ES2332498B1 - IPV4 ADDRESS GENERATION PROCEDURE. - Google Patents

Abstract

Address generation procedure IPv4

Procedure to generate additional IPv4 addresses extended within an IPv4 Internet header inserting an additional IPv4 address associated with a device network, by means of an insertion and extraction module, as a suffix within the field of identification and / or fragment position of the IPv4 header that will be transported over the IP Internet network between a first network device and a second device net.

Description

Address generation procedure IPv4

Object of the invention

The present invention is related to a telecommunications network that uses the Internet protocol version 4, IPv4, for the establishment of source and destination addresses of network entities connectable to the IP telecommunications network.

State of the art

It is known in the state of the art that for allow the transmission and reception of data packets via a Telecommunications network based on the Internet IP protocol is indispensable requirement the establishment of both an address of origin as of a destination address for the correct routing of each of the data packets transported over the IP network.

Currently the most used Internet protocol to set the IP addresses is the Internet protocol version 4, IPv4, which generates Internet addresses of a fixed length of 4 octets (bytes) or 32 bits.

The great development and popularization of the Internet has led to a large increase in network entities connected to the IP network.

The result of the massive use of the Internet network has been the exhaustion of the number of unique IP addresses that are they can generate with the IPv4 protocol, that is, the number of unique IP addresses that can be generated with the IPv4 protocol is about to run out.

Due to this disadvantage, a Internet protocol version 6, IPv6, with which they can be generated 128-bit Internet addresses, with which you can reach generate a larger number of Internet addresses and therefore can establish a unique address for each of the entities of network connected to the IP network and, consequently, the number of Network entities connected to the IP network can continue to grow.

However, the use of the above IPv6 protocol version has been coupled for some time devices that still use the device will be connected to the IP network establishment of an IP address according to the IPv4 protocol and others devices that employ the establishment of an IP address according to the IPv6 protocol.

The result is that both operators and their clients must change or evolve their equipment connected to the Internet network from the IPv4 protocol to the protocol IPv6

It should be noted that a disadvantage is that the IPv6 address scheme has nothing in common with IPv4. In addition, it is necessary that the number of IP network entities that use the protocol can be increased
IPv4

How networks and devices are being developed futures that will establish addresses exclusively according to the IPv6 protocol, and until all networks and devices connected to the IP network generate Internet addresses according to the IPv6 protocol, it is necessary to provide a mechanism for the period of coexistence of networks and devices that establish addresses according to both IPv4 and IPv6 protocols, that is, which networks and devices can transmit and receive data packets regardless of the protocol version with which it has been generated the corresponding unique IP address.

Characterization of the invention

The present invention seeks to solve or reduce one or more of the problems set forth above by means of a IPv4 address generation procedure as defined in claim 1

An object of the invention is to provide a procedure to extend the number of generated addresses according to the IPv4 protocol, in response to the lack of IP addresses with the IP address establishment model with the protocol IPv4 currently in use.

Another object of the invention is to change the use of some fields of an IPv4 Internet header to set in the bits released from the aforementioned fields an IPv4 Internet address additional, to allow any network entity connectable to an IP telecommunications network can do so based on a unique IP address

Still another object of the invention is that a network entity connected to the Internet network include a module extraction and insertion so you can set an IPv4 address complete, unique, additional in the fragment position field and / or in the identification field of the IPv4 Internet header of a datagram before being transported by the IP network. Consequently, the insertion module can operate in the network layer according to the OSI model.

Therefore, the insertion and removal module can be installed on the client edge router (edege router) and / or on the end user's computer.

Still another object of the invention is to expand the current space for IPv4 addresses by adding suffixes of address that can be located in the position field of fragment and / or in the identification field of the Internet header IPv4 and assigning extended addresses to edge routers of client and / or end-user computers.

Still another object of the invention is that the module for extracting and inserting IP addresses of a network entity connectable to the IP network that can set the values one-one-zero, "110", in the bits of the indicator field (flags) of an IPv4 Internet header of a datagram, to indicate that an insertion module and extraction has included an IP address in the position field of fragment and / or in the identification field of the Internet header IPv4 of the datagram carried by the IP network. Setting the indicator field to the value "110" also prevents conventional devices fragment packages, in a way that fragment position and / or identification fields used by them.

Brief statement of the figures

For a better understanding of this invention, a preferred embodiment is described below, to non-limiting example title and referring to the drawings annexes, in which:

Figure 1 shows edge routers of customer according to the invention, and

Figure 2 shows an IPv4 header according to the invention.

Description of the invention

In relation to figure 1 illustrates the way in that different subscriber devices can be connected to a telecommunications network such as an IP Internet network according to Internet protocol version 4, IPv4.

Generally, such a subscriber device like a portable terminal, a computer, a station work, a PDA, etc., communicate with each other through a network entity such as an AD access node, which has the ability to manage all data packet traffic from and to any subscriber device connected to it and with other access nodes via the IP network.

Therefore, the AD access node is a physical device that can allow interconnection of different user devices with each other and with other networks of devices operating at layer three or network level of the model OSI, so as to ensure traffic routing of data packets between networks and / or determine the route to be take each packet of data when it is transported by the network IP.

The AD access node can be a device of access point such as an organization edge router for users and / or end users.

A consequence of this type of architecture or network topology is that a smaller number of addresses is required IP generated from the IPv4 protocol to connect to the IP network since a subscriber network requires a single global IP address per connection, regardless of the number of devices user who can connect through an established connection by the edge router.

In short, the edge router has a public IP address and has an internal network of devices with extended addresses. Extended addresses include 32 bits the public IPv4 address of the router and additional suffixes for network devices connected to the router.

A first user terminal connectable to a first AD access node or connectable edge router, at your time, to a second user terminal by means of a second Edge router through the IP network.

In relation to Figure 2, the first final terminal includes a first insert / remove module that insert a relative 32-bit source / destination address pair to the public IPv4 address of the second router and suffixes additional second end computers within the field of identification and / or in the fragment position field of the IPv4 header.

Therefore, the packages are routed from the first router to the second router based on the Public IPv4 address through the IPv4 network. Then a second insertion / removal module, included in the second Edge router, extract the IPv4 address suffix located at the identification field and / or in the fragment position field of the IPv4 header received to relay the packet to the Second final computer.

It should be noted that the second router It can be connected to a plurality of computers. The second router has a unique global IPv5 address assigned, while that the computers connected to it have a suffix assigned which is hidden in the identification field and / or in the field of fragment position of the IPv4 header.

Where an additional extended IPv4 address is inserted in one of the above fields of the IPv4 header, is indicated by setting the values "110" within the flags field of the Internet header of the datagram transported by the IP network, according to the established routing by the first router when transmitting data packets of the datagram.

Once the data packets are received in the second destination router, they are forwarded to the second module for extracting and inserting additional IP addresses, to check if the values contained within the bits of the flags field match the values "110", indicating that there is an additional destination address within the Internet header of the corresponding data packet received, which will be extracted by The second extractor module.

If yes, that is, it has been found the value "110", the received data packet is retransmitted to the user terminal whose address matches the address Additional IPv4 contained in the fragment position field of the IPv4 header, for example.

In the sense of communication of the second router to the first router the procedure of Operation is analogous.

Consequently, space is added for additional addresses in an IPv4 header using the use of the identification field and / or the position field fragment of the IPv4 header, which are treated as suffixes of an IPv4 address, being indicated by setting the value "110" in the indicator field of the same header.

Each AD edge router in a subnet is associates with a public IPv4 address and each computer connected to the it is identified by an expanded address that includes the IPv4 address of the router, a hidden suffix in the field of identification and / or in the fragment position field of the IPv4 header. Therefore, the address is hierarchical and based in the current IPv4 address.

Thus, packages can be processed by IPv4 network devices and routed to AD edge routers based solely on IPv4 addresses. Once they arrive at AD edge router, which includes a module insertion / extraction, are routed to the final computer on the IPv4 address base suffix.

The address generation procedure IPv4 can be performed by a computer, loadable within a internal memory of a computer with input and output units and also with processor units.

The computer program includes for this purpose codes configured to execute the steps of the above process when it is executed by the computer. In addition, the codes executables can be recorded on a readable carrier medium inside of a computer.

Claims (5)

1. A procedure for generating IPv4 addresses in an IPv4 Internet header; characterized in that the method comprises the step of inserting an additional IPv4 address associated with a network device connectable to an Internet network, by means of an insertion / extraction module, as a suffix within the identification field and / or in the fragment position field of the IPv4 header; change of the value of the bits of the indicator field to the value "110" in the IPv4 header of the packet transported by the IP network between a first network device and a second network device. 2. An insertion / removal module; characterized in that the insertion / extraction module comprised in a network device connectable to an Internet network and adapted to extract and insert additional IPv4 addresses as a suffix within the identification field and / or the fragment position field of the IPv4 header and adapted to change the value of the bits of the indicator field to the value "110" in the IPv4 header of the transported packet. 3. A network device connectable to an Internet network; characterized in that the network device is an access node (AD) such as an edge router that receives packets that can be processed by the insertion / extraction module if the indicator field of the IPv4 header of the received packet includes the value " 110 ", so that the final network device associated with the additional IPv4 address is routed included in the identification field and / or in the fragment position field of the IPv4 header. 4. Network device according to claim 3; characterized in that the network device is an end network device such as a computer that sends and receives packets that can be processed by the insertion / extraction module if the indicator field of the IPv4 header of the received packet includes the value "110" , where the final network device is associated with the additional IPv4 address included in the identification field and / or in the fragment position field of the IPv4 header. 5. A loadable computer program in a internal memory of a computer with input, output and a processing unit, where the computer program comprises executable codes configured to perform the steps of the graphics information data generation procedure remotely according to any one of claims 1 when it is run by the computer.