US9270591B2

US9270591B2 - Method and system for routing data traffic

Info

Publication number: US9270591B2
Application number: US14/241,778
Authority: US
Inventors: Cornelis Remment Zwart
Original assignee: Liberty Global Europe Holding BV
Current assignee: Liberty Global Europe Holding BV
Priority date: 2011-08-31
Filing date: 2012-08-17
Publication date: 2016-02-23
Also published as: CL2014000478A1; PL2566138T3; CA2846832C; ES2528744T3; EP2566138A1; US20140233570A1; PT2566138E; EP2566138B1; WO2013032320A1; CA2846832A1

Abstract

Method and media gateway (4) for providing network connectivity functionality in a combination of a first network connection formed by the media gateway (4) and a second network connection formed by a generic gateway (2). A first group of IP clients (5) is connected to the media gateway (4), and a second group of IP clients (3) is connected to the generic gateway (2). The media gateway (4) is arranged to receive from the generic gateway (2) local IP addresses associated with the first group of IP clients (5). An attachment link (6) is provided between the media gateway (4) and the generic gateway (2).

Description

This application is a 35 U.S.C. §371 national stage application of PCT/NL2012/050575, which was filed Aug. 17, 2012 and claimed the benefit of EP11179592.8, both of which are incorporated herein by reference as if fully set forth.

FIELD OF THE INVENTION

The present invention relates to a method for providing network connectivity functionality in a combination of a first network connection formed by a media gateway and a second network connection formed by a generic gateway, a first group of IP clients being connected to the media gateway, and a second group of IP clients being connected to the generic gateway.

PRIOR ART

International patent publication WO 2005/050897 discloses dynamic pool sharing to allow subnets with DHCP servers to borrow IP addresses when subnet capacity requirements reach pre-existing limits and assign the IP addresses to DHCP clients. The network relies on adjacent subnets to share IP addresses so that DHCP clients coupled to mobile devices remain coupled to a wireless network. When a DHCP client requests an IP address, a home subnet requests pool sharing with adjacent subnets and selects a candidate among the adjacent subnets. The home subnet then negotiates the selected candidate with the DHCP client.

US patent publication US 2010/191839 discloses techniques for synchronizing resource bindings within computer networks. An intermediate network device comprising an interface card and a control unit may implement these techniques. The interface card receives a message from a server that allocates a network address for use by a client device identified by a unique identifier. The control unit stores data defining a binding between the unique identifier and the network address. The control unit includes a binding synchronization module that determines whether the binding release occurs in response to receiving a release message from the client device, and automatically generates a release message on behalf of the client device upon determining that the binding release did not occur in response to receiving a release message. The binding synchronization module outputs the automatically generated release message to the server that reserved the L3 network address.

US patent publication US 2010/118831 discloses a method and a wireless access point device for a network layer handoff a wireless mobile node over a wireless local area network. The method includes detecting a wireless mobile node that has moved into the coverage area the wireless access point device; maintaining an available IP address pool; selecting a temporary IP address from the IP access pool in response to the detection of the mobile node moving into the coverage area; and assigning a temporary IP address to the mobile node for use by the node during an interim period. The method produces a network layer handoff of a wireless mobile node over a local area network.

European patent application EP-A-1 089 524 discloses a system for supporting multiple Internet service providers on a single network. A cable modem infrastructure is used that denies access to devices on a local network that are not registered with an authorized ISP. A registration process is used for gaining access to the Internet by allowing devices on the local network to establish Internet access agreements with an ISP.

SUMMARY OF THE INVENTION

The present invention seeks to provide a solution for combining an existing local home network with a media oriented network.

According to the present invention, a method according to the preamble defined above is provided, wherein the media gateway is arranged to receive from the generic gateway local IP addresses associated with the first group of IP clients, wherein an attachment link is provided between the media gateway and the generic gateway. This allows to have IP clients in the local home network accessible to the media gateway and to IP clients connected to the media gateway and vice versa, wherein the media gateway comprises a router part and LAN interfaces, and the media gateway in a boot-up process is configured to:

block all incoming and outgoing DHCP traffic on the LAN interfaces, except from the attachment link where outgoing DHCP request and incoming DHCP replies will be allowed;

send out a DHCP request for the router part of the media gateway over the attachment link;

receive from the generic gateway a DHCP response over the attachment link;

configure the router part of the media gateway with the IP address thus obtained;

send out DHCP requests for a configurable number of dummy clients using locally administered private MAC-addresses over the attachment link;

receive from the generic gateway DHCP responses over the attachment link, such that for each privately administered MAC-address a valid set of IP address parameters is obtained by the media gateway;

save the sets of IP address parameters;

enable a DHCP server comprised in the media gateway;

enable DHCP in- and outgoing traffic for the DHCP server of the media gateway, except on the attachment link where only outgoing DHCP requests and incoming DHCP replies for the DHCP client are allowed.

Thus, the media gateway discerns over the generic gateway in its functionality, and in the type of network it is connected to: The media gateway (or first type of gateway) is connected via a first network connection to a media provider network, while the generic gateway (or second type of gateway) is connected via an access provider to a wide area network such as the Internet. Also, the type of IP clients connectable or connected to the media gateway is a special type of IP clients, such as television sets, set top boxes and the like, which have e.g. requirements in relation to quality of service. This set-up, both physically and logically, is not disclosed nor suggested in the prior art.

SHORT DESCRIPTION OF DRAWINGS

The present invention will be discussed in more detail below, using a number of exemplary embodiments, with reference to the attached drawings, in which

FIG. 1 shows a schematic diagram of an Internet access network and a local home network in combination with a media oriented network; and

FIG. 2 shows a detailed block diagram of a media gateway as used in a present invention embodiment.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

Nowadays, many homes are provided with a home (computer) network interconnecting various in-home devices 3, e.g. using an Internet Protocol (IP) network. The in-home devices 3 are in the present description embodied as clients in a computer network, and comprise e.g. computers, portable computer devices, network attached storage (NAS) devices, etc. A schematic diagram of such a home network is shown on the left side in FIG. 1. A generic gateway 2 may provide an interconnection facility between the in-home devices 3 as well as a connection to a global or wide area network 12, such as the Internet, via access provider 10. According to the present invention embodiments, additional elements are added to the home network, to also allow media oriented devices 5, such as television sets or set top boxes, to connect to one or more of the in-home devices 3. The media oriented devices 5 are connected to a media gateway 4 using network based (IP) connections. The media gateway 4 is connected to a media provider network 11 (which can have a connection to the wide area network 12 as indicated by the dotted line) to allow the delivery of media content (video streams for TV channels, video on demand programs, etc.) to one of the media oriented devices 5.

Users of (media) network services, such as cable network customers, have often installed and are using CPE (Customer Premises Equipment) routers to enable a home network to connect multiple in-home devices 3 (typically using Wi-Fi, but also wired Ethernet, MoCA or PowerLAN connections are possible).

To these existing home networks, the media gateway 4 may be added to allow interfacing with the media provider network 11 for delivery of media content to the media oriented devices 5. The media provider network 11 may be limited to delivery of media content (e.g. for servicing set top boxes in a home), but may also include other services, such as telephony services, or Internet provider services.

The media gateway 4 technically performs IP routing between the in-home network (in the present invention embodiments comprising the media oriented devices 5 and possibly one or more of the in-home devices 3 and media provider network 11. As the generic gateway 4 also performs IP routing between the in-home network and the wide area network 12, a mechanism and coordination between the

respective gateways

2, 4 is needed to ensure upstream traffic (i.e. traffic sent from the in-home network to the access provider) is routed via the correct gateway (generic gateway 2 or media gateway 4). This problem is normally solved in backbone networks by the use of dynamic routing protocols, however for typical in-home gateways these mechanisms do not apply: memory, processing, administration requirements usually make this an impossible option. In addition to the upstream routing problem, an additional problem arises from the fact that the media gateway 4 will use several multicast applications in the in-home network. To ensure proper functioning of multicast in a network, it is required that the in-home network is a single layer-2 broadcast/multicast domain (i.e. no layer-3 routing is required for IP connectivity between

nodes

3, 5 in the customer's home).

As shown in the schematic diagram of FIG. 1, the necessary connection between the generic gateway 2 and media gateway 4 is provided by an attachment link 6, which will be discussed in more detail below.

The goal of the present invention embodiments is to enable the realization of a single logical home network without the need of layer-3 IP routing between the in-home network components 2-5, while having both the generic gateway 2 and the media gateway 4 present and connected to the

home network devices

3, 5 and the respective access and media provider(s) (i.e. access provider 10 (to wide area network 12) and media provider network 11.

The present invention also ensures in a specific embodiment that media clients (a special class of media oriented devices 5) will only join the home network when they are directly connected to a media gateway 4, so that the media gateway 4 can ensure properly quality of service and traffic prioritization for the media client devices 5.

In FIG. 2 a generic block diagram is shown of functional modules of the media gateway 4 as discussed above. It is noted that also the generic gateway 2 may have a similar structure and functional elements. The media gateway 4 is provided with a wide area network (WAN) interface 16 for connection to a network such as the media provider network 11 (e.g. a cable modem). Furthermore, the media gateway 4 is provided with a plurality of local area network (LAN) interfaces 17 for connection to clients in the home network (in-home devices 3 and media oriented devices 5). The LAN interfaces 17 are e.g. Wifi interfaces (17 in FIG. 2), Ethernet interfaces (17 a in FIG. 2), PowerLan interfaces (17 c in FIG. 2) and the like, or dedicated interfaces (e.g. Multimedia over Coax, MOCA, 17 b in FIG. 2). The media gateway 4 furthermore comprises a router 18, which as such is well known in computer network systems using IP connectivity. Also, a DHCP (Dynamic Host Configuration Protocol) server 19 is present in the media gateway 4 as part of the functionality of router 18. For all these elements 16-19 (and other standard router functionality such as management control 20, NAT/Firewall 21, etc.) the functionality and possible (hardware and/or software) implementations are well known to the person skilled in the art, and will not be discussed in detail herein. However, further functionality is provided in especially the media gateway 4, e.g. in the form of a DHCP client 22 as discussed in more detail below. Also, the media gateway 4 may be provided with further dedicated hardware, e.g. a video processor 23 and a LAN interface (e.g. using the MOCA interface 17 b version of the LAN interface 17 as discussed above).

The media gateway 4 as shown in FIG. 2 is a processing system which is provided with many components, such as a data processor, memory and interfaces, as well known to the skilled person. A specific functional item in respect of the present invention embodiments is the addressing functionality of the media gateway 4. In its memory, the media gateway 4 has stored a MAC address for the WAN interface 16, as well as a global IP address associated therewith. This allows addressing of the specific media gateway 4 in the media provider network 11 and the Internet 12. Furthermore, under control of the DHCP server 19, a database is built using MAC addresses and associated IP addresses of

hardware units

3, 5 present in the associated local area network.

In the present invention embodiments, additional functionality is provided in the functionality of the media gateway 4, the functionality of some of the possible local connections (LAN interface 17) and the associated DHCP database. An example of a DHCP database is comprising a plurality of rows, where a number of fields are filled during operation of the media gateway 4:


			Media
			device
MAC address	IP address	DHCP lease time	flag

WAN interface	Global IP address	Period	n/a
(16)
LAN interface	Local IP address	Local lease period	n/a
(17)
client #1	Local IP address	Local lease period	y/n
client #
2	Local IP address	Local lease period	y/n
\|	\|	\|	\|
client #n	Local IP address	Local lease period	y/n

In general wording the media gateway 4 is configured to provide network connectivity (bridging and/or router) functionality in a combination of a first network connection formed by a media gateway 4 (for providing media oriented services) and a second network connection formed by a generic gateway 2 (e.g. an existing home network with Internet connection). A first group of IP clients 5 is connected to the media gateway 4, and a second group of IP clients 3 is connected to the generic gateway 2. The media gateway 4 is arranged to receive from the generic gateway 2 local IP addresses associated with the first group of IP clients 5. An attachment link 6 is provided between the media gateway 4 and the generic gateway 2 to obtain that information. This allows access to the second group of clients 3 from the first group of clients 5 via the media gateway 4.

In a more specific embodiment, the media gateway 4 comprises a router part 18 and LAN interfaces 17 as described above. The media gateway 4 in a boot-up process is configured to:

block all incoming and outgoing DHCP traffic on the LAN interfaces 17, except from the attachment link 6 where outgoing DHCP request and incoming DHCP replies will be allowed;

send out a DHCP request for the router part 18 of the media gateway 4 over the attachment link 6;

receive from the generic gateway 2 a DHCP response over the attachment link 6;

configure the router part 18 of the media gateway 4 with the IP address thus obtained;

send out DHCP requests for a configurable number of dummy clients using locally administered private MAC-addresses over the attachment link 6;

receive from the generic gateway 2 DHCP responses over the attachment link 6, such that for each privately administered MAC-address a valid set of IP address parameters (or lease set) is obtained by the media gateway 4;

save the sets of IP address parameters;

enable a DHCP server 19 comprised in the media gateway 4;

enable DHCP in- and outgoing traffic for the DHCP server 19 of the media gateway 4, except on the attachment link 6 where (still) only outgoing DHCP requests and incoming DHCP replies for DHCP client 22 are allowed.

Whenever the media gateway 4 receives a DHCP request on one of its LAN interfaces 17 or router 18, the media gateway 4

DHCP server

19 will reply to this request using IP address and network mask information from one of the sets of IP address parameters as obtained.

Some of the functionality discussed below may be present in various embodiments of the present invention.

The media gateway 4 is in a further embodiment arranged to stop the boot-up process if the media gateway 4 is unable to obtain a preconfigured minimum amount of lease sets. Furthermore, the media gateway 4 may then reconfigure the media gateway 4 to function as a home networking server.

In a further embodiment, depending on specific values of the DHCP options received in a DHCP request through its LAN interfaces 17, the media gateway DHCP server 19 will mark the associated client as a media oriented device 5 or as an in-home device 3. This may e.g. be stored in the DHCP database as discussed above.

If the client is a media oriented device 5, the media gateway DHCP server 19 sets the default gateway equal to the LAN IP address associated with the router part 18 of the media gateway 4 in a further embodiment. Furthermore, it will set the DHCP lease time to a configured value. If the client device is an in-home device 3, the media gateway DHCP server 19 sets the default gateway equal to the LAN IP address associated with the router part 18 of the media gateway 4 (and will set the DHCP lease time to a configured value) or sets the default gateway equal to the generic gateway 2. This latter option may depend on the available information and is depending on the administrative configuration in the home network.

In a further embodiment, if the client device is a media oriented device 5, the media gateway 4

DHCP server

19 will insert specific DHCP option values in a DHCP reply, identifying the DHCP server 19 as media gateway 4. This has the effect that if the DHCP client is a media oriented device 5, it will accept only DHCP responses from a media gateway 4 based on the option values in the DHCP reply. A media oriented device 5 will not accept DHCP replies coming from a DHCP server in a gateway other than the media gateway 4 (e.g. in generic gateway 2).

On receiving confirmation from a

client

3, 5 of a DHCP offer (i.e. a DHCP ACK message), the media gateway 4

DHCP server

19 will save the set of IP address parameters (especially IP address and client MAC-address and lease time) in its DHCP lease-database (such as the DHCP database as discussed above).

In a further embodiment, the media gateway 4 will monitor the amount of available valid sets of IP address parameters (i.e. lease sets), and when the amount drops below a preconfigured value, the media gateway 4 requests additional valid sets of IP address parameters through the attachment link 6 from the DHCP server of the generic gateway 2. This will assure that changes in the configuration of the network (especially with respect to the media oriented devices 5) can be dealt with directly, without interrupting any of the active services provided by the media gateway 4. When the media gateway 4 is unable to obtain the lease sets, the media gateway 4 will continue to give out leases as per above description, until no lease sets are available.

In an even further embodiment, the media gateway 4 periodically refreshes the obtained valid sets of IP address parameters (lease sets) with the generic gateway 2. This will be done conform the DHCP lease times and DHCP refresh intervals as actually valid, and serves to keep the DHCP database in a condition to keep the system running.

The media gateway 4 monitors the physical and/or logical status of the attachment link 6 in a further embodiment. When the attachment link 6 is disconnected, the media gateway 4 will run in home network client-disconnected mode until the attachment link 6 connectivity is restored and will continue to give out leases as per above description, until no lease sets are available.

When the media gateway 4 determines that the generic gateway 2 configuration or topology of the first and second group of

IP clients

3, 5 has changed (such that already acquired lease sets are no longer valid to obtain a single layer home network), the media gateway 4 is arranged in an embodiment to change to operation in an error mode, and disable the attachment link 6. As in other embodiments, the media gateway 4 can continue to give out leases as per above description. This mode of operation is maintained until the home network process is reinitialized, as the necessary data is then obtained for the then actual situation.

In the following, an example of steps executed in various elements of the system described above is presented for an embodiment comprising virtually all embodiments as discussed above.

- 1) The media gateway 4 has a functional cable connection and has a valid IP address for its router WAN interface 16;
- 2) The media gateway 4 will be configured in “home networking client” mode
- 3) One of the physical or logical network interfaces 17 (Ethernet, MoCA, Wifi, Powerline) of the media gateway 4 will be designated as attachment link 6. Alternatively, a dedicated attachment link 6 is used.
- 4) At boot up of the media gateway 4, all incoming and outgoing DHCP traffic will be blocked on all interfaces 17, except from the attachment link 6, where outgoing DHCP request and incoming DHCP replies will be allowed.
- 5) The media gateway 4 will send out a DHCP request for its logical router LAN interface 17 over the attachment link 6
- 6) The generic gateway 2 will send a DHCP response back to the media gateway 4 over the attachment link 6
- 7) The media gateway 4 will configure its logical router LAN interface 17 with the IP address thus obtained
- 8) The media gateway 4 will send out DHCP requests for a configurable number of dummy clients using so-called locally administered private MAC-addresses over the attachment link 6
- 9) The generic gateway 2 will send DHCP responses (lease sets) back to the media gateway 4 over the attachment link 6, such that for each privately administered MAC-address a valid set of IP address parameters is obtained by the media gateway 4
- 10) If the media gateway 4 is unable to obtain a preconfigured minimum amount of lease sets, the media gateway 4 will stop the process and reconfigure to function as a home networking server
- 11) The media gateway 4 will save the sets of IP address parameters
- 12) The media gateway 4 will enable its DHCP server 19
- 13) The media gateway 4 will enable DHCP in- and outgoing traffic on all interfaces 16, 17, except on the attachment link 6, where outgoing DHCP requests and incoming DHCP replies for DHCP client 22 will be allowed.
- 14) Whenever now the media gateway 4 receives a DHCP request on one of its LAN interfaces 17, the media gateway 4 DHCP server 19 will reply to this request using IP address and network mask information from one of the sets as obtained in step 9).
- 15) Depending on specific values of the DHCP options sent in the DHCP request by the client, the media gateway 4 DHCP server 19 will mark clients as media oriented device 5 or as in-home device 3
- 16) If the client is a media oriented device 5, the media gateway 4 DHCP server 19 will set the default gateway equal to its own router 18 LAN IP address and will set the DHCP lease time to a configured value.
- 17) If the client device is not a media oriented device 5 (thus an in-home device 3), the media gateway 4 DHCP server 19 may set the default gateway equal to its own router 18 LAN IP address and will set the DHCP lease time to a configured value or may set the default gateway equal to the default gateway information as obtained in step 9) for the information set in use, depending on administrative configuration
- 18) If the client device is a media oriented device 5 the media gateway 4 DHCP server 19 will insert specific DHCP option values in the DHCP reply, identifying the DHCP server 19 as media gateway 4
- 19) If the DHCP client is a media oriented device 5, it will accept only DHCP responses from a media gateway 4 based on the option values in the DHCP reply. A media oriented device 5 will not accept DHCP replies that are not coming from media gateway 4 DHCP server 19.
- 20) On confirmation of the client of the DHCP offer (DHCP ACK), the media gateway 4 DHCP server 19 will save the set of IP address parameters (especially IP address and client MAC-address and lease time) in its DHCP lease-database.
- 21) The media gateway 4 will monitor the amount of available lease sets; when this amount drops below a preconfigured value, the media gateway 4 DHCP client 22 will request additional lease sets through the attachment link 6 from the generic gateway 2 DHCP server. When the media gateway 4 is unable to obtain the lease sets, the media gateway 4 will continue to give out leases as per above description, until no lease sets are available
- 22) The media gateway 4 will monitor the physical and/or logical status of the attachment link 6. When the attachment link 6 is disconnected, the media gateway 4 will run in home network client-disconnected mode and continue to give out leases as per above description, until no lease sets are available or the attachment link 6 connectivity is restored
- 23) The media gateway 4 will periodically refresh the obtained lease sets with the generic gateway 2 conform the DHCP lease times and DHCP refresh intervals
- 24) If the media gateway 4 determines that the generic gateway 2 configuration or home network topology has changed such that already acquired lease sets are no longer valid to obtain a single layer home network, the media gateway 4 will run in error mode, disable the attachment link 6 and continue to give out leases as per above description until the home network process is reinitialized.

The present invention embodiments as described above allow for various applications in a media oriented network. E.g. a set top box 5 will now be able to access e.g. a Network Attached Storage device or home computer (as examples of in-home device 3) and display stored video or pictures on a television screen. Furthermore, the present invention embodiments allow to enlarge both the number of in-home devices 3 and the media oriented devices 5 in their respective networks (connected to generic gateway 2 and media gateway 4, respectively). However, it would also be possible to have a connection from an in-home device 3 to the media gateway 4, as this media gateway 4 can correctly route data to and from this in-home device 3. This is e.g. advantageous in the area of connection, as now also the media gateway 4 is available for (wireless) connections to the in-home device 3. In a further embodiment, the media gateway 4 could even take over the functionality of the generic gateway 2, provided that the media gateway is also able to provide Internet connectivity.

The present invention embodiments have been described above with reference to a number of exemplary embodiments as shown in the drawings. Modifications and alternative implementations of some parts or elements are possible, and are included in the scope of protection as defined in the appended claims.

Claims

What is claimed is:

1. A method for providing network connectivity functionality in a combination of a first network connection formed by a media gateway and a second network connection formed by a generic gateway comprising:

connecting a first group of IP clients to the media gateway, and a second group of IP clients to the generic gateway,

wherein the media gateway is arranged to receive from the generic gateway local IP addresses associated with the first group of IP clients,

wherein an attachment link is provided between the media gateway and the generic gateway

wherein the media gateway comprises a router part and LAN interfaces, and the media gateway in a boot-up process is configured to:

receive from the generic gateway a DHCP response comprising an IP address over the attachment link;

receive from the generic gateway DHCP responses, each comprising IP address parameters, over the attachment link, such that for each privately administered MAC-address a valid set of IP address parameters is obtained by the media gateway;

save the sets of IP address parameters;

enable a DHCP server comprised in the media gateway;

2. The method of claim 1, wherein the media gateway is further arranged to stop the boot-up process if the media gateway is unable to obtain a preconfigured minimum amount of lease sets.

3. The method of claim 1,

wherein depending on specific values of the DHCP options received in a DHCP request through its LAN interfaces, the media gateway DHCP server will mark the associated client as a media oriented device or as an in-home device.

4. The method of claim 3, wherein

if the client is a media oriented device, the media gateway DHCP server sets the default gateway equal to the LAN IP address associated with the router part of the media gateway.

5. The method of claim 4,

wherein if the client device is a media oriented device the media gateway DHCP server will insert specific DHCP option values in a DHCP reply, identifying the DHCP server as media gateway.

6. The method of claim 3, wherein

if the client device is an in-home device, the media gateway DHCP server sets the default gateway equal to the LAN IP address associated with the router part of the media gateway or sets the default gateway equal to the generic gateway.

7. The method of claim 6,

8. The method of claim 1, wherein

on receiving confirmation from a client of a DHCP offer, the media gateway DHCP server will save the set of IP address parameters.

9. The method of claim 1, wherein

the media gateway monitors the amount of available valid sets of IP address parameters, and when the amount drops below a preconfigured value, the media gateway requests additional valid sets of IP address parameters through the attachment link from the DHCP server of the generic gateway.

10. The method of claim 1, wherein the media gateway monitors one or more of the physical or logical status of the attachment link.

11. The method of claim 1, wherein the media gateway DHCP client periodically refreshes the obtained valid sets of IP address parameters with the generic gateway.

12. The method of claim 1, wherein, if the media gateway determines that the generic gateway configuration or topology of the first and second group of IP clients has changed, the media gateway is arranged to change to operation in an error mode, and disable the attachment link.

13. A media gateway for interfacing with a first network comprising:

a router;

a WAN interface; and

at least one LAN interface connected to the route;

wherein the media gateway comprises:

a memory comprising instructing; and

a processor configured to execute the instructing to perform:

providing network connectivity functionality in a combination of a first network connection formed by the media gateway and a second network connection formed by a generic gateway,

wherein a first group of IP clients is connected to the media gateway, and a second group of IP clients is connected to the generic gateway,

receive from the generic gateway local IP addresses associated with the first group of IP clients,

wherein the media gateway comprises a router part and LAN in a boot-up process is configured to:

save the sets of IP address parameters;

enable a DHCP server comprised in the media gateway;

14. The media gateway of claim 13, wherein the media gateway is further arranged to stop the boot-up process if the media gateway is unable to obtain a preconfigured minimum amount of lease sets.

15. The media gateway of claim 13,

wherein depending on specific values of the DHCP options received in a DHCP request through its LAN interfaces, the media gateway DHCP server is further arranged to mark the associated client as a media oriented device or as an in-home device.

16. The media gateway of claim 15, wherein

if the client is a media oriented device, the media gateway DHCP server is arranged to set the default gateway equal to the LAN IP address associated with the router part of the media gateway.

17. The media gateway of claim 16,

wherein if the client device is a media oriented device the media gateway DHCP server is further arranged to insert specific DHCP option values in a DHCP reply, identifying the DHCP server as media gateway.

18. The media gateway of claim 15, wherein

if the client device is an in-home device, the media gateway DHCP server is further arranged to set the default gateway equal to the LAN IP address associated with the router part of the media gateway or sets the default gateway equal to the generic gateway.

19. The media gateway of claim 18,

wherein if the client device is a media oriented device the media gateway DHCP server is arranged to insert specific DHCP option values in a DHCP reply, identifying the DHCP server as media gateway.

20. The media gateway of claim 13, wherein

on receiving confirmation from a client of a DHCP offer, the media gateway DHCP server is further arranged to save the set of IP address parameters.

21. The media gateway of claim 13, wherein

the media gateway is further arranged to monitor the amount of available valid sets of IP address parameters, and when the amount drops below a preconfigured value, the media gateway is further arranged to request additional valid sets of IP address parameters through the attachment link from the DHCP server of the generic gateway.

22. The media gateway of claim 13, wherein the media gateway is further arranged to monitor the physical and/or logical status of the attachment link.

23. The media gateway of claim 13, wherein the media gateway DHCP client is further arranged to periodically refresh the obtained valid sets of IP address parameters with the generic gateway.

24. The media gateway of claim 13, wherein, if the media gateway determines that the generic gateway configuration or topology of the first and second group of IP clients has changed, the media gateway is arranged to change to operation in an error mode, and disable the attachment link.