KR20140112815A - Method and system for secure data transfer using conditional proxy re-encryption - Google Patents

Abstract

Provided are a data transfer method and system using a conditional proxy re-encryption method. The data transfer method and system using a conditional proxy re-encryption method can minimize the generation of the re-encryption key of a transfer object by limiting a part for using a condition value with encoding and decoding processes. Also, the data transfer method and system using a conditional proxy re-encryption method can manage an accurate decoding authority control on the transfer object by using the condition value.

Description

METHOD AND SYSTEM FOR TRANSFER USING CONDITIONAL PROXY RE-ENCRYPTION USING CONDITIONAL PROXY RE-

The present invention relates to a method for securely transmitting data using a conditional proxy re-encryption method and a system for performing the method. More particularly, the present invention relates to a method and a device for restricting a portion requiring a conditional value in an encryption and decryption process in a conditional proxy re- And to a system for performing the method.

A way to easily share data with other users while safeguarding data in cloud services is being studied. Among them, research on proxy re-encryption is an important issue.

In this paper, we propose a proxy re - encryption method using condition values to protect data more securely. However, since the conditional proxy re-encryption method can re-encrypt only when the proxy knows the condition value, there is a problem that the re-encryption key must be issued for the number of condition values in order to control the re- .

Accordingly, there is a need for a method for safely transferring data while easily restricting the right of decryption by using only one re-encryption key by limiting the use of the condition value to encryption and decryption processes.

The present invention provides a method and system that can minimize the number of re-encryption keys to be transmitted by restricting a portion where a condition value is used to an encryption and decryption process.

The present invention provides a method and system for controlling a decoding right of a transmission object through a change of a condition value.

The method of transmitting conditional proxy re-encryption-based data according to an exemplary embodiment of the present invention includes: transmitting a ciphertext of the first user generated using a public key and a condition value of a first user; Changing a ciphertext of the first user to a ciphertext of a second user using a re-encryption key; And decrypting the received cipher text of the second user using the private key of the second user and the condition value.

The step of transmitting the cipher text of the first user generated using the public key and the condition value of the first user may include transmitting the condition value.

The condition value may include at least one of a keyword, a bit string, and a character string.

The re-encryption key may be generated using the private key of the first user and the public key of the second user.

A conditional proxy re-encryption-based data transmission system according to an embodiment of the present invention includes a first device that transmits a cipher text of a first user generated using a public key and a condition value of a first user to a proxy; A proxy for changing the received ciphertext of the first user to a ciphertext of the second user using a re-encryption key, and transmitting the ciphertext of the second user to the second device; And a second device for decrypting the received cipher text of the second user using the private key of the second user and the condition value.

The first device may transmit the condition value to the second device.

The condition value may include at least one of a keyword, a bit string, and a character string.

The re-encryption key may be generated using the private key of the first user and the public key of the second user.

A conditional proxy re-encryption-based device according to an embodiment of the present invention includes: a ciphertext management unit that generates a ciphertext of the first user using a public key and a condition value of a first user; A proxy interworking unit operable to transmit the ciphertext of the first user to the proxy, to change the received ciphertext of the first user into a ciphertext of the second user through a re-encryption key, and to transmit the ciphertext to another device; And a device interlocking unit interlocked with the other device for decrypting the cipher text of the second user received from the proxy using the private key of the second user and the condition value.

The device interworking unit may include a condition value communication unit for transmitting the condition value to the another device.

The condition value may include at least one of a keyword, a bit string, and a character string.

The re-encryption key may be generated using the private key of the first user and the public key of the second user.

A device based on a conditional proxy re-encryption scheme according to an exemplary embodiment of the present invention includes a device interlocking unit operatively associated with another device that transmits a cipher text of the first user generated by using a public key and a condition value of a first user as a proxy; A proxy interworking unit operable to change the received ciphertext of the first user to a ciphertext of the second user using a re-encryption key, and to interwork with the proxy transmitting the ciphertext of the second user; And a ciphertext management unit that decrypts the ciphertext of the second user received from the proxy using the private key of the second user and the condition value.

The device interworking unit may include a condition value communication unit that receives the condition value from the another device.

The condition value may include at least one of a keyword, a bit string, and a character string.

The re-encryption key may be generated using the private key of the first user and the public key of the second user.

A conditional proxy re-encryption method according to an embodiment of the present invention includes: transmitting a ciphertext of the first user generated using a public key and a condition value of a first user; Changing a received cipher text of the first user to a cipher text of a second user using a re-encryption key, and interworking with a proxy transmitting the cipher text of the second user to another device; And cooperating with the other device that decrypts the received cipher text of the second user using the private key of the second user and the condition value.

The step of transmitting the ciphertext of the first user generated using the public key and the condition value of the first user may include transmitting the condition value to the another device.

The condition value may include at least one of a keyword, a bit string, and a character string.

The re-encryption key may be generated using the private key of the first user and the public key of the second user.

According to an embodiment of the present invention, the portion where the condition value is used is limited to the encryption and decryption process, and the number of generation of the re-encryption key can be minimized by preventing the re-encryption key from including the condition value.

According to an embodiment of the present invention, it is possible to perform fine decoding authority control on a transmission object using a condition value.

에

가 포함되도록 재암호화키를 생성하여 선택적 암호문 공격에 강할 수 있다.According to an embodiment of the present invention,

on

Encryption key may be generated so as to be strong against selective ciphertext attack.

1 is a flowchart illustrating an example of a data transmission method based on a conditional proxy re-encryption technique.
2 is a diagram illustrating an example of a conditional proxy re-encryption based data transmission system operation.
3 is a diagram showing an example of a data transmission system based on a conditional proxy re-encryption technique.
4 is a block diagram illustrating an example of a configuration of a device based on a conditional proxy re-encryption technique.
5 is an operation flowchart showing an example of a conditional proxy re-encryption method.

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

1 is a flowchart illustrating an example of a data transmission method based on a conditional proxy re-encryption technique.

Referring to FIG. 1, in step 110, a cryptograph of a first user may be generated via a processor.

Specifically, the cipher text of the first user may be generated using the public key and the condition value of the first user. According to one embodiment, the condition value may comprise at least one of a keyword, a bit string, or a string.

의 공개키 및 개인키를 생성하기 위해

를 선택하고

로 설정할 수 있다. 여기서,

는 제1 사용자와 동일하고,

는 정수를

로 나눈 나머지(integers modulo q)이고,

는

의 공개키이고,

는

의 개인키이고,

는

에 속하는 임의의 값이고,

는 k-bit 소수이며,

및

는

를 위수로 갖는 순환군일 수 있다.According to one embodiment,

To generate the public and private keys of

Select

. here,

Is the same as the first user,

Is an integer

(Integers modulo q)

The

Lt; / RTI >

The

Lt; / RTI >

The

, ≪ / RTI >

Is a k-bit prime number,

And

The

May be a circulating group having a great number of persons.

Level ciphertexts that can not be re-encrypted and decrypted by only those who have generated the ciphertext can be generated as follows.

은

일 수 있다. 또한, 수학식 1에서

은

가 생성한 암호문이고,

는

을 만족하는 겹선형 쌍함수이고, s는

에 속하는 임의의 값이고,

는

이며,

은

일 수 있다.In the above equation (1), m is a message, r , ≪ / RTI >

silver

Lt; / RTI > In Equation 1,

silver

Is the generated ciphertext,

The

Lt; / RTI >< RTI ID = 0.0 >

, ≪ / RTI >

The

Lt;

silver

Lt; / RTI >

This one-level cipher text can be decrypted as follows.

According to one embodiment, a re-encryptable two-level cipher text may be generated as follows. This re-encryption may be equivalent to changing the ciphertext of the first user to the ciphertext of the second user.

는

을 나타낼 수 있고, w는 조건값이며,

는

을 나타낼 수 있다. 또한,

은

로부터 얻을 수 있다.In Equation 3,

The

, W is a condition value,

The

Lt; / RTI > Also,

silver

Lt; / RTI >

According to one embodiment, this two-level cipher text may be the cipher text of the first user.

Such ciphertext and condition value of the first user can be transmitted because it is an element used for re-encryption and decryption.

Subsequently, in step 120, the processor can change the ciphertext of the first user to the ciphertext of the second user.

는

에 대한 재암호화키를 다음과 같이 생성할 수 있다.According to one embodiment,

The

Can be generated as follows.

은

의 암호문을

의 암호문으로 변경시키는 재암호화키일 수 있다. 일실시예에 따르면,

는 제2 사용자와 동일하고,

의 암호문은 제1 사용자의 암호문이며,

의 암호문은 제2 사용자의 암호문일 수 있다.In Equation (4)

silver

The ciphertext

Quot; cipher text " According to one embodiment,

Is the same as the second user,

The cipher text of the first user is the cipher text of the first user,

May be the cipher text of the second user.

의 암호문을

의 암호문으로 변경시킬 수 있다.Using this re-encryption key,

The ciphertext

Of the ciphertext.

Subsequently, at step 130, the cipher text of the second user may be decrypted via the processor.

According to one embodiment, the ciphertext of the second user may be decrypted using the private key and condition value of the second user as follows.

은 제2 사용자가 생성할 수 있다.In Equation (6)

Can be generated by the second user.

2 is a diagram illustrating an example of a conditional proxy re-encryption based data transmission system operation.

Referring to FIG. 2, a conditional proxy re-encryption scheme based data transmission system may include a first device 210, a proxy 220 and a second device 230.

The first device 210 may be an electronic device of the first user. According to one embodiment, the first device 210 may generate a re-encryption key (211) with the private key of the first user and the public key of the second user. Specifically, such a second user may be a user for whom the first user wishes to transmit the encrypted message. The generation of the re-encryption key can be applied as it is through the description of FIG. 1, so that a more detailed description can be omitted.

According to one embodiment, the first device 210 may generate the first user's cryptogram using the public key and the condition value of the first user (212). The cipher text of the first user may be a two-level cipher text that can be re-encrypted. The generation of the ciphertext of the first user can be applied to the contents described in FIG. 1 as it is, so that detailed description can be omitted.

According to one embodiment, the ciphertext and the re-encryption key of this first user may be transmitted 213 to the proxy 220. In addition, the condition value may be transmitted 214 to the second device 230. These condition values may include at least one of a keyword, a bit string, or a string. In addition, the decryption authority can be controlled by transmitting the condition value to a specific second user desired by the first user.

Proxy 220 may include a server that provides cloud services. According to one embodiment, the proxy 220 may receive the ciphertext and the re-encryption key of the first user from the first device 210. The proxy 220 may maintain the re-encryption key received from the first device 210. The proxy 220 may change the ciphertext of the first user to the ciphertext of the second user using the re-encryption key (221). Since the content described with reference to FIG. 1 can be directly applied to the change of the second user's cipher text, a detailed description may be omitted. The cipher text of this second user may be forwarded 222 to the second device 230.

The second device 230 may be an electronic device of the second user. According to one embodiment, the second device 230 may receive the condition value from the first device 210. [ Also, the second device 230 may receive the cipher text of the second user from the proxy 220. The cipher text of the second user may be decrypted through the condition value and the private key of the second user (231). The decryption of the second user's cipher text can be applied to the contents described in FIG. 1 as it is, so that a detailed description can be omitted.

3 is a diagram showing an example of a data transmission system based on a conditional proxy re-encryption technique.

Referring to FIG. 3, there may be a first device 310, a proxy 320, and one or more second devices 330, 340, 350 in real life.

According to one embodiment, the first device 310 may generate the first user's cipher text 311 using the public key and the condition value w1 351 of the first user. Also, the first device 310 may generate the re-encryption key using the private key of the first user and the public key of the second user desired by the first user. The generation of the cipher text 311 and the re-encryption key of the first user can be applied to the contents described in FIG. 1 as it is, so that a detailed description can be omitted. The first device 310 may send the ciphertext 311 and the re-encryption key of the first user to the proxy 320. [ Also, the first device 310 may send a condition value w1 351 to a second device for which data is desired to be transmitted.

According to one embodiment, the ciphertext 311 of the first user at the proxy 320 may be changed to the ciphertext of the second user using the re-encryption key. Since the content described with reference to FIG. 1 can be directly applied to the change of the second user's cipher text, a detailed description may be omitted. Such a re-encryption key may be maintained at the proxy 320.

According to one embodiment, only the second device 350 holding the condition value w1 351 can decrypt the cipher text of this second user. This allows the second device 350 to obtain the decoded data 352. However, the second device 330, which holds the condition value w1 351 and the condition value w2 331, can not decrypt the second user's cipher text. Also, the second device 340, which does not hold any condition value, can not decrypt the cipher text of the second user. More precise decoding authority control can be performed using these condition values.

4 is a block diagram illustrating an example of a configuration of a device based on a conditional proxy re-encryption technique.

Referring to FIG. 4, the conditional proxy re-encryption-based device 400 may include a ciphertext management unit 410, a proxy interworking unit 420, and a device interworking unit 430.

The ciphertext management unit 410 may generate the ciphertext of the first user using the public key and the condition value of the first user. The generation of the ciphertext of the first user can be applied to the contents described in FIG. 1 as it is, so that detailed description can be omitted.

Also, the ciphertext management unit 410 can decrypt the ciphertext of the second user received from the proxy using the private key and the condition value of the second user. The decryption of the second user's cipher text can be applied to the contents described in FIG. 1 as it is, so that a detailed description can be omitted.

Also, the ciphertext management unit 410 may generate a re-encryption key required to change the ciphertext of the first user to the ciphertext of the second user. This re-encryption key may be generated using the private key of the first user and the public key of the second user. 1 can be applied as it is, so a more detailed description can be omitted.

The proxy interworking unit 420 may change the cipher text of the first user to the cipher text of the second user by using the re-encryption key, and may interoperate with the proxy transmitting the cipher text of the second user. According to one embodiment, the proxy interworking unit 420 may transmit the ciphertext of the first user generated by the ciphertext management unit 410 to the proxy. According to another embodiment, the cipher text of the second user transmitted from the proxy may be received through the proxy interworking unit 420. [

According to one embodiment, the device interworking unit 430 may be interworked with another device that decrypts the cipher text of the second user received from the proxy using the private key and the condition value of the second user. The device interlocking unit 430 may include a condition value communication unit for transmitting the condition value to another device.

According to another embodiment, the device interworking unit 430 may be interworked with another device that transmits the ciphertext of the first user, which is generated using the first user's public key and the condition value, to the proxy. The device interlocking unit 430 may include a condition value communication unit for receiving a condition value from another device.

5 is an operation flowchart showing an example of a conditional proxy re-encryption method.

Referring to FIG. 5, in step 510, a processor may generate a ciphertext of a first user and send the ciphertext of the first user to a proxy. The generation of the ciphertext of the first user can be applied to the contents described in FIG. 1 as it is, so that detailed description can be omitted.

Subsequently, in step 520, the ciphertext of the first user received through the processor is changed to the ciphertext of the second user using the re-encryption key, and the ciphertext of the second user is linked to the proxy for transmitting the ciphertext of the second user to another device . This re-encryption key may be generated using the private key of the first user and the public key of the second user. 1 can be applied as it is, so a more detailed description can be omitted.

Then, in step 530, the cipher text of the second user received through the processor may be interworked with another device that decrypts the encrypted text using the private key and the condition value of the second user. The decryption of the second user's cipher text can be applied to the contents described in FIG. 1 as it is, so that a detailed description can be omitted.

The apparatus described above may be implemented as a hardware component, a software component, and / or a combination of hardware components and software components. For example, the apparatus and components described in the embodiments may be implemented within a computer system, such as, for example, a processor, a controller, an arithmetic logic unit (ALU), a digital signal processor, a microcomputer, a field programmable array (FPA) A programmable logic unit (PLU), a microprocessor, or any other device capable of executing and responding to instructions. The processing device may execute an operating system (OS) and one or more software applications running on the operating system. The processing device may also access, store, manipulate, process, and generate data in response to execution of the software. For ease of understanding, the processing apparatus may be described as being used singly, but those skilled in the art will recognize that the processing apparatus may have a plurality of processing elements and / As shown in FIG. For example, the processing unit may comprise a plurality of processors or one processor and one controller. Other processing configurations are also possible, such as a parallel processor.

The software may include a computer program, code, instructions, or a combination of one or more of the foregoing, and may be configured to configure the processing device to operate as desired or to process it collectively or collectively Device can be commanded. The software and / or data may be in the form of any type of machine, component, physical device, virtual equipment, computer storage media, or device , Or may be permanently or temporarily embodied in a transmitted signal wave. The software may be distributed over a networked computer system and stored or executed in a distributed manner. The software and data may be stored on one or more computer readable recording media.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced. Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

310: first device
311: Cipher text of the first user
320: Proxy
330, 340, 350: second device
331: Condition value w2
351: Condition value w1
352: Decoded data

Claims (20)

Transmitting a ciphertext of the first user generated using the public key and the condition value of the first user;
Changing a ciphertext of the first user to a ciphertext of a second user using a re-encryption key; And
Decrypting the received cipher text of the second user using the private key of the second user and the condition value
And a conditional proxy re-encryption technique. The method according to claim 1,
Wherein the step of transmitting the ciphertext of the first user generated using the public key and the condition value of the first user comprises:
Transmitting the condition value
And a conditional proxy re-encryption technique. The method according to claim 1,
The condition value may be,
A method of conditional proxy re-encryption based data transmission comprising at least one of a keyword, a bit string, or a string. The method according to claim 1,
Wherein the re-
Wherein the first user's private key and the second user's public key are generated using the first user's private key and the second user's public key. A first device for transmitting the ciphertext of the first user generated by using the public key and the condition value of the first user to the proxy;
A proxy for changing the received ciphertext of the first user to a ciphertext of the second user using a re-encryption key, and transmitting the ciphertext of the second user to the second device; And
A second device for decrypting the received cipher text of the second user using the private key of the second user and the condition value,
A conditional proxy re-cipher scheme based data transmission system. 6. The method of claim 5,
The first device comprising:
And transmits the condition value to the second device. 6. The method of claim 5,
The condition value may be,
A conditional proxy re-encryption scheme based data transmission system comprising at least one of a keyword, a bit string, or a string. 6. The method of claim 5,
Wherein the re-
Wherein the second user's public key is generated using the private key of the first user and the public key of the second user. A ciphertext management unit for generating the ciphertext of the first user using the public key and the condition value of the first user;
A proxy interworking unit operable to transmit the ciphertext of the first user to the proxy, to change the received ciphertext of the first user into a ciphertext of the second user through a re-encryption key, and to transmit the ciphertext to another device; And
A device interlocking unit operatively associated with the other device for decrypting the cipher text of the second user received from the proxy using the private key of the second user and the condition value,
A conditional proxy re-encryption technique based device. 10. The method of claim 9,
The device-
A condition value communication unit for transmitting the condition value to the other device
A conditional proxy re-encryption technique based device. 10. The method of claim 9,
The condition value may be,
A conditional proxy re-encryption scheme based device comprising at least one of a keyword, a bit string, or a string. 10. The method of claim 9,
Wherein the re-
Wherein the device is generated using the private key of the first user and the public key of the second user. A device interlocking unit interlocked with another device transmitting a cipher text of the first user generated by using the public key and the condition value of the first user as a proxy;
A proxy interworking unit operable to change the received ciphertext of the first user to a ciphertext of the second user using a re-encryption key, and to interwork with the proxy transmitting the ciphertext of the second user; And
A cipher text management unit for decrypting the cipher text of the second user received from the proxy using the private key of the second user and the condition value,
A conditional proxy re-encryption technique based device. 14. The method of claim 13,
The device-
A condition value communication unit for receiving the condition value from the another device;
A conditional proxy re-encryption technique based device. 14. The method of claim 13,
The condition value may be,
A conditional proxy re-encryption scheme based device comprising at least one of a keyword, a bit string, or a string. 14. The method of claim 13,
Wherein the re-
Wherein the device is generated using the private key of the first user and the public key of the second user. Transmitting a ciphertext of the first user generated using the public key and the condition value of the first user;
Changing a received cipher text of the first user to a cipher text of a second user using a re-encryption key, and interworking with a proxy transmitting the cipher text of the second user to another device; And
Interworking with the other device that decrypts the received cipher text of the second user using the private key of the second user and the condition value
/ RTI > 18. The method of claim 17,
Wherein the step of transmitting the ciphertext of the first user generated using the public key and the condition value of the first user comprises:
Transmitting the condition value to the another device
/ RTI > 18. The method of claim 17,
The condition value may be,
A method of conditional proxy re-encryption comprising at least one of a keyword, a bit string, or a string. 18. The method of claim 17,
Wherein the re-
Wherein the second key is generated using the private key of the first user and the public key of the second user.

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