KR100989963B1 - Apparatus for matching network - Google Patents

Abstract

The present invention is a network matching device connected between an IPv6 network (Internet Protocol version 6 network) and an IPv4 network, and processes an IPv6 packet provided from the IPv6 network, so that an address other than an IP address of a port where a destination address is received is received. An IPv6 packet processor for outputting an Internet Control Message Protocol (ICMP) echo request and a time exceeded packet and an IPv6 packet, respectively, among the IPv6 packets; an IPv6 ICMP echo request provided from the IPv6 packet processor; An extended ICMPv6 translator for processing time-exit packets and providing them to the IPv4 network, an encapsulator for processing and providing the IPv6 packets provided from the IPv6 packet processor by performing a tunneling operation; Processes IPv4 packet provided from IPv4 network, and IPv6 packet in optional data field part of packets An IPv4 packet processor configured to output time-exceed ICMPv4 packets and IPv4 packets, each of which has an echo request and an optional data field including a protocol field of a header coded with a specific value, and an IPv4 ICMP echo request provided from the IPv4 packet processor An extended ICMPv4 translator for processing time-exceed packets and providing them to the IPv6 network; and a decapsulator for processing IPv4 packets provided from the IPv4 packet processor by performing tunneling operations and providing them to the IPv6 network. Equipped.

Description

Network matching device {APPARATUS FOR MATCHING NETWORK}             

1 is a block diagram showing an embodiment of a network matching device according to the present invention.

The present invention relates to a network matching device, and more particularly, to an apparatus for matching between an IPv6 network and an IPv4 network.

The 6to4 tunneling technology is an automatic tunneling method standardized by IETF's RFC 3056 document, and enables the connection between IPv6 networks through an IPv4 network. This technology is expected to be widely used in an environment in which IPv6 network is insufficient in that IPv6 can be used through an existing IPv4 network without any significant change in the network structure.

The IPv4 network used in the 6to4 tunneling technology is seen as a link with one hop to the IPv6 nodes, which occurs because the IPv4 related information is not discarded or converted to IPv4 at the 6to4 gateway. to be. Although the use of 6to4 technology is aimed at establishing general data communication for the purpose of connecting the IPv6 network, there is no problem in establishing general data communication. It is difficult to use network analysis tools such as This phenomenon is more difficult to analyze and debug the network as the tracer analysis result as the location of the 6to4 gateway is closer to the subscriber side, such as a home network (home network).

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and the 6to4 gateway replaces the ICMP echo request and time exceeded message processing part that is not discarded or converted in the existing 6to4 gateway. The purpose of the present invention is to provide a network matching device that improves network analysis performance of Internet network analysis tools using ICMP such as trace router.

In order to achieve the above object, the present invention provides a network matching device connected between an IPv6 network and an IPv4 network. An IPv6 packet processor that outputs ICMP echo requests and time-exceed packets and IPv6 packets among IPv6 packets having an address other than an Internet Protocol address, and an IPv6 ICMP echo request and time packet provided from the IPv6 packet processor. An extended ICMPv6 translator for processing a seed packet and providing the IPv4 network; an encapsulator for processing and providing an IPv6 packet provided from the IPv6 packet processor by performing a tunneling operation; Processing IPv4 packets provided from the server, and converting IPv6 to optional data field An IPv4 packet processor for outputting time-exceed ICMPv4 packets and IPv4 packets, each of which includes a packet with an echo request and an optional data field portion having a protocol field of a header, and an IPv4 ICMP echo provided from the IPv4 packet processor An extended ICMPv4 translator that processes and provides a request and time-exit packet to the IPv6 network, and a decapsulator that processes and provides the IPv4 packet provided from the IPv4 packet processor to the IPv6 network by performing a tunneling operation. Characterized in that it comprises a.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating an embodiment of a network matching device according to the present invention. The 6to4 gateway 200 connected between the IPv6 network 100 and the IPv4 network 300 includes an IPv6 packet processor 202 and an extended ICMPv6 converter ( 204, encapsulator 206, IPv4 packet processor 210, decapsulator 212, and extended ICMPv4 converter 214.                     

In the figure, the IPv6 packet processor 202 in the 6to4 gateway 200 processes the IPv6 packet provided from the IPv6 network 100, so that the destination address is in the IPv6 packet having an address other than the IP address of the received port. Outputs ICMP echo request and time exit packet and IPv6 packet respectively.

The extended ICMPv6 translator 204 processes and provides the IPv6 ICMP echo request and time-exceed packet provided from the IPv6 packet processor 202 to the IPv4 network 300.

Encapsulator 206 performs the 6to4 tunneling operation defined by RFC 3056 and RFC 2893 documents to process and provide IPv6 packets provided from IPv6 packet processor 202 to IPv4 network 300.

The IPv4 packet processor 210 processes the IPv4 packet provided from the IPv4 network 300 so that the echo request and the optional data field part including the IPv6 packet in the optional data field part of the packets are the protocol of the header. Outputs a time seed ICMPv4 packet and an IPv4 packet, each of which is coded with a field '41'.

The extended ICMPv4 translator 214 processes and provides the IPv4 ICMP echo request and time-exceed packet provided from the IPv4 packet processor 210 to the IPv6 network 100.

The decapsulator 212 performs the 6to4 tunneling operation defined by the RFC 3056 and RFC 2893 documents to process the IPv4 packets provided from the IPv4 packet processor 210 and provide them to the IPv6 network 100.

An example of the operation of the present invention as follows.                     

First, when the echo request ICMPv6 message is delivered to the 6to4 gateway 200, the forwarded IPv6 packet is expanded by the IPv6 packet handler 202 with the hop limit value reduced by 1, and then the extended ICMPv6 translator 204. Is delivered. The extended ICMPv6 converter 204 generates a new IPv4 ICMP echo request packet and transmits it to the IPv4 network 300. Each field of the generated IPv4 ICMP packet follows a general coding scheme, but the following fields are coded with values specified in the present invention. For example, the destination address is coded with the IPv4 address of the destination 6to4 gateway, as derived by the RFC 3056 document. TTL codes to the hop limit value of the delivered IPv6. ICMP optional data codes to encapsulate all forwarded IPv6 packets in this field.

When the time-to-exit ICMPv6 message is delivered to the 6to4 gateway 200, the ICMP optional data field in the forwarded IPv6 packet contains the IPv6 packet of the original source that caused the time-exit packet, and the packet includes an IPv6 packet handler ( 202 is passed to the extended ICMPv6 converter 204. The extended ICMPv6 converter 204 generates a new IPv4 ICMP time-exit packet and transmits it to the IPv4 network 300. Each field of the generated IPv4 ICMP packet follows a general coding scheme, but the following fields are specified by the present invention. Code For example, the destination address is coded with the IPv4 address of the destination 6to4 gateway, as derived by the RFC 3056 document. The ICMP optional data is coded to copy the ICMPv6 "optional data" field among the delivered IPv6 packets into the newly created optional data field of ICMPv4.

When the echo request ICMPv4 message in which the IPv6 packet is encapsulated is delivered to the 6to4 gateway 200, the forwarded IPv4 packet is expanded by the IPv4 packet handler 210 with the value of the hop limit reduced by one. 214). The extended ICMPv4 converter 214 generates a new IPv6 ICMP echo request packet and transmits it to the IPv6 network 100. Each field of the generated IPv6 ICMP packet follows a general coding scheme, but the following fields are values specified in the present invention. Code For example, destination address: coded as a destination address of an IPv6 packet present in an optional data field of ICMPv4. Hop limits code to the "TTL" value of the forwarded IPv4 packet.

When the time-exceed ICMPv4 message in which an IPv4 packet having a protocol field value of '41' is encapsulated is delivered to the 6to4 gateway 200, the 6to4 gateway 200 is set to the ICMP optional data field in the forwarded IPv4. An IPv4 ICMP packet is contained, and an IPv6 packet of an optional data field of this packet is encapsulated. With reference to the encapsulated IPv6 packet, a new IPv6 time seed packet is generated by the extended ICMPv4 translator 214 and forwarded to the IPv6 network 100. At this time, the generated ICMPv6 packet follows a general coding scheme, but the following fields are coded with values specified in the present invention. For example, the destination address is coded as the starting address of encapsulated IPv6. The starting address codes the starting address of the forwarded IPv4 ICMP packet into an address converted to an "IPv4 compatible IPv6 address". ICMP optional data is coded to copy the encapsulated IPv6 packet into the newly created ICMPv6 optional data field.

This invention improves the performance of the network analysis tool using ICMP messages such as trace routers by adding and expanding the processing functions of ICMP echo request and time-exit message of the 6to4 gateway 200.

The technical spirit of the present invention has been described above with reference to the accompanying drawings, but this is by way of example only and not intended to limit the present invention. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

As described above, the present invention solves the network analysis difficulty caused by disregarding IPv4 ICMP information generated in the tunnel section in the 6to4 tunneling scheme through the linkage between ICMPv4 and ICMPv6. According to the present invention, IPv6 nodes or terminals using 6to4 tunneling can perform more precise network analysis by acquiring status information of IPv4 network segment nodes, and the efficiency and convenience in solving network problems. Can be provided through.

Claims (1)

A network matching device connected between an IPv6 network and an IPv4 network. Processes IPv6 packets provided from the IPv6 network, and Internet Control Message Protocol (ICMP) echo request and time exceeded among IPv6 packets having an address other than the IP address of the port where the destination address is received. IPv6 packet processor which outputs packet and IPv6 packet respectively, An extended ICMPv6 converter for processing an IPv6 ICMP echo request and a time-exit packet provided from the IPv6 packet processor and providing the IPv6 network to the IPv4 network; An encapsulator for processing an IPv6 packet provided from the IPv6 packet processor by performing a tunneling operation and providing the IPv6 packet to the IPv4 network; By processing an IPv4 packet provided from the IPv4 network, an echo request and an optional data field portion including an IPv6 packet in an optional data field portion of the packets are coded with a specific value in the protocol field of the header. An IPv4 packet processor for outputting time-exceeded ICMPv4 packets and IPv4 packets, respectively; An extended ICMPv4 converter for processing an IPv4 ICMP echo request and a time-exit packet provided from the IPv4 packet processor and providing the IPv6 network to the IPv6 network; A decapsulator for processing an IPv4 packet provided from the IPv4 packet processor by performing a tunneling operation and providing it to the IPv6 network. Network matching device comprising a.

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