KR20000058901A - Use dividing Local Server System to Internet On Off Line for data service - Google Patents

Abstract

PURPOSE: An information constructing and providing method is provided to provide complex data to a user and to overcome a limitation of a data reception. CONSTITUTION: In an information constructing and providing method, first, a user(30) searches general data(40). If no desired data exists, the user searches desired data using a limited personal computer to request the searched data through a computer(21). If data exists in a storage unit(15) or a server(11), the data is provided to the user(23). If no data exists, the server(11) calls a main server(10) to request data(21). The main server(10) confirms whether the server is just(22), and then requests data to another server(12).

Description

How to construct and provide information using distributed server in internet on / off line {Use dividing Local Server System to Internet On Off Line for data service}

The present invention relates to a business method of building and providing information through a distributed server on and off the Internet.

Conventional technology has provided materials such as movies, books, cartoons, games, exhibits, reports, papers, music, etc. in one place, either online or offline.

In the conventional technology, when the information is provided online, the user has to search for the desired material by himself or herself through a search engine or other method online, and in the case of the user who is unfamiliar with the use of the information, there are many cases that do not obtain satisfactory data. . In addition, companies that provide data online duplicated each other in accumulating advertisements and data, and were forced to spend excessive and redundant expenses. In addition, in terms of data, only the data searched by users are given first, so a small number of professional data have often been excluded from the handling. In addition, when the number of users suddenly increased, the speed became significantly slowed. In addition, the unspecified number of connections have always raised the problem of hacking. In the case of off-line, the simple exhibition of the materials was almost all, and the materials could not have much data due to the limitation of space. In addition, there are more disadvantages in the provision of data between regions, and in the case of small areas, it is impossible to provide much data. As a result, they did not satisfy the needs of various users.

The purpose of the present invention is to overcome the limitations of the type, quantity and distance of providing data by providing distributed data stored on and off each other in the existing facilities for using on- and off-line data. I'm trying to provide.

1 is a flow chart showing the flow of information throughout the present invention.

2 is a diagram illustrating when the main server of the present invention is inoperable

To achieve the above object

In order to achieve the above purpose, each facility first prepares a server and a fish or a fish. A main server will be installed to oversee the servers of each distributed facility.

Each facility divides the data into three stages. In the first stage, the most recent data, materials with a large number of users, disputed intellectual property rights, or materials that cannot be provided by computer storage media are stored in the user space. In the second stage, old data, data that the user cannot find well, or data that can be provided to a computer storage medium are provided separately through a storage medium. In the third step, current data is distributed to each server according to its capacity and condition, and stored on the server, and the main server is informed of the list.

The main server lists the data held by each distributed server and sends it down to each server.

The user who wants to use the information is provided with the data provided in the facility firstly, and the data through the storage media possessed in the current facility, and the list provided by the server through Enshi or Fish. You will be provided with data.

Here, the server receives data from other servers through the main server if the data is not in its storage space.

Preferred embodiments of the present invention will be described in detail with reference to the drawings.

Figure 1 shows a flow chart of the overall information, the user 30 is to use the general data (40) provided primarily if there is no data desired by him or her to use the limited use of Enshi or Fish as a client of the server Search for the data he / she wants and request to the lender or computer (21). If the data is present in storage 15 or server 11 in the current facility, the data is provided to user 30 (23). If the requested data is not in the current facility, the server 11 calls the main server 10 to request the data (21). The main server 10 checks whether the server is a legitimate server (22) and then requests data from another server 12 having the data.

The other server 12 confirms that the main server is the main server at the request of the main server 10, and then provides the data to the server (23). Output to (13) and use by user.

Here, as a check between the servers, the request server 11 first calls the main server 10. When the call is made, the server includes an 8-byte pre-password corresponding to today's date in its header. The main server checks the header of the requesting server and verifies that it is the password in today's access sequence on the server's password table and sends a reply containing 8 bytes of heavy password. The request server 11, which has been confirmed by the main server, sends a data request reply containing 8 bytes of the password back to the main server 10 within the time limit. The main server then accepts the request for data after verifying that the password is a unique password for the connection string on the date of registration, and registers the other server 12 with the data as the first registered 32-byte password according to the current date and connection string. The call containing the first 8 bytes. The called server sends a reply containing 8 bytes of heavy password after confirming the password and server. The receiving main server sends a request containing 16 bytes of the remaining fixed password according to today's re-registered connection order. The providing server 12 checks the password and the request data and then provides the data to the providing server through the registered path.

This password consists of a total of 32 bytes of password, the format of which is randomly arranged 32 bytes of code, the date and connection order are set in the order of distribution, and distributed server (11) and main server (10) when registering Given to both sides of the distributed server, the passwords will change in the order of daily connections. Therefore, if any intruder tries to enter the main server or distributed server, make sure that it contains the password according to the date and the order of connection, and also provide 16 bytes of password again within the time limit to prevent hacking. have. The number of cases for a total of 32 bytes is 256 powers of 2, so it takes a long time to search. Also, the number of servers that can register passwords can be up to 256 powers of 2, which is possible because 32 bytes are registered by fixing the order by date.

2 illustrates a situation in which the main server cannot respond. First, when the server 11 in the user facility calls 21 to the main server, the main server does not receive a response (24). The secondary server 14 calls back to the main server (20). If there is no response, the server transfers the authority of the main server and requests data from the server 11 to the server. After checking 22, the server 12 transmits the data to the other server 12, and the server 12 receives the requested data from the server 11.

First, the user is provided with various kinds of data and a large amount of data in one place, and it is possible to separate and store less frequently used data and less frequently used data. These data can be stored on the server in the place of use, and then the data can be shared among the servers so that the server can save the unique data for each server and provide it if the user wants. The more connected servers, the more data can be constructed. Do. In addition, users can use abundant data and rare data regardless of distance, and each use place can save a lot of overlapping data as much as possible, which can save a lot of cost. In addition, data movement is limited only between servers, so it can be maintained at a high speed, and users can access on the NSI or Fish clients, thus preventing unauthorized hacking.

Claims (2)

A distributed server (11, 12) network controlled by the main server (10) is established to provide data on and off-line (15) through the construction of data in each user facility and NC (13) in the user facility. Way The cryptographic system according to claim 1, for mutual calls between the main server 10 and the distributed server 11, 12.