KR20160050876A - Bitcoin dealing method using public key and private key stored in smart card - Google Patents

Abstract

The present invention has a technical task of providing a bitcoin trading method capable of remarkably reinforcing a security by storing a private key and a public key of a dealer which are necessary for bitcoin trading in a smart card held by the dealer and which is not in a web. The present invention relates to the bitcoin trading method using a public key and a private key stored in a smart card. The bitcoin trading method comprises: an authentication pair storing step of storing a pair of authentication keys including a public key and a private key of a dealer issued from a bitcoin trading management server in a smart card of the dealer; a bitcoin trading information input step of inputting bitcoin trading information including a public key of a trade partner in a trading terminal; a private key transmission step of transmitting the private key of the dealer stored in the smart card to the trading terminal; a bitcoin trading information encryption step of encrypting the bitcoin trading information with the private key of the dealer received from the smart card by the trading terminal; and a bitcoin trading information broadcasting step of by the trading terminal, broadcasting the bitcoin trading information encrypted by the private key of the dealer to a network managed by the bitcoin trading management server. According to the present invention, the bitcoin trading method may remarkably reinforce a security by storing a private key and a public key of a dealer which are necessary for bitcoin trading and may use the existing infrastructure without investing additional costs.

Description

TECHNICAL FIELD The present invention relates to a bit coin trading method using a public key and a private key stored in a smart card,

The present invention relates to a bit coin transaction method using a public key and a private key stored in a smart card. More specifically, the present invention stores a private key and a public key of a trader, which are necessary for a bit coin transaction, in a smart card carried by a trader other than the web, thereby greatly enhancing security, The present invention relates to a bit coin transaction method capable of utilizing an existing infrastructure.

The Internet virtual currency represented by Bitcoin uses a public key cryptography scheme for personal authentication and currency trading. The public key infrastructure of the Internet virtual currency consists of a public key for transactions and a private key that depends on the public key. The public key corresponds to a kind of account number of the Internet virtual currency.

Means for storing a public key and a secret key for internet virtual currency transaction are required, and now, a method of storing in the form of a virtual money wallet is used. In the case of the virtual money wallet provided on the web, since the user logs in using the user ID and password through the user terminal and then downloads the public key and the secret key stored in the web server to the user terminal, There is a risk that the Internet virtual money in the account of the rightful owner may be stolen.

Korean Patent Laid-Open Publication No. 10-2010-0132329 (public date: December 17, 2010, titled: electronic money transaction processing system and electronic money transaction processing method) Korean Patent Laid-Open Publication No. 10-2007-0070958 (Published Date: July 04, 2007, entitled: Electronic wallet consignment management system)

It is a technical object of the present invention to provide a bit coin transaction method capable of greatly enhancing security by keeping a private key and a public key of a trader necessary for bit coin transaction in a smart card carried by a trader other than a web do.

Further, the present invention provides a bit coin transaction method using a public key and a private key stored in a smart card enabling a bit coin transaction with enhanced security using an existing infrastructure without investing an additional cost As a technical task.

According to an aspect of the present invention, there is provided a bitcoin transaction method using a public key and a private key stored in a smart card, An authentication key pair storing step of storing an authentication key pair composed of a private key and a private key in a smart card of the trader, a bit coin transaction information input step of inputting bit coin transaction information including a public key of the counter party of the transaction, A private key transmission step of transmitting the private key of the trader stored in the smart card to the transaction terminal; a step of encrypting the bit coin transaction information with the private key of the trader transmitted from the smart card, A step of encrypting the bit-coin transaction information, And a bit coin transaction information broadcasting step of broadcasting the gorgeous bit coin transaction information to a network managed by the bit coin transaction management server.

In a bit coin transaction method using a public key and a private key stored in a smart card according to the present invention, in the storing of the authentication key pair, the private key of the trader issued from the bit coin transaction management server is encrypted, And is stored in an installed bit coin applet.

A bit coin transaction method using a public key and a private key stored in a smart card according to the present invention comprises: Further comprising a step of authenticating a trader using the smart card from the bit coin transaction management server after the authentication key pair storing step and before the bit coin transaction information inputting step.

In the bit coin transaction method using a public key and a private key stored in a smart card according to the present invention, the transaction authentication step may include a transaction identification information input step of inputting transaction identification information composed of an ID and a password of the transaction to the transaction terminal, A transaction identification information transmission step in which the transaction terminal transmits the transaction identification information to the bit coin transaction management server; and the bit coin transaction management server refers to the member database to check whether the transaction is a legitimate registered member And an authentication result information transmission step of transmitting the authentication result information to the transaction terminal by the bit coin transaction management server to the transaction terminal.

In a bit coin transaction method using a public key and a private key stored in a smart card according to the present invention, in the private key transfer step, the smart card storing the private key of the transaction is brought close to the transaction terminal, And transmits the private key of the trader stored in the card to the transaction terminal by wireless transmission.

In the bit coin transaction method using a public key and a private key stored in a smart card according to the present invention, the transaction terminal is provided with a bit coin transaction application for supporting bit coin transaction, Near Field Communication (NFC).

In the bit coin transaction method using the public key and the private key stored in the smart card according to the present invention, the transaction terminal is connected to a card reader supporting short-distance wireless communication or wired communication with the smart card, And a bit coin transaction program for supporting a bit coin transaction program.

In the bit coin transaction method using a public key and a private key stored in a smart card according to the present invention, a bit coin transaction program supporting bit coin transaction is always executed, and a short coin transaction with the smart card is performed. And an automatic teller's machine (ATM) supporting the transaction.

According to the present invention, there is provided an advantage of providing a bit coin transaction method capable of greatly enhancing security by storing a transaction private key and a public key required for a bit coin transaction in a smart card carried by a trader other than a web have.

Further, there is provided an advantage of providing a bit coin transaction method using a public key and a private key stored in a smart card enabling a bit coin transaction with enhanced security using an existing infrastructure without investing an additional cost .

1 is a diagram for explaining a bit coin transaction principle applied to the present invention.
2 is a diagram illustrating an example of a system configuration in which a bit coin transaction method using a public key and a private key stored in a smart card according to an embodiment of the present invention is performed.
3 is a diagram illustrating a bit coin transaction method using a public key and a private key stored in a smart card according to an embodiment of the present invention.

Before describing an embodiment of the present invention, the bit coin transaction principle applied to the present invention will be described with reference to FIG.

<Bit coin service subject>

- Bitcoin trading system is P2P electronic money trading system. It is an electronic money trading system based on P2P distributed network rather than centralized. In other words, the bit coin transaction record is not stored in a centralized server but when a transaction occurs, 1) a new transaction history is known to all nodes, 2) each node blocks a new transaction history, 3) each node performs a process of finding a proof of job for the block; 4) when a node successfully performs a job proof, it sends the block to all nodes; and 5) And only if all transactions in the block are valid and not previously used, and (6) nodes generate a next block using the hash of the block it has approved as a previous hash, indicating that the block has been approved .

The beat coin exchange plays a role of an exchange where buyers of the exchange can buy and sell bit coins, for example, a stock exchange, and provide a service for withdrawing, that is, spotting.

When a bit coin user subscribes to a service provided by a bit coin exchange, a bit coin purse (individual's public key / private key pair) is automatically generated and typically stores the user's public key and private key in the server of each exchange However, in the present invention, the public key and the private key are stored in a smart card having excellent security.

Even bit coin users using different exchanges can send a bit coin if they have the other party's public key.

<Bit coin transaction flow>

When the sender sends the bit coin to another bit coin user, the sender receives the recipient's public key address, the sender executes the bit coin purse service program through the sender terminal, and 3) 4) the bit coin transfer function is selected in the bit coin purse service program, 5) the recipient's public key and the bit coin value to be transferred are input, and 6) the bit coin transfer transaction is completed.

When the bit coin is received from another bit coin user, 1) the sender sends the sender's public key address to the sender, 2) the sender sends the bit coin to the recipient, and 3) By executing the coin purse service program, the bit coin receipt transaction is completed by determining how many bit coins have been deposited from which public key address.

<Data flow at bit coin transaction>

S. Nakamoto, who is known as the founder of bit coin, defines the bit coin as a series of "digital signatures" consecutively, and the main data flow at bit coin transaction is as follows.

Each bitcoin electronic wallet owner sends a digital signature to the next owner, encrypting the next owner's public key with their private key after the previous owner's transaction key.

After receiving the bit coin, the owner can verify the chain and signatures of the signature owners through it.

Basically, the transaction data verifies the owner with a public key based signature value.

Each transaction data is delivered to the nodes participating in the bit coin network, and the value that the bit coin transaction is collected in about 10 minutes is referred to as a block.

One of the most basic transactions is to digitally sign the data of the previous transaction by encrypting it with the private key of the next owner after adding the next owner's public key. The recipient of the bit coin can verify the chain and signatures of the signature owners.

Hereinafter, preferred embodiments of the present invention will be described in detail.

FIG. 2 illustrates an example of a system configuration in which an embodiment of the present invention is performed. FIG. 3 illustrates a bit coin transaction method using a public key and a private key stored in a smart card according to an exemplary embodiment of the present invention .

2 and 3, a bit coin transaction method using a public key and a private key stored in a smart card according to an embodiment of the present invention includes an authentication key pair storage step S10, a transaction authentication step S20, A transaction information input step S40, a private key transmission step S50, a bit coin transaction information encryption step S60 and a bit coin transaction information broadcasting step S70.

In the authentication key pair storage step S10, a process of storing the authentication key pair, which is composed of the public key of the trader issued from the bit coin transaction management server 10, and the private key in the smart card 30 owned by the trader Is performed.

The storing step of the certificate key pair and the procedure precedent thereto will be described as follows.

First, when a trader is a member of the bit coin exchange, which is the subject of management of the bit coin transaction, the bit coin exchange issues the smart card 30 to the trader. Membership can be performed by a trader connecting to a bit coin transaction management server 10 operated by a bit coin exchange through a trader terminal.

As an example, the bit coin exchange may issue a smart card 30 with a bit coin applet in which a public key and a private key necessary for bit coin transaction are stored, to a registered member trader.

As another example, the bit coin exchange may issue a smart card 30 having a bitcoin applet in which a public key necessary for bit coin transaction and a private key are not stored to a registered member trader. In this case, the trader who has issued the smart card 30 accesses the bit coin transaction management server 10 through the trader terminal to request the generation of the public key and the private key, The trading terminal transmits the received public key and the private key to the smart card 30, and stores the public key and the private key received from the trader terminal in the bit coin applet provided in the smart card 30.

As another example, a bit coin exchange may issue a smart card 30 in a state where a bit coin applet is not installed in a registered trader. In this case, the trader accesses the bit coin transaction management server 10 via the transaction terminal 20, receives the bit coin applet, the public key and the private key, and finally installs and stores them in the smart card 30 Process is performed.

The exchange of data between the transaction terminal 20 and the smart card 30 is preferably performed by a near field communication (NFC) method, but a wired communication method is also applicable.

Meanwhile, in connection with the transaction terminal 20, it is possible to communicate with a plurality of terminals participating in bit coin transaction by accessing a network managed by the bit coin transaction management server 10, and to perform communication for data exchange with the smart card 30 Function and supports the bit-coin transaction, or any other terminal that satisfies the condition that has the computing ability to execute the program can be applied to the transaction terminal 20.

As an example, the transaction terminal 20 may be a mobile terminal equipped with a bit coin transaction application supporting bit coin transaction and supporting Near Field Communication (NFC) with the smart card 30.

As another example, the transaction terminal 20 may be a computer connected to a card reader supporting wired communication with the smart card 30 or a wired communication, and a bit coin transaction program supporting bit coin transaction.

As another example, the transaction terminal 20 may be an automatic teller machine (ATM) supporting a short-range wireless communication with the smart card 30 while the bit coin transaction program supporting the bit coin transaction is always executed. have.

In order to enhance the security, the authentication key pair storing step S10 may be configured to encrypt the private key of the trader issued from the bit coin transaction management server 10 and store the private key in the bit coin applet installed in the smart card 30 have.

In the transaction authentication step (S20), a process of receiving authentication for a trader using the smart card (30) is performed from the bit coin transaction management server (10).

For example, the transaction authentication step S20 includes a transaction identification information input step S22, a transaction identification information transmission step S24, a transaction confirmation step S26, and an authentication result information transmission step S28 .

In the trader identification information input step S22, a transaction for trading a bit coin is performed in the transaction terminal 20 to input trader identification information composed of the trader's ID and password.

In the transaction identifying information transmission step S24, the transaction terminal 20 transmits the received transaction identifying information to the bit coin transaction managing server 10 to request authentication.

In the trader confirmation step S26, the bit coin transaction management server 10 refers to the member database to check whether the trader is a legitimate trader who is a registered member.

In the authentication result information transmission step S28, the bit coin transaction management server 10 transmits the authentication result information for the trader to the transaction terminal 20.

Next, in step S30, the transaction terminal 20, which has received the authentication result information from the bit coin transaction management server 10, performs a process of performing a subsequent process corresponding to the authentication result. That is, when the authentication is successful, the bit coin transaction information input step S40 is executed. If the authentication is unsuccessful, the bit coin transaction information input step S22 may be configured to be switched to the trader identification information input step S22 . Of course, if authentication fails, the bit coin transaction process may be configured to terminate.

In the bit coin transaction information input step S40, a transaction succeeding the authentication is performed by the transaction terminal 20 to input the bit coin transaction information including the transaction key of the counter party. Here, the public key of the counterpart of the counterpart is the information on the address that can identify the counterpart counterpart, and more specifically, the information about the counterpart counter bit counter store address. For example, in the case of a bit coin transfer transaction, besides the public key of the counterpart, the bit coin transaction information inputted by the trader includes information on the amount of the bit coin remittance.

In the private key transmission step S50, a process of transmitting the private key of the trader stored in the smart card 30 to the transaction terminal 20 for encryption is performed.

For example, in the private key transmission step S50, the smart card 30 in which the private key of the trader is stored is brought close to the transaction terminal 20 so that the private key of the trader stored in the smart card 30 And may be configured to be wirelessly transmitted to the transaction terminal 20.

In the bit coin transaction information encryption step (S60), the process of encrypting the bit coin transaction information with the private key of the trader transmitted from the smart card (30) is performed. For example, in the bit coin transaction information encryption step (S60), the amount of operation can be reduced by hashing a partial information of the bit coin transaction information by applying a hash function.

In the bit coin transaction information broadcasting step S70, the process of broadcasting the bit coin transaction information encrypted by the transaction terminal 20 with the private key of the trader to the network managed by the bit coin transaction management server 10 . After the bitcoin transaction information broadcasting step S70 is executed, the bit coin transaction information can be confirmed through all the transaction participant terminals 50 connected to the network including the counterpart terminal 40. [

Next, in step S80, a process of confirming the bit coin transaction information by executing the bit coin transaction application or the program installed in the counterpart terminal 40 is performed. Since the trader encrypts the bit coin transaction information including the transaction counterpart's public key with the private key of the transaction counterpart itself, the transaction counterpart can release the encryption using its own public key.

As described above in detail, according to the present invention, a private key and a public key of a trader, which are necessary for bit coin transaction, are stored in a smart card possessed by a trader other than the web, There is an effect that a method is provided.

Further, there is provided an advantage of providing a bit coin transaction method using a public key and a private key stored in a smart card enabling a bit coin transaction with enhanced security using an existing infrastructure without investing an additional cost .

While the present invention has been described in connection with what is presently considered to be preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. In addition, it is a matter of course that various modifications and variations are possible without departing from the scope of the technical idea of the present invention by anyone having ordinary skill in the art.

10: Bit Coin Transaction Management Server
20: Transaction terminal
30: Smart card
40: Trading partner terminal
50: trading participant terminal
S10: Step of storing authentication key pair
S20: Transaction authentication phase
S22: Step of entering trader identification information
S24: Transmitter identification information transmission step
S26: Trader identification step
S28: Authentication result information transmission step
S40: Bit coin transaction information input step
S50: Private Key Transfer Phase
S60: Bit coin transaction information encryption step
S70: Bit coin transaction information broadcasting step

Claims (8)

A bitcoin transaction method using a public key and a private key stored in a smart card,
An authentication key pair storing step of storing, in a smart card of the trader, an authentication key pair composed of a public key and a private key of a trader issued from the bit coin transaction management server;
A bit coin transaction information input step of inputting bit coin transaction information including a public key of a counter party to a transaction terminal;
A private key transmission step of transmitting the private key of the trader stored in the smart card to the transaction terminal;
A bit coin transaction information encryption step in which the transaction terminal encrypts the bit coin transaction information with the private key of the trader transmitted from the smart card; And
And a bit coin transaction information broadcasting step in which the transaction terminal broadcasts bit coin transaction information encrypted with the private key of the trader to a network managed by the bit coin transaction management server, And Bit - Coin Transaction Using Private Key. The method according to claim 1,
Wherein the authentication key pair storing step encrypts the private key of the trader issued from the bit coin transaction management server and stores the encrypted private key in a bit coin applet installed in the smart card, And Bit - Coin Transaction Using Private Key. The method according to claim 1,
After the authentication key pair storing step and before the bit coin transaction information inputting step,
Further comprising the step of authenticating a trader using the smart card from the bit coin transaction management server. The method of claim 3,
The trader authentication step
A transaction identification information input step of inputting transaction identification information composed of an ID and a password of the transaction to the transaction terminal;
A transaction identification information transmission step of the transaction terminal transmitting the transaction identification information to the bit-coin transaction management server;
Checking whether or not the bit-coin transaction management server refers to the member database to check whether the transaction is a legitimate trader registered; And
And transmitting the authentication result information to the transaction terminal, wherein the bit-coin transaction management server transmits authentication result information on the transaction to the transaction terminal. The method according to claim 1,
Wherein the private key transmission step wirelessly transmits the private key of the trader stored in the smart card to the transaction terminal by bringing the smart card storing the private key of the trader close to the transaction terminal , A bit coin transaction method using a public key and a private key stored in a smart card. The method according to claim 1,
Characterized in that the transaction terminal is a mobile terminal equipped with a bit coin transaction application supporting bit coin transaction and supporting near field communication (NFC) with the smart card. Bit coin transaction method using key and private key. The method according to claim 1,
Characterized in that the transaction terminal is a computer having a bit coin transaction program connected to a card reader supporting short-range wireless communication or wired communication with the smart card and supporting a bit coin transaction, And Bit - Coin Transaction Using Private Key. The method according to claim 1,
Wherein the transaction terminal is an automatic teller machine (ATM) that supports a bit-coin transaction and a short-range wireless communication with the smart card while the bit coin transaction program is always running. A method of bit coin transaction using stored public key and private key.

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