KR100801285B1 - Method for Connecting Between User Network of Other Technology and Domain Name System Proxy Server for Controlling the Same - Google Patents

Abstract

The present invention relates to a connection method between a user network of another technology and a domain name system proxy server controlling the same.

The present invention is characterized in providing a connection method between a user network of another technology that is compatible with the Internet that connects user networks of another technology without changing the protocol stack in the user computer, and a domain name system proxy server controlling the same.

The present invention can be expected to effect the mutual communication in a number of networks of different technologies around one network.

User Network Connection, Address Translation, Internet, Protocol Translation

Description

Method for Connecting Between User Network of Other Technology and Domain Name System Proxy Server for Controlling the Same}

1 is a diagram schematically illustrating a connection relationship between a conventional Internet public network and a user network.

2 is a diagram schematically showing a communication integrated network system including a user network of another technology compatible with the Internet according to an embodiment of the present invention.

3 is a block diagram schematically illustrating an internal configuration of a DNS proxy server according to an exemplary embodiment of the present invention.

4 is a diagram schematically illustrating an address negotiation method for attempting communication between computers belonging to a user network of another technology using domain name information according to an embodiment of the present invention.

5 is a diagram schematically illustrating an address negotiation method for attempting communication between computers belonging to a user network of another technology using special domain name information according to an embodiment of the present invention.

6 is a diagram illustrating a process of transmitting packet data by attempting communication between computers belonging to a user network of another technology according to an embodiment of the present invention.

The present invention relates to a connection method between user networks of different technologies and a domain name system proxy server for controlling the same. More particularly, by connecting user networks of other technologies compatible with the Internet through a gateway around the Internet public network The present invention relates to a method for supporting communication between user computers belonging to user networks.

Internet Protocol Ver. 4 (hereinafter referred to as "IPv4") The problem of address shortage on the Internet was recognized more than 20 years ago, and many solutions have been proposed. Therefore, Internet Protocol Ver. 6, Hereinafter referred to as 'IPv6'.

IPv6 provides a fairly large address space, but it is still only used on a limited basis.

Accordingly, new measures have been proposed and standardized. Among these, a network (NAT) is a method of translating an address from one group to another transparently using a spare network address.

Nets have been successfully used by providing gateways from IPv4 private user networks to IPv6 public networks with one or a few public network addresses without changing the protocol stack in the user's computer, but have problems with end-to-end uniformity. have.

Similarly, Realm Specific Internet Protocol (RSIP) is an Internet Protocol (IP) address translation technology that can be used as a new alternative to the net and has been standardized to solve the net end-to-end uniformity problem. I need to change my protocol stack, so I'm having trouble using it successfully.

Net Protocol Translation (NAT Protocol Translation) is a method of translating many network addresses and TCP / UDP ports into one network address and corresponding TCP / UDP ports. It provides transparent connection to users of IPv4 public network in network.

As another technology, Translating, Relaying Internet Architecture integrating Active Directories (TRIAD) connects two IPv4 private user networks through gateways around the IPv4 public network.

Thus, communication from one private user network to another is possible. However, like the above-mentioned RS IP, there is a problem in that the protocol stack in the user computer needs to be changed and widely used.

Thus, the prior arts cannot address the need for connectivity between user networks of other technologies that change the protocol stack in the user's computer or that are Internet compatible for end-to-end uniformity.

For example, as shown in FIG. 1, communication from an IPv4 private user network to another IPv4 private user network, communication from an IPv4 public user network to an IPv4 private user network, communication from an IPv6 network to an IPv4 private user network, Communication from an IPv4 public user network to an IPv6 user network.

In order to solve this problem, the present invention is to connect the user networks of any other technology compatible with the Internet, the other technology compatible with the Internet connecting the user networks of other technologies without changing the protocol stack in the user computer The purpose is to provide a domain name system proxy server for controlling the connection method between the user networks and the network.

According to one aspect of the present invention for achieving the above technical problem, a method of connecting user computers belonging to user networks of other technologies compatible with the Internet centered on the Internet public network, includes: (a) belonging to the first user network; Receiving a request for domain name translation including domain name information of a second user computer from the first user computer; And (b) assigning an address of the first user network for referring to address information in the entire network of the second user computer and transmitting the address to the first user computer together with the address information.

According to another aspect of the present invention, a method of connecting user computers belonging to user networks of other technologies compatible with the Internet centered on the Internet public network includes: (a) a special domain name from a first user computer belonging to the first user network; Receiving a request for domain name translation including information; (b) extracting address information in the entire network of a second user computer from the special domain name information; And (c) assigning an address of the first user network for referring to address information in the entire network of the second user computer and transmitting the address to the first user computer together with the address information.

According to another aspect of the present invention, a proxy server that determines whether to open or close an Internet application of a user computer by using information about a web page stores address information in the entire network of another user's computer belonging to another user's network. An internal memory unit; An internal database storing a specific address of a user network accessible by referring to the address information; And when a domain name conversion for the other user computer is requested from a user computer belonging to the user network, the internal database assigned to the internal database with reference to address information of the other user computer stored in the internal memory unit. And a control unit for transmitting the specific address of the user network to the user computer.

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention. In the drawings, parts irrelevant to the description are omitted in order to clearly describe the present invention, and like reference numerals designate like parts throughout the specification.

In addition, when a part is said to "include" a certain component, it means that it may further include other components, except to exclude other components unless otherwise stated.

Now, a method of connecting between user networks of different technologies and a domain name system proxy server 104 controlling the same according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram schematically showing a communication integrated network system including a user network of another technology compatible with the Internet according to an embodiment of the present invention.

Before describing FIG. 2, in the node address protocol, when a node is connected to a network, an address of the node's network is indicated by a node name and a subscript network name. For example, suppose that node name X and network name CN. The address is represented by X _CN .

Thus, address information in the entire network of the second user computer 144 means a specific address of the second user computer 144 in the second user network 140. That is, as shown in FIG. 2, the address in the entire network of the second user computer (C) 144 in the second user network (AnyNet2) 140 is the public network (A) 130 of the second gateway (A) 130. 120) A _CN combining an address (A _CN ) and an address (C _AnyNet2 ) in a second user network (AnyNet2) 140 of a second user computer (C) 144: C means _AnyNet2 .

In addition, the first user computer 100 and the second user computer 144 are systems including a display device, an input device, a storage medium, a processor, an operating system, a processor, and a local bus capable of transmitting data at a predetermined timing. Any device can be used as long as the terminal is equipped with a browser and can access the Internet and can transmit and receive wireless data.

In the communication network system according to an embodiment of the present invention, a first user network (AnyNet1) 100, a first gateway (X) 110, a public network (CN) 120, and a second gateway (A) 130 are described. , A second user network (AnyNet2) 140.

The gateway has one public network 120 address and is assigned a certain amount of addresses that are not used in the user network.

The user network routes a certain amount of addresses not used in the user network to the gateway.

Here, a certain amount of addresses that are not used in the user network are used to access and refer to computers belonging to other user networks, hereinafter referred to as 'user network specific addresses'.

Each user network may use domain name system proxy server 104 or domain name system server 142.

The first user network 100 according to the embodiment of the present invention includes a first user computer 100 and a domain name system proxy server 104 (hereinafter referred to as a DNS proxy server). do.

The first user computer 100 generates a domain name translation request signal including the domain name information and transmits the generated domain name translation request signal to the DNS proxy server 104.

Here, the domain name information is information used to refer to the second user computer 144 in the second user network 140.

The first user computer 100 includes special domain name information or second user computer that includes the full network address of the second user computer 144 to access the second user computer 144 in the second user network 140. Domain name information of 144 can be used.

Here, the special domain name information is in the form of a combination of a global network address and a special word.

For example, the special domain name information of the second user computer 144 is A _CN . It is expressed as C _AnyNet2 .una, and is called UNA domain name in all items.

The DNS proxy server 104 receives address information in the entire network of the second user computer 144 from the second user network 140.

The DNS proxy server 104 is assigned a user network specific address to store the above-mentioned address information from the first gateway 104 and receives a user network specific address including address information in the entire network of the second user computer 144. Transfer to the user computer (100). Hereinafter, the internal configuration of the DNS proxy server 104 will be described in detail with reference to FIG. 3.

The first gateway 104 connects the public network 120 and the first user network 100 to enable communication, has a public network 120 address, and is provided from the first user network 100. 1 The user network 100 receives and stores a certain amount of addresses (user network specific addresses) not used.

The first gateway 104 is the address (A _CN :) in the whole network of the second user computer (C) 144 from the DNS proxy server 104. C _AnyNet2 ) When receiving the user network specific address allocation request signal for storing, the user network specific address T _AnyNet1 is allocated and transmitted to the DNS proxy server 104.

The public network 120 serves as a switched connection type telecommunication network connecting the first user network 100 and the second user network 140.

The public network 120 is a communication network that provides a service to a plurality of nations or unspecified users through exchange, and may be variously configured such as an IPv4 public network, an IPv6 public network, a comprehensive information communication network, and a packet data exchange network.

The second gateway 130 connects the public network 120 and the second user network 140 to enable communication, has a public network 120 address, and the second user from the second user network 140. A certain amount of address (user network specific address) not used in the network 140 is allocated and stored.

The second user network 140 includes a second user computer 144, a domain name system server (hereinafter referred to as a 'DNS server') 142, and a second gateway 130.

The second user computer 144 has the same function as the first user computer 100, and refers to the first user computer 100 in the first user network 100 to access the second user computer 100. Special domain name information including the entire network address or domain name information of the first user computer 100 may be used.

DNS server 142 is a server that matches the domain name information and the Internet Protocol (IP).

When the DNS server 142 receives the domain name translation request signal from the DNS proxy server 104, the internal database (not shown) of the DNS server 142 queries the domain name information included in the domain name translation request signal as a query. a second address in the whole web of the user's computer (C) (144) in (a _CN: C _AnyNet2 ) is searched and transmitted to the DNS proxy server 104 through the public network 120.

The DNS server 142 stores domain name information about the computer system and address information on the entire network of the second user computer 144 in the second user network 140.

Hereinafter, the internal configuration of the above-described DNS proxy server 104 will be described in detail with reference to FIG.

3 is a block diagram schematically illustrating an internal configuration of the DNS proxy server 104 according to an embodiment of the present invention.

The DNS proxy server 104 according to the embodiment of the present invention includes an internal memory unit 104a, a control unit 104b, an internal database 104c, and a communication unit 104d.

The internal memory unit 104a functions to temporarily store data processed by the control unit 104b or to store address information on the entire network of the second user computer (C) 144.

When the controller 104b receives the domain name conversion request signal including the domain name information from the first user computer 100, the address information of the entire network of the second user computer 144 is transmitted to the internal memory unit 104a. Determine if it is stored.

When the controller 104b determines that the address information of the entire network of the second user computer 144 is not stored in the internal memory 104a, the domain name received from the first user computer A 100 is determined. The conversion request signal is transmitted to the DNS server 142 of the second user network (AnyNet2) 140.

The control unit 104b is the address (A _CN :) in the whole network of the second user computer (C) 144 in the second user network (AnyNet2) 140. C _AnyNet2 ) generates a user network specific address (T _AnyNet1 ) allocation request signal and transmits it to the first gateway 104.

The control unit 104b receives a user network specific address T _AnyNet1 from the first gateway 110 and transmits it to the first user computer A 100. Here, the user network specific address is an address in the entire network of the second user computer (C) 144 (A _CN : C _AnyNet2 ).

When the controller 104b receives the domain name conversion request signal including the special domain name information from the first user computer 100, the controller 104b extracts the address information of the entire network of the second user computer 144 from the special domain name information. do.

The internal database 104c is the address (A _CN :) in the entire network of the first user computer (C) 144 from the first gateway 104. _Receive and store user network specific address (T _AnyNet1 ) for C _AnyNet2 ). That is, the internal database 104c stores address information (A _CN :) in the entire network of the second user computer 144. C _AnyNet2 ) and _stores the user network specific address (T _AnyNet1 ) that refers to it (T _AnyNet1 : (A _CN : C _AnyNet2 )).

The communication unit 104d is a communication module that provides a communication interface for communication with the Internet or a mobile communication network, and performs a communication interface function of various signals / messages input and output from the DNS proxy server 104.

Hereinafter, a method of attempting communication between computers belonging to a user network of another technology using domain name information will be described in detail with reference to FIG. 4.

4 is a diagram schematically illustrating an address negotiation method for attempting communication between computers belonging to a user network of another technology using domain name information according to an embodiment of the present invention.

The first user computer 100 generates a domain name translation request signal including the domain name information and transmits it to the DNS proxy server 104 (S400). Here, the domain name information is information for accessing by referring to the second user computer 144 in the second user network 140.

Upon receiving the domain name translation request signal, the DNS proxy server 104 provides address information (A _CN :) in the entire network of the second user computer 144. C _AnyNet2 ) determines whether or not it is stored in the internal memory unit 104a of the DNS proxy server 104 (S402).

If it is determined in step S402 that the address information in the entire network of the second user computer 144 is not stored, the first gateway 104 receives the domain name translation request signal received from the first user computer 100. The public network 120 and the second gateway 130 are transmitted to the DNS server 142 (S404).

The DNS server 142 retrieves address information in the entire network of the second user computer 144 from an internal database (not shown) of the DNS server 142 by querying domain name information included in the domain name translation request signal. By using the second gateway 130, public network 120 and the first gateway 104 to transmit to the DNS proxy server 104 (S406).

In addition, when the DNS proxy server 104 determines in step S402 that address information in the entire network of the second user computer 144 is stored in the internal memory unit 104a, the process proceeds to step S408.

The DNS proxy server 104 then obtains the address information (A _CN :) in the entire network of the second user computer 144 in the internal database 104c of the DNS proxy server 104. C _AnyNet2 ) It is determined whether a user network specific address (address information used to refer to computers belonging to other user networks) is allocated (S408).

When the DNS proxy server 104 determines that the above-described user network specific address is not assigned in step S408, the DNS proxy server 104 generates an allocation request signal for the user network specific address and transmits it to the first gateway 104 (S410).

The first gateway 104 provides address information (A _CN :) in the entire network of the second user computer 144. C _AnyNet2 ) _Determines whether a user network specific address (T _AnyNet1 ) for storing is allocated, and if not assigned, allocates a locally unique user network specific address (T _AnyNet1 ) and transmits it to the DNS proxy server 104. (S412).

Here, the user network specific address T _AnyNet1 is a certain amount of address not used in the second user network 140 and is used to refer to a computer belonging to another user network.

That is, the user network specific address T _AnyNet1 stores address information in the entire network of the second user computer (C) 144.

The first gateway 104 includes user network specific address T _AnyNet1 and address information (A _CN :) in the entire network of the second user computer 144 matching thereto. C _AnyNet2 ) is stored in the address translation database formed at the first gateway 104 for a predetermined time.

When the DNS proxy server 104 determines that the above-described user network specific address is assigned (S414), the user network specific address allocated from the first gateway 104 (T _AnyNet1 : (A _CN : C _AnyNet2 )) is received and transmitted to the first user computer 100 (S416).

The DNS proxy server 104 may provide user network specific address T _AnyNet1 and address information (A _CN :) in the entire network of the second user computer 144 matching thereto. C _AnyNet2 ) may be stored in the internal database 104c formed in the DNS proxy server 104 for a predetermined time.

Hereinafter, a method of attempting communication between computers belonging to a user network of another technology using special domain name information will be described in detail with reference to FIG. 5.

5 is a diagram schematically illustrating an address negotiation method for attempting communication between computers belonging to a user network of another technology using special domain name information according to an embodiment of the present invention.

The first user computer 100 may use special domain name information that includes the full network address of the second user computer 144 to refer to and access the second user computer 144.

Here, the special domain name information is in the form of a combination of a global network address and a special word.

For example, the special domain name information of the second user computer 144 is A _CN . It is expressed as C _AnyNet2 .una, and is called UNA domain name in all items. Thus, the special domain name information includes address information A _CN in the entire network of the second user computer 144: C _AnyNet2 )

The first user computer 100 generates a domain name translation request signal including the special domain name information information and transmits it to the DNS proxy server 104 (S500).

The DNS proxy server 104 uses address information (A _CN :) in the entire network of the second user computer 144 from the special domain name information information included in the domain name translation request signal. C _AnyNet2 )

The DNS proxy server 104 then obtains the address information (A _CN :) in the entire network of the second user computer 144. C _AnyNet2 ) It is determined whether a user network specific address (address information used to refer to computers belonging to other user networks) is allocated to the internal database 104c (S502).

When the DNS proxy server 104 determines that the aforementioned user network specific address is not assigned to the internal database 104c, the DNS proxy server 104 generates an allocation request signal for the user network specific address and transmits it to the first gateway 104 ( S504).

The first gateway 104 provides address information (A _CN :) in the entire network of the second user computer 144. C _AnyNet2 ) determines whether a user network specific address (T _AnyNet1 ) for storing is allocated, and if not, allocates a user network specific address (T _AnyNet1 ) and transmits it to the DNS proxy server 104 (S506).

Here, the user network specific address T _AnyNet1 is a certain amount of address not used in the second user network 140 and is used to refer to a computer belonging to another user network.

That is, the user network specific address T _AnyNet1 refers to address information in the entire network of the second user computer (C) 144.

The first gateway 104 includes user network specific address T _AnyNet1 and address information (A _CN :) in the entire network of the second user computer 144 matched thereto. C _AnyNet2 ) is stored in the address translation database formed at the first gateway 104 for a predetermined time.

When the DNS proxy server 104 determines that the above-described user network specific address is assigned (S408), the user network specific address allocated from the first gateway 104 (T _AnyNet1 : (A _CN : C _AnyNet2 )) is received and transmitted to the first user computer 100 (S410).

The DNS proxy server 104 may provide user network specific address T _AnyNet1 and address information (A _CN :) in the entire network of the second user computer 144 matching thereto. C _AnyNet2 ) may be stored in the internal database 104c formed in the DNS proxy server 104 for a predetermined time.

Hereinafter, a process of transmitting packet data will be described in detail with reference to FIG. 6.

6 is a diagram illustrating a process of transmitting packet data by attempting communication between computers belonging to a user network of another technology according to an embodiment of the present invention.

When the first user computer 100 transmits packet data to a user network specific address T _AnyNet1 , the first user computer 100 _{routes the} transmitted packet data to the first gateway 104.

Here, the user network specific address T _AnyNet1 is a certain amount of addresses not used in the second user network 140 and is used to access a computer belonging to another user network.

That is, the user network specific address T _AnyNet1 stores address information in the entire network of the second user computer (C) 144.

The first gateway 104 includes address information (A _CN :) in the entire network of the second user computer 144 that matches the user network specific address T _AnyNet1 in an address translation database provided therein. C _AnyNet2 ) Check whether the item exists.

The first gateway 104 provides address information (A _CN :) in the entire network of the second user computer 144 in the address translation database. C _AnyNet2 ) If it is determined that the item does not exist, the transport packet data is simply removed.

The first gateway 104 provides address information (A _CN :) in the entire network of the second user computer 144 in the address translation database. C _AnyNet2 ), if it is determined that the entry exists, address information (A _CN :) in the entire network of the second user computer 144 from the address translation database. C _AnyNet2 ) Extract the item.

The first gateway 104 extracts a payload for data transmission from the transport packet data and includes it in the first user network packet data.

Here, the first user network packet data is a new type of packet data, which is a transmission address of transmission packet data (address information Z _AnyNet1 of the first user computer 100 in the first user network 100 and an address translation database). second address information of the entire network of the user computer 144 is extracted from (a _CN: C _AnyNet2 ) together with the Internet Protocol header information.

The first gateway 104 generates the first user network packet data and transmits it to the second gateway 130 through the public network 120.

Subsequently, the second gateway 130 determines whether a user network specific address S _AnyNet2 is allocated for the address information (X _CN : Z _AnyNet1 ) in the entire network of the first user computer 100.

If the second gateway 130 determines that the user network specific address S _AnyNet2 is not assigned, the second gateway 130 allocates the user network specific address S _AnyNet2 and stores it in the address translation database formed in the second gateway 130 ( S _AnyNet2: (X _CN : Z _AnyNet1 )).

Thereafter, the second gateway 130 extracts a payload for data transmission from the first user network packet data received from the first gateway 104 and includes it in the second user network packet data.

The second gateway 130 may include address information (A _CN :) in the entire network of the second user computer 144 included in the first user network packet data. C _AnyNet2 ) is set as the destination address and user network specific address (S _AnyNet2 ) is set as the sending address, and is included in the header information of the second user network packet data. Transfer to user computer 144.

Packet data transmission from the second user computer 144 to the first user computer 100 will be omitted in the reverse order of the method described with reference to FIG. 5.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

According to the above-described configuration, the present invention can expect the effect of mutual communication in several networks of different technologies with respect to one network.

The present invention does not require a change in the mutual protocol stack in the user computer, it can be expected that the effect of mutual communication in various types of networks faster.

According to the present invention, communication from an IPv4 private user network to another IPv4 private user network or from an IPv4 public user network to another IPv4 private user network can be easily performed, thereby facilitating the construction of a virtual private network (VPN). You can expect the effect.

In the present invention, since the communication can be easily performed from the IPv4 user network to the IPv6 user network, an effect of quickly inducing a transition from IPv4 to IPv6 can be expected.

According to the present invention, only one public network address is used when a user network is connected to the public network, and private network addresses can be used for computers in the user network. Therefore, the present invention can maintain the current IPv4 Internet for a long time without converting to IPv6. You can expect

Claims (13)

In a method of connecting user computers belonging to user networks of other technologies that are compatible with the Internet centered on the Internet public network, (a) receiving a request for domain name translation including domain name information of a second user computer from a first user computer belonging to the first user network; And (b) assigning an address of the first user network for referring to address information in the entire network of the second user computer and transmitting the address information together with the address information to the first user computer; Connection method comprising a. The method of claim 1, In step (b), (b1) requesting domain name translation from a domain name server of a second user network if address information of the entire network of the second user computer is not stored; And (b2) receiving address information in the entire network of the second user computer from the domain name server Connection method further comprising. The method according to claim 1 or 2, In the step (b), if the address of the first user network is not assigned, further comprising the step of requesting and assigning the address of the first user network to the gateway. In a method of connecting user computers belonging to user networks of other technologies that are compatible with the Internet centered on the Internet public network, (a) receiving a request for domain name translation including special domain name information from a first user computer belonging to the first user network; (b) extracting address information in the entire network of a second user computer from the special domain name information; And (c) assigns an address of the first user network to refer to address information in the entire network of the second user computer, and transmits the address to the first user computer together with the address information of the second network of the second user computer; Steps to Connection method comprising a. The method of claim 4, wherein In the step (c), if the address of the first user network is not assigned, further comprising the step of requesting and assigning the address of the first user network to the gateway. A proxy server for determining whether to open or close an Internet application of a user computer by using information about a web page, An internal memory unit for storing address information in the entire network of another user's computer belonging to another user network; An internal database for storing a specific address of a user network that is accessible by referring to address information in the entire network of another user computer belonging to the other user network; And When receiving a domain name conversion request signal for the other user computer from the user computer belonging to the own user network, it is allocated to the internal database with reference to the address information of the other user computer stored in the internal memory unit. Control unit for transmitting a specific address of the user network to the user computer Domain name system proxy server that includes. The method of claim 6, If the specific address of the own user network is not assigned to the internal database, the domain name system, characterized in that the request is assigned to the first gateway connecting the own user network and the public network to the specific address of the user network Proxy server. The method of claim 6, The domain name translation request signal includes special domain name information, wherein the special domain name information includes address information in the entire network of another user's computer belonging to the other user's network; or domain name information of another user's computer. Domain name system proxy server, characterized in that. The method according to claim 6 or 7, And a specific address of the own user network refers to address information in the entire network of another user computer belonging to the other user network. The method of claim 7, wherein The first gateway generates self-user network packet data including address information of the user computer and address information of the entire network of the other user computer in protocol header information, and connects the other user network with the public network; Domain name system proxy server, characterized in that the transmission to the gateway. The method of claim 10, And the first gateway removes packet data received from the user computer when the address information of the entire network of the other user computer is not stored. The method of claim 10, The second gateway generates other user network packet data including address information of the entire network of the other user computer as a receiving address and a header address of a specific address of another user network as a transmission address to generate the other user network packet data. A domain name system proxy server for transferring to a user's computer. The method of claim 6, If the address information of the entire network of another user's computer belonging to the other user's network is not stored in the internal memory, the domain name translation is requested to the domain name server of the other user's network to belong to the other user's network. Domain name system proxy server, characterized in that receiving address information in the entire network of other user computers.

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