KR101295069B1 - Readable symmetric encryption method - Google Patents

Abstract

The present invention relates to a readable symmetric encryption method capable of one-to-one mapping in a manner having original data characteristics. The readable symmetric encryption method according to the present invention uses an encryption unit, collecting encryption coding data from a server, and using an encryption unit , Considering the type of data to be encrypted, it is characterized in that it comprises a step of performing a readable symmetric encryption.

Description

Readable symmetric encryption method

The present invention relates to a method for encrypting data for data security, and more particularly, to a readable symmetric encryption method capable of one-to-one mapping in a manner having original data characteristics.

In general, encryption (encryption) is a technology that protects information by storing data in the form of a ciphertext whose meaning is unknown or transmitted through a communication line, and uses encryption keys to encode and decrypt information into ciphertext. By using the key, the original information is restored.

Without such a decryption key, data cannot be restored correctly, so information stability can be ensured.

In the conventional method of encrypting data, the type of data is not distinguished, and in most cases, it is encrypted with unreadable characters.

That is, for example, when the Korean character'Hong Gil-dong' is encrypted according to a conventional encryption algorithm, it is output in a non-readable form such as'a!@3sdwe' as a combination of special characters including letters and numbers.

 In the conventional data encryption method, when a developer develops an application program using characteristics of data, it is difficult to grasp the type of original data, and thus, the efficiency of application program development is deteriorated.

In addition, if the user-developed program needs to provide original data for testing, there is a risk of information leakage.

The background technology of the present invention includes the Republic of Korea Patent Publication No. 10-2001-0096803 (2001. 11. 08.)'text information encryption input system and method', according to the user's text information input The present invention proposes a more specific and systematic method of inputting a text information encryption input method to encrypt and input text information in a terminal performing an operation.

KR 10-2001-0096803 A 2001. 11. 08, page 3, lines 8 to 16, drawings 3a to 3b.

The present invention is proposed to solve the conventional problems as described above,

An object of the readable symmetric encryption method according to the present invention is to provide a readable symmetric encryption method in consideration of a data type to be encrypted.

Another object is to select and encrypt a column of a user file using an encryption unit.

Another object is to generate a random number table and an S box table, and perform one-to-one matching encryption using the generated S box table.

Another purpose is to initialize the random number table and the S box table.

Another purpose is to create an S-box table capable of one-to-one matching encryption.

Another purpose is to iterate through the encryption loop, taking into account user-specified.

The purpose of the read symmetric symmetric decryption method according to the present invention is to generate original data of a file encrypted by a one-to-one matching method using the S box table generated by the read symmetric symmetric encryption method.

Readable symmetric encryption method according to the present invention comprises the steps of collecting the encryption coding data from the server using the encryption unit, and using the encryption unit, taking into account the type of data to be encrypted, and performing the readable symmetric encryption. do.

In addition, the step of performing the readable symmetric encryption of the readable symmetric encryption method according to the present invention is to use the pectstream, load the encrypted coding data and the user file, and select the column to encrypt the user file by using the encryption module unit. And outputting the encrypted file using the encrypting step and the fact stream.

In addition, the step of selecting and encrypting a column to be encrypted of the user file of the readable symmetric encryption method according to the present invention includes inputting a user-specified password, generating a random number table, generating a one-to-one matchable S box table, and And one-to-one matching with the S-Box table, and encoding with encrypted data.

In addition, the step of generating the S box table of the readable symmetric encryption method according to the present invention is the step of inputting the initial S table of the S box table, dividing the S box table arrangement into ten equal parts, and performing the first rotation based on the random number of each block Comprising the steps of, comprising: dividing the table arrangement in which the first rotation is completed into two, and performing a second rotation based on the random number of each block, and a step of rotating the table arrangement in which the second rotation is completed into a single block in a third order. It is characterized by.

delete

As described above, the readable symmetric encryption method according to the present invention considers the data type to be encrypted, and provides a readable symmetric encryption method, thereby generating encrypted data having characteristics of the original data and improving data security. There is an effect that can be made.

In addition, by using an encryption unit, there is an effect of selecting a column of a user file and quickly encrypting it.

In addition, by generating the random number table and the S box table, and using the generated S box table, there is an effect that can perform one-to-one matching encryption.

In addition, it is possible to improve the accuracy of the encryption operation by initializing the random number table and the S box table.

In addition, there is an effect of generating an S box table capable of one-to-one matching encryption.

In addition, there is an effect of repeating the encryption loop in consideration of user specification.

delete

1 is a view showing the system configuration and data flow concept for implementing a readable symmetric encryption method according to the present invention.
Figure 2 is a detailed flow chart of step S50 of the readable symmetric encryption method according to the present invention.
3 is a detailed flowchart of step S54 of the readable symmetric encryption method according to the present invention.

Hereinafter, a detailed description for implementing the readable symmetric encryption method according to the present invention will be described.

1 is a system configuration diagram for implementing a readable symmetric encryption method according to the present invention, and mainly includes a server 10 and an encryption unit 20.

The server 10 serves to manage the data of the encryption operation, the encryption unit 20 receives the coating data of the encryption operation from the server 10, and serves to encrypt the user file input, In the exemplary embodiment of the present invention, the EST library 21 and the effect stream 27 are included.

In the embodiment of the present invention, the encryption unit 20 used a FACT product package.

The EST library 21 is a cryptographic source technology library package, and includes a DBAPI 23 and an encryption module unit 25.

The fact stream 27 serves to transmit data to be encrypted to the encryption module unit 25 and to output a result file using the encryption information received from the encryption module unit 25.

Looking at the entire flow of the encryption method using the read-only symmetric encryption system, the encryption unit 20 is used to collect the encryption coding data from the server 10, and bring the encryption coding data to the DBAPI 23 ( S10), the data received from the server 10 and the user file 5 are read using the effect stream 27 (S20).

The encryption coding data according to the present invention includes a random number table and an S box table.

Next, by using the effect stream 27, the encryption code data and the ini file information of the user file is transmitted to the encryption module unit 25 (S30), and using the encryption module unit 25, After selecting a column to be encrypted in the user file, a step S40 of performing encryption and decryption of encryption is performed.

The step S40 performs a step of initializing the random number table and the S box table, as shown in the detailed flow chart shown in FIG. 2 (S41).

In step S41, when creating a table to be encrypted, it is preferable to create the table in consideration of the type of the table to be encrypted. In the embodiment of the present invention, the random number table is composed of 160 bits. You will organize the table.

Next, a step of inputting a user-specified password is performed (S42).

The step S42 refers to a step of inputting a user-specified password for creating a random number table.

Next, a 160-bit random number table is generated using a user-specified password (S43), and an S-box table capable of one-to-one matching is generated using the generated random number table (S44).

In step S44 according to the present invention, as shown in the detailed flow shown in [FIG. 3], when a 160-bit random number table is created, the table to be encrypted is inputted and put into all one-dimensional arrays (S441), and the user input encryption key is looped. The number of repetitions is designated (S443), and the first rotation (S444) is performed on the basis of the random number table after dividing the 1-dimensional array into 10 equal parts.

Next, after dividing the first rotated table arrangement into two equal parts, a second rotation is performed based on a random number table (S445), and a third rotation (S446) is performed on the second rotated table arrangement.

Next, by performing a step (S547) of checking whether the user-specified loop repetition is ended, if the loop repetition is not terminated, the process returns to step S444 to perform again, and when the loop repetition ends, the S box table is output Step S448 is performed.

Next, input the data to be encrypted (S45), match one-to-one with the S box table, and perform the step of encoding with encrypted data (S46).

Next, a step of outputting the encrypted result file 7 is performed using the effect stream 27 (S50).

In the embodiment of the present invention, the random number table is written using the Sha 1 algorithm, and in the case of Hangul encryption, tables of different sequences are completed by mixing 2350 characters of the completed Hangul characters, and the initial input S box table is left float according to a 160-bit random number table. By shifting, a new Hangul table is formed, and other types of characters can form the S box table in the same way.

The generated S box table has an advantage optimized for encrypting Hangul information as it is possible to match one to one with the completed Hangul 2350.

In the case of numbers, the initial input numeric S box table is 160-bit randomly received and left shifted to form a new number table, and the completed numeric S box table can be matched one to one with numbers 0 to 99999. It has the advantage of being optimized for encrypting information.

delete

delete

delete

delete

delete

delete

delete

delete

delete

delete

As described above, by applying the readable symmetric encryption method according to the present invention, by considering the data type to be encrypted, by providing a readable symmetric encryption method having the original data characteristics of text, English, and numbers, the original data characteristics It is possible to generate encrypted data, and further enhance the data security.

As described above as an embodiment of the present invention, the technical spirit of the present invention is not limited to the above embodiment, and can be implemented by various readable symmetric encryption methods within a range not departing from the technical spirit of the present invention.

5: User file
7: Encrypted result file
10: Server
20: encryption unit
21: EST library
23: DBAPI
25: encryption module unit
27: effect stream

Claims (6)

(a) collecting encryption coding data from a server using an encryption unit, and
(b) In the encryption unit, the encryption coding data and the user file are loaded using the pect stream, and the column to be encrypted of the user file is selected and encrypted using the encryption module unit, and the encrypted file is encrypted using the pect stream. Outputting,
Step (b) is,
Initializing the random number table and the S box table; Entering a user-specified password; Generating a random number table; Generating a one-to-one matchable S box table and one-to-one matching with the S box table, and encoding the encrypted data;
The step of generating the S box table,
Entering an initial S table of the S box table; Dividing the S box table arrangement into 10 equal parts, and performing a primary rotation based on a random number of each block; And dividing the table arrangement in which the first rotation is completed into two, and performing a second rotation based on a random number of each block and a third rotation of the table arrangement in which the second rotation is completed into one block. Read symmetry encryption method.
delete delete delete The method according to claim 1,
After the step of inputting the initial S box table of the S box table,
And specifying the number of times to repeat the encryption loop.
delete

Images