FRITZ WLAN 7490 Router Manual PDF (Setup & Configuration Guide)

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FRITZ!Box 7490

96

IPv6: The New Internet Protocol

Support with the FRITZ!Box

The FRITZ!Box supports DNSSEC queries over UDP.

The FRITZ!Box has a DNS proxy. The computers in the home

network use the FRITZ!Box as a DNS server. The FRITZ!Box for-

wards DNSSEC queries from the home network to the Inter-

net. The FRITZ!Box forwards DNSSEC responses from the

Internet to the home network. The DNSSEC information must

be validated on the computer in the home network. For this

DNSSEC must be supported in the operating system.

14.9

IPv6: The New Internet Protocol

IPv6 stands for Internet protocol version 6 and is the succes-

sor to IPv4.

The FRITZ!Box supports the new IPv6 web protocol and can

establish IPv6 connections:

•

IPv6 support can be switched on in the FRITZ!Box user

interface.

•

For simultaneous use of IPv6 and IPv4, the FRITZ!Box

supports dual-stack and dual-stack lite. This means that

the FRITZ!Box can communicate with both IPv4 and IPv6

domains in the Internet.

•

The FRITZ!Box supports native IPv6 and IPv6 with a tun-

nel protocol. Native IPv6 means that your Internet ser-

vice provider supports IPv6 directly on your line.

IPv6-Capable Services in the Home Network

•

FRITZ!NAS access via SMB or FTP/FTPS

•

Access to the user interface with http or https over IPv6

•

The DNS resolver of the FRITZ!Box supports queries for

IPv6 addresses (AAAA records) and can query the up-

stream DNS resolver of the Internet service provider over

IPv6.

•

The globally valid prefix is distributed via router adver-

tisement.

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IPv6: The New Internet Protocol

FRITZ!Box 7490

97

•

For guest access to the wireless LAN, the home network

and wireless guests are separated by IPv6 subnetworks.

•

UPnP, UPnP AV media server

•

Automatic provisioning (TR-064)

IPv6-Capable Services in the Internet

•

FRITZ!NAS access via FTPS

•

Completely closed firewall to protect against unwanted

data from the Internet (Stateful Inspection Firewall)

•

Voice over IPv6

•

Automatic provisioning (TR-069)

•

Time synchronization over NTP (Network Time Protocol)

•

Remote access via https

•

Dynamic DNS via dyndns.org and namemaster.de

Configuring IPv6 in the FRITZ!Box

1.

Open the FRITZ!Box user interface, see

page 32

.

2.

Enable the advanced view.

3.

Select the “Internet / Account Information” menu.

4.

Select the “IPv6” page and set up IPv6 in the FRITZ!Box.

See the Help available in the FRITZ!Box user interface for

more information.

Configuring IPv6 on the Computer

You can establish connections in the IPv6 range of the Inter-

net only if IPv6 is installed and enabled on the computers in

your home network.

•

IPv6 is already installed and enabled in the Windows 7

and Windows Vista operating systems.

•

IPv6 is not installed and enabled in standard

Windows XP. You must install and enable IPv6 in order to

use it. The IPv6 installation requires Service Pack 2 for

Windows XP.

•

IPv6 has been available in the Mac OS X operating sys-

tems since Mac OS 10.

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FRITZ!Box 7490

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Mobile Network: Replacing Faulty DSL

14.10

Mobile Network: Replacing Faulty DSL

Internet access over the mobile telephone network can be set

up so that the mobile telephone connection is established

automatically whenever the DSL connection fails. This guar-

antees Internet access even when the DSL connection is fails.

A USB modem for mobile Internet access (UMTS/HSPA) and a

SIM card from a mobile communications provider are re-

quired for this. The FRITZ!Box supports UMTS/HSPA modems

from various manufacturers.

Here is how to set up the mobile telephone connection as a

substitute upon DSL failure:

1.

Insert the USB modem in the USB port on the FRITZ!Box.

2.

Open the FRITZ!Box user interface, see

page 32

.

In the “Internet” menu, the sub-menu “Mobile Commu-

nications” is displayed.

3.

Select the setting “Automatically enable the mobile con-

nection when the DSL connection is disrupted”.

4.

Configure the settings for your Internet connection over

the mobile communications network. In the Help of the

FRITZ!Box user interface

you can find detailed in-

structions.

Access to the Internet is now guaranteed, even when the DSL

connection fails.

As soon as the DSL connection is stable and available for at

least 30 minutes, the connection will be switched back to

DSL.

The “Mobile Communications” menu is not available

until the UMTS/HSPA modem has been connected to the

USB port of the FRITZ!Box.

Page 99 / 197

LISP: FRITZ!Box as a LISP Router

FRITZ!Box 7490

99

14.11

LISP: FRITZ!Box as a LISP Router

LISP is a routing architecture which separates information

about location and identity. There are two IP addresses: one

for the location and one for the identity.

The FRITZ!Box can be configured as a LISP router.

•

This chapter address system administrators.

•

It presents a short introduction to LISP.

•

You receive an overview about the possibilities for using

LISP.

•

This chapter includes instructions on how to configure

the FRITZ!Box as a LISP router.

Definition and Components

LISP: Definition

LISP: Locator/Identifier Separation Protocol

IP protocol

LISP is a protocol for the transmission of IP

packets.

IP address pair

LISP uses IP address pairs:

•

One IP address for identification, which is

called the EID (Endpoint Identifier). The

EID can be the IP address of a host or an

entire IP subnet.

•

One IP address for the location, known as

the RLOC (Routing Locator). The RLOC is

the IP address of the LISP router.

Tunnel protocol

LISP is a tunnel protocol.

A LISP packet consists of an internal IP packet

and an additional external header. The header

of the internal packet contains the EID; the ex-

ternal header contains the RLOC.

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LISP: FRITZ!Box as a LISP Router

Properties of RLOC and EID

Components of a LISP System

RLOC

•

specifies the location where the addressed network

(network segment or network device) is located

•

is assigned by the Internet service provider

•

is a public IP address

•

is contained in the external header of the LISP packet

•

can be an IPv4 address

•

can be an IPv6 address

EID

•

identifies a network (network segment or network de-

vice)

•

is assigned by the LISP provider

•

is contained in the internal header of the LISP packet

•

can be an IPv4 address

•

can be an IPv6 address

•

can be a public IP address

•

can be a private, non-public IP address

Mapping system

The mapping system is responsible for allo-

cating the EIDs to the RLOCs.

ETR (Egress Tunnel

Router)

The ETR accepts IP packets whose destination

IP address contained in the external header is

the ETR’s own RLOC. ETR unpacks the LISP

packets.

ITR (Ingress Tunnel

Router)

The ITR accepts IP packets from members of

the local IP network (EID network) and packs

them into LISP packets. The external header of

the LISP packet contains the RLOC of the des-

tination network (remote EID network) as the

destination address.

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