ZyXEL Communications VMG4380B10A Wireles N VDSL2 4-port Bonding Combo WAN Gateway with HPNA User Manual Manual 2
ZyXEL Communications Corporation Wireles N VDSL2 4-port Bonding Combo WAN Gateway with HPNA Manual 2
Contents
- 1. Manual 1
- 2. Manual 2
Manual 2
Chapter 11 Network Address Translation (NAT)
VMG4380-B10A / VMG4325-B10A User’s Guide 181
11.3 The Applications Screen
This screen provides a summary of all NAT applications and their configuration. In addition, this
screen allows you to create new applications and/or remove existing ones.
To access this screen, click Network Setting > NAT > Applications. The following screen
appears.
Figure 78 Network Setting > NAT > Applications
The following table describes the labels in this screen.
End Port Enter the last port of the original destination port range.
To forward only one port, enter the port number in the 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 Start Port field above.
Translation
Start Port
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.
Translation End
Port
This shows the last port of the translated port range.
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.
OK Click OK to save your changes.
Cancel Click Cancel to exit this screen without saving.
Table 54 Port Forwarding: Add/Edit (continued)
LABEL DESCRIPTION
Table 55 Network Setting > NAT > Applications
LABEL DESCRIPTION
Add new
application
Click this to add a new NAT application rule.
Application
Forwarded
This field shows the type of application that the service forwards.
WAN Interface This field shows the WAN interface through which the service is forwarded.
Server IP
Address
This field displays the destination IP address for the service.
Modify Click the Delete icon to delete the rule.
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11.3.1 Add New Application
This screen lets you create new NAT application rules. Click Add new application in the
Applications screen to open the following screen.
Figure 79 Applications: Add
The following table describes the labels in this screen.
11.4 The Port Triggering Screen
Some services use a dedicated range of ports on the client side and a dedicated range of ports on
the server side. With regular port forwarding you set a forwarding port in NAT to forward a service
(coming in from the server on the WAN) to the IP address of a computer on the client side (LAN).
The problem is that port forwarding only forwards a service to a single LAN IP address. In order to
use the same service on a different LAN computer, you have to manually replace the LAN
computer's IP address in the forwarding port with another LAN computer's IP address.
Trigger port forwarding solves this problem by allowing computers on the LAN to dynamically take
turns using the service. The Device records the IP address of a LAN computer that sends traffic to
the WAN to request a service with a specific port number and protocol (a "trigger" port). When the
Device's WAN port receives a response with a specific port number and protocol ("open" port), the
Device forwards the traffic to the LAN IP address of the computer that sent the request. After that
computer’s connection for that service closes, another computer on the LAN can use the service in
the same manner. This way you do not need to configure a new IP address each time you want a
different LAN computer to use the application.
Table 56 Applications: Add
LABEL DESCRIPTION
WAN Interface Select the WAN interface that you want to apply this NAT rule to.
Server IP
Address
Enter the inside IP address of the application here.
Application
Category
Select the category of the application from the drop-down list box.
Application
Forwarded
Select a service from the drop-down list box and the Device automatically configures the
protocol, start, end, and map port number that define the service.
View Rule Click this to display the configuration of the service that you have chosen in Application
Fowarded.
OK Click OK to save your changes.
Cancel Click Cancel to exit this screen without saving.
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For example:
Figure 80 Trigger Port Forwarding Process: Example
1Jane requests a file from the Real Audio server (port 7070).
2Port 7070 is a “trigger” port and causes the Device to record Jane’s computer IP address. The
Device associates Jane's computer IP address with the "open" port range of 6970-7170.
3The Real Audio server responds using a port number ranging between 6970-7170.
4The Device forwards the traffic to Jane’s computer IP address.
5Only Jane can connect to the Real Audio server until the connection is closed or times out. The
Device times out in three minutes with UDP (User Datagram Protocol) or two hours with TCP/IP
(Transfer Control Protocol/Internet Protocol).
Click Network Setting > NAT > Port Triggering to open the following screen. Use this screen to
view your Device’s trigger port settings.
Figure 81 Network Setting > NAT > Port Triggering
The following table describes the labels in this screen.
Table 57 Network Setting > NAT > Port Triggering
LABEL DESCRIPTION
Add new rule Click this to create a new rule.
# This is the index number of the entry.
Status This field displays whether the port triggering 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 field displays the name of the service used by this rule.
WAN Interface This field shows the WAN interface through which the service is forwarded.
Trigger Start
Port
The trigger port is a port (or a range of ports) that causes (or triggers) the Device to record
the IP address of the LAN computer that sent the traffic to a server on the WAN.
This is the first port number that identifies a service.
Trigger End
Port
This is the last port number that identifies a service.
Trigger Proto. This is the trigger transport layer protocol.
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11.4.1 Add/Edit Port Triggering Rule
This screen lets you create new port triggering rules. Click Add new rule in the Port Triggering
screen or click a rule’s Edit icon to open the following screen.
Figure 82 Port Triggering: Add/Edit
The following table describes the labels in this screen.
Open Start Port The open port is a port (or a range of ports) that a server on the WAN uses when it sends
out a particular service. The Device forwards the traffic with this port (or range of ports) to
the client computer on the LAN that requested the service.
This is the first port number that identifies a service.
Open End Port This is the last port number that identifies a service.
Open Proto. This is the open transport layer protocol.
Modify Click the Edit icon to edit this rule.
Click the Delete icon to delete an existing rule.
Table 57 Network Setting > NAT > Port Triggering (continued)
LABEL DESCRIPTION
Table 58 Port Triggering: Configuration Add/Edit
LABEL DESCRIPTION
Active Select the check box to enable this rule.
Service Name Enter a name to identify this rule using keyboard characters (A-Z, a-z, 1-2 and so on).
WAN Interface Select a WAN interface for which you want to configure port triggering rules.
Trigger Start
Port
The trigger port is a port (or a range of ports) that causes (or triggers) the Device to record
the IP address of the LAN computer that sent the traffic to a server on the WAN.
Type a port number or the starting port number in a range of port numbers.
Trigger End
Port
Type a port number or the ending port number in a range of port numbers.
Trigger Protocol Select the transport layer protocol from TCP, UDP, or TCP/UDP.
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11.5 The DMZ Screen
In addition to the servers for specified services, NAT supports a default server IP address. A default
server receives packets from ports that are not specified in the NAT Port Forwarding Setup
screen.
Figure 83 Network Setting > NAT > DMZ
The following table describes the fields in this screen.
Open Start Port The open port is a port (or a range of ports) that a server on the WAN uses when it sends
out a particular service. The Device forwards the traffic with this port (or range of ports) to
the client computer on the LAN that requested the service.
Type a port number or the starting port number in a range of port numbers.
Open End Port Type a port number or the ending port number in a range of port numbers.
Open Protocol Select the transport layer protocol from TCP, UDP, or TCP/UDP.
OK Click OK to save your changes.
Cancel Click Cancel to exit this screen without saving.
Table 58 Port Triggering: Configuration Add/Edit (continued)
LABEL DESCRIPTION
Table 59 Network Setting > NAT > DMZ
LABEL DESCRIPTION
Default Server
Address
Enter the IP address of the default server which receives packets from ports that are not
specified in the NAT Port Forwarding screen.
Note: If you do not assign a Default Server Address, the Device discards all packets
received for ports that are not specified in the NAT Port Forwarding screen.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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11.6 The ALG Screen
Some NAT routers may include a SIP Application Layer Gateway (ALG). A 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 your Device is behind a SIP ALG.
Use this screen to enable and disable the NAT and SIP (VoIP) ALG in the Device. To access this
screen, click Network Setting > NAT > ALG.
Figure 84 Network Setting > NAT > ALG
The following table describes the fields in this screen.
11.7 The Address Mapping Screen
Ordering your rules is important because the Device applies the rules in the order that you specify.
When a rule matches the current packet, the Device takes the corresponding action and the
remaining rules are ignored.
Click Network Setting > NAT > Address Mapping to display the following screen.
Figure 85 Network Setting > NAT > Address Mapping
Table 60 Network Setting > NAT > ALG
LABEL DESCRIPTION
NAT ALG Enable this to make sure applications such as FTP and file transfer in IM applications work
correctly with port-forwarding and address-mapping rules.
SIP ALG Enable this to make sure SIP (VoIP) works correctly with port-forwarding and address-
mapping rules.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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The following table describes the fields in this screen.
11.7.1 Add/Edit Address Mapping Rule
To add or edit an address mapping rule, click Add new rule or the rule’s edit icon in the Address
Mapping screen to display the screen shown next.
Figure 86 Address Mapping: Add/Edit
Table 61 Network Setting > NAT > Address Mapping
LABEL DESCRIPTION
Add new rule Click this to create a new rule.
Set This is the index number of the address mapping set.
Local Start IP This is the starting Inside Local IP Address (ILA).
Local End IP This is the ending Inside Local IP Address (ILA). If the rule is for all local IP addresses, then
this field displays 0.0.0.0 as the Local Start IP address and 255.255.255.255 as the Local
End IP address. This field is blank for One-to-One mapping types.
Global Start IP This is the starting Inside Global IP Address (IGA). Enter 0.0.0.0 here if you have a dynamic
IP address from your ISP. You can only do this for the Many-to-One mapping type.
Global End IP This is the ending Inside Global IP Address (IGA). This field is blank for One-to-One and
Many-to-One mapping types.
Type This is the address mapping type.
One-to-One: This mode maps one local IP address to one global IP address. Note that port
numbers do not change for the One-to-one NAT mapping type.
Many-to-One: This mode maps multiple local IP addresses to one global IP address. This is
equivalent to SUA (i.e., PAT, port address translation), the Device's Single User Account
feature that previous routers supported only.
Many-to-Many: This mode maps multiple local IP addresses to shared global IP addresses.
Modify Click the Edit icon to go to the screen where you can edit the address mapping rule.
Click the Delete icon to delete an existing address mapping rule. Note that subsequent
address mapping rules move up by one when you take this action.
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The following table describes the fields in this screen.
11.8 Technical Reference
This part contains more information regarding NAT.
11.8.1 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.
Table 62 Address Mapping: Add/Edit
LABEL DESCRIPTION
Type Choose the IP/port mapping type from one of the following.
One-to-One: This mode maps one local IP address to one global IP address. Note that port
numbers do not change for the One-to-one NAT mapping type.
Many-to-One: This mode maps multiple local IP addresses to one global IP address. This is
equivalent to SUA (i.e., PAT, port address translation), the Device's Single User Account
feature that previous routers supported only.
Many-to-Many: This mode maps multiple local IP addresses to shared global IP addresses.
Local Start IP Enter the starting Inside Local IP Address (ILA).
Local End IP Enter the ending Inside Local IP Address (ILA). If the rule is for all local IP addresses, then
this field displays 0.0.0.0 as the Local Start IP address and 255.255.255.255 as the Local
End IP address. This field is blank for One-to-One mapping types.
Global Start IP Enter the starting Inside Global IP Address (IGA). Enter 0.0.0.0 here if you have a dynamic
IP address from your ISP. You can only do this for the Many-to-One mapping type.
Global End IP Enter the ending Inside Global IP Address (IGA). This field is blank for One-to-One and
Many-to-One mapping types.
Set Select the number of the mapping set for which you want to configure.
OK Click OK to save your changes.
Cancel Click Cancel to exit this screen without saving.
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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.
NAT never changes the IP address (either local or global) of an outside host.
11.8.2 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 (for Many-
to-One and Many-to-Many Overload mapping), 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).
Table 63 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.
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11.8.3 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-to-Many 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 87 How NAT Works
192.168.1.13
192.168.1.10
192.168.1.11
192.168.1.12 SA
192.168.1.10
SA
IGA1
Inside Local
IP Address
192.168.1.10
192.168.1.11
192.168.1.12
192.168.1.13
Inside Global
IP Address
IGA 1
IGA 2
IGA 3
IGA 4
NAT Table
WAN
LAN
Inside Local
Address (ILA)
Inside Global
Address (IGA)
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11.8.4 NAT Application
The following figure illustrates a possible NAT application, where three inside LANs (logical LANs
using IP alias) behind the Device can communicate with three distinct WAN networks.
Figure 88 NAT Application With IP Alias
Port Forwarding: Services and Port Numbers
The most often used port numbers are shown in the following table. Please refer to RFC 1700 for
further information about port numbers. Please also refer to the Supporting CD for more examples
and details on port forwarding and NAT.
Table 64 Services and Port Numbers
SERVICES PORT NUMBER
ECHO 7
FTP (File Transfer Protocol) 21
SMTP (Simple Mail Transfer Protocol) 25
DNS (Domain Name System) 53
Finger 79
HTTP (Hyper Text Transfer protocol or WWW, Web) 80
POP3 (Post Office Protocol) 110
NNTP (Network News Transport Protocol) 119
SNMP (Simple Network Management Protocol) 161
SNMP trap 162
PPTP (Point-to-Point Tunneling Protocol) 1723
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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 192.168.1.35 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 89 Multiple Servers Behind NAT Example
D=192.168.1.36
192.168.1.1
IP address assigned by ISP
A=192.168.1.33
B=192.168.1.34
C=192.168.1.35
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CHAPTER 12
Dynamic DNS Setup
12.1 Overview
DNS
DNS (Domain Name System) is for mapping 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 machine before you can access it.
In addition to the system DNS server(s), each WAN interface (service) is set to have its own static
or dynamic DNS server list. You can configure a DNS static route to forward DNS queries for certain
domain names through a specific WAN interface to its DNS server(s). The Device uses a system
DNS server (in the order you specify in the Broadband screen) to resolve domain names that do
not match any DNS routing entry. After the Device receives a DNS reply from a DNS server, it
creates a new entry for the resolved IP address in the routing table.
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 NetMeeting, CU-SeeMe, etc.). 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 Can Do in this Chapter
• Use the DNS Entry screen to view, configure, or remove DNS routes (Section 12.2 on page
194).
• Use the Dynamic DNS screen to enable DDNS and configure the DDNS settings on the Device
(Section 12.3 on page 195).
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12.1.2 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.
12.2 The DNS Entry Screen
Use this screen to view and configure DNS routes on the Device. Click Network Setting > DNS to
open the DNS Entry screen.
Figure 90 Network Setting > DNS > DNS Entry
The following table describes the fields in this screen.
Table 65 Network Setting > DNS > DNS Entry
LABEL DESCRIPTION
Add new DNS
entry
Click this to create a new DNS entry.
# This is the index number of the entry.
Hostname This indicates the host name or domain name.
IP Address This indicates the IP address assigned to this computer.
Modify Click the Edit icon to edit the rule.
Click the Delete icon to delete an existing rule.
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12.2.1 Add/Edit DNS Entry
You can manually add or edit the Device’s DNS name and IP address entry. Click Add new DNS
entry in the DNS Entry screen or the Edit icon next to the entry you want to edit. The screen
shown next appears.
Figure 91 DNS Entry: Add/Edit
The following table describes the labels in this screen.
12.3 The Dynamic DNS Screen
Use this screen to change your Device’s DDNS. Click Network Setting > DNS > Dynamic DNS.
The screen appears as shown.
Figure 92 Network Setting > DNS > Dynamic DNS
Table 66 DNS Entry: Add/Edit
LABEL DESCRIPTION
Host Name Enter the host name of the DNS entry.
IP Address Enter the IP address of the DNS entry.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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The following table describes the fields in this screen.
Table 67 Network Setting > DNS > > Dynamic DNS
LABEL DESCRIPTION
Dynamic DNS Select Enable to use dynamic DNS.
Service
Provider
Select your Dynamic DNS service provider from the drop-down list box.
Hostname Type the domain name assigned to your Device by your Dynamic DNS provider.
You can specify up to two host names in the field separated by a comma (",").
Username Type your user name.
Password Type the password assigned to you.
Email If you select TZO in the Service Provider field, enter the user name you used to register
for this service.
Key If you select TZO in the Service Provider field, enter the password you used to register for
this service.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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CHAPTER 13
Interface Group
13.1 Overview
By default, all LAN and WAN interfaces on the Device are in the same group and can communicate
with each other. Create interface groups to have the Device assign the IP addresses in different
domains to different groups. Each group acts as an independent network on the Device. This lets
devices connected to an interface group’s LAN interfaces communicate through the interface
group’s WAN or LAN interfaces but not other WAN or LAN interfaces.
13.1.1 What You Can Do in this Chapter
The Interface Group screens let you create multiple networks on the Device (Section 13.2 on
page 197).
13.2 The Interface Group Screen
You can manually add a LAN interface to a new group. Alternatively, you can have the Device
automatically add the incoming traffic and the LAN interface on which traffic is received to an
interface group when its DHCP Vendor ID option information matches one listed for the interface
group.
Use the LAN screen to configure the private IP addresses the DHCP server on the Device assigns to
the clients in the default and/or user-defined groups. If you set the Device to assign IP addresses
based on the client’s DHCP Vendor ID option information, you must enable DHCP server and
configure LAN TCP/IP settings for both the default and user-defined groups. See Chapter 8 on page
131 for more information.
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In the following example, the client that sends packets with the DHCP Vendor ID option set to MSFT
5.0 (meaning it is a Windows 2000 DHCP client) is assigned the IP address 192.168.2.2 and uses
the WAN VDSL_PoE/ppp0.1 interface.
Figure 93 Interface Grouping Application
Click Network Setting > Interface Group to open the following screen.
Figure 94 Network Setting > Interface Group
The following table describes the fields in this screen.
13.2.1 Interface Group Configuration
Click the Add New Interface Group button in the Interface Group screen to open the following
screen. Use this screen to create a new interface group.
Table 68 Network Setting > Interface Group
LABEL DESCRIPTION
Add New
Interface Group
Click this button to create a new interface group.
Group Name This shows the descriptive name of the group.
WAN Interface This shows the WAN interfaces in the group.
LAN Interfaces This shows the LAN interfaces in the group.
Criteria This shows the filtering criteria for the group.
Modify Click the Delete icon to remove the group.
Add Click this button to create a new group.
Default: ETH 2~4
Internet
192.168.1.x/24
192.168.2.x/24
VDSL_PoE/ppp0.1
eth10.0
DHCP Vendor ID option: MSFT 5.0
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Note: An interface can belong to only one group at a time.
Figure 95 Interface Group Configuration
The following table describes the fields in this screen.
Table 69 Interface Group Configuration
LABEL DESCRIPTION
Group Name Enter a name to identify this group. You can enter up to 30 characters. You can use letters,
numbers, hyphens (-) and underscores (_). Spaces are not allowed.
WAN Interface
used in the
grouping
Select the WAN interface this group uses. The group can have up to one PTM interface and
up to one ATM interface.
Select None to not add a WAN interface to this group.
Grouped LAN
Interfaces
Available LAN
Interfaces
Select one or more LAN interfaces (Ethernet LAN, HPNA or wireless LAN) in the Available
LAN Interfaces list and use the left arrow to move them to the Grouped LAN Interfaces
list to add the interfaces to this group.
To remove a LAN or wireless LAN interface from the Grouped LAN Interfaces, use the
right-facing arrow.
Automatically
Add Clients
With the
following DHCP
Vendor IDs
Click Add to identify LAN hosts to add to the interface group by criteria such as the type of
the hardware or firmware. See Section 13.2.2 on page 200 for more information.
# This shows the index number of the rule.
Filter Criteria This shows the filtering criteria. The LAN interface on which the matched traffic is received
will belong to this group automatically.
WildCard
Support
This shows if wildcard on DHCP option 60 is enabled.
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13.2.2 Interface Grouping Criteria
Click the Add button in the Interface Grouping Configuration screen to open the following
screen.
Figure 96 Interface Grouping Criteria
The following table describes the fields in this screen.
Remove Click the Remove icon to delete this rule from the Device.
Apply Click Apply to save your changes back to the Device.
Cancel Click Cancel to exit this screen without saving.
Table 69 Interface Group Configuration (continued)
LABEL DESCRIPTION
Table 70 Interface Grouping Criteria
LABEL DESCRIPTION
Source MAC
Address
Enter the source MAC address of the packet.
DHCP Option
60
Select this option and enter the Vendor Class Identifier (Option 60) of the matched traffic,
such as the type of the hardware or firmware.
Enable
wildcard on
DHCP
option 60
option
Select this option to be able to use wildcards in the Vendor Class Identifier configured for
DHCP option 60.
DHCP Option
61
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.
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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 Option
125
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).
Manufactur
er 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.
Apply Click Apply to save your changes back to the Device.
Cancel Click Cancel to exit this screen without saving.
Table 70 Interface Grouping Criteria (continued)
LABEL DESCRIPTION
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CHAPTER 14
USB Service
14.1 Overview
The Device has a USB port used to share files via a USB memory stick or a USB hard drive. In the
USB Service screens, you can enable file-sharing server, media server, and printer server.
14.1.1 What You Can Do in this Chapter
• Use the File Sharing screen to enable file-sharing server (Section 14.2 on page 204).
• Use the Media Server screen to enable or disable the sharing of media files (Section 14.3 on
page 206).
• Use the Printer Server screen to enable the print server (Section 14.4 on page 207).
14.1.2 What You Need To Know
The following terms and concepts may help as you read this chapter.
14.1.2.1 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 File Allocation Table (FAT) and FAT32.
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
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protocol is supported on Microsoft Windows, Linux Samba and other operating systems (refer to
your systems specifications for CIFS compatibility).
14.1.2.2 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.
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.
14.2 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 97 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.
14.2.1 Before You Begin
Make sure the Device is connected to your network and turned on.
1Connect the USB device to one of the Device’s USB port. Make sure the Device is connected to your
network.
2The 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.
Note: If your USB device cannot be detected by the Device, see the troubleshooting for
suggestions.
Use this screen to set up file sharing using the Device. To access this screen, click Network
Setting > USB Service > File Sharing.
Figure 98 Network Setting > USB Service > File Sharing
A
BC
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Each field is described in the following table.
14.3 The Media Server Screen
The media server feature lets anyone on your network play video, music, and photos from the USB
storage device connected to your Device (without having to copy them to another computer). The
Device can function as a DLNA-compliant media server. The Device streams files to DLNA-compliant
media clients (like Windows Media Player). The Digital Living Network Alliance (DLNA) is a group of
personal computer and electronics companies that works to make products compatible in a home
network.
The Device media server enables you to:
• Publish all shares for everyone to play media files in the USB storage device connected to the
Device.
• Use hardware-based media clients like the DMA-2500 to play the files.
Note: Anyone on your network can play the media files in the published shares. No user
name and password or other form of security is used. The media server is enabled
by default with the video, photo, and music shares published.
To change your Device’s media server settings, click Network Setting > USB Service > Media
Server. The screen appears as shown.
Figure 99 Network Setting > USB Service > Media Server
Table 71 Network Setting > Home Networking > File Sharing
LABEL DESCRIPTION
File Sharing
Services
Select Enable to activate file sharing through the Device.
Host Name Enter the host name on the share.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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The following table describes the labels in this menu.
14.4 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 adding the printer on the computers
connected to your network. See Section 4.11 on page 62 for instructions on adding a printer on
your computer.
Figure 100 Sharing a USB Printer
14.4.1 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.
• See Section 4.11 on page 62 for instructions on adding a printer on your computer.
Note: 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.
Table 72 Network Setting > USB Service > Media Server
LABEL DESCRIPTION
Media Server Select Enable to have the Device function as a DLNA-compliant media server.
Enable the media server to let (DLNA-compliant) media clients on your network play media
files located in the shares.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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To access this screen, click Network Setting > USB Service > Printer Server.
Figure 101 Network Setting > USB Service > Printer Server
The following table describes the labels in this menu.
Table 73 Network Setting > USB Service > Print Server
LABEL DESCRIPTION
Printer Server Select Enable to have the Device share a USB printer.
Printer Name Enter the name of the printer.
Make and
model
Enter the manufacturer and model number of the printer.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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CHAPTER 15
Firewall
15.1 Overview
This chapter shows you how to enable and configure the Device’s security settings. Use the firewall
to protect your Device and network from attacks by hackers on the Internet and control access to
it. By default 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.
The following figure illustrates the default 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 102 Default Firewall Action
15.1.1 What You Can Do in this Chapter
• Use the General screen to configure the security level of the firewall on the Device (Section 15.2
on page 211).
• Use the Service screen to add or remove predefined Internet services and configure firewall
rules (Section 15.3 on page 211).
• Use the Access Control screen to view and configure incoming/outgoing filtering rules (Section
15.4 on page 213).
• Use the DoS screen to activate protection against Denial of Service (DoS) attacks (Section 15.5
on page 216).
WAN
LAN
3
4
1
2
A
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15.1.2 What You Need to Know
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 three-way 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 ZyXEL Device is pre-configured to automatically detect and
thwart all known DoS attacks.
DDoS
A 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 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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15.2 The Firewall Screen
Use this screen to set the security level of the firewall on the Device. Firewall rules are grouped
based on the direction of travel of packets to which they apply.
Click Security > Firewall to display the General screen.
Figure 103 Security > Firewall > General
The following table describes the labels in this screen.
15.3 The Service Screen
You can configure customized services and port numbers in the Service screen. For a
comprehensive list of port numbers and services, visit the IANA (Internet Assigned Number
Authority) website. See Appendix F on page 349 for some examples.
Table 74 Security > Firewall > General
LABEL DESCRIPTION
Firewall Select Enable to activate the firewall feature on the Device.
Easy Select Easy to allow LAN to WAN and WAN to LAN packet directions.
Medium Select Medium to allow LAN to WAN but deny WAN to LAN packet directions.
High Select High to deny LAN to WAN and WAN to LAN packet directions.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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Click Security > Firewall > Service to display the following screen.
Figure 104 Security > Firewall > Service
The following table describes the labels in this screen.
15.3.1 Add/Edit a Service
Use this screen to add a customized service rule that you can use in the firewall’s ACL rule
configuration. Click Add new service entry or the edit icon next to an existing service rule in the
Service screen to display the following screen.
Figure 105 Service: Add/Edit
Table 75 Security > Firewall > Service
LABEL DESCRIPTION
Add new
service entry
Click this to add a new service.
Name This is the name of your customized service.
Description This is the description of your customized service.
Ports/Protocol
Number
This shows the IP protocol (TCP, UDP, ICMP, or TCP/UDP) and the port number or range
of ports that defines your customized service. Other and the protocol number displays if the
service uses another IP protocol.
Modify Click the Edit icon to edit the entry.
Click the Delete icon to remove this entry.
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The following table describes the labels in this screen.
15.4 The Access Control Screen
Click Security > Firewall > Access Control to display the following screen. This screen displays a
list of the configured incoming or outgoing filtering rules.
Figure 106 Security > Firewall > Access Control
Table 76 Service: Add/Edit
LABEL DESCRIPTION
Protocol Choose the IP protocol (TCP, UDP, ICMP, or Other) that defines your customized port from
the drop-down list box. Select Other to be able to enter a protocol number.
Source/
Destination Port
These fields are displayed if you select TCP or UDP as the IP port.
Select Single to specify one port only or Range to specify a span of ports that define your
customized service. If you select Any, the service is applied to all ports.
Type a single port number or the range of port numbers that define your customized
service.
Protocol
Number
This field is displayed if you select Other as the protocol.
Enter the protocol number of your customized port.
Add Click this to add the protocol to the Rule List below.
Rule List
Protocol This is the IP port (TCP, UDP, ICMP, or Other) that defines your customized port.
Ports/Protocol
Number
For TCP, UDP, ICMP, or TCP/UDP protocol rules this shows the port number or range that
defines the custom service. For other IP protocol rules this shows the protocol number.
Modify Click the Delete icon to remove the rule.
Service Name Enter a unique name (up to 32 printable English keyboard characters, including spaces) for
your customized port.
Service
Description
Enter a description for your customized port.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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The following table describes the labels in this screen.
Table 77 Security > Firewall > Access Control
LABEL DESCRIPTION
DoS Protection DoS (Denial of Service) attacks can flood your Internet connection with invalid packets and
connection requests, using so much bandwidth and so many resources that Internet access
becomes unavailable.
Select the Enable check box to enable protection against DoS attacks.
Add new ACL
rule
Click this to go to add a filter rule for incoming or outgoing IP traffic.
# This is the index number of the entry.
Name This displays the name of the rule.
Src IP This displays the source IP addresses to which this rule applies. Please note that a blank
source address is equivalent to Any.
Dst IP This displays the destination IP addresses to which this rule applies. Please note that a
blank destination address is equivalent to Any.
Service This displays the transport layer protocol that defines the service and the direction of traffic
to which this rule applies.
Action This field displays whether the rule 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 (ACCEPT).
Modify Click the Edit icon to edit the rule.
Click the Delete icon to delete an existing rule. Note that subsequent rules move up by one
when you take this action.
Click the Move To icon to change the order of the rule. Enter the number in the # field.
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15.4.1 Add/Edit an ACL Rule
Click Add new ACL rule or the Edit icon next to an existing ACL rule in the Access Control
screen. The following screen displays.
Figure 107 Access Control: Add/Edit
The following table describes the labels in this screen.
Table 78 Access Control: Add/Edit
LABEL DESCRIPTION
Filter Name Enter a descriptive name of up to 16 alphanumeric characters, not including spaces,
underscores, and dashes.
You must enter the filter name to add an ACL rule. This field is read-only if you are editing
the ACL rule.
Order Select the order of the ACL rule.
Select Source
Device
Select the source device to which the ACL rule applies. If you select Specific IP Address,
enter the source IP address in the field below.
Source IP
Address
Enter the source IP address.
Select
Destination
Device
Select the destination device to which the ACL rule applies. If you select Specific IP
Address, enter the destiniation IP address in the field below.
Destination IP
Address
Enter the destination IP address.
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15.5 The DoS Screen
DoS (Denial of Service) attacks can flood your Internet connection with invalid packets and
connection requests, using so much bandwidth and so many resources that Internet access
becomes unavailable.
Use the DoS screen to activate protection against DoS attacks. Click Security > Firewall > DoS
to display the following screen.
Figure 108 Security > Firewall > DoS
IP Type Select whether your IP type is IPv4 or IPv6.
Select Protocol Select the transport layer protocol that defines your customized port from the drop-down
list box. The specific protocol rule sets you add in the Security > Firewall > Service >
Add screen display in this list.
If you want to configure a customized protocol, select Specific Service.
Protocol This field is displayed only when you select Specific Protocol in Select Protocol.
Choose the IP port (TCP/UDP, TCP, UDP, ICMP, or ICMPv6) that defines your customized
port from the drop-down list box.
Custom Source
Port
This field is displayed only when you select Specific Protocol in Select Protocol.
Enter a single port number or the range of port numbers of the source.
Custom
Destination Port
This field is displayed only when you select Specific Protocol in Select Protocol.
Enter a single port number or the range of port numbers of the destination.
Policy 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
(ACCEPT) packets that match this rule.
Direction Use the drop-down list box to select the direction of traffic to which this rule applies.
Enable Rate
Limit
Select this check box to set a limit on the upstream/downstream transmission rate for the
specified protocol.
Specify how many packets per minute or second the transmission rate is.
Scheduler Rules Select a schedule rule for this ACL rule form the drop-down list box. You can configure a
new schedule rule by click Add New Rule. This will bring you to the Security > Scheduler
Rules screen.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
Table 78 Access Control: Add/Edit (continued)
LABEL DESCRIPTION
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The following table describes the labels in this screen.
Table 79 Security > Firewall > DoS
LABEL DESCRIPTION
DoS Protection
Blocking
Select Enable to enable protection against DoS attacks.
Deny Ping
Response
Select Enable to block ping request packets.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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CHAPTER 16
MAC Filter
16.1 Overview
You can configure the Device to permit access to clients based on their MAC addresses in the MAC
Filter screen. This applies to wired and wireless connections. 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.
16.2 The MAC Filter Screen
Use this screen to allow wireless and LAN clients access to the Device. Click Security > MAC Filter.
The screen appears as shown.
Figure 109 Security > MAC Filter
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The following table describes the labels in this screen.
Table 80 Security > MAC Filter
LABEL DESCRIPTION
MAC Address Filter Select Enable to activate the MAC filter function.
Set This is the index number of the MAC address.
Allow Select Allow to permit access to the Device. MAC addresses not listed will be denied
access to the Device.
If you clear this, the MAC Address field for this set clears.
Host name Enter the host name of the wireless or LAN clients that are allowed access to the
Device.
MAC Address Enter the MAC addresses of the wireless or LAN clients that are allowed 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.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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CHAPTER 17
Parental Control
17.1 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.
17.2 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 110 Security > Parental Control
The following table describes the fields in this screen.
Table 81 Security > 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 This shows the name of the rule.
Home Network
User (MAC)
This shows the MAC address of the LAN user’s computer to which this rule applies.
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17.2.1 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 111 Parental Control Rule: Add/Edit
Internet Access
Schedule
This shows the day(s) 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 Block 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.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
Table 81 Security > Parental Control (continued)
LABEL DESCRIPTION
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The following table describes the fields in this screen.
Table 82 Parental Control Rule: Add/Edit
LABEL DESCRIPTION
General
Active Select the checkbox to activate this parental control rule.
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 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 Allow, 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.
# This shows the index number of the rule. Select the checkbox next to the rule to activate it.
Service Name This shows the name of the rule.
Protocol:Port This shows the protocol and the port of the rule.
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 Keyword
Click Add to show a screen to enter the URL of web site or URL keyword to which the Device
blocks access. Click Delete to remove it.
Apply Click this button to save your settings back to the Device.
Cancel Click Cancel to restore your previously saved settings.
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CHAPTER 18
Scheduler Rules
18.1 Overview
You can define time periods and days during which the Device performs scheduled rules of certain
features (such as Firewall Access Control, Parental Control) on a specific user in the Scheduler Rules
screen.
18.2 The Scheduler Rules Screen
Use this screen to view, add, or edit time schedule rules.
Click Security > Scheduler Rules to open the following screen.
Figure 112 Security > Scheduler Rules
The following table describes the fields in this screen.
Table 83 Security > Scheduler Rules
LABEL DESCRIPTION
Add new rule Click this to create a new rule.
# This is the index number of the entry.
Rule Name This shows the name of the rule.
Day This shows the day(s) on which this rule is enabled.
Time This shows the period of time on which this rule is enabled.
Description This shows the description of this rule.
Modify Click the Edit icon to edit the schedule.
Click the Delete icon to delete a scheduler rule.
Note: You cannot delete a scheduler rule once it is applied to a certain feature.
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18.2.1 Add/Edit a Schedule
Click the Add button in the Scheduler Rules screen or click the Edit icon next to a schedule rule
to open the following screen. Use this screen to configure a restricted access schedule for a specific
user on your network.
Figure 113 Scheduler Rules: Add/Edit
The following table describes the fields in this screen.
Table 84 Scheduler Rules: Add/Edit
LABEL DESCRIPTION
Rule Name Enter a name (up to 31 printable English keyboard characters, not including spaces) for this
schedule.
Day Select check boxes for the days that you want the Device to perform this scheduler rule.
Time if Day
Range
Enter the time period of each day, in 24-hour format, during which parental control will be
enforced.
Description Enter a description for this scheduler rule.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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CHAPTER 19
Certificates
19.1 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.
19.1.1 What You Can Do in this Chapter
• The Local Certificates screen lets you generate certification requests and import the Device's
CA-signed certificates (Section 19.4 on page 231).
• The Trusted CA screen lets you save the certificates of trusted CAs to the Device (Section 19.4
on page 231).
19.2 What You Need to Know
The following terms and concepts may help as you read through this chapter.
Certification Authority
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. The certification authority uses its private key to sign certificates. Anyone
can then use the certification authority's public key to verify the certificates. You can use the Device
to generate certification requests that contain identifying information and public keys and then send
the certification requests to a certification authority.
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19.3 The Local Certificates Screen
Click Security > Certificates to open the Local Certificates screen. This is the Device’s summary
list of certificates and certification requests.
Figure 114 Security > Certificates > Local Certificates
The following table describes the labels in this screen.
Table 85 Security > Certificates > Local Certificates
LABEL DESCRIPTION
Private Key is
protected by a
password?
Select the checkbox and enter the private key into the text box to store it on the Device.
The private key should not exceed 63 ASCII characters (not including spaces).
Browse... Click this to find the certificate file you want to upload.
Import Certificate Click this button to save the certificate that you have enrolled from a certification
authority from your computer to the Device.
Create Certificate
Request
Click this button to go to the screen where you can have the Device generate a
certification request.
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.
Modify Click the View icon to open a screen with an in-depth list of information about the
certificate (or certification request).
For a certification request, click Load Signed to import the signed certificate.
Click the Remove icon to delete the certificate (or certification request). You cannot
delete a certificate that one or more features is configured to use.
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19.3.1 Create Certificate Request
Click Security > Certificates > Local Certificates and then Create Certificate Request to
open the following screen. Use this screen to have the Device generate a certification request.
Figure 115 Create Certificate Request
The following table describes the labels in this screen.
After you click Apply, the following screen displays to notify you that you need to get the certificate
request signed by a Certificate Authority. If you already have, click Load_Signed to import the
signed certificate into the Device. Otherwise click Back to return to the Local Certificates screen.
Table 86 Create Certificate Request
LABEL DESCRIPTION
Certificate
Name
Type up to 63 ASCII characters (not including spaces) to identify this certificate.
Common Name Select Auto to have the Device configure this field automatically. Or select Customize to
enter it manually.
Type the IP address (in dotted decimal notation), domain name or e-mail address in the field
provided. The domain name or e-mail address can be up to 63 ASCII characters. The
domain name or e-mail address is for identification purposes only and can be any string.
Organization
Name
Type up to 63 characters to identify the company or group to which the certificate owner
belongs. You may use any character, including spaces, but the Device drops trailing spaces.
State/Province
Name
Type up to 32 characters to identify the state or province where the certificate owner is
located. You may use any character, including spaces, but the Device drops trailing spaces.
Country/Region
Name
Select a country to identify the nation where the certificate owner is located.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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Figure 116 Certificate Request Created
19.3.2 Load Signed Certificate
After you create a certificate request and have it signed by a Certificate Authority, in the Local
Certificates screen click the certificate request’s Load Signed icon to import the signed certificate
into the Device.
Note: You must remove any spaces from the certificate’s filename before you can import
it.
Figure 117 Load Signed Certificate
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The following table describes the labels in this screen.
19.4 The Trusted CA Screen
Click Security > Certificates > Trusted CA to open the following screen. This screen displays 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.
Figure 118 Security > Certificates > Trusted CA
The following table describes the fields in this screen.
Table 87 Load Signed Certificate
LABEL DESCRIPTION
Certificate
Name
This is the name of the signed certificate.
Certificate Copy and paste the signed certificate into the text box to store it on the Device.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
Table 88 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.
# This is the index number of the entry.
Name This field displays the name used to identify this certificate.
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.
Modify Click the View icon to open a screen with an in-depth list of information about the
certificate (or certification request).
Click the Remove button to delete the certificate (or certification request). You cannot
delete a certificate that one or more features is configured to use.
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19.4.1 View Trusted CA Certificate
Click the View icon in the Trusted CA screen to open the following screen. Use this screen to view
in-depth information about the certification authority’s certificate.
Figure 119 Trusted CA: View
The following table describes the fields in this screen.
Table 89 Trusted CA: View
LABEL DESCRIPTION
Name This field displays the identifying name of this certificate.
Type This field displays general information about the certificate. ca means that a Certification
Authority signed the certificate.
Subject This field displays information that identifies the owner of the certificate, such as Common
Name (CN), Organizational Unit (OU), Organization (O) and Country (C).
Certificate This read-only text box displays the certificate in Privacy Enhanced Mail (PEM) format. PEM
uses base 64 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 Click Back to return to the previous screen.
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19.4.2 Import Trusted CA Certificate
Click the Import Certificate button in the Trusted CA screen to open the following screen. The
Device trusts any valid certificate signed by any of the imported trusted CA certificates.
Figure 120 Trusted CA: Import Certificate
The following table describes the fields in this screen.
Table 90 Trusted CA: Import Certificate
LABEL DESCRIPTION
Certificate File
Path
Type in the location of the certificate you want to upload in this field or click Browse ... to
find it.
Enable Trusted
CA for 802.1x
Authentication
If you select this checkbox, the trusted CA will be used for 802.1x authentication. The
selected trusted CA will be displayed in the Network Setting > Broadband > 802.1x:
Edit screen.
Certificate Copy and paste the certificate into the text box to store it on the Device.
OK Click OK to save your changes.
Cancel Click Cancel to exit this screen without saving.
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CHAPTER 20
Log
20.1 Overview
The web configurator allows you to choose which categories of events and/or alerts to have the
Device log and then display the logs or have the Device send them to an administrator (as e-mail)
or to a syslog server.
20.1.1 What You Can Do in this Chapter
• Use the System Log screen to see the system logs (Section 20.2 on page 236).
• Use the Security Log screen to see the security-related logs for the categories that you select
(Section 20.3 on page 237).
20.1.2 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.
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 91 Syslog Severity Levels
CODE SEVERITY
0 Emergency: The system is unusable.
1 Alert: Action must be taken immediately.
2 Critical: The system condition is critical.
3 Error: There is an error condition on the system.
4 Warning: There is a warning condition on the system.
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20.2 The System Log Screen
Use the System Log screen to see the system logs. Click System Monitor > Log to open the
System Log screen.
Figure 121 System Monitor > Log > System Log
The following table describes the fields in this screen.
5 Notice: There is a normal but significant condition on the system.
6 Informational: The syslog contains an informational message.
7 Debug: The message is intended for debug-level purposes.
Table 91 Syslog Severity Levels
CODE SEVERITY
Table 92 System Monitor > Log > System Log
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.
Category Select the type of logs to display.
Clear Log Click this to delete all the logs.
Refresh Click this to renew the log screen.
Export Log Click this to export the selected log(s).
Email Log Now Click this to send the log file(s) to the E-mail address you specify in the Maintenance >
Logs Setting screen.
System Log
# This field is a sequential value and is not associated with a specific entry.
Time This field displays the time the log was recorded.
Facility The log facility allows you to send logs to different files in the syslog server. Refer to the
documentation of your syslog program for more details.
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.
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20.3 The Security Log Screen
Use the Security Log screen to see the security-related logs for the categories that you select.
Click System Monitor > Log > Security Log to open the following screen.
Figure 122 System Monitor > Log > Security Log
The following table describes the fields in this screen.
Table 93 System Monitor > Log > Security Log
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.
Category Select the type of logs to display.
Clear Log Click this to delete all the logs.
Refresh Click this to renew the log screen.
Export Log Click this to export the selected log(s).
Email Log Now Click this to send the log file(s) to the E-mail address you specify in the Maintenance >
Logs 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.
Facility The log facility allows you to send logs to different files in the syslog server. Refer to the
documentation of your syslog program for more details.
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.
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CHAPTER 21
Traffic Status
21.1 Overview
Use the Traffic Status screens to look at network traffic status and statistics of the WAN and LAN
interfaces.
21.1.1 What You Can Do in this Chapter
• Use the WAN screen to view the WAN traffic statistics (Section 21.2 on page 239).
• Use the LAN screen to view the LAN traffic statistics (Section 21.3 on page 241).
21.2 The WAN Status Screen
Click System Monitor > Traffic Status to open the WAN screen. The figure in this screen shows
the number of bytes received and sent on the Device.
Figure 123 System Monitor > Traffic Status > WAN
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The following table describes the fields in this screen.
Table 94 System Monitor > Traffic Status > WAN
LABEL DESCRIPTION
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
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.
more...hide
more
Click more... to show more information. Click hide more to hide them.
Disabled
Interface
This shows the name of the WAN interface that is currently disconnected.
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
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.
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21.3 The LAN Status Screen
Click System Monitor > Traffic Status > LAN to open the following screen. The figure in this
screen shows the interface that is currently connected on the Device.
Figure 124 System Monitor > Traffic Status > LAN
The following table describes the fields in this screen.
Table 95 System Monitor > Traffic Status > LAN
LABEL DESCRIPTION
Refresh Interval Select how often you want the Device to update this screen.
Interface This shows the LAN or WLAN interface.
Bytes Sent This indicates the number of bytes transmitted on this interface.
more...hide
more
Click more... to show more information. Click hide more to hide them.
Interface This shows the LAN or WLAN interface.
Sent (Packets)
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 (Packets)
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.
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CHAPTER 22
ARP Table
22.1 Overview
Address Resolution Protocol (ARP) is a protocol for mapping an Internet Protocol address (IP
address) to a physical machine address, also known as a Media Access Control or MAC address, on
the local area network.
An IP (version 4) address is 32 bits long. In an Ethernet LAN, MAC addresses are 48 bits long. The
ARP Table maintains an association between each MAC address and its corresponding IP address.
22.1.1 How ARP Works
When an incoming packet destined for a host device on a local area network arrives at the device,
the device's ARP program looks in the ARP Table and, if it finds the address, sends it to the device.
If no entry is found for the IP address, ARP broadcasts the request to all the devices on the LAN.
The device fills in its own MAC and IP address in the sender address fields, and puts the known IP
address of the target in the target IP address field. In addition, the device puts all ones in the target
MAC field (FF.FF.FF.FF.FF.FF is the Ethernet broadcast address). The replying device (which is either
the IP address of the device being sought or the router that knows the way) replaces the broadcast
address with the target's MAC address, swaps the sender and target pairs, and unicasts the answer
directly back to the requesting machine. ARP updates the ARP Table for future reference and then
sends the packet to the MAC address that replied.
22.2 ARP Table Screen
Use the ARP table to view IP-to-MAC address mapping(s). To open this screen, click System
Monitor > ARP Table.
Figure 125 System Monitor > ARP Table
The following table describes the labels in this screen.
Table 96 System Monitor > ARP Table
LABEL DESCRIPTION
# This is the ARP table entry number.
IP Address This is the learned IP address of a device connected to a port.
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MAC Address This is the MAC address of the device with the listed IP address.
Device This is the type of interface used by the device. You can click on the device type to go to its
configuration screen.
Table 96 System Monitor > ARP Table (continued)
LABEL DESCRIPTION
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CHAPTER 23
Routing Table
23.1 Overview
Routing is based on the destination address only and the Device takes the shortest path to forward
a packet.
23.2 The Routing Table Screen
Click System Monitor > Routing Table to open the following screen.
Figure 126 System Monitor > Routing Table
The following table describes the labels in this screen.
Table 97 System Monitor > Routing Table
LABEL DESCRIPTION
Destination This indicates the destination IP address of this route.
Gateway This indicates the IP address of the gateway that helps forward this route’s traffic.
Subnet Mask This indicates the destination subnet mask of this route.
Flag This indicates the route status.
U-Up: The route is up.
!-Reject: The route is blocked and will force a route lookup to fail.
G-Gateway: The route uses a gateway to forward traffic.
H-Host: The target of the route is a host.
R-Reinstate: The route is reinstated for dynamic routing.
D-Dynamic (redirect): The route is dynamically installed by a routing daemon or redirect.
M-Modified (redirect): The route is modified from a routing daemon or redirect.
Metric The metric represents the "cost of transmission". A router determines the best route for
transmission by choosing a path with the lowest "cost". The smaller the number, the lower
the "cost".
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Service This indicates the name of the service used to forward the route.
Interface This indicates the name of the interface through which the route is forwarded.
br0 indicates the LAN interface.
ptm0 indicates the WAN interface using IPoE or in bridge mode.
ppp0 indicates the WAN interface using PPPoE.
Table 97 System Monitor > Routing Table (continued)
LABEL DESCRIPTION
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CHAPTER 24
IGMP Status
24.1 Overview
Use the IGMP Status screens to look at IGMP group status and traffic statistics.
24.2 The IGMP Group Status Screen
Use this screen to look at the current list of multicast groups the Device has joined and which ports
have joined it. To open this screen, click System Monitor > IGMP Group Status.
Figure 127 System Monitor > IGMP Group Status
The following table describes the labels in this screen.
Table 98 System Monitor > IGMP Group Status
LABEL DESCRIPTION
Interface This field displays the name of an interface on the Device that belongs to an IGMP multicast
group.
Multicast Group This field displays the name of the IGMP multicast group to which the interface belongs.
Filter Mode INCLUDE means that only the IP addresses in the Source List get to receive the multicast
group’s traffic.
EXCLUDE means that the IP addresses in the Source List are not allowed to receive the
multicast group’s traffic but other IP addresses can.
Source List This is the list of IP addresses that are allowed or not allowed to receive the multicast
group’s traffic depending on the filter mode.
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CHAPTER 25
xDSL Statistics
25.1 The xDSL Statistics Screen
Use this screen to view detailed DSL statistics. Click System Monitor > xDSL Statistics to open
the following screen.
Figure 128 System Monitor > xDSL Statistics
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The following table describes the labels in this screen.
Table 99 Status > xDSL Statistics
LABEL DESCRIPTION
Refresh Interval Select the time interval for refreshing statistics.
Line Select which DSL line’s statistics you want to display.
xDSL Training
Status
This displays the current state of setting up the DSL connection.
Mode This displays the ITU standard used for this connection.
Traffic Type This displays the type of traffic the DSL port is sending and receiving. Inactive displays if
the DSL port is not currently sending or receiving traffic.
Link Uptime This displays how long the port has been running (or connected) since the last time it was
started.
xDSL Port Details
Upstream These are the statistics for the traffic direction going out from the port to the service
provider.
Downstream These are the statistics for the traffic direction coming into the port from the service
provider.
Line Rate These are the data transfer rates at which the port is sending and receiving data.
Actual Net Data
Rate
These are the rates at which the port is sending and receiving the payload data without
transport layer protocol headers and traffic.
Trellis Coding This displays whether or not the port is using Trellis coding for traffic it is sending and
receiving. Trellis coding helps to reduce the noise in ADSL transmissions. Trellis may reduce
throughput but it makes the connection more stable.
SNR Margin This is the upstream and downstream Signal-to-Noise Ratio margin (in dB). A DMT sub-
carrier’s SNR is the ratio between the received signal power and the received noise power.
The signal-to-noise ratio margin is the maximum that the received noise power could
increase with the system still being able to meet its transmission targets.
Actual Delay This is the upstream and downstream interleave delay. It is the wait (in milliseconds) that
determines the size of a single block of data to be interleaved (assembled) and then
transmitted. Interleave delay is used when transmission error correction (Reed- Solomon)
is necessary due to a less than ideal telephone line. The bigger the delay, the bigger the
data block size, allowing better error correction to be performed.
Transmit Power This is the upstream and downstream far end actual aggregate transmit power (in dBm).
Upstream is how much power the port is using to transmit to the service provider.
Downstream is how much port the service provider is using to transmit to the port.
Receive Power Upstream is how much power the service provider is receiving from the port. Downstream
is how much power the port is receiving from the service provider.
Actual INP Sudden spikes in the line’s level of external noise (impulse noise) can cause errors and
result in lost packets. This could especially impact the quality of multimedia traffic such as
voice or video. Impulse noise protection (INP) provides a buffer to allow for correction of
errors caused by error correction to deal with this. The number of DMT (Discrete Multi-
Tone) symbols shows the level of impulse noise protection for the upstream and
downstream traffic. A higher symbol value provides higher error correction capability, but it
causes overhead and higher delay which may increase error rates in received multimedia
data.
Total Attenuation This is the upstream and downstream line attenuation, measured in decibels (dB). This
attenuation is the difference between the power transmitted at the near-end and the power
received at the far-end. Attenuation is affected by the channel characteristics (wire gauge,
quality, condition and length of the physical line).
Attainable Net
Data Rate
These are the highest theoretically possible transfer rates at which the port could send and
receive payload data without transport layer protocol headers and traffic.
xDSL Counters
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Downstream These are the statistics for the traffic direction coming into the port from the service
provider.
Upstream These are the statistics for the traffic direction going out from the port to the service
provider.
FEC This is the number of Far End Corrected blocks.
CRC This is the number of Cyclic Redundancy Checks.
ES This is the number of Errored Seconds meaning the number of seconds containing at least
one errored block or at least one defect.
SES This is the number of Severely Errored Seconds meaning the number of seconds containing
30% or more errored blocks or at least one defect. This is a subset of ES.
UAS This is the number of UnAvailable Seconds.
LOS This is the number of Loss Of Signal seconds.
LOF This is the number of Loss Of Frame seconds.
LOM This is the number of Loss of Margin seconds.
Table 99 Status > xDSL Statistics (continued)
LABEL DESCRIPTION
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CHAPTER 26
User Account
26.1 Overview
In the Users Account screen, you can change the password of the user account that you used to
log in the Device.
26.2 The User Account Screen
Click Maintenance > User Account to open the following screen.
Figure 129 Maintenance > User Account
The following table describes the labels in this screen.
Table 100 Maintenance > User Account
LABEL DESCRIPTION
User Name This field displays the name of the account that you used to log in the system.
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 27
Remote Management
27.1 Overview
Remote Management allows you to manage your Device from a remote location through the
following interfaces:
• LAN
• WAN
• Trust Domain
Note: The Device is managed using the Web Configurator.
27.2 The Remote MGMT Screen
Use this screen to configure through which interface(s) users can use which service(s) to manage
the Device.
Click Maintenance > Remote MGMT to open the following screen.
Figure 130 Maintenance > Remote MGMT
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The following table describes the fields in this screen.
Table 101 Maintenance > Remote MGMT
LABEL DESCRIPTION
Trust Domain
Status This field displays whether the Trust Domain is active or not.
IP Address Enter the Trust Domain IP address.
Services This is the service you may use to access the Device.
LAN/WLAN Select the Enable check box for the corresponding services that you want to allow access to
the Device from the LAN/WLAN.
WAN Select the Enable check box for the corresponding services that you want to allow access to
the Device from the WAN.
Trust Domain Select the Enable check box for the corresponding services that you want to allow access to
the Device from the Trust Domain.
Port You may change the server port number for a service if needed, however you must use the
same port number in order to use that service for remote management.
Certificate
HTTPS
Certificate
Select a certificate the HTTPS server (the Device) uses to authenticate itself to the HTTPS
client. You must have certificates already configured in the Certificates screen.
Apply Click Apply to save your changes back to the Device.
Cancel Click Cancel to restore your previously saved settings.
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CHAPTER 28
TR-069 Client
28.1 Overview
This chapter explains how to configure the Device’s TR-069 auto-configuration settings.
28.2 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 131 Maintenance > TR-069 Client
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The following table describes the fields in this screen.
Table 102 Maintenance > TR-069 Client
LABEL DESCRIPTION
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 auto-
configuration 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.
WAN Interface
used by TR-069
client
Select a WAN interface through which the TR-069 traffic passes.
If you select Any_WAN, you should also select the pre-configured WAN connection(s).
Display SOAP
messages on
serial console
Select Enable to show the SOAP messages on the console.
Connection
Request
Authentication
Select this option to enable authentication when there is a connection request from the ACS.
Connection
Request User
Name
Enter the connection request user name.
When the ACS makes a connection request to the Device, this user name is used to
authenticate the ACS.
Connection
Request
Password
Enter the connection request password.
When the ACS makes a connection request to the Device, this password is used to
authenticate the ACS.
Connection
Request URL
This shows the connection request URL.
The ACS can use this URL to make a connection request to the Device.
Local certificate
used by TR-069
client
You can choose a local certificate used by TR-069 client. The local certificate should be
imported in the Security > Certificates > Local Certificates screen.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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CHAPTER 29
TR-064
29.1 Overview
This chapter explains how to configure the Device’s TR-064 auto-configuration settings.
29.2 The TR-064 Screen
TR-064 is a LAN-Side DSL CPE Configuration protocol defined by the DSL Forum. TR-064 is built on
top of UPnP. It allows the users to use a TR-064 compliant CPE management application on their
computers from the LAN to discover the CPE and configure user-specific parameters, such as the
username and password.
Click Maintenance > TR-064 to open the following screen.
Figure 132 Maintenance > TR-064
The following table describes the fields in this screen.
Table 103 Maintenance > TR-064
LABEL DESCRIPTION
State Select Enable to activate management via TR-064 on the LAN.
Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
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CHAPTER 30
Time Settings
30.1 Overview
This chapter shows you how to configure system related settings, such as system time, password,
name, the domain name and the inactivity timeout interval.
30.2 The Time 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 133 Maintenance > Time Setting
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The following table describes the fields in this screen.
Table 104 Maintenance > Time Setting
LABEL DESCRIPTION
Current Date/Time
Current Time This field displays the time of your Device.
Each time you reload this page, the Device synchronizes the time with the time server.
Current Date This field displays the date of your Device.
Each time you reload this page, the Device synchronizes the date with the time server.
NTP Time Server
First ~ Fifth NTP
time server
Select an NTP time server from the drop-down list box.
Otherwise, select Other and enter the IP address or URL (up to 29 extended ASCII
characters in length) of your time server.
Select None if you don’t want to configure the time server.
Check with your ISP/network administrator if you are unsure of this information.
Time Zone
Time zone offset Choose the time zone of your location. This will set the time difference between your time
zone and Greenwich Mean Time (GMT).
Daylight Saving Daylight Saving Time 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.
State Select Enable if you use Daylight Saving Time.
Start rule: Configure the day and time when Daylight Saving Time starts if you enabled Daylight
Saving. You can select a specific date in a particular month or a specific day of a specific
week in a particular month. The Time 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, set the day to Second, Sunday, the month to March
and the time to 2 in the Hour 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 set the day to Last, Sunday
and the month to March. The time you select in the o'clock field depends on your time
zone. In Germany for instance, you would select 2 in the Hour field because Germany's
time zone is one hour ahead of GMT or UTC (GMT+1).
End rule Configure the day and time when Daylight Saving Time ends if you enabled Daylight
Saving. You can select a specific date in a particular month or a specific day of a specific
week in a particular month. The Time 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 set the day to First, Sunday, the month to November
and the time to 2 in the Hour 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 set the day to Last, Sunday,
and the month to October. The time you select in the o'clock field depends on your time
zone. In Germany for instance, you would select 2 in the Hour field because Germany's
time zone is one hour ahead of GMT or UTC (GMT+1).
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Apply Click Apply to save your changes.
Cancel Click Cancel to exit this screen without saving.
Table 104 Maintenance > Time Setting (continued)
LABEL DESCRIPTION
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CHAPTER 31
E-mail Notification
31.1 Overview
A mail server is an application or a computer that runs such an application to receive, forward and
deliver e-mail messages.
To have the Device send reports, logs or notifications via e-mail, you must specify an e-mail server
and the e-mail addresses of the sender and receiver.
31.2 The Email Notification Screen
Click Maintenance > Email Notification to open the Email Notification screen. Use this screen
to view, remove and add mail server information on the Device.
Figure 134 Maintenance > Email Notification
The following table describes the labels in this screen.
Table 105 Maintenance > Email Notification
LABEL DESCRIPTION
Add New Email Click this button to create a new entry.
Mail Server
Address
This field displays the server name or the IP address of the mail server.
Username This field displays the user name of the sender’s mail account.
Password This field displays the password of the sender’s mail account.
Email Address This field displays the e-mail address that you want to be in the from/sender line of the e-
mail that the Device sends.
Remove Click this button to delete the selected entry(ies).
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31.2.1 Email Notification Edit
Click the Add button in the Email Notification screen. Use this screen to configure the required
information for sending e-mail via a mail server.
Figure 135 Email Notification > Add
The following table describes the labels in this screen.
Table 106 Email Notification > Add
LABEL DESCRIPTION
Mail Server
Address
Enter the server name or the IP address of the mail server for the e-mail address specified
in the Account Email Address field.
If this field is left blank, reports, logs or notifications will not be sent via e-mail.
Authentication
Username
Enter the user name (up to 32 characters). This is usually the user name of a mail account
you specified in the Account Email Address field.
Authentication
Password
Enter the password associated with the user name above.
Account Email
Address
Enter the e-mail address that you want to be in the from/sender line of the e-mail
notification that the Device sends.
If you activate SSL/TLS authentication, the e-mail address must be able to be authenticated
by the mail server as well.
Apply Click this button to save your changes and return to the previous screen.
Cancel Click this button to begin configuring this screen afresh.
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CHAPTER 32
Logs Setting
32.1 Overview
You can configure where the Device sends logs and which logs and/or immediate alerts the Device
records in the Logs Setting screen.
32.2 The Log Settings Screen
To change your Device’s log settings, click Maintenance > Logs Setting. The screen appears as
shown.
Figure 136 Maintenance > Logs Setting
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The following table describes the fields in this screen.
32.2.1 Example E-mail Log
An "End of Log" message displays for each mail in which a complete log has been sent. The
following is an example of a log sent by e-mail.
• You may edit the subject title.
• The date format here is Day-Month-Year.
• The date format here is Month-Day-Year. The time format is Hour-Minute-Second.
Table 107 Maintenance > Logs Setting
LABEL DESCRIPTION
Syslog Setting
Syslog Logging The Device sends a log to an external syslog server. Select Enable to enable syslog logging.
Mode Select the syslog destination from the drop-down list box.
If you select Remote, the log(s) will be sent to a remote syslog server. If you select Local
File, the log(s) will be saved in a local file. If you want to send the log(s) to a remote syslog
server and save it in a local file, select Local File and Remote.
Syslog Server Enter the server name or IP address of the syslog server that will log the selected categories
of logs.
UDP Port Enter the port number used by the syslog server.
E-mail Log Settings
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 E-mail.
System Log
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.
Security Log
Mail Subject
Type a title that you want to be in the subject line of the security log e-mail message that
the Device sends.
Send Log 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.
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 how often the alarm should be updated.
Allowed
Capacity Before
Email
Set what percent of the Device’s log storage space can be filled before the Device sends a
log e-mail.
Clear log after
sending mail
Select this to delete all the logs after the Device sends an E-mail of the logs.
Active Log and Alert
System Log Select the categories of system logs that you want to record.
Security Log Select the categories of security logs that you want to record.
Send
immediate alert
Select log categories for which you want the Device to send E-mail alerts immediately.
Apply Click Apply to save your changes.
Cancel Click Cancel to restore your previously saved settings.
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• "End of Log" message shows that a complete log has been sent.
Figure 137 E-mail Log Example
Subject:
Firewall Alert From
Date:
Fri, 07 Apr 2000 10:05:42
From:
user@zyxel.com
To:
user@zyxel.com
1|Apr 7 00 |From:192.168.1.1 To:192.168.1.255 |default policy |forward
| 09:54:03 |UDP src port:00520 dest port:00520 |<1,00> |
2|Apr 7 00 |From:192.168.1.131 To:192.168.1.255 |default policy |forward
| 09:54:17 |UDP src port:00520 dest port:00520 |<1,00> |
3|Apr 7 00 |From:192.168.1.6 To:10.10.10.10 |match |forward
| 09:54:19 |UDP src port:03516 dest port:00053 |<1,01> |
……………………………..{snip}…………………………………..
……………………………..{snip}…………………………………..
126|Apr 7 00 |From:192.168.1.1 To:192.168.1.255 |match |forward
| 10:05:00 |UDP src port:00520 dest port:00520 |<1,02> |
127|Apr 7 00 |From:192.168.1.131 To:192.168.1.255 |match |forward
| 10:05:17 |UDP src port:00520 dest port:00520 |<1,02> |
128|Apr 7 00 |From:192.168.1.1 To:192.168.1.255 |match |forward
| 10:05:30 |UDP src port:00520 dest port:00520 |<1,02> |
End of Firewall Log
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CHAPTER 33
Firmware Upgrade
33.1 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.
Only use firmware for your device’s specific model. Refer to the label on
the bottom of your Device.
33.2 The Firmware Screen
Click Maintenance > Firmware Upgrade to open the following screen. The upload process uses
HTTP (Hypertext Transfer Protocol) and may take up to two minutes. After a successful upload, the
system will reboot.
Do NOT turn off the Device while firmware upload is in progress!
Figure 138 Maintenance > Firmware Upgrade
The following table describes the labels in this screen.
Table 108 Maintenance > Firmware Upgrade
LABEL DESCRIPTION
Current
Firmware
Version
This is the present Firmware version and the date created.
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 .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 two minutes.
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After you see the firmware updating screen, wait two minutes before logging into the Device again.
Figure 139 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 140 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, the following screen will appear. Click OK to go back to the
Firmware Upgrade screen.
Figure 141 Error Message
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CHAPTER 34
Configuration
34.1 Overview
The Configuration screen allows you to backup and restore device configurations. You can also
reset your device settings back to the factory default.
34.2 The Configuration Screen
Click Maintenance > Configuration. Information related to factory defaults, backup
configuration, and restoring configuration appears in this screen, as shown next.
Figure 142 Maintenance > Configuration
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.
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 143 Network Temporarily Disconnected
If you uploaded the default configuration file 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). See
Appendix A on page 287 for details on how to set up your computer’s IP address.
If the upload was not successful, the following screen will appear. Click OK to go back to the
Configuration screen.
Figure 144 Configuration Upload Error
Table 109 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.
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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 145 Reset Warning Message
Figure 146 Reset In Process Message
You can also press the RESET button on the rear panel to reset the factory defaults of your Device.
Refer to Section on page 22 for more information on the RESET button.
34.3 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 Reboot to have the Device reboot. This does not affect the
Device's configuration.
Figure 147 Maintenance > Reboot
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CHAPTER 35
Diagnostic
35.1 Overview
The Diagnostic screens display information to help you identify problems with the Device.
The route between a CO VDSL switch and one of its CPE may go through switches owned by
independent organizations. A connectivity fault point generally takes time to discover and impacts
subscriber’s network access. In order to eliminate the management and maintenance efforts, IEEE
802.1ag is a Connectivity Fault Management (CFM) specification which allows network
administrators to identify and manage connection faults. Through discovery and verification of the
path, CFM can detect, analyze and isolate connectivity faults in bridged LANs.
35.1.1 What You Can Do in this Chapter
• The Ping & TraceRoute & NsLookup screen lets you ping an IP address or trace the route
packets take to a host (Section 35.3 on page 277).
• The 802.1ag screen lets you perform CFM actions (Section 35.5 on page 279).
• The OAM Ping Test screen lets you send an ATM OAM (Operation, Administration and
Maintenance) packet to verify the connectivity of a specific PVC. (Section 35.5 on page 279).
35.2 What You Need to Know
The following terms and concepts may help as you read through this chapter.
How CFM Works
A Maintenance Association (MA) defines a VLAN and associated Maintenance End Point (MEP) ports
on the device under a Maintenance Domain (MD) level. An MEP port has the ability to send
Connectivity Check Messages (CCMs) and get other MEP ports information from neighbor devices’
CCMs within an MA.
CFM provides two tests to discover connectivity faults.
• Loopback test - checks if the MEP port receives its Loop Back Response (LBR) from its target
after it sends the Loop Back Message (LBM). If no response is received, there might be a
connectivity fault between them.
• Link trace test - provides additional connectivity fault analysis to get more information on where
the fault is. If an MEP port does not respond to the source MEP, this may indicate a fault.
Administrators can take further action to check and resume services from the fault according to
the line connectivity status report.
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35.3 Ping & TraceRoute & NsLookup
Use this screen to ping, traceroute, or nslookup an IP address. Click Maintenance > Diagnostic >
Ping & TraceRoute & NsLookup to open the screen shown next.
Figure 148 Maintenance > Diagnostic > Ping & TraceRoute & NsLookup
The following table describes the fields in this screen.
Table 110 Maintenance > Diagnostic > Ping & TraceRoute & NsLookup
LABEL DESCRIPTION
URL or IP
Address
Type the IP address of a computer that you want to perform ping, traceroute, or nslookup in
order to test a connection.
Ping Click this to ping the IP address that you entered.
TraceRoute Click this button to perform the traceroute function. This determines the path a packet
takes to the specified computer.
Nslookup Click this button to perform a DNS lookup on the IP address of a computer you enter.
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35.4 802.1ag
Click Maintenance > Diagnostic > 8.2.1ag to open the following screen. Use this screen to
perform CFM actions.
Figure 149 Maintenance > Diagnostic > 802.1ag
The following table describes the fields in this screen.
Table 111 Maintenance > Diagnostic > 802.1ag
LABEL DESCRIPTION
802.1ag Connectivity Fault Management
Maintenance
Domain (MD)
Level
Select a level (0-7) under which you want to create an MA.
Destination
MAC Address
Enter the target device’s MAC address to which the Device performs a CFM loopback test.
802.1Q VLAN
ID
Type a VLAN ID (0-4095) for this MA.
VDSL Traffic
Type
This shows whether the VDSL traffic is activated.
Loopback
Message (LBM)
This shows how many Loop Back Messages (LBMs) are sent and if there is any inorder or
outorder Loop Back Response (LBR) received from a remote MEP.
Linktrace
Message (LTM)
This shows the destination MAC address in the Link Trace Response (LTR).
Set MD Level Click this button to configure the MD (Maintenance Domain) level.
Send Loopback Click this button to have the selected MEP send the LBM (Loop Back Message) to a specified
remote end point.
Send Linktrace Click this button to have the selected MEP send the LTMs (Link Trace Messages) to a
specified remote end point.
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35.5 OAM Ping Test
Click Maintenance > Diagnostic > OAM Ping Test to open the screen shown next. Use this
screen to perform an OAM (Operation, Administration and Maintenance) F4 or F5 loopback test on a
PVC. The Device sends an OAM F4 or F5 packet to the DSLAM or ATM switch and then returns it to
the Device. The test result then displays in the text box.
ATM sets up virtual circuits over which end systems communicate. The terminology for virtual
circuits is as follows:
Figure 150 Virtual Circuit Topology
Think of a virtual path as a cable that contains a bundle of wires. The cable connects two points and
wires within the cable provide individual circuits between the two points. In an ATM cell header, a
VPI (Virtual Path Identifier) identifies a link formed by a virtual path; a VCI (Virtual Channel
Identifier) identifies a channel within a virtual path. A series of virtual paths make up a virtual
circuit.
F4 cells operate at the virtual path (VP) level, while F5 cells operate at the virtual channel (VC)
level. F4 cells use the same VPI as the user data cells on VP connections, but use different
predefined VCI values. F5 cells use the same VPI and VCI as the user data cells on the VC
connections, and are distinguished from data cells by a predefinded Payload Type Identifier (PTI) in
the cell header. Both F4 flows and F5 flows are bidirectional and have two types.
• segment F4 flows (VCI=3)
• end-to-end F4 flows (VCI=4)
• segment F5 flows (PTI=100)
• end-to-end F5 flows (PTI=101)
OAM F4 or F5 tests are used to check virtual path or virtual channel availability between two DSL
devices. Segment flows are terminated at the connecting point which terminates a VP or VC
segment. End-to-end flows are terminated at the end point of a VP or VC connection, where an ATM
link is terminated. Segment loopback tests allow you to verify integrity of a PVC to the nearest
neighboring ATM device. End-to-end loopback tests allow you to verify integrity of an end-to-end
PVC.
Note: The DSLAM to which the Device is connected must also support ATM F4 and/or F5
to use this test.
• Virtual Channel (VC) Logical connections between ATM devices
• Virtual Path (VP) A bundle of virtual channels
• Virtual Circuits A series of virtual paths between circuit end points
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Note: This screen is available only when you configure an ATM layer-2 interface.
Figure 151 Maintenance > Diagnostic > OAM Ping Test
The following table describes the fields in this screen.
Table 112 Maintenance > Diagnostic > OAM Ping Test
LABEL DESCRIPTION
Select a PVC on which you want to perform the loopback test.
F4 segment Press this to perform an OAM F4 segment loopback test.
F4 end-end Press this to perform an OAM F4 end-to-end loopback test.
F5 segment Press this to perform an OAM F5 segment loopback test.
F5 end-end Press this to perform an OAM F5 end-to-end loopback test.
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CHAPTER 36
Troubleshooting
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
36.1 Power, Hardware Connections, and LEDs
The Device does not turn on. None of the LEDs turn on.
1Make sure the Device is turned on.
2Make sure you are using the power adaptor or cord included with the Device.
3Make 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.
4Turn the Device off and on.
5If the problem continues, contact the vendor.
One of the LEDs does not behave as expected.
1Make sure you understand the normal behavior of the LED. See Section 1.5 on page 21.
2Check the hardware connections.
3Inspect your cables for damage. Contact the vendor to replace any damaged cables.
4Turn the Device off and on.
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5If the problem continues, contact the vendor.
36.2 Device Access and Login
I forgot the IP address for the Device.
1The default LAN IP address is 192.168.1.1.
2If 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.
3If this does not work, you have to reset the device to its factory defaults. See Section on page 22.
I forgot the password.
1The default admin password is 1234.
2If this does not work, you have to reset the device to its factory defaults. See Section on page 22.
I cannot see or access the Login screen in the web configurator.
1Make sure you are using the correct IP address.
• The default IP address is 192.168.1.1.
• If you changed the IP address (Section 8.2 on page 133), 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.
2Check the hardware connections, and make sure the LEDs are behaving as expected. See Section
1.5 on page 21.
3Make sure your Internet browser does not block pop-up windows and has JavaScripts and Java
enabled. See Appendix C on page 317.
4If it is possible to log in from another interface, check the service control settings for HTTP and
HTTPS (Maintenance > Remote MGMT).
5Reset the device to its factory defaults, and try to access the Device with the default IP address.
See Section on page 22.
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6If the problem continues, contact the network administrator or vendor, or try one of the advanced
suggestions.
Advanced Suggestions
• Make sure you have logged out of any earlier management sessions using the same user account
even if they were through a different interface or using a different browser.
• 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.
1Make sure you have entered the password correctly. The default admin password is 1234. The field
is case-sensitive, so make sure [Caps Lock] is not on.
2You 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.
3Turn the Device off and on.
4If this does not work, you have to reset the device to its factory defaults. See Section 36.1 on page
281.
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.
36.3 Internet Access
I cannot access the Internet.
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1Check the hardware connections, and make sure the LEDs are behaving as expected. See the
Quick Start Guide and Section 1.5 on page 21.
2Make sure you entered your ISP account information correctly in the Network Setting >
Broadband screen. These fields are case-sensitive, so make sure [Caps Lock] is not on.
3If you are trying to access the Internet wirelessly, make sure that you enabled the wireless LAN in
the Device and your wireless client and that the wireless settings in the wireless client are the same
as the settings in the Device.
4Disconnect all the cables from your device and reconnect them.
5If the problem continues, contact your ISP.
I cannot access the Internet through a DSL connection.
1Make sure you have the DSL WAN port connected to a telephone jack (or the DSL or modem jack
on a splitter if you have one).
2Make sure you configured a proper DSL WAN interface (Network Setting > Broadband screen)
with the Internet account information provided by your ISP and that it is enabled.
3Check that the LAN interface you are connected to is in the same interface group as the DSL
connection (Network Setting > Interface Group).
4If you set up a WAN connection using bridging service, make sure you turn off the DHCP feature in
the LAN screen to have the clients get WAN IP addresses directly from your ISP’s DHCP server.
I cannot connect to the Internet using a second DSL connection.
ADSL and VDSL connections cannot work at the same time. You can only use one type of DSL
connection, either ADSL or VDSL connection at one time.
I cannot access the Internet anymore. I had access to the Internet (with the Device), but my
Internet connection is not available anymore.
1Your session with the Device may have expired. Try logging into the Device again.
2Check the hardware connections, and make sure the LEDs are behaving as expected. See the
Quick Start Guide and Section 1.5 on page 21.
3Turn the Device off and on.
4If the problem continues, contact your ISP.
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36.4 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.
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 is a Server Set ID (SSID)?
An SSID is a name that uniquely identifies a wireless network. The AP and all the clients within a
wireless network must use the same SSID.
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 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.
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•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.
36.5 USB Device Connection
The Device fails to detect my USB device.
1Disconnect the USB device.
2Reboot the Device.
3If 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.
4Re-connect your USB device to the Device.
36.6 UPnP
When using UPnP and the Device reboots, my computer cannot detect UPnP and refresh My
Network Places > Local Network.
1Disconnect the Ethernet cable from the Device’s LAN port or from your computer.
2Re-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.
1Wait more than three minutes.
2Restart the applications.
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APPENDIX A
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/Vista, 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 Device’s LAN port.
Windows 95/98/Me
Click Start, Settings, Control Panel and double-click the Network icon to open the Network
window.
Figure 152 WIndows 95/98/Me: Network: Configuration
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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:
1In the Network window, click Add.
2Select Adapter and then click Add.
3Select the manufacturer and model of your network adapter and then click OK.
If you need TCP/IP:
1In the Network window, click Add.
2Select Protocol and then click Add.
3Select Microsoft from the list of manufacturers.
4Select TCP/IP from the list of network protocols and then click OK.
If you need Client for Microsoft Networks:
1Click Add.
2Select Client and then click Add.
3Select Microsoft from the list of manufacturers.
4Select Client for Microsoft Networks from the list of network clients and then click OK.
5Restart your computer so the changes you made take effect.
Configuring
1In the Network window Configuration tab, select your network adapter's TCP/IP entry and click
Properties
2Click the IP Address tab.
• If your IP address is dynamic, select Obtain an IP address automatically.
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• 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 153 Windows 95/98/Me: TCP/IP Properties: IP Address
3Click 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).
Figure 154 Windows 95/98/Me: TCP/IP Properties: DNS Configuration
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4Click 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.
5Click OK to save and close the TCP/IP Properties window.
6Click OK to close the Network window. Insert the Windows CD if prompted.
7Turn on your Device and restart your computer when prompted.
Verifying Settings
1Click Start and then Run.
2In the Run window, type "winipcfg" and then click OK to open the IP Configuration window.
3Select 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.
1Click start (Start in Windows 2000/NT), Settings, Control Panel.
Figure 155 Windows XP: Start Menu
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2In the Control Panel, double-click Network Connections (Network and Dial-up Connections
in Windows 2000/NT).
Figure 156 Windows XP: Control Panel
3Right-click Local Area Connection and then click Properties.
Figure 157 Windows XP: Control Panel: Network Connections: Properties
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4Select Internet Protocol (TCP/IP) (under the General tab in Win XP) and then click Properties.
Figure 158 Windows XP: Local Area Connection Properties
5The 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.
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• Click Advanced.
Figure 159 Windows XP: Internet Protocol (TCP/IP) Properties
6If 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.
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• Click OK when finished.
Figure 160 Windows XP: Advanced TCP/IP Properties
7In 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.
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If you have previously configured DNS servers, click Advanced and then the DNS tab to order
them.
Figure 161 Windows XP: Internet Protocol (TCP/IP) Properties
8Click OK to close the Internet Protocol (TCP/IP) Properties window.
9Click 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 Device and restart your computer (if prompted).
Verifying Settings
1Click Start, All Programs, Accessories and then Command Prompt.
2In 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.
Windows Vista
This section shows screens from Windows Vista Enterprise Version 6.0.
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1Click the Start icon, Control Panel.
Figure 162 Windows Vista: Start Menu
2In the Control Panel, double-click Network and Internet.
Figure 163 Windows Vista: Control Panel
3Click Network and Sharing Center.
Figure 164 Windows Vista: Network And Internet
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4Click Manage network connections.
Figure 165 Windows Vista: Network and Sharing Center
5Right-click Local Area Connection and then click Properties.
Note: During this procedure, click Continue whenever Windows displays a screen saying
that it needs your permission to continue.
Figure 166 Windows Vista: Network and Sharing Center
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6Select Internet Protocol Version 4 (TCP/IPv4) and click Properties.
Figure 167 Windows Vista: Local Area Connection Properties
7The Internet Protocol Version 4 (TCP/IPv4) Properties window opens (the General tab).
• 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.
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• Click Advanced.
Figure 168 Windows Vista: Internet Protocol Version 4 (TCP/IPv4) Properties
8If 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.
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• Click OK when finished.
Figure 169 Windows Vista: Advanced TCP/IP Properties
9In the Internet Protocol Version 4 (TCP/IPv4) Properties window, (the General tab):
• 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.
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If you have previously configured DNS servers, click Advanced and then the DNS tab to order
them.
Figure 170 Windows Vista: Internet Protocol Version 4 (TCP/IPv4) Properties
10 Click OK to close the Internet Protocol Version 4 (TCP/IPv4) Properties window.
11 Click Close to close the Local Area Connection Properties window.
12 Close the Network Connections window.
13 Turn on your Device and restart your computer (if prompted).
Verifying Settings
1Click Start, All Programs, Accessories and then Command Prompt.
2In 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.
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Macintosh OS 8/9
1Click the Apple menu, Control Panel and double-click TCP/IP to open the TCP/IP Control
Panel.
Figure 171 Macintosh OS 8/9: Apple Menu
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2Select Ethernet built-in from the Connect via list.
Figure 172 Macintosh OS 8/9: TCP/IP
3For dynamically assigned settings, select Using DHCP Server from the Configure: list.
4For 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 Device in the Router address box.
5Close the TCP/IP Control Panel.
6Click Save if prompted, to save changes to your configuration.
7Turn on your Device and restart your computer (if prompted).
Verifying Settings
Check your TCP/IP properties in the TCP/IP Control Panel window.
Macintosh OS X
1Click the Apple menu, and click System Preferences to open the System Preferences window.
Figure 173 Macintosh OS X: Apple Menu
2Click Network in the icon bar.
• Select Automatic from the Location list.
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• Select Built-in Ethernet from the Show list.
• Click the TCP/IP tab.
3For dynamically assigned settings, select Using DHCP from the Configure list.
Figure 174 Macintosh OS X: Network
4For 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 Device in the Router address box.
5Click Apply Now and close the window.
6Turn on your Device and restart your computer (if prompted).
Verifying Settings
Check your TCP/IP properties in the Network window.
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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.
Note: 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.
1Click the Red Hat button (located on the bottom left corner), select System Setting and click
Network.
Figure 175 Red Hat 9.0: KDE: Network Configuration: Devices
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2Double-click on the profile of the network card you wish to configure. The Ethernet Device
General screen displays as shown.
Figure 176 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.
3Click OK to save the changes and close the Ethernet Device General screen.
4If 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 177 Red Hat 9.0: KDE: Network Configuration: DNS
5Click the Devices tab.
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6Click the Activate button to apply the changes. The following screen displays. Click Yes to save
the changes in all screens.
Figure 178 Red Hat 9.0: KDE: Network Configuration: Activate
7After 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.
1Assuming that you have only one network card on the computer, locate the ifconfig-eth0
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 179 Red Hat 9.0: Dynamic IP Address Setting in ifconfig-eth0
• 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 180 Red Hat 9.0: Static IP Address Setting in ifconfig-eth0
DEVICE=eth0
ONBOOT=yes
BOOTPROTO=dhcp
USERCTL=no
PEERDNS=yes
TYPE=Ethernet
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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2If 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 181 Red Hat 9.0: DNS Settings in resolv.conf
3After 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 182 Red Hat 9.0: Restart Ethernet Card
Verifying Settings
Enter ifconfig in a terminal screen to check your TCP/IP properties.
Figure 183 Red Hat 9.0: Checking TCP/IP Properties
nameserver 172.23.5.1
nameserver 172.23.5.2
[root@localhost init.d]# network restart
Shutting down interface eth0: [OK]
Shutting down loopback interface: [OK]
Setting network parameters: [OK]
Bringing up loopback interface: [OK]
Bringing up interface eth0: [OK]
[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 B
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.
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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.
Figure 184 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 “sub-network”.
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).
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.
Table 113 Subnet Masks
1ST OCTET:
(192)
2ND
OCTET:
(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
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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.
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.
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:
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.
Table 114 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
Table 115 Maximum Host Numbers
SUBNET MASK HOST ID SIZE MAXIMUM NUMBER OF HOSTS
8 bits 255.0.0.0 24 bits 224 – 2 16777214
16 bits 255.255.0.0 16 bits 216 – 2 65534
24 bits 255.255.255.0 8 bits 28 – 2 254
29 bits 255.255.255.24
8
3 bits 23 – 2 6
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The following table shows some possible subnet masks using both notations.
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 185 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.
Table 116 Alternative Subnet Mask Notation
SUBNET MASK ALTERNATIVE
NOTATION
LAST OCTET
(BINARY)
LAST OCTET
(DECIMAL)
255.255.255.0 /24 0000 0000 0
255.255.255.128 /25 1000 0000 128
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
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The following figure shows the company network after subnetting. There are now two sub-
networks, A and B.
Figure 186 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 Bis 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 117 Subnet 1
IP/SUBNET MASK NETWORK NUMBER LAST OCTET BIT
VALUE
IP Address (Decimal) 192.168.1. 0
IP Address (Binary) 11000000.10101000.00000001. 00000000
Subnet Mask (Binary) 11111111.11111111.11111111. 11000000
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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.
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
Table 118 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 119 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 120 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
Table 117 Subnet 1 (continued)
IP/SUBNET MASK NETWORK NUMBER LAST OCTET BIT
VALUE
Table 121 Eight Subnets
SUBNET SUBNET
ADDRESS FIRST ADDRESS LAST
ADDRESS
BROADCAST
ADDRESS
1 0 1 30 31
2 32 33 62 63
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Subnet Planning
The following table is a summary for subnet planning on a network with a 24-bit network number.
The following table is a summary for subnet planning on a network with a 16-bit network number.
3 64 65 94 95
4 96 97 126 127
5 128 129 158 159
6 160 161 190 191
7 192 193 222 223
8 224 225 254 255
Table 121 Eight Subnets (continued)
SUBNET SUBNET
ADDRESS FIRST ADDRESS LAST
ADDRESS
BROADCAST
ADDRESS
Table 122 24-bit Network Number Subnet Planning
NO. “BORROWED”
HOST BITS SUBNET MASK NO. SUBNETS NO. HOSTS PER
SUBNET
1 255.255.255.128 (/25) 2 126
2 255.255.255.192 (/26) 4 62
3 255.255.255.224 (/27) 8 30
4 255.255.255.240 (/28) 16 14
5 255.255.255.248 (/29) 32 6
6 255.255.255.252 (/30) 64 2
7 255.255.255.254 (/31) 128 1
Table 123 16-bit Network Number Subnet Planning
NO. “BORROWED”
HOST BITS SUBNET MASK NO. SUBNETS NO. HOSTS PER
SUBNET
1 255.255.128.0 (/17) 2 32766
2 255.255.192.0 (/18) 4 16382
3 255.255.224.0 (/19) 8 8190
4 255.255.240.0 (/20) 16 4094
5 255.255.248.0 (/21) 32 2046
6 255.255.252.0 (/22) 64 1022
7 255.255.254.0 (/23) 128 510
8 255.255.255.0 (/24) 256 254
9 255.255.255.128 (/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 6
14 255.255.255.252 (/30) 16384 2
15 255.255.255.254 (/31) 32768 1
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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 Device.
Once you have decided on the network number, pick an IP address for your Device 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 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 (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 C
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).
Note: 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
1In Internet Explorer, select Tools, Pop-up Blocker and then select Turn Off Pop-up Blocker.
Figure 187 Pop-up Blocker
You can also check if pop-up blocking is disabled in the Pop-up Blocker section in the Privacy tab.
1In Internet Explorer, select Tools, Internet Options, Privacy.
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2Clear 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 188 Internet Options: Privacy
3Click 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.
1In Internet Explorer, select Tools, Internet Options and then the Privacy tab.
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2Select Settings…to open the Pop-up Blocker Settings screen.
Figure 189 Internet Options: Privacy
3Type 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.
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4Click Add to move the IP address to the list of Allowed sites.
Figure 190 Pop-up Blocker Settings
5Click Close to return to the Privacy screen.
6Click Apply to save this setting.
JavaScripts
If pages of the web configurator do not display properly in Internet Explorer, check that JavaScripts
are allowed.
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1In Internet Explorer, click Tools, Internet Options and then the Security tab.
Figure 191 Internet Options: Security
2Click the Custom Level... button.
3Scroll down to Scripting.
4Under Active scripting make sure that Enable is selected (the default).
5Under Scripting of Java applets make sure that Enable is selected (the default).
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6Click OK to close the window.
Figure 192 Security Settings - Java Scripting
Java Permissions
1From Internet Explorer, click Tools, Internet Options and then the Security tab.
2Click the Custom Level... button.
3Scroll down to Microsoft VM.
4Under Java permissions make sure that a safety level is selected.
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5Click OK to close the window.
Figure 193 Security Settings - Java
JAVA (Sun)
1From Internet Explorer, click Tools, Internet Options and then the Advanced tab.
2Make sure that Use Java 2 for <applet> under Java (Sun) is selected.
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3Click OK to close the window.
Figure 194 Java (Sun)
Mozilla Firefox
Mozilla Firefox 2.0 screens are used here. Screens for other versions may vary.
You can enable Java, Javascripts and pop-ups in one screen. Click Tools, then click Options in the
screen that appears.
Figure 195 Mozilla Firefox: Tools > Options
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Click Content.to show the screen below. Select the check boxes as shown in the following screen.
Figure 196 Mozilla Firefox Content Security
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APPENDIX D
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 adapters (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 197 Peer-to-Peer Communication in an Ad-hoc Network
BSS
A Basic Service Set (BSS) exists when all communications between wireless clients or between a
wireless client and a wired network client go through one access point (AP).
Intra-BSS traffic is traffic between wireless clients in the BSS. When Intra-BSS is enabled, wireless
client A and B can access the wired network and communicate with each other. When Intra-BSS is
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disabled, wireless client A and B can still access the wired network but cannot communicate with
each other.
Figure 198 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.
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An ESSID (ESS IDentification) uniquely identifies each ESS. All access points and their associated
wireless clients within the same ESS must have the same ESSID in order to communicate.
Figure 199 Infrastructure WLAN
Channel
A channel is the radio frequency(ies) used by wireless devices to transmit and receive data.
Channels available depend on your geographical area. You may have a choice of channels (for your
region) so you should use a channel different from 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
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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.
Figure 200 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.
Note: 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.
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:
Wireless Security Overview
Wireless security is vital to your network to protect wireless communication between wireless
clients, access points and the wired network.
Wireless security methods available on the Device are data encryption, wireless client
authentication, restricting access by device MAC address and hiding the Device identity.
The following figure shows the relative effectiveness of these wireless security methods available on
your Device.
Note: You must enable the same wireless security settings on the Device and on all
wireless clients that you want to associate with it.
Table 124 IEEE 802.11g
DATA RATE (MBPS) MODULATION
1 DBPSK (Differential Binary Phase Shift Keyed)
2 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)
Table 125 Wireless Security Levels
SECURITY
LEVEL SECURITY TYPE
Least
Secure
Most Secure
Unique SSID (Default)
Unique SSID with Hide SSID Enabled
MAC Address Filtering
WEP Encryption
IEEE802.1x EAP with RADIUS Server Authentication
Wi-Fi Protected Access (WPA)
WPA2
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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:
• 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
clients.
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 client 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:
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• 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.
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 EAP Authentication
This section discusses some popular authentication types: EAP-MD5, EAP-TLS, EAP-TTLS, PEAP and
LEAP. Your wireless LAN device may not support all authentication types.
EAP (Extensible Authentication Protocol) is an authentication protocol that runs on top of the IEEE
802.1x transport mechanism in order to support multiple types of user authentication. By using EAP
to interact with an EAP-compatible RADIUS server, an access point helps a wireless station and a
RADIUS server perform authentication.
The type of authentication you use depends on the RADIUS server and an intermediary AP(s) that
supports IEEE 802.1x.
For EAP-TLS authentication type, you must first have a wired connection to the network and obtain
the certificate(s) from a certificate authority (CA). A certificate (also called digital IDs) can be used
to authenticate users and a CA issues certificates and guarantees the identity of each certificate
owner.
EAP-MD5 (Message-Digest Algorithm 5)
MD5 authentication is the simplest one-way authentication method. The authentication server
sends a challenge to the wireless client. The wireless client ‘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 clients 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.
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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.
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
security configuration screen. You may still configure and store keys, but they will not be used while
dynamic WEP is enabled.
Note: 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 126 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
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WPA and WPA2
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.
Key differences between WPA or WPA2 and WEP are improved data encryption and user
authentication.
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.
Encryption
WPA improves data encryption by using Temporal Key Integrity Protocol (TKIP), Message Integrity
Check (MIC) and IEEE 802.1x. WPA2 also uses TKIP when required for compatibility reasons, but
offers stronger encryption than TKIP with Advanced Encryption Standard (AES) in the Counter
mode with Cipher block chaining Message authentication code Protocol (CCMP).
TKIP uses 128-bit keys that are dynamically generated and distributed by the authentication server.
AES (Advanced Encryption Standard) is a block cipher that uses a 256-bit mathematical algorithm
called Rijndael. They both include 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.
WPA and WPA2 regularly change and rotate 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 PMK 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.
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), with TKIP and AES it is more difficult to decrypt data on a Wi-Fi
network than WEP and difficult for an intruder to break into the network.
The encryption mechanisms used for WPA(2) and WPA(2)-PSK are the same. The only difference
between the two is that WPA(2)-PSK uses a simple common password, instead of user-specific
credentials. The common-password approach makes WPA(2)-PSK susceptible to brute-force
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password-guessing attacks but it’s still an improvement over WEP as it employs a consistent,
single, alphanumeric password to derive a PMK which is used to generate unique temporal
encryption keys. This prevent all wireless devices sharing the same encryption keys. (a weakness of
WEP)
User Authentication
WPA and WPA2 apply IEEE 802.1x and Extensible Authentication Protocol (EAP) to authenticate
wireless clients using an external RADIUS database. WPA2 reduces the number of key exchange
messages from six to four (CCMP 4-way handshake) and shortens the time required to connect to a
network. Other WPA2 authentication features that are different from WPA include key caching and
pre-authentication. These two features are optional and may not be supported in all wireless
devices.
Key caching allows a wireless client to store the PMK it derived through a successful authentication
with an AP. The wireless client uses the PMK when it tries to connect to the same AP and does not
need to go with the authentication process again.
Pre-authentication enables fast roaming by allowing the wireless client (already connecting to an
AP) to perform IEEE 802.1x authentication with another AP before connecting to it.
Wireless Client WPA Supplicants
A wireless client supplicant is the software that runs on an operating system instructing the wireless
client how to use WPA. At the time of writing, the most widely available supplicant is the WPA patch
for Windows XP, Funk Software's Odyssey client.
The Windows XP patch is a free download that adds WPA capability to Windows XP's built-in "Zero
Configuration" wireless client. However, you must run Windows XP to use it.
WPA(2) with RADIUS Application Example
To set up WPA(2), 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.
1The AP passes the wireless client's authentication request to the RADIUS server.
2The RADIUS server then checks the user's identification against its database and grants or denies
network access accordingly.
3A 256-bit Pairwise Master Key (PMK) is derived from the authentication process by the RADIUS
server and the client.
Appendix D Wireless LANs
VMG4380-B10A / VMG4325-B10A User’s Guide 337
4The RADIUS server distributes the PMK to the AP. The AP then sets up a key hierarchy and
management system, using the PMK to dynamically generate unique data encryption keys. The
keys are used to encrypt every data packet that is wirelessly communicated between the AP and
the wireless clients.
Figure 201 WPA(2) with RADIUS Application Example
WPA(2)-PSK Application Example
A WPA(2)-PSK application looks as follows.
1First enter identical passwords into the AP and all wireless clients. The Pre-Shared Key (PSK) must
consist of between 8 and 63 ASCII characters or 64 hexadecimal characters (including spaces and
symbols).
2The AP checks each wireless client's password and allows it to join the network only if the password
matches.
3The AP and wireless clients generate a common PMK (Pairwise Master Key). The key itself is not
sent over the network, but is derived from the PSK and the SSID.
4The AP and wireless clients use the TKIP or AES encryption process, the PMK and information
exchanged in a handshake to create temporal encryption keys. They use these keys to encrypt data
exchanged between them.
Figure 202 WPA(2)-PSK Authentication
Appendix D Wireless LANs
VMG4380-B10A / VMG4325-B10A User’s Guide
338
Security Parameters Summary
Refer to this table to see what other security parameters you should configure for each
authentication method or key management protocol type. MAC address filters are not dependent on
how you configure these security features.
Antenna Overview
An antenna couples RF signals onto air. A transmitter within a wireless device sends an RF signal to
the antenna, which propagates the signal through the air. The antenna also operates in reverse by
capturing RF signals from the air.
Positioning the antennas properly increases the range and coverage area of a wireless LAN.
Antenna Characteristics
Frequency
An antenna in the frequency of 2.4GHz (IEEE 802.11b and IEEE 802.11g) or 5GHz (IEEE 802.11a)
is needed to communicate efficiently in a wireless LAN
Radiation Pattern
A radiation pattern is a diagram that allows you to visualize the shape of the antenna’s coverage
area.
Antenna Gain
Antenna gain, measured in dB (decibel), is the increase in coverage within the RF beam width.
Higher antenna gain improves the range of the signal for better communications.
For an indoor site, each 1 dB increase in antenna gain results in a range increase of approximately
Table 127 Wireless Security Relational Matrix
AUTHENTICATION
METHOD/ KEY
MANAGEMENT PROTOCOL
ENCRYPTIO
N METHOD
ENTER
MANUAL KEY IEEE 802.1X
Open None No Disable
Enable without Dynamic WEP Key
Open WEP No Enable with Dynamic WEP Key
Yes Enable without Dynamic WEP Key
Yes Disable
Shared WEP No Enable with Dynamic WEP Key
Yes Enable without Dynamic WEP Key
Yes Disable
WPA TKIP/AES No Enable
WPA-PSK TKIP/AES Yes Disable
WPA2 TKIP/AES No Enable
WPA2-PSK TKIP/AES Yes Disable
Appendix D Wireless LANs
VMG4380-B10A / VMG4325-B10A User’s Guide 339
2.5%. For an unobstructed outdoor site, each 1dB increase in gain results in a range increase of
approximately 5%. Actual results may vary depending on the network environment.
Antenna gain is sometimes specified in dBi, which is how much the antenna increases the signal
power compared to using an isotropic antenna. An isotropic antenna is a theoretical perfect antenna
that sends out radio signals equally well in all directions. dBi represents the true gain that the
antenna provides.
Types of Antennas for WLAN
There are two types of antennas used for wireless LAN applications.
• Omni-directional antennas send the RF signal out in all directions on a horizontal plane. The
coverage area is torus-shaped (like a donut) which makes these antennas ideal for a room
environment. With a wide coverage area, it is possible to make circular overlapping coverage
areas with multiple access points.
• Directional antennas concentrate the RF signal in a beam, like a flashlight does with the light
from its bulb. The angle of the beam determines the width of the coverage pattern. Angles
typically range from 20 degrees (very directional) to 120 degrees (less directional). Directional
antennas are ideal for hallways and outdoor point-to-point applications.
Positioning Antennas
In general, antennas should be mounted as high as practically possible and free of obstructions. In
point-to–point application, position both antennas at the same height and in a direct line of sight to
each other to attain the best performance.
For omni-directional antennas mounted on a table, desk, and so on, point the antenna up. For
omni-directional antennas mounted on a wall or ceiling, point the antenna down. For a single AP
application, place omni-directional antennas as close to the center of the coverage area as possible.
For directional antennas, point the antenna in the direction of the desired coverage area.
Appendix D Wireless LANs
VMG4380-B10A / VMG4325-B10A User’s Guide
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VMG4380-B10A / VMG4325-B10A User’s Guide 341
APPENDIX E
IPv6
Overview
IPv6 (Internet Protocol version 6), is designed to enhance IP address size and features. The
increase in IPv6 address size to 128 bits (from the 32-bit IPv4 address) allows up to 3.4 x 1038 IP
addresses.
IPv6 Addressing
The 128-bit IPv6 address is written as eight 16-bit hexadecimal blocks separated by colons (:). This
is an example IPv6 address 2001:0db8:1a2b:0015:0000:0000:1a2f:0000.
IPv6 addresses can be abbreviated in two ways:
• Leading zeros in a block can be omitted. So 2001:0db8:1a2b:0015:0000:0000:1a2f:0000 can
be written as 2001:db8:1a2b:15:0:0:1a2f:0.
• Any number of consecutive blocks of zeros can be replaced by a double colon. A double colon can
only appear once in an IPv6 address. So 2001:0db8:0000:0000:1a2f:0000:0000:0015 can be
written as 2001:0db8::1a2f:0000:0000:0015, 2001:0db8:0000:0000:1a2f::0015,
2001:db8::1a2f:0:0:15 or 2001:db8:0:0:1a2f::15.
Prefix and Prefix Length
Similar to an IPv4 subnet mask, IPv6 uses an address prefix to represent the network address. An
IPv6 prefix length specifies how many most significant bits (start from the left) in the address
compose the network address. The prefix length is written as “/x” where x is a number. For
example,
2001:db8:1a2b:15::1a2f:0/32
means that the first 32 bits (2001:db8) is the subnet prefix.
Link-local Address
A link-local address uniquely identifies a device on the local network (the LAN). It is similar to a
“private IP address” in IPv4. You can have the same link-local address on multiple interfaces on a
device. A link-local unicast address has a predefined prefix of fe80::/10. The link-local unicast
address format is as follows.
Table 128 Link-local Unicast Address Format
1111 1110 10 0 Interface ID
10 bits 54 bits 64 bits
Appendix E IPv6
VMG4380-B10A / VMG4325-B10A User’s Guide
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Global Address
A global address uniquely identifies a device on the Internet. It is similar to a “public IP address” in
IPv4. A global unicast address starts with a 2 or 3.
Unspecified Address
An unspecified address (0:0:0:0:0:0:0:0 or ::) is used as the source address when a device does
not have its own address. It is similar to “0.0.0.0” in IPv4.
Loopback Address
A loopback address (0:0:0:0:0:0:0:1 or ::1) allows a host to send packets to itself. It is similar to
“127.0.0.1” in IPv4.
Multicast Address
In IPv6, multicast addresses provide the same functionality as IPv4 broadcast addresses.
Broadcasting is not supported in IPv6. A multicast address allows a host to send packets to all hosts
in a multicast group.
Multicast scope allows you to determine the size of the multicast group. A multicast address has a
predefined prefix of ff00::/8. The following table describes some of the predefined multicast
addresses.
The following table describes the multicast addresses which are reserved and can not be assigned
to a multicast group.
Table 129 Predefined Multicast Address
MULTICAST ADDRESS DESCRIPTION
FF01:0:0:0:0:0:0:1 All hosts on a local node.
FF01:0:0:0:0:0:0:2 All routers on a local node.
FF02:0:0:0:0:0:0:1 All hosts on a local connected link.
FF02:0:0:0:0:0:0:2 All routers on a local connected link.
FF05:0:0:0:0:0:0:2 All routers on a local site.
FF05:0:0:0:0:0:1:3 All DHCP severs on a local site.
Table 130 Reserved Multicast Address
MULTICAST ADDRESS
FF00:0:0:0:0:0:0:0
FF01:0:0:0:0:0:0:0
FF02:0:0:0:0:0:0:0
FF03:0:0:0:0:0:0:0
FF04:0:0:0:0:0:0:0
FF05:0:0:0:0:0:0:0
FF06:0:0:0:0:0:0:0
FF07:0:0:0:0:0:0:0
Appendix E IPv6
VMG4380-B10A / VMG4325-B10A User’s Guide 343
Subnet Masking
Both an IPv6 address and IPv6 subnet mask compose of 128-bit binary digits, which are divided
into eight 16-bit blocks and written in hexadecimal notation. Hexadecimal uses four bits for each
character (1 ~ 10, A ~ F). Each block’s 16 bits are then represented by four hexadecimal
characters. For example, FFFF:FFFF:FFFF:FFFF:FC00:0000:0000:0000.
Interface ID
In IPv6, an interface ID is a 64-bit identifier. It identifies a physical interface (for example, an
Ethernet port) or a virtual interface (for example, the management IP address for a VLAN). One
interface should have a unique interface ID.
EUI-64
The EUI-64 (Extended Unique Identifier) defined by the IEEE (Institute of Electrical and Electronics
Engineers) is an interface ID format designed to adapt with IPv6. It is derived from the 48-bit (6-
byte) Ethernet MAC address as shown next. EUI-64 inserts the hex digits fffe between the third and
fourth bytes of the MAC address and complements the seventh bit of the first byte of the MAC
address. See the following example.
Identity Association
An Identity Association (IA) is a collection of addresses assigned to a DHCP client, through which
the server and client can manage a set of related IP addresses. Each IA must be associated with
exactly one interface. The DHCP client uses the IA assigned to an interface to obtain configuration
from a DHCP server for that interface. Each IA consists of a unique IAID and associated IP
information.
The IA type is the type of address in the IA. Each IA holds one type of address. IA_NA means an
identity association for non-temporary addresses and IA_TA is an identity association for temporary
addresses. An IA_NA option contains the T1 and T2 fields, but an IA_TA option does not. The
DHCPv6 server uses T1 and T2 to control the time at which the client contacts with the server to
extend the lifetimes on any addresses in the IA_NA before the lifetimes expire. After T1, the client
sends the server (S1) (from which the addresses in the IA_NA were obtained) a Renew message. If
FF08:0:0:0:0:0:0:0
FF09:0:0:0:0:0:0:0
FF0A:0:0:0:0:0:0:0
FF0B:0:0:0:0:0:0:0
FF0C:0:0:0:0:0:0:0
FF0D:0:0:0:0:0:0:0
FF0E:0:0:0:0:0:0:0
FF0F:0:0:0:0:0:0:0
Table 130 Reserved Multicast Address (continued)
MULTICAST ADDRESS
MAC 00 : 13 : 49 : 12 : 34 : 56
EUI-64 02: 13 : 49 : FF : FE : 12 : 34 : 56
Appendix E IPv6
VMG4380-B10A / VMG4325-B10A User’s Guide
344
the time T2 is reached and the server does not respond, the client sends a Rebind message to any
available server (S2). For an IA_TA, the client may send a Renew or Rebind message at the client's
discretion.
DHCP Relay Agent
A DHCP relay agent is on the same network as the DHCP clients and helps forward messages
between the DHCP server and clients. When a client cannot use its link-local address and a well-
known multicast address to locate a DHCP server on its network, it then needs a DHCP relay agent
to send a message to a DHCP server that is not attached to the same network.
The DHCP relay agent can add the remote identification (remote-ID) option and the interface-ID
option to the Relay-Forward DHCPv6 messages. The remote-ID option carries a user-defined string,
such as the system name. The interface-ID option provides slot number, port information and the
VLAN ID to the DHCPv6 server. The remote-ID option (if any) is stripped from the Relay-Reply
messages before the relay agent sends the packets to the clients. The DHCP server copies the
interface-ID option from the Relay-Forward message into the Relay-Reply message and sends it to
the relay agent. The interface-ID should not change even after the relay agent restarts.
Prefix Delegation
Prefix delegation enables an IPv6 router to use the IPv6 prefix (network address) received from the
ISP (or a connected uplink router) for its LAN. The Device uses the received IPv6 prefix (for
example, 2001:db2::/48) to generate its LAN IP address. Through sending Router Advertisements
(RAs) regularly by multicast, the Device passes the IPv6 prefix information to its LAN hosts. The
hosts then can use the prefix to generate their IPv6 addresses.
ICMPv6
Internet Control Message Protocol for IPv6 (ICMPv6 or ICMP for IPv6) is defined in RFC 4443.
ICMPv6 has a preceding Next Header value of 58, which is different from the value used to identify
ICMP for IPv4. ICMPv6 is an integral part of IPv6. IPv6 nodes use ICMPv6 to report errors
encountered in packet processing and perform other diagnostic functions, such as "ping".
Neighbor Discovery Protocol (NDP)
The Neighbor Discovery Protocol (NDP) is a protocol used to discover other IPv6 devices and track
neighbor’s reachability in a network. An IPv6 device uses the following ICMPv6 messages types:
• Neighbor solicitation: A request from a host to determine a neighbor’s link-layer address (MAC
address) and detect if the neighbor is still reachable. A neighbor being “reachable” means it
responds to a neighbor solicitation message (from the host) with a neighbor advertisement
message.
T1
T2
Renew Rebind
Rebind
to S1
Renew
to S1
Renew
to S1
Renew
to S1
Renew
to S1
Renew
to S1
to S2
to S2
Appendix E IPv6
VMG4380-B10A / VMG4325-B10A User’s Guide 345
• Neighbor advertisement: A response from a node to announce its link-layer address.
• Router solicitation: A request from a host to locate a router that can act as the default router and
forward packets.
• Router advertisement: A response to a router solicitation or a periodical multicast advertisement
from a router to advertise its presence and other parameters.
IPv6 Cache
An IPv6 host is required to have a neighbor cache, destination cache, prefix list and default router
list. The Device maintains and updates its IPv6 caches constantly using the information from
response messages. In IPv6, the Device configures a link-local address automatically, and then
sends a neighbor solicitation message to check if the address is unique. If there is an address to be
resolved or verified, the Device also sends out a neighbor solicitation message. When the Device
receives a neighbor advertisement in response, it stores the neighbor’s link-layer address in the
neighbor cache. When the Device uses a router solicitation message to query for a router and
receives a router advertisement message, it adds the router’s information to the neighbor cache,
prefix list and destination cache. The Device creates an entry in the default router list cache if the
router can be used as a default router.
When the Device needs to send a packet, it first consults the destination cache to determine the
next hop. If there is no matching entry in the destination cache, the Device uses the prefix list to
determine whether the destination address is on-link and can be reached directly without passing
through a router. If the address is unlink, the address is considered as the next hop. Otherwise, the
Device determines the next-hop from the default router list or routing table. Once the next hop IP
address is known, the Device looks into the neighbor cache to get the link-layer address and sends
the packet when the neighbor is reachable. If the Device cannot find an entry in the neighbor cache
or the state for the neighbor is not reachable, it starts the address resolution process. This helps
reduce the number of IPv6 solicitation and advertisement messages.
Multicast Listener Discovery
The Multicast Listener Discovery (MLD) protocol (defined in RFC 2710) is derived from IPv4's
Internet Group Management Protocol version 2 (IGMPv2). MLD uses ICMPv6 message types, rather
than IGMP message types. MLDv1 is equivalent to IGMPv2 and MLDv2 is equivalent to IGMPv3.
MLD allows an IPv6 switch or router to discover the presence of MLD listeners who wish to receive
multicast packets and the IP addresses of multicast groups the hosts want to join on its network.
MLD snooping and MLD proxy are analogous to IGMP snooping and IGMP proxy in IPv4.
MLD filtering controls which multicast groups a port can join.
MLD Messages
A multicast router or switch periodically sends general queries to MLD hosts to update the multicast
forwarding table. When an MLD host wants to join a multicast group, it sends an MLD Report
message for that address.
An MLD Done message is equivalent to an IGMP Leave message. When an MLD host wants to leave
a multicast group, it can send a Done message to the router or switch. The router or switch then
sends a group-specific query to the port on which the Done message is received to determine if
other devices connected to this port should remain in the group.
Appendix E IPv6
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346
Example - Enabling IPv6 on Windows XP/2003/Vista
By default, Windows XP and Windows 2003 support IPv6. This example shows you how to use the
ipv6 install command on Windows XP/2003 to enable IPv6. This also displays how to use the
ipconfig command to see auto-generated IP addresses.
IPv6 is installed and enabled by default in Windows Vista. Use the ipconfig command to check
your automatic configured IPv6 address as well. You should see at least one IPv6 address available
for the interface on your computer.
Example - Enabling DHCPv6 on Windows XP
Windows XP does not support DHCPv6. If your network uses DHCPv6 for IP address assignment,
you have to additionally install a DHCPv6 client software on your Windows XP. (Note: If you use
static IP addresses or Router Advertisement for IPv6 address assignment in your network, ignore
this section.)
This example uses Dibbler as the DHCPv6 client. To enable DHCPv6 client on your computer:
1Install Dibbler and select the DHCPv6 client option on your computer.
2After the installation is complete, select Start > All Programs > Dibbler-DHCPv6 > Client
Install as service.
3Select Start > Control Panel > Administrative Tools > Services.
C:\>ipv6 install
Installing...
Succeeded.
C:\>ipconfig
Windows IP Configuration
Ethernet adapter Local Area Connection:
Connection-specific DNS Suffix . :
IP Address. . . . . . . . . . . . : 10.1.1.46
Subnet Mask . . . . . . . . . . . : 255.255.255.0
IP Address. . . . . . . . . . . . : fe80::2d0:59ff:feb8:103c%4
Default Gateway . . . . . . . . . : 10.1.1.254
Appendix E IPv6
VMG4380-B10A / VMG4325-B10A User’s Guide 347
4Double click Dibbler - a DHCPv6 client.
5Click Start and then OK.
6Now your computer can obtain an IPv6 address from a DHCPv6 server.
Example - Enabling IPv6 on Windows 7
Windows 7 supports IPv6 by default. DHCPv6 is also enabled when you enable IPv6 on a Windows 7
computer.
To enable IPv6 in Windows 7:
1Select Control Panel > Network and Sharing Center > Local Area Connection.
2Select the Internet Protocol Version 6 (TCP/IPv6) checkbox to enable it.
3Click OK to save the change.
Appendix E IPv6
VMG4380-B10A / VMG4325-B10A User’s Guide
348
4Click Close to exit the Local Area Connection Status screen.
5Select Start > All Programs > Accessories > Command Prompt.
6Use the ipconfig command to check your dynamic IPv6 address. This example shows a global
address (2001:b021:2d::1000) obtained from a DHCP server.
C:\>ipconfig
Windows IP Configuration
Ethernet adapter Local Area Connection:
Connection-specific DNS Suffix . :
IPv6 Address. . . . . . . . . . . : 2001:b021:2d::1000
Link-local IPv6 Address . . . . . : fe80::25d8:dcab:c80a:5189%11
IPv4 Address. . . . . . . . . . . : 172.16.100.61
Subnet Mask . . . . . . . . . . . : 255.255.255.0
Default Gateway . . . . . . . . . : fe80::213:49ff:feaa:7125%11
172.16.100.254
VMG4380-B10A / VMG4325-B10A User’s Guide 349
APPENDIX F
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.
Appendix F Services
VMG4380-B10A / VMG4325-B10A User’s Guide
350
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 (for instance
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 Protocol, a program to enable
fast transfer of files, including large files
that may not be possible by e-mail.
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 1 Internet Control Message Protocol is often
used for diagnostic purposes.
ICQ UDP 4000 This is a popular Internet chat program.
IGMP (MULTICAST) User-Defined 2 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.
Appendix F Services
VMG4380-B10A / VMG4325-B10A User’s Guide 351
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 1 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.
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).
Table 131 Examples of Services (continued)
NAME PROTOCOL PORT(S) DESCRIPTION
Appendix F Services
VMG4380-B10A / VMG4325-B10A User’s Guide
352
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.
VDOLIVE TCP
UDP
7000
user-
defined
A videoconferencing solution. The UDP port
number is specified in the application.
Table 131 Examples of Services (continued)
NAME PROTOCOL PORT(S) DESCRIPTION
VMG4380-B10A / VMG4325-B10A User’s Guide 353
APPENDIX G
Legal Information
Copyright
Copyright © 2012 by MitraStar 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 MitraStar Communications Corporation. All rights reserved.
Disclaimer
MitraStar 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.
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.
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:
1Reorient or relocate the receiving antenna.
2Increase the separation between the equipment and the receiver.
Appendix G Legal Information
VMG4380-B10A / VMG4325-B10A User’s Guide
354
3Connect the equipment into an outlet on a circuit different from that to which the receiver is
connected.
4Consult 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/g/n(HT20) operation of this product in the U.S.A.is firmware-limited to channels
1 through 11. In 11n(HT40) mode, it is firmware-limited to channels 3 throug 9.
• 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.
注意 !
依據 低功率電波輻射性電機管理辦法
第十二條 經型式認證合格之低功率射頻電機,非經許可,公司、商號或使用
者均不得擅自變更頻率、加大功率或變更原設計之特性及功能。
第十四條 低功率射頻電機之使用不得影響飛航安全及干擾合法通信;經發現
有干擾現象時,應立即停用,並改善至無干擾時方得繼續使用。
前項合法通信,指依電信規定作業之無線電信。低功率射頻電機須忍
受合法通信或工業、科學及醫療用電波輻射性電機設備之干擾。
本機限在不干擾合法電臺與不受被干擾保障條件下於室內使用。
減少電磁波影響,請妥適使用。
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.
Ce produit est conçu pour les bandes de fréquences 2,4 GHz et/ou 5 GHz conformément à la
législation Européenne. En France métropolitaine, suivant les décisions n°03-908 et 03-909 de
l’ARCEP, la puissance d’émission ne devra pas dépasser 10 mW (10 dB) dans le cadre d’une
installation WiFi en extérieur pour les fréquences comprises entre 2454 MHz et 2483,5 MHz.
This Class [*] digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe [*] est conforme à la norme NMB-003 du Canada.
MitraStar Limited Warranty
MitraStar 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
CAUTION:
Appendix G Legal Information
VMG4380-B10A / VMG4325-B10A User’s Guide 355
warranty period, and upon proof of purchase, should the product have indications of failure due to
faulty workmanship and/or materials, MitraStar 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 MitraStar. 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. MitraStar 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 MitraStar's Service Center for your Return Material
Authorization number (RMA). Products must be returned Postage Prepaid. It is recommended that
the unit be insured when shipped. Any returned products without proof of purchase or those with
an out-dated warranty will be repaired or replaced (at the discretion of MitraStar) and the customer
will be billed for parts and labor. All repaired or replaced products will be shipped by MitraStar to the
corresponding return address, Postage Paid. This warranty gives you specific legal rights, and you
may also have other rights that vary from country to country.
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.
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.
• 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 the power adaptor or cord to the right supply voltage (for example, 110V AC in North America or
230V AC in Europe).
• 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.
Appendix G Legal Information
VMG4380-B10A / VMG4325-B10A User’s Guide
356
• Antenna Warning! This device meets ETSI and FCC certification requirements when using the included
antenna(s). Only use the included antenna(s).
• This product is for indoor use only (utilisation intérieure exclusivement).
•The screen of the coaxial cable is intended to be connected to earth in the building installation.
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.
Index
VMG4380-B10A / VMG4325-B10A User’s Guide 357
Index
A
ACL rule 215
ACS 257
activation
firewalls 211
media server 207
SIP ALG 186
SSID 108
adding a printer example 63
Address Resolution Protocol 243
administrator password 26
alternative subnet mask notation 312
antenna
directional 339
gain 338
omni-directional 339
AP (access point) 329
applications
Internet access 18
media server 206
activation 207
iTunes server 206
applications, NAT 191
ARP Table 243, 245
authentication 119, 120
RADIUS server 120
Auto Configuration Server, see ACS 257
B
backup
configuration 273
Basic Service Set, See BSS 327
Basic Service Set, see BSS
blinking LEDs 21
Broadband 75
broadcast 97
BSS 122, 327
example 122
C
CA 227, 333
Canonical Format Indicator See CFI
CCMs 276
certificate
factory default 228
Certificate Authority
See CA.
certificates 227
authentication 227
CA
creating 229
public key 227
replacing 228
storage space 228
Certification Authority 227
Certification Authority. see CA
certifications 353
notices 354
CFI 97
CFM 276
CCMs 276
link trace test 276
loopback test 276
MA 276
MD 276
MEP 276
MIP 276
channel 329
interference 329
channel, wireless LAN 118
client list 136
compatibility, WDS 113
configuration
backup 273
firewalls 211
reset 275
VMG4380-B10A / VMG4325-B10A User’s Guide
358
Index
restoring 274
static route 93, 155, 195
Connectivity Check Messages, see CCMs
copyright 353
CoS 172
CoS technologies 160
creating certificates 229
CTS (Clear to Send) 330
CTS threshold 115, 119
D
data fragment threshold 115, 119
DDoS 210
default server address 185
Denials of Service, see DoS
DHCP 132, 150
Differentiated Services, see DiffServ 172
DiffServ 172
marking rule 173
digital IDs 227
disclaimer 353
DLNA 206
DMZ 185
DNS 132, 151
DNS server address assignment 97
Domain Name 191
Domain Name System, see DNS
Domain Name System. See DNS.
DoS 210
DS field 172
DS, dee differentiated services
DSCP 172
dynamic DNS 193
wildcard 194
Dynamic Host Configuration Protocol, see DHCP
dynamic WEP key exchange 334
DYNDNS wildcard 194
E
EAP Authentication 333
ECHO 191
e-mail
log example 268
Encapsulation 93
MER 94
PPP over Ethernet 94
encapsulation 76
RFC 1483 94
encryption 121, 335
ESS 328
Extended Service Set IDentification 102, 109
Extended Service Set, See ESS 328
F
FCC interference statement 353
File Sharing 204
file sharing 20
filters
MAC address 109, 120
Finger 191
firewalls 209
add protocols 211
configuration 211
DDoS 210
DoS 210
LAND attack 210
Ping of Death 210
SYN attack 210
firmware 271
version 73
forwarding ports 178
fragmentation threshold 115, 119, 330
FTP 178, 191
G
General wireless LAN screen 100
Index
VMG4380-B10A / VMG4325-B10A User’s Guide 359
H
hidden node 329
HTTP 191
I
IANA 316
Internet Assigned Numbers Authority
see IANA
IBSS 327
IEEE 802.11g 331
IEEE 802.1Q 97
IGA 189
IGMP 97
multicast group list 247
version 97
ILA 189
Independent Basic Service Set
See IBSS 327
initialization vector (IV) 335
Inside Global Address, see IGA
Inside Local Address, see ILA
interface group 197
Internet
wizard setup 33
Internet access 18
wizard setup 33
Internet Protocol version 6 77
Internet Protocol version 6, see IPv6
Internet Service Provider, see ISP
IP address 132, 151
ping 277
private 152
WAN 76
IP Address Assignment 96
IP alias
NAT applications 191
IPv6 77, 341
addressing 77, 98, 341
EUI-64 343
global address 342
interface ID 343
link-local address 341
Neighbor Discovery Protocol 341
ping 341
prefix 77, 98, 341
prefix delegation 78
prefix length 77, 98, 341
unspecified address 342
ISP 76
iTunes server 206
L
LAN 131
client list 136
DHCP 132, 150
DNS 132, 151
IP address 132, 133, 151
MAC address 137
status 73
subnet mask 132, 133, 151
LAND attack 210
LAN-Side DSL CPE Configuration 259
LBR 276
limitations
wireless LAN 121
WPS 129
link trace 276
Link Trace Message, see LTM
Link Trace Response, see LTR
login 25
passwords 26
logs 235, 239, 247, 267
Loop Back Response, see LBR
loopback 276
LTM 276
LTR 276
M
MA 276
MAC address 110, 137
filter 109, 120
MAC authentication 109
Mac filter 219
VMG4380-B10A / VMG4325-B10A User’s Guide
360
Index
Maintenance Association, see MA
Maintenance Domain, see MD
Maintenance End Point, see MEP
managing the device
good habits 17
Maximum Burst Size (MBS) 95
MBSSID 122
MD 276
media server 206
activation 207
iTunes server 206
MEP 276
MTU (Multi-Tenant Unit) 96
multicast 97
Multiple BSS, see MBSSID
multiplexing 94
LLC-based 95
VC-based 94
multiprotocol encapsulation 94
N
NAT 177, 179, 188, 189, 316
applications 191
IP alias 191
example 190
global 189
IGA 189
ILA 189
inside 189
local 189
outside 189
port forwarding 178
port number 191
services 191
SIP ALG 186
activation 186
NAT example 192
Network Address Translation
see NAT
Network Address Translation, see NAT
Network Map 71
network map 29
NNTP 191
P
Pairwise Master Key (PMK) 335, 337
passwords 26
PBC 124
Peak Cell Rate (PCR) 95
Per-Hop Behavior, see PHB 173
PHB 173
PIN, WPS 124
example 126
Ping of Death 210
Point-to-Point Tunneling Protocol 191
POP3 191
port forwarding 178
ports 21
PPP over Ethernet, see PPPoE
PPPoE 76, 94
Benefits 94
PPTP 191
preamble 116, 119
preamble mode 123
prefix delegation 78
Printer Server 207
printer sharing 62
configuration 62
requirements 207
private IP address 152
product registration 355
protocol 76
PSK 335
push button 23
Push Button Configuration, see PBC
push button, WPS 124
Q
QoS 159, 172
marking 160
setup 159
tagging 160
versus CoS 160
Quality of Service, see QoS
Index
VMG4380-B10A / VMG4325-B10A User’s Guide 361
R
RADIUS 332
message types 332
messages 332
shared secret key 333
RADIUS server 120
registration
product 355
related documentation 2
remote management
TR-069 257
Remote Procedure Calls, see RPCs 257
reset 22, 275
restart 275
restoring configuration 274
RFC 1058. See RIP.
RFC 1389. See RIP.
RFC 1483 94
RFC 3164 235
RIP 157
router features 18
Routing Information Protocol. See RIP
RPPCs 257
RTS (Request To Send) 330
threshold 329, 330
RTS threshold 115, 119
S
security
wireless LAN 119
Security Log 237
Security Parameter Index, see SPI
service access control 255
Service Set 102, 109
Services 191
setup
firewalls 211
static route 93, 155, 195
Single Rate Three Color Marker, see srTCM
SIP ALG 186
activation 186
SMTP 191
SNMP 191
SNMP trap 191
SPI 210
srTCM 174
SSID 120
activation 108
MBSSID 122
static route 153, 265
configuration 93, 155, 195
example 153
static VLAN
status 71
firmware version 73
LAN 73
WAN 73
wireless LAN 73
status indicators 21
subnet 309
subnet mask 132, 151, 310
subnetting 312
Sustained Cell Rate (SCR) 95
SYN attack 210
syslog
protocol 235
severity levels 235
system
firmware 271
version 73
passwords 26
reset 22
status 71
LAN 73
WAN 73
wireless LAN 73
time 261
T
Tag Control Information See TCI
Tag Protocol Identifier See TPID
TCI
The 76
thresholds
data fragment 115, 119
VMG4380-B10A / VMG4325-B10A User’s Guide
362
Index
RTS/CTS 115, 119
time 261
TPID 97
TR-064 259
TR-069 257
ACS setup 257
authentication 258
traffic shaping 95
trTCM 175
Two Rate Three Color Marker, see trTCM
U
unicast 97
Universal Plug and Play, see UPnP
upgrading firmware 271
UPnP 138
cautions 133
example 139
installation 139
NAT traversal 132
USB features 20
V
VID
Virtual Circuit (VC) 94
Virtual Local Area Network See VLAN
VLAN 96
Introduction 96
number of possible VIDs
priority frame
static
VLAN ID 97
VLAN Identifier See VID
VLAN tag 97
W
WAN
status 73
Wide Area Network, see WAN 75
warranty
note 355
WDS 113, 123
compatibility 113
example 123
web configurator 25
login 25
passwords 26
WEP 121
WEP Encryption 104, 105
WEP encryption 103
WEP key 103
Wi-Fi Protected Access 335
wireless client WPA supplicants 336
Wireless Distribution System, see WDS
wireless LAN 99, 117
authentication 119, 120
BSS 122
example 122
channel 118
encryption 121
example 118
fragmentation threshold 115, 119
limitations 121
MAC address filter 109, 120
MBSSID 122
preamble 116, 119
RADIUS server 120
RTS/CTS threshold 115, 119
security 119
SSID 120
activation 108
status 73
WDS 113, 123
compatibility 113
example 123
WEP 121
WPA 121
WPA-PSK 121
WPS 123, 126
example 127
limitations 129
PIN 124
push button 23, 124
wireless security 331
Wireless tutorial 40
wizard setup
Internet 33
Index
VMG4380-B10A / VMG4325-B10A User’s Guide 363
WLAN
interference 329
security parameters 338
WPA 121, 335
key caching 336
pre-authentication 336
user authentication 336
vs WPA-PSK 335
wireless client supplicant 336
with RADIUS application example 336
WPA2 335
user authentication 336
vs WPA2-PSK 335
wireless client supplicant 336
with RADIUS application example 336
WPA2-Pre-Shared Key 335
WPA2-PSK 335
application example 337
WPA-PSK 121, 335
application example 337
WPS 123, 126
example 127
limitations 129
PIN 124
example 126
push button 23, 124
VMG4380-B10A / VMG4325-B10A User’s Guide
364
Index
Index
VMG4380-B10A / VMG4325-B10A User’s Guide 365
VMG4380-B10A / VMG4325-B10A User’s Guide
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Index