ZyXEL Communications X550NH Wireless Gigabit Router User Manual NBG334W User Guide

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P ART VI
Appendices and
Index
Product Specifications and Wall-Mounting Instructions (273)
Pop-up Windows, JavaScripts and Java Permissions (279)
IP Addresses and Subnetting (285)
Setting up Your Computer’s IP Address (293)
Wireless LANs (309)
Services (321)
Legal Information (325)
Customer Support (329)
Index (335)
271
272
APPENDIX
Product Specifications and WallMounting Instructions
The following tables summarize the NBG460N’s hardware and firmware features.
Table 113 Hardware Features
Dimensions (W x D x H)
190 x 150 x 33 mm
Weight
362g
Power Specification
Input: 120~240 AC, 50~60 Hz
Output: 18 V DC 1A
Ethernet ports
Auto-negotiating: 10 Mbps, 100 Mbps or 1000Mbps in either half-duplex or
full-duplex mode.
Auto-crossover: Use either crossover or straight-through Ethernet cables.
4-5 Gigabit Port Switch
A combination of switch and router makes your NBG460N a cost-effective
and viable network solution. You can add up to four computers to the
NBG460N without the cost of a hub when connecting to the Internet through
the WAN port. You can add up to five computers to the NBG460N when you
connect to the Internet in AP mode. Add more than four computers to your
LAN by using a hub.
LEDs
PWR, LAN1-4, WAN, WLAN, WPS
Reset Button
The reset button is built into the rear panel. Use this button to restore the
NBG460N to its factory default settings. Press for 1 second to restart the
device. Press for 5 seconds to restore to factory default settings.
WPS button
Press the WPS on two WPS enabled devices within 120 seconds for a
security-enabled wireless connection.
Antenna
The NBG460N is equipped with three 2dBi (2.4GHz) detachable antennas
to provide clear radio transmission and reception on the wireless network.
Operation Environment
Temperature: 0º C ~ 40º C
Humidity: 20% ~ 85% RH (Non-condensing)
Storage Environment
Temperature: -20º C ~ 60º C
Humidity: 20% ~ 90% RH (Non-condensing)
Distance between the
centers of the holes on
the device’s back.
137 mm
Screw size for wallmounting
M4 Tap Screw
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Appendix A Product Specifications and Wall-Mounting Instructions
Table 114 Firmware Features
FEATURE
DESCRIPTION
Default IP Address
192.168.1.1
Default Subnet Mask
255.255.255.0 (24 bits)
Default Password
1234
DHCP Pool
192.168.1.33 to 192.168.1.64
Wireless Interface
Wireless LAN
Default Wireless SSID
Wireless LAN: ZyXEL
Wireless LAN when WPS enabled: ZyXEL WPS
Default Wireless IP Address Wireless LAN: Same as LAN (192.168.1.1)
Default Wireless Subnet
Mask
Wireless LAN: Same as LAN (255.255.255.0)
Default Wireless DHCP
Pool Size
Wireless LAN: Same as LAN (32 from 192.168.1.33 to 192.168.1.64)
Device Management
Use the web configurator to easily configure the rich range of features on
the NBG460N.
Wireless Functionality
Allows IEEE 802.11b and/or IEEE 802.11g and/or IEEE 802.11n wireless
clients to connect to the NBG460N wirelessly. Enable wireless security
(WEP, WPA(2), WPA(2)-PSK) and/or MAC filtering to protect your
wireless network.
Note: The NBG460N may be prone to RF (Radio
Frequency) interference from other 2.4 GHz devices
such as microwave ovens, wireless phones,
Bluetooth enabled devices, and other wireless LANs.
Firmware Upgrade
Download new firmware (when available) from the ZyXEL web site and
use the web configurator, an FTP or a TFTP tool to put it on the
NBG460N.
Note: Only upload firmware for your specific model!
274
Configuration Backup &
Restoration
Make a copy of the NBG460N’s configuration and put it back on the
NBG460N later if you decide you want to revert back to an earlier
configuration.
Network Address
Translation (NAT)
Each computer on your network must have its own unique IP address.
Use NAT to convert a single public IP address to multiple private IP
addresses for the computers on your network.
Firewall
You can configure firewall on the NBG460N for secure Internet access.
When the firewall is on, by default, all incoming traffic from the Internet to
your network is blocked unless it is initiated from your network. This
means that probes from the outside to your network are not allowed, but
you can safely browse the Internet and download files for example.
Content Filter
The NBG460N blocks or allows access to web sites that you specify and
blocks access to web sites with URLs that contain keywords that you
specify. You can define time periods and days during which content
filtering is enabled. You can also include or exclude particular computers
on your network from content filtering.
You can also subscribe to category-based content filtering that allows
your NBG460N to check web sites against an external database.
NBG460N User’s Guide
Appendix A Product Specifications and Wall-Mounting Instructions
Table 114 Firmware Features
FEATURE
DESCRIPTION
IPSec VPN
This allows you to establish a secure Virtual Private Network (VPN)
tunnel to connect with business partners and branch offices using data
encryption and the Internet without the expense of leased site-to-site
lines. The NBG460N VPN is based on the IPSec standard and is fully
interoperable with other IPSec-based VPN products.
Bandwidth Management
You can efficiently manage traffic on your network by reserving
bandwidth and giving priority to certain types of traffic and/or to particular
computers.
Wireless LAN Scheduler
You can schedule the times the Wireless LAN is enabled/disabled.
Time and Date
Get the current time and date from an external server when you turn on
your NBG460N. You can also set the time manually. These dates and
times are then used in logs.
Port Forwarding
If you have a server (mail or web server for example) on your network,
then use this feature to let people access it from the Internet.
DHCP (Dynamic Host
Configuration Protocol)
Use this feature to have the NBG460N assign IP addresses, an IP
default gateway and DNS servers to computers on your network.
Dynamic DNS Support
With Dynamic DNS (Domain Name System) support, you can use a
fixed URL, www.zyxel.com for example, with a dynamic IP address. You
must register for this service with a Dynamic DNS service provider.
IP Multicast
IP Multicast is used to send traffic to a specific group of computers. The
NBG460N supports versions 1 and 2 of IGMP (Internet Group
Management Protocol) used to join multicast groups (see RFC 2236).
IP Alias
IP Alias allows you to subdivide a physical network into logical networks
over the same Ethernet interface with the NBG460N itself as the
gateway for each subnet.
Logging and Tracing
Use packet tracing and logs for troubleshooting. You can send logs from
the NBG460N to an external syslog server.
PPPoE
PPPoE mimics a dial-up Internet access connection.
PPTP Encapsulation
Point-to-Point Tunneling Protocol (PPTP) enables secure transfer of
data through a Virtual Private Network (VPN). The NBG460N supports
one PPTP connection at a time.
Universal Plug and Play
(UPnP)
The NBG460N can communicate with other UPnP enabled devices in a
network.
Table 115 Feature Specifications
FEATURE
SPECIFICATION
Number of Static Routes
Number of Port Forwarding Rules
10
Number of NAT Sessions
16000
Number of Address Mapping Rules
10
Number of VPN Tunnels
Number of Bandwidth Management
Classes
Number of DNS Name Server Record
Entries
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Appendix A Product Specifications and Wall-Mounting Instructions
The following list, which is not exhaustive, illustrates the standards supported in the
NBG460N.
Table 116 Standards Supported
STANDARD
DESCRIPTION
RFC 867
Daytime Protocol
RFC 868
Time Protocol.
RFC 1058
RIP-1 (Routing Information Protocol)
RFC 1112
IGMP v1
RFC 1305
Network Time Protocol (NTP version 3)
RFC 1631
IP Network Address Translator (NAT)
RFC 1723
RIP-2 (Routing Information Protocol)
RFC 2236
Internet Group Management Protocol, Version 2.
RFC 2516
A Method for Transmitting PPP Over Ethernet (PPPoE)
RFC 2766
Network Address Translation - Protocol
IEEE 802.11
Also known by the brand Wi-Fi, denotes a set of Wireless LAN/WLAN
standards developed by working group 11 of the IEEE LAN/MAN
Standards Committee (IEEE 802).
IEEE 802.11b
Uses the 2.4 gigahertz (GHz) band
IEEE 802.11g
Uses the 2.4 gigahertz (GHz) band
IEEE 802.11n
IEEE 802.11d
Standard for Local and Metropolitan Area Networks: Media Access
Control (MAC) Bridges
IEEE 802.11x
Port Based Network Access Control.
IEEE 802.11e QoS
IEEE 802.11 e Wireless LAN for Quality of Service
Microsoft PPTP
MS PPTP (Microsoft's implementation of Point to Point Tunneling
Protocol)
MBM v2
Media Bandwidth Management v2
Wall-mounting Instructions
Do the following to hang your NBG460N on a wall.
See the Figure 167 on page 278 for the size of screws to use and how far
apart to place them.
1 Locate a high position on a wall that is free of obstructions. Use a sturdy wall.
2 Drill two holes for the screws. Make sure the distance between the centers of the holes
matches what is listed in the product specifications appendix.
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Appendix A Product Specifications and Wall-Mounting Instructions
Be careful to avoid damaging pipes or cables located inside the wall when
drilling holes for the screws.
3 Do not screw the screws all the way into the wall. Leave a small gap of about 0.5 cm
between the heads of the screws and the wall.
4 Make sure the screws are snugly fastened to the wall. They need to hold the weight of
the NBG460N with the connection cables.
5 Align the holes on the back of the NBG460N with the screws on the wall. Hang the
NBG460N on the screws.
Figure 166 Wall-mounting Example
The following are dimensions of an M4 tap screw and masonry plug used for wall mounting.
All measurements are in millimeters (mm).
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Appendix A Product Specifications and Wall-Mounting Instructions
Figure 167 Masonry Plug and M4 Tap Screw
278
NBG460N User’s Guide
APPENDIX
Pop-up Windows, JavaScripts
and Java Permissions
In order to use the web configurator you need to allow:
• Web browser pop-up windows from your device.
• JavaScripts (enabled by default).
• Java permissions (enabled by default).
Internet Explorer 6 screens are used here. Screens for other Internet Explorer
versions may vary.
Internet Explorer Pop-up Blockers
You may have to disable pop-up blocking to log into your device.
Either disable pop-up blocking (enabled by default in Windows XP SP (Service Pack) 2) or
allow pop-up blocking and create an exception for your device’s IP address.
Disable pop-up Blockers
1 In Internet Explorer, select Tools, Pop-up Blocker and then select Turn Off Pop-up
Blocker.
Figure 168 Pop-up Blocker
You can also check if pop-up blocking is disabled in the Pop-up Blocker section in the
Privacy tab.
1 In Internet Explorer, select Tools, Internet Options, Privacy.
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Appendix B Pop-up Windows, JavaScripts and Java Permissions
2 Clear the Block pop-ups check box in the Pop-up Blocker section of the screen. This
disables any web pop-up blockers you may have enabled.
Figure 169 Internet Options: Privacy
3 Click Apply to save this setting.
Enable pop-up Blockers with Exceptions
Alternatively, if you only want to allow pop-up windows from your device, see the following
steps.
1 In Internet Explorer, select Tools, Internet Options and then the Privacy tab.
2 Select Settings…to open the Pop-up Blocker Settings screen.
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Appendix B Pop-up Windows, JavaScripts and Java Permissions
Figure 170 Internet Options: Privacy
3 Type the IP address of your device (the web page that you do not want to have blocked)
with the prefix “http://”. For example, http://192.168.167.1.
4 Click Add to move the IP address to the list of Allowed sites.
Figure 171 Pop-up Blocker Settings
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Appendix B Pop-up Windows, JavaScripts and Java Permissions
5 Click Close to return to the Privacy screen.
6 Click Apply to save this setting.
JavaScripts
If pages of the web configurator do not display properly in Internet Explorer, check that
JavaScripts are allowed.
1 In Internet Explorer, click Tools, Internet Options and then the Security tab.
Figure 172 Internet Options: Security
282
Click the Custom Level... button.
Scroll down to Scripting.
Under Active scripting make sure that Enable is selected (the default).
Under Scripting of Java applets make sure that Enable is selected (the default).
Click OK to close the window.
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Appendix B Pop-up Windows, JavaScripts and Java Permissions
Figure 173 Security Settings - Java Scripting
Java Permissions
From Internet Explorer, click Tools, Internet Options and then the Security tab.
Click the Custom Level... button.
Scroll down to Microsoft VM.
Under Java permissions make sure that a safety level is selected.
Click OK to close the window.
Figure 174 Security Settings - Java
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Appendix B Pop-up Windows, JavaScripts and Java Permissions
JAVA (Sun)
1 From Internet Explorer, click Tools, Internet Options and then the Advanced tab.
2 Make sure that Use Java 2 for  under Java (Sun) is selected.
3 Click OK to close the window.
Figure 175 Java (Sun)
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APPENDIX
IP Addresses and Subnetting
This appendix introduces IP addresses and subnet masks.
IP addresses identify individual devices on a network. Every networking device (including
computers, servers, routers, printers, etc.) needs an IP address to communicate across the
network. These networking devices are also known as hosts.
Subnet masks determine the maximum number of possible hosts on a network. You can also
use subnet masks to divide one network into multiple sub-networks.
Introduction to IP Addresses
One part of the IP address is the network number, and the other part is the host ID. In the same
way that houses on a street share a common street name, the hosts on a network share a
common network number. Similarly, as each house has its own house number, each host on the
network has its own unique identifying number - the host ID. Routers use the network number
to send packets to the correct network, while the host ID determines to which host on the
network the packets are delivered.
Structure
An IP address is made up of four parts, written in dotted decimal notation (for example,
192.168.1.1). Each of these four parts is known as an octet. An octet is an eight-digit binary
number (for example 11000000, which is 192 in decimal notation).
Therefore, each octet has a possible range of 00000000 to 11111111 in binary, or 0 to 255 in
decimal.
The following figure shows an example IP address in which the first three octets (192.168.1)
are the network number, and the fourth octet (16) is the host ID.
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Appendix C IP Addresses and Subnetting
Figure 176 Network Number and Host ID
How much of the IP address is the network number and how much is the host ID varies
according to the subnet mask.
Subnet Masks
A subnet mask is used to determine which bits are part of the network number, and which bits
are part of the host ID (using a logical AND operation). The term “subnet” is short for “subnetwork”.
A subnet mask has 32 bits. If a bit in the subnet mask is a “1” then the corresponding bit in the
IP address is part of the network number. If a bit in the subnet mask is “0” then the
corresponding bit in the IP address is part of the host ID.
The following example shows a subnet mask identifying the network number (in bold text)
and host ID of an IP address (192.168.1.2 in decimal).
Table 117 Subnet Mask - Identifying Network Number
1ST OCTET: 2ND
OCTET:
(192)
(168)
3RD
OCTET:
(1)
4TH OCTET
(2)
IP Address (Binary)
11000000
10101000
00000001
00000010
Subnet Mask (Binary)
11111111
11111111
11111111
00000000
Network Number
11000000
10101000
00000001
Host ID
00000010
By convention, subnet masks always consist of a continuous sequence of ones beginning from
the leftmost bit of the mask, followed by a continuous sequence of zeros, for a total number of
32 bits.
Subnet masks can be referred to by the size of the network number part (the bits with a “1”
value). For example, an “8-bit mask” means that the first 8 bits of the mask are ones and the
remaining 24 bits are zeroes.
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Appendix C IP Addresses and Subnetting
Subnet masks are expressed in dotted decimal notation just like IP addresses. The following
examples show the binary and decimal notation for 8-bit, 16-bit, 24-bit and 29-bit subnet
masks.
Table 118 Subnet Masks
BINARY
DECIMAL
1ST
OCTET
2ND
OCTET
3RD
OCTET
4TH OCTET
8-bit mask
11111111
00000000
00000000
00000000
255.0.0.0
16-bit mask
11111111
11111111
00000000
00000000
255.255.0.0
24-bit mask
11111111
11111111
11111111
00000000
255.255.255.0
29-bit mask
11111111
11111111
11111111
11111000
255.255.255.248
Network Size
The size of the network number determines the maximum number of possible hosts you can
have on your network. The larger the number of network number bits, the smaller the number
of remaining host ID bits.
An IP address with host IDs of all zeros is the IP address of the network (192.168.1.0 with a
24-bit subnet mask, for example). An IP address with host IDs of all ones is the broadcast
address for that network (192.168.1.255 with a 24-bit subnet mask, for example).
As these two IP addresses cannot be used for individual hosts, calculate the maximum number
of possible hosts in a network as follows:
Table 119 Maximum Host Numbers
SUBNET MASK
8 bits
16 bits
HOST ID SIZE
255.0.0.0
255.255.0.0
MAXIMUM NUMBER OF HOSTS
24 bits
224
–2
16777214
16 bits
16
–2
65534
24 bits
255.255.255.0
8 bits
28
29 bits
255.255.255.248
3 bits
23 – 2
–2
254
Notation
Since the mask is always a continuous number of ones beginning from the left, followed by a
continuous number of zeros for the remainder of the 32 bit mask, you can simply specify the
number of ones instead of writing the value of each octet. This is usually specified by writing
a “/” followed by the number of bits in the mask after the address.
For example, 192.1.1.0 /25 is equivalent to saying 192.1.1.0 with subnet mask
255.255.255.128.
The following table shows some possible subnet masks using both notations.
Table 120 Alternative Subnet Mask Notation
SUBNET MASK
ALTERNATIVE
NOTATION
LAST OCTET
(BINARY)
LAST OCTET
(DECIMAL)
255.255.255.0
/24
0000 0000
255.255.255.128
/25
1000 0000
128
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Appendix C IP Addresses and Subnetting
Table 120 Alternative Subnet Mask Notation (continued)
SUBNET MASK
ALTERNATIVE
NOTATION
LAST OCTET
(BINARY)
LAST OCTET
(DECIMAL)
255.255.255.192
/26
1100 0000
192
255.255.255.224
/27
1110 0000
224
255.255.255.240
/28
1111 0000
240
255.255.255.248
/29
1111 1000
248
255.255.255.252
/30
1111 1100
252
Subnetting
You can use subnetting to divide one network into multiple sub-networks. In the following
example a network administrator creates two sub-networks to isolate a group of servers from
the rest of the company network for security reasons.
In this example, the company network address is 192.168.1.0. The first three octets of the
address (192.168.1) are the network number, and the remaining octet is the host ID, allowing a
maximum of 28 – 2 or 254 possible hosts.
The following figure shows the company network before subnetting.
Figure 177 Subnetting Example: Before Subnetting
You can “borrow” one of the host ID bits to divide the network 192.168.1.0 into two separate
sub-networks. The subnet mask is now 25 bits (255.255.255.128 or /25).
The “borrowed” host ID bit can have a value of either 0 or 1, allowing two subnets;
192.168.1.0 /25 and 192.168.1.128 /25.
The following figure shows the company network after subnetting. There are now two subnetworks, A and B.
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Appendix C IP Addresses and Subnetting
Figure 178 Subnetting Example: After Subnetting
In a 25-bit subnet the host ID has 7 bits, so each sub-network has a maximum of 27 – 2 or 126
possible hosts (a host ID of all zeroes is the subnet’s address itself, all ones is the subnet’s
broadcast address).
192.168.1.0 with mask 255.255.255.128 is subnet A itself, and 192.168.1.127 with mask
255.255.255.128 is its broadcast address. Therefore, the lowest IP address that can be assigned
to an actual host for subnet A is 192.168.1.1 and the highest is 192.168.1.126.
Similarly, the host ID range for subnet B is 192.168.1.129 to 192.168.1.254.
Example: Four Subnets
The previous example illustrated using a 25-bit subnet mask to divide a 24-bit address into two
subnets. Similarly, to divide a 24-bit address into four subnets, you need to “borrow” two host
ID bits to give four possible combinations (00, 01, 10 and 11). The subnet mask is 26 bits
(11111111.11111111.11111111.11000000) or 255.255.255.192.
Each subnet contains 6 host ID bits, giving 26 - 2 or 62 hosts for each subnet (a host ID of all
zeroes is the subnet itself, all ones is the subnet’s broadcast address).
Table 121 Subnet 1
IP/SUBNET MASK
NETWORK NUMBER
LAST OCTET BIT
VALUE
IP Address (Decimal)
192.168.1.
IP Address (Binary)
11000000.10101000.00000001.
00000000
Subnet Mask (Binary)
11111111.11111111.11111111.
11000000
Subnet Address:
192.168.1.0
Lowest Host ID: 192.168.1.1
Broadcast Address:
192.168.1.63
Highest Host ID: 192.168.1.62
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Appendix C IP Addresses and Subnetting
Table 122 Subnet 2
IP/SUBNET MASK
NETWORK NUMBER
LAST OCTET BIT
VALUE
IP Address
192.168.1.
64
IP Address (Binary)
11000000.10101000.00000001.
01000000
Subnet Mask (Binary)
11111111.11111111.11111111.
11000000
Subnet Address:
192.168.1.64
Lowest Host ID: 192.168.1.65
Broadcast Address:
192.168.1.127
Highest Host ID: 192.168.1.126
Table 123 Subnet 3
IP/SUBNET MASK
NETWORK NUMBER
LAST OCTET BIT
VALUE
IP Address
192.168.1.
128
IP Address (Binary)
11000000.10101000.00000001.
10000000
Subnet Mask (Binary)
11111111.11111111.11111111.
11000000
Subnet Address:
192.168.1.128
Lowest Host ID: 192.168.1.129
Broadcast Address:
192.168.1.191
Highest Host ID: 192.168.1.190
Table 124 Subnet 4
IP/SUBNET MASK
NETWORK NUMBER
LAST OCTET BIT
VALUE
IP Address
192.168.1.
192
IP Address (Binary)
11000000.10101000.00000001.
11000000
Subnet Mask (Binary)
11111111.11111111.11111111.
11000000
Subnet Address:
192.168.1.192
Lowest Host ID: 192.168.1.193
Broadcast Address:
192.168.1.255
Highest Host ID: 192.168.1.254
Example: Eight Subnets
Similarly, use a 27-bit mask to create eight subnets (000, 001, 010, 011, 100, 101, 110 and
111).
The following table shows IP address last octet values for each subnet.
Table 125 Eight Subnets
290
SUBNET
SUBNET
ADDRESS
FIRST ADDRESS
LAST
ADDRESS
BROADCAST
ADDRESS
30
31
32
33
62
63
64
65
94
95
96
97
126
127
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Appendix C IP Addresses and Subnetting
Table 125 Eight Subnets (continued)
SUBNET
SUBNET
ADDRESS
FIRST ADDRESS
LAST
ADDRESS
BROADCAST
ADDRESS
128
129
158
159
160
161
190
191
192
193
222
223
224
225
254
255
Subnet Planning
The following table is a summary for subnet planning on a network with a 24-bit network
number.
Table 126 24-bit Network Number Subnet Planning
NO. “BORROWED”
HOST BITS
SUBNET MASK
NO. SUBNETS
NO. HOSTS PER
SUBNET
255.255.255.128 (/25)
126
255.255.255.192 (/26)
62
255.255.255.224 (/27)
30
255.255.255.240 (/28)
16
14
255.255.255.248 (/29)
32
255.255.255.252 (/30)
64
255.255.255.254 (/31)
128
The following table is a summary for subnet planning on a network with a 16-bit network
number.
Table 127 16-bit Network Number Subnet Planning
NO. “BORROWED”
HOST BITS
SUBNET MASK
NO. SUBNETS
NO. HOSTS PER
SUBNET
255.255.128.0 (/17)
32766
255.255.192.0 (/18)
16382
255.255.224.0 (/19)
8190
255.255.240.0 (/20)
16
4094
255.255.248.0 (/21)
32
2046
255.255.252.0 (/22)
64
1022
255.255.254.0 (/23)
128
510
255.255.255.0 (/24)
256
254
255.255.255.128 (/25)
512
126
10
255.255.255.192 (/26)
1024
62
11
255.255.255.224 (/27)
2048
30
12
255.255.255.240 (/28)
4096
14
13
255.255.255.248 (/29)
8192
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Appendix C IP Addresses and Subnetting
Table 127 16-bit Network Number Subnet Planning (continued)
NO. “BORROWED”
HOST BITS
SUBNET MASK
NO. SUBNETS
NO. HOSTS PER
SUBNET
14
255.255.255.252 (/30)
16384
15
255.255.255.254 (/31)
32768
Configuring IP Addresses
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. 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. You must also enable Network Address Translation (NAT) on the
NBG460N.
Once you have decided on the network number, pick an IP address for your NBG460N that is
easy to remember (for instance, 192.168.1.1) 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 NBG460N 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 NBG460N 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 (running only between two branch offices, for example) 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
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.
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APPENDIX
Setting up Your Computer’s IP
Address
All computers must have a 10M or 100M Ethernet adapter card and TCP/IP installed.
Windows 95/98/Me/NT/2000/XP, Macintosh OS 7 and later operating systems and all versions
of UNIX/LINUX include the software components you need to install and use TCP/IP on your
computer. Windows 3.1 requires the purchase of a third-party TCP/IP application package.
TCP/IP should already be installed on computers using Windows NT/2000/XP, Macintosh OS
7 and later operating systems.
After the appropriate TCP/IP components are installed, configure the TCP/IP settings in order
to "communicate" with your network.
If you manually assign IP information instead of using dynamic assignment, make sure that
your computers have IP addresses that place them in the same subnet as the Prestige’s LAN
port.
Windows 95/98/Me
Click Start, Settings, Control Panel and double-click the Network icon to open the Network
window.
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Figure 179 WIndows 95/98/Me: Network: Configuration
Installing Components
The Network window Configuration tab displays a list of installed components. You need a
network adapter, the TCP/IP protocol and Client for Microsoft Networks.
If you need the adapter:
1 In the Network window, click Add.
2 Select Adapter and then click Add.
3 Select the manufacturer and model of your network adapter and then click OK.
If you need TCP/IP:
In the Network window, click Add.
Select Protocol and then click Add.
Select Microsoft from the list of manufacturers.
Select TCP/IP from the list of network protocols and then click OK.
If you need Client for Microsoft Networks:
Click Add.
Select Client and then click Add.
Select Microsoft from the list of manufacturers.
Select Client for Microsoft Networks from the list of network clients and then click
OK.
5 Restart your computer so the changes you made take effect.
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Configuring
1 In the Network window Configuration tab, select your network adapter's TCP/IP entry
and click Properties
2 Click the IP Address tab.
• If your IP address is dynamic, select Obtain an IP address automatically.
• If you have a static IP address, select Specify an IP address and type your
information into the IP Address and Subnet Mask fields.
Figure 180 Windows 95/98/Me: TCP/IP Properties: IP Address
3 Click the DNS Configuration tab.
• If you do not know your DNS information, select Disable DNS.
• If you know your DNS information, select Enable DNS and type the information in
the fields below (you may not need to fill them all in).
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Figure 181 Windows 95/98/Me: TCP/IP Properties: DNS Configuration
4 Click the Gateway tab.
• If you do not know your gateway’s IP address, remove previously installed gateways.
• If you have a gateway IP address, type it in the New gateway field and click Add.
5 Click OK to save and close the TCP/IP Properties window.
6 Click OK to close the Network window. Insert the Windows CD if prompted.
7 Turn on your Prestige and restart your computer when prompted.
Verifying Settings
1 Click Start and then Run.
2 In the Run window, type "winipcfg" and then click OK to open the IP Configuration
window.
3 Select your network adapter. You should see your computer's IP address, subnet mask
and default gateway.
Windows 2000/NT/XP
The following example figures use the default Windows XP GUI theme.
1 Click start (Start in Windows 2000/NT), Settings, Control Panel.
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Figure 182 Windows XP: Start Menu
2 In the Control Panel, double-click Network Connections (Network and Dial-up
Connections in Windows 2000/NT).
Figure 183 Windows XP: Control Panel
3 Right-click Local Area Connection and then click Properties.
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Figure 184 Windows XP: Control Panel: Network Connections: Properties
4 Select Internet Protocol (TCP/IP) (under the General tab in Win XP) and then click
Properties.
Figure 185 Windows XP: Local Area Connection Properties
5 The Internet Protocol TCP/IP Properties window opens (the General tab in Windows
XP).
• If you have a dynamic IP address click Obtain an IP address automatically.
• If you have a static IP address click Use the following IP Address and fill in the IP
address, Subnet mask, and Default gateway fields.
• Click Advanced.
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Figure 186 Windows XP: Internet Protocol (TCP/IP) Properties
If you do not know your gateway's IP address, remove any previously installed
gateways in the IP Settings tab and click OK.
Do one or more of the following if you want to configure additional IP addresses:
• In the IP Settings tab, in IP addresses, click Add.
• In TCP/IP Address, type an IP address in IP address and a subnet mask in Subnet
mask, and then click Add.
• Repeat the above two steps for each IP address you want to add.
• Configure additional default gateways in the IP Settings tab by clicking Add in
Default gateways.
• In TCP/IP Gateway Address, type the IP address of the default gateway in Gateway.
To manually configure a default metric (the number of transmission hops), clear the
Automatic metric check box and type a metric in Metric.
• Click Add.
• Repeat the previous three steps for each default gateway you want to add.
• Click OK when finished.
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Figure 187 Windows XP: Advanced TCP/IP Properties
7 In the Internet Protocol TCP/IP Properties window (the General tab in Windows
XP):
• Click Obtain DNS server address automatically if you do not know your DNS
server IP address(es).
• If you know your DNS server IP address(es), click Use the following DNS server
addresses, and type them in the Preferred DNS server and Alternate DNS server
fields.
If you have previously configured DNS servers, click Advanced and then the DNS
tab to order them.
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Figure 188 Windows XP: Internet Protocol (TCP/IP) Properties
8 Click OK to close the Internet Protocol (TCP/IP) Properties window.
9 Click Close (OK in Windows 2000/NT) to close the Local Area Connection
Properties window.
10 Close the Network Connections window (Network and Dial-up Connections in
Windows 2000/NT).
11 Turn on your Prestige and restart your computer (if prompted).
Verifying Settings
1 Click Start, All Programs, Accessories and then Command Prompt.
2 In the Command Prompt window, type "ipconfig" and then press [ENTER]. You can
also open Network Connections, right-click a network connection, click Status and
then click the Support tab.
Macintosh OS 8/9
1 Click the Apple menu, Control Panel and double-click TCP/IP to open the TCP/IP
Control Panel.
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Figure 189 Macintosh OS 8/9: Apple Menu
2 Select Ethernet built-in from the Connect via list.
Figure 190 Macintosh OS 8/9: TCP/IP
3 For dynamically assigned settings, select Using DHCP Server from the Configure: list.
4 For statically assigned settings, do the following:
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• From the Configure box, select Manually.
• Type your IP address in the IP Address box.
• Type your subnet mask in the Subnet mask box.
• Type the IP address of your Prestige in the Router address box.
5 Close the TCP/IP Control Panel.
6 Click Save if prompted, to save changes to your configuration.
7 Turn on your Prestige and restart your computer (if prompted).
Verifying Settings
Check your TCP/IP properties in the TCP/IP Control Panel window.
Macintosh OS X
1 Click the Apple menu, and click System Preferences to open the System Preferences
window.
Figure 191 Macintosh OS X: Apple Menu
2 Click Network in the icon bar.
• Select Automatic from the Location list.
• Select Built-in Ethernet from the Show list.
• Click the TCP/IP tab.
3 For dynamically assigned settings, select Using DHCP from the Configure list.
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Figure 192 Macintosh OS X: Network
4 For statically assigned settings, do the following:
• From the Configure box, select Manually.
• Type your IP address in the IP Address box.
• Type your subnet mask in the Subnet mask box.
• Type the IP address of your Prestige in the Router address box.
5 Click Apply Now and close the window.
6 Turn on your Prestige and restart your computer (if prompted).
Verifying Settings
Check your TCP/IP properties in the Network window.
Linux
This section shows you how to configure your computer’s TCP/IP settings in Red Hat Linux
9.0. Procedure, screens and file location may vary depending on your Linux distribution and
release version.
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Make sure you are logged in as the root administrator.
Using the K Desktop Environment (KDE)
Follow the steps below to configure your computer IP address using the KDE.
1 Click the Red Hat button (located on the bottom left corner), select System Setting and
click Network.
Figure 193 Red Hat 9.0: KDE: Network Configuration: Devices
2 Double-click on the profile of the network card you wish to configure. The Ethernet
Device General screen displays as shown.
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Figure 194 Red Hat 9.0: KDE: Ethernet Device: General
• If you have a dynamic IP address click Automatically obtain IP address settings
with and select dhcp from the drop down list.
• If you have a static IP address click Statically set IP Addresses and fill in the
Address, Subnet mask, and Default Gateway Address fields.
3 Click OK to save the changes and close the Ethernet Device General screen.
4 If you know your DNS server IP address(es), click the DNS tab in the Network
Configuration screen. Enter the DNS server information in the fields provided.
Figure 195 Red Hat 9.0: KDE: Network Configuration: DNS
5 Click the Devices tab.
6 Click the Activate button to apply the changes. The following screen displays. Click Yes
to save the changes in all screens.
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Figure 196 Red Hat 9.0: KDE: Network Configuration: Activate
7 After the network card restart process is complete, make sure the Status is Active in the
Network Configuration screen.
Using Configuration Files
Follow the steps below to edit the network configuration files and set your computer IP
address.
1 Assuming that you have only one network card on the computer, locate the ifconfigeth0 configuration file (where eth0 is the name of the Ethernet card). Open the
configuration file with any plain text editor.
• If you have a dynamic IP address, enter dhcp in the BOOTPROTO= field. The following
figure shows an example.
Figure 197 Red Hat 9.0: Dynamic IP Address Setting in ifconfig-eth0
DEVICE=eth0
ONBOOT=yes
BOOTPROTO=dhcp
USERCTL=no
PEERDNS=yes
TYPE=Ethernet
• If you have a static IP address, enter static in the BOOTPROTO= field. Type
IPADDR= followed by the IP address (in dotted decimal notation) and type NETMASK=
followed by the subnet mask. The following example shows an example where the
static IP address is 192.168.1.10 and the subnet mask is 255.255.255.0.
Figure 198 Red Hat 9.0: Static IP Address Setting in ifconfig-eth0
DEVICE=eth0
ONBOOT=yes
BOOTPROTO=static
IPADDR=192.168.1.10
NETMASK=255.255.255.0
USERCTL=no
PEERDNS=yes
TYPE=Ethernet
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2 If you know your DNS server IP address(es), enter the DNS server information in the
resolv.conf file in the /etc directory. The following figure shows an example where
two DNS server IP addresses are specified.
Figure 199 Red Hat 9.0: DNS Settings in resolv.conf
nameserver 172.23.5.1
nameserver 172.23.5.2
3 After you edit and save the configuration files, you must restart the network card.
Enter./network restart in the /etc/rc.d/init.d directory. The following
figure shows an example.
Figure 200 Red Hat 9.0: Restart Ethernet Card
[root@localhost init.d]# network restart
Shutting down interface eth0:
Shutting down loopback interface:
Setting network parameters:
Bringing up loopback interface:
Bringing up interface eth0:
[OK]
[OK]
[OK]
[OK]
[OK]
26.6.1 Verifying Settings
Enter ifconfig in a terminal screen to check your TCP/IP properties.
Figure 201 Red Hat 9.0: Checking TCP/IP Properties
[root@localhost]# ifconfig
eth0
Link encap:Ethernet HWaddr 00:50:BA:72:5B:44
inet addr:172.23.19.129 Bcast:172.23.19.255 Mask:255.255.255.0
UP BROADCAST RUNNING MULTICAST MTU:1500 Metric:1
RX packets:717 errors:0 dropped:0 overruns:0 frame:0
TX packets:13 errors:0 dropped:0 overruns:0 carrier:0
collisions:0 txqueuelen:100
RX bytes:730412 (713.2 Kb) TX bytes:1570 (1.5 Kb)
Interrupt:10 Base address:0x1000
[root@localhost]#
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APPENDIX
Wireless LANs
Wireless LAN Topologies
This section discusses ad-hoc and infrastructure wireless LAN topologies.
Ad-hoc Wireless LAN Configuration
The simplest WLAN configuration is an independent (Ad-hoc) WLAN that connects a set of
computers with wireless stations (A, B, C). Any time two or more wireless adapters are within
range of each other, they can set up an independent network, which is commonly referred to as
an Ad-hoc network or Independent Basic Service Set (IBSS). The following diagram shows an
example of notebook computers using wireless adapters to form an Ad-hoc wireless LAN.
Figure 202 Peer-to-Peer Communication in an Ad-hoc Network
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).
Intra-BSS traffic is traffic between wireless stations in the BSS. When Intra-BSS is enabled,
wireless station A and B can access the wired network and communicate with each other.
When Intra-BSS is disabled, wireless station A and B can still access the wired network but
cannot communicate with each other.
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Figure 203 Basic Service Set
ESS
An Extended Service Set (ESS) consists of a series of overlapping BSSs, each containing an
access point, with each access point connected together by a wired network. This wired
connection between APs is called a Distribution System (DS).
This type of wireless LAN topology is called an Infrastructure WLAN. The Access Points not
only provide communication with the wired network but also mediate wireless network traffic
in the immediate neighborhood.
An ESSID (ESS IDentification) uniquely identifies each ESS. All access points and their
associated wireless stations within the same ESS must have the same ESSID in order to
communicate.
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Figure 204 Infrastructure WLAN
Channel
A channel is the radio frequency(ies) used by IEEE 802.11a/b/g wireless devices. Channels
available depend on your geographical area. You may have a choice of channels (for your
region) so you should use a different channel than an adjacent AP (access point) to reduce
interference. Interference occurs when radio signals from different access points overlap
causing interference and degrading performance.
Adjacent channels partially overlap however. To avoid interference due to overlap, your AP
should be on a channel at least five channels away from a channel that an adjacent AP is using.
For example, if your region has 11 channels and an adjacent AP is using channel 1, then you
need to select a channel between 6 or 11.
RTS/CTS
A hidden node occurs when two stations are within range of the same access point, but are not
within range of each other. The following figure illustrates a hidden node. Both stations (STA)
are within range of the access point (AP) or wireless gateway, but out-of-range of each other,
so they cannot "hear" each other, that is they do not know if the channel is currently being
used. Therefore, they are considered hidden from each other.
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Figure 205
RTS/CTS
When station A sends data to the AP, it might not know that the station B is already using the
channel. If these two stations send data at the same time, collisions may occur when both sets
of data arrive at the AP at the same time, resulting in a loss of messages for both stations.
RTS/CTS is designed to prevent collisions due to hidden nodes. An RTS/CTS defines the
biggest size data frame you can send before an RTS (Request To Send)/CTS (Clear to Send)
handshake is invoked.
When a data frame exceeds the RTS/CTS value you set (between 0 to 2432 bytes), the station
that wants to transmit this frame must first send an RTS (Request To Send) message to the AP
for permission to send it. The AP then responds with a CTS (Clear to Send) message to all
other stations within its range to notify them to defer their transmission. It also reserves and
confirms with the requesting station the time frame for the requested transmission.
Stations can send frames smaller than the specified RTS/CTS directly to the AP without the
RTS (Request To Send)/CTS (Clear to Send) handshake.
You should only configure RTS/CTS if the possibility of hidden nodes exists on your network
and the "cost" of resending large frames is more than the extra network overhead involved in
the RTS (Request To Send)/CTS (Clear to Send) handshake.
If the RTS/CTS value is greater than the Fragmentation Threshold value (see next), then the
RTS (Request To Send)/CTS (Clear to Send) handshake will never occur as data frames will
be fragmented before they reach RTS/CTS size.
Enabling the RTS Threshold causes redundant network overhead that could
negatively affect the throughput performance instead of providing a remedy.
Fragmentation Threshold
A Fragmentation Threshold is the maximum data fragment size (between 256 and 2432
bytes) that can be sent in the wireless network before the AP will fragment the packet into
smaller data frames.
A large Fragmentation Threshold is recommended for networks not prone to interference
while you should set a smaller threshold for busy networks or networks that are prone to
interference.
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If the Fragmentation Threshold value is smaller than the RTS/CTS value (see previously)
you set then the RTS (Request To Send)/CTS (Clear to Send) handshake will never occur as
data frames will be fragmented before they reach RTS/CTS size.
Preamble Type
A preamble is used to synchronize the transmission timing in your wireless network. There are
two preamble modes: Long and Short.
Short preamble takes less time to process and minimizes overhead, so it should be used in a
good wireless network environment when all wireless stations support it.
Select Long if you have a ‘noisy’ network or are unsure of what preamble mode your wireless
stations support as all IEEE 802.11b compliant wireless adapters must support long preamble.
However, not all wireless adapters support short preamble. Use long preamble if you are
unsure what preamble mode the wireless adapters support, to ensure interpretability between
the AP and the wireless stations and to provide more reliable communication in ‘noisy’
networks.
Select Dynamic to have the AP automatically use short preamble when all wireless stations
support it, otherwise the AP uses long preamble.
The AP and the wireless stations MUST use the same preamble mode in order
to communicate.
IEEE 802.11g Wireless LAN
IEEE 802.11g is fully compatible with the IEEE 802.11b standard. This means an IEEE
802.11b adapter can interface directly with an IEEE 802.11g access point (and vice versa) at
11 Mbps or lower depending on range. IEEE 802.11g has several intermediate rate steps
between the maximum and minimum data rates. The IEEE 802.11g data rate and modulation
are as follows:
Table 128 IEEE 802.11g
DATA RATE (MBPS)
MODULATION
DBPSK (Differential Binary Phase Shift Keyed)
DQPSK (Differential Quadrature Phase Shift Keying)
5.5 / 11
CCK (Complementary Code Keying)
6/9/12/18/24/36/48/54
OFDM (Orthogonal Frequency Division Multiplexing)
IEEE 802.1x
In June 2001, the IEEE 802.1x standard was designed to extend the features of IEEE 802.11 to
support extended authentication as well as providing additional accounting and control
features. It is supported by Windows XP and a number of network devices. Some advantages
of IEEE 802.1x are:
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• User based identification that allows for roaming.
• Support for RADIUS (Remote Authentication Dial In User Service, RFC 2138, 2139) for
centralized user profile and accounting management on a network RADIUS server.
• Support for EAP (Extensible Authentication Protocol, RFC 2486) that allows additional
authentication methods to be deployed with no changes to the access point or the wireless
stations.
RADIUS
RADIUS is based on a client-server model that supports authentication, authorization and
accounting. The access point is the client and the server is the RADIUS server. The RADIUS
server handles the following tasks:
• Authentication
Determines the identity of the users.
• Authorization
Determines the network services available to authenticated users once they are connected
to the network.
• Accounting
Keeps track of the client’s network activity.
RADIUS is a simple package exchange in which your AP acts as a message relay between the
wireless station and the network RADIUS server.
Types of RADIUS Messages
The following types of RADIUS messages are exchanged between the access point and the
RADIUS server for user authentication:
• Access-Request
Sent by an access point requesting authentication.
• Access-Reject
Sent by a RADIUS server rejecting access.
• Access-Accept
Sent by a RADIUS server allowing access.
• Access-Challenge
Sent by a RADIUS server requesting more information in order to allow access. The
access point sends a proper response from the user and then sends another Access-Request
message.
The following types of RADIUS messages are exchanged between the access point and the
RADIUS server for user accounting:
• Accounting-Request
Sent by the access point requesting accounting.
• Accounting-Response
Sent by the RADIUS server to indicate that it has started or stopped accounting.
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In order to ensure network security, the access point and the RADIUS server use a shared
secret key, which is a password, they both know. The key is not sent over the network. In
addition to the shared key, password information exchanged is also encrypted to protect the
network from unauthorized access.
Types of Authentication
This appendix discusses some popular authentication types: EAP-MD5, EAP-TLS, EAPTTLS, PEAP and LEAP.
The type of authentication you use depends on the RADIUS server or the AP. Consult your
network administrator for more information.
EAP-MD5 (Message-Digest Algorithm 5)
MD5 authentication is the simplest one-way authentication method. The authentication server
sends a challenge to the wireless station. The wireless station ‘proves’ that it knows the
password by encrypting the password with the challenge and sends back the information.
Password is not sent in plain text.
However, MD5 authentication has some weaknesses. Since the authentication server needs to
get the plaintext passwords, the passwords must be stored. Thus someone other than the
authentication server may access the password file. In addition, it is possible to impersonate an
authentication server as MD5 authentication method does not perform mutual authentication.
Finally, MD5 authentication method does not support data encryption with dynamic session
key. You must configure WEP encryption keys for data encryption.
EAP-TLS (Transport Layer Security)
With EAP-TLS, digital certifications are needed by both the server and the wireless stations
for mutual authentication. The server presents a certificate to the client. After validating the
identity of the server, the client sends a different certificate to the server. The exchange of
certificates is done in the open before a secured tunnel is created. This makes user identity
vulnerable to passive attacks. A digital certificate is an electronic ID card that authenticates the
sender’s identity. However, to implement EAP-TLS, you need a Certificate Authority (CA) to
handle certificates, which imposes a management overhead.
EAP-TTLS (Tunneled Transport Layer Service)
EAP-TTLS is an extension of the EAP-TLS authentication that uses certificates for only the
server-side authentications to establish a secure connection. Client authentication is then done
by sending username and password through the secure connection, thus client identity is
protected. For client authentication, EAP-TTLS supports EAP methods and legacy
authentication methods such as PAP, CHAP, MS-CHAP and MS-CHAP v2.
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PEAP (Protected EAP)
Like EAP-TTLS, server-side certificate authentication is used to establish a secure connection,
then use simple username and password methods through the secured connection to
authenticate the clients, thus hiding client identity. However, PEAP only supports EAP
methods, such as EAP-MD5, EAP-MSCHAPv2 and EAP-GTC (EAP-Generic Token Card),
for client authentication. EAP-GTC is implemented only by Cisco.
LEAP
LEAP (Lightweight Extensible Authentication Protocol) is a Cisco implementation of IEEE
802.1x.
Dynamic WEP Key Exchange
The AP maps a unique key that is generated with the RADIUS server. This key expires when
the wireless connection times out, disconnects or reauthentication times out. A new WEP key
is generated each time reauthentication is performed.
If this feature is enabled, it is not necessary to configure a default encryption key in the
Wireless screen. You may still configure and store keys here, but they will not be used while
Dynamic WEP is enabled.
EAP-MD5 cannot be used with dynamic WEP key exchange
For added security, certificate-based authentications (EAP-TLS, EAP-TTLS and PEAP) use
dynamic keys for data encryption. They are often deployed in corporate environments, but for
public deployment, a simple user name and password pair is more practical. The following
table is a comparison of the features of authentication types.
Table 129 Comparison of EAP Authentication Types
EAP-MD5
EAP-TLS
EAP-TTLS
PEAP
LEAP
Mutual Authentication
No
Yes
Yes
Yes
Yes
Certificate – Client
No
Yes
Optional
Optional
No
Certificate – Server
No
Yes
Yes
Yes
No
Dynamic Key Exchange
No
Yes
Yes
Yes
Yes
Credential Integrity
None
Strong
Strong
Strong
Moderate
Deployment Difficulty
Easy
Hard
Moderate
Moderate
Moderate
Client Identity Protection
No
No
Yes
Yes
No
WPA(2)
Wi-Fi Protected Access (WPA) is a subset of the IEEE 802.11i standard. WPA2 (IEEE
802.11i) is a wireless security standard that defines stronger encryption, authentication and
key management than WPA.
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Key differences between WPA(2) and WEP are improved data encryption and user
authentication.
Encryption
Both WPA and WPA2 improve data encryption by using Temporal Key Integrity Protocol
(TKIP), Message Integrity Check (MIC) and IEEE 802.1x. In addition to TKIP, WPA2 also
uses Advanced Encryption Standard (AES) in the Counter mode with Cipher block chaining
Message authentication code Protocol (CCMP) to offer stronger encryption.
Temporal Key Integrity Protocol (TKIP) uses 128-bit keys that are dynamically generated and
distributed by the authentication server. It includes a per-packet key mixing function, a
Message Integrity Check (MIC) named Michael, an extended initialization vector (IV) with
sequencing rules, and a re-keying mechanism.
TKIP regularly changes and rotates the encryption keys so that the same encryption key is
never used twice. The RADIUS server distributes a Pairwise Master Key (PMK) key to the AP
that then sets up a key hierarchy and management system, using the pair-wise key to
dynamically generate unique data encryption keys to encrypt every data packet that is
wirelessly communicated between the AP and the wireless clients. This all happens in the
background automatically.
WPA2 AES (Advanced Encryption Standard) is a block cipher that uses a 256-bit
mathematical algorithm called Rijndael.
The Message Integrity Check (MIC) is designed to prevent an attacker from capturing data
packets, altering them and resending them. The MIC provides a strong mathematical function
in which the receiver and the transmitter each compute and then compare the MIC. If they do
not match, it is assumed that the data has been tampered with and the packet is dropped.
By generating unique data encryption keys for every data packet and by creating an integrity
checking mechanism (MIC), TKIP makes it much more difficult to decode data on a Wi-Fi
network than WEP, making it difficult for an intruder to break into the network.
The encryption mechanisms used for WPA and WPA-PSK are the same. The only difference
between the two is that WPA-PSK uses a simple common password, instead of user-specific
credentials. The common-password approach makes WPA-PSK susceptible to brute-force
password-guessing attacks but it's still an improvement over WEP as it employs an easier-touse, consistent, single, alphanumeric password.
User Authentication
WPA or WPA2 applies IEEE 802.1x and Extensible Authentication Protocol (EAP) to
authenticate wireless clients using an external RADIUS database.
If both an AP and the wireless clients support WPA2 and you have an external RADIUS
server, use WPA2 for stronger data encryption. If you don't have an external RADIUS server,
you should use WPA2 -PSK (WPA2 -Pre-Shared Key) that only requires a single (identical)
password entered into each access point, wireless gateway and wireless client. As long as the
passwords match, a wireless client will be granted access to a WLAN.
If the AP or the wireless clients do not support WPA2, just use WPA or WPA-PSK depending
on whether you have an external RADIUS server or not.
Select WEP only when the AP and/or wireless clients do not support WPA or WPA2. WEP is
less secure than WPA or WPA2.
NBG460N User’s Guide
317
Appendix E Wireless LANs
26.6.2 WPA(2)-PSK Application Example
A WPA(2)-PSK application looks as follows.
1 First enter identical passwords into the AP and all wireless clients. The Pre-Shared Key
(PSK) must consist of between 8 and 63 ASCII characters (including spaces and
symbols).
2 The AP checks each wireless client's password and (only) allows it to join the network if
the password matches.
3 The AP derives and distributes keys to the wireless clients.
4 The AP and wireless clients use the TKIP or AES encryption process to encrypt data
exchanged between them.
Figure 206 WPA(2)-PSK Authentication
26.6.3 WPA(2) with RADIUS Application Example
You need the IP address of the RADIUS server, its port number (default is 1812), and the
RADIUS shared secret. A WPA(2) application example with an external RADIUS server
looks as follows. "A" is the RADIUS server. "DS" is the distribution system.
1 The AP passes the wireless client's authentication request to the RADIUS server.
2 The RADIUS server then checks the user's identification against its database and grants
or denies network access accordingly.
3 The RADIUS server distributes a Pairwise Master Key (PMK) key to the AP that then
sets up a key hierarchy and management system, using the pair-wise key to dynamically
generate unique data encryption keys to encrypt every data packet that is wirelessly
communicated between the AP and the wireless clients.
318
NBG460N User’s Guide
Appendix E Wireless LANs
Security Parameters Summary
Refer to this table to see what other security parameters you should configure for each
Authentication Method/ key management protocol type. MAC address filters are not
dependent on how you configure these security features.
Table 130 Wireless Security Relational Matrix
AUTHENTICATION
ENCRYPTIO
METHOD/ KEY
MANAGEMENT PROTOCOL N METHOD
ENTER
MANUAL KEY
IEEE 802.1X
Open
No
Disable
None
Enable without Dynamic WEP
Key
Open
Shared
WEP
WEP
No
Enable with Dynamic WEP Key
Yes
Enable without Dynamic WEP
Key
Yes
Disable
No
Enable with Dynamic WEP Key
Yes
Enable without Dynamic WEP
Key
Yes
Disable
WPA
TKIP
No
Enable
WPA-PSK
TKIP
Yes
Enable
WPA2
AES
No
Enable
WPA2-PSK
AES
Yes
Enable
NBG460N User’s Guide
319
Appendix E Wireless LANs
320
NBG460N User’s Guide
APPENDIX
Services
The following table lists some commonly-used services and their associated protocols and port
numbers.
• Name: This is a short, descriptive name for the service. You can use this one or create a
different one, if you like.
• Protocol: This is the type of IP protocol used by the service. If this is TCP/UDP, then the
service uses the same port number with TCP and UDP. If this is User-Defined, the Port(s)
is the IP protocol number, not the port number.
• Port(s): This value depends on the Protocol.
• If the Protocol is TCP, UDP, or TCP/UDP, this is the IP port number.
• If the Protocol is USER, this is the IP protocol number.
• Description: This is a brief explanation of the applications that use this service or the
situations in which this service is used.
Table 131 Examples of Services
NAME
PROTOCOL
PORT(S)
DESCRIPTION
AH
(IPSEC_TUNNEL)
User-Defined
51
The IPSEC AH (Authentication Header)
tunneling protocol uses this service.
AIM
TCP
5190
AOL’s Internet Messenger service.
AUTH
TCP
113
Authentication protocol used by some
servers.
BGP
TCP
179
Border Gateway Protocol.
BOOTP_CLIENT
UDP
68
DHCP Client.
BOOTP_SERVER
UDP
67
DHCP Server.
CU-SEEME
TCP/UDP
TCP/UDP
7648
24032
A popular videoconferencing solution from
White Pines Software.
DNS
TCP/UDP
53
Domain Name Server, a service that
matches web names (e.g. www.zyxel.com)
to IP numbers.
ESP
(IPSEC_TUNNEL)
User-Defined
50
The IPSEC ESP (Encapsulation Security
Protocol) tunneling protocol uses this
service.
FINGER
TCP
79
Finger is a UNIX or Internet related
command that can be used to find out if a
user is logged on.
FTP
TCP
TCP
20
21
File Transfer Program, a program to enable
fast transfer of files, including large files that
may not be possible by e-mail.
NBG460N User’s Guide
321
Appendix F Services
Table 131 Examples of Services (continued)
322
NAME
PROTOCOL
PORT(S)
DESCRIPTION
H.323
TCP
1720
NetMeeting uses this protocol.
HTTP
TCP
80
Hyper Text Transfer Protocol - a client/
server protocol for the world wide web.
HTTPS
TCP
443
HTTPS is a secured http session often used
in e-commerce.
ICMP
User-Defined
Internet Control Message Protocol is often
used for diagnostic purposes.
ICQ
UDP
4000
This is a popular Internet chat program.
IGMP (MULTICAST) User-Defined
Internet Group Multicast Protocol is used
when sending packets to a specific group of
hosts.
IKE
UDP
500
The Internet Key Exchange algorithm is
used for key distribution and management.
IMAP4
TCP
143
The Internet Message Access Protocol is
used for e-mail.
IMAP4S
TCP
993
This is a more secure version of IMAP4 that
runs over SSL.
IRC
TCP/UDP
6667
This is another popular Internet chat
program.
MSN Messenger
TCP
1863
Microsoft Networks’ messenger service
uses this protocol.
NetBIOS
TCP/UDP
TCP/UDP
TCP/UDP
TCP/UDP
137
138
139
445
The Network Basic Input/Output System is
used for communication between
computers in a LAN.
NEW-ICQ
TCP
5190
An Internet chat program.
NEWS
TCP
144
A protocol for news groups.
NFS
UDP
2049
Network File System - NFS is a client/
server distributed file service that provides
transparent file sharing for network
environments.
NNTP
TCP
119
Network News Transport Protocol is the
delivery mechanism for the USENET
newsgroup service.
PING
User-Defined
Packet INternet Groper is a protocol that
sends out ICMP echo requests to test
whether or not a remote host is reachable.
POP3
TCP
110
Post Office Protocol version 3 lets a client
computer get e-mail from a POP3 server
through a temporary connection (TCP/IP or
other).
POP3S
TCP
995
This is a more secure version of POP3 that
runs over SSL.
PPTP
TCP
1723
Point-to-Point Tunneling Protocol enables
secure transfer of data over public
networks. This is the control channel.
NBG460N User’s Guide
Appendix F Services
Table 131 Examples of Services (continued)
NAME
PROTOCOL
PORT(S)
DESCRIPTION
PPTP_TUNNEL
(GRE)
User-Defined
47
PPTP (Point-to-Point Tunneling Protocol)
enables secure transfer of data over public
networks. This is the data channel.
RCMD
TCP
512
Remote Command Service.
REAL_AUDIO
TCP
7070
A streaming audio service that enables real
time sound over the web.
REXEC
TCP
514
Remote Execution Daemon.
RLOGIN
TCP
513
Remote Login.
ROADRUNNER
TCP/UDP
1026
This is an ISP that provides services mainly
for cable modems.
RTELNET
TCP
107
Remote Telnet.
RTSP
TCP/UDP
554
The Real Time Streaming (media control)
Protocol (RTSP) is a remote control for
multimedia on the Internet.
SFTP
TCP
115
The Simple File Transfer Protocol is an old
way of transferring files between
computers.
SMTP
TCP
25
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.
SMTPS
TCP
465
This is a more secure version of SMTP that
runs over SSL.
SNMP
TCP/UDP
161
Simple Network Management Program.
SNMP-TRAPS
TCP/UDP
162
Traps for use with the SNMP (RFC:1215).
SQL-NET
TCP
1521
Structured Query Language is an interface
to access data on many different types of
database systems, including mainframes,
midrange systems, UNIX systems and
network servers.
SSDP
UDP
1900
The Simple Service Discovery Protocol
supports Universal Plug-and-Play (UPnP).
SSH
TCP/UDP
22
Secure Shell Remote Login Program.
STRM WORKS
UDP
1558
Stream Works Protocol.
SYSLOG
UDP
514
Syslog allows you to send system logs to a
UNIX server.
TACACS
UDP
49
Login Host Protocol used for (Terminal
Access Controller Access Control System).
TELNET
TCP
23
Telnet is the login and terminal emulation
protocol common on the Internet and in
UNIX environments. It operates over TCP/
IP networks. Its primary function is to allow
users to log into remote host systems.
NBG460N User’s Guide
323
Appendix F Services
Table 131 Examples of Services (continued)
324
NAME
PROTOCOL
PORT(S)
DESCRIPTION
TFTP
UDP
69
Trivial File Transfer Protocol is an Internet
file transfer protocol similar to FTP, but uses
the UDP (User Datagram Protocol) rather
than TCP (Transmission Control Protocol).
VDOLIVE
TCP
UDP
7000
userdefined
A videoconferencing solution. The UDP port
number is specified in the application.
NBG460N User’s Guide
APPENDIX
Legal Information
Copyright
Copyright © 2008 by ZyXEL Communications Corporation.
The contents of this publication may not be reproduced in any part or as a whole, transcribed,
stored in a retrieval system, translated into any language, or transmitted in any form or by any
means, electronic, mechanical, magnetic, optical, chemical, photocopying, manual, or
otherwise, without the prior written permission of ZyXEL Communications Corporation.
Published by ZyXEL Communications Corporation. All rights reserved.
Disclaimer
ZyXEL does not assume any liability arising out of the application or use of any products, or
software described herein. Neither does it convey any license under its patent rights nor the
patent rights of others. ZyXEL further reserves the right to make changes in any products
described herein without notice. This publication is subject to change without notice.
Trademarks
ZyNOS (ZyXEL Network Operating System) is a registered trademark of ZyXEL
Communications, Inc. Other trademarks mentioned in this publication are used for
identification purposes only and may be properties of their respective owners.
Certifications
Federal Communications Commission (FCC) Interference Statement
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.
This device 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 device 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.
NBG460N User’s Guide
325
Appendix G Legal Information
If this device does cause harmful interference to radio/television reception, which can be
determined by turning the device off and on, the user is encouraged to try to correct the
interference by one or more of the following measures:
1 Reorient or relocate the receiving antenna.
2 Increase the separation between the equipment and the receiver.
3 Connect the equipment into an outlet on a circuit different from that to which the
receiver is connected.
4 Consult the dealer or an experienced radio/TV technician for help.
FCC Radiation Exposure Statement
• This transmitter must not be co-located or operating in conjunction with any other antenna
or transmitter.
• IEEE 802.11b or 802.11g operation of this product in the U.S.A. is firmware-limited to
channels 1 through 11.
• To comply with FCC RF exposure compliance requirements, a separation distance of at
least 20 cm must be maintained between the antenna of this device and all persons.
ࣹრʳʴ
ࠉᖕʳʳ‫פ܅‬෷ሽंᘿ୴ࢤሽᖲጥ෻ᙄऄ
รԼԲයʳʳᆖী‫ڤ‬ᎁᢞ‫ٽ‬௑հ‫פ܅‬෷୴᙮ሽᖲΔॺᆖ๺‫ױ‬Δֆ‫׹‬Ε೸ᇆࢨࠌ‫ش‬
ृ݁լ൓ᖐ۞᧢‫ޓ‬᙮෷Ε‫ף‬Օ‫פ‬෷ࢨ᧢‫଺ޓ‬๻ૠհ௽ࢤ֗‫פ‬౨Ζ
รԼ؄යʳʳ‫פ܅‬෷୴᙮ሽᖲհࠌ‫ش‬լ൓ᐙ᥼ଆ౰‫ڜ‬٤֗եឫ‫ٽ‬ऄຏॾΙᆖ࿇෼
‫ڶ‬եឫ෼ွழΔᚨ‫ܛم‬ೖ‫ش‬Δࠀ‫ޏ‬࿳۟ྤեឫழֱ൓ᤉᥛࠌ‫ش‬Ζ
ছႈ‫ٽ‬ऄຏॾΔਐࠉሽॾ๵ࡳ‫܂‬ᄐհྤᒵሽॾΖ‫פ܅‬෷୴᙮ሽᖲႊ‫ݴ‬
࠹‫ٽ‬ऄຏॾࢨՠᄐΕઝᖂ֗᠔᛭‫ش‬ሽंᘿ୴ࢤሽᖲ๻ໂհեឫΖʳ
‫ء‬ᖲૻ‫ڇ‬լեឫ‫ٽ‬ऄሽፕፖլ࠹๯եឫঅᎽයٙՀ࣍৛փࠌ‫ش‬Ζ!
྇֟ሽ጖ंᐙ᥼Δᓮ‫ݔ‬ᔞࠌ‫ش‬Ζ
Notices
Changes or modifications not expressly approved by the party responsible for compliance
could void the user's authority to operate the equipment.
This device has been designed for the WLAN 2.4 GHz network throughout the EC region and
Switzerland, with restrictions in France.
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme NMB-003 du Canada.
Viewing Certifications
1 Go to http://www.zyxel.com.
2 Select your product on the ZyXEL home page to go to that product's page.
326
NBG460N User’s Guide
Appendix G Legal Information
3 Select the certification you wish to view from this page.
ZyXEL Limited Warranty
ZyXEL warrants to the original end user (purchaser) that this product is free from any defects
in materials or workmanship for a period of up to two years from the date of purchase. During
the warranty period, and upon proof of purchase, should the product have indications of failure
due to faulty workmanship and/or materials, ZyXEL will, at its discretion, repair or replace the
defective products or components without charge for either parts or labor, and to whatever
extent it shall deem necessary to restore the product or components to proper operating
condition. Any replacement will consist of a new or re-manufactured functionally equivalent
product of equal or higher value, and will be solely at the discretion of ZyXEL. This warranty
shall not apply if the product has been modified, misused, tampered with, damaged by an act
of God, or subjected to abnormal working conditions.
Note
Repair or replacement, as provided under this warranty, is the exclusive remedy of the
purchaser. This warranty is in lieu of all other warranties, express or implied, including any
implied warranty of merchantability or fitness for a particular use or purpose. ZyXEL shall in
no event be held liable for indirect or consequential damages of any kind to the purchaser.
To obtain the services of this warranty, contact your vendor. You may also refer to the
warranty policy for the region in which you bought the device at http://www.zyxel.com/web/
support_warranty_info.php.
Registration
Register your product online to receive e-mail notices of firmware upgrades and information
at www.zyxel.com for global products, or at www.us.zyxel.com for North American products.
NBG460N User’s Guide
327
Appendix G Legal Information
328
NBG460N User’s Guide
APPENDIX
Customer Support
In the event of problems that cannot be solved by using this manual, you should contact your
vendor. If you cannot contact your vendor, then contact a ZyXEL office for the region in
which you bought the device. Regional offices are listed below (see also http://
www.zyxel.com/web/contact_us.php). Please have the following information ready when you
contact an office.
Required Information
•
•
•
•
Product model and serial number.
Warranty Information.
Date that you received your device.
Brief description of the problem and the steps you took to solve it.
“+” is the (prefix) number you dial to make an international telephone call.
Corporate Headquarters (Worldwide)
•
•
•
•
•
•
Support E-mail: support@zyxel.com.tw
Sales E-mail: sales@zyxel.com.tw
Telephone: +886-3-578-3942
Fax: +886-3-578-2439
Web: www.zyxel.com, www.europe.zyxel.com
Regular Mail: ZyXEL Communications Corp., 6 Innovation Road II, Science Park,
Hsinchu 300, Taiwan
China - ZyXEL Communications (Beijing) Corp.
•
•
•
•
•
•
Support E-mail: cso.zycn@zyxel.cn
Sales E-mail: sales@zyxel.cn
Telephone: +86-010-82800646
Fax: +86-010-82800587
Address: 902, Unit B, Horizon Building, No.6, Zhichun Str, Haidian District, Beijing
Web: http://www.zyxel.cn
China - ZyXEL Communications (Shanghai) Corp.
•
•
•
•
Support E-mail: cso.zycn@zyxel.cn
Sales E-mail: sales@zyxel.cn
Telephone: +86-021-61199055
Fax: +86-021-52069033
NBG460N User’s Guide
329
Appendix H Customer Support
• Address: 1005F, ShengGao International Tower, No.137 XianXia Rd., Shanghai
• Web: http://www.zyxel.cn
Costa Rica
•
•
•
•
•
•
•
Support E-mail: soporte@zyxel.co.cr
Sales E-mail: sales@zyxel.co.cr
Telephone: +506-2017878
Fax: +506-2015098
Web: www.zyxel.co.cr
FTP: ftp.zyxel.co.cr
Regular Mail: ZyXEL Costa Rica, Plaza Roble Escazú, Etapa El Patio, Tercer Piso, San
José, Costa Rica
Czech Republic
•
•
•
•
•
E-mail: info@cz.zyxel.com
Telephone: +420-241-091-350
Fax: +420-241-091-359
Web: www.zyxel.cz
Regular Mail: ZyXEL Communications, Czech s.r.o., Modranská 621, 143 01 Praha 4 Modrany, Ceská Republika
Denmark
•
•
•
•
•
•
Support E-mail: support@zyxel.dk
Sales E-mail: sales@zyxel.dk
Telephone: +45-39-55-07-00
Fax: +45-39-55-07-07
Web: www.zyxel.dk
Regular Mail: ZyXEL Communications A/S, Columbusvej, 2860 Soeborg, Denmark
Finland
•
•
•
•
•
•
Support E-mail: support@zyxel.fi
Sales E-mail: sales@zyxel.fi
Telephone: +358-9-4780-8411
Fax: +358-9-4780-8448
Web: www.zyxel.fi
Regular Mail: ZyXEL Communications Oy, Malminkaari 10, 00700 Helsinki, Finland
France
•
•
•
•
•
330
E-mail: info@zyxel.fr
Telephone: +33-4-72-52-97-97
Fax: +33-4-72-52-19-20
Web: www.zyxel.fr
Regular Mail: ZyXEL France, 1 rue des Vergers, Bat. 1 / C, 69760 Limonest, France
NBG460N User’s Guide
Appendix H Customer Support
Germany
•
•
•
•
•
•
Support E-mail: support@zyxel.de
Sales E-mail: sales@zyxel.de
Telephone: +49-2405-6909-69
Fax: +49-2405-6909-99
Web: www.zyxel.de
Regular Mail: ZyXEL Deutschland GmbH., Adenauerstr. 20/A2 D-52146, Wuerselen,
Germany
Hungary
•
•
•
•
•
•
Support E-mail: support@zyxel.hu
Sales E-mail: info@zyxel.hu
Telephone: +36-1-3361649
Fax: +36-1-3259100
Web: www.zyxel.hu
Regular Mail: ZyXEL Hungary, 48, Zoldlomb Str., H-1025, Budapest, Hungary
India
•
•
•
•
•
•
Support E-mail: support@zyxel.in
Sales E-mail: sales@zyxel.in
Telephone: +91-11-30888144 to +91-11-30888153
Fax: +91-11-30888149, +91-11-26810715
Web: http://www.zyxel.in
Regular Mail: India - ZyXEL Technology India Pvt Ltd., II-Floor, F2/9 Okhla Phase -1,
New Delhi 110020, India
Japan
•
•
•
•
•
•
Support E-mail: support@zyxel.co.jp
Sales E-mail: zyp@zyxel.co.jp
Telephone: +81-3-6847-3700
Fax: +81-3-6847-3705
Web: www.zyxel.co.jp
Regular Mail: ZyXEL Japan, 3F, Office T&U, 1-10-10 Higashi-Gotanda, Shinagawa-ku,
Tokyo 141-0022, Japan
Kazakhstan
•
•
•
•
•
•
Support: http://zyxel.kz/support
Sales E-mail: sales@zyxel.kz
Telephone: +7-3272-590-698
Fax: +7-3272-590-689
Web: www.zyxel.kz
Regular Mail: ZyXEL Kazakhstan, 43 Dostyk Ave., Office 414, Dostyk Business Centre,
050010 Almaty, Republic of Kazakhstan
NBG460N User’s Guide
331
Appendix H Customer Support
Malaysia
•
•
•
•
•
•
Support E-mail: support@zyxel.com.my
Sales E-mail: sales@zyxel.com.my
Telephone: +603-8076-9933
Fax: +603-8076-9833
Web: http://www.zyxel.com.my
Regular Mail: ZyXEL Malaysia Sdn Bhd., 1-02 & 1-03, Jalan Kenari 17F, Bandar
Puchong Jaya, 47100 Puchong, Selangor Darul Ehsan, Malaysia
North America
•
•
•
•
•
•
•
Support E-mail: support@zyxel.com
Support Telephone: +1-800-978-7222
Sales E-mail: sales@zyxel.com
Sales Telephone: +1-714-632-0882
Fax: +1-714-632-0858
Web: www.zyxel.com
Regular Mail: ZyXEL Communications Inc., 1130 N. Miller St., Anaheim, CA 928062001, U.S.A.
Norway
•
•
•
•
•
•
Support E-mail: support@zyxel.no
Sales E-mail: sales@zyxel.no
Telephone: +47-22-80-61-80
Fax: +47-22-80-61-81
Web: www.zyxel.no
Regular Mail: ZyXEL Communications A/S, Nils Hansens vei 13, 0667 Oslo, Norway
Poland
•
•
•
•
•
E-mail: info@pl.zyxel.com
Telephone: +48-22-333 8250
Fax: +48-22-333 8251
Web: www.pl.zyxel.com
Regular Mail: ZyXEL Communications, ul. Okrzei 1A, 03-715 Warszawa, Poland
Russia
•
•
•
•
•
•
332
Support: http://zyxel.ru/support
Sales E-mail: sales@zyxel.ru
Telephone: +7-095-542-89-29
Fax: +7-095-542-89-25
Web: www.zyxel.ru
Regular Mail: ZyXEL Russia, Ostrovityanova 37a Str., Moscow 117279, Russia
NBG460N User’s Guide
Appendix H Customer Support
Singapore
•
•
•
•
•
•
Support E-mail: support@zyxel.com.sg
Sales E-mail: sales@zyxel.com.sg
Telephone: +65-6899-6678
Fax: +65-6899-8887
Web: http://www.zyxel.com.sg
Regular Mail: ZyXEL Singapore Pte Ltd., No. 2 International Business Park, The Strategy
#03-28, Singapore 609930
Spain
•
•
•
•
•
•
Support E-mail: support@zyxel.es
Sales E-mail: sales@zyxel.es
Telephone: +34-902-195-420
Fax: +34-913-005-345
Web: www.zyxel.es
Regular Mail: ZyXEL Communications, Arte, 21 5ª planta, 28033 Madrid, Spain
Sweden
•
•
•
•
•
•
Support E-mail: support@zyxel.se
Sales E-mail: sales@zyxel.se
Telephone: +46-31-744-7700
Fax: +46-31-744-7701
Web: www.zyxel.se
Regular Mail: ZyXEL Communications A/S, Sjöporten 4, 41764 Göteborg, Sweden
Taiwan
•
•
•
•
•
•
Support E-mail: support@zyxel.com.tw
Sales E-mail: sales@zyxel.com.tw
Telephone: +886-2-27399889
Fax: +886-2-27353220
Web: http://www.zyxel.com.tw
Address: Room B, 21F., No.333, Sec. 2, Dunhua S. Rd., Da-an District, Taipei
Thailand
•
•
•
•
•
•
Support E-mail: support@zyxel.co.th
Sales E-mail: sales@zyxel.co.th
Telephone: +662-831-5315
Fax: +662-831-5395
Web: http://www.zyxel.co.th
Regular Mail: ZyXEL Thailand Co., Ltd., 1/1 Moo 2, Ratchaphruk Road, Bangrak-Noi,
Muang, Nonthaburi 11000, Thailand.
NBG460N User’s Guide
333
Appendix H Customer Support
Turkey
•
•
•
•
•
Support E-mail: cso@zyxel.com.tr
Telephone: +90 212 222 55 22
Fax: +90-212-220-2526
Web: http:www.zyxel.com.tr
Address: Kaptanpasa Mahallesi Piyalepasa Bulvari Ortadogu Plaza N:14/13 K:6
Okmeydani/Sisli Istanbul/Turkey
Ukraine
•
•
•
•
•
•
Support E-mail: support@ua.zyxel.com
Sales E-mail: sales@ua.zyxel.com
Telephone: +380-44-247-69-78
Fax: +380-44-494-49-32
Web: www.ua.zyxel.com
Regular Mail: ZyXEL Ukraine, 13, Pimonenko Str., Kiev 04050, Ukraine
United Kingdom
•
•
•
•
•
•
•
334
Support E-mail: support@zyxel.co.uk
Sales E-mail: sales@zyxel.co.uk
Telephone: +44-1344-303044, 08707-555779 (UK only)
Fax: +44-1344-303034
Web: www.zyxel.co.uk
FTP: ftp.zyxel.co.uk
Regular Mail: ZyXEL Communications UK Ltd., 11 The Courtyard, Eastern Road,
Bracknell, Berkshire RG12 2XB, United Kingdom (UK)
NBG460N User’s Guide
Index
Index
active protocol 188
AH 188
and encapsulation 189
ESP 188
ActiveX 162
address resolution protocol (ARP) 129
AH 188
and transport mode 189
Alert 234
alternative subnet mask notation 287
any IP
note 129
AP 259
AP (Access Point) 311
AP Mode 259
menu 68
overview 65
status screen 66
AP network 259
Asymmetrical routes 154
and IP alias 154
see also triangle routes 154
authentication algorithms 185, 190
and active protocol 185
Authentication Header. See AH.
Auto-bridge 126
CA 315
Certificate Authority 315
certifications 325
notices 326
viewing 326
Channel 41, 67, 311
Interference 311
channel 89
command interface 33
Configuration
backup 253
reset the factory defaults 254
restore 253
contact information 329
Content Filtering
Days and Times 161
Restrict Web Features 161
Cookies 162
copyright 325
CPU usage 41, 67
CTS (Clear to Send) 312
customer support 329
Backup configuration 253
Bandwidth management 62
application-based 199
classes and priorities 202
monitor 206
overview 199
priority 200
services 201
subnet-based 199
Bandwidth management monitor 44
Basic wireless security 53
BitTorrent 201
BSS 309
NBG460N User’s Guide
Daylight saving 231
DDNS 147
see also Dynamic DNS
DHCP 45, 133
DHCP server
see also Dynamic Host Configuration Protocol
DHCP client information 135
DHCP client list 135
DHCP server 127, 133
DHCP table 45, 135
DHCP client information
DHCP status
Diffie-Hellman key group 185
Perfect Forward Secrecy (PFS) 189
Dimensions 273
disclaimer 325
DNS 59, 135
335
Index
DNS server
see also Domain name system
DNS (Domain Name System) 212
DNS Server
For VPN Host 190
DNS server 135
Domain name 51
vs host name. see also system name
Domain Name System 135
duplex setting 42, 68
Dynamic DNS 147
Dynamic Host Configuration Protocol 133
Dynamic WEP Key Exchange 316
DynDNS Wildcard 147
EAP Authentication 315
e-mail 105
Encapsulating Security Payload. See ESP.
encapsulation
and active protocol 189
transport mode 188
tunnel mode 188
VPN 188
Encryption 317
encryption 91
and local (user) database 91
key 92
WPA compatible 92
encryption algorithms 185, 190
and active protocol 185
ESP 188
and transport mode 189
ESS 310
ESSID 269
Extended Service Set 310
Extended wireless security 54
Factory LAN defaults 127
FCC interference statement 325
feature specifications 275
File Transfer Program 201
Firewall 153
Firewall overview
guidelines 154
336
ICMP packets 156
network security
Stateful inspection 153
ZyXEL device firewall 153
Firmware upload 251
file extension
using HTTP
firmware version 40, 67
Fragmentation Threshold 312
FTP 33, 212
FTP. see also File Transfer Program 201
gateway 196
General wireless LAN screen 94
Hidden Node 311
HTTP 201
Hyper Text Transfer Protocol 201
IANA 292
IBSS 309
IEEE 802.11g 313
IGMP 117, 128
see also Internet Group Multicast Protocol
version
IGMP version 117, 128
IKE SA
aggressive mode 166, 187
authentication algorithms 185, 190
Diffie-Hellman key group 185
encryption algorithms 185, 190
ID content 186
ID type 186
IP address, remote IPSec router 167
IP address, ZyXEL Device 166
local identity 186
main mode 166, 187
NAT traversal 188
negotiation mode 166
peer identity 186
pre-shared key 186
proposal 185
NBG460N User’s Guide
Index
SA life time 190
IKE SA. See also VPN.
Independent Basic Service Set 309
Install UPnP 217
Windows Me 217
Windows XP 218
Internet Assigned Numbers Authority
See IANA
Internet connection
Ethernet
PPPoE. see also PPP over Ethernet
PPTP
WAN connection
Internet connection wizard 54
Internet Group Multicast Protocol 117, 128
Internet Protocol Security. See IPSec.
IP Address 130, 139
IP address 59
dynamic
IP alias 130
IP packet transmission 128
Broadcast
Multicast
Unicast
IP Pool 133
IPSec 165
IPSec SA
active protocol 188
authentication algorithms 185, 190
authentication key (manual keys) 179
encapsulation 188
encryption algorithms 185, 190
encryption key (manual keys) 179
local policy 167
manual keys 179
Perfect Forward Secrecy (PFS) 189
proposal 189
remote policy 167
SA life time 190
Security Parameter Index (SPI) (manual keys) 180
transport mode 188
tunnel mode 188
when IKE SA is disconnected 167, 190
IPSec SA. See also VPN.
IPSec. See also VPN.
Keep alive 190
LAN 127
IP pool setup 127
LAN overview 127
LAN Setup 117
LAN setup 127
LAN TCP/IP 127
Language 263
Link type 41, 67
local (user) database 90
and encryption 91
Local Area Network 127
Log 233
MAC 101
MAC address 90, 117
cloning 61, 117
MAC address filter 90
MAC address filtering 101
MAC filter 101
managing the device
good habits 33
using FTP. See FTP.
using Telnet. See command interface.
using the command interface. See command
interface.
using the web configurator. See web configurator.
Media access control 101
Memory usage 41, 67
Metric 197
MSN messenger 201
MSN Webcam 201
Multicast 117, 128
IGMP 117, 128
Java 162
NAT 137, 139, 292
NBG460N User’s Guide
337
Index
and VPN 187
overview 137
port forwarding 137
see also Network Address Translation
server sets 137
NAT session 144
NAT Traversal 215
NAT traversal 188
Navigation Panel 42, 68
navigation panel 42, 68
NetBIOS 125, 132
see also Network Basic Input/Output System 125
Network Address Translation 137, 139
Network Basic Input/Output System 132
Operating Channel 41, 67
P2P 201
peer-to-peer 201
Perfect Forward Secrecy. see PFS.
PFS 189
Diffie-Hellman key group 189
Pocket GUI 108
Point-to-Point Protocol over Ethernet 55, 119
Point-to-Point Tunneling Protocol 56, 122
Pool Size 133
Port forwarding 137, 139
default server 137
example 138
local server 139
port numbers
services
port speed 42, 68
Power Specification 273
PPPoE 55, 119
benefits 56
dial-up connection
see also Point-to-Point Protocol over Ethernet 55
PPTP 56, 122
see also Point-to-Point Tunneling Protocol 56
Preamble Mode 313
priorities 94
Private 197
product registration 327
338
QoS 94
QoS priorities 94
Quality of Service (QoS) 103
RADIUS 314
Shared Secret Key 315
RADIUS Message Types 314
RADIUS Messages 314
RADIUS server 90
registration
product 327
related documentation 3
Remote management 209
and NAT 210
and the firewall 209
FTP 212
limitations 209
remote management session 209
system timeout 210
remote management
Telnet 211
Reset button 39, 254
Reset the device 39
Restore configuration 253
Restrict Web Features 162
RF (Radio Frequency) 274
RFC 2402. See AH.
RFC 2406. See ESP.
RoadRunner 119
Roaming 102
roaming 92
requirements 93
router 259
Router Mode 259
RTS (Request To Send) 312
RTS Threshold 311, 312
RTS/CTS Threshold 103
SA
life time 190
safety warnings 6
NBG460N User’s Guide
Index
Scheduling 107
security associations. See VPN.
Security Parameters 319
Service and port numbers 201
Service Set 95
Service Set IDentification 95
Service Set IDentity. See SSID.
services
and port numbers 321
and protocols 321
Session Initiated Protocol 201
Simple Mail Transfer Protocol 236
SIP 201
SMTP 236
SNMP 154
SSID 41, 67, 89, 95
Static DHCP 134
Static Route 195
Status 39
subnet 285
Subnet Mask 130
subnet mask 59, 286
subnetting 288
Summary 44
Bandwidth management monitor 44
DHCP table 45
Packet statistics 46
Wireless station status 47
syntax conventions 4
Sys Op Mode 259
selecting 260
System General Setup 229
System Name 229
System name 50
vs computer name
System restart 254
TCP/IP configuration 133
Telnet 211
Temperature 273
Time setting 230
trademarks 325
Triangle routes
and IP alias 154
see also asymmetrical routes 154
trigger port 142
Trigger port forwarding 142
example 142
NBG460N User’s Guide
process 142
Universal Plug and Play 215
Application 215
UPnP 215
Forum 216
security issues 215
URL Keyword Blocking 162
Use Authentication 317
user authentication 90
local (user) database 90
RADIUS server 90
User Name 148
Virtual Private Network. See VPN.
VoIP 201
VPN 80, 122, 165
active protocol 188
and NAT 187
established in two phases 166
IKE SA. See IKE SA.
IPSec 165
IPSec SA. See IPSec SA.
local network 165
proposal 185
remote IPSec router 165
remote network 165
security associations (SA) 166
VPN. See also IKE SA, IPSec SA.
Wake On LAN 139, 141, 255
WAN
IP address assignment 58
WAN advanced 125
WAN IP address 58
WAN IP address assignment 60
WAN MAC address 117
warranty 327
note 327
Web Configurator
how to access 37
339
Index
Overview 37
Web configurator
navigating 39
web configurator 33
Web Proxy 162
WEP Encryption 97
WEP encryption 96
WEP key 97
Wi-Fi Multimedia QoS 94
Wildcard 147
Windows Networking 132
Wireless association list 47
wireless channel 269
wireless LAN 269
wireless LAN scheduling 107
Wireless LAN wizard 51
Wireless network
basic guidelines 89
channel 89
encryption 91
example 89
MAC address filter 90
overview 89
security 90
SSID 89
Wireless security 90
overview 90
type 90
wireless security 269
Wireless tutorial 65, 73
WPS 73
Wizard setup 49
Bandwidth management 62
complete 63
Internet connection 54
system information 50
wireless LAN 51
WLAN
Interference 311
Security Parameters 319
WMM 94
WMM priorities 94
WoL. See Wake On LAN.
World Wide Web 201
WPA compatible 92
WPA, WPA2 316
WPS 34
WWW 105, 201
340
Xbox Live 201
ZyNOS 40, 67
NBG460N User’s Guide
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