prefix and DNS information.
Router solicitation is a request from a host to locate a router that can act as the
default router and forward packets.
Note: The LAN hosts neither generate global IPv6 addresses nor communicate with
other networks if you disable this feature.
Delegate M/O flag
from WAN
Select this to have the Device obtain the M/O (Managed/Other) flag setting from the
service provider or uplink router.
Manual
Select this to specify the M/O flag setting manually.
Managed config
flag on
Select this to have the Device indicate to hosts to obtain network settings (such as
prefix and DNS settings) through DHCPv6.
Clear this to have the Device indicate to hosts that DHCPv6 is not available and they
should use the prefix in the router advertisement message.
Other config flag
on
Select this to have the Device indicate to hosts to obtain DNS information through
DHCPv6.
Clear this to have the Device indicate to hosts that DNS information is not available in
this network.
Advertisement
interval option on
Select this to have the Router Advertisement messages the Device sends specify the
allowed interval between Router Advertisement messages.
Hop limit
Enter the maximum number of network segments that a packet can cross before
reaching the destination. When forwarding an IPv6 packet, IPv6 routers are required
to decrease the Hop Limit by 1 and to discard the IPv6 packet when the Hop Limit is
0. Possible value for this field are 0-255.
Router Lifetime
Enter the time in seconds that hosts should consider the Device to be the default
router. Possible values for this field are 0-9000.
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Table 30 Network Setting > Home Networking > IPv6 LAN Setup (continued)
LABEL
DESCRIPTION
Router Preference
Select the router preference (Low, Medium or High) for the Device. The Device sends
this preference in the router advertisements to tell hosts what preference they
should use for the Device. This helps hosts to choose their default router especially
when there are multiple IPv6 router in the network.
Note: Make sure the hosts also support router preference to make this function
work.
7.7
Reachable Time
(ms)
Enter the time in milliseconds that can elapse before a neighbor is detected. Possible
values for this field are 0-3600000.
Retrans Timer (ms)
Enter the time in milliseconds between neighbor solicitation packet retransmissions.
Possible values for this field are 1000-4294967295.
RA Interval
Enter the time in seconds between router advertisement messages. Possible values
for this field are 4-1800.
Delegate MTU from
WAN
Select this to have the Device obtain the MTU setting from the service provider or
uplink router.
Manual
Select this to specify the MTU manually.
MTU
The Maximum Transmission Unit. Type the maximum size of each IPv6 data packet,
in bytes, that can move through this interface. If a larger packet arrives, the Device
divides it into smaller fragments.
DAD attempts
Specify the number of DAD (Duplicate Address Detection) attempts before an IPv6
address is assigned to the Device LAN interface. Possible values for this field are 1-7.
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
Advanced Setup
Click this to close the IPv6 LAN Setup Advanced Setup section.
The File Sharing Screen
You can share files on a USB memory stick or hard drive connected to your Device with users on
your network.
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The following figure is an overview of the Device’s file server feature. Computers A and B can access
files on a USB device (C) which is connected to the Device.
Figure 49 File Sharing Overview
 The Device will not be able to join the workgroup if your local area network has restrictions
set up that do not allow devices to join a workgroup. In this case, contact your network
administrator.
7.7.1 Before You Begin
Make sure the Device is connected to your network and turned on.
Connect the USB device to one of the Device’s USB ports. Make sure the Device is connected to your
network.
The Device detects the USB device and makes its contents available for browsing. If you are
connecting a USB hard drive that comes with an external power supply, make sure it is connected to
an appropriate power source that is on.
 If your USB device cannot be detected by the Device, see the troubleshooting for
suggestions.
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Use this screen to set up file sharing using the Device. To access this screen, click Network Setting
> Home Networking > File Sharing.
Figure 50 Network Setting > Home Networking > File Sharing
Each field is described in the following table.
Table 31 Network Setting > Home Networking > File Sharing
LABEL
DESCRIPTION
Server Configuration
File Sharing
Services (SMB)
Select Enable to activate file sharing through the Device.
Share Directory
Access Level
Select Public to allow all LAN users to access the shared folders. Select Security to
allow only the users added and activated in the Account Management section below
to access the shared folders.
Account Management
This is the index number of the file sharing user account.
Status
This shows whether or not the file sharing user account is activated.
User Name
This field displays the user name of the file sharing user account.
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Table 31 Network Setting > Home Networking > File Sharing (continued)
LABEL
DESCRIPTION
Modify
Click the Edit icon to configure a file sharing user account’s settings.
Click the Delete icon to delete this user account from the list.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
7.7.2 Edit File Sharing User
Use this screen to edit a file sharing user on the Device. Click the Edit icon next to a user account.
Figure 51 File Sharing: Add/Edit
Each field is described in the following table.
Table 32 File Sharing: Add/Edit
LABEL
DESCRIPTION
Active
Select this to activate the file sharing user account.
User Name
Type the user name for the account.
New Password
Type your new system password (up to 30 characters). Note that as you type a
password, the screen displays a (*) for each character you type. After you change the
password, use the new password to access the Device.
Retype New
Password
Type the new password again for confirmation.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to exit this screen without saving.
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7.8
The Printer Server Screen
The Device allows you to share a USB printer on your LAN. You can do this by connecting a USB
printer to one of the USB ports on the Device and then configuring a TCP/IP port on the computers
connected to your network.
Figure 52 Sharing a USB Printer
7.8.1 Before You Begin
To configure the print server you need the following:
• Your Device must be connected to your computer and any other devices on your network. The
USB printer must be connected to your Device.
• A USB printer with the driver already installed on your computer.
• The computers on your network must have the printer software already installed before they can
create a TCP/IP port for printing via the network. Follow your printer manufacturers instructions
on how to install the printer software on your computer.
 Your printer’s installation instructions may ask that you connect the printer to your
computer. Connect your printer to the Device instead.
Use this screen to enable or disable sharing of a USB printer via your Device.
To access this screen, click Network Setting > Home Networking > Printer Server.
Figure 53 Network Setting > Home Networking > Printer Server
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The following table describes the labels in this menu.
Table 33 Network Setting > Home Networking > Print Server
LABEL
DESCRIPTION
Active Printer Server
Select this to have the Device share a USB printer.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
7.9 Technical Reference
This section provides some technical background information about the topics covered in this
chapter.
LANs, WANs and the Device
The actual physical connection determines whether the Device ports are LAN or WAN ports. There
are two separate IP networks, one inside the LAN network and the other outside the WAN network
as shown next.
Figure 54 LAN and WAN IP Addresses
LAN
WAN
DHCP Setup
DHCP (Dynamic Host Configuration Protocol, RFC 2131 and RFC 2132) allows individual clients to
obtain TCP/IP configuration at start-up from a server. You can configure the Device as a DHCP server
or disable it. When configured as a server, the Device provides the TCP/IP configuration for the
clients. If you turn DHCP service off, you must have another DHCP server on your LAN, or else the
computer must be manually configured.
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IP Pool Setup
The Device is pre-configured with a pool of IP addresses for the DHCP clients (DHCP Pool). See the
product specifications in the appendices. Do not assign static IP addresses from the DHCP pool to
your LAN computers.
LAN TCP/IP
The Device has built-in DHCP server capability that assigns IP addresses and DNS servers to systems
that support DHCP client capability.
IP Address and Subnet Mask
Similar to the way houses on a street share a common street name, so too do computers on a LAN
share one common network number.
Where you obtain your network number depends on your particular situation. If the ISP or your
network administrator assigns you a block of registered IP addresses, follow their instructions in
selecting the IP addresses and the subnet mask.
If the ISP did not explicitly give you an IP network number, then most likely you have a single user
account and the ISP will assign you a dynamic IP address when the connection is established. If this
is the case, it is recommended that you select a network number from 192.168.0.0 to 192.168.255.0
and you must enable the Network Address Translation (NAT) feature of the Device. The Internet
Assigned Number Authority (IANA) reserved this block of addresses specifically for private use;
please do not use any other number unless you are told otherwise. Let's say you select 192.168.1.0
as the network number; which covers 254 individual addresses, from 192.168.1.1 to 192.168.1.254
(zero and 255 are reserved). In other words, the first three numbers specify the network number
while the last number identifies an individual computer on that network.
Once you have decided on the network number, pick an IP address that is easy to remember, for
instance, 192.168.1.1, for your Device, but make sure that no other device on your network is using
that IP address.
The subnet mask specifies the network number portion of an IP address. Your Device will compute
the subnet mask automatically based on the IP address that you entered. You don't need to change
the subnet mask computed by the Device unless you are instructed to do otherwise.
Private IP Addresses
Every machine on the Internet must have a unique address. If your networks are isolated from the
Internet, for example, only between your two branch offices, you can assign any IP addresses to the
hosts without problems. However, the Internet Assigned Numbers Authority (IANA) has reserved
the following three blocks of IP addresses specifically for private networks:
• 10.0.0.0
— 10.255.255.255
• 172.16.0.0 — 172.31.255.255
• 192.168.0.0 — 192.168.255.255
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You can obtain your IP address from the IANA, from an ISP or it can be assigned from a private
network. If you belong to a small organization and your Internet access is through an ISP, the ISP can
provide you with the Internet addresses for your local networks. On the other hand, if you are part
of a much larger organization, you should consult your network administrator for the appropriate IP
addresses.

Regardless of your particular situation, do not create an arbitrary IP address; always
follow the guidelines above. For more information on address assignment, please refer to
RFC 1597, “Address Allocation for Private Internets” and RFC 1466, “Guidelines for
Management of IP Address Space”.
7.10 Installing UPnP in Windows Example
This section shows how to install UPnP in Windows Me and Windows XP.
Installing UPnP in Windows Me
Follow the steps below to install the UPnP in Windows Me.
Click Start and Control Panel. Double-click Add/Remove Programs.
Click the Windows Setup tab and select Communication in the Components selection box. Click
Details.
Figure 55 Add/Remove Programs: Windows Setup: Communication
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3
In the Communications window, select the Universal Plug and Play check box in the
Components selection box.
Figure 56 Add/Remove Programs: Windows Setup: Communication: Components
Click OK to go back to the Add/Remove Programs Properties window and click Next.
Restart the computer when prompted.
Installing UPnP in Windows XP
Follow the steps below to install the UPnP in Windows XP.
Click Start and Control Panel.
Double-click Network Connections.
In the Network Connections window, click Advanced in the main menu and select Optional
Networking Components ….
Figure 57 Network Connections
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4
The Windows Optional Networking Components Wizard window displays. Select Networking
Service in the Components selection box and click Details.
Figure 58 Windows Optional Networking Components Wizard
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5
In the Networking Services window, select the Universal Plug and Play check box.
Figure 59 Networking Services
Click OK to go back to the Windows Optional Networking Component Wizard window and click
Next.
7.11 Using UPnP in Windows XP Example
This section shows you how to use the UPnP feature in Windows XP. You must already have UPnP
installed in Windows XP and UPnP activated on the Device.
Make sure the computer is connected to a LAN port of the Device. Turn on your computer and the
Device.
Auto-discover Your UPnP-enabled Network Device
Click Start and Control Panel. Double-click Network Connections. An icon displays under Internet
Gateway.
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2
Right-click the icon and select Properties.
Figure 60 Network Connections
In the Internet Connection Properties window, click Settings to see the port mappings there were
automatically created.
Figure 61 Internet Connection Properties
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4
You may edit or delete the port mappings or click Add to manually add port mappings.
Figure 62 Internet Connection Properties: Advanced Settings
Figure 63 Internet Connection Properties: Advanced Settings: Add
When the UPnP-enabled device is disconnected from your computer, all port mappings will be
deleted automatically.
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6
Select Show icon in notification area when connected option and click OK. An icon displays in
the system tray.
Figure 64 System Tray Icon
Double-click on the icon to display your current Internet connection status.
Figure 65 Internet Connection Status
Web Configurator Easy Access
With UPnP, you can access the web-based configurator on the Device without finding out the IP
address of the Device first. This comes helpful if you do not know the IP address of the Device.
Follow the steps below to access the web configurator.
Click Start and then Control Panel.
Double-click Network Connections.
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3
Select My Network Places under Other Places.
Figure 66 Network Connections
An icon with the description for each UPnP-enabled device displays under Local Network.
Right-click on the icon for your Device and select Invoke. The web configurator login screen
displays.
Figure 67 Network Connections: My Network Places
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6
Right-click on the icon for your Device and select Properties. A properties window displays with
basic information about the Device.
Figure 68 Network Connections: My Network Places: Properties: Example
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Chapter 8
Static Route
Chapter
C H A PT ER 8
8.1 Overview
The Device usually uses the default gateway to route outbound traffic from computers on the LAN
to the Internet. To have the Device send data to devices not reachable through the default gateway,
use static routes.
For example, the next figure shows a computer (A) connected to the Device’s LAN interface. The
Device routes most traffic from A to the Internet through the Device’s default gateway (R1). You
create one static route to connect to services offered by your ISP behind router R2. You create
another static route to communicate with a separate network behind a router R3 connected to the
LAN.
Figure 69 Example of Static Routing Topology
R1
LAN
WAN
R3
R2
8.1.1 What You Can Do in this Chapter
• Use the Static Route screens (Section 8.2 on page 108) to view and configure IP static routes on
the Device.
• Use the IPv6 Static Route screens (Section 8.3 on page 110) to view and configure IPv6 static
routes on the Device.
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8.2
Configuring Static Route
Use this screen to view and configure IP static routes on the Device. Click Network Setting > Static
Route to open the following screen.
Figure 70 Network Setting > Static Route
The following table describes the labels in this screen.
Table 34 Network Setting > Static Route
LABEL
DESCRIPTION
Add New
Static Route
Click this to set up a new static route on the Device.
This is the number of an individual static route.
Destination IP
This parameter specifies the IP network address of the final destination. Routing is always
based on network number.
Gateway
This is the IP address of the gateway. The gateway is a router or switch on the same
network segment as the device's LAN or WAN port. The gateway helps forward packets to
their destinations.
Subnet Mask
This parameter specifies the IP network subnet mask of the final destination.
Interface
This is the WAN interface through which the traffic is routed.
Metric
This is the “cost” of transmission for routing purposes.
Modify
Click the Edit icon to go to the screen where you can set up a static route on the Device.
Click the Delete icon to remove a static route from the Device.
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8.2.1 Add/Edit Static Route
Click Add New Static Route in the Static Route screen or click the Edit icon next to a rule. The
following screen appears. Use this screen to configure the required information for a static route.
Figure 71 Static Route: Add/Edit
The following table describes the labels in this screen.
Table 35 Routing: Add/Edit
LABEL
DESCRIPTION
Destination IP
Address
This parameter specifies the IP network address of the final destination. Routing is
always based on network number. If you need to specify a route to a single host, use a
subnet mask of 255.255.255.255 in the subnet mask field to force the network number
to be identical to the host ID.
IP Subnet Mask
Enter the IP subnet mask here.
Gateway IP
Address
You can decide if you want to forward packets to a gateway IP address or a bound
interface.
If you want to configure Gateway IP Address, enter the IP address of the next-hop
gateway. The gateway is a router or switch on the same network segment as the
device's LAN or WAN port. The gateway helps forward packets to their destinations.
Bound Interface
You can decide if you want to forward packets to a gateway IP address or a bound
interface.
If you want to configure Bound Interface, select the check box and choose an
interface through which the traffic is sent. You must have the WAN interfaces already
configured in the Broadband screen.
Metric
Enter the “cost” of transmission for routing purposes. IP routing uses hop count as the
measurement of cost, with a minimum of 1 for directly-connected networks.
OK
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
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8.3 IPv6 Static Route
Use this screen to view the IPv6 static route rules. Click Network Setting > Static Route > IPv6
Static Route to open the IPv6 Static Route screen.
Figure 72 Network Setting > Static Route > IPv6 Static Route
The following table describes the labels in this screen.
Table 36 Network Setting > Static Route > IPv6 Static Route
LABEL
DESCRIPTION
Add New Static
route
Click this to configure a new IPv6 static route.
This is the number of an individual static route.
Destination IP
This is the IP network address of the final destination. Routing is always based on
network number.
Prefix length
An IPv6 prefix length specifies how many most significant bits (starting from the left) in
the address compose the network address. This field displays the bit number of the IPv6
subnet mask.
Gateway
This is the IPv6 address of the gateway. The gateway is a router or switch on the same
network segment as the device's LAN or WAN port. The gateway has a route to the
destination network and helps forward packets to their destinations.
Device
This specifies the LAN or WAN PVC.
Modify
Click the Edit icon to go to the screen where you can set up a static route on the Device.
Click the Remove icon to remove a static route from the Device. A window displays asking
you to confirm that you want to delete the route.
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8.3.1 IPv6 Static Route Edit
Use this screen to configure the required information for an IPv6 static route. Click Add New Static
Route or select an IPv6 static route index number and click Edit. The screen shown next appears.
Figure 73 Network Setting > Static Route > IPv6 Static Route: Add/Edit
The following table describes the labels in this screen.
Table 37 Network Setting > Static Route > IPv6 Static Route: Add/Edit
LABEL
DESCRIPTION
Destination IPv6
Address
This parameter specifies the IP network address of the final destination. Routing is
always based on network number. If you need to specify a route to a single host, use a
prefix length of 128 in the prefix length field to force the network number to be identical
to the host ID.
IPv6 Prefix
Length
Enter the address prefix to specify how many most significant bits compose the network
address.
Gateway IPv6
Address
Enter the IPv6 address of the gateway. The gateway is a router or switch on the same
network segment as the device's LAN or WAN port. The gateway has a route to the
destination network and helps forward packets to their destinations. If a link local
address is used, the interface should also be specified.
Bound Interface
If you want to forward IPv6 packets to a bound interface, select the interface through
which the traffic is sent.
OK
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
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Chapter 9
Quality of Service (QoS)
Chapter
C H A PT ER 9
9.1 Overview
This chapter discusses the Device’s QoS screens. Use these screens to set up your Device to use QoS
for traffic management.
Quality of Service (QoS) refers to both a network’s ability to deliver data with minimum delay, and
the networking methods used to control the use of bandwidth. QoS allows the Device to group and
prioritize application traffic and fine-tune network performance.
Without QoS, all traffic data is equally likely to be dropped when the network is congested. This can
cause a reduction in network performance and make the network inadequate for time-critical
application such as video-on-demand.
The Device assigns each packet a priority and then queues the packet accordingly. Packets assigned
a high priority are processed more quickly than those with low priority if there is congestion,
allowing time-sensitive applications to flow more smoothly. Time-sensitive applications include
both those that require a low level of latency (delay) and a low level of jitter (variations in delay)
such as Internet gaming, and those for which jitter alone is a problem such as Internet radio or
streaming video.
9.1.1 What You Can Do in this Chapter
• Use the General screen to enable QoS, set the bandwidth, and allow the Device to automatically
assign priority to upstream traffic according to the IP precedence or packet length (Section 9.2 on
page 113).
• Use the Queue Setup screen to configure QoS queue assignment (Section 9.3 on page 114).
• Use the Class Setup screen to set up classifiers to sort traffic into different flows and assign
priority and define actions to be performed for a classified traffic flow (Section 9.4 on page 116).
• Use the Policer Setup screen to add, edit or delete QoS policers (Section 9.5 on page 122).
• Use the Game List screen to to give priority to traffic for specific games (Section 9.6 on page 125).
9.1.2 What You Need to Know
The following terms and concepts may help as you read this chapter.
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QoS versus Cos
QoS is used to prioritize source-to-destination traffic flows. All packets in the same flow are given
the same priority. CoS (class of service) is a way of managing traffic in a network by grouping similar
types of traffic together and treating each type as a class. You can use CoS to give different priorities
to different packet types.
CoS technologies includes DiffServ (Differentiated Services or DS). DiffServ is a new protocol and
defines a new DS field, which replaces the eight-bit ToS (Type of Service) field in the IP header.
Tagging and Marking
In a QoS class, you can configure whether to add or change the DSCP (DiffServ Code Point) value ain
a matched packet. When the packet passes through a compatible network, the networking device,
such as a backbone switch, can provide specific treatment or service based on the tag or marker.
9.2
The QoS General Screen
Use this screen to enable or disable QoS, set the bandwidth, and select to have the Device
automatically assign priority to upstream traffic according to the IP precedence or packet length.
Click Network Setting > QoS to open the General screen.
Figure 74 Network Setting > QoS > General
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The following table describes the labels in this screen.
Table 38 Network Setting > QoS > General
LABEL
DESCRIPTION
Active QoS
Select the check box to turn on QoS to improve your network performance.
You can give priority to traffic that the Device forwards out through the WAN interface.
Give high priority to voice and video to make them run more smoothly. Similarly, give
low priority to many large file downloads so that they do not reduce the quality of
other applications.
Traffic priority will
be automatically
assigned by
Select how the Device assigns priorities to various upstream traffic flows.
•
•
•
•
9.3
None: Disables auto priority mapping and has the Device put packets into the
queues according to your classification rules. Traffic which does not match any of
the classification rules is mapped into the default queue with the lowest priority.
Ethernet Priority: Automatically assign priority based on the IEEE 802.1p priority
level.
IP Precedence: Automatically assign priority based on the first three bits of the
TOS field in the IP header.
Packet Length: Automatically assign priority based on the packet size. Smaller
packets get higher priority since control, signaling, VoIP, internet gaming, or other
real-time packets are usually small while larger packets are usually best effort data
packets like file transfers.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
The Queue Setup Screen
Use this screen to configure QoS queue assignment. Click Network Setting > QoS > Queue Setup
to open the screen as shown next.
Figure 75 Network Setting > QoS > Queue Setup
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The following table describes the labels in this screen.
Table 39 Network Setting > QoS > Queue Setup
LABEL
DESCRIPTION
Index
This is the index number of this entry.
Status
This indicates whether the queue is active or not.
A yellow bulb signifies that this queue is active. A gray bulb signifies that this queue is not
active.
Name
This shows the descriptive name of this queue.
Interface
This shows the name of the Device’s interface through which traffic in this queue passes.
Priority
This shows the priority of this queue.
Weight
This shows the weight of this queue.
Rate Limit
(kbps)
This shows the maximum transmission rate allowed for traffic on this queue.
Modify
Click the Edit icon to edit the queue.
Click the Delete icon to delete an existing queue. Note that subsequent rules move up by
one when you take this action.
9.3.1 Edit a QoS Queue
Use this screen to configure a queue. Click the Edit icon next to a QoS queue.
Figure 76 Queue Setup: Edit
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The following table describes the labels in this screen.
Table 40 Queue Setup: Edit
LABEL
DESCRIPTION
Active
Select to enable or disable this queue.
Name
Enter the descriptive name of this queue.
Interface
Select the interface of this queue.
Priority
Select the priority level (from 1 to 7) of this queue.
The lower the number, the higher the priority level. Traffic assigned to higher priority
queues gets through faster while traffic in lower priority queues is dropped if the
network is congested.
Weight
Select the weight (from 1 to 15) of this queue.
If two queues have the same priority level, the Device divides the bandwidth across the
queues according to their weights. Queues with larger weights get more bandwidth
than queues with smaller weights.
9.4
Rate Limit
Specify the maximum transmission rate (in Kbps or %) allowed for traffic on this queue.
OK
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
The Class Setup Screen
Use this screen to add, edit or delete QoS classifiers. A classifier groups traffic into data flows
according to specific criteria such as the source address, destination address, source port number,
destination port number or incoming interface. For example, you can configure a classifier to select
traffic from the same protocol port (such as Telnet) to form a flow.
You can give different priorities to traffic that the Device forwards out through the WAN interface.
Give high priority to voice and video to make them run more smoothly. Similarly, give low priority to
many large file downloads so that they do not reduce the quality of other applications.
Click Network Setting > QoS > Class Setup to open the following screen.
Figure 77 Network Setting > QoS > Class Setup
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The following table describes the labels in this screen.
Table 41 Network Setting > QoS > Class Setup
LABEL
DESCRIPTION
Add new Classifier
Click this to create a new classifier.
Index
This field displays the order number of the classifier.
Status
This indicates whether the classifier is active or not.
A yellow bulb signifies that this classifier is active. A gray bulb signifies that this
classifier is not active.
From Interface
If the classifier applies to traffic coming in through a specific interface, it displays here.
Classification
Criteria
This shows criteria specified in this classifier, for example the interface from which
traffic of this class should come and the source MAC address of traffic that matches
this classifier.
DSCP (Traffic
Class) Mark
This is the DSCP number added to traffic of this classifier.
802.1P/1Q Mark
This is the IEEE 802.1p priority level assigned to traffic of this classifier.
To Queue
This is the name of the queue in which traffic of this classifier is put.
Modify
Click the Edit icon to edit the classifier.
Click the Delete icon to delete an existing classifier. Note that subsequent rules move
up by one when you take this action.
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9.4.1 Add/Edit QoS Class
Click Add new Classifier in the Class Setup screen or the Edit icon next to an existing classifier to
configure it.
Figure 78 Class Setup: Add/Edit
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The following table describes the labels in this screen.
Table 42 Class Setup: Add/Edit
LABEL
DESCRIPTION
Rule Index
Select the (order) number of this rule.
Class Configuration
Active
Select to enable this classifier.
Ether Type
Select the Ether type (IPv4, IPv6, ARP, or IEEE 802.1Q) to which this rule applies.
Interface
Select whether to apply this class to traffic from the LAN or from the WAN.
To Queue
Select a queue to apply to this class (available when you set Interface to From WAN).
You should have configured a queue in the Queue Setup screen already.
Criteria Configuration
Use the following fields to configure the criteria for traffic classification.
Basic
From Interface
Select the interface from which the traffic class comes.
Source
IP Address
Select the check box and enter the source IP address in dotted decimal notation. A
blank source IP address means any source IP address.
IP Subnet
Mask
Enter the source subnet mask.
Exclude
Select this option to exclude the packets that match the specified criteria from this
classifier.
Port Range
If you select TCP or UDP in the IP Protocol field, select the check box and enter the
port number(s) of the source.
Exclude
Select this option to exclude the packets that match the specified criteria from this
classifier.
MAC Address
Select the check box and enter the source MAC address of the packet.
MAC Mask
Type the mask for the specified MAC address to determine which bits a packet’s MAC
address should match.
Enter “f” for each bit of the specified source MAC address that the traffic’s MAC address
should match. Enter “0“ for the bits of the matched traffic’s MAC address, which can be
of any hexadecimal characters. For example, if you set the MAC address to
00:13:49:00:00:00 and the mask to ff:ff:ff:00:00:00, a packet with a MAC address of
00:13:49:12:34:56 matches this criteria.
Exclude
Select this option to exclude the packets that match the specified criteria from this
classifier.
Destination
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Table 42 Class Setup: Add/Edit (continued)
LABEL
DESCRIPTION
IP Address
Select the check box and enter the destination IP address in dotted decimal notation. A
blank source IP address means any source IP address.
IP Subnet
Mask
Enter the destination subnet mask.
Port Range
If you select TCP or UDP in the IP Protocol field, select the check box and enter the
port number(s) of the source.
MAC Address
Select the check box and enter the destination MAC address of the packet.
MAC Mask
Type the mask for the specified MAC address to determine which bits a packet’s MAC
address should match.
Enter “f” for each bit of the specified source MAC address that the traffic’s MAC address
should match. Enter “0“ for the bit(s) of the matched traffic’s MAC address, which can
be of any hexadecimal character(s). For example, if you set the MAC address to
00:13:49:00:00:00 and the mask to ff:ff:ff:00:00:00, a packet with a MAC address of
00:13:49:12:34:56 matches this criteria.
Exclude
Select this option to exclude the packets that match the specified criteria from this
classifier.
Others
Some of the following fields can only be configured for certain Ether types.
Service
Select the service classification of the traffic (FTP or SIP).
IP Protocol
Select this option and select the protocol (service type) from TCP or UDP. If you select
User defined, enter the protocol (service type) number.
TCP ACK
If you select this option, the matched TCP packets must contain the ACK (Acknowledge)
flag.
DHCP
Select this option and select a DHCP option.
If you select Vendor Class ID (DHCP Option 60), enter the Class ID of the matched
traffic, such as the type of the hardware or firmware.
If you select ClientID (DHCP Option 61), enter the Type of the matched traffic and
Client ID of the DHCP client.
If you select User Class ID (DHCP Option 77), enter the User Class Data, which is a
string that identifies the user’s category or application type in the matched DHCP
packets.
If you select VendorSpecificIntro (DHCP Option 125), enter the Enterprise Number
of the software of the matched traffic and Vendor Class Data used by all the DHCP
clients.
Packet Length
This field is available only when you select IPv4 (0x0800) in the Ether Type field.
Select this option and enter the minimum and maximum packet length (from 46 to
1504) in the fields provided.
IPP/DS Field
Select IPP/TOS to specify an IP precedence range and type of services.
Select DSCP to specify a DiffServ Code Point (DSCP) range.
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Table 42 Class Setup: Add/Edit (continued)
LABEL
DESCRIPTION
IP Precedence
Range
Enter a range from 0 to 7 for IP precedence. 0 is the lowest priority and 7 is the highest.
Type of Service
Select a type of service from the drop-down list box.
DSCP Range (0
~ 63)
Select this option and specify a DSCP (DiffServ Code Point) number between 0 and 63
in the field provided.
802.1P
Select this option and select a priority level (between 0 and 7) from the drop-down list
box.
"0" is the lowest priority level and "7" is the highest.
VLAN ID
Select this option and enter the source VLAN ID in this field.
Exclude
Select this option to exclude the packets that match the specified criteria from this
classifier.
Action
Forward To
Select the interface through which traffic that matches the rule is forwarded out. If you
select Unchange, the Device forwards traffic of this class according to the default
routing table.
If traffic of this class comes from a WAN interface and is in a queue that forwards traffic
through the LAN/WLAN interface, the Device ignores the setting here.
IPP/DS Field
Select IPP/TOS to specify an IP precedence range and type of services.
Select DSCP to specify a DiffServ Code Point (DSCP) range.
IP Precedence
Mark
Enter a range from 0 to 7 to re-assign IP precedence to matched traffic. 0 is the lowest
priority and 7 is the highest.
Type Of
Service Mark
Select a type of service to re-assign the priority level to matched traffic.
DSCP
Mark(0~63)
This field is available only when you select IPv4 (0x0800) in the Ether Type field.
Available options are: Normal service, Minimize delay, Maximize throughput,
Maximize reliability and Minimize monetary cost.
If you select Mark, enter a DSCP value with which the Device replaces the DSCP field in
the packets.
If you select Unchange, the Device keep the DSCP field in the packets.
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Table 42 Class Setup: Add/Edit (continued)
LABEL
DESCRIPTION
802.1Q Tag
If you select Remark, select a priority level (in the Ethernet Priority field) and enter a
VLAN ID number (in the VLAN ID field) with which the Device replaces the IEEE 802.1p
priority field and VLAN ID of the frames.
If you select Remove, the Device deletes the VLAN ID of the frames before forwarding
them out.
If you select Add, the Device treat all matched traffic untagged and add a second
priority level and VLAN ID that you specify in the Ethernet Priority and VLAN ID fields.
If you select Same, the Device keep the Ethernet Priority and VLAN ID in the packets.
To configure the Ethernet Priority, you can either select a priority number in the first
drop-down list box (7 is the highest and 0 is the lowest priority) or select an application
from the second drop-down list box which automatically maps to the corresponding
priority number. (Key Net Traffic: 7; Voice: 6; Video: 5; IGMP: 4; Key Data: 3)
VLAN ID
9.5
Select this option and enter the source VLAN ID in this field.
OK
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
The QoS Policer Setup Screen
Use this screen to configure QoS policers that allow you to limit the transmission rate of incoming
traffic. Click Network Setting > QoS > Policer Setup. The screen appears as shown.
Figure 79 Network Setting > QoS > Policer Setup
The following table describes the labels in this screen.
Table 43 Network Setting > QoS > Policer Setup
LABEL
DESCRIPTION
Add new
Policer
Click this to create a new entry.
This is the index number of the entry.
Status
This field displays whether the policer is active or not. A yellow bulb signifies that this
policer is active. A gray bulb signifies that this policer is not active.
Name
This field displays the descriptive name of this policer.
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Table 43 Network Setting > QoS > Policer Setup (continued)
LABEL
DESCRIPTION
Regulated
Classes
This field displays the name of a QoS classifier.
Meter Type
This field displays the type of QoS metering algorithm used in this policer.
Rule
These are the rates and burst sizes against which the policer checks the traffic of the
member QoS classes.
Action
This shows the how the policer has the Device treat different types of traffic belonging to
the policer’s member QoS classes.
Modify
Click the Edit icon to edit the policer.
Click the Delete icon to delete an existing policer. Note that subsequent rules move up by
one when you take this action.
9.5.1 Add/Edit a QoS Policer
Click Add new Policer in the Policer Setup screen or the Edit icon next to a policer to show the
following screen.
Figure 80 Policer Setup: Add/Edit
The following table describes the labels in this screen.
Table 44 Policer Setup: Add/Edit
LABEL
DESCRIPTION
Active
Select the check box to activate this policer.
Name
Enter the descriptive name of this policer.
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Table 44 Policer Setup: Add/Edit (continued)
LABEL
DESCRIPTION
Meter Type
This shows the traffic metering algorithm used in this policer.
The Simple Token Bucket algorithm uses tokens in a bucket to control when traffic can be
transmitted. Each token represents one byte. The algorithm allows bursts of up to b bytes
which is also the bucket size.
The Single Rate Three Color Marker (srTCM) is based on the token bucket filter and
identifies packets by comparing them to the Committed Information Rate (CIR), the
Committed Burst Size (CBS) and the Excess Burst Size (EBS).
The Two Rate Three Color Marker (trTCM) is based on the token bucket filter and
identifies packets by comparing them to the Committed Information Rate (CIR) and the
Peak Information Rate (PIR).
Committed
Rate
Specify the committed rate. When the incoming traffic rate of the member QoS classes is
less than the committed rate, the device applies the conforming action to the traffic.
Committed
Burst Size
Specify the committed burst size for packet bursts. This must be equal to or less than the
peak burst size (two rate three color) or excess burst size (single rate three color) if it is also
configured.
This is the maximum size of the (first) token bucket in a traffic metering algorithm.
Conforming
Action
Specify what the Device does for packets within the committed rate and burst size (greenmarked packets).
•
•
Pass: Send the packets without modification.
DSCP Mark: Change the DSCP mark value of the packets. Enter the DSCP mark value to
use.
NonConforming
Action
Specify what the Device does for packets that exceed the excess burst size or peak rate and
burst size (red-marked packets).
Available
Class
Select a QoS classifier to apply this QoS policer to traffic that matches the QoS classifier.
•
•
Selected Class
Drop: Discard the packets.
DSCP Mark: Change the DSCP mark value of the packets. Enter the DSCP mark value to
use. The packets may be dropped if there is congestion on the network.
Highlight a QoS classifier in the Available Class box and use the > button to move it to the
Selected Class box.
To remove a QoS classifier from the Selected Class box, select it and use the < button.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to exit this screen without saving.
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9.6
The QoS Game List Screen
Use this screen to give priority to traffic for specific games. Click Advanced Setup > QoS > Game
List to open the screen as shown next.
Figure 81 Network Setting > QoS > Game List
The following table describes the labels in this screen.
Table 45 Network Setting > QoS > Game List
LABEL
DESCRIPTION
Enable Game
List
Select this to have QoS give the highest priority to traffic for the games you specify. This
priority is higher than the other QoS queues.
Select the games below.
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
9.7 QoS Technical Reference
This section provides some technical background information about the topics covered in this
chapter.
9.7.1 DiffServ
QoS is used to prioritize source-to-destination traffic flows. All packets in the flow are given the
same priority. You can use CoS (class of service) to give different priorities to different packet types.
DiffServ (Differentiated Services) is a class of service (CoS) model that marks packets so that they
receive specific per-hop treatment at DiffServ-compliant network devices along the route based on
the application types and traffic flow. Packets are marked with DiffServ Code Points (DSCPs)
indicating the level of service desired. This allows the intermediary DiffServ-compliant network
devices to handle the packets differently depending on the code points without the need to
negotiate paths or remember state information for every flow. In addition, applications do not have
to request a particular service or give advanced notice of where the traffic is going.
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DSCP and Per-Hop Behavior
DiffServ defines a new DS (Differentiated Services) field to replace the Type of Service (TOS) field in
the IP header. The DS field contains a 2-bit unused field and a 6-bit DSCP field which can define up
to 64 service levels. The following figure illustrates the DS field.
DSCP is backward compatible with the three precedence bits in the ToS octet so that non-DiffServ
compliant, ToS-enabled network device will not conflict with the DSCP mapping.
DSCP (6 bits)
Unused (2 bits)
The DSCP value determines the forwarding behavior, the PHB (Per-Hop Behavior), that each packet
gets across the DiffServ network. Based on the marking rule, different kinds of traffic can be marked
for different kinds of forwarding. Resources can then be allocated according to the DSCP values and
the configured policies.
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Chapter 10
Network Address Translation
(NAT)
10.1
10
Chapter
C H AP T ER 1 0
Overview
NAT (Network Address Translation - NAT, RFC 1631) is the translation of the IP address of a host in a
packet, for example, the source address of an outgoing packet, used within one network to a
different IP address known within another network.
10.1.1 What You Can Do in this Chapter
• Use the General screen to limit the number of concurrent NAT sessions each client can use
(Section 10.2 on page 128).
• Use the Port Forwarding screen to configure forward incoming service requests to the servers
on your local network (Section 10.3 on page 128).
• Use the DMZ screen to configure a default server (Section 10.4 on page 132).
• Use the ALG screen to enable or disable the SIP ALG (Section 10.5 on page 133).
10.1.2 What You Need To Know
The following terms and concepts may help as you read this chapter.
Inside/Outside and Global/Local
Inside/outside denotes where a host is located relative to the Device, for example, the computers of
your subscribers are the inside hosts, while the web servers on the Internet are the outside hosts.
Global/local denotes the IP address of a host in a packet as the packet traverses a router, for
example, the local address refers to the IP address of a host when the packet is in the local network,
while the global address refers to the IP address of the host when the same packet is traveling in the
WAN side.
NAT
In the simplest form, NAT changes the source IP address in a packet received from a subscriber (the
inside local address) to another (the inside global address) before forwarding the packet to the WAN
side. When the response comes back, NAT translates the destination address (the inside global
address) back to the inside local address before forwarding it to the original inside host.
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Port Forwarding
A port forwarding set is a list of inside (behind NAT on the LAN) servers, for example, web or FTP,
that you can make visible to the outside world even though NAT makes your whole inside network
appear as a single computer to the outside world.
Finding Out More
See Section 10.6 on page 133 for advanced technical information on NAT.
10.2
The General Screen
Use the General screen to limit the number of concurrent NAT sessions each client can use.
Click Network Setting > NAT > General to display the following screen.
Figure 82 Network Setting > NAT > General
The following table describes the fields in this screen.
Table 46 Network Setting > NAT > General
10.3
LABEL
DESCRIPTION
Max NAT/
Firewall
Session Per
User
Use this field to set a common limit to the number of concurrent NAT sessions each client
computer can have.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
If only a few clients use peer to peer applications, you can raise this number to improve
their performance. With heavy peer to peer application use, lower this number to ensure
no single client uses too many of the available NAT sessions.
The Port Forwarding Screen
Use the Port Forwarding screen to forward incoming service requests to the servers on your local
network.
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You may enter a single port number or a range of port numbers to be forwarded, and the local IP
address of the desired server. The port number identifies a service; for example, web service is on
port 80 and FTP on port 21. In some cases, such as for unknown services or where one server can
support more than one service (for example both FTP and web service), it might be better to specify
a range of port numbers. You can allocate a server IP address that corresponds to a port or a range
of ports. Please refer to RFC 1700 for further information about port numbers.
 Many residential broadband ISP accounts do not allow you to run any server processes
(such as a Web or FTP server) from your location. Your ISP may periodically check for
servers and may suspend your account if it discovers any active services at your location. If
you are unsure, refer to your ISP.
Configuring Servers Behind Port Forwarding (Example)
Let's say you want to assign ports 21-25 to one FTP, Telnet and SMTP server (A in the example), port
80 to another (B in the example) and assign a default server IP address of 10.0.0.35 to a third (C in
the example). You assign the LAN IP addresses and the ISP assigns the WAN IP address. The NAT
network appears as a single host on the Internet.
Figure 83 Multiple Servers Behind NAT Example
A=10.0.0.33
LAN
WAN
B=10.0.0.34
10.0.0.1
C=10.0.0.35
IP Address assigned by ISP
D=10.0.0.36
10.3.1 The Port Forwarding Screen
Click Network Setting > NAT to open the Port Forwarding screen.
Figure 84 Network Setting > NAT > Port Forwarding
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The following table describes the fields in this screen.
Table 47 Network Setting > NAT > Port Forwarding
LABEL
DESCRIPTION
WAN Interface
Select the WAN interface for which to configure NAT port forwarding rules.
Add new rule
Click this to add a new port forwarding rule.
This is the index number of the entry.
Active
This field indicates whether the rule is active or not.
A yellow bulb signifies that this rule is active. A gray bulb signifies that this rule is not
active.
Service Name
This is the service’s name. This shows User Defined if you manually added a service.
You can change this by clicking the edit icon.
External Start Port
This is the first external port number that identifies a service.
External End Port
This is the last external port number that identifies a service.
Internal Start Port
This is the first internal port number that identifies a service.
Internal End Port
This is the last internal port number that identifies a service.
Server IP Address
This is the server’s IP address.
Modify
Click the Edit icon to edit the port forwarding rule.
Click the Delete icon to delete an existing port forwarding rule. Note that subsequent
address mapping rules move up by one when you take this action.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
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10.3.2 The Port Forwarding Add/Edit Screen
This screen lets you create or edit a port forwarding rule. Click Add new rule in the Port
Forwarding screen or the Edit icon next to an existing rule to open the following screen.
Figure 85 Port Forwarding: Add/Edit
The following table describes the labels in this screen.
Table 48 Port Forwarding: Add/Edit
LABEL
DESCRIPTION
Active
Select or clear this field to turn the port forwarding rule on or off.
Service Name
Select a service to forward or select User Defined and enter a name in the field to the
right.
External Start Port
Configure this for a user-defined entry. Enter the original destination port for the
packets.
To forward only one port, enter the port number again in the External End Port field.
To forward a series of ports, enter the start port number here and the end port
number in the External End Port field.
External End Port
Configure this for a user-defined entry. Enter the last port of the original destination
port range.
To forward only one port, enter the port number in the External Start Port field above
and then enter it again in this field.
To forward a series of ports, enter the last port number in a series that begins with the
port number in the External Start Port field above.
Server IP Address
Enter the inside IP address of the virtual server here.
Protocol
Select the protocol supported by this virtual server. Choices are TCP, UDP, or TCP/UDP.
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Table 48 Port Forwarding: Add/Edit (continued)
10.4
LABEL
DESCRIPTION
Open Start Port
Configure this for a user-defined entry. This shows the port number to which you want
the Device to translate the incoming port. For a range of ports, enter the first number
of the range to which you want the incoming ports translated.
Open End Port
Configure this for a user-defined entry. This shows the last port of the translated port
range.
Apply
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
The DMZ Screen
Click Network Setting > NAT > DMZ to open the DMZ screen. Use this screen to specify the IP
address of a default server to receive packets from ports not specified in the Port Forwarding
screen.
Figure 86 Network Setting > NAT > DMZ
The following table describes the fields in this screen.
Table 49 Network Setting > NAT > DMZ
LABEL
DESCRIPTION
WAN Interface
Select the WAN interface for which to configure a default server.
Default Server
Address
Enter the IP address of the default server which receives packets from ports that are not
specified in the Port Forwarding screen.
Note: If you do not assign a default server, the Device discards all packets received for
ports not specified in the virtual server configuration.
Apply
Click this to save your changes back to the Device.
Cancel
Click Cancel to restore your previously saved settings.
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10.5
The ALG Screen
Click Network Setting > NAT > ALG to open the ALG screen. Use this screen to enable and disable
the NAT Application Layer Gateway (ALG) in the Device.
The SIP ALG allows SIP calls to pass through NAT by examining and translating IP addresses
embedded in the data stream. When the Device registers with the SIP register server, the SIP ALG
translates the Device’s private IP address inside the SIP data stream to a public IP address. You do
not need to use STUN or an outbound proxy if you enable the SIP ALG.
Figure 87 Network Setting > NAT > ALG
The following table describes the fields in this screen.
Table 50 Network Setting > NAT > ALG
LABEL
DESCRIPTION
SIP ALG
Enable this to make sure SIP (VoIP) works correctly with port-forwarding.
Apply
Click this to save your changes back to the Device.
Cancel
Click Cancel to restore your previously saved settings.
10.6 Technical Reference
This section provides some technical background information about the topics covered in this
chapter.
10.6.1 NAT Definitions
Inside/outside denotes where a host is located relative to the Device, for example, the computers of
your subscribers are the inside hosts, while the web servers on the Internet are the outside hosts.
Global/local denotes the IP address of a host in a packet as the packet traverses a router, for
example, the local address refers to the IP address of a host when the packet is in the local network,
while the global address refers to the IP address of the host when the same packet is traveling in the
WAN side.
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Note that inside/outside refers to the location of a host, while global/local refers to the IP address of
a host used in a packet. Thus, an inside local address (ILA) is the IP address of an inside host in a
packet when the packet is still in the local network, while an inside global address (IGA) is the IP
address of the same inside host when the packet is on the WAN side. The following table
summarizes this information.
Table 51 NAT Definitions
ITEM
DESCRIPTION
Inside
This refers to the host on the LAN.
Outside
This refers to the host on the WAN.
Local
This refers to the packet address (source or destination) as the packet travels on the LAN.
Global
This refers to the packet address (source or destination) as the packet travels on the WAN.
NAT never changes the IP address (either local or global) of an outside host.
10.6.2 What NAT Does
In the simplest form, NAT changes the source IP address in a packet received from a subscriber (the
inside local address) to another (the inside global address) before forwarding the packet to the WAN
side. When the response comes back, NAT translates the destination address (the inside global
address) back to the inside local address before forwarding it to the original inside host. Note that
the IP address (either local or global) of an outside host is never changed.
The global IP addresses for the inside hosts can be either static or dynamically assigned by the ISP.
In addition, you can designate servers, for example, a web server and a Telnet server, on your local
network and make them accessible to the outside world. If you do not define any servers, NAT
offers the additional benefit of firewall protection. With no servers defined, your Device filters out
all incoming inquiries, thus preventing intruders from probing your network. For more information
on IP address translation, refer to RFC 1631, The IP Network Address Translator (NAT).
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10.6.3 How NAT Works
Each packet has two addresses – a source address and a destination address. For outgoing packets,
the ILA (Inside Local Address) is the source address on the LAN, and the IGA (Inside Global Address)
is the source address on the WAN. For incoming packets, the ILA is the destination address on the
LAN, and the IGA is the destination address on the WAN. NAT maps private (local) IP addresses to
globally unique ones required for communication with hosts on other networks. It replaces the
original IP source address (and TCP or UDP source port numbers for Many-to-One and Many-toMany Overload NAT mapping) in each packet and then forwards it to the Internet. The Device keeps
track of the original addresses and port numbers so incoming reply packets can have their original
values restored. The following figure illustrates this.
Figure 88 How NAT Works
NAT Table
LAN
Inside Local
IP Address
192.168.1.10
192.168.1.11
192.168.1.12
192.168.1.13
192.168.1.13
192.168.1.12
SA
SA
192.168.1.10
IGA1
Inside Local
Address (ILA)
192.168.1.11
Chapter 10
Inside Global
IP Address
IGA 1
IGA 2
IGA 3
IGA 4
WAN
Inside Global
Address (IGA)
192.168.1.10
Network Address Translation (NAT)
135
Chapter 11
11
Port Binding
Chapter
C H AP T ER 1 1
11.1 Overview
Port binding aggregates port connections into logical groups. Bind WAN virtual channels (VCs) to
Ethernet ports and WLANs to specify how traffic is forwarded. The Device forwards traffic from an
Ethernet port only through the bound WAN virtual channel and vice versa. For ports not belonging
to a port binding group, the Device forwards traffic according to the routing table.
Additionally, specify ATM QoS settings for an ADSL virtual channel (PVC) to satisfy the bandwidth
requirements of the traffic the PVC carries. For example, create two port binding groups on the
device (R1) for two different WAN ATM PVC connections. The first PVC (PVC1) handles non timesensitive data traffic. The second PVC (PVC2) handle time sensitive Media-On-Demand (MOD) video
traffic.
Figure 89 Port Binding Groups
Dat a
PVC1
R1
S2
MOD
PVC2
R1
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11.2
The Port Binding Screen
Use this screen to enable or disable port binding or any port any service. Click Network Setting >
Port Binding. If you want to enable the port binding feature and configure port binding groups,
select Enable Port Binding.
Figure 90 Network Setting > Port Binding: Enable Port Binding
The following table describes the labels in this screen.
Table 52 Network Setting > Port Binding: Enable Port Binding
LABEL
DESCRIPTION
Active
Activate or deactivate the port binding group.
Group Index
Select the index number for the port binding group.
When a port is assigned to a port binding group, traffic will be forwarded to the other
ports in the group, but not to ports in other groups. If a port is not included in any
groups, traffic will be forwarded according to the routing table.
ATM VCs
Select the ATM VC (PVC) to include in the port binding group. Each ATM VC can only be
bound to one group.
Ethernet
Select the Ethernet (Eth) ports to include in the port binding group. Each Ethernet
port can only be bound to one group.
Wireless LAN
Select the WLAN (AP) connections to include in the port binding group. Additional APs
can be enabled on the More AP screen (Section 6.3 on page 59).
Group Summary
Port Binding
Summary
Chapter 11
Click this to view a summary of configured port binding groups.
Port Binding
137
Table 52 Network Setting > Port Binding: Enable Port Binding (continued)
LABEL
DESCRIPTION
Apply
Add the selected port binding group configuration.
Delete
Delete the selected port binding group configuration.
Cancel
Click this to restore your previously saved settings.
11.2.1 Port Binding Summary Screen
Use this screen to view configured port binding groups.
In the Port Binding screen, click the Port Binding Summary button in the Group Summary
section to display the following screen.
Figure 91 Network Setting > Port Binding: Port Binding Summary
The following table describes the labels in this screen.
Table 53 Network Setting > Port Binding: Port Binding Summary
LABEL
DESCRIPTION
Group ID
This field displays the group index number.
Group Port
This field displays the ports and virtual channels included in the group.
OK
Click this to close the screen.
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If you want to enable the Any Port Any Service feature, select Enable Any Port Any Service. The
Device binds a LAN port with WAN interface per source MAC or DHCP options from the LAN host
dynamically. You can configure up to 5 dynamic port binding groups.
Figure 92 Network Setting > Port Binding: Any Port Any Service
The following table describes the labels in this screen.
Table 54 Network Setting > Port Binding: Any Port Any Service
LABEL
DESCRIPTION
Index
This is the index number for the port binding group.
Option60
This is the Vendor Class Identifier of the matched traffic.
Option61
This is the device identity of the matched traffic.
Option77
This is the User Class Identifier of the matched traffic
Option125
This is the vendor specific information of the matched traffic.
MAC/Mask
This is the source MAC address and MAC mask of the matched traffic.
Interface
This is the WAN interface of the port binding group.
Modify
Click the Edit icon to edit the port binding group.
Click the Delete icon to delete an existing port binding group.
Apply
Chapter 11
Click this to apply the settings.
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139
11.2.2 The Any Port Any Service Edit Screen
This screen lets you create or edit a dynamic port binding group. Click the Edit icon of a port binding
group in the Port Binding: Any Port Any Service screen to open the following screen.
Figure 93 Any Port Any Service: Add/Edit
The following table describes the labels in this screen.
Table 55 Any Port Any Service: Add/Edit
LABEL
DESCRIPTION
Interface
Select the WAN interface of the port binding group.
Source MAC
If you want to configure the port binding group by the source MAC address of the
packet, select this check box and enter the MAC address and MAC mask.
MAC address
Chapter 11
Enter the source MAC address of the packet.
Port Binding
140
Table 55 Any Port Any Service: Add/Edit (continued)
LABEL
DESCRIPTION
MAC mask
Type the mask for the specified MAC address to determine which bits a packet’s MAC
address should match.
Enter “f” for each bit of the specified source MAC address that the traffic’s MAC address
should match. Enter “0” for the bit(s) of the matched traffic’s MAC address, which can
be of any hexadecimal character(s). For example, if you set the MAC address to
00:13:49:00:00:00 and the mask to ff:ff:ff:00:00:00, a packet with a MAC address of
00:13:49:12:34:56 matches this criteria.
DHCP Option60
Select this option and enter the Vendor Class Identifier (Option 60) of the matched
traffic, such as the type of the hardware or firmware.
VendorClassId
Enter the Vendor Class Identifier of the matched traffic.
Enable
wildcard on
DHCP option
60
Select this option to be able to use wildcards in the Vendor Class Identifier configured
for DHCP option 60.
DHCP option61
Select this and enter the device identity of the matched traffic.
IAID
Enter the Identity Association Identifier (IAID) of the device, for example, the WAN
connection index number.
DUID type
Select DUID-LLT (DUID Based on Link-layer Address Plus Time) to enter the hardware
type, a time value and the MAC address of the device.
Select DUID-EN (DUID Assigned by Vendor Based upon Enterprise Number) to enter
the vendor’s registered enterprise number.
Select DUID-LL (DUID Based on Link-layer Address) to enter the device’s hardware type
and hardware address (MAC address) in the following fields.
Select Other to enter any string that identifies the device in the DUID field.
DHCP option77
Value
Select this and enter a string that identifies the user’s category or application type in
the matched DHCP packets.
Enter a string that identifies the user’s category or application type in the matched
DHCP packets
DHCP option125
Select this and enter vendor specific information of the matched traffic.
Enterprise
Number
Enter the vendor’s 32-bit enterprise number registered with the IANA (Internet
Assigned Numbers Authority).
Manufacturer
OUI
Specify the vendor’s OUI (Organization Unique Identifier). It is usually the first three
bytes of the MAC address.
Product Class
Enter the product class of the device.
Model Name
Enter the model name of the device.
Serial Number
Enter the serial number of the device.
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Table 55 Any Port Any Service: Add/Edit (continued)
LABEL
DESCRIPTION
OK
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
If you want to disable the port binding feature on the Device, select Disable in the Port Binding
screen and click Apply.
It is suggested to reboot the Device after you have changed the port binding settings or WAN
encapsulation.
Figure 94 Network Setting > Port Binding: Disable
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Chapter 12
12.1
Dynamic DNS
12
Chapter
C H AP T ER 1 2
Overview
This chapter discusses how to configure your Device to use Dynamic DNS.
Dynamic DNS allows you to update your current dynamic IP address with one or many dynamic
DNS services so that anyone can contact you (in applications such as NetMeeting and CU-SeeMe).
You can also access your FTP server or Web site on your own computer using a domain name (for
instance myhost.dhs.org, where myhost is a name of your choice) that will never change instead of
using an IP address that changes each time you reconnect. Your friends or relatives will always be
able to call you even if they don't know your IP address.
First of all, you need to have registered a dynamic DNS account with www.dyndns.org. This is for
people with a dynamic IP from their ISP or DHCP server that would still like to have a domain name.
The Dynamic DNS service provider will give you a password or key.
12.1.1 What You Need To Know
DYNDNS Wildcard
Enabling the wildcard feature for your host causes *.yourhost.dyndns.org to be aliased to the same
IP address as yourhost.dyndns.org. This feature is useful if you want to be able to use, for example,
www.yourhost.dyndns.org and still reach your hostname.
If you have a private WAN IP address, then you cannot use Dynamic DNS.
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143
12.2 The Dynamic DNS Screen
Use the Dynamic DNS screen to enable DDNS and configure the DDNS settings on the Device. To
change your Device’s DDNS, click Network Setting > Dynamic DNS. The screen appears as shown.
Figure 95 Network Setting > Dynamic DNS
The following table describes the fields in this screen.
Table 56 Network Setting > Dynamic DNS
LABEL
DESCRIPTION
Dynamic DNS Configuration
Dynamic DNS
Select Enable to use dynamic DNS.
Service Provider
Select the name of your Dynamic DNS service provider.
Host Name
Type the domain name assigned to your Device by your Dynamic DNS provider.
Username
Type your user name for the Dynamic DNS service provider.
Password
Type your password for the Dynamic DNS service provider.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
Dynamic DNS Status
User
Authentication
Result
This field displays the results of the Device’s attempt to authenticate with the
Dynamic DNS service provider.
Last Updated
Time
This field displays when the Device last updated its WAN IP address to the Dynamic
DNS service provider.
Current Dynamic
IP
This field displays the Device’s current WAN IP address.
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Chapter 13
13
Filter
Chapter
C H AP T ER 1 3
13.1 Overview
This chapter introduces filter rules you can configure to restrict traffic by IPv4 and IPv6 addresses
and MAC addresses.
13.1.1 What You Can Do in the Filter Screens
• Use the IP/MAC Filter screen (Section 13.2 on page 146) to create IPv4/MAC filter rules.
• Use the IPv6/MAC Filter screen (Section 13.3 on page 148) to create IPv6/MAC filter rules.
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13.2
The IP/MAC Filter Screen
Use this screen to create and apply IPv4/MAC filters. Click Security > Filter to display the screen as
shown.
Figure 96 Security > Filter
The following table describes the labels in this screen.
Table 57 Security > Filter
LABEL
DESCRIPTION
Rule Type
Rule Type
selection
Select White List to create a filter rule that allows traffic.
Select Black List to create a filter rule that blocks traffic.
IP/MAC Filter Rule Editing
IP/MAC Filter Rule
Index
Select the index number of the filter rule.
Active
Use this field to enable or disable the rule.
Interface
Select the interface to which to apply the filter.
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146
Table 57 Security > Filter (continued)
LABEL
DESCRIPTION
Direction
Apply the filter to Incoming or Outgoing traffic direction.
Rule Type
Select IP to filter traffic by IP addresses.
Select MAC to filter traffic by MAC address.
Source IP Address
Enter the source IP address of the packets you wish to filter. This field is ignored if it is
0.0.0.0.
Subnet Mask
Enter the IP subnet mask for the source IP address.
Port Number
Enter the source port of the packets that you wish to filter. The range of this field is 0 to
65535. This field is ignored if it is 0.
Destination IP
Address
Enter the destination IP address of the packets you wish to filter. This field is ignored if
it is 0.0.0.0.
Subnet Mask
Enter the IP subnet mask for the destination IP address.
Port Number
Enter the destination port of the packets that you wish to filter. The range of this field is
0 to 65535. This field is ignored if it is 0.
Protocol
Select ICMP, TCP or UDP for the upper layer protocol.
Source MAC
Address
This field is only available when you select MAC in the Rule Type field.
Enter the MAC address of the packets you wish to filter.
IP / MAC Filter Listing
This is the index number of the filter rule.
Active
This field shows whether the rule is activated.
Interface
This field shows the interface to which the filter rule applies.
Direction
The filter rule applies to this traffic direction.
Src IP/Mask
This is the source IP address and subnet mask when you select IP as the rule type.
This is the MAC address when you select MAC as the rule type.
Dest IP/Mask
This is the destination IP address and subnet mask.
MAC Address
For a MAC filter rule this field shows the MAC address of the packets to filter.
Src Port
This is the source port number.
Dest Port
This is the destination port number.
Protocol
This is the upper layer protocol.
Apply
Click this to save your changes.
Delete
Click this to remove the filter rule selected in the IP / MAC Filter Rule Index field.
Cancel
Click this to restore your previously saved settings.
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13.3
The IPv6/MAC Filter Screen
Use this screen to create and apply IPv6/MAC filters. Click Security > Filter > IPv6/MAC Filter to
display the screen as shown.
Figure 97 Security > Filter > IPv6/MAC Filter
The following table describes the labels in this screen.
Table 58 Security > Filter > IPv6/MAC Filter
LABEL
DESCRIPTION
Rule Type
Rule Type selection
Select White List to create a filter rule that allows traffic.
Select Black List to create a filter rule that blocks traffic.
IPv6 / MAC Filter Rule Editing
IPv6 / MAC Filter
Rule Index
Select the index number of the filter rule.
Active
Use this field to enable or disable the rule.
Interface
Select the interface to which to apply the filter.
Direction
Apply the filter to Incoming or Outgoing traffic direction.
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Table 58 Security > Filter > IPv6/MAC Filter (continued)
LABEL
DESCRIPTION
Rule Type
Select IP to filter traffic by IP addresses.
Select MAC to filter traffic by MAC address.
Source IP Address
Enter the source IPv6 address of the packets you wish to filter. This field is ignored if it
is ::.
Subnet Mask
Enter the IPv6 subnet mask for the source IPv6 address.
Source Prefix
Length
Enter the prefix length for the source IPv6 address.
Destination IPv6
Address
Enter the destination IPv6 address of the packets you wish to filter. This field is ignored
if it is ::.
Destination Prefix
Length
Enter the prefix length for the destination IPv6 address.
ICMPv6 Type
Select one of the following ICMPv6 message types to filter.
1 / Destination Unreachable: 0 - no route to destination; 1 - communication with
destination administratively prohibited; 3 - address unreachable; 4 - port unreachable
2 / Packet Too Big
3 / Time Exceeded: 0 - hop limit exceeded in transit; 1 - fragment reassembly time
exceeded
4 / Parameter Problem: 0 - erroneous header field encountered; 1 - unrecognized
Next Header type encountered; 2 - unrecognized IPv6 option encountered
128 / Echo Request
129 / Echo Response
130 / Listener Query - Multicast listener query
131 / Listener Report - Multicast listener report
132 / Listener Done - Multicast listener done
143 / Listener Reportv2 - Multicast listener report v2
133 / Router Solicitation
134 / Router Advertisement
135 / Neighbor Solicitation
136 / Neighbor Advertisement
137 / Redirect - Redirect message
Protocol
This is the (upper layer) protocol that defines the service to which this rule applies. By
default it is ICMPv6.
Source MAC
Address
This field is only available when you select MAC in the Rule Type field.
Enter the MAC address of the packets you wish to filter.
IPv6 / MAC Filter Listing
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Table 58 Security > Filter > IPv6/MAC Filter (continued)
LABEL
DESCRIPTION
IPv6 / MAC Filter
Rule Index
Select the index number of the filter set from the drop-down list box.
This is the index number of the rule in a filter set.
Active
This field shows whether the rule is activated.
Interface
This is the interface that the rule applies to.
Direction
The filter set applies to this traffic direction.
ICMPv6 Type
The ICMPv6 message type to filter.
Src IP/PrefixLength
This displays the source IPv6 address and prefix length.
Dest IP/
PrefixLength
This displays the destination IPv6 address and prefix length.
Mac Address
This is the MAC address of the packets being filtered.
Protocol
This is the (upper layer) protocol that defines the service to which this rule applies. By
default it is ICMPv6.
Apply
Click this to save your changes.
Delete
Click this to remove the filter rule selected in the IPv6 / MAC Filter Rule Index field.
Cancel
Click this to restore your previously saved settings.
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C H AP T ER 1 4
14
Firewall
Chapter
Chapter 14
14.1 Overview
This chapter shows you how to enable the Device firewall. Use the firewall to protect your Device
and network from attacks by hackers on the Internet and control access to it. The firewall:
• allows traffic that originates from your LAN computers to go to all other networks.
• blocks traffic that originates on other networks from going to the LAN.
• blocks SYN and port scanner attacks.
By default, the Device blocks DDOS, LAND and Ping of Death attacks whether the firewall is enabled
or disabled.
The following figure illustrates the firewall action. User A can initiate an IM (Instant Messaging)
session from the LAN to the WAN (1). Return traffic for this session is also allowed (2). However
other traffic initiated from the WAN is blocked (3 and 4).
Figure 98 Default Firewall Action
WAN
LAN
14.1.1 What You Can Do in the Firewall Screens
• Use the General screen (Section 14.2 on page 153) to select the firewall protection level on the
Device.
• Use the Default Action screen (Section 14.3 on page 154) to set the default action that the
firewall takes on packets that do not match any of the firewall rules.
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• Use the Rules screen (Section 14.4 on page 155) to view the configured firewall rules and add,
edit or remove a firewall rule.
• Use the Dos screen (Section 14.5 on page 161) to set the thresholds that the Device uses to
determine when to start dropping sessions that do not become fully established (half-open
sessions).
14.1.2 What You Need to Know About Firewall
SYN Attack
A SYN attack floods a targeted system with a series of SYN packets. Each packet causes the targeted
system to issue a SYN-ACK response. While the targeted system waits for the ACK that follows the
SYN-ACK, it queues up all outstanding SYN-ACK responses on a backlog queue. SYN-ACKs are
moved off the queue only when an ACK comes back or when an internal timer terminates the threeway handshake. Once the queue is full, the system will ignore all incoming SYN requests, making
the system unavailable for legitimate users.
DoS
Denials of Service (DoS) attacks are aimed at devices and networks with a connection to the
Internet. Their goal is not to steal information, but to disable a device or network so users no longer
have access to network resources. The Device is pre-configured to automatically detect and thwart
all known DoS attacks.
DDoS
A Distributed DoS (DDoS) attack is one in which multiple compromised systems attack a single
target, thereby causing denial of service for users of the targeted system.
LAND Attack
In a Local Area Network Denial (LAND) attack, hackers flood SYN packets into the network with a
spoofed source IP address of the target system. This makes it appear as if the host computer sent
the packets to itself, making the system unavailable while the target system tries to respond to
itself.
Ping of Death
Ping of Death uses a "ping" utility to create and send an IP packet that exceeds the maximum 65,536
bytes of data allowed by the IP specification. This may cause systems to crash, hang or reboot.
SPI
Stateful Packet Inspection (SPI) tracks each connection crossing the firewall and makes sure it is
valid. Filtering decisions are based not only on rules but also context. For example, traffic from the
WAN may only be allowed to cross the firewall in response to a request from the LAN.
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RFC 4890 SPEC Traffic
RFC 4890 specifies the filtering policies for ICMPv6 messages. This is important for protecting
against security threats including DoS, probing, redirection attacks and renumbering attacks that
can be carried out through ICMPv6. Since ICMPv6 error messages are critical for establishing and
maintaining communications, filtering policy focuses on ICMPv6 informational messages.
Anti-Probing
If an outside user attempts to probe an unsupported port on your Device, an ICMP response packet
is automatically returned. This allows the outside user to know the Device exists. The Device
supports anti-probing, which prevents the ICMP response packet from being sent. This keeps
outsiders from discovering your Device when unsupported ports are probed.
ICMP
Internet Control Message Protocol (ICMP) is a message control and error-reporting protocol
between a host server and a gateway to the Internet. ICMP uses Internet Protocol (IP) datagrams,
but the messages are processed by the TCP/IP software and directly apparent to the application
user.
DoS Thresholds
For DoS attacks, the Device uses thresholds to determine when to drop sessions that do not
become fully established. These thresholds apply globally to all sessions. You can use the default
threshold values, or you can change them to values more suitable to your security requirements.
14.2
Firewall General Screen
Use this screen to select the firewall protection level on the Device. Click Security > Firewall >
General to display the following screen.
Figure 99 Security > Firewall > General
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The following table describes the labels in this screen.
Table 59 Security > Firewall > General
LABEL
DESCRIPTION
High
This setting blocks all traffic to and from the Internet. Only local network traffic and LAN to WAN
service (Telnet, FTP, HTTP, HTTPS, DNS, POP3, SMTP) is permitted.
Mediu
This is the recommended setting. It allows traffic to the Internet but blocks anyone from the
Internet from accessing any services on your local network.
Low
This setting allows traffic to the Internet and also allows someone from the Internet to access
services on your local network. This would be used with Port Forwarding, Default Server.
Custom
This setting allows the customer to create and edit individual firewall rules.
Firewall rules can be created in the Default Action screen (Section 14.3 on page 154) and Rules
screen (Section 14.4 on page 155).
14.3
Off
This setting is not recommended. It disables firewall protection for your network and could
potentially expose your network to significant security risks. This option should only be used for
troubleshooting or if you intend using another firewall in conjunction with your router.
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
Default Action Screen
Use this screen to set the default action that the firewall takes on packets that do not match any of
the firewall rules. Click Security > Firewall > Default Action to display the following screen.
Figure 100 Security > Firewall > Default Action
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The following table describes the labels in this screen.
Table 60 Security > Firewall > Default Action
LABEL
DESCRIPTION
Packet Direction
This is the direction of travel of packets (WAN to LAN, LAN to WAN, WAN to Router,
LAN to Router).
Firewall rules are grouped based on the direction of travel of packets to which they apply.
For example, LAN to Router means packets traveling from a computer/subnet on the
LAN to the Device itself.
Default Action
Use the drop-down list boxes to select the default action that the firewall is to take on
packets that are traveling in the selected direction and do not match any of the firewall
rules.
Select Drop to silently discard the packets without sending a TCP reset packet or an ICMP
destination-unreachable message to the sender.
Select Reject to deny the packets and send a TCP reset packet (for a TCP packet) or an
ICMP destination-unreachable message (for a UDP packet) to the sender.
Select Permit to allow the passage of the packets.
14.4
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
Rules Screen
Click Security > Firewall > Rules to display the following screen. This screen displays a list of the
configured firewall rules. Note the order in which the rules are listed.
 The ordering of your rules is very important as rules are applied in turn.
Figure 101 Security > Firewall > Rules
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The following table describes the labels in this screen.
Table 61 Security > Firewall > Rules
LABEL
DESCRIPTION
Firewall Rules
Storage Space in Use
This read-only bar shows how much of the Device's memory for recording firewall
rules it is currently using. When you are using 80% or less of the storage space, the
bar is green. When the amount of space used is over 80%, the bar is red.
Packet Direction
Use the drop-down list box to select a direction of travel of packets for which you
want to configure firewall rules.
Create a new rule
after rule number
Select an index number and click Add to add a new firewall rule after the selected
index number. For example, if you select “6”, your new rule becomes number 7 and
the previous rule 7 (if there is one) becomes rule 8.
The following read-only fields summarize the rules you have created that apply to
traffic traveling in the selected packet direction. The firewall rules that you configure
(summarized below) take priority over the general firewall action settings in the
General screen.
This is your firewall rule number. The ordering of your rules is important as rules are
applied in turn.
Active
This field displays whether a firewall is turned on or not. Select the check box to
enable the rule. Clear the check box to disable the rule.
Source IP Address
This column displays the source addresses or ranges of addresses to which this
firewall rule applies. Please note that a blank source or destination address is
equivalent to Any.
Destination IP
Address
This column displays the destination addresses or ranges of addresses to which this
firewall rule applies. Please note that a blank source or destination address is
equivalent to Any.
Service
This column displays the services to which this firewall rule applies.
Action
This field displays whether the firewall silently discards packets (Drop), discards
packets and sends a TCP reset packet or an ICMP destination-unreachable message
to the sender (Reject) or allows the passage of packets (Permit).
Source Interface
This column displays the source interface to which this firewall rule applies. This is
the interface through which the traffic entered the Device. Please note that a blank
source interface is equivalent to Any.
Destination Interface
This column displays the destination interface to which this firewall rule applies. This
is the interface through which the traffic is destined to leave the Device. Please note
that a blank source interface is equivalent to Any.
Modify
Click the Edit icon to go to the screen where you can edit the rule.
Click the Remove icon to delete an existing firewall rule. A window displays asking
you to confirm that you want to delete the firewall rule. Note that subsequent
firewall rules move up by one when you take this action.
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14.4.1 Rules Add Screen
Use this screen to configure firewall rules. In the Rules screen, select an index number and click Add
or click a rule’s Edit icon to display this screen and refer to the following table for information on the
labels.
Figure 102 Security > Firewall > Rules > Add
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The following table describes the labels in this screen.
Table 62 Security > Firewall > Rules > Add
LABEL
DESCRIPTION
Active
Select this option to enable this firewall rule.
Action for Matched
Packets
Use the drop-down list box to select whether to discard (Drop), deny and send an
ICMP destination-unreachable message to the sender of (Reject) or allow the
passage of (Permit) packets that match this rule.
IP Version Type
Select the IP version, IPv4 or IPv6, to apply this firewall rule to.
Rate Limit
Set a maximum number of packets per second, minute, or hour to limit the
throughput of traffic that matches this rule.
Maximum Burst
Number
Set the maximum number of packets that can be sent at the peak rate.
Log
This field determines if a log for packets that match the rule is created or not.
Rules/Source Address
Address Type
Do you want your rule to apply to packets with a particular (single) IP, a range of IP
addresses (for instance, 192.168.1.10 to 192.169.1.50), a subnet or any IP address?
Select an option from the drop-down list box that includes: Single Address, Range
Address, Subnet Address and Any Address.
Start IP Address
Enter the single IP address or the starting IP address in a range here.
End IP Address
Enter the ending IP address in a range here.
Subnet Mask
Enter the subnet mask here, if applicable.
Source Mac Address
Specify a source MAC address of traffic to which to apply this firewall rule applies.
Please note that a blank source MAC address is equivalent to any.
Destination Address
Address Type
Do you want your rule to apply to packets with a particular (single) IP, a range of IP
addresses (for instance, 192.168.1.10 to 192.169.1.50), a subnet or any IP address?
Select an option from the drop-down list box that includes: Single Address, Range
Address, Subnet Address and Any Address.
Start IP Address
Enter the single IP address or the starting IP address in a range here.
End IP Address
Enter the ending IP address in a range here.
Subnet Mask
Enter the subnet mask here, if applicable.
Source Interface
Specify a source interface to which this firewall rule applies. This is the interface
through which the traffic entered the Device. Please note that a blank source
interface is equivalent to any.
Service
Available Services
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Select a service from the Available Services box.
158
Table 62 Security > Firewall > Rules > Add (continued)
LABEL
DESCRIPTION
Edit Customized
Services
Click the Edit Customized Service button to bring up the screen that you use to
configure a new custom service that is not in the predefined list of services.
TCP Flag
Specify any TCP flag bits the firewall rule is to check for.
Schedule
Select the days and time during which to apply the rule. Select Everyday and All Day
to always apply the rule.
OK
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
14.4.2 Customized Services
Configure customized services and port numbers not predefined by the Device. For a
comprehensive list of port numbers and services, visit the IANA (Internet Assigned Number
Authority) website. Click the Edit Customized Services button while editing a firewall rule to
configure a custom service port. This displays the following screen.
Figure 103 Security > Firewall > Rules: Edit: Edit Customized Services
The following table describes the labels in this screen.
Table 63 Security > Firewall > Rules: Edit: Edit Customized Services
LABEL
DESCRIPTION
This is the number of your customized port.
Name
This is the name of your customized service.
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Table 63 Security > Firewall > Rules: Edit: Edit Customized Services (continued)
LABEL
DESCRIPTION
Protocol
This shows the IP protocol (TCP or UDP) that defines your customized service.
Port Type
This is the port number or range that defines your customized service.
Start Port
This is a single port number or the starting port number of a range that defines your
customized service.
End Port
This is a single port number or the ending port number of a range that defines your
customized service.
Modify
Click this to edit a customized service.
Add
Click this to configure a customized service.
OK
Click this to return to the Firewall Edit Rule screen.
14.4.3 Customized Service Add/Edit
Use this screen to add a customized rule or edit an existing rule. Click Add or the Edit icon next to a
rule number in the Firewall Customized Services screen to display the following screen.
Figure 104 Security > Firewall > Rules: Edit: Edit Customized Services: Add/Edit
The following table describes the labels in this screen.
Table 64 Security > Firewall > Rules: Edit: Edit Customized Services: Add/Edit
LABEL
DESCRIPTION
Config
Service Name
Type a unique name for your custom port.
Service Type
Choose the IP port (TCP or UDP) that defines your customized port from the drop down
list box.
Port Configuration
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Table 64 Security > Firewall > Rules: Edit: Edit Customized Services: Add/Edit (continued)
14.5
LABEL
DESCRIPTION
Type
Click Single to specify one port only or Port Range to specify a span of ports that define
your customized service.
Port Number
Type a single port number or the range of port numbers that define your customized
service.
Back
Click this to return to the previous screen without saving.
Apply
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
DoS Screen
Use this screen to enable DoS protection. Click Security > Firewall > Dos to display the following
screen.
Figure 105 Security > Firewall > Dos
The following table describes the labels in this screen.
Table 65 Security > Firewall > Dos
LABEL
DESCRIPTION
Denial of
Services
Enable this to protect against DoS attacks. The Device will drop sessions that surpass
maximum thresholds.
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
Advanced
Click this to go to a screen to specify maximum thresholds at which the Device will start
dropping sessions.
14.5.1 The DoS Advanced Screen
For DoS attacks, the Device uses thresholds to determine when to start dropping sessions that do
not become fully established (half-open sessions). These thresholds apply globally to all sessions.
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For TCP, half-open means that the session has not reached the established state-the TCP three-way
handshake has not yet been completed. Under normal circumstances, the application that initiates
a session sends a SYN (synchronize) packet to the receiving server. The receiver sends back an ACK
(acknowledgment) packet and its own SYN, and then the initiator responds with an ACK
(acknowledgment). After this handshake, a connection is established.
Figure 106 Three-Way Handshake
For UDP, half-open means that the firewall has detected no return traffic. An unusually high number
(or arrival rate) of half-open sessions could indicate a DOS attack.
14.5.1.1 Threshold Values
If everything is working properly, you probably do not need to change the threshold settings as the
default threshold values should work for most small offices. Tune these parameters when you
believe the Device has been receiving DoS attacks that are not recorded in the logs or the logs show
that the Device is classifying normal traffic as DoS attacks. Factors influencing choices for threshold
values are:
The maximum number of opened sessions.
The minimum capacity of server backlog in your LAN network.
The CPU power of servers in your LAN network.
Network bandwidth.
Type of traffic for certain servers.
Reduce the threshold values if your network is slower than average for any of these factors
(especially if you have servers that are slow or handle many tasks and are often busy).
• If you often use P2P applications such as file sharing with eMule or eDonkey, it’s recommended
that you increase the threshold values since lots of sessions will be established during a small
period of time and the Device may classify them as DoS attacks.
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14.5.2 Configuring Firewall Thresholds
Click Security > Firewall > DoS > Advanced to display the following screen.
Figure 107 Security > Firewall > DoS > Advanced
The following table describes the labels in this screen.
Table 66 Security > Firewall > DoS > Advanced
LABEL
DESCRIPTION
TCP SYN-Request
Count
This is the rate of new TCP half-open sessions per second that causes the firewall to
start deleting half-open sessions. When the rate of new connection attempts rises
above this number, the Device deletes half-open sessions as required to
accommodate new connection attempts.
UDP Packet Count
This is the rate of new UDP half-open sessions per second that causes the firewall to
start deleting half-open sessions. When the rate of new connection attempts rises
above this number, the Device deletes half-open sessions as required to
accommodate new connection attempts.
ICMP Echo-Request
Count
This is the rate of new ICMP Echo-Request half-open sessions per second that causes
the firewall to start deleting half-open sessions. When the rate of new connection
attempts rises above this number, the Device deletes half-open sessions as required
to accommodate new connection attempts.
ICMP Redirect
Select Enable to monitor for and block ICMP redirect attacks.
An ICMP redirect attack is one where forged ICMP redirect messages can force the
client device to route packets for certain connections through an attacker’s host.
DoS Log(Log Level:
DEBUG)
Select Enable to log DoS attacks. See Section 17.2 on page 182 for information on
viewing logs.
OK
Click this to save your changes.
Cancel
Click this to exit this screen without saving.
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14.6 Firewall Technical Reference
This section provides some technical background information about the topics covered in this
chapter.
14.6.1 Firewall Rules Overview
Your customized rules take precedence and override the Device’s default settings. The Device
checks the source IP address, destination IP address and IP protocol type of network traffic against
the firewall rules (in the order you list them). When the traffic matches a rule, the Device takes the
action specified in the rule.
Firewall rules are grouped based on the direction of travel of packets to which they apply:
• LAN to Router
• WAN to LAN
• LAN to WAN
• WAN to Router
 The LAN includes both the LAN port and the WLAN.
By default, the Device’s stateful packet inspection allows packets traveling in the following
directions:
• LAN to Router
These rules specify which computers on the LAN can manage the Device (remote management).
 You can also configure the remote management settings to allow only a specific computer
to manage the Device.
• LAN to WAN
These rules specify which computers on the LAN can access which computers or services on the
WAN.
By default, the Device’s stateful packet inspection drops packets traveling in the following directions:
• WAN to LAN
These rules specify which computers on the WAN can access which computers or services on the
LAN.
 You also need to configure NAT port forwarding (or full featured NAT address mapping
rules) to allow computers on the WAN to access devices on the LAN.
• WAN to Router
By default the Device stops computers on the WAN from managing the Device. You could
configure one of these rules to allow a WAN computer to manage the Device.
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 You also need to configure the remote management settings to allow a WAN computer to
manage the Device.
You may define additional rules and sets or modify existing ones but please exercise extreme
caution in doing so.
For example, you may create rules to:
• Block certain types of traffic, such as IRC (Internet Relay Chat), from the LAN to the Internet.
• Allow certain types of traffic, such as Lotus Notes database synchronization, from specific hosts
on the Internet to specific hosts on the LAN.
• Allow everyone except your competitors to access a web server.
• Restrict use of certain protocols, such as Telnet, to authorized users on the LAN.
These custom rules work by comparing the source IP address, destination IP address and IP
protocol type of network traffic to rules set by the administrator. Your customized rules take
precedence and override the Device’s default rules.
14.6.2 Guidelines For Enhancing Security With Your Firewall
Change the default password via web configurator.
Think about access control before you connect to the network in any way.
Limit who can access your router.
Don't enable any local service (such as telnet or FTP) that you don't use. Any enabled service could
present a potential security risk. A determined hacker might be able to find creative ways to misuse
the enabled services to access the firewall or the network.
For local services that are enabled, protect against misuse. Protect by configuring the services to
communicate only with specific peers, and protect by configuring rules to block packets for the
services at specific interfaces.
Protect against IP spoofing by making sure the firewall is active.
Keep the firewall in a secured (locked) room.
14.6.3 Security Considerations
 Incorrectly configuring the firewall may block valid access or introduce security risks to the
Device and your protected network. Use caution when creating or deleting firewall rules
and test your rules after you configure them.
Consider these security ramifications before creating a rule:
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1
Does this rule stop LAN users from accessing critical resources on the Internet? For example, if IRC is
blocked, are there users that require this service?
Is it possible to modify the rule to be more specific? For example, if IRC is blocked for all users, will a
rule that blocks just certain users be more effective?
Does a rule that allows Internet users access to resources on the LAN create a security vulnerability?
For example, if FTP ports (TCP 20, 21) are allowed from the Internet to the LAN, Internet users may
be able to connect to computers with running FTP servers.
Does this rule conflict with any existing rules?
Once these questions have been answered, adding rules is simply a matter of entering the
information into the correct fields in the web configurator screens.
14.6.4 Triangle Route
When the firewall is on, your Device acts as a secure gateway between your LAN and the Internet. In
an ideal network topology, all incoming and outgoing network traffic passes through the Device to
protect your LAN against attacks.
Figure 108 Ideal Firewall Setup
LAN
WAN
14.6.4.1 The “Triangle Route” Problem
A traffic route is a path for sending or receiving data packets between two Ethernet devices. You
may have more than one connection to the Internet (through one or more ISPs). If an alternate
gateway is on the LAN (and its IP address is in the same subnet as the Device’s LAN IP address), the
“triangle route” (also called asymmetrical route) problem may occur. The steps below describe the
“triangle route” problem.
A computer on the LAN initiates a connection by sending out a SYN packet to a receiving server on
the WAN.
The Device reroutes the SYN packet through Gateway A on the LAN to the WAN.
The reply from the WAN goes directly to the computer on the LAN without going through the
Device.
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As a result, the Device resets the connection, as the connection has not been acknowledged.
Figure 109 “Triangle Route” Problem
WAN
LAN
ISP 1
ISP 2
14.6.4.2 Solving the “Triangle Route” Problem
If you have the Device allow triangle route sessions, traffic from the WAN can go directly to a LAN
computer without passing through the Device and its firewall protection.
Another solution is to use IP alias. IP alias allows you to partition your network into logical sections
over the same Ethernet interface. Your Device supports up to three logical LAN interfaces with the
Device being the gateway for each logical network.
It’s like having multiple LAN networks that actually use the same physical cables and ports. By
putting your LAN and Gateway A in different subnets, all returning network traffic must pass
through the Device to your LAN. The following steps describe such a scenario.
A computer on the LAN initiates a connection by sending a SYN packet to a receiving server on the
WAN.
The Device reroutes the packet to Gateway A, which is in Subnet 2.
The reply from the WAN goes to the Device.
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4
The Device then sends it to the computer on the LAN in Subnet 1.
Figure 110 IP Alias
Subnet 1
LAN
WAN
ISP 1
ISP 2
Subnet 2
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Chapter 15
15.1
Parental Control
15
Chapter
C H AP T ER 1 5
Overview
Parental control allows you to block web sites with the specific URL. You can also define time
periods and days during which the Device performs parental control on a specific user.
15.2
The Parental Control Screen
Use this screen to enable parental control, view the parental control rules and schedules.
Click Security > Parental Control to open the following screen.
Figure 111 Security > Parental Control
The following table describes the fields in this screen.
Table 67 Parental Control > Parental Control
LABEL
DESCRIPTION
Parental Control
Select Enable to activate parental control.
Add new PCP
Click this if you want to configure a new parental control rule.
This shows the index number of the rule.
Status
This indicates whether the rule is active or not.
A yellow bulb signifies that this rule is active. A gray bulb signifies that this rule is not
active.
PCP Name
Chapter 15
This shows the name of the rule.
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Table 67 Parental Control > Parental Control (continued)
LABEL
DESCRIPTION
Home Network
User
This shows the MAC address of the LAN user’s computer to which this rule applies.
Internet Access
Schedule
This shows the days and time on which parental control is enabled.
Network Service
This shows whether the network service is configured. If not, None will be shown.
Website Blocked
This shows whether the website block is configured. If not, None will be shown.
Modify
Click the Edit icon to go to the screen where you can edit the rule.
Click the Delete icon to delete an existing rule.
Add
Click Add to create a new schedule.
Apply
Click Apply to save your changes back to the Device.
Cancel
Click Cancel to return your last saved settings.
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15.2.1 Add/Edit a Parental Control Rule
Click Add new PCP in the Parental Control screen to add a new rule or click the Edit icon next to an
existing rule to edit it. Use this screen to configure a restricted access schedule and/or URL filtering
settings to block the users on your network from accessing certain web sites.
Figure 112 Add/Edit Parental Control Rule
The following table describes the fields in this screen.
Table 68 Add/Edit Parental Control Rule
LABEL
DESCRIPTION
General
Active
Chapter 15
Select the checkbox to activate this parental control rule.
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171
Table 68 Add/Edit Parental Control Rule (continued)
LABEL
DESCRIPTION
Parental Control
Profile Name
Enter a descriptive name for the rule.
Home Network User
Select the LAN user that you want to apply this rule to from the drop-down list box. If
you select Custom, enter the LAN user’s MAC address. If you select All, the rule
applies to all LAN users.
Internet Access Schedule
Day
Select check boxes for the days that you want the Device to perform parental
control.
Time of Day to Apply: (24-Hour Format)
Start Time
End Time
Enter the time period of each day, in 24-hour format, during which parental control
will be enforced.
Time
Drag the time bar to define the time that the LAN user is allowed access.
Network Service
Network Service
Setting
If you select Block, the Device prohibits the users from viewing the Web sites with
the URLs listed below.
If you select Access, the Device blocks access to all URLs except ones listed below.
Add new service
Click this to show a screen in which you can add a new service rule. You can
configure the Service Name, Protocol, and Name of the new rule.
Active
Select the check box next to the service to apply this rule to the service. Clear the
check box to not apply this rule to it.
Service Name
Select a service.
Protocol
For services that support multiple protocols, select the protocol.
Port
Specify the port number from 1 to 65535.
Modify
Click the Edit icon to go to the screen where you can edit the rule.
Click the Delete icon to delete an existing rule.
Blocked Site/URL
Specify web sites or URLs to which the Device blocks access.
Apply
Click this button to save your settings back to the Device.
Cancel
Click this to exit this screen without saving.
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Chapter 16
Certificates
16
Chapter
C H AP T ER 1 6
16.1 Overview
The Device can use certificates (also called digital IDs) to authenticate users. Certificates are based
on public-private key pairs. A certificate contains the certificate owner’s identity and public key.
Certificates provide a way to exchange public keys for use in authentication.
16.1.1 What You Can Do in this Chapter
• Use the Local Certificates screen to view and import the Device’s CA-signed certificates (Section
16.2 on page 175).
• Use the Trusted CA screen to save the certificates of trusted CAs to the Device. You can also
export the certificates to a computer (Section 16.3 on page 177).
16.1.2 What You Need to Know
The following terms and concepts may help as you read this chapter.
Certification Authorities
A Certification Authority (CA) issues certificates and guarantees the identity of each certificate
owner. There are commercial certification authorities like CyberTrust or VeriSign and government
certification authorities.
Public and Private Keys
When using public-key cryptology for authentication, each host has two keys. One key is public and
can be made openly available; the other key is private and must be kept secure. Public-key
encryption in general works as follows.
Tim wants to send a private message to Jenny. Tim generates a public-private key pair. What is
encrypted with one key can only be decrypted using the other.
Tim keeps the private key and makes the public key openly available.
Tim uses his private key to encrypt the message and sends it to Jenny.
Jenny receives the message and uses Tim’s public key to decrypt it.
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5
Additionally, Jenny uses her own private key to encrypt a message and Tim uses Jenny’s public key
to decrypt the message.
The Device uses certificates based on public-key cryptology to authenticate users attempting to
establish a connection. The method used to secure the data that you send through an established
connection depends on the type of connection. For example, a VPN tunnel might use the triple DES
encryption algorithm.
The certification authority uses its private key to sign certificates. Anyone can then use the
certification authority’s public key to verify the certificates.
Certification Path
A certification path is the hierarchy of certification authority certificates that validate a certificate.
The Device does not trust a certificate if any certificate on its path has expired or been revoked.
Certificate Directory Servers
Certification authorities maintain directory servers with databases of valid and revoked certificates.
A directory of certificates that have been revoked before the scheduled expiration is called a CRL
(Certificate Revocation List). The Device can check a peer’s certificate against a directory server’s list
of revoked certificates. The framework of servers, software, procedures and policies that handles
keys is called PKI (public-key infrastructure).
Advantages of Certificates
Certificates offer the following benefits.
• The Device only has to store the certificates of the certification authorities that you decide to
trust, no matter how many devices you need to authenticate.
• Key distribution is simple and very secure since you can freely distribute public keys and you
never need to transmit private keys.
Certificate File Format
The certification authority certificate that you want to import has to be in PEM (Base-64) encoded
X.509 file format. This Privacy Enhanced Mail format uses 64 ASCII characters to convert a binary
X.509 certificate into a printable form.
16.1.3 Verifying a Certificate
Before you import a trusted CA or trusted remote host certificate into the Device, you should verify
that you have the actual certificate. This is especially true of trusted CA certificates since the Device
also trusts any valid certificate signed by any of the imported trusted CA certificates.
You can use a certificate’s fingerprint to verify it. A certificate’s fingerprint is a message digest
calculated using the MD5 or SHA1 algorithms. The following procedure describes how to check a
certificate’s fingerprint to verify that you have the actual certificate.
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1
Browse to where you have the certificate saved on your computer.
Make sure that the certificate has a “.cer” or “.crt” file name extension.
Figure 113 Certificates on Your Computer
Double-click the certificate’s icon to open the Certificate window. Click the Details tab and scroll
down to the Thumbprint Algorithm and Thumbprint fields.
Figure 114 Certificate Details
Use a secure method to verify that the certificate owner has the same information in the
Thumbprint Algorithm and Thumbprint fields. The secure method may very based on your
situation. Possible examples would be over the telephone or through an HTTPS connection.
16.2 Local Certificates
Use this screen to view the Device’s summary list of certificates and certification requests. You can
import the following certificates to your Device:
• Web Server - This certificate secures HTTP connections.
• SIP TLS - This certificate secures VoIP connections.
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• SSH/SCP/SFTP - This certificate secures remote connections.
Click Security > Certificates to open the Local Certificates screen.
Figure 115 Security > Certificates > Local Certificates
The following table describes the labels in this screen.
Table 69 Security > Certificates > Local Certificates
LABEL
DESCRIPTION
WebServer
Click Browse... to find the certificate file you want to upload.
Current File
This field displays the name used to identify this certificate. It is recommended that
you give each certificate a unique name.
Subject
This field displays identifying information about the certificate’s owner, such as CN
(Common Name), OU (Organizational Unit or department), O (Organization or
company) and C (Country). It is recommended that each certificate have unique subject
information.
Issuer
This field displays identifying information about the certificate’s issuing certification
authority, such as a common name, organizational unit or department, organization or
company and country.
Valid From
This field displays the date that the certificate becomes applicable. The text displays in
red and includes a Not Yet Valid! message if the certificate has not yet become
applicable.
Valid To
This field displays the date that the certificate expires. The text displays in red and
includes an Expiring! or Expired! message if the certificate is about to expire or has
already expired.
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Table 69 Security > Certificates > Local Certificates (continued)
LABEL
DESCRIPTION
Cert
Click this button and then Save in the File Download screen. The Save As screen
opens, browse to the location that you want to use and click Save.
SSH/SCP/SFTP
Type in the location of the SSH /SCP/SFTP certificate file you want to upload in this field
or click Browse to find it.
Choose file
Click this link to find the certificate file you want to upload.
Current File
This field displays the name used to identify this certificate. It is recommended that
you give each certificate a unique name.
Key Type
This field applies to the SSH/SCP/SFTP certificate.
This shows the file format of the current certificate.
16.3
Replace
Click this to replace the certificates and save your changes back to the Device.
Reset
Click this to clear your settings.
Trusted CA
Use this screen to view a summary list of certificates of the certification authorities that you have
set the Device to accept as trusted. The Device accepts any valid certificate signed by a certification
authority on this list as being trustworthy; thus you do not need to import any certificate that is
signed by one of these certification authorities.
Click Security > Certificates > Trusted CA to open the Trusted CA screen.
Figure 116 Security > Certificates > Trusted CA
The following table describes the labels in this screen.
Table 70 Security > Certificates > Trusted CA
LABEL
DESCRIPTION
Import Certificate
Click this button to open a screen where you can save the certificate of a certification
authority that you trust to the Device.
Name
This field displays the name used to identify this certificate.
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Table 70 Security > Certificates > Trusted CA (continued)
LABEL
DESCRIPTION
Subject
This field displays information that identifies the owner of the certificate, such as
Common Name (CN), OU (Organizational Unit or department), Organization (O), State
(ST) and Country (C). It is recommended that each certificate have unique subject
information.
Type
This field displays general information about the certificate. ca means that a
Certification Authority signed the certificate.
Action
Click the View icon to open a screen with an in-depth list of information about the
certificate (or certification request).
Click the Delete icon to delete the certificate (or certification request). You cannot
delete a certificate that one or more features is configured to use.
16.4
Trusted CA Import
Click Import Certificate in the Trusted CA screen to open the Import Certificate screen. You can
save a trusted certification authority’s certificate to the Device.
 You must remove any spaces from the certificate’s filename before you can import the
certificate.
Figure 117 Trusted CA > Import
The following table describes the labels in this screen.
Table 71 Security > Certificates > Trusted CA > Import
LABEL
DESCRIPTION
Certificate File
Path
Type in the location of the file you want to upload in this field or click Browse to find it.
Browse
Click Browse to find the certificate file you want to upload.
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Table 71 Security > Certificates > Trusted CA > Import (continued)
16.5
LABEL
DESCRIPTION
Apply
Click this to save the certificate on the Device.
Cancel
Click this to exit this screen without saving.
View Certificate
Use this screen to view in-depth information about the certification authority’s certificate, change
the certificate’s name and set whether or not you want the Device to check a certification authority’s
list of revoked certificates before trusting a certificate issued by the certification authority.
Click Security > Certificates > Trusted CA to open the Trusted CA screen. Click the View icon to
open the View Certificate screen.
Figure 118 Trusted CA: View
The following table describes the labels in this screen.
Table 72 Trusted CA: View
LABEL
DESCRIPTION
Certificate Name
This field displays the identifying name of this certificate. If you want to change the
name, type up to 31 characters to identify this key certificate. You may use any
character (not including spaces).
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Table 72 Trusted CA: View (continued)
LABEL
DESCRIPTION
Certificate Detail
This read-only text box displays the certificate or certification request in Privacy
Enhanced Mail (PEM) format. PEM uses 64 ASCII characters to convert the binary
certificate into a printable form.
You can copy and paste the certificate into an e-mail to send to friends or colleagues or
you can copy and paste the certificate into a text editor and save the file on a
management computer for later distribution (via floppy disk for example).
Back
Chapter 16
Click this to return to the previous screen.
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Chapter 17
17.1
System Monitor
17
Chapter
C H AP T ER 1 7
Overview
Use the Traffic Status screens to view status and log information.
17.1.1 What You Can Do in this Chapter
• Use the Log screen to see the system logs for the categories that you select (Section 17.2 on page
182).
• Use the WAN Traffic Status screen to view the WAN traffic statistics (Section 17.3 on page 183).
• Use the LAN Traffic Status screen to view the LAN traffic statistics (Section 17.4 on page 184).
• Use the NAT Traffic Status screen to view the NAT status of the Device’s clients (Section 17.5 on
page 185).
17.1.2 What You Need To Know
The following terms and concepts may help as you read this chapter.
Alerts and Logs
An alert is a type of log that warrants more serious attention. They include system errors, attacks
(access control) and attempted access to blocked web sites. Some categories such as System Errors
consist of both logs and alerts. You may differentiate them by their color in the View Log screen.
Alerts display in red and logs display in black.
Syslog Overview
The syslog protocol allows devices to send event notification messages across an IP network to
syslog servers that collect the event messages. A syslog-enabled device can generate a syslog
message and send it to a syslog server.
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Syslog is defined in RFC 3164. The RFC defines the packet format, content and system log related
information of syslog messages. Each syslog message has a facility and severity level. The syslog
facility identifies a file in the syslog server. Refer to the documentation of your syslog program for
details. The following table describes the syslog severity levels.
Table 73 Syslog Severity Levels
17.2
CODE
SEVERITY
Emergency: The system is unusable.
Alert: Action must be taken immediately.
Critical: The system condition is critical.
Error: There is an error condition on the system.
Warning: There is a warning condition on the system.
Notice: There is a normal but significant condition on the system.
Informational: The syslog contains an informational message.
Debug: The message is intended for debug-level purposes.
The Log Screen
Click System Monitor > Log to open the Log screen. Use the Log screen to see the system logs for
the categories that you select in the upper left drop-down list box.
Figure 119 System Monitor > Log
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The following table describes the fields in this screen.
Table 74 System Monitor > Log
17.3
LABEL
DESCRIPTION
Level
Select a severity level from the drop-down list box. This filters search results according to
the severity level you have selected. When you select a severity, the Device searches
through all logs of that severity or higher.
Refresh
Click this to renew the log screen.
Clear Logs
Click this to delete all the logs.
Export
Click this to save a copy of the logs to your computer.
Email Log
Now
Click this to have the Device send the log to the email server you configured in the Log
Setting screen.
This field is a sequential value and is not associated with a specific entry.
Time
This field displays the time the log was recorded.
Level
This field displays the severity level of the logs that the device is to send to this syslog
server.
Messages
This field states the reason for the log.
The WAN Traffic Status Screen
Click System Monitor > Traffic Status to open the WAN Traffic Status screen. You can view the
WAN traffic statistics in this screen.
Figure 120 System Monitor > Traffic Status > WAN
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The following table describes the fields in this screen.
Table 75 System Monitor > Traffic Status > WAN
LABEL
DESCRIPTION
Status
This shows the number of bytes sent and received through the WAN interface of the
Device.
Refresh Interval
Specify how often you want the Device to update this screen and click Set Interval to
apply the change. Click Stop to halt updating of the screen.
Connected
Interface
This shows the name of the WAN interface that is currently connected.
Packets Sent
Data
This indicates the number of transmitted packets on this interface.
Error
This indicates the number of frames with errors transmitted on this interface.
Drop
This indicates the number of outgoing packets dropped on this interface.
Packets Received
17.4
Data
This indicates the number of received packets on this interface.
Error
This indicates the number of frames with errors received on this interface.
Drop
This indicates the number of received packets dropped on this interface.
The LAN Traffic Status Screen
Click System Monitor > Traffic Status > LAN to open the following screen. You can view the LAN
traffic statistics in this screen.
Figure 121 System Monitor > Traffic Status > LAN
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The following table describes the fields in this screen.
Table 76 System Monitor > Traffic Status > LAN
LABEL
DESCRIPTION
Refresh Interval
Specify how often you want the Device to update this screen and click Set Interval to
apply the change. Click Stop to halt updating of the screen.
Interface
This shows the LAN or WLAN interface.
Bytes Sent
This indicates the number of bytes transmitted on this interface.
Bytes Received
This indicates the number of bytes received on this interface.
Interface
This shows the LAN or WLAN interface.
Sent (Packet)
Data
This indicates the number of transmitted packets on this interface.
Error
This indicates the number of frames with errors transmitted on this interface.
Drop
This indicates the number of outgoing packets dropped on this interface.
Received (Packet)
17.5
Data
This indicates the number of received packets on this interface.
Error
This indicates the number of frames with errors received on this interface.
Drop
This indicates the number of received packets dropped on this interface.
The NAT Traffic Status Screen
Click System Monitor > Traffic Status > NAT to open the following screen. You can view the NAT
status of the Device’s clients in this screen.
Figure 122 System Monitor > Traffic Status > NAT
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The following table describes the fields in this screen.
Table 77 System Monitor > Traffic Status > NAT
LABEL
DESCRIPTION
Refresh Interval
Specify how often you want the Device to update this screen and click Set Interval to
apply the change. Click Stop to halt updating of the screen.
Device Name
This shows the name of the client.
IP Address
This shows the IP address of the client.
MAC Address
This shows the MAC address of the client.
No. of Open
Session
This shows the number of NAT sessions used by the client.
Total
This shows the total number of NAT sessions currently open on the Device.
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Chapter 18
User Account
18
Chapter
C H AP T ER 1 8
18.1 Overview
You can configure the system password in the User Account screen.
18.2
The User Account Screen
Use the User Account screen to configure system password.
Click Maintenance > User Account to open the following screen.
Figure 123 Maintenance > User Account
The following table describes the labels in this screen.
Table 78 Maintenance > User Account
LABEL
DESCRIPTION
User Name
You can configure the password for the admin account.
Old Password
Type the default password or the existing password you use to access the system in
this field.
New Password
Type your new system password (up to 30 characters). Note that as you type a
password, the screen displays a (*) for each character you type. After you change the
password, use the new password to access the Device.
Retype to Confirm
Type the new password again for confirmation.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
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Chapter 18
User Account
188
Chapter 19
TR-069 Client
19
Chapter
C H AP T ER 1 9
19.1 Overview
This chapter explains how to configure the Device’s TR-069 auto-configuration settings.
19.2
The TR-069 Client Screen
TR-069 defines how Customer Premise Equipment (CPE), for example your Device, can be managed
over the WAN by an Auto Configuration Server (ACS). TR-069 is based on sending Remote Procedure
Calls (RPCs) between an ACS and a client device. RPCs are sent in Extensible Markup Language (XML)
format over HTTP or HTTPS.
An administrator can use an ACS to remotely set up the Device, modify settings, perform firmware
upgrades as well as monitor and diagnose the Device. You have to enable the device to be managed
by the ACS and specify the ACS IP address or domain name and username and password.
Click Maintenance > TR-069 Client to open the following screen. Use this screen to configure your
Device to be managed by an ACS.
Figure 124 Maintenance > TR-069 Client
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The following table describes the fields in this screen.
Table 79 Maintenance > TR-069 Client
LABEL
DESCRIPTION
CWMP
Select Enable to allow the Device to be managed by a management server. Otherwise,
select Disable to not allow the Device to be managed by a management server.
ACS URL
Enter the URL or IP address of the auto-configuration server.
ACS User
Name
Enter the TR-069 user name for authentication with the auto-configuration server.
ACS Password
Enter the TR-069 password for authentication with the auto-configuration server.
Connection
Request Path
Type the IP address or domain name of the Device. The management server uses this path
to verify the Device.
Connection
Request Port
The default port for access to the Device from the management server is the HTTP port,
port 80. If you change it, make sure it does not conflict with another port on your network
and it is recommended to use a port number above 1024 (not a commonly used port). The
management server should use this port to connect to the Device. You may need to alter
your NAT port forwarding rules if they were already configured.
Connection
Request User
Name
Enter the connection request user name.
Connection
Request
Password
Enter the connection request password.
Inform
Select Enable for the Device to send periodic inform via TR-069 on the WAN. Otherwise,
select Disable.
Inform
Interval
Enter the time interval (in seconds) at which the Device sends information to the autoconfiguration server.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore the screen’s last saved settings.
Chapter 19
When the ACS makes a connection request to the Device, this user name is used to
authenticate the ACS.
When the ACS makes a connection request to the Device, this password is used to
authenticate the ACS.
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Chapter 20
20
System
Chapter
C H AP T ER 2 0
20.1 Overview
You can configure system settings, including the host name, domain name and the inactivity timeout interval in the System screen.
20.2
The System Screen
Use the System screen to configure the system’s inactivity time-out interval.
Click Maintenance > System to open the following screen.
Figure 125 Maintenance > System
The following table describes the labels in this screen.
Table 80 Maintenance > System
LABEL
DESCRIPTION
Administrator
Inactivity Timer
Type how many minutes a management session (either via the web configurator) can
be left idle before the session times out. The default is 5 minutes. After it times out you
have to log in with your password again. Very long idle timeouts may have security
risks. A value of "0" means a management session never times out, no matter how long
it has been left idle (not recommended).
Apply
Click this to save your changes back to the Device.
Cancel
Click this to begin configuring this screen afresh.
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Chapter 21
Time Setting
21
Chapter
C H AP T ER 2 1
21.1 Overview
You can configure the system’s time and date in the Time Setting screen.
21.2
The Time Setting Screen
To change your Device’s time and date, click Maintenance > Time. The screen appears as shown.
Use this screen to configure the Device’s time based on your local time zone.
Figure 126 Maintenance > Time Setting
The following table describes the fields in this screen.
Table 81 Maintenance > System > Time Setting
LABEL
DESCRIPTION
Current Date/Time
Current Time
Chapter 21
This field displays the time of your Device.
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192
Table 81 Maintenance > System > Time Setting (continued)
LABEL
DESCRIPTION
Current Date
This field displays the date of your Device.
Time and Date Setup
Manual
Select this to enter the time and date manually in hh:mm:ss and yyyy/mm/dd format.
Get from Time
Server
Select this to have the Device get the time automatically from a time server.
Time Server
Address 1, 2
Enter the IP address or URL (up to 31 extended ASCII characters in length) of your time
server. Check with your ISP/network administrator if you are unsure of this information.
Time Zone
Choose the time zone of your location. This will set the time difference between your time
zone and Greenwich Mean Time (GMT).
Daylight
Savings
Daylight saving is a period from late spring to early fall when many countries set their
clocks ahead of normal local time by one hour to give more daytime light in the evening.
Select this option if you use Daylight Saving Time.
Start Date
Configure the day and time when Daylight Saving Time starts if you selected Daylight
Savings. The o'clock field uses the 24 hour format. Here are a couple of examples:
Daylight Saving Time starts in most parts of the United States on the second Sunday of
March. Each time zone in the United States starts using Daylight Saving Time at 2 A.M. local
time. So in the United States you would select Second, Sunday, March and type 2 in the
o'clock field.
Daylight Saving Time starts in the European Union on the last Sunday of March. All of the
time zones in the European Union start using Daylight Saving Time at the same moment (1
A.M. GMT or UTC). So in the European Union you would select Last, Sunday, March. The
time you type in the o'clock field depends on your time zone. In Germany for instance, you
would type 2 because Germany's time zone is one hour ahead of GMT or UTC (GMT+1).
End Date
Configure the day and time when Daylight Saving Time ends if you selected Daylight
Savings. The o'clock field uses the 24 hour format. Here are a couple of examples:
Daylight Saving Time ends in the United States on the first Sunday of November. Each time
zone in the United States stops using Daylight Saving Time at 2 A.M. local time. So in the
United States you would select First, Sunday, November and type 2 in the o'clock field.
Daylight Saving Time ends in the European Union on the last Sunday of October. All of the
time zones in the European Union stop using Daylight Saving Time at the same moment (1
A.M. GMT or UTC). So in the European Union you would select Last, Sunday, October. The
time you type in the o'clock field depends on your time zone. In Germany for instance, you
would type 2 because Germany's time zone is one hour ahead of GMT or UTC (GMT+1).
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore the screen’s last saved settings.
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Chapter 22
22.1
Log Setting
22
Chapter
C H AP T ER 2 2
Overview
You can configure where the Device sends logs and which logs and/or immediate alerts the Device
records in the Log Setting screen.
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194
22.2
The Log Setting Screen
To change your Device’s log settings, click Maintenance > Log Setting. The screen appears as
shown.
Figure 127 Maintenance > Log Setting
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The following table describes the fields in this screen.
Table 82 Maintenance > Log Setting
LABEL
DESCRIPTION
Syslog Setting
Syslog Logging
Select the Active check box to enable syslog logging.
Mode
Select Local File to have the Device save the log file locally.
Select Local File and Remote to have the Device save the log file locally and send it to
an external syslog server.
Syslog Server IP
Address
Enter the server name or IP address of the syslog server that will log the selected
categories of logs.
Syslog Server UDP
Port
Enter the port number used by the syslog server.
E-mail Log Settings
SMTP
Authentication
SMTP (Simple Mail Transfer Protocol) is the message-exchange standard for the
Internet. SMTP enables you to move messages from one E-mail server to another.
Select the check box to activate SMTP authentication. If mail server authentication is
needed but this feature is disabled, you will not receive the E-mail logs.
Mail Server
Enter the server name or the IP address of the mail server for the e-mail addresses
specified below. If this field is left blank, logs and alert messages will not be sent via Email.
Mail Subject
Type a title that you want to be in the subject line of the system log e-mail message
that the Device sends.
From
Specify where the logs are sent from.
To
The Device sends logs to the e-mail address specified in this field. If this field is left
blank, the Device does not send logs via E-mail.
User Name
Enter the user name (up to 32 characters) (usually the user name of a mail account).
Password
Enter the password associated with the user name above.
Log Schedule
Specify the schedule for sending log. Specify days and times for sending logs in the
following fields.
Day For Sending
Log
Specify the day for sending log.
Time for Sending
Log
Specify the time for sending log.
Clear log after
sending mail
Select this to delete all the logs after the Device sends an E-mail of the logs.
E-mail Alarm Log Settings
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Table 82 Maintenance > Log Setting (continued)
LABEL
DESCRIPTION
Send Alarm to
Alerts are real-time notifications that are sent as soon as an event, such as a DoS
attack, system error, or forbidden web access attempt occurs. Enter the E-mail
address where the alert messages will be sent. Alerts include system errors, attacks
and attempted access to blocked web sites. If this field is left blank, alert messages will
not be sent via E-mail.
Alarm Interval
Specify the number of seconds between the sending of alarm log e-mails.
Active Log and Select Level
Log Category
Select the categories of logs that you want to record.
Log Level
Select the severity level of logs that you want to record. If you want to record all logs,
select ALL.
Apply
Click Apply to save your changes.
Cancel
Click Cancel to restore your previously saved settings.
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Chapter 23
Firmware Upgrade
23
Chapter
C H AP T ER 2 3
23.1 Overview
This chapter explains how to upload new firmware to your Device. You can download new firmware
releases from your nearest ZyXEL FTP site (or www.zyxel.com) to use to upgrade your device’s
performance.

23.2
Only use firmware for your device’s specific model. Refer to the label on the bottom of
your Device.
The Firmware Upgrade Screen
Click Maintenance > Firmware Upgrade to open the following screen. The upload process uses
HTTP (Hypertext Transfer Protocol) and may take up to three minutes. After a successful upload, the
system will reboot.

Do NOT turn off the Device while firmware upload is in progress!
Figure 128 Maintenance > Firmware Upgrade
The following table describes the labels in this screen.
Table 83 Maintenance > Firmware Upgrade
LABEL
DESCRIPTION
Upgrade Firmware
Use these fields to upload firmware to the Device.
Current Firmware
Version
This is the present firmware version.
File Path
Type in the location of the file you want to upload in this field or click Browse ... to find
it.
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Table 83 Maintenance > Firmware Upgrade (continued)
LABEL
DESCRIPTION
Browse...
Click this to find the .bin file you want to upload. Remember that you must decompress
compressed (.zip) files before you can upload them.
Upload
Click this to begin the upload process. This process may take up to three minutes.
After you see the firmware updating screen, wait a few minutes before logging into the Device
again.
Figure 129 Firmware Uploading
The Device automatically restarts in this time causing a temporary network disconnect. In some
operating systems, you may see the following icon on your desktop.
Figure 130 Network Temporarily Disconnected
After two minutes, log in again and check your new firmware version in the Status screen.
If the upload was not successful, an error screen will appear. Click OK to go back to the Firmware
Upgrade screen.
Figure 131 Error Message
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Chapter 24
Backup/Restore
24
Chapter
C H AP T ER 2 4
24.1 Overview
The Backup/Restore screen allows you to backup and restore device configurations. You can also
reset your device settings back to the factory default.
24.2
The Backup/Restore Screen
Click Maintenance > Backup/Restore. Information related to factory defaults, backup
configuration, and restoring configuration appears in this screen, as shown next.
Figure 132 Maintenance > Backup/Restore
Backup Configuration
Backup Configuration allows you to back up (save) the Device’s current configuration to a file on
your computer. Once your Device is configured and functioning properly, it is highly recommended
that you back up your configuration file before making configuration changes. The backup
configuration file will be useful in case you need to return to your previous settings.
Click Backup to save the Device’s current configuration to your computer.
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Restore Configuration
Restore Configuration allows you to upload a new or previously saved configuration file from your
computer to your Device.
Table 84 Restore Configuration

LABEL
DESCRIPTION
File Path
Type in the location of the file you want to upload in this field or click Browse ... to find
it.
Browse...
Click this to find the file you want to upload. Remember that you must decompress
compressed (.ZIP) files before you can upload them.
Upload
Click this to begin the upload process.
Reset
Click this to reset your device settings back to the factory default.
Do not turn off the Device while configuration file upload is in progress.
After the Device configuration has been restored successfully, the login screen appears. Login again
to restart the Device.
The Device automatically restarts in this time causing a temporary network disconnect. In some
operating systems, you may see the following icon on your desktop.
Figure 133 Network Temporarily Disconnected
If you restore the default configuration, you may need to change the IP address of your computer to
be in the same subnet as that of the default device IP address (192.168.1.1).
If the upload was not successful, an error screen will appear. Click OK to go back to the
Configuration screen.
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Reset to Factory Defaults
Click the Reset button to clear all user-entered configuration information and return the Device to
its factory defaults. The following warning screen appears.
Figure 134 Reset Warning Message
Figure 135 Reset In Process Message
You can also press the RESET button on the back panel to reset the factory defaults of your Device.
Refer to Section 1.6 on page 12 for more information on the RESET button.
24.3
The Reboot Screen
System restart allows you to reboot the Device remotely without turning the power off. You may
need to do this if the Device hangs, for example.
Click Maintenance > Reboot. Click the Reboot button to have the Device reboot. This does not
affect the Device's configuration.
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C H AP T ER 2 5
Remote Management
25
Chapter
Chapter 25
25.1 Overview
Remote management allows you to determine which services/protocols can access which Device
interface (if any) from which computers.
The following figure shows remote management of the Device coming in from the WAN.
Figure 136 Remote Management From the WAN
LAN
WAN
HTTP
Telnet
 When you configure remote management to allow management from the WAN, you still
need to configure a IP filter rule to allow access.
You may manage your Device from a remote location via:
• Internet (WAN only)
• LAN only
• LAN and WAN
• None (Disable)
To disable remote management of a service, select Disable in the corresponding Service Access
field.
25.1.1 What You Can Do in the Remote Management Screens
• Use the WWW screen (Section 25.2 on page 204) to configure through which interfaces and from
which IP addresses users can use HTTP to manage the Device.
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• Use the Telnet screen (Section 25.3 on page 206) to configure through which interfaces and from
which IP addresses users can use Telnet to manage the Device.
• Use the FTP screen (Section 25.4 on page 207) to configure through which interfaces and from
which IP addresses users can use FTP to access the Device.
• Your Device can act as an SNMP agent, which allows a manager station to manage and monitor
the Device through the network. Use the SNMP screen (see Section 25.5 on page 208) to
configure through which interfaces and from which IP addresses users can use SNMP to access
the Device.
• Use the DNS screen (Section 25.6 on page 210) to configure through which interfaces and from
which IP addresses users can send DNS queries to the Device.
• Use the ICMP screen (Section 25.7 on page 211) to set whether or not your Device will respond to
pings and probes for services that you have not made available.
• Use the SSH screen (Section 25.8 on page 212) to configure through which interfaces and from
which IP addresses users can use SSH to manage the Device.
25.1.2 What You Need to Know About Remote Management
Remote Management Limitations
• Remote management does not work when:
• You have not enabled that service on the interface in the corresponding remote management
screen.
• You have disabled that service in one of the remote management screens.
• The IP address in the Secured Client IP Address field does not match the client IP address. If it
does not match, the Device will disconnect the session immediately.
• There is a firewall rule that blocks it.
Remote Management and NAT
When NAT is enabled:
• Use the Device’s WAN IP address when configuring from the WAN.
• Use the Device’s LAN IP address when configuring from the LAN.
25.2
The WWW Screen
Use this screen to specify how to connect to the Device from a web browser, such as Internet
Explorer.
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25.2.1 Configuring the WWW Screen
Click Maintenance > Remote MGMT to display the WWW screen.
Figure 137 Maintenance > Remote MGMT > WWW
The following table describes the labels in this screen.
Table 85 Maintenance > Remote MGMT > WWW
LABEL
DESCRIPTION
Server Port
This displays the service port number for accessing the Device using HTTP or HTTPS. If
the number is grayed out, it is not editable.
Server Access
Select the interfaces through which a computer may access the Device using this
service.
Note: It is recommended if you are allowing WAN access even temporarily to change the
default password (in Maintenance > User Account). To allow access from the
WAN, you will need to configure a WAN to Router firewall rule.
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Table 85 Maintenance > Remote MGMT > WWW (continued)
LABEL
DESCRIPTION
Secured Client IP
Address
A secured client is a “trusted” computer that is allowed to communicate with the Device
using this service.
Select All to allow any computer to access the Device using this service.
Choose Range to just allow the computers with an IP address in the range that you
specify to access the Device using this service.
25.3
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
Telnet Screen
You can use Telnet to access the Device’s command line interface. Specify which interfaces allow
Telnet access and from which IP address the access can come.
Click Maintenance > Remote MGMT > Telnet tab to display the screen as shown.
Figure 138 Maintenance > Remote MGMT > Telnet
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The following table describes the labels in this screen.
Table 86 Maintenance > Remote MGMT > Telnet
LABEL
DESCRIPTION
Server Port
This displays the service port number for accessing the Device. If the number is grayed
out, it is not editable.
Server Access
Select the interfaces through which a computer may access the Device using this service.
Note: It is recommended if you are allowing WAN access even temporarily to change the
default password (in Maintenance > User Account). To allow access from the
WAN, you will need to configure a WAN to Router firewall rule.
Secured Client IP
Address
A secured client is a “trusted” computer that is allowed to communicate with the Device
using this service.
Select All to allow any computer to access the Device using this service.
Choose Range to just allow the computers with an IP address in the range that you
specify to access the Device using this service.
25.4
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
FTP Screen
You can use FTP (File Transfer Protocol) to upload and download the Device’s firmware and
configuration files. To use this feature, your computer must have an FTP client.
Use this screen to specify which interfaces allow FTP access and from which IP address the access
can come. To change your Device’s FTP settings, click Maintenance > Remote MGMT > FTP. The
screen appears as shown.
Figure 139 Maintenance > Remote MGMT > FTP
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The following table describes the labels in this screen.
Table 87 Maintenance > Remote MGMT > FTP
LABEL
DESCRIPTION
Server Port
This displays the service port number for accessing the Device. If the number is grayed
out, it is not editable.
Server Access
Select the interfaces through which a computer may access the Device using this
service.
Secured Client IP
Address
A secured client is a “trusted” computer that is allowed to communicate with the Device
using this service.
Select All to allow any computer to access the Device using this service.
Choose Range to just allow the computers with an IP address in the range that you
specify to access the Device using this service.
25.5
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
SNMP Screen
Simple Network Management Protocol is a protocol used for exchanging management information
between network devices. Your Device supports SNMP agent functionality, which allows a manager
station to manage and monitor the Device through the network. The Device supports SNMP version
one (SNMPv1) and version two (SNMPv2c). The next figure illustrates an SNMP management
operation.
Figure 140 SNMP Management Model
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An SNMP managed network consists of two main types of component: agents and a manager.
An agent is a management software module that resides in a managed device (the Device). An agent
translates the local management information from the managed device into a form compatible with
SNMP. The manager is the console through which network administrators perform network
management functions. It executes applications that control and monitor managed devices.
The managed devices contain object variables/managed objects that define each piece of
information to be collected about a device. Examples of variables include such as number of
packets received, node port status etc. A Management Information Base (MIB) is a collection of
managed objects. SNMP allows a manager and agents to communicate for the purpose of
accessing these objects.
25.5.1 Configuring SNMP
To change your Device’s SNMP settings, click Maintenance > Remote MGMT > SNMP tab. The
screen appears as shown.
Figure 141 Maintenance > Remote MGMT > SNMP
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The following table describes the labels in this screen.
Table 88 Maintenance > Remote MGMT > SNMP
LABEL
DESCRIPTION
Server Port
This displays the port the SNMP agent listens on. If the number is grayed out, it is not
editable.
Server Access
Select the interfaces through which a computer may access the Device using this service.
Secured Client
IP Address
A secured client is a “trusted” computer that is allowed to access the SNMP agent on the
Device.
Select All to allow any computer to access the SNMP agent.
Choose Range to just allow the computers with an IP address in the range that you
specify to access the Device using this service.
25.6
Get Community
Enter the Get Community, which is the password for the incoming Get and GetNext
requests from the management station. The default is public and allows all requests.
Set Community
Enter the Set community, which is the password for incoming Set requests from the
management station. The default is public and allows all requests.
Trap
Community
Type the trap community, which is the password sent with each trap to the SNMP
manager. The default is public and allows all requests.
IPv4 Trap
Destination
Type the IPv4 IP address of the station to send your SNMP traps to.
IPv6 Trap
Destination
Type the IPv6 IP address of the station to send your SNMP traps to.
Apply
Click Apply to save your changes back to the Device.
Cancel
Click Cancel to begin configuring this screen afresh.
DNS Screen
Use DNS (Domain Name System) to map a domain name to its corresponding IP address and vice
versa.
Chapter 25
Remote Management
210
Use this screen to set from which IP address the Device will accept DNS queries and on which
interface it can send them your Device’s DNS settings. This feature is not available when the Device
is set to bridge mode. Click Maintenance > Remote MGMT > DNS to change your Device’s DNS
settings.
Figure 142 Maintenance > Remote MGMT > DNS
The following table describes the labels in this screen.
Table 89 Maintenance > Remote MGMT > DNS
LABEL
DESCRIPTION
Server Port
This displays the service port number for accessing the Device. If the number is grayed
out, it is not editable.
Access Status
Select the interfaces through which a computer may send DNS queries to the Device.
Secured Client
IP Address
A secured client is a “trusted” computer that is allowed to send DNS queries to the Device.
Select All to allow any computer to send DNS queries to the Device.
Choose Range to just allow the computers with an IP address in the range that you
specify to send DNS queries to the Device.
25.7
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
ICMP Screen
To change your Device’s security settings, click Maintenance > Remote MGMT > ICMP. The screen
appears as shown.
If an outside user attempts to probe an unsupported port on your Device, an ICMP response packet
is automatically returned. This allows the outside user to know the Device exists. Your Device
supports anti-probing, which prevents the ICMP response packet from being sent. This keeps
outsiders from discovering your Device when unsupported ports are probed.
Chapter 25
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211
 If you want your device to respond to pings and requests for unauthorized services, you
will also need to configure the firewall accordingly by disabling SPI.
Figure 143 Maintenance > Remote MGMT > ICMP
The following table describes the labels in this screen.
Table 90 Maintenance > Remote MGMT > ICMP
LABEL
DESCRIPTION
Respond to Ping
on
The Device will not respond to any incoming Ping requests when Disable is selected.
Select LAN to reply to incoming LAN Ping requests. Select WAN to reply to incoming
WAN Ping requests. Otherwise select LAN & WAN to reply to both incoming LAN and
WAN Ping requests.
Secured Client IP
Address
A secured client is a “trusted” computer that is allowed to send Ping requests to the
Device.
Select All to allow any computer to send Ping requests to the Device.
Choose Range to just allow the computers with an IP address in the range that you
specify to send Ping requests to the Device.
25.8
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
SSH Screen
You can use Secure SHell (SSH) to securely access the Device’s command line interface. Specify
which interfaces allow SSH access and from which IP address the access can come. SSH is a secure
communication protocol that combines authentication and data encryption to provide secure
encrypted communication between two hosts over an unsecured network.
Chapter 25
Remote Management
212
Click Maintenance > Remote MGMT > SSH tab to display the screen as shown.
Figure 144 Maintenance > Remote MGMT > SSH
The following table describes the labels in this screen.
Table 91 Maintenance > Remote MGMT > SSH
LABEL
DESCRIPTION
Server Port
This displays the service port number for accessing the Device. If the number is grayed
out, it is not editable.
Server Access
Select the interfaces through which a computer may access the Device using this service.
Note: It is recommended if you are allowing WAN access even temporarily to change the
default password (in Maintenance > User Account). To allow access from the
WAN, you will need to configure a WAN to Router firewall rule.
Secured Client IP
Address
A secured client is a “trusted” computer that is allowed to communicate with the Device
using this service.
Select All to allow any computer to access the Device using this service.
Choose Range to just allow the computers with an IP address in the range that you
specify to access the Device using this service.
Apply
Click this to save your changes.
Cancel
Click this to restore your previously saved settings.
25.8.1 SSH Example
This section shows an example using a graphical interface SSH client program to remotely access
the device. The configuration and connection steps are similar for most SSH client programs. Refer
to your SSH client program user’s guide.
Chapter 25
Remote Management
213
1
Enter the IP address and port number. Select SSH.
A window displays prompting you to store the host key in your computer. Click Yes to continue.
Enter your user name and password.
Chapter 25
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214
4
The command line interface displays.
Chapter 25
Remote Management
215
Chapter 26
Diagnostic
26
Chapter
C H AP T ER 2 6
26.1 Overview
You can use different diagnostic methods to test a connection and see the detailed information.
These read-only screens display information to help you identify problems with the Device.
26.1.1 What You Can Do in the Diagnostic Screens
• Use the Ping screen (Section 26.2 on page 216) to ping an IP address.
• Use the DSL Line screen (Section 26.3 on page 217) to view the DSL line statistics and reset the
ADSL line.
26.2
The Ping Screen
Ping and traceroute help check availability of remote hosts and also help troubleshoot network or
Internet connections. Click Maintenance > Diagnostic to open the Ping screen shown next.
Figure 145 Maintenance > Diagnostic > Ping
Chapter 26
Diagnostic
216
The following table describes the fields in this screen.
Table 92 Maintenance > Diagnostic > Ping
26.3
LABEL
DESCRIPTION
Ping
Type the IP address of a computer that you want to ping in order to test a connection. Click
Ping and the ping statistics will show in the diagnostic .
PingV6
Click this to ping the IPv6 address that you entered.
TracerouteV
Click this to show the path that packets take from the system to the IPv6 address that you
entered.
TraceRouteV
Click this button to perform the traceroute function. This determines the path a packet takes
to the specified host.
The DSL Line Screen
Use this screen to view the DSL line statistics and reset the DSL line. Click Maintenance >
Diagnostic > DSL Line. This screen is different for ADSL and VDSL connections. If your WAN
connection is ADSL, the screen is as shown next.
Figure 146 Maintenance > Diagnostic > DSL Line: ADSL
Chapter 26
Diagnostic
217
The following table describes the fields in this screen.
Table 93 Maintenance > Diagnostic > DSL Line
LABEL
DESCRIPTION
ATM Status
Click this to view your DSL connection’s Asynchronous Transfer Mode (ATM) statistics.
ATM is a networking technology that provides high-speed data transfer. ATM uses fixedsize packets of information called cells. With ATM, a high QoS (Quality of Service) can be
guaranteed.
The (Segmentation and Reassembly) SAR driver translates packets into ATM cells. It also
receives ATM cells and reassembles them into packets.
These counters are set back to zero whenever the device starts up.
inPkts is the number of good ATM cells that have been received.
inF4Pkts is the number of ATM Operations, Administration, and Management (OAM) F4
cells that have been received. See ITU recommendation I.610 for more on OAM for ATM.
inF5Pkts is the number of ATM OAM F5 cells that have been received.
inDiscards is the number of received ATM cells that were rejected.
outPkts is the number of ATM cells that have been sent.
outF4Pkts is the number of ATM OAM F4 cells that have been sent.
outF5Pkts is the number of ATM OAM F5 cells that have been sent.
outDiscards is the number of ATM cells sent that were rejected.
ATM Loopback
Test
Chapter 26
Click this to start the ATM loopback test. Make sure you have configured at least one PVC
with proper VPIs/VCIs before you begin this test. The Device sends an OAM F5 packet to
the DSLAM/ATM switch and then returns it (loops it back) to the Device. The ATM
loopback test is useful for troubleshooting problems with the DSLAM and ATM network.
Diagnostic
218
Table 93 Maintenance > Diagnostic > DSL Line (continued)
LABEL
DESCRIPTION
DSL Line Status
Click this to view statistics about the DSL connections.
noise margin downstream is the signal to noise ratio for the downstream part of the
connection (coming into the Device from the ISP). It is measured in decibels. The higher
the number the more signal and less noise there is.
output power upstream is the amount of power (in decibels) that the Device is using to
transmit to the ISP.
attenuation downstream is the reduction in amplitude (in decibels) of the DSL signal
coming into the Device from the ISP.
Discrete Multi-Tone (DMT) modulation divides up a line’s bandwidth into sub-carriers
(sub-channels) of 4.3125 KHz each called tones. The rest of the display is the line’s bit
allocation. This is displayed as the number (in hexadecimal format) of bits transmitted for
each tone. This can be used to determine the quality of the connection, whether a given
sub-carrier loop has sufficient margins to support certain ADSL transmission rates, and
possibly to determine whether particular specific types of interference or line
attenuation exist. Refer to the ITU-T G.992.1 recommendation for more information on
DMT.
The better (or shorter) the line, the higher the number of bits transmitted for a DMT tone.
The maximum number of bits that can be transmitted per DMT tone is 15. There will be
some tones without any bits as there has to be space between the upstream and
downstream channels.
Reset ADSL Line
Chapter 26
Click this to reinitialize the ADSL line. The large text box above then displays the progress
and results of this operation.
Diagnostic
219
Chapter 27
Troubleshooting
27
Chapter
C H AP T ER 2 7
27.1 Overview
This chapter offers some suggestions to solve problems you might encounter. The potential
problems are divided into the following categories.
• Power, Hardware Connections, and LEDs
• Device Access and Login
• Internet Access
• Wireless Internet Access
• USB Device Connection
• UPnP
27.2 Power, Hardware Connections, and LEDs
 The Device does not turn on. None of the LEDs turn on.
Make sure the Device is turned on.
Make sure you are using the power adaptor or cord included with the Device.
Make sure the power adaptor or cord is connected to the Device and plugged in to an appropriate
power source. Make sure the power source is turned on.
Turn the Device off and on.
If the problem continues, contact the vendor.
 One of the LEDs does not behave as expected.
Make sure you understand the normal behavior of the LED. See Section 1.7 on page 12.
Check the hardware connections. See the Quick Start Guide.
Inspect your cables for damage. Contact the vendor to replace any damaged cables.
Chapter 27
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4
Turn the Device off and on.
If the problem continues, contact the vendor.
27.3 Device Access and Login
 I forgot the IP address for the Device.
The default IP address is 192.168.1.1.
If you changed the IP address and have forgotten it, you might get the IP address of the Device by
looking up the IP address of the default gateway for your computer. To do this in most Windows
computers, click Start > Run, enter cmd, and then enter ipconfig. The IP address of the Default
Gateway might be the IP address of the Device (it depends on the network), so enter this IP address
in your Internet browser.
If this does not work, you have to reset the device to its factory defaults. See Section 1.6 on page 12.
 I forgot the password.
The default admin password is 1234 and the default user password is 1234.
If you can’t remember the password, you have to reset the device to its factory defaults. See Section
1.6 on page 12.
 I cannot see or access the Login screen in the web configurator.
Make sure you are using the correct IP address.
• The default IP address is 192.168.1.1.
• If you changed the IP address (Section on page 97), use the new IP address.
• If you changed the IP address and have forgotten it, see the troubleshooting suggestions for I
forgot the IP address for the Device.
Check the hardware connections, and make sure the LEDs are behaving as expected. See the Quick
Start Guide.
Make sure your Internet browser does not block pop-up windows and has JavaScript and Java
enabled.
Reset the device to its factory defaults, and try to access the Device with the default IP address. See
Section 1.6 on page 12.
If the problem continues, contact the network administrator or vendor, or try one of the advanced
suggestions.
Chapter 27
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221
Advanced Suggestions
• Try to access the Device using another service, such as Telnet. If you can access the Device, check
the remote management settings and firewall rules to find out why the Device does not respond
to HTTP.
 I can see the Login screen, but I cannot log in to the Device.
Make sure you have entered the user name and password correctly. The default user name is
admin. These fields are case-sensitive, so make sure [Caps Lock] is not on.
You cannot log in to the web configurator while someone is using Telnet to access the Device. Log
out of the Device in the other session, or ask the person who is logged in to log out.
Turn the Device off and on.
If this does not work, you have to reset the device to its factory defaults. See Section 27.2 on page
220.
 I cannot Telnet to the Device.
See the troubleshooting suggestions for I cannot see or access the Login screen in the web
configurator. Ignore the suggestions about your browser.
 I cannot use FTP to upload / download the configuration file. / I cannot use FTP to upload
new firmware.
See the troubleshooting suggestions for I cannot see or access the Login screen in the web
configurator. Ignore the suggestions about your browser.
27.4 Internet Access
 I cannot access the Internet.
Check the hardware connections, and make sure the LEDs are behaving as expected. See the Quick
Start Guide and Section 1.7 on page 12.
Make sure you entered your ISP account information correctly. These fields are case-sensitive, so
make sure [Caps Lock] is not on.
If you are trying to access the Internet wirelessly, make sure the wireless settings in the wireless
client are the same as the settings in the AP.
Chapter 27
Troubleshooting
222
4
If you are trying to access the Internet wirelessly, make sure you have enabled the wireless LAN by
the WPS/WLAN button or the Network Setting > Wireless > General screen.
Disconnect all the cables from your device, and follow the directions in the Quick Start Guide again.
If the problem continues, contact your ISP.
 I cannot access the Internet anymore. I had access to the Internet (with the Device), but my
Internet connection is not available anymore.
Check the hardware connections, and make sure the LEDs are behaving as expected. See the Quick
Start Guide and Section 1.7 on page 12.
Turn the Device off and on.
If the problem continues, contact your ISP.
 The Internet connection is slow or intermittent.
There might be a lot of traffic on the network. Look at the LEDs, and check Section 1.7 on page 12. If
the Device is sending or receiving a lot of information, try closing some programs that use the
Internet, especially peer-to-peer applications.
Turn the Device off and on.
If the problem continues, contact the network administrator or vendor, or try one of the advanced
suggestions.
Advanced Suggestions
• Check the settings for QoS. If it is disabled, you might consider activating it. If it is enabled, you
might consider raising or lowering the priority for some applications.
27.5 Wireless Internet Access
 What factors may cause intermittent or unstabled wireless connection? How can I solve
this problem?
The following factors may cause interference:
• Obstacles: walls, ceilings, furniture, and so on.
• Building Materials: metal doors, aluminum studs.
• Electrical devices: microwaves, monitors, electric motors, cordless phones, and other wireless
devices.
Chapter 27
Troubleshooting
223
To optimize the speed and quality of your wireless connection, you can:
• Move your wireless device closer to the AP if the signal strength is low.
• Reduce wireless interference that may be caused by other wireless networks or surrounding
wireless electronics such as cordless phones.
• Place the AP where there are minimum obstacles (such as walls and ceilings) between the AP and
the wireless client.
• Reduce the number of wireless clients connecting to the same AP simultaneously, or add
additional APs if necessary.
• Try closing some programs that use the Internet, especially peer-to-peer applications. If the
wireless client is sending or receiving a lot of information, it may have too many programs open
that use the Internet.
 What wireless security modes does my Device support?
Wireless security is vital to your network. It protects communications between wireless stations,
access points and the wired network.
The available security modes in your ZyXEL device are as follows:
• WPA2-PSK: (recommended) This uses a pre-shared key with the WPA2 standard.
• WPA-PSK: This has the device use either WPA-PSK or WPA2-PSK depending on which security
mode the wireless client uses.
• WPA2: WPA2 (IEEE 802.11i) is a wireless security standard that defines stronger encryption,
authentication and key management than WPA. It requires the use of a RADIUS server and is
mostly used in business networks.
• WPA: Wi-Fi Protected Access (WPA) is a subset of the IEEE 802.11i standard. It requires the use of
a RADIUS server and is mostly used in business networks.
• WEP: Wired Equivalent Privacy (WEP) encryption scrambles the data transmitted between the
wireless stations and the access points to keep network communications private.
27.6 USB Device Connection
 The Device fails to detect my USB device.
Disconnect the USB device.
Reboot the Device.
If you are connecting a USB hard drive that comes with an external power supply, make sure it is
connected to an appropriate power source that is on.
Re-connect your USB device to the Device.
Chapter 27
Troubleshooting
224
27.7 UPnP
 When using UPnP and the Device reboots, my computer cannot detect UPnP and refresh
My Network Places > Local Network.
Disconnect the Ethernet cable from the Device’s LAN port or from your computer.
Re-connect the Ethernet cable.
 The Local Area Connection icon for UPnP disappears in the screen.
Restart your computer.
 I cannot open special applications such as white board, file transfer and video when I use
the MSN messenger.
Wait more than three minutes.
Restart the applications.
Chapter 27
Troubleshooting
225
Appendix A
Legal Information
Appendix
A P P EN D IX A
Certifications
Federal Communications Commission (FCC)
The device complies with Part 15 of FCC rules. Operation is subject to the following two conditions:
This device may not cause harmful interference.
This device must accept any interference received, including interference that may cause undesired operations.
NOTE: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules.
These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates,
uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference
to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does
cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is
encouraged to try to correct the interference by one or more of the following measures:
•
•
•
•
Reorient or relocate the receiving antenna.
Increase the separation between the equipment and receiver.
Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
Caution
Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the
equipment.
IMPORTANT NOTE:
Radiation Exposure Statement:
This equipment complies with FCC RF radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed
and operated with a minimum distance of 20cm between the radiator and your body.
IEEE 802.11b, 802.11g or 802.11n (20MHz) operation of this product in the U.S.A. is firmware-limited to channels 1 through 11. IEEE 802.11n
(40MHz) operation of this product in the U.S.A. is firmware-limited to channels 3 through 9.
IEEE 802.11b or 802.11g operation of this product in the U.S.A. is firmware-limited to channels 1 through 11.
EUROPEAN COMMUNITY (EC)
IMPORTANT NOTE:
Radiation Exposure Statement:
This equipment complies with EU RF radiation exposure limits set forth for an uncontrolled environment. This equipment should be installed
and operated with a minimum distance of 20cm between the radiator and your body.
EU Declaration of Conformity
The device complies with the essential requirements of the R&TTE Directive 1999/5/EC.
Compliance Information for Wireless Products Relevant to the EU and Other Countries Following the EU R&TTE Directive 1999/5/EC
[Czech]
MitraStar tímto prohlašuje, že tento zařízení je ve shodу se základními požadavky a dalšími příslušnými ustanoveními
smуrnice 1999/5/EC.
[Danish]
Undertegnede MitraStar erklærer herved, at følgende udstyr udstyr overholder de væsentlige krav og øvrige relevante
krav i direktiv 1999/5/EF.
Appendix A
Legal Information
226
[German]
Hiermit erklärt MitraStar, dass sich das Gerät Ausstattung in Übereinstimmung mit den grundlegenden Anforderungen
und den übrigen einschlägigen Bestimmungen der Richtlinie 1999/5/EU befindet.
[Estonian]
Käesolevaga kinnitab MitraStar seadme seadmed vastavust direktiivi 1999/5/EÜ põhinõuetele ja nimetatud direktiivist
tulenevatele teistele asjakohastele sätetele.
[English]
Hereby, MitraStar declares that this equipment is in compliance with the essential requirements and other relevant
provisions of Directive 1999/5/EC.
[Spanish]
Por medio de la presente MitraStar declara que el equipo cumple con los requisitos esenciales y cualesquiera otras
disposiciones aplicables o exigibles de la Directiva 1999/5/CE.
[Greek]
Ι
Η
Α
Ι
Α MitraStar Η Ω Ι
Ιε
ι ό
ΙΑ Α Ι Η
Η ΙΑ 1999/5/ C.
Ω
ΑΙ
Ι
ΙΩ
Ι Α ΑΙ Η
Ι
ΑΙ Ι
[French]
Par la présente MitraStar déclare que l'appareil équipements est conforme aux exigences essentielles et aux autres
dispositions pertinentes de la directive 1999/5/EC.
[Italian]
Con la presente MitraStar dichiara che questo attrezzatura è conforme ai requisiti essenziali ed alle altre disposizioni
pertinenti stabilite dalla direttiva 1999/5/CE.
[Latvian]
Ar šo MitraStar deklarл, ka iekārtas atbilst Direktīvas 1999/5/EK būtiskajām prasībām un citiem ar to saistītajiem
noteikumiem.
[Lithuanian]
Šiuo MitraStar deklaruoja, kad šis įranga atitinka esminius reikalavimus ir kitas 1999/5/EB Direktyvos nuostatas.
[Dutch]
Hierbij verklaart MitraStar dat het toestel uitrusting in overeenstemming is met de essentiële eisen en de andere
relevante bepalingen van richtlijn 1999/5/EC.
[Maltese]
Hawnhekk, MitraStar, jiddikjara li dan tagħmir jikkonforma mal-ħtiщijiet essenzjali u ma provvedimenti oħrajn relevanti li
hemm fid-Dirrettiva 1999/5/EC.
[Hungarian]
Alulírott, MitraStar nyilatkozom, hogy a berendezés megfelel a vonatkozó alapvetõ követelményeknek és az 1999/5/EK
irányelv egyéb elõírásainak.
[Polish]
Niniejszym MitraStar oświadcza, że sprzсt jest zgodny z zasadniczymi wymogami oraz pozostałymi stosownymi
postanowieniami Dyrektywy 1999/5/EC.
[Portuguese]
MitraStar declara que este equipamento está conforme com os requisitos essenciais e outras disposições da Directiva
1999/5/EC.
[Slovenian]
MitraStar izjavlja, da je ta oprema v skladu z bistvenimi zahtevami in ostalimi relevantnimi doloеili direktive 1999/5/EC.
[Slovak]
MitraStar týmto vyhlasuje, že zariadenia spĺňa základné požiadavky a všetky príslušné ustanovenia Smernice 1999/5/EC.
[Finnish]
MitraStar vakuuttaa täten että laitteet tyyppinen laite on direktiivin 1999/5/EY oleellisten vaatimusten ja sitä koskevien
direktiivin muiden ehtojen mukainen.
[Swedish]
Härmed intygar MitraStar att denna utrustning står I överensstämmelse med de väsentliga egenskapskrav och övriga
relevanta bestämmelser som framgår av direktiv 1999/5/EC.
[Bulgarian]
С
я
MitraStar
,ч
я
1999/5/ C.
[Icelandic]
Hér með lýsir, MitraStar því yfir að þessi búnaður er í samræmi við grunnkröfur og önnur viðeigandi ákvæði tilskipunar
1999/5/EC.
[Norwegian]
Erklærer herved MitraStar at dette utstyret er I samsvar med de grunnleggende kravene og andre relevante
bestemmelser I direktiv 1999/5/EF.
[Romanian]
Prin prezenta, MitraStar declară că acest echipament este în conformitate cu cerinţele esenţiale şi alte prevederi relevante
ale Directivei 1999/5/EC.
Appendix A
Legal Information
227
List of national codes
COUNTRY
ISO 3166 2 LETTER CODE
COUNTRY
ISO 3166 2 LETTER CODE
Austria
AT
Malta
MT
Belgium
BE
Netherlands
NL
Cyprus
CY
Poland
PL
Czech Republic
CR
Portugal
PT
Denmark
DK
Slovakia
SK
Estonia
EE
Slovenia
SI
Finland
FI
Spain
ES
France
FR
Sweden
SE
Germany
DE
United Kingdom
GB
Greece
GR
Iceland
IS
Hungary
HU
Liechtenstein
LI
Ireland
IE
Norway
NO
Italy
IT
Switzerland
CH
Latvia
LV
Bulgaria
BG
Lithuania
LT
Romania
RO
Luxembourg
LU
Turkey
TR
Safety Warnings
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
•
Do NOT use this product near water, for example, in a wet basement or near a swimming pool.
Do NOT expose your device to dampness, dust or corrosive liquids.
Do NOT store things on the device.
Do NOT install, use, or service this device during a thunderstorm. There is a remote risk of electric shock from lightning.
Connect ONLY suitable accessories to the device.
Do NOT open the device or unit. Opening or removing covers can expose you to dangerous high voltage points or other risks. ONLY
qualified service personnel should service or disassemble this device. Please contact your vendor for further information.
ONLY qualified service personnel should service or disassemble this device.
Make sure to connect the cables to the correct ports.
Place connecting cables carefully so that no one will step on them or stumble over them.
Always disconnect all cables from this device before servicing or disassembling.
Use ONLY an appropriate power adaptor or cord for your device. Connect it to the right supply voltage (for example, 110V AC in North
America or 230V AC in Europe).
Use ONLY power wires of the appropriate wire gauge (see for details) for your device. Connect it to a power supply of the correct voltage
(see for details). .
Do NOT remove the plug and connect it to a power outlet by itself; always attach the plug to the power adaptor first before connecting it to
a power outlet.
Do NOT allow anything to rest on the power adaptor or cord and do NOT place the product where anyone can walk on the power adaptor
or cord.
Do NOT use the device if the power adaptor or cord is damaged as it might cause electrocution.
If the power adaptor or cord is damaged, remove it from the device and the power source.
Do NOT attempt to repair the power adaptor or cord. Contact your local vendor to order a new one.
Do not use the device outside, and make sure all the connections are indoors. There is a remote risk of electric shock from lightning.
Do NOT obstruct the device ventilation slots, as insufficient airflow may harm your device.
Use only No. 26 AWG (American Wire Gauge) or larger telecommunication line cord.
Antenna Warning! This device meets ETSI and FCC certification requirements when using the included antenna(s). Only use the included
antenna(s).
If you wall mount your device, make sure that no electrical lines, gas or water pipes will be damaged.
Warning! To avoid risk of electric shock, remove only one card at a time and do not place fingers or objects inside the chassis. Cover empty
slots with slot covers.
The length of exposed (bare) power wire should not exceed .
Appendix A
Legal Information
228
•
•
This product is for indoor use only (utilisation intérieure exclusivement).
Antenna Warning! This device meets ETSI and FCC certification requirements when using the included antenna(s). Only use the included
antenna(s).
Your product is marked with this symbol, which is known as the WEEE mark. WEEE stands for Waste Electronics and Electrical
Equipment. It means that used electrical and electronic products should not be mixed with general waste. Used electrical and
electronic equipment should be treated separately.
Appendix A
Legal Information
229
Index
ACS 195
activation
port binding 143
SSID 66
wireless LAN
scheduling 74
administrator password 19
anti-probing 159
Asynchronous Transfer Mode, see ATM
ATM 224
MBS 43, 50
PCR 43, 50
QoS 43, 50
SCR 43, 50
status 224
authentication 77, 79
RADIUS server 79
Auto Configuration Server, see ACS 195
automatic logout 20
backup
configuration 206
factory default 182
certificates 179
CA 179
replacing 182
storage space 182
thumbprint algorithms 181
thumbprints 181
trusted CAs 183, 184
verifying fingerprints 180
Certification Authority, see CA
channel scan 60
channel, wireless LAN 58
CLI 13
client list 88
Command Line Interface, see CLI
compatibility, WDS 72
configuration 102
backup 206
IP alias 90
IP precedence 126
IP/MAC filter 153, 155
reset 208
restoring 207
static route 117
WAN 36
connection
on demand 48
CoS 131
bandwidth management 118
CTS threshold 77
Basic Service Set, see BSS
customized services 165, 166
blinking LEDs 17
broadcast 33
BSS 80
example 81
data fragment threshold 76, 77
DDoS 158
default LAN IP address 19
Denials of Service, see DoS
CA 179
CBR 43, 50
DHCP 29, 84, 102, 103, 149
diagnostic 222
certificate
Index
230
customized services 165, 166
DDoS 158
default action 161
DoS 158
thresholds 159, 167, 168
ICMP 159
LAND attack 158
logs 164
P2P 168
packet direction 161
Ping of Death 158
rules 170
security 171
SYN attack 158
three-way handshake 168
triangle route 172
solutions 173
Differentiated Services, see DiffServ
DiffServ (Differentiated Services)
marking rule 132
DiffServ Code Point, see DSCP
DNS 84, 216
documentation
related 2
domain name system, see DNS
DoS 158
three-way handshake 168
thresholds 159, 167, 168
DS (Differentiated Services) 132
DS field 132
DSCP 126, 131
DSL connections, status 225
dynamic DNS 149
Dynamic Host Configuration Protocol, see DHCP
DYNDNS wildcard 149
encapsulation 33, 38, 46
ENET ENCAP 53
PPPoA 54
PPPoE 53
RFC 1483 54
encryption 79
firmware 204
fragmentation threshold 76, 77
FTP 13, 135, 213
Guide
Quick Start 2
ENET ENCAP 38, 46, 53
Extended Service Set IDentification 59, 67
host 193
host name 28
File Sharing 97
filters 151
IP/MAC 152, 154
IP/MAC filter
configuration 153, 155
MAC address 68
firewalls 157
actions 164
address types 164
anti-probing 159
Index
IANA 103, 104
ICMP 159, 217
IGMP 33, 87
importing trusted CAs 184
install UPnP 104
Windows Me 104
Windows XP 105
Internet
wizard setup 23
231
Internet access
wizard setup 23
MAC authentication 68
Internet Assigned Numbers Authority
See IANA
Maximum Burst Size, see MBS
Internet Control Message Protocol, see ICMP
MBS 43, 50
Internet Group Management Protocol, see IGMP
MBSSID 81
IP address 29, 33, 49, 55, 103
default 19
Media Access Control, see MAC Address
IP alias 90
configuration 90
MTU 44
IP pool 87
IP pool setup 103
IP precedence 127
configuration 126
IP/MAC filter 152, 154
configuration 153, 155
LAN 83
and USB printer 101
client list 88
IP alias 90
configuration 90
MAC address 89
multicast 87
LAN TCP/IP 103
LAND attack 158
limitations
wireless LAN 80
Management Information Base (MIB) 215
Maximum Transmission Unit, see MTU
model name 29
multicast 33, 43, 87
IGMP 33
Multiple BSS, see MBSSID
multiplexing 38, 46, 54
LLC-based 54
VC-based 54
nailed-up connection 42, 48
NAT 49, 103, 135
default server 138
definitions 139
DMZ host 138
how it works 141
remote management 210
what it does 140
Network Address Translation, see NAT
Local Area Network, see LAN
login
passwords 19
other documentation 2
logout 20
automatic 20
logs 200
firewalls 164
P2P 168
packet direction 161
passwords 19
PCR 43, 50
MAC 29, 30
Peak Cell Rate, see PCR
MAC address 69, 89
filter 68
PHB 132
Index
232
Ping of Death 158
Routing Information Protocol, see RIP
port binding 142
activation 143
summary screen 144
RPPCs 195
RTS threshold 77
ports 17
PPPoA 38, 46, 54
PPPoE 38, 46, 53
preamble 76, 77
Printer Server 101
printer sharing
and LAN 101
requirements 101
probing, firewalls 159
push button 15
scan 60
scheduling
wireless LAN 74
SCR 43, 50
security
network 171
wireless LAN 78
Security Parameter Index, see SPI
Service Set 59, 67
Quality of Service, see QoS
setup
IP alias 90
IP precedence 126
IP/MAC filter 153, 155
static route 117
WAN 36
Quick Start Guide 2, 19
Simple Network Management Protocol, see SNMP
SNMP 214
agents 215
Manager 215
managers 215
MIB 215
network components 215
versions 214
QoS 118, 119, 131
DSCP 126
IP precedence 126, 127
RADIUS server 79
related documentation 2
remote management 209
DNS 216
FTP 213
ICMP 217
NAT 210
TR-069 195
WWW 211
SPI 158
SSID 78
activation 66
MBSSID 81
static route 113
configuration 117
reset 16, 208
status 26
ATM 224
DSL connections 225
restart 208
status indicators 17
restoring configuration 207
subnet mask 103
RFC 1483 38, 46, 54
Sustain Cell Rate, see SCR
RFC 1631 133
SYN attack 158
RFC 3164 187
syslog
protocol 187
Remote Procedure Calls, see RPCs 195
RIP 43
Index
233
severity levels 187
system
firmware 204
passwords 19
reset 16
status 26
System Info 28
system name 28
three-way handshake 168
thresholds
data fragment 76, 77
DoS 159, 167, 168
P2P 168
RTS/CTS 77
TR-069 13, 195
ACS setup 195
triangle route 172
solutions 173
trusted CAs, and certificates 183
Virtual Channel Identifier, see VCI
Virtual Path Identifier, see VPI
VPI 39, 47, 54
WAN 32
ATM QoS 43, 50
encapsulation 33, 38, 46
IGMP 33
IP address 33, 49, 55
mode 38, 46
MTU 44
multicast 33, 43
multiplexing 38, 46, 54
nailed-up connection 42, 48
NAT 49
RIP 43
setup 36
VCI 39, 47, 54
VPI 39, 47, 54
WDS 72, 82
compatibility 72
example 82
Web Configurator 19
web configurator 13
passwords 19
UBR 43, 50
WEP 79
unicast 33
WEP Encryption 62, 63
Universal Plug and Play, see UPnP
Wide Area Network, see WAN
upgrading firmware 204
Wireless Distribution System, see WDS
UPnP 91
forum 84
security issues 84
wireless LAN 56
authentication 77, 79
BSS 80
example 81
channel 58
encryption 79
example 57
fragmentation threshold 76, 77
limitations 80
MAC address filter 68
MBSSID 81
preamble 76, 77
RADIUS server 79
RTS/CTS threshold 77
VBR-nRT 43, 50
VBR-RT 43, 50
VCI 39, 47, 54
version
firmware
version 29
Index
234
scheduling 74
security 78
SSID 78
activation 66
WDS 72, 82
compatibility 72
example 82
WEP 79
WPA 80
WPA-PSK 80
WPS
push button 15
wireless network
example 56
wizard setup
Internet 23
WLAN 56
auto-scan channel 60
scheduling 74
see also wireless.
WPA 80
WPA-PSK 80
WPS
push button 15
Index
235

---

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