KR20190115552A - Method for Providing Multiple Cryptocurrency Trade by using Smart Contract based on Blockchain - Google Patents

Abstract

The present invention relates to a method of providing a multi-cryptocurrency transaction using a blockchain-based smart contract. The method, which is executed through a management server managing cryptocurrency transactions, includes the following steps of: conducting a procedure of registering a smart contract including a program code in a node device installed on a blockchain network; determining withdrawal target e-wallet information and a withdrawal target cryptocurrency unit; confirming block identification information for identifying a block to be connected with the withdrawal target e-wallet information and the withdrawal target cryptocurrency unit; and generating transaction information corresponding to a state in which the withdrawal target cryptocurrency unit is withdrawn and storing the information in a designated storage medium.

Description

Method for Providing Multiple Cryptocurrency Trade by using Smart Contract based on Blockchain}

The present invention provides a cryptocurrency transaction using a blockchain-based smart contract as a medium or medium for implementing a designated cryptocurrency transaction.

Smart Contract is a concept proposed by Nick Szabo in 1994. After programming the terms and conditions of a contract using a designated programming language, the contract is automatically displayed when the terms are met. Is a technology to run with. However, since digital materials such as smart contracts can be easily manipulated or forged in a network environment, smart contracts exist for a while only as a concept and cannot be used for concrete services. As it is applied, it is used for concrete services.

The first (or primitive) blockchain-based smart contract is a Bitcoin script applied to Bitcoin. However, Bitcoin scripts had limitations such as not being able to use loops and managing information other than Bitcoin balance. Thus, on July 30, 2015, Ethereum, a blockchain platform supporting smart contracts that can use loops and manage various information and states, was developed by Vitalik Buterin. All blockchain platforms developed or under development support smart contracts by default.

Meanwhile, a method of acquiring a cryptocurrency implemented through a blockchain uses a P2P-based cryptocurrency transaction between valid electronic wallets on a blockchain network (e.g., recalls a cryptocurrency stored in another valid electronic wallet on a blockchain network). How to transfer to a valid electronic wallet on the blockchain network, etc.), and how to use exchange-based cryptocurrency trading that trades cryptocurrencies according to the cryptocurrency exchange's designated cryptocurrency trading procedures (e.g., a user joins a cryptocurrency exchange) Create an exchange wallet in your own name, and then purchase the cryptocurrency traded in the cryptocurrency exchange using the real currency owned by the user with the exchange wallet in the user's name), and the node that implements the blockchain network. A device (e.g., miner) can be equipped to Thereafter, there is a mining method of receiving cryptocurrency corresponding to the reward of mining with an electronic wallet, and an exchange-based P2P cryptocurrency transaction that transfers a cryptocurrency traded through a cryptocurrency exchange to a valid electronic wallet on a blockchain network. There is a way.

Meanwhile, a method of acquiring cryptocurrency implemented through blockchain is a P2P-based cryptocurrency transaction method that generates a valid electronic wallet on the blockchain network and then transfers the cryptocurrency stored in another valid electronic wallet on the blockchain network. Exchange-based cryptocurrency trading method in which a user registers with a cryptocurrency exchange, creates an exchange wallet in his name, and then purchases the cryptocurrency traded in the cryptocurrency exchange using the real wallet using the real currency. And a mining method including a node device (for example, a mining machine) that implements a blockchain network, performs a mining procedure, and receives a cryptocurrency corresponding to the mining reward with an electronic wallet, and a cryptocurrency exchange. Receive cryptocurrency traded through a valid electronic wallet on the blockchain network Raeso there is a password-based P2P currency trading system.

A typical cryptocurrency exchange does not provide a P2P based cryptocurrency between valid electronic wallets on the blockchain network, but creates one or more valid exchange side electronic wallets on the blockchain network and uses the P2P based cryptocurrency trading scheme. After storing the cryptocurrency of the designated unit in the electronic wallet on the exchange side through the cryptocurrency unit stored in the electronic wallet on the exchange side, using the ledger of the exchange in the cryptocurrency exchange, Provides exchange / purchase-based exchange-based cryptocurrency trading with real currency between exchange wallets under each member's name.

The general exchange-based cryptocurrency trading is not a real cryptocurrency transaction performed through a real blockchain network, but a cryptocurrency transaction virtually implemented through an exchange ledger inside the cryptocurrency exchange. Is not reflected in the distributed ledger of the node device that implements the blockchain network. Therefore, when the exchange ledger of the cryptocurrency exchange or the exchange wallet of each member is hacked, even if the cryptocurrency stored in the electronic wallet on the exchange side is not stolen, the ownership of each member of the cryptocurrency stored in the electronic wallet on the exchange side is verified. I have a problem that I can't.

On the other hand, when a user requests a transfer of cryptocurrency from a user's name exchange wallet created on a cryptocurrency exchange to a valid receiving electronic wallet on the blockchain network, the cryptocurrency exchange is a blockchain associated with an exchange wallet of the user's name. An exchange-based P2P cryptocurrency transaction may be performed to identify an exchange-side electronic wallet on a network and to transfer cryptocurrency from the exchange-side electronic wallet to the receiving side electronic wallet through the blockchain network. Although the transaction history of the exchange-based P2P cryptocurrency transaction is reflected in the distributed ledger on the blockchain network, the transaction history reflected in the distributed ledger is on the exchange wallet of the user name created on the cryptocurrency exchange and on the blockchain network. This is not a transaction between the receiving electronic wallet, but a transaction between the exchange electronic wallet and the receiving electronic wallet on the blockchain network.

On the other hand, for P2P-based cryptocurrency transactions, a valid electronic wallet must be generated on the blockchain network as described above, and a key pair of a public key and a private key is generated in the process of generating the electronic wallet. On the other hand, in order to transfer the cryptocurrency to the electronic wallet through the blockchain network, only the public key of the electronic wallet needs to be disclosed, but when transferring the cryptocurrency stored in the electronic wallet to another electronic wallet, the individual of the electronic wallet You must perform a signature using a key. In other words, if there is a private key of an electronic wallet created on the blockchain network, the cryptocurrency stored in the electronic wallet can be transferred to another electronic wallet through the blockchain network at any time.

Meanwhile, since the exchange-side electronic wallet for exchange-based cryptocurrency trading of the cryptocurrency exchange is also an electronic wallet created on the blockchain network, the cryptocurrency stored in the electronic wallet of the exchange side simply needs to steal the private key of the electronic wallet. Money can be sent to other electronic wallets at any time through the blockchain network. Even if the private key of the exchange wallet is stored in an offline storage device that is not connected to the network, if the private key of the exchange wallet is not connected to the network at any time, the private key of the exchange wallet is connected to the network at any time. In this case, it has a fatal problem that all the cryptocurrencies stored in the electronic wallet on the exchange side for the exchange-based cryptocurrency trading of the cryptocurrency exchange can be stolen and stolen.

In fact, on January 26, 2018, Coincheck, Japan's major cryptocurrency exchange, used the private key of the exchange's electronic wallet while connecting to the network to use cryptocurrency worth about 570 billion won of 260,000 members. A stolen hacking incident occurred. One way to solve this private key hacking problem is to store the private key of the electronic wallet in an offline storage device, proceed offline until the process of using the private key, and then go online to switch the private key through the blockchain network. The procedure after use is to proceed. While this method can be effectively applied to simple P2P-based cryptocurrency trading with no time limit for trading, the exchange side electronic wallet that has to process tens or tens of thousands of exchange-based P2P cryptocurrency transactions in each block generation cycle. It is technically difficult to apply to private keys.

An object of the present invention is a method executed by an operation server operating a cryptocurrency transaction, the deposit function unit receiving a designated cryptocurrency unit from a valid electronic wallet on a designated blockchain network, and a node device on the blockchain network. A reference function unit that checks valid withdrawal target electronic wallet information and a withdrawal target cryptocurrency unit on the blockchain network with reference to a preset reference address that can be referred to through the check; A first step of performing a procedure of registering a smart contract including a program code for implementing a withdrawal function to withdraw money units in M (M≥2) node devices provided on the blockchain network; Withdrawal target electronic wallet to withdraw cryptocurrency deposited in the smart contract Identifying a block to be associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit based on the second step of determining the information and the withdrawal target cryptocurrency unit and the block related information identified in association with the node device on the blockchain network; And a fourth step of registering and storing the determined to-be-extracted electronic wallet information, the to-be-extracted cryptocurrency unit and the block identification information in a preset reference address area, and on the blockchain network. A fifth step of checking a state in which the withdrawal target cryptocurrency unit associated with the block identification information is withdrawn by the withdrawal target electronic wallet associated with the block identification information through the smart contract; Through the withdrawal target electronic wallet through which the withdrawal target cryptocurrency unit is withdrawn The multi-currency transaction using the blockchain-based smart contract includes a sixth step of generating transaction information corresponding to the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet and storing the transaction information in a designated storage medium. In providing a method.

In the method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, a method for executing a cryptocurrency transaction is executed through an operation server operating a cryptocurrency transaction, and deposits a designated cryptocurrency unit from a valid electronic wallet on a designated blockchain network. A reference function unit which checks valid withdrawal target electronic wallet information and withdrawal target cryptocurrency unit on the blockchain network with reference to a receiving deposit function unit and a preset reference address that can be referred through the node device on the blockchain network; M (M≥2) units provided on the blockchain network with a smart contract including a program code for implementing a withdrawal function for withdrawing the identified withdrawal target cryptocurrency unit with the withdrawal target electronic wallet. A first step of performing a procedure of registering to a node device; The withdrawal object based on the second step of determining the withdrawal target electronic wallet information to withdraw the cryptocurrency deposited in the smart contract and the withdrawal target cryptocurrency unit and the block related information confirmed in association with the node device on the blockchain network. A third step of identifying electronic wallet information and block identification information identifying a block to be linked to the withdrawal target cryptocurrency unit; and the determined withdrawal target electronic wallet information, the withdrawal target cryptocurrency unit, and the block identification information in a predetermined reference address area. And a withdrawal target cryptocurrency unit associated with the block identification information as a withdrawal target electronic wallet associated with the block identification information through the smart contract with reference to a node device provided on the blockchain network. A fifth step of checking a state in which the service is drawn out and through the smart contract A sixth step of generating transaction information corresponding to a state in which the withdrawal target cryptocurrency unit is withdrawn with the withdrawal target electronic wallet and storing the withdrawal target cryptocurrency unit in a designated storage medium; Characterized in that it comprises a.

In the method for providing multiple cryptocurrency transactions using the blockchain-based smart contract according to the present invention, after registering the smart contract with M node devices on the blockchain network, the smart contract is referred to by referring to the node devices on the blockchain network. Confirming a state in which the cryptocurrency unit designated as is newly deposited, and when the cryptocurrency unit designated as the smart contract is newly deposited, generating and specifying transaction information corresponding to the state where the cryptocurrency unit designated as the smart contract is deposited And storing the data in a storage medium.

In the method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, the second step may include: i (i≥1) withdrawal target electronic wallet information and i withdrawal target encryption on the blockchain network; And determining a set of monetary units, wherein the fourth step registers and stores the determined set of i withdrawal target electronic wallet information, i set of withdrawal target cryptocurrency units, and the block identification information in the reference address area. Characterized in that it comprises a step.

In the method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, the block identification information includes information for identifying a specific block to be generated (or generated) through the blockchain network, or the blockchain. And including information identifying a specific block to be generated in the future after the block generated (or to be generated) through the network.

In the method for providing a multiple cryptocurrency transaction using a blockchain-based smart contract according to the present invention, when the withdrawal target electronic wallet information is determined, a predetermined verification is generated by generating verification information for validating the withdrawal target electronic wallet information. And storing the registration in the address area.

In the method for providing a multiple cryptocurrency transaction using a blockchain-based smart contract according to the present invention, when the withdrawal target cryptocurrency unit is determined, a predetermined verification is generated by generating verification information for validating the withdrawal target cryptocurrency unit. And storing the registration in the address area.

In the method for providing multiple cryptocurrency transactions using the blockchain-based smart contract according to the present invention, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined, And generating and storing the verification information for validating the registration information in the preset verification address area.

In the method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, the verification address is characterized by including the same address as the reference address.

In the method for providing multiple cryptocurrency transactions using the blockchain-based smart contract according to the present invention, the verification address is characterized by including an address different from the reference address.

In the method for providing multiple cryptocurrency transactions using the blockchain-based smart contract according to the present invention, when the withdrawal target electronic wallet information is determined, among the exchange wallets created on the designated cryptocurrency exchange, the determined withdrawal target electronic wallet information is linked. Checking exchange wallet information and registering the linked exchange wallet information, and storing linkage status check information for confirming a linkage state between the withdrawal target electronic wallet information and the exchange wallet information in a preset confirmation address area; It is characterized in that it further comprises;

In the method for providing multiple cryptocurrency transactions using the blockchain-based smart contract according to the present invention, when the withdrawal target electronic wallet information is determined, it is linked with the determined withdrawal target electronic wallet information among the user information registered on the designated cryptocurrency exchange. And confirming the linked user information, and if the linked user information is checked, registering and storing the linked status check information for confirming the linked state of the withdrawal target electronic wallet information and the user information in a preset confirmation address area. Characterized in that made.

In the method for providing multiple cryptocurrency transactions using the blockchain-based smart contract according to the present invention, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined, the determined withdrawal among the exchange wallets created on a designated cryptocurrency exchange is determined. Confirming the information on the exchange wallet associated with the target electronic wallet information; and checking the information on the cryptocurrency balance of the exchange wallet associated with the withdrawal target electronic wallet information, when the information on the exchange wallet information is confirmed; And registering the stored cryptocurrency balance information in an area.

In the method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, the confirmation address includes the same address as the reference address.

In the method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, the confirmation address includes an address different from the reference address.

In the method for providing multiple cryptocurrency transactions using blockchain based smart contract according to the present invention, one or more pieces of information including at least one piece of information (or at least partial information of at least one piece of information) to be stored in the reference address area are used. Generating a designated verification code and registering and storing the generated verification code in an authentication address area other than the reference address.

A method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, comprising: at least one information (or at least partial information of at least one information) to be stored in an authentication address area other than the reference address Generating an authentication code to be stored in the reference address area by using one or more information; and registering and storing the generated authentication code in the reference address area.

In the method for providing a multiple cryptocurrency transaction using a blockchain-based smart contract according to the present invention, generating a designated authentication code to be stored in the reference address area and registering and storing the generated authentication code in the reference address area. And registering and storing the verification code matched with the authentication code in an authentication address area other than the reference address.

In the method for providing multiple cryptocurrency transactions using a blockchain-based smart contract according to the present invention, the fifth step may include the withdrawal target electronic wallet information and the withdrawal information stored in a designated storage area with reference to a node device on the blockchain network. And checking the cryptocurrency withdrawal information including the cryptocurrency unit withdrawn into the target electronic wallet.

In the method for providing multiple cryptocurrency transactions using the blockchain-based smart contract according to the present invention, the designated storage area is a storage area for storing the state of the smart contract, or a separate storage set for storing the cryptocurrency withdrawal information. It comprises a region.

According to the present invention, a blockchain-based smart contract that is capable of depositing a designated cryptocurrency but is not able to withdraw the deposited cryptocurrency arbitrarily without resorting to pre-coded rules or functions, and forgery of the coded rules or functions is impossible. By providing cryptocurrency transactions using as a medium or medium that implements a specified cryptocurrency transaction, the hijacking of cryptocurrency is performed unless the hacking server that provides cryptocurrency transactions with more than half of the node devices provided on the blockchain network. There is an advantage in providing a secure and reliable cryptocurrency trading platform that is impossible.

1 is a diagram showing the configuration of a system for providing cryptocurrency transactions using blockchain-based smart contracts according to an embodiment of the present invention.
2 is a diagram illustrating a functional configuration of a blockchain based smart contract providing a cryptocurrency trading platform according to an embodiment of the present invention.
3 is a diagram illustrating a process of registering a smart contract with a node device of a blockchain network according to an embodiment of the present invention.
4 is a diagram illustrating an information registration process for cryptocurrency transactions according to an embodiment of the present invention.
5 is a diagram illustrating a cryptocurrency deposit process with a smart contract according to an embodiment of the present invention.
FIG. 6 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to the first embodiment of the present invention.
7 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to a second embodiment of the present invention.
8 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to a third embodiment of the present invention.
9 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to a fourth embodiment of the present invention.
FIG. 10 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to the fifth embodiment of the present invention.
11 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to a sixth embodiment of the present invention.
12 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to the seventh embodiment of the present invention.
FIG. 13 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to an eighth embodiment of the present invention.
14 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract according to the ninth embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below.

In other words, the following embodiments correspond to the preferred embodiment of the union form among a number of embodiments of the present invention, the embodiment or omit a specific configuration (or step) in the following embodiment, or a specific configuration (or step) An embodiment of dividing a function implemented in a specific configuration (or step), or an embodiment, a specific configuration (or step) incorporating a function implemented in two or more configurations (or steps) into one configuration (or step). Embodiments to replace the order of operation, etc., unless explicitly stated otherwise in the following examples will be apparent that all belong to the scope of the present invention. Therefore, it will be clearly stated that various embodiments corresponding to a subset or a filter based on the following examples can be divided retrospectively according to the filing date of the present invention.

In addition, in the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. Terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users or operators. Therefore, the definition should be made based on the contents throughout the present invention.

As a result, the technical spirit of the present invention is determined by the claims, and the following examples are one means for efficiently explaining the technical spirit of the present invention to those skilled in the art to which the present invention pertains. It is only.

1 is a diagram illustrating a configuration of a system for providing a cryptocurrency transaction using a blockchain based smart contract 210 according to an embodiment of the present invention.

More specifically, Figure 1 is a blockchain-based smart that can deposit a specified cryptocurrency from an electronic wallet on the blockchain network 200, but cannot withdraw the deposited cryptocurrency arbitrarily without resorting to pre-coded rules or functions. As the contract 210 is used as a medium for exchange-based cryptocurrency trading or as an escrow medium for cryptocurrency trading between electronic wallets, it is shown a configuration of a system for providing cryptocurrency trading, which is common in the art. Those skilled in the art may refer to and / or modify this drawing 1 to infer various implementation methods for the configuration of the system (eg, some implementations are omitted, subdivided, or combined). The present invention includes all the implementation methods inferred, and as shown in FIG. Indicated only exemplary method is not limited that technical feature.

The system of the present invention includes a user terminal 180 used by a user for trading a blockchain-based cryptocurrency, and an M provided on a designated blockchain network 200 that supports a smart contract 210 (Smart Contract). M≥2) node devices 205 and program codes executable through the node devices 205 provided on the blockchain network 200, and at least valid electronic devices on the blockchain network 200. A function to confirm the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit by referring to the function of depositing a cryptocurrency from a wallet and a predetermined reference address, and withdraw the identified withdrawal target cryptocurrency unit with the checked withdrawal target electronic wallet. After registering or distributing the smart contract 210 having the function to the M node apparatus 205 on the blockchain network 200, the smart contract And an operation server 100 having a function unit for processing a designated withdrawal target cryptocurrency unit among the cryptocurrencies deposited at 210 to withdraw the designated withdrawal target electronic wallet, and transacting a cryptocurrency with the user terminal 180. It further includes an exchange server 170 for providing an interface of a cryptocurrency exchange for. On the other hand, the operation server 100 may be implemented in a separate server form in conjunction with the exchange server 170 provided in the cryptocurrency exchange, or both may be implemented in the form of internal software of the exchange server provided in the cryptocurrency exchange. The present invention is not limited by the embodiment implementing the operation server 100 or the physical server configuration or name of the operation server 100. Hereinafter, for convenience of the present invention, FIG. 1 illustrates the operation server 100 in the form of a server interworking with the exchange server 170 to describe the features of the present invention.

The user terminal 180 is a generic term for a terminal used by a user to trade blockchain-based cryptocurrency, a wired terminal such as a computer and a laptop connected to a meteor network, a mobile phone, a smartphone, a tablet PC, a laptop connected to a wireless network. It includes at least one of the wireless terminal, such as. Preferably, the user terminal 180 may be installed an application for one or more cryptocurrency trading of P2P-based cryptocurrency trading, exchange-based cryptocurrency trading, exchange-based P2P cryptocurrency trading, depending on the implementation method Some configurations may be implemented in a web manner. Hereinafter, even if not mentioned otherwise, it will be apparent that the functions mainly described by the user terminal 180 are implemented through an app or a web method installed in the user terminal 180.

The exchange server 170 is a generic term for a server that provides an interface of a cryptocurrency exchange for cryptocurrency trading to the user terminal 180, and B (B≥1) blockchain networks implementing each target cryptocurrency. Interworking with each note device provided on the (200), the user terminal 180 provides an interface for trading (eg, sell / buy) of the transaction target cryptocurrency.

The operation server 100 is a general term for a server having a function of providing a cryptocurrency transaction using a blockchain-based smart contract 210 as a medium for exchange-based cryptocurrency trading or as an escrow medium for cryptocurrency transactions between electronic wallets. As an exchange server 170 provided in a cryptocurrency exchange, the server may be embodied in the same server form, or implemented in the form of a server inside an exchange that interworks with the exchange server 170, or provided in one or more cryptocurrency exchanges. 170 may be implemented in the form of a server of a separate operator interlocked with.

According to an embodiment of the present invention, the user terminal 180 inputs user information to be registered as a member of a cryptocurrency exchange and provides the exchange server 170 (or the operation server 100) to the exchange server ( 170 (or the operation server 100) performs the authentication process for the user through at least one user terminal 180 based on at least some information of the user information to store the authenticated user information in the designated storage medium Manage.

On the other hand, the exchange server 170 (or the operation server 100) is linked to the financial company server (not shown) specified on the basis of the result of the user authentication for the user trading account (for example, for cryptocurrency trading) A virtual account for cryptocurrency transactions or a real account according to an implementation method), and when the transaction account under the user name is opened, the designated information is stored in association with the user information and the transaction account information under the established user name. Store and manage on media.

According to an embodiment of the present invention, the user terminal 180 generates an exchange wallet of a user name for exchange-based cryptocurrency trading for a designated cryptocurrency implemented through a designated blockchain network 200, When the exchange wallet is created, the user information and / or the trading account information of the user name are stored in a designated storage medium in association with the exchange wallet information of the user name and managed.

According to an embodiment of the present invention, the user terminal 180 is a blockchain network 200 for P2P-based cryptocurrency trading or exchange-based P2P cryptocurrency trading for a designated cryptocurrency implemented through a designated blockchain network 200. According to the electronic wallet creation procedure defined in the above) generates a valid electronic wallet that operates effectively on the blockchain network 200, P2P-based cryptocurrency trading or exchange-based P2P cryptocurrency trading in the process of generating the electronic wallet Public and private keys for are generated. Preferably, the user terminal 180 discloses the generated public key through the blockchain network 200 or the exchange server 170 (or the operation server 100), but for secure storage of the private key. It is a good idea to store them safely in media or on a storage device separate from the network.

When a valid electronic wallet that is effectively operated on the blockchain network 200 is generated through the user terminal 180 or an electronic wallet that is validly generated on the blockchain network 200 is confirmed, the user terminal 180 When the valid electronic wallet information on the blockchain network 200 is transmitted to the exchange server 170 (or the operation server 100), the exchange server 170 (or the operation server 100) is the user terminal ( Receives valid electronic wallet information (eg, information including a public key of the electronic wallet) on the blockchain network 200 through 180. Meanwhile, the process of generating a valid electronic wallet on the blockchain network 200 according to the method may be performed through the intervention of the exchange server 170 (or the operation server 100), in which case the exchange server ( 170 (or the operation server 100) is a valid electronic wallet information (for example, the public key of the electronic wallet) on the blockchain network 200 generated through the intervention of the exchange server 170 (or the operation server 100) Information including the) can be confirmed.

According to the method of the present invention, the exchange server 170 (or the operation server 100) may perform a procedure for validating the validity of the received / confirmed electronic wallet information. For example, the exchange server 170 (or the operation server 100) is a smart cryptocurrency deposited in the electronic wallet corresponding to the electronic wallet information received / confirmed through the user terminal 180 is smart Request the deposit processing to the contract 210 and / or perform a designated procedure for the deposit processing, or send a predetermined cryptocurrency to the electronic wallet corresponding to the received / confirmed electronic wallet information, and then the smart contract. A request for deposit processing and / or a specified procedure for the deposit processing may be performed at 210, and the electronic wallet information corresponding to the electronic wallet having a predetermined cryptocurrency deposited at the smart contract 210 may be stored in the blockchain network. Valid electronic wallet on 200 can be verified.

The exchange server 170 (or the operation server 100) may store the received / verified electronic wallet information in a storage medium in association with the user information and / or exchange wallet information of the user name. On the other hand, the electronic wallet generated on the blockchain network 200 is in a state where the owner cannot be identified, but the electronic wallet information is stored in the user information of the exchange server 170 (or the operation server 100) and / or the user. By storing in association with exchange wallet information of the name, the electronic wallet information can be regarded as the real name confirmed in the name of the user.

According to an embodiment of the present invention, the exchange server 170 is opened on the cryptocurrency exchange among P2P-based cryptocurrency transactions executed through the user terminal 180 based on the electronic wallet on the designated blockchain network 200. The function to check the transaction history of cryptocurrency transactions related to the exchange wallet information of the registered user name and to store and manage them on the exchange ledger implemented in the designated storage medium, and the exchange between the exchange wallets of each user name according to the designated cryptocurrency trading procedure. Provides cryptocurrency based trading and checks the transaction history of the exchange based cryptocurrency trading and stores and manages it on the exchange ledger implemented in the designated storage medium, exchange wallet of the user name created on the cryptocurrency exchange and designated block chain Provide and exchange exchange-based P2P cryptocurrency transactions between electronic wallets on the network 200 It performs one or more of the functions of checking the transaction history of lasso-based P2P cryptocurrency transactions and storing and managing them in the exchange ledger implemented in the designated storage medium. However, those of ordinary skill in the art to which the present invention pertains will understand the general configuration of providing the above transactions according to the respective procedures in the cryptocurrency exchange in addition to the method according to the present invention, and thus, detailed description thereof. Will be omitted.

Referring to FIG. 1, the operation server 100 includes a blockchain interworking unit 105 interoperating with B (B≥1) blockchain networks 200 operating according to a designated blockchain algorithm.

Blockchain is a distributed processing technology that distributes and stores all data managed by all nodes participating in the network according to a specified blockchain algorithm. After the blockchain is implemented, blockchains containing at least hundreds of modified blockchain algorithms have been or are being developed. However, since the blockchain algorithm is a distributed processing technology that is implemented in a peer-to-peer (P2P) manner rather than a server-intensive method, the blockchain network 200 in which peers participate should be implemented. In the present invention, a computer, a device, a server, or the like corresponding to a peer participating in the blockchain network 200 is collectively referred to as a 'node device 205'.

According to an embodiment of the present invention, the node device 205 on the blockchain network 200 has a function of storing a transaction block configured on the basis of a blockchain algorithm provided in the designated blockchain network 200 in a designated storage area; A function of collecting transaction details of a cryptocurrency transaction broadcasted to the blockchain network 200, generating a new block by blocking the collected predetermined number of transactions, and for chaining the generated new block. A function of generating at least one hash value and a valid blockchain verification value for chaining and verifying the integrity of the generated new block (e.g., Proof-Of-Work, Proof-Of-Stake, CBB) (Consensus-By-Bet) or the like, and applies the blockchain verification value to the new block, and the verification target block including the hash value or the blockchain verification value to another node device 205. A function of requesting an agreement to be a valid block, a function of verifying the verification block to be a valid block using a hash value or a block chain verification value of the verification object block requested to be agreed by another node apparatus 205, and A blockchain program that performs a function defined by a blockchain algorithm included in the blockchain network 200 is installed and executed by chaining a valid block to a transaction block stored in a designated storage area, and executing a specific blockchain network ( All node devices 205 operating on the server 200 are preferably installed with the same version of the blockchain program to which the same blockchain algorithm is applied.

The blockchain interworking unit 105 interworks with B (B≥1) blockchain networks 200 operating according to a designated blockchain algorithm, and preferably supports b (Smart Contract) b ( Interworking with 1≤b≤B) blockchain network 200. According to an embodiment of the present invention, each blockchain network 200 is distributed, when M (M≥2) node devices 205 for implementing the blockchain network 200 are provided, the blockchain interworking unit 105 is provided on each blockchain network 200 through at least one node device 205 (eg, a node device 205 operated by a cryptocurrency exchange) provided in each blockchain network 200. It can interoperate with the M node devices 205. Hereinafter, for convenience, the features of the present invention will be described with reference to an embodiment in which the blockchain interworking unit 105 interworks with a designated blockchain network 200 supporting the smart contract 210.

Referring to FIG. 1, the operation server 100 may include a deposit function unit 215 that receives a designated cryptocurrency unit from at least one electronic wallet among a plurality of valid electronic wallets on a designated blockchain network 200, and Confirm valid withdrawal target electronic wallet information and withdrawal target cryptocurrency unit on the blockchain network 200 to withdraw the cryptocurrency by referring to a preset reference address that can be referred through the node device 205 on the blockchain network 200. The smart contract 210 includes a reference function unit 220 and a program code for implementing the withdrawal function unit 225 for withdrawing the identified withdrawal target cryptocurrency unit with the withdrawal target electronic wallet. The controller performs a procedure of registering the identified smart contract 210 with M (M≥2) node devices 205 provided on the blockchain network 200. It is provided with a rack registration unit 110, the smart contract 210 has a deposit function unit 215 for depositing a designated cryptocurrency unit from at least one electronic wallet of a plurality of valid electronic wallets on the block chain network 200. It includes more.

A deposit function unit 215 for depositing a designated cryptocurrency unit from at least one electronic wallet among a plurality of valid electronic wallets on the designated blockchain network 200 at a designated registration terminal (not shown), and the blockchain network 200 Reference function unit 220 for checking valid withdrawal target electronic wallet information and withdrawal target cryptocurrency unit on the blockchain network 200 to withdraw cryptocurrency by referring to a preset reference address that can be referred through the node device 205 on the network device 220. ) And a smart contract 210 including a program code for implementing a withdrawal function unit 225 for withdrawing the identified withdrawal target cryptocurrency unit with the withdrawn withdrawal target electronic wallet and verifying it through a designated verification procedure. After registration, the contract registration unit 110 receives the smart contract 210 from the registration terminal, the block Which performs the interworking unit 105 in association with the process of registering the smart distribution contract 210, the check on the M node device 205 that is provided on the block chain network 200. The smart contract 210 registered in the node device 205 on the blockchain network 200 is not modified without the rules coded in the smart contract 210, and is distributed using M node devices 205. It is not forged by storage.

Referring to FIG. 1, the operation server 100 registers the smart contract 210 with M node devices 205 on a designated blockchain network 200, and then registers the smart contract 210 with the node devices on the blockchain network 200. Referring to (205) when the deposit state confirmation unit 115 for confirming the state in which the cryptocurrency unit designated by the smart contract 210 is newly deposited, and the cryptocurrency unit designated by the smart contract 210 is newly deposited The transaction information management unit 160 generates transaction information corresponding to a state where the cryptocurrency unit designated as the smart contract 210 is deposited, stores the transaction information in a designated storage medium, and manages the transaction information.

According to an embodiment of the present invention, the deposit function unit 215 of the smart contract 210 is a contract for depositing a designated cryptocurrency unit from at least one electronic wallet among a plurality of valid electronic wallets on the blockchain network 200. Contains the address. The user terminal 180 uses a private key of a valid electronic wallet generated on the blockchain network 200 to deposit a designated cryptocurrency unit among the cryptocurrencies stored in the electronic wallet as the contract address. A transaction history of a currency transaction is generated and broadcasted to the blockchain network 200, and each node device 205 on the blockchain network 200 corresponds the cryptocurrency unit to the contract address according to a designated blockchain algorithm. The smart contract 210 performs the procedure of depositing, and the deposit function unit 215 of the smart contract 210 receives the designated cryptocurrency unit from the electronic wallet.

Meanwhile, according to the embodiment of the present invention, the smart contract 210 stores electronic wallet information that deposits a designated cryptocurrency and cryptocurrency deposit information including the deposited cryptocurrency unit in a designated storage area of the node device 205. It further includes a program code for implementing the storage function 230 to store.

When the cryptocurrency unit designated as the smart contract 210 is deposited from a valid electronic wallet on the blockchain network 200 through the deposit function 215 of the smart contract 210, the storage function of the smart contract 210 is deposited. The unit 230 checks the electronic wallet information that deposits the cryptocurrency unit and the cryptocurrency deposit information including the deposited cryptocurrency unit and stores the information in the designated storage area. Preferably, the storage function 230 of the smart contract 210 is a storage area for storing the state of the smart contract 210 of the storage area of each node device 205, or to store the cryptocurrency deposit information. The cryptocurrency deposit information may be stored and managed in a separate storage area. According to an embodiment, the storage function unit 230 of the smart contract 210 may store a storage area (eg, a transaction block of a cryptocurrency) that stores transactions of cryptocurrencies among storage areas of each node device 205. Area) to store and manage the cryptocurrency deposit information.

The deposit state checking unit 115 refers to at least one node device 205 of the node devices 205 on the blockchain network 200 through the blockchain interworking unit 105, and the blockchain network 200. The cryptocurrency deposit information for newly depositing the cryptocurrency unit designated by the smart contract 210 is stored in the designated storage area of the node device 205 from the electronic wallet. If the cryptocurrency unit designated as the smart contract 210 is newly deposited, the transaction information management unit 160 checks the newly stored cryptocurrency deposit information in the designated storage area of the node device 205, and the confirmed Electronic wallet information included in cryptocurrency deposit information and transaction information including cryptocurrency units are generated and stored in a designated storage medium for management.

Referring to FIG. 1, the operation server 100 determines the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit to withdraw the cryptocurrency deposited in the smart contract 210 in association with a designated cryptocurrency transaction procedure. A withdrawal information determination unit 120 and a withdrawal information registration unit 140 and 125 for registering and storing the determined withdrawal target electronic wallet information and withdrawal target cryptocurrency unit in a preset reference address area; The smart contract 210 driver 130 performs a procedure of driving the smart contract 210 registered in the node device 205 on the 200.

The withdrawal information determination unit 120 withdraws target electronic wallet information to withdraw a designated cryptocurrency unit among the cryptocurrencies deposited in the smart contract 210 in response to a designated cryptocurrency transaction request through the user terminal 180 and the Determining the withdrawal target cryptocurrency unit to be withdrawn to the withdrawal target electronic wallet, the withdrawal information register 140, 125 is a reference to the smart contract 210 registered in the node device 205 on the blockchain network 200 The withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are registered and stored in the reference address area set to be referred to through the function unit 220.

According to the first smart contract 210 based cryptocurrency trading embodiment of the present invention, the smart contract 210 exchanges the designated cryptocurrency between exchange wallets according to the designated cryptocurrency trading procedure at the designated cryptocurrency exchange. It can function as a cryptocurrency storage medium that stores and manages the cryptocurrencies required to provide cryptocurrency transactions. For example, when the cryptocurrency 10,000 issued through the designated blockchain network 200 is deposited in the smart contract 210, the cryptocurrency exchange that uses the smart contract 210 as a cryptocurrency storage medium is the smart contract ( It is possible to provide an exchange-based cryptocurrency trading in which designated cryptocurrency units among 10,000 cryptocurrencies deposited in 210 are exchanged between respective exchange wallets.

Meanwhile, in the first smart contract 210 based cryptocurrency trading embodiment, the withdrawal information determiner 120 corresponds to a block generation period of a block chain corresponding to the designated unit time (eg, the smart contract 210). Blockchain network 200 corresponding to the smart contract 210 among the cryptocurrency units deposited in the smart contract 210 among the transaction request information requested from the one or more user terminals 180 during the time). Check the one or more transaction request information requesting withdrawal with a valid electronic wallet on the), and withdraw the designated cryptocurrency unit among the cryptocurrency units deposited in the smart contract 210 based on the identified one or more transaction request information. A set of i (i≥1) withdrawal target electronic wallet information and i withdrawal target cryptocurrency units can be determined. In this case, the retrieval information registration unit 140 or 125 is a reference address area set to be referred to through the reference function unit 220 of the smart contract 210 registered in the node device 205 on the blockchain network 200. The determined i withdrawal target electronic wallet information and the set of i withdrawal target cryptocurrency unit can be stored, and the smart contract 210 driver 130 is stored in the node device 205 on the blockchain network 200. A procedure for driving the registered smart contract 210 may be performed.

The reference function unit 220 of the smart contract 210 may refer to the set of i withdrawal target electronic wallet information and i withdrawal target cryptocurrency unit stored in the reference address area. Meanwhile, the withdrawal function unit 225 of the smart contract 210 may perform a function of withdrawing the identified withdrawal target cryptocurrency unit with the withdrawn withdrawal target electronic wallet.

According to the second smart contract 210 based cryptocurrency trading embodiment of the present invention, the smart contract 210 may perform an escrow function for cryptocurrency trading between valid electronic wallets on the blockchain network 200. have. According to the present invention, when the escrow function is applied to a cryptocurrency transaction between electronic wallets, the cryptocurrency transaction is a sending-side cryptocurrency that sends a cryptocurrency unit designated as a predetermined escrow wallet in the sending-side electronic wallet that sends the cryptocurrency. It may be a combination of a transaction and a receiving side cryptocurrency transaction that receives a cryptocurrency unit designated as a receiving side electronic wallet in the escrow wallet. However, in the case of P2P-based cryptocurrency transactions between electronic wallets created on the blockchain network 200, the sending side cryptocurrency sends the cryptocurrency of the sending side electronic wallet to the receiving side electronic wallet on the blockchain algorithm structure. Although it is possible to provide a transaction (= P2P based cryptocurrency transaction), it is very important in the blockchain algorithm structure to implement a receiver-side cryptocurrency transaction that extracts the cryptocurrency of the sender's electronic wallet from the receiver and receives it with the receiver's electronic wallet. Difficult (or impossible). Therefore, a separate cryptocurrency exchange is a separate entity that provides escrow services. The exchange side electronic wallet created on the blockchain network 200 by intervening in the cryptocurrency transaction between electronic wallets is the electronic side of the sending side cryptocurrency transaction. The escrow function of cryptocurrency transactions between electronic wallets can be implemented only when the wallet is used as the wallet and the electronic wallet of the receiving side of the cryptocurrency transaction. On the other hand, the present invention may provide an escrow-based cryptocurrency transaction between electronic wallets using the smart contract 210 as an escrow medium for cryptocurrency transactions between electronic wallets to implement a recipient-side cryptocurrency transaction on a blockchain algorithm. .

Meanwhile, in the second smart contract 210 based cryptocurrency trading embodiment, the withdrawal information determiner 120 uses the smart contract 210 as an escrow medium among the transaction request information requested from the user terminal 180. Check the transaction request information requesting a cryptocurrency transaction between wallets or transaction request information convertible to cryptocurrency transactions between electronic wallets using the smart contract 210 as an escrow medium. If based on the transaction request information through the user terminal 180 (or the exchange server 170 or the operation server 100, etc. associated with the user terminal 180) corresponding to the sending side of the confirmed transaction request information A sending cryptocurrency transaction (eg, a cryptocurrency transaction that sends and deposits a cryptocurrency designated by the smart contract 210 in the sending electronic wallet) is processed to designate a designated cipher corresponding to the transaction request information to the smart contract 210. A monetary unit is deposited (or the designated cryptocurrency unit corresponding to the transaction request information is deposited in the smart contract 210 and received by the user terminal 180 corresponding to the receiving side of the confirmed transaction request information according to a specified procedure. After being informed to perform the side cryptocurrency transaction, the exchanger associated with the user terminal 180 (or the user terminal 180) corresponding to the receiving side of the transaction request information. (170) or the operation server 100, etc.) when the receiving side cryptocurrency transaction based on the transaction request information is requested, the withdrawal information determining unit 120 is a cryptocurrency unit deposited in the smart contract 210 Check the electronic wallet information of the receiving side of the transaction request information corresponding to the withdrawal target electronic wallet information and the cryptocurrency corresponding to the cryptocurrency unit (or the cryptocurrency unit specified in the transaction request information) deposited in the smart contract 210. The unit can be determined as the cryptocurrency unit to be withdrawn. In this case, the retrieval information registration unit 140 or 125 is a reference address area set to be referred to through the reference function unit 220 of the smart contract 210 registered in the node device 205 on the blockchain network 200. The withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit may be stored, and the smart contract 210 driver 130 may register the smart contract registered with the node device 205 on the blockchain network 200. The procedure of driving 210 may be performed.

Meanwhile, the reference function unit 220 of the smart contract 210 may refer to the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit stored in the reference address area. Meanwhile, the withdrawal function unit 225 of the smart contract 210 may perform a function of withdrawing the identified withdrawal target cryptocurrency unit with the withdrawn withdrawal target electronic wallet.

According to the method of the present invention, the withdrawal information determiner 120 is generated (or generated) through the blockchain network 200 with reference to the node device 205 provided on the blockchain network 200. Check the block-related information identifying the block. Preferably, the withdrawal information determiner 120 is to be included in the block number of the block included in the transaction block or the current transaction block immediately before referring to the node device 205 provided on the block chain network 200. Through the node device 205, block related information including a block number of a block being calculated may be checked. The withdrawal information determination unit 120 checks the block identification information for identifying the block to be associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit on the basis of the identified block-related information. Preferably, the withdrawal information determiner 120 determines (or schedules) a block corresponding to a time point to withdraw the determined withdrawal target cryptocurrency unit with the determined withdrawal target electronic wallet based on the identified block related information. The block identification information identifying the determined (or scheduled) block may be checked and set as the block identification information for identifying the block associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit. Preferably, the block identification information is information identifying a specific block generated (or to be generated) through the blockchain network 200 or after a block generated (or to be generated) through the blockchain network 200. It may include information identifying a particular block to be generated in the future. On the other hand, if the determined withdrawal target electronic wallet information and the block identification information for identifying the block to be associated with the withdrawal target cryptocurrency unit is confirmed, the withdrawal information registration unit 140, 125 is the withdrawal of the determined block identification information The smart contract 210 driver 130 may be stored in the reference address area in association with the target electronic wallet information and the withdrawal target cryptocurrency unit, and the smart contract 210 driver 130 is registered with the node device 205 on the blockchain network 200. A procedure for driving the smart contract 210 may be performed.

On the other hand, the reference function unit 220 of the smart contract 210 confirms block identification information identifying a block generated (or to be generated) through the blockchain network 200, and checks the reference by referring to the reference address. Check the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit associated with the block identification information. For example, when a plurality of withdrawal target electronic wallet information and a withdrawal target cryptocurrency unit associated with a plurality of block identification information are stored in the reference address area, the reference function unit 220 of the smart contract 210 stores the block. While checking the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit associated with the block identification information identifying the block currently generated or to be generated through the chain network 200, the previously created through the block chain network 200 It is preferable not to confirm (or ignore) the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the block identification information identifying the block of. Meanwhile, the reference function unit 220 of the smart contract 210 may check the block identification information for identifying the block associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit with reference to the reference address. The withdrawal function unit 225 checks whether a block generated (or to be generated) through the blockchain network 200 matches a block corresponding to the block identification information, and through the blockchain network 200. When the generated (or generated) block is matched with a block corresponding to the block identification information, the withdrawal target crypto wallet may be used to withdraw the withdrawal target cryptocurrency unit.

Referring to FIG. 1, the operation server 100 generates verification information for validating the validity of the electronic wallet information to be extracted and registers it in a preset verification address area, or validates the cryptographic currency unit for the withdrawal target. Create and store verification information for verifying the registration in the preset verification address area or generate verification information for validating the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit and register with the preset verification address region It further includes an information registration unit 140 for storing.

According to the first withdrawal information verification embodiment of the present invention, if the withdrawal target electronic wallet information is determined through the withdrawal information determination unit 120 to verify the validity of the withdrawal target electronic wallet information; Generate verification information for the verification information, and register and store the verification information in a preset verification address area. In this case, the verification function unit 235 of the smart contract 210 refers to the withdrawal target electronic wallet with reference to a preset verification address. The verification information for verifying the validity of the information may be checked, and the validity of the checked electronic wallet information may be verified based on the verified verification information. For example, the verification information may be a specified number of information including the withdrawal target electronic wallet information (or at least partial information) (eg, information corresponding to the time (or time) at which the withdrawal target electronic wallet information is determined and / or withdrawal. Information that further includes block identification information to be associated with the target electronic wallet information) may be included in the code generation algorithm. However, the present invention is not limited thereto, and the smart contract 210 is not limited thereto. The verification function unit 235 and the designated authentication unit (not shown) of the operation server 100 may include various kinds of information generated or extracted from a designated DB to authenticate the validity of the withdrawal target electronic wallet information. have.

Meanwhile, in the first withdrawal information verification embodiment, the verification function unit 235 of the smart contract 210 checks the verification information with reference to a preset verification address, and the withdrawal target electronic wallet based on the verified verification information. Information can be validated. According to the exemplary embodiment of the present invention, the withdrawal function unit 225 of the smart contract 210 is the withdrawal target electronics when the validity of the withdrawal target electronic wallet information is verified through the verification function unit 235. It is preferable to perform a function of withdrawing the withdrawal target cryptocurrency unit with a wallet.

According to a second withdrawal information verification embodiment of the present invention, when the withdrawal target cryptocurrency unit is determined through the withdrawal information determination unit 120, the information registration unit 140 verifies the validity of the withdrawal target cryptocurrency unit. Generate verification information for the verification information, and register and store the verification information in a preset verification address area. In this case, the verification function unit 235 of the smart contract 210 refers to the withdrawal target cryptocurrency. The verification information for verifying the validity of the unit may be checked, and the validity of the identified withdrawal target cryptocurrency unit may be verified based on the verified verification information. For example, the verification information may include a predetermined number of information (eg, information corresponding to a point in time (or time) at which the target cryptocurrency unit is determined) including information (or at least partial information) of the target cryptocurrency unit. Or a code value generated by applying the block identification information to be associated with the cryptocurrency unit to be fetched) to a specified code generation algorithm, but the present invention is not limited thereto. The verification function unit 235 of 210 and the designated authentication unit (not shown) of the operation server 100 may include various kinds of information generated or extracted from a designated DB to authenticate the validity of the withdrawal target cryptocurrency unit. can do.

Meanwhile, in the second withdrawal information verification embodiment, the verification function unit 235 of the smart contract 210 confirms the verification information with reference to a preset verification address, and based on the verified verification information, the withdrawal target cryptocurrency. You can validate the unit. According to the method of the present invention, the withdrawal function unit 225 of the smart contract 210 is the withdrawal target electronic wallet when the validity of the withdrawal target cryptocurrency unit is verified through the verification function unit 235. It is preferable to perform a function to withdraw the verified withdrawal target cryptocurrency unit.

According to the third withdrawal information verification embodiment of the present invention, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the withdrawal information determination unit 120, the withdrawal target electronics is determined. Verification information for validating the wallet information and the withdrawal target cryptocurrency unit may be generated, and the verification information may be registered and stored in a preset verification address area. In this case, the verification function unit 235 of the smart contract 210 The verification information for verifying the validity of the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit by referring to a preset verification address, and the withdrawal target electronic wallet information based on the verified verification information; The validity of the withdrawal target cryptocurrency unit can be verified. For example, the verification information may include a specified number of information (eg, withdrawal target wallet information) including the withdrawal target electronic wallet information (or at least partial information) and information (or at least partial information) of the withdrawal target cryptocurrency unit; Apply information corresponding to the time (or time) at which the withdrawal target cryptocurrency unit is determined and / or information further including the withdrawal target electronic wallet information and the block identification information to be associated with the withdrawal target cryptocurrency unit) to the designated code generation algorithm. Although it may include a code value generated by the present invention, the present invention is not limited thereto, and the verification function unit 235 of the smart contract 210 and the designated authentication unit (not shown) of the operation server 100 are configured as described above. It contains a variety of information that is created to extract the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit or extracted from a designated DB. Can. The verification function unit 235 of the smart contract 210 checks the verification information by referring to a preset verification address and validates the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit based on the verified verification information. Can be verified.

Meanwhile, in the third withdrawal information verification embodiment, the verification function unit 235 of the smart contract 210 checks the verification information with reference to a preset verification address, and the withdrawal target electronic wallet based on the verified verification information. The validity of the information and the cryptocurrency unit to be withdrawn can be verified. According to the exemplary embodiment of the present invention, when the withdrawal function unit 225 of the smart contract 210 is verified through the verification function unit 235, the validity of the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit is verified. It is preferable to perform a function of withdrawing the verified withdrawal target cryptocurrency unit with the verified withdrawal target electronic wallet.

According to an exemplary embodiment of the present invention, a verification address for registering and storing verification information of the drawing information verification embodiment may include the same address as the reference address. In this case, the verification information may be confirmed through the reference address while the withdrawal target electronic wallet information and / or withdrawal target cryptocurrency unit is identified through the reference address.

According to another exemplary embodiment of the present invention, a verification address for registering and storing verification information of the drawing information verification embodiment may include an address different from the reference address. On the other hand, if the verification address includes an address different from the reference address, the information registration unit 140 of the blocks generated (or to be generated) through the block chain network 200 in the verification address area different from the reference address Preferably, the withdrawal target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored. The verification information stored in the verification address may be linked through the block identification information.

Referring to FIG. 1, the operation server 100 may include an information verification unit 135 for confirming exchange wallet information associated with the determined withdrawal target electronic wallet information among exchange wallets created on a designated cryptocurrency exchange, and the linkage. When the information on the exchange wallet information is confirmed, the electronic device further includes an information registration unit 140 that registers and stores linkage status check information for checking the linkage state of the electronic wallet information and the exchange wallet information in the preset confirmation address area.

The information checking unit 135 is linked to the withdrawal target electronic wallet information of the exchange wallet of a specific user name created on a designated cryptocurrency exchange when the withdrawal target electronic wallet information is determined through the withdrawal information determination unit 120 The information on the current exchange wallet. If the determined withdrawal target electronic wallet information is not associated with the exchange wallet information generated on the cryptocurrency exchange, the information verification unit 135 checks the withdrawal target electronic wallet information for suspect (or non-blind state) electronic wallet information. Determine a user's name and generate an exchange wallet under a user's name, or register / identify an exchange wallet created under a user's name, and generate / register / identify After linking and storing the exchange wallet information and the withdrawal target electronic wallet information in the user's name, the exchange wallet information associated with the withdrawal target electronic wallet information may be checked.

When the information registration unit 140 confirms the exchange wallet information associated with the withdrawal target electronic wallet information, the information registration unit 140 generates / extracts the link state confirmation information for confirming the linkage state between the withdrawal target electronic wallet information and the exchange wallet information. Register and save in the confirmation address area. For example, the link status check information may include exchange wallet information associated with the withdrawal target electronic wallet information, or may include a code value set to identify a link state between the withdrawal target electronic wallet information and the exchange wallet information. Can be.

On the other hand, the authentication function unit 240 of the smart contract 210 confirms the linkage status check information with reference to a preset confirmation address, and the withdrawal target electronic wallet information is designated based on the checked linkage status check information. It can be verified that it is linked with the exchange wallet created on the currency exchange. According to the embodiment of the present invention, the withdrawal function unit 225 of the smart contract 210 is connected to the exchange wallet generated on the cryptocurrency exchange with the withdrawal target electronic wallet information through the authentication function unit 240 In case of being authenticated by the state, it is preferable to perform the function of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet.

According to an exemplary embodiment of the present invention, the confirmation address may include the same address as the reference address. In this case, the linked state confirmation information may be checked through the reference address while the withdrawal target electronic wallet information and / or the withdrawal target cryptocurrency unit are identified through the reference address.

According to another exemplary embodiment of the present invention, the confirmation address may include an address different from the reference address. On the other hand, when the confirmation address includes an address different from the reference address, the information registration unit 140 of the blocks generated (or to be generated) through the block chain network 200 in a confirmation address area different from the reference address. Preferably, the withdrawal target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored. The linkage status confirmation information stored in the confirmation address may be linked through the block identification information.

Referring to FIG. 1, the operation server 100 may include an information confirmation unit 135 confirming user information associated with the determined electronic wallet information of the withdrawal target among the user information registered as a member of a designated cryptocurrency exchange, and the linkage. If the user information is confirmed, the electronic device further includes an information registration unit 140 that registers and stores linkage status check information capable of confirming the linkage state of the electronic wallet information and the user information with respect to the withdrawal target electronic wallet information.

When the withdrawal target electronic wallet information is determined through the withdrawal information determination unit 120, the information checking unit 135 is user information associated with the determined withdrawal target electronic wallet information among user information registered as a member on a designated cryptocurrency exchange. Check. If the determined withdrawal target electronic wallet information is not associated with user information of a user who has subscribed to the cryptocurrency exchange, the information verification unit 135 may suspect the withdrawal target electronic wallet information (or a non-real name state). Determine as wallet information, register / identify user information through designated user identification for the user corresponding to the withdrawal target electronic wallet information, and store the registered / identified user information and withdrawal target electronic wallet information in association; The user information associated with the withdrawal target electronic wallet information may be checked.

When the information registration unit 140 confirms the user information associated with the withdrawal target electronic wallet information, the information registration unit 140 generates / extracts the linkage status confirmation information for confirming the linkage state between the withdrawal target electronic wallet information and the user information and sets a predetermined confirmation address. Register and save in the area. For example, the link status confirmation information may include user information associated with the withdrawal target electronic wallet information or may include a code value set to identify a link state between the withdrawal target electronic wallet information and user information. .

On the other hand, the authentication function unit 240 of the smart contract 210 checks the linkage status check information with reference to a preset confirmation address, and the withdrawal target electronic wallet information is designated based on the checked linkage status check information. It can be authenticated whether it is linked with user information registered on the currency exchange. According to the embodiment of the present invention, the withdrawal function unit 225 of the smart contract 210 is connected to the user information registered on the cryptocurrency exchange to which the withdrawal target electronic wallet information is designated through the authentication function unit 240. In the case of authentication in the state, it is preferable to perform the function of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet.

According to an exemplary embodiment of the present invention, the confirmation address may include the same address as the reference address. In this case, the linked state confirmation information may be checked through the reference address while the withdrawal target electronic wallet information and / or the withdrawal target cryptocurrency unit are identified through the reference address.

According to another exemplary embodiment of the present invention, the confirmation address may include an address different from the reference address. On the other hand, when the confirmation address includes an address different from the reference address, the information registration unit 140 of the blocks generated (or to be generated) through the block chain network 200 in a confirmation address area different from the reference address. Preferably, the withdrawal target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored. The linkage status confirmation information stored in the confirmation address may be linked through the block identification information.

Referring to FIG. 1, the operation server 100 checks the exchange wallet information associated with the determined withdrawal target electronic wallet information among the exchange wallets created on the designated cryptocurrency exchange, and checks the associated exchange wallet. The information checking unit 135 confirms the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information, and the information registering unit 140 registering and storing the checked cryptocurrency balance information in a preset confirmation address area. Equipped.

When the smart contract 210 is used as a medium for storing and managing cryptocurrency for exchange-based cryptocurrency trading of a cryptocurrency exchange, the information checking unit 135 withdraws the information through the withdrawal information determining unit 120. If the target electronic wallet information is determined, check the exchange wallet information associated with the determined withdrawal target electronic wallet information among the exchange wallet of the specific user name created on the designated cryptocurrency exchange. If the determined withdrawal target electronic wallet information is not associated with the exchange wallet information generated on the cryptocurrency exchange, the information verification unit 135 checks the withdrawal target electronic wallet information for suspect (or non-blind state) electronic wallet information. Determine a user's name and generate an exchange wallet under a user's name, or register / identify an exchange wallet created under a user's name, and generate / register / identify After linking and storing the exchange wallet information and the withdrawal target electronic wallet information in the user's name, the exchange wallet information associated with the withdrawal target electronic wallet information may be checked.

The information checking unit 135 may check the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information when checking the exchange wallet information associated with the withdrawal target electronic wallet information. Here, the cryptocurrency balance information of the exchange wallet is the final cryptocurrency balance of the exchange-based cryptocurrency trading provided through the exchange wallet according to the designated trading procedure of the cryptocurrency exchange, or the exchange described in the exchange ledger of the cryptocurrency exchange. It may contain the final cryptocurrency balance of the wallet. When the information register 140 checks the cryptocurrency balance information of the exchange wallet, the information register 140 registers and stores the checked cryptocurrency balance information in a preset confirmation address area.

On the other hand, the authentication function unit 240 of the smart contract 210 checks the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information with reference to a predetermined confirmation address, It is possible to authenticate whether or not the authentication within the range within the cryptocurrency balance information of the confirmed exchange wallet wallet. Preferably, when the user of the withdrawal target electronic wallet and the exchange wallet is the same, and the user withdraws the cryptocurrency traded through the cryptocurrency exchange to his electronic wallet, the withdrawal target cryptocurrency unit is the withdrawal target It should be less than or equal to the cryptocurrency balance information of the exchange wallet associated with the electronic wallet information. In this case, the withdrawal function unit 225 of the smart contract 210 is subject to the withdrawal when the withdrawal target cryptocurrency unit is authenticated within the checked cryptocurrency balance information through the authentication function unit 240. It is preferable to perform a function of withdrawing the withdrawal target cryptocurrency unit with an electronic wallet. On the other hand, when the smart contract 210 is used as an escrow medium between electronic wallets, even if the withdrawal target electronic wallet and the user of the exchange wallet are the same, the cryptocurrency balance information of the exchange wallet with which the withdrawal target cryptocurrency unit is correlated is correlated. There is no relation, and in this case, the process of comparing and authenticating the cryptocurrency unit of the withdrawal target cryptocurrency balance with the exchange wallet is omitted.

According to an exemplary embodiment of the present invention, the confirmation address may include the same address as the reference address. In this case, the cryptocurrency balance information may be identified through the reference address at the same time the withdrawal target electronic wallet information and / or withdrawal target cryptocurrency unit is identified through the reference address.

According to another exemplary embodiment of the present invention, the confirmation address may include an address different from the reference address. On the other hand, when the confirmation address includes an address different from the reference address, the information registration unit 140 of the blocks generated (or to be generated) through the block chain network 200 in a confirmation address area different from the reference address. Preferably, the withdrawal target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored. The cryptocurrency balance information stored in the confirmation address may be linked through the block identification information.

Referring to FIG. 1, when the information specified in the reference address area is registered and stored, the operation server 100 may include at least one information (or at least stored in the reference address area) to be stored (or stored) in the reference address area. A code generation unit 145 for generating a designated verification code using at least one information including at least partial information of one information), and registering and storing the generated verification code in an authentication address area other than the reference address. The code registration unit 150 is further provided.

According to the first code authentication embodiment of the present invention, the authentication function unit 240 of the smart contract 210 is confirmed with reference to at least one piece of information (or the reference address area) among the information verified with reference to the reference address. At least partial information of at least one piece of information). For example, the authentication function unit 240 of the smart contract 210 may refer to the reference address to apply at least a code generation algorithm designated to generate a verification code among the electronic wallet information and the cryptocurrency unit to be extracted. One piece of information (or at least one piece of piece of information) can be checked. The authentication function unit 240 of the smart contract 210 may include one or more pieces of information (eg, information corresponding to a point in time (or time) of checking the withdrawal target electronic wallet information) including the information identified through the reference address. Information further including block identification information associated with the withdrawal target electronic wallet information) may be applied to a designated code generation algorithm to generate a specified authentication code.

Meanwhile, the code generator 145 may designate one or more pieces of information including at least one piece of information (or at least partial information of at least one piece of information stored in the reference address area) to be stored (or stored) in the reference address area. The verification algorithm may be generated by applying to a generation algorithm, and the code registration unit 150 may register and store the generated verification code in an authentication address area other than the reference address. Meanwhile, the code registration unit 150 is associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit among blocks generated (or generated) through the blockchain network 200 in an authentication address area other than the reference address. Block identification information for identifying the specific block can be stored.

Meanwhile, the authentication function unit 240 of the smart contract 210 may check the verification code by referring to an authentication address other than the reference address, and may verify whether the authentication code matches the verification code. Meanwhile, when the block identification information is stored in the reference address and the authentication address, the authentication function unit 240 of the smart contract 210 is stored in the reference address through the block identification information of the reference address and the block identification information of the authentication address. Information stored in the authentication address can be matched. According to the method of the present invention, the withdrawal function unit 225 of the smart contract 210 is the withdrawal target electronic wallet when the authentication code is matched with the verification code through the authentication function unit 240 It is preferable to perform the function of withdrawing the withdrawal target cryptocurrency unit.

Referring to FIG. 1, the operation server 100 uses one or more information including at least one information (or at least partial information of at least one information) to be stored in an authentication address area other than the reference address. Code generation unit 145 for generating an authentication code to be stored in the reference address area, and a code registration unit 150 for registering and storing the generated authentication code in the reference address area.

According to a second code authentication embodiment of the present invention, the code generation unit 145 confirms at least one information (or at least partial information of at least one information) to be stored in an authentication address area other than the reference address. . For example, when a predetermined random number value or block identification information is stored in an authentication address area other than the reference address, the code generator 145 authenticates the random number value or block identification information to be stored in the authentication address area. At least one information (or at least one partial information) to be applied to a designated code generation algorithm for generating code may be identified. Alternatively, when the confirmation address or verification address is different from the reference address and used as the authentication address, the code generation unit 145 generates a code generation algorithm designated to generate an authentication code among information to be stored in the verification address or verification address. At least one information (or at least one partial information) to be applied may be identified.

Meanwhile, the code generation unit 145 generates a specified authentication code by applying one or more information including at least one information (or at least partial information of at least one information) to be stored in the authentication address area to a designated code generation algorithm. The code registration unit 150 may register and store the generated authentication code in the reference address area. Meanwhile, the code registration unit 150 is associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit among blocks generated (or generated) through the blockchain network 200 in an authentication address area other than the reference address. Block identification information for identifying the specific block can be stored.

On the other hand, the authentication function unit 240 of the smart contract 210 confirms the authentication code specified through the reference address, at least one information (or at least one information confirmed by referring to an authentication address other than the reference address) One or more pieces of information) may be applied to a specified code generation algorithm to generate a specified verification code, and authenticate whether the verification code identified through the reference address matches the verification code. Meanwhile, when the block identification information is stored in the reference address and the authentication address, the authentication function unit 240 of the smart contract 210 is stored in the reference address through the block identification information of the reference address and the block identification information of the authentication address. Information stored in the authentication address can be matched. According to the method of the present invention, the withdrawal function unit 225 of the smart contract 210 is the withdrawal target electronic wallet when the authentication code is matched with the verification code through the authentication function unit 240 It is preferable to perform the function of withdrawing the withdrawal target cryptocurrency unit.

Referring to FIG. 1, the operation server 100 registers and stores the generated authentication code in the code generation unit 145 for generating a specified authentication code and the reference address area, and authenticates other than the reference address. The apparatus further includes a code register 150 that registers and stores a verification code matched with the authentication code in an address area.

According to a third code authentication embodiment of the present invention, the code generation unit 145 generates a designated authentication code. For example, the code generation unit 145 may generate an authentication code by generating an authentication code in the form of a random number or by applying one or more pieces of information to a designated code generation algorithm similar to the first or second code authentication embodiment. It may be.

The code registration unit 150 registers and stores the generated authentication code in the reference address area, and has a verification code matched with the authentication code (for example, the same code as the authentication code or the same / similar to a public key infrastructure). Code paired with the authentication code), and the verification code matched with the authentication code may be registered and stored in an authentication address area other than the reference address. Meanwhile, the code registration unit 150 is associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit among blocks generated (or generated) through the blockchain network 200 in an authentication address area other than the reference address. Block identification information for identifying the specific block can be stored.

Meanwhile, the authentication function unit 240 of the smart contract 210 checks the authentication code through the reference address, checks the verification code by referring to another authentication address other than the reference address, and the authentication code is the It can verify that it matches the verification code. Meanwhile, when the block identification information is stored in the reference address and the authentication address, the authentication function unit 240 of the smart contract 210 is stored in the reference address through the block identification information of the reference address and the block identification information of the authentication address. Information stored in the authentication address can be matched. According to the method of the present invention, the withdrawal function unit 225 of the smart contract 210 is the withdrawal target electronic wallet when the authentication code is matched with the verification code through the authentication function unit 240 It is preferable to perform the function of withdrawing the withdrawal target cryptocurrency unit.

Referring to FIG. 1, the operation server 100 refers to the node device 205 provided on the blockchain network 200 and through the smart contract 210 to the withdrawal target electronic wallet. Withdrawal state check unit 155 for checking the state with which the cryptocurrency unit is withdrawn, and when the withdrawal target cryptocurrency unit is withdrawn through the smart contract 210, to the withdrawal target electronic wallet And a transaction information manager 160 for generating transaction information corresponding to the withdrawal target cryptocurrency unit and storing the transaction information in a designated storage medium.

When performing the function of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet through the withdrawal function unit 225 of the smart contract 210, the storage function unit 230 of the smart contract 210 is The cryptocurrency withdrawal information including the withdrawal target electronic wallet information and the cryptocurrency unit withdrawn with the withdrawal target electronic wallet is constructed and stored in a designated storage area. Preferably, the designated storage area for storing the cryptocurrency withdrawal information may include a storage area for storing the state of the smart contract 210 or a separate storage area set for storing the cryptocurrency withdrawal information. Meanwhile, according to an embodiment method, the designated storage area may include a storage area for storing transactions of cryptocurrency, whereby the present invention is not limited thereto.

When the withdrawal target electronic wallet information and the cryptocurrency withdrawal information including the withdrawn cryptocurrency unit are stored in a designated storage area through the storage function unit 230 of the smart contract 210, the withdrawal state checker 155 ) Refers to at least one node device 205 provided on the blockchain network 200 to check the cryptocurrency withdrawal information stored in the designated storage area through the storage function unit 230 of the smart contract 210. Read the identified cryptocurrency withdrawal information based on the withdrawal target electronic wallet information stored in the reference address area and the withdrawal target cryptocurrency unit, and confirm a state in which the withdrawal target cryptocurrency unit is withdrawn with the withdrawal target electronic wallet; do.

If the withdrawal target cryptocurrency unit is withdrawn via the smart contract 210 through the withdrawal status checker 155, the transaction information management unit 160 to the withdrawal target electronic wallet The transaction information corresponding to the withdrawal target cryptocurrency unit is generated, stored in a designated storage medium, and managed.

2 is a diagram illustrating a functional configuration of a blockchain-based smart contract 210 that provides a cryptocurrency trading platform according to an embodiment of the present invention.

More specifically, Figure 2 is a blockchain-based smart that can deposit a specified cryptocurrency from an electronic wallet on the blockchain network 200, but cannot withdraw the deposited cryptocurrency arbitrarily without resorting to pre-coded rules or functions. A function configuration of the smart contract 210 for using the contract 210 as a medium for exchange-based cryptocurrency trading or as an escrow medium for cryptocurrency transactions between electronic wallets, which is common in the art to which the present invention pertains. Those skilled in the art can refer to and / or modify this drawing 2 to infer various implementation methods (eg, some implementations are omitted, subdivided, or combined) for the functional configuration of the smart contract 210. It should be understood that the present invention includes all implementation methods inferred from the above. , Only the exemplary method shown in the figure 2 is not limited that technical feature.

The smart contract 210 of the present invention comprises a program code for implementing a functional unit for use as a medium of exchange-based cryptocurrency trading or as an escrow medium for cryptocurrency transactions between electronic wallets. The program code constituting the smart contract 210 is multi-executed through M (M≥2) node devices 205 that implement the blockchain network 200. The smart contract 210 registered in the node device 205 on the blockchain network 200 is not modified except by the rules coded in the smart contract 210, and is distributedly stored using the M node devices 205. It is not forged by.

Referring to FIG. 2, the smart contract 210 refers to valid withdrawal target electronic wallet information and withdrawal target cryptocurrency unit on the blockchain network 200 to withdraw a cryptocurrency with reference to a preset reference address. A reference function unit 220 for implementing a function; and a withdrawal function unit 225 for implementing a function for withdrawing the identified withdrawal target cryptocurrency unit with the identified withdrawal target electronic wallet, and includes a designated blockchain network ( And a deposit function unit 215 for implementing a function of depositing a designated cryptocurrency unit from at least one electronic wallet among a plurality of valid electronic wallets on the electronic wallet. The storage function unit 230 may further include a storage function unit 230 for storing the cryptographic deposit information including the cryptocurrency unit in a designated storage area of the node device 205. .

The deposit function unit 215 includes a contract address for depositing a designated cryptocurrency unit from at least one electronic wallet among a plurality of valid electronic wallets on the blockchain network 200. The user terminal 180 uses a private key of a valid electronic wallet generated on the blockchain network 200 to deposit a designated cryptocurrency unit among the cryptocurrencies stored in the electronic wallet as the contract address. A transaction history of a currency transaction is generated and broadcasted to the blockchain network 200, and each node device 205 on the blockchain network 200 corresponds the cryptocurrency unit to the contract address according to a designated blockchain algorithm. The smart contract 210 performs the procedure of depositing, and the deposit function unit 215 receives the designated cryptocurrency unit from the electronic wallet.

When the cryptocurrency unit designated as the smart contract 210 is deposited from a valid electronic wallet on the blockchain network 200 through the deposit function unit 215, the storage function unit 230 deposits the cryptocurrency unit. The electronic wallet information and the cryptocurrency deposit information including the deposited cryptocurrency unit is identified and stored in a designated storage area. Preferably, the storage function 230 is a storage area for storing the state of the smart contract 210 of the storage areas of each node device 205, or in a separate storage area set for storing the cryptocurrency deposit information. The cryptocurrency deposit information may be stored and managed. According to an embodiment, the storage function unit 230 may store the cryptocurrency in a storage area (eg, a storage area for storing a transaction block of a cryptocurrency) among the storage areas of each node device 205. Deposit information can be stored and managed.

On the other hand, by using the smart contract 210 as a medium of exchange-based cryptocurrency trading or as an escrow medium for cryptocurrency transactions between electronic wallets, the operation server 100 that provides cryptocurrency transactions uses the smart contract 210. Determine valid withdrawal target electronic wallet information on the designated blockchain network 200 and the withdrawal target cryptocurrency unit to be withdrawn with the withdrawal target electronic wallet, and determine the withdrawal target electronic wallet information and withdrawal target in the preset reference address area; You can register and save cryptocurrency units.

The operation server 100 withdraws the electronic wallet information and the withdrawal target to withdraw the designated cryptocurrency unit among the cryptocurrencies deposited in the smart contract 210 in response to the designated cryptocurrency transaction request through the user terminal 180. A reference address that is determined to be a withdrawal target cryptocurrency unit to be withdrawn by an electronic wallet and is made available for reference through the reference function unit 220 of the smart contract 210 registered in the node device 205 on the blockchain network 200. The withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit may be registered and stored in an area.

According to the first smart contract 210 based cryptocurrency trading embodiment of the present invention, the smart contract 210 exchanges the designated cryptocurrency between exchange wallets according to the designated cryptocurrency trading procedure at the designated cryptocurrency exchange. It can function as a cryptocurrency storage medium that stores and manages the cryptocurrencies required to provide cryptocurrency transactions. For example, when the cryptocurrency 10,000 issued through the designated blockchain network 200 is deposited in the smart contract 210, the cryptocurrency exchange that uses the smart contract 210 as a cryptocurrency storage medium is the smart contract ( It is possible to provide an exchange-based cryptocurrency trading in which designated cryptocurrency units among 10,000 cryptocurrencies deposited at 210 are exchanged between respective exchange wallets.

Meanwhile, in the first smart contract 210 based cryptocurrency trading embodiment, the operation server 100 may designate a unit time (for example, a time corresponding to a block generation cycle of the block chain corresponding to the smart contract 210). Among the transaction request information requested from the one or more user terminals 180, the designated cryptocurrency unit among the cryptocurrency units deposited in the smart contract 210 on the blockchain network 200 corresponding to the smart contract 210. I) to check the at least one transaction request information requesting withdrawal with a valid electronic wallet, and to withdraw a designated cryptocurrency unit among the cryptocurrency units deposited in the smart contract 210 based on the at least one transaction request information identified (i) A set of i≥1) withdrawal target electronic wallet information and i withdrawal target cryptocurrency units can be determined. In this case, the operation server 100 determines i in the reference address area set to be referred to through the reference function unit 220 of the smart contract 210 registered in the node device 205 on the blockchain network 200. And a set of i withdrawal target electronic wallet information and i withdrawal target cryptocurrency unit, and the reference function unit 220 stores i withdrawal target electronic wallet information and i withdrawal target cryptocurrency registered in the reference address area. See the set of units. Meanwhile, the withdrawal function unit 225 may perform a function of withdrawing the identified withdrawal target cryptocurrency unit with the withdrawn withdrawal target electronic wallet.

According to the second smart contract 210 based cryptocurrency transaction embodiment of the present invention, the smart contract 210 may perform an escrow function for cryptocurrency transaction between valid electronic wallets on the blockchain network 200. have. According to the present invention, when the escrow function is applied to a cryptocurrency transaction between electronic wallets, the cryptocurrency transaction is a sending side cryptocurrency that sends a cryptocurrency unit designated as a predetermined escrow wallet in the sending side electronic wallet that sends the cryptocurrency. It may be a combination of a transaction and a receiving side cryptocurrency transaction that receives a cryptocurrency unit designated as a receiving side electronic wallet in the escrow wallet. However, in the case of P2P-based cryptocurrency transactions between electronic wallets created on the blockchain network 200, the sending side cryptocurrency sends the cryptocurrency of the sending side electronic wallet to the receiving side electronic wallet in the blockchain algorithm structure. Although it is possible to provide a transaction (= P2P based cryptocurrency transaction), it is very important in the blockchain algorithm structure to implement a receiver-side cryptocurrency transaction in which the receiving side extracts the cryptocurrency of the sending electronic wallet and receives it with the receiving electronic wallet. Difficult (or impossible). Therefore, a separate cryptocurrency exchange is a separate entity that provides escrow services, and the exchange side electronic wallet generated on the blockchain network 200 by intervening in the cryptocurrency transaction between electronic wallets is used as the receiving side of the cryptocurrency transaction. The escrow function of the cryptocurrency transaction between electronic wallets can be implemented only when the wallet is used as the wallet and the electronic wallet of the receiving side of the cryptocurrency transaction. On the other hand, the present invention may provide an escrow-based cryptocurrency transaction between electronic wallets using the smart contract 210 as an escrow medium for cryptocurrency transactions between electronic wallets to implement a recipient-side cryptocurrency transaction on a blockchain algorithm. .

On the other hand, in the second smart contract 210 based cryptocurrency trading embodiment, the operation server 100 between the electronic wallet using the smart contract 210 as an escrow medium among the transaction request information requested from the user terminal 180. Check the transaction request information requesting a cryptocurrency transaction or transaction request information convertible to cryptocurrency transactions between electronic wallets using the smart contract 210 as an escrow medium. If based on the transaction request information through the user terminal 180 (or the exchange server 170 or the operation server 100, etc. associated with the user terminal 180) corresponding to the sending side of the confirmed transaction request information A sending cryptocurrency transaction (eg, a cryptocurrency transaction for sending and depositing a cryptocurrency designated by the smart contract 210 in the sending electronic wallet) is processed to designate a corresponding cryptogram corresponding to the transaction request information in the smart contract 210. A monetary unit is deposited (or the designated cryptocurrency unit corresponding to the transaction request information is deposited in the smart contract 210 and received by the user terminal 180 corresponding to the receiving side of the confirmed transaction request information according to the specified procedure. After being informed to perform the side cryptocurrency transaction, the exchanger associated with the user terminal 180 (or the user terminal 180) corresponding to the receiving side of the transaction request information. (170) or the receiving server cryptographic transaction based on the transaction request information through the operation server 100), the operation server 100 corresponds to the cryptocurrency unit deposited in the smart contract 210 Check the electronic wallet information of the receiving side of the transaction request information as the electronic wallet information to be withdrawn, and convert the cryptocurrency unit corresponding to the cryptocurrency unit (or the cryptocurrency unit specified in the transaction request information) deposited in the smart contract 210. It can be determined by the unit of cryptocurrency to be withdrawn. In this case, the operation server 100 draws the determined withdrawal to the reference address area set to be referred to through the reference function unit 220 of the smart contract 210 registered in the node device 205 on the blockchain network 200. The target electronic wallet information and the withdrawal target cryptocurrency unit may be stored, and the reference function unit 220 may refer to the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit registered in the reference address area. Meanwhile, the withdrawal function unit 225 may perform a function of withdrawing the identified withdrawal target cryptocurrency unit with the withdrawn withdrawal target electronic wallet.

According to an embodiment of the present invention, the operation server 100 is generated (or generated) through the blockchain network 200 with reference to the node device 205 provided on the blockchain network 200. Check the block related information that identifies the block. Preferably, the operation server 100 is a node device to be included in the block number or the current transaction block of the block immediately included in the transaction block with reference to the node device 205 provided on the block chain network 200 Through block 205, the block related information including the block number of the block being calculated may be checked. The operation server 100 checks the block identification information for identifying the block to be associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit on the basis of the identified block-related information. Preferably, the operation server 100 determines (or schedules) a block corresponding to a time point to withdraw the determined withdrawal target cryptocurrency unit with the determined withdrawal target electronic wallet based on the identified block related information. The block identification information identifying the determined (or scheduled) block may be checked and set as the block identification information for identifying the block associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit. Preferably, the block identification information is information identifying a specific block generated (or to be generated) through the blockchain network 200 or after a block generated (or to be generated) through the blockchain network 200. It may include information identifying a particular block to be generated in the future of. On the other hand, if the determined outgoing target electronic wallet information and the block identification information for identifying a block to be linked to the withdrawal target cryptocurrency unit is confirmed, the operation server 100 uses the determined block identification information to determine the withdrawal target electronic wallet information. And a block identification information for identifying a block to be generated (or to be generated) through the block chain network 200 in association with a target cryptocurrency unit to be fetched and stored in the reference address area. After checking, the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit associated with the identified block identification information are identified with reference to the reference address. For example, when a plurality of withdrawal target electronic wallet information and a withdrawal target cryptocurrency unit associated with a plurality of block identification information are stored in the reference address area, the reference function unit 220 may access the blockchain network 200. Check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the block identification information for identifying the block that is currently generated or to be generated, but the block to identify the past block previously generated through the blockchain network 200 It is desirable not to identify (or ignore) the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the identification information. On the other hand, the reference function unit 220 can check the block identification information identifying the block associated with the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit with reference to the reference address, in this case the withdrawal function unit 225 ) Checks whether a block generated (or to be generated) through the blockchain network 200 matches a block corresponding to the block identification information, and generates (or is to be generated) through the blockchain network 200. When the block matches the block corresponding to the block identification information, the withdrawal target electronic wallet may withdraw the withdrawal target cryptocurrency unit.

Referring to FIG. 2, when the withdrawal target electronic wallet information is confirmed, the smart contract 210 verifies the validity of the checked withdrawal target electronic wallet information based on the verified verification information with reference to a preset verification address. Or if the withdrawal target cryptocurrency unit is verified, validating the identified withdrawal target cryptocurrency unit based on the verification information verified with reference to a preset verification address, or withdrawing the electronic wallet information and the target wallet information When the withdrawal target cryptocurrency unit is verified, a verification function unit 235 for verifying validity of the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit based on the verification information verified with reference to a preset verification address is further added. Include.

According to the first withdrawal information verification embodiment of the present invention, when the withdrawal target electronic wallet information is determined, the operation server 100 generates verification information for validating the withdrawal target electronic wallet information and preset verification. The verification information may be registered and stored in an address area. In this case, the verification function unit 235 may verify verification information for validating the electronic wallet information to be fetched with reference to a preset verification address, and the checked Based on the verification information, the validity of the identified withdrawal target electronic wallet information may be verified. For example, the verification information may be a specified number of information including the withdrawal target electronic wallet information (or at least partial information) (eg, information corresponding to the time (or time) at which the withdrawal target electronic wallet information is determined and / or withdrawal. Information that further includes block identification information to be associated with the target electronic wallet information) may be included in the code generation algorithm. However, the present invention is not limited thereto. 235 and the designated authentication unit (not shown) of the operation server 100 may include various kinds of information generated to extract validity of the electronic wallet information to be extracted or extracted from a designated DB.

Meanwhile, in the first withdrawal information verification embodiment, the verification function unit 235 checks the verification information with reference to a preset verification address and verifies the validity of the electronic wallet information to be extracted based on the verified verification information. Can be. According to the exemplary embodiment of the present invention, the withdrawal function unit 225 is the withdrawal target cryptogram with the verified withdrawal target electronic wallet when the validity of the withdrawal target electronic wallet information is verified through the verification function unit 235. It is desirable to perform the function of withdrawing the monetary unit.

According to a second withdrawal information verification embodiment of the present invention, when the withdrawal target cryptocurrency unit is determined, the operation server 100 generates verification information for verifying the validity of the withdrawal target cryptocurrency unit and preset verification. The verification information may be registered and stored in an address area. In this case, the verification function unit 235 may verify verification information for validating the validity of the withdrawal target cryptocurrency unit with reference to a preset verification address, and the checked The validity of the identified withdrawal target cryptocurrency unit may be verified based on the verification information. For example, the verification information may include a predetermined number of information (eg, information corresponding to a point in time (or time) at which the target cryptocurrency unit is determined) including information (or at least partial information) of the target cryptocurrency unit. Or a code value generated by applying the block identification information to be linked with the cryptographic unit to be fetched) to a designated code generation algorithm, but the present invention is not limited thereto. The designated authentication unit (not shown) of the unit 235 and the operation server 100 may include various kinds of information generated or extracted from a designated DB to authenticate the validity of the withdrawal target cryptocurrency unit.

Meanwhile, in the second withdrawal information verification embodiment, the verification function unit 235 may verify the verification information with reference to a preset verification address and verify the validity of the withdrawal target cryptocurrency unit based on the verified verification information. Can be. According to the embodiment of the present invention, the withdrawal function unit 225 is the withdrawal target cryptogram with the withdrawal target electronic wallet when the validity of the withdrawal target cryptocurrency unit is verified through the verification function unit 235. It is desirable to perform the function of withdrawing the monetary unit.

According to a third withdrawal information verification embodiment of the present invention, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined, the validity of the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit is determined. Generate verification information for verifying the information, and register and store the verification information in a preset verification address area. In this case, the verification function unit 235 refers to the electronic wallet information and the withdrawal target electronic wallet information with reference to a preset verification address. The verification information for verifying the validity of the target cryptocurrency unit may be checked, and the validity of the checked electronic wallet information and the target cryptocurrency unit to be extracted may be verified based on the verified verification information. For example, the verification information may include a specified number of information (eg, withdrawal target wallet information) including the withdrawal target electronic wallet information (or at least partial information) and information (or at least partial information) of the withdrawal target cryptocurrency unit; Apply information corresponding to the time (or time) at which the withdrawal target cryptocurrency unit is determined and / or information further including the withdrawal target electronic wallet information and the block identification information to be associated with the withdrawal target cryptocurrency unit) to the designated code generation algorithm. Although the present invention is not limited thereto, the verification function unit 235 and the designated authentication unit (not shown) of the operation server 100 may be configured to display the electronic wallet information. Various types of information generated to authenticate the validity of the withdrawal target cryptocurrency unit or extracted from a designated DB may be included. The verification function unit 235 may verify the verification information by referring to a preset verification address and verify the validity of the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit based on the verified verification information.

Meanwhile, in the third withdrawal information verification embodiment, the verification function unit 235 checks the verification information with reference to a preset verification address, and the withdrawal target electronic wallet information and the withdrawal target cryptocurrency based on the verified verification information. You can validate the unit. According to the exemplary embodiment of the present invention, the withdrawal function unit 225 is the withdrawal target electronics when the validity of the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit is verified through the verification function unit 235. It is preferable to perform a function of withdrawing the verified withdrawal target cryptocurrency unit with a wallet.

According to an exemplary embodiment of the present invention, a verification address for registering and storing verification information of the drawing information verification embodiment may include the same address as the reference address. In this case, the verification information may be confirmed through the reference address while the withdrawal target electronic wallet information and / or withdrawal target cryptocurrency unit is identified through the reference address.

According to another exemplary embodiment of the present invention, a verification address for registering and storing verification information of the drawing information verification embodiment may include an address different from the reference address. Meanwhile, when the verification address includes an address different from the reference address, when the verification address includes an address different from the reference address, the drawing of the block generated through the blockchain network 200 (or to be generated). Preferably, the target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored, whereby the withdrawal target electronic wallet information, the withdrawal target cryptocurrency unit, and the verification address are stored in the reference address. The verification information stored in may be linked through the block identification information.

Referring to FIG. 2, the smart contract 210 refers to a designated storage area that stores cryptocurrency deposit information including electronic wallet information that deposits a specified cryptocurrency, and the checked electronic wallet information is determined as a cryptocurrency. It further includes an authentication function unit 240 for authenticating whether matching with the specific electronic wallet information deposited.

According to the implementation method of the present invention, the cryptocurrency exchange performs a procedure for creating and / or registering a valid electronic wallet on the blockchain network 200 for use by the user at the time of membership registration according to a specified policy. To deposit a predetermined cryptocurrency into the smart contract 210 through the generated / registered electronic wallet to verify the registration validity of the electronic wallet created on the blockchain network 200 or registered from the user. Alternatively, the cryptocurrency exchange may send a predetermined cryptocurrency to the generated / registered electronic wallet and then deposit it in the smart contract 210. Alternatively, when the smart contract 210 is used as a medium for exchange-based cryptocurrency trading, the user deposits the cryptocurrency specified in the smart contract 210 through a valid electronic wallet on the blockchain network 200 and then exchanges the exchange with the exchange. Based cryptocurrency trading.

When the smart contract 210 permits the withdrawal of the designated cryptocurrency unit by the electronic wallet which deposits a predetermined cryptocurrency according to the embodiment of the present invention, the authentication function unit 240 may display the electronic wallet information to be withdrawn. If confirmed, the cryptocurrency deposit information is confirmed by referring to a designated storage area that stores cryptocurrency deposit information including electronic wallet information that deposits the specified cryptocurrency in association with the node device 205 on the blockchain network 200. In addition, the identified cryptocurrency deposit information may be read to authenticate whether the identified withdrawal target electronic wallet information is matched with specific electronic wallet information that deposits a designated cryptocurrency through the confirmed cryptocurrency deposit information. According to the exemplary embodiment of the present invention, when the withdrawal function unit 225 is authenticated through the authentication function unit 240, the identified withdrawal target electronic wallet information is matched with specific electronic wallet information that deposits a cryptocurrency. It is preferable to perform the function of withdrawing the verified withdrawal target cryptocurrency unit with the verified withdrawal target electronic wallet.

Referring to FIG. 2, the smart contract 210 refers to an authentication function unit 240 that authenticates whether the withdrawal target electronic wallet information is associated with an exchange wallet generated on a designated cryptocurrency exchange with reference to a predetermined confirmation address. It includes more.

According to an embodiment of the present invention, the operation server 100, when the withdrawal target electronic wallet information is determined, the exchange wallet associated with the determined withdrawal target electronic wallet information among the exchange wallet of a specific user name created on a designated cryptocurrency exchange Check the information. If the determined withdrawal target electronic wallet information is not associated with the exchange wallet information generated on the cryptocurrency exchange, the operation server 100 uses the withdrawal target electronic wallet information as suspicious (or non-blind state) electronic wallet information. Determine and generate an exchange wallet in a user name or register / identify an exchange wallet created under a user name through a designated user authentication for the user corresponding to the withdrawal target electronic wallet information, and generate / register / identify After linking and storing the exchange wallet information and the withdrawal target electronic wallet information in the user's name, the exchange wallet information associated with the withdrawal target electronic wallet information may be checked. On the other hand, when the operation server 100 confirms the exchange wallet information associated with the withdrawal target electronic wallet information, the operation server 100 generates / extracts the linkage status check information for confirming the linkage state between the withdrawal target electronic wallet information and the exchange wallet information. Register and save in the set confirmation address area. For example, the link status check information may include exchange wallet information associated with the withdrawal target electronic wallet information, or may include a code value set to identify a link state between the withdrawal target electronic wallet information and the exchange wallet information. Can be.

The authentication function unit 240 confirms the linkage status check information with reference to a preset confirmation address, and the exchange wallet generated on the cryptocurrency exchange for which the withdrawal target electronic wallet information is designated based on the checked linkage status check information. Can be authenticated as being associated with According to the exemplary embodiment of the present invention, when the withdrawal function unit 225 is authenticated through the authentication function unit 240 in a state in which the withdrawal target electronic wallet information is associated with an exchange wallet generated on a designated cryptocurrency exchange, It is preferable to perform the function of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet.

According to an exemplary embodiment of the present invention, the confirmation address may include the same address as the reference address. In this case, the linked state confirmation information may be checked through the reference address while the withdrawal target electronic wallet information and / or the withdrawal target cryptocurrency unit are identified through the reference address.

According to another exemplary embodiment of the present invention, the confirmation address may include an address different from the reference address. Meanwhile, when the confirmation address includes an address different from the reference address, when the confirmation address includes an address different from the reference address, the drawing of the block generated (or generated) through the blockchain network 200 is performed. Preferably, the target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored, whereby the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit and the confirmation address are stored in the reference address. Linkage status check information stored in the may be linked through the block identification information.

Referring to FIG. 2, the smart contract 210 authenticates whether the withdrawal target electronic wallet information is associated with user information registered to a designated cryptocurrency exchange with reference to a predetermined confirmation address 240. It further includes.

According to the method of the present invention, the operation server 100 checks the user information associated with the determined withdrawal target electronic wallet information among the user information registered on the designated cryptocurrency exchange when the withdrawal target electronic wallet information is determined. . If the determined withdrawal target electronic wallet information is not associated with user information of a user who has subscribed to the cryptocurrency exchange, the operation server 100 may suspect the withdrawal target electronic wallet information (or an unnamed state) electronic wallet. Determine the information, register / identify user information through a designated user identification for the user corresponding to the withdrawal target electronic wallet information, and associate and store the registered / identified user information and withdrawal target electronic wallet information, User information associated with the withdrawal target electronic wallet information may be checked. On the other hand, when the operation server 100 confirms the user information associated with the withdrawal target electronic wallet information, it generates and extracts linkage status confirmation information for confirming the linkage state between the withdrawal target electronic wallet information and user information. Register and save in the address area. For example, the link status confirmation information may include user information associated with the withdrawal target electronic wallet information or may include a code value set to identify a link state between the withdrawal target electronic wallet information and user information. .

The authentication function unit 240 checks the linkage status check information with reference to a preset confirmation address, and the user who has registered as a member of the cryptocurrency exchange for which the withdrawal target electronic wallet information is specified based on the checked linkage status check information. It can be authenticated if it is associated with the information. According to the method of the present invention, when the withdrawal function unit 225 is authenticated through the authentication function unit 240 in a state in which the withdrawal target electronic wallet information is associated with user information registered on a designated cryptocurrency exchange. It is preferable to perform the function of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet.

According to an exemplary embodiment of the present invention, the confirmation address may include the same address as the reference address. In this case, the linked state confirmation information may be checked through the reference address while the withdrawal target electronic wallet information and / or the withdrawal target cryptocurrency unit are identified through the reference address.

According to another exemplary embodiment of the present invention, the confirmation address may include an address different from the reference address. Meanwhile, when the confirmation address includes an address different from the reference address, when the confirmation address includes an address different from the reference address, the drawing of the block generated (or generated) through the blockchain network 200 is performed. Preferably, the target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored, whereby the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit and the confirmation address are stored in the reference address. Linkage status check information stored in the may be linked through the block identification information.

Referring to FIG. 2, the smart contract 210 checks the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information with reference to a preset confirmation address, and the identified withdrawal target cryptocurrency unit is It further includes an authentication function unit 240 for authenticating whether it matches the range within the cryptocurrency balance information of the confirmed exchange wallet.

When the smart contract 210 is used as a medium for storing and managing cryptocurrency for exchange-based cryptocurrency trading of a cryptocurrency exchange, the operation server 100 is designated cryptocurrency exchange when the withdrawal target electronic wallet information is determined. The exchange wallet information associated with the withdrawal target electronic wallet information determined among the exchange wallets of a specific user name generated in the above is checked. If the determined withdrawal target electronic wallet information is not associated with the exchange wallet information generated on the cryptocurrency exchange, the operation server 100 uses the withdrawal target electronic wallet information as suspicious (or non-blind state) electronic wallet information. Determine and generate an exchange wallet in a user name or register / identify an exchange wallet created under a user name through a designated user authentication for the user corresponding to the withdrawal target electronic wallet information, and generate / register / identify After linking and storing the exchange wallet information and the withdrawal target electronic wallet information in the user's name, the exchange wallet information associated with the withdrawal target electronic wallet information may be checked. On the other hand, when the operation server 100 confirms the exchange wallet information associated with the withdrawal target electronic wallet information, it may check the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information. Here, the cryptocurrency balance information of the exchange wallet is the final cryptocurrency balance of the exchange-based cryptocurrency trading provided through the exchange wallet according to the designated trading procedure of the cryptocurrency exchange, or the exchange described in the exchange ledger of the cryptocurrency exchange. It may contain the final cryptocurrency balance of the wallet. When the operation server 100 confirms the cryptocurrency balance information of the exchange wallet, the operation server 100 registers and stores the checked cryptocurrency balance information in a preset confirmation address area.

The authentication function unit 240 checks the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information with reference to a preset confirmation address, and the identified withdrawal target cryptocurrency unit is the cipher of the confirmed exchange wallet. It may be authenticated whether or not it is matched with the range within the monetary balance information. Preferably, when the user of the withdrawal target electronic wallet and the exchange wallet is the same, and the user withdraws the cryptocurrency traded through the cryptocurrency exchange to his electronic wallet, the withdrawal target cryptocurrency unit is the withdrawal target It should be less than or equal to the cryptocurrency balance information of the exchange wallet associated with the electronic wallet information. In this case, the withdrawal function unit 225 uses the withdrawal target electronic wallet when the withdrawal target cryptocurrency unit is authenticated within the checked cryptocurrency balance information of the exchange exchange wallet through the authentication function unit 240. It is preferable to perform a function of withdrawing a cryptocurrency unit. On the other hand, when the smart contract 210 is used as an escrow medium between electronic wallets, even if the withdrawal target electronic wallet and the user of the exchange wallet are the same, the cryptocurrency balance information of the exchange wallet with which the withdrawal target cryptocurrency unit is correlated is correlated. There is no relation, and in this case, the process of comparing and authenticating the cryptocurrency unit of the withdrawal target cryptocurrency balance with the exchange wallet is omitted.

According to an exemplary embodiment of the present invention, the confirmation address may include the same address as the reference address. In this case, the cryptocurrency balance information may be identified through the reference address at the same time the withdrawal target electronic wallet information and / or withdrawal target cryptocurrency unit is identified through the reference address.

According to another exemplary embodiment of the present invention, the confirmation address may include an address different from the reference address. Meanwhile, when the confirmation address includes an address different from the reference address, when the confirmation address includes an address different from the reference address, the drawing of the block generated (or generated) through the blockchain network 200 is performed. Preferably, the target electronic wallet information and the block identification information for identifying a specific block associated with the withdrawal target cryptocurrency unit are stored, whereby the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit and the confirmation address are stored in the reference address. The cryptocurrency balance information stored in the may be linked through the block identification information.

Referring to FIG. 2, the smart contract 210 generates an authentication code using one or more information including at least one information (or at least partial information of at least one information) identified with reference to the reference address. And an authentication function unit 240 for verifying a verification code by referring to an authentication address other than the reference address, and authenticating whether the verification code matches the verification code.

According to the first code authentication embodiment of the present invention, the authentication function unit 240 may include at least one piece of information (or at least one piece of information confirmed by referring to the reference address area). At least partial information of the information). For example, the authentication function unit 240 may refer to the reference address for at least one information (or at least to be applied to a designated code generation algorithm for generating a verification code among the electronic wallet information and the cryptographic currency unit to be extracted). One piece of information). The authentication function unit 240 may include one or more pieces of information including information identified through the reference address (eg, information corresponding to a point in time (or time) of checking the withdrawal target electronic wallet information and / or withdrawal target electronic wallet information; Information further including the associated block identification information, etc.) may be applied to a specified code generation algorithm to generate a specified authentication code.

Meanwhile, the operation server 100 may be configured by applying one or more information including at least one information stored in the reference address area (or at least partial information of at least one information stored in the reference address area) to a designated code generation algorithm. The verification code may be generated, and the generated verification code may be registered and stored in an authentication address area other than the reference address. Meanwhile, the operation server 100 is associated with the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit among blocks generated (or generated) through the blockchain network 200 in an authentication address area other than the reference address. Block identification information for identifying the specific block can be stored.

The authentication function unit 240 may check the verification code by referring to an authentication address other than the reference address, and may verify whether the authentication code matches the verification code. Meanwhile, when the block identification information is stored in the reference address and the authentication address, the authentication function unit 240 stores the information stored in the reference address and the authentication address through the block identification information of the reference address and the block identification information of the authentication address. Information can be matched. According to the method of the present invention, the withdrawal function unit 225 uses the withdrawal target electronic wallet to withdraw the withdrawal target cryptocurrency unit when the authentication code is matched with the verification code through the authentication function unit 240. It is desirable to perform the function of withdrawing.

Referring to FIG. 2, the smart contract 210 checks the authentication code specified through the reference address, and checks at least one information (or at least one information) identified by referring to an authentication address other than the reference address. And an authentication function unit 240 for generating a verification code using at least one piece of information including at least partial information, and authenticating whether the verification code matches the verification code.

According to a second code authentication embodiment of the present invention, the operation server 100 confirms at least one information (or at least partial information of at least one information) to be stored in an authentication address area other than the reference address. For example, when a predetermined random number value or block identification information is stored in an authentication address area other than the reference address, the operation server 100 may generate an authentication code among random number values or block identification information to be stored in the authentication address area. At least one information (or at least one partial information) to be applied to a specified code generation algorithm may be identified to generate a. Or when the verification address or verification address is different from the reference address and used as the authentication address, at least one piece of information to be applied to a code generation algorithm designated to generate an authentication code among information to be stored in the verification address or verification address ( Or at least one partial information).

On the other hand, the operation server 100 generates a specified authentication code by applying one or more information including at least one information (or at least partial information of at least one information) to be stored in the authentication address area to a specified code generation algorithm. The registration code may be stored in the reference address area. Meanwhile, the operation server 100 is associated with the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit among blocks generated (or generated) through the blockchain network 200 in an authentication address area other than the reference address. Block identification information for identifying the specific block can be stored.

The authentication function unit 240 confirms an authentication code designated through the reference address, and includes at least one information (or at least partial information of at least one information) identified by referring to an authentication address other than the reference address. One or more pieces of information may be applied to a designated code generation algorithm to generate a specified verification code, and authenticate whether the verification code identified through the reference address matches the verification code. Meanwhile, when the block identification information is stored in the reference address and the authentication address, the authentication function unit 240 stores the information stored in the reference address and the authentication address through the block identification information of the reference address and the block identification information of the authentication address. Information can be matched. According to the method of the present invention, the withdrawal function unit 225 uses the withdrawal target electronic wallet to withdraw the withdrawal target cryptocurrency unit when the authentication code is matched with the verification code through the authentication function unit 240. It is desirable to perform the function of withdrawing.

Referring to FIG. 2, the smart contract 210 confirms a verification code specified through the reference address, checks a verification code by referring to an authentication address other than the reference address, and the verification code is the verification code. It further includes an authentication function unit 240 for authenticating whether or not match.

According to the third code authentication embodiment of the present invention, the operation server 100 generates a designated authentication code. For example, the operation server 100 may generate an authentication code in the form of a random number or by applying one or more pieces of information to a designated code generation algorithm similar to the first or second code authentication embodiment. have.

The operation server 100 registers and stores the generated authentication code in the reference address area, and a verification code matched with the authentication code (for example, the same code as the authentication code or the same / similar to a public key infrastructure). Code paired with the authentication code), and the verification code matched with the authentication code may be registered and stored in an authentication address area other than the reference address. Meanwhile, the operation server 100 is associated with the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit among blocks generated (or generated) through the blockchain network 200 in an authentication address area other than the reference address. Block identification information for identifying the specific block can be stored.

The authentication function unit 240 checks the authentication code through the reference address, checks the verification code by referring to an authentication address other than the reference address, and authenticates whether the authentication code matches the verification code. Can be. Meanwhile, when the block identification information is stored in the reference address and the authentication address, the authentication function unit 240 stores the information stored in the reference address and the authentication address through the block identification information of the reference address and the block identification information of the authentication address. Information can be matched. According to the method of the present invention, the withdrawal function unit 225 uses the withdrawal target electronic wallet to withdraw the withdrawal target cryptocurrency unit when the authentication code is matched with the verification code through the authentication function unit 240. It is desirable to perform the function of withdrawing.

Referring to FIG. 2, the smart contract 210 implements a function of storing cryptocurrency withdrawal information including the withdrawal target electronic wallet information and the cryptocurrency unit withdrawn from the withdrawal target electronic wallet in a designated storage area. The storage function 230 further includes.

When performing the function of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet through the withdrawal function unit 225, the storage function unit 230 includes the withdrawal target electronic wallet information and the withdrawal target. Construct cryptocurrency withdrawal information including cryptocurrency units with electronic wallet and store them in the designated storage area. Preferably, the designated storage area for storing the cryptocurrency withdrawal information may include a storage area for storing the state of the smart contract 210 or a separate storage area set for storing the cryptocurrency withdrawal information. Meanwhile, according to an embodiment method, the designated storage area may include a storage area for storing transactions of cryptocurrency, whereby the present invention is not limited thereto.

3 is a diagram illustrating a process of registering a smart contract 210 in the node device 205 of the blockchain network 200 according to an embodiment of the present invention.

In more detail, Figure 3 illustrates a blockchain-based smart contract 210 that will be used as a medium for exchange-based cryptocurrency transactions or as an escrow medium for cryptocurrency transactions between electronic wallets. As an example of a process of registering in the present invention, a person having ordinary skill in the art to which the present invention pertains may refer to and / or modify the present drawing 3 to perform various methods (e.g., a part) of the process. Steps may be omitted, or the order of implementation may be changed), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG. .

Referring to FIG. 3, the operation server 100 is a blockchain-based smart contract 210 that includes a program code-based function to be used as a medium for exchange-based cryptocurrency transactions or as an escrow medium for cryptocurrency transactions between electronic wallets. (300), and performs a registration procedure of registering the smart contract 210 with the M node devices 205 provided on the designated blockchain network 200 supporting the smart contract 210; 305, the node device 205 on the blockchain network 200 receives the smart contract 210 and performs a procedure of registering the data in a designated storage area (310). When the smart contract 210 is registered in the node device 205 on the blockchain network 200, the operation server 100 uses the smart contract 210 as a medium for exchange-based cryptocurrency trading or electronically. Cryptocurrency transactions can be provided as an escrow medium for cryptocurrency transactions between wallets.

4 is a diagram illustrating an information registration process for cryptocurrency transactions according to an embodiment of the present invention.

In more detail, FIG. 4 illustrates a process of registering user information, exchange wallet information, and electronic wallet information on the blockchain network 200 with the exchange server 170 (or the operation server 100) through the user terminal 180. As an embodiment of the present invention, a person skilled in the art to which the present invention pertains may refer to and / or modify the present invention, and various implementation methods (for example, some steps may be omitted). Or an implementation method in which the order is changed), but the present invention includes all the implementation methods inferred above, and the technical features are not limited to the implementation method shown in FIG. Meanwhile, according to an implementation method, the exchange server 170 (or the operation server 100) of FIG. 4 may use the account information of the user's name (eg, exchange / purchase of an exchange-based cryptocurrency transaction) for an exchange-based cryptocurrency transaction. Although the procedure of registering and storing the virtual account or the real account for depositing the real money) may be performed, the process of registering the account information will be omitted for convenience.

Referring to FIG. 4, the user terminal 180 receives user information to be registered as a member of a designated cryptocurrency exchange (400), and an exchange server 170 (or an operation server 100) corresponding to the cryptocurrency exchange. The user information is requested to be registered (405).

The exchange server 170 (or the operation server 100) receives the user information (410), after performing at least one identity verification process based on the user information (415), when the identity verification confirmation The user information is stored in a designated storage medium (420), and the registration result of the user information is provided to the user terminal 180 (425), and the user terminal 180 receives / outputs the registration result of the user information. (430).

Meanwhile, the user terminal 180 requests the exchange server 170 (or the operation server 100) to generate and / or register an exchange wallet of a user name corresponding to the user information (435), and the exchange server ( 170 (or the operation server 100) generates an exchange wallet of the user name based on the user information (440). If an exchange wallet of the user name is generated, the exchange server 170 (or the operation server 100) stores the user information and the exchange wallet information of the user's name in association with 445 and registers the exchange wallet information. The result is provided to the user terminal 180 (450), and the user terminal 180 receives / outputs the registration result of the exchange wallet information (455).

Meanwhile, the user terminal 180 performs a procedure for generating a valid electronic wallet valid on the blockchain network 200 (460), or checks the electronic wallet information effectively generated on the blockchain network 200 ( In operation 460, the user requests registration of valid electronic wallet information on the blockchain network 200 (465). The exchange server 170 (or the operation server 100) receives valid electronic wallet information on the blockchain network 200 (470) and performs a procedure for validating the electronic wallet information (475). ). For example, the exchange server 170 (or the operation server 100) is the smart contract 210 via the user terminal 180 a predetermined cryptocurrency deposited in the electronic wallet corresponding to the electronic wallet information. Request a deposit process and / or perform a designated procedure for the deposit process, or send a predetermined cryptocurrency to an electronic wallet corresponding to the received / confirmed electronic wallet information, and then send it to the smart contract 210. A request for deposit processing and / or a procedure specified for the deposit processing may be performed, and electronic wallet information corresponding to an electronic wallet in which a predetermined cryptocurrency is deposited with the smart contract 210 may be stored on the blockchain network 200. Can be verified with a valid electronic wallet.

If the validity of the registered electronic wallet information is verified, the exchange server 170 (or the operation server 100) associates the electronic wallet information with the user information and / or exchange wallet information of the user name. In operation 480, the registration result of the electronic wallet information is provided to the user terminal 180 (485), and the user terminal 180 receives / outputs the registration result of the electronic wallet information (490).

5 is a diagram illustrating a cryptocurrency depositing process with a smart contract 210 according to an embodiment of the present invention.

In more detail, FIG. 5 illustrates a process of depositing a cryptocurrency designated as a smart contract 210 registered in a node device 205 on the blockchain network 200 in a valid electronic wallet on the blockchain network 200. As an example, the person skilled in the art to which the present invention pertains may refer to, and / or modify, the present invention in various manners (e.g., some steps may be omitted or ordered). It can be inferred that the modified implementation method), but the present invention includes all the implementation methods inferred above, the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 5, the user terminal 180 may use the contract address of the smart contract 210 to deposit a cryptocurrency unit designated as the smart contract 210 registered in the node device 205 on the blockchain network 200. (500), a smart contract corresponding to the contract address is assigned a designated cryptocurrency unit deposited in a valid electronic wallet on the blockchain network 200 through the node device 205 on the blockchain network 200 ( The deposit request is made to 210 (505).

The node device 205 on the blockchain network 200 performs a procedure of depositing a designated cryptocurrency unit deposited in a valid electronic wallet on the blockchain network 200 with the smart contract 210 corresponding to the contract address. In operation 510, the cryptocurrency deposit information obtained by depositing the designated cryptocurrency unit deposited in the valid electronic wallet on the blockchain network 200 into the smart contract 210 corresponding to the contract address is stored in the designated storage area. It is stored (515).

The operation server 100 checks and reads the cryptocurrency deposit information in association with the node device 205 on the blockchain network 200 to confirm a new deposit state of the cryptocurrency unit designated by the smart contract 210. (520). If the new deposit state of the cryptocurrency unit designated as the smart contract 210 is confirmed, the operation server 100 generates transaction information corresponding to the state in which the cryptocurrency unit designated as the smart contract 210 is deposited. The data is stored and managed in the designated storage medium (525).

FIG. 6 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in the smart contract 210 according to the first embodiment of the present invention.

In more detail, in FIG. 6, when the operation server 100 determines the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit to withdraw the cryptocurrency deposited in the smart contract 210 and registers it in the preset reference address area, the block The smart contract 210 registered in the node device 205 on the chain network 200 checks the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit stored in the reference address, and the withdrawal target cryptocurrency with the withdrawal target electronic wallet. As an example of a process of drawing out a unit, a person having ordinary skill in the art to which the present invention pertains may refer to and / or modify this drawing 6 to implement various methods (e.g., Some steps may be omitted, or the order of implementation may be altered, but the present invention may include all implementation methods inferred above. It is made, the technical features are not limited only to the implementation method shown in FIG.

Referring to Figure 6, the operation server 100 withdraws the target electronic wallet information and withdrawal target cryptocurrency to withdraw the cryptocurrency deposited in the smart contract 210 in conjunction with the specified cryptocurrency trading procedures performed through the cryptocurrency exchange Determine the unit (600). If the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined, the operation server 100 registers and stores the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit in a preset reference address area (605). In operation 610, a procedure for driving the smart contract 210 registered in the node device 205 on the blockchain network 200 is performed.

The smart contract 210 executed in the node device 205 on the blockchain network 200 checks the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit with reference to a preset reference address (615), and the smart contract. In step 620, a procedure for withdrawing the target cryptocurrency unit withdraws to the withdrawal target electronic wallet.

If the withdrawal target cryptocurrency unit is withdrawn via the smart contract 210 with the withdrawal target electronic wallet, the smart contract 210 executed by the node device 205 withdraws the target cryptocurrency with the withdrawal target electronic wallet. Cryptocurrency withdrawal information from which the unit is withdrawn is constructed and stored in the designated storage area (625).

On the other hand, the operation server 100 checks the state in which the withdrawal target cryptocurrency unit is withdrawn to the withdrawal target electronic wallet in conjunction with the node device 205 on the blockchain network 200 (630). If it is confirmed that the withdrawal target cryptocurrency unit is withdrawn to the withdrawal target electronic wallet, the operation server 100 generates transaction information corresponding to the withdrawn withdrawal target cryptocurrency unit with the withdrawal target electronic wallet The storage is stored in a designated storage medium and managed (635).

7 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing the cryptocurrency deposited in the smart contract 210 according to the second embodiment of the present invention.

In more detail, FIG. 7 further includes a process of registering and storing the electronic wallet information to be withdrawn and block identification information identifying a specific block associated with the withdrawal target cryptocurrency unit in the process of FIG. Even when multiple withdrawal target electronic wallet information and withdrawal target cryptocurrency units are stored in multiple registrations, the withdrawal target electronic wallet information and withdrawal target cryptocurrency unit corresponding to each viewpoint (or block) are identified. As a drawing showing an embodiment of the process of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet, if the person having ordinary knowledge in the technical field to which the present invention belongs, reference and / or this figure 7 May be modified to infer various implementations of the process (e.g., implementations with some steps omitted or reordered). As will be appreciated, the present invention includes all implementation methods inferred, and the technical features are not limited only to the implementation method illustrated in FIG.

Referring to FIG. 7, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. Identify block identification information identifying a specific block to be associated with a cryptocurrency unit (700), register and store the withdrawal target electronic wallet information, withdrawal target cryptocurrency unit, and the identified block identification information in a preset reference address area; In operation 710, a procedure for driving the smart contract 210 registered in the node device 205 on the blockchain network 200 is performed.

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (715), the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the identified block identification information with reference to a predetermined reference address (720), the smart contract 210 In step 725, the withdrawal target cryptocurrency unit is withdrawn to the withdrawal target electronic wallet. Thereafter, the smart contract 210 constructs cryptocurrency withdrawal information from which the withdrawal target cryptocurrency unit is drawn out with the withdrawal target electronic wallet and stores and stores it in a designated storage area as shown in FIG. 6. ) Checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in conjunction with the node device 205, generates transaction information corresponding to the withdrawal target electronic wallet, and stores and manages it in a designated storage medium.

8 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in the smart contract 210 according to the third embodiment of the present invention.

In more detail, FIG. 8 is a smart contract 210 intelligently withdrawing target electronic wallet information by adding a process of validating the withdrawal target electronic wallet information and / or the withdrawal target cryptocurrency unit based on the process of FIG. And / or a diagram illustrating an embodiment of a process of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet while verifying the validity of the withdrawal target cryptocurrency unit. Persons having ordinary skill in the art may refer to and / or modify this drawing 8 to infer various implementation methods (e.g., implementation steps in which some steps are omitted or reordered) for the above-described process. It is made including all implementation methods, the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 8, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. Check block identification information identifying a specific block to be associated with a cryptocurrency unit (800), generate verification information for validating the withdrawal target electronic wallet information and / or withdrawal target cryptocurrency unit (805), The fetch target electronic wallet information, the fetch target cryptocurrency unit, and the identified block identification information are registered and stored in a preset reference address area (810), and the generated verification information and the block identification information are stored in a preset verification address area. After registering and storing (810), the procedure for driving the smart contract 210 registered in the node device 205 on the blockchain network 200 is performed (815).

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (820), and check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the identified block identification information with reference to the predetermined reference address (820), see the preset verification address After verifying verification information associated with the block identification information (825), the validity of the withdrawal target electronic wallet information and / or withdrawal target cryptocurrency unit is verified through the verification information (830).

If the validity of the withdrawal target electronic wallet information and / or the withdrawal target cryptocurrency unit is verified, the smart contract 210 executed in the node device 205 is withdrawn to the withdrawal target electronic wallet through the smart contract 210. The procedure of withdrawing the target cryptocurrency unit is performed (835). Thereafter, the smart contract 210 constructs cryptocurrency withdrawal information from which the withdrawal target cryptocurrency unit is drawn out with the withdrawal target electronic wallet and stores and stores it in a designated storage area as shown in FIG. 6. ) Checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in conjunction with the node device 205, generates transaction information corresponding to the withdrawal target electronic wallet, and stores and manages it in a designated storage medium.

9 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing the cryptocurrency deposited in the smart contract 210 according to the fourth embodiment of the present invention.

In more detail, FIG. 9 adds a process of authenticating whether the withdrawal target electronic wallet information is in connection with the exchange wallet information based on the process of FIG. 7 so that the smart contract 210 intelligently withdraws the target electronic wallet information from the exchange. As a drawing showing an embodiment of the process of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet while authenticating whether it is associated with wallet information, a person having ordinary knowledge in the technical field to which the present invention belongs, Although various implementations (e.g., some steps may be omitted, or the order of implementation) may be inferred for the above processes by referring to and / or modifying this drawing, the present invention is directed to all the inferred implementation methods. It is made, including, and the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 9, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. The block identification information identifying the specific block to be associated with the cryptocurrency unit is checked (900), and the exchange wallet information associated with the withdrawal target electronic wallet information is checked (905). If the exchange wallet information associated with the withdrawal target electronic wallet information is not confirmed, the operation server 100 may perform a procedure of associating the withdrawal target electronic wallet information with the exchange wallet information under the user's name (910). ).

On the other hand, if the exchange wallet information associated with the withdrawal target electronic wallet information is confirmed, and generates the link state confirmation information for checking the linkage state of the withdrawal target electronic wallet information and the exchange wallet information (915), the withdrawal target electronics Register and store the wallet information, the target cryptocurrency unit and the identified block identification information in a preset reference address area (920), and register and store the generated link state confirmation information and the block identification information in a preset confirmation address area. Then, in step 920, a procedure for driving the smart contract 210 registered in the node device 205 on the blockchain network 200 is performed (925).

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (930), check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the identified block identification information with reference to the preset reference address (935), and refer to the preset confirmation address; After confirming the linkage status check information associated with the block identification information (935), through the linkage status check information to authenticate the link state of the withdrawal target electronic wallet information and exchange wallet information (940).

If the connection state between the withdrawal target electronic wallet information and the exchange wallet information is authenticated, the smart contract 210 executed in the node device 205 is a target currency for withdrawal to the withdrawal target electronic wallet through the smart contract 210. The procedure of withdrawing the unit is performed (945). Thereafter, the smart contract 210 constructs cryptocurrency withdrawal information from which the withdrawal target cryptocurrency unit is drawn out with the withdrawal target electronic wallet and stores and stores it in a designated storage area as shown in FIG. 6. ) Checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in conjunction with the node device 205, generates transaction information corresponding to the withdrawal target electronic wallet, and stores and manages it in a designated storage medium.

FIG. 10 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in a smart contract 210 according to a fifth embodiment of the present invention.

In more detail, in FIG. 10, the smart contract 210 intelligently extracts the target electronic wallet information from the user information by adding a process of authenticating whether the target electronic wallet information is linked to the user information based on the process of FIG. 7. Figure 1 is a view showing an embodiment of the process of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet while verifying that the state associated with, if the person having ordinary knowledge in the technical field to which the present invention belongs, Reference may be made to and / or modifications to 10 to infer various implementations of the process (e.g., implementations in which some steps have been omitted or reordered), although the present invention includes all implementations inferred above. The technical features are not limited only to the implementation method illustrated in FIG. 10.

Referring to FIG. 10, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. The block identification information identifying the specific block to be associated with the cryptocurrency unit is checked (1000), and the user information associated with the withdrawal target electronic wallet information is checked (1005). If user information associated with the withdrawal target electronic wallet information is not confirmed, the operation server 100 may perform a procedure of associating the withdrawal target electronic wallet information with user information under a user name (1010).

On the other hand, if the user information associated with the withdrawal target electronic wallet information is confirmed, generating linkage status confirmation information for confirming the linkage state of the withdrawal target electronic wallet information and the user information (1015), the withdrawal target electronic wallet information Register and store the withdrawal target cryptocurrency unit and the identified block identification information in a preset reference address area (1020), and register and store the generated linkage status confirmation information and the block identification information in a preset confirmation address area. In operation 1025, a procedure for driving the smart contract 210 registered in the node device 205 on the blockchain network 200 is performed.

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (1030), check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the identified block identification information with reference to the predetermined reference address (1035), and reference the preset confirmation address After confirming the linkage status check information associated with the block identification information (1035), through the linkage status check information and authenticates the link state of the electronic wallet information and the user information to be extracted (1040).

If the connection state between the withdrawal target electronic wallet information and the user information is authenticated, the smart contract 210 executed in the node device 205 is withdrawn into the withdrawal target electronic wallet through the smart contract 210. Perform the procedure to withdraw (1045). Thereafter, the smart contract 210 constructs cryptocurrency withdrawal information from which the withdrawal target cryptocurrency unit is drawn out with the withdrawal target electronic wallet and stores and stores it in a designated storage area as shown in FIG. 6. ) Checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in conjunction with the node device 205, generates transaction information corresponding to the withdrawal target electronic wallet, and stores and manages it in a designated storage medium.

11 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in the smart contract 210 according to the sixth embodiment of the present invention.

More specifically, FIG. 11 confirms the cryptocurrency balance information of the exchange wallet linked to the withdrawal electronic wallet information based on the process of FIG. 7 and verifies whether the withdrawal target cryptocurrency unit is within the cryptocurrency balance information of the exchange wallet. The smart contract 210 intelligently authenticates whether the withdrawal target cryptocurrency unit is a valid unit that can be withdrawn while drawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet. As those skilled in the art to which the present invention pertains, various implementation methods (e.g., some steps may be omitted or the order may be changed) are described with reference to and / or modification of the drawing. It may be inferred, but the present invention includes all the implementation methods inferred, Only the exemplary method shown in plane 11 is not limited its technical characteristics.

Referring to FIG. 11, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. The block identification information identifying the specific block to be associated with the cryptocurrency unit is checked (1100), and the exchange wallet information associated with the withdrawal target electronic wallet information is checked (1105). If the exchange wallet information associated with the withdrawal target electronic wallet information is not confirmed, the operation server 100 may perform a procedure of associating the withdrawal target electronic wallet information with the exchange wallet information under the user's name (1110). ).

Meanwhile, when the exchange wallet information associated with the withdrawal target electronic wallet information is confirmed, the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information is checked (1115), and the withdrawal target electronic wallet information and withdrawal target Register and store the cryptocurrency unit and the identified block identification information in the preset reference address area (1120), and register and store the verified cryptocurrency balance information and the block identification information in the preset verification address area (1120). In operation 1125, a procedure for driving the smart contract 210 registered in the node device 205 on the blockchain network 200 is performed.

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (1130), check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the identified block identification information with reference to the preset reference address (1135), and refer to the preset confirmation address; After confirming the cryptocurrency balance information associated with the block identification information (1135), it is authenticated whether the withdrawal target cryptocurrency unit is within a range within the cryptocurrency balance information of the checked exchange wallet (1140).

If the withdrawal target cryptocurrency unit is within a range within the cryptocurrency balance information of the checked exchange wallet, the smart contract 210 executed in the node device 205 is subject to withdrawal through the smart contract 210. The procedure for withdrawing the cryptocurrency unit to be withdrawn with the electronic wallet is performed (1145). Thereafter, the smart contract 210 constructs cryptocurrency withdrawal information from which the withdrawal target cryptocurrency unit is drawn out with the withdrawal target electronic wallet and stores and stores it in a designated storage area as shown in FIG. 6. ) Checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in conjunction with the node device 205, generates transaction information corresponding to the withdrawal target electronic wallet, and stores and manages it in a designated storage medium.

12 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in the smart contract 210 according to the seventh embodiment of the present invention.

More specifically, FIG. 12 uses one or more information including at least one information (or at least partial information of at least one information) to be stored in the reference address area in the operation server 100 based on the process of FIG. 7. Register and store the verification code generated in the authentication address area other than the reference address, and the smart contract 210 includes at least one information (or at least partial information of the at least one information) identified with reference to the reference address. Generating a verification code using one or more pieces of information, verifying a verification code by referring to an authentication address other than the reference address, and verifying that the verification code matches the verification code by adding a smart contract 210. Withdraw) while performing two-channel authentication (eg, a channel corresponding to a different reference address and authentication address) with the operation server 100 As an example of a process of withdrawing the target cryptocurrency unit with a target electronic wallet, a person having ordinary knowledge in the technical field to which the present invention pertains may refer to and / or modify this drawing 12 Various implementation methods (e.g., some steps may be omitted, or the order of implementation changes) for the process may be inferred, but the present invention includes all the implementation methods inferred above, as shown in FIG. The technical features are not limited only by the implementation method.

Referring to FIG. 12, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. Identify block identification information identifying a specific block to be associated with a cryptocurrency unit (1200); and include one or more information including at least one information (or at least partial information of at least one information) to be stored in the reference address area. Generate a specified verification code using the 1205.

If the verification code is generated, the operation server 100 registers and stores the withdrawal target electronic wallet information, withdrawal target cryptocurrency unit, and the identified block identification information in a preset reference address area (1210). Register the stored verification code and the block identification information in an authentication address area other than the reference address (1210), and then drive the smart contract 210 registered in the node device 205 on the blockchain network 200. Perform the procedure (1215).

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (1220), and check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit associated with the identified block identification information with reference to the predetermined reference address (1225), with reference to the reference address Generate an authentication code using one or more pieces of information including at least one piece of information (or at least partial information of the at least one piece of information) (1230), and verify the verification code by referring to an authentication address other than the reference address. In operation 1240, the authentication code matches whether the authentication code matches the verification code.

If the authentication code matches the verification code, the smart contract 210 executed in the node device 205 performs the procedure of withdrawing the withdrawal target cryptocurrency unit to the withdrawal target electronic wallet through the smart contract 210. (1245). Thereafter, the smart contract 210 constructs cryptocurrency withdrawal information from which the withdrawal target cryptocurrency unit is drawn out with the withdrawal target electronic wallet and stores and stores it in a designated storage area as shown in FIG. 6. ) Checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in conjunction with the node device 205, generates transaction information corresponding to the withdrawal target electronic wallet, and stores and manages it in a designated storage medium.

FIG. 13 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing a cryptocurrency deposited in the smart contract 210 according to the eighth embodiment of the present invention.

More specifically, FIG. 13 includes at least one information (or at least partial information of at least one information) to be stored in an authentication address area other than a reference address in the operation server 100 based on the process of FIG. 7. Generates an authentication code to be stored in the reference address area by using one or more information, registers and stores the authentication code in the reference address area, and the smart contract 210 confirms the authentication code specified through the reference address, and other than the reference address. Generating a verification code using at least one information including at least one information (or at least partial information of at least one information) identified by referring to an authentication address, and authenticating whether the verification code matches the verification code In addition, the smart contract 210 to the operation server 100 and the two-channel authentication (for example, different reference address and authentication address A diagram showing an embodiment of the process of withdrawing the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet while performing a corresponding channel), if the person having ordinary knowledge in the technical field to which the present invention belongs, Reference may be made to 13 and / or modifications to infer various implementations of the process (e.g., implementations where some steps have been omitted or reordered), but the present invention includes all implementations inferred above. It is made, the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 13, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. Identify block identification information identifying a specific block to be associated with a cryptocurrency unit (1300), and include at least one information (or at least partial information of at least one information) to be stored in an authentication address area other than the reference address; An authentication code to be stored in the reference address area is generated using one or more pieces of information (1305).

If the authentication code is generated, the operation server 100 registers and stores the withdrawal target electronic wallet information, withdrawal target cryptocurrency unit, the generated authentication code, and the identified block identification information in a preset reference address area. 1310, after registering and storing at least one information including the block identification information in an authentication address area other than the reference address (1310), the smart device registered in the node device 205 on the blockchain network 200 A procedure of driving the contract 210 is performed (1315).

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (1320), and check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit and the authentication code associated with the identified block identification information with reference to a predetermined reference address (1325), the reference Confirm at least one information including the block identification information with reference to an authentication address other than the address (1325), and at least one information (or at least one information identified with reference to another authentication address other than the reference address) A verification code is generated using one or more pieces of information, including at least partial information of the information (1330), and the authentication code is matched with the verification code (1340).

If the authentication code matches the verification code, the smart contract 210 executed in the node device 205 performs the procedure of withdrawing the withdrawal target cryptocurrency unit to the withdrawal target electronic wallet through the smart contract 210. (1345). Thereafter, the smart contract 210 constructs cryptocurrency withdrawal information from which the withdrawal target cryptocurrency unit is drawn out with the withdrawal target electronic wallet and stores and stores it in a designated storage area as shown in FIG. 6. ) Checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in conjunction with the node device 205, generates transaction information corresponding to the withdrawal target electronic wallet, and stores and manages it in a designated storage medium.

14 is a diagram illustrating a process of implementing a designated cryptocurrency transaction by withdrawing the cryptocurrency deposited in the smart contract 210 according to the ninth embodiment of the present invention.

More specifically, FIG. 14 generates an authentication code designated by the operation server 100 based on the process of FIG. 7, registers and stores the authentication code in the reference address area, and stores the authentication code in another authentication address area other than the reference address. When registering and storing the verification code matched with the verification code, the smart contract 210 confirms the verification code specified through the reference address, checks the verification code by referring to another authentication address other than the reference address, and the authentication code. The smart contract 210 performs a two-channel authentication (eg, a channel corresponding to a different reference address and authentication address) with the operation server 100 by adding a process of authenticating whether the verification code matches the verification code. As a diagram illustrating an embodiment of a process of withdrawing a cryptocurrency unit to be withdrawn with a wallet, it is common knowledge in the technical field to which the present invention belongs. Persons having the present invention may refer to and / or modify this drawing 14 to infer various implementation methods (e.g., implementation steps in which some steps are omitted or changed in order) for the above-described process. It is made to include all the implementation methods, the technical features are not limited only to the implementation method shown in FIG.

Referring to FIG. 14, when the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined through the process of FIG. 6, the operation server 100 performs the withdrawal target electronic wallet information and withdrawal target. The block identification information identifying the specific block to be associated with the cryptocurrency unit is checked (1400), and a designated authentication code to be registered and stored in the reference address area is generated (1405).

If the authentication code is generated, the operation server 100 registers and stores the withdrawal target electronic wallet information, withdrawal target cryptocurrency unit, the generated authentication code, and the identified block identification information in a preset reference address area. 1410, after registering and storing the verification code corresponding to the authentication code and the block identification information in an authentication address area other than the reference address (1410), and then registering it in the node device 205 on the blockchain network 200. The procedure for driving the smart contract 210 is performed (1415).

The smart contract 210 executed in the node device 205 on the blockchain network 200 corresponds to a block to be generated (or to be generated) at a designated time point (eg, the current time point) through the blockchain network 200. Check the block identification information (1420), and check the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit and the authentication code with reference to the predetermined reference address (1425), the reference The verification code associated with the block identification information is checked with reference to an authentication address other than the address (1425), and the authentication code is verified whether the verification code matches the verification code (1435).

If the authentication code matches the verification code, the smart contract 210 executed in the node device 205 performs the procedure of withdrawing the withdrawal target cryptocurrency unit to the withdrawal target electronic wallet through the smart contract 210. After the 1440. The smart contract 210 configures the cryptocurrency withdrawal information obtained by withdrawing the cryptocurrency unit withdrawal with the withdrawal target electronic wallet as shown in FIG. 6, and stores and stores it in a designated storage area. The operation server 100 checks the withdrawal target cryptocurrency unit with the withdrawal target electronic wallet in association with the node device 205, generates corresponding transaction information, and stores and manages the corresponding transaction information in a designated storage medium.

100: operation server 105: blockchain interworking unit
110: contract register 115: deposit status check unit
120: withdrawal information determination unit 125: withdrawal information registration unit
130: contract driving unit 135: information confirmation unit
140: information register 145: code generation unit
150: code register 155: withdrawal status check unit
160: transaction information management unit
170: Exchange Server 180: User Terminal
200: blockchain network 205: node device
210: smart contract 215: with deposit function
220: reference function unit 225: withdrawal function unit
230: storage function unit 235: verification function unit
240: authentication function

Claims (19)

In a method executed through an operation server that operates a cryptocurrency transaction,
Valid withdrawal target electronic wallet information on the blockchain network with reference to a deposit function unit for depositing a designated cryptocurrency unit from a valid electronic wallet on a designated blockchain network and a preset reference address that can be referred to through a node device on the blockchain network. And a smart contract including a reference function for identifying a withdrawal target cryptocurrency unit and a program code for implementing a withdrawal function for withdrawing the identified withdrawal target cryptocurrency unit with the identified withdrawal target electronic wallet. A first step of performing a procedure of registering with M (M≥2) node devices provided on the blockchain network;
A second step of determining withdrawal target electronic wallet information and withdrawal target cryptocurrency unit to withdraw the cryptocurrency deposited in the smart contract;
A third step of identifying block identification information identifying a block to be linked to the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit based on the block related information identified in association with a node device on the blockchain network;
A fourth step of registering and storing the determined electronic wallet information, the digital currency unit to be extracted, and the block identification information in a preset reference address area;
Identifying a state in which the withdrawal target cryptocurrency unit associated with the block identification information is withdrawn with the withdrawal target electronic wallet associated with the block identification information through the smart contract with reference to a node device provided on the blockchain network; 5 steps; And
When the withdrawal target cryptocurrency unit is withdrawn through the smart contract via the smart contract, the withdrawal target electronic wallet generates transaction information corresponding to the withdrawal target withdrawal target cryptocurrency unit to the designated storage medium. The sixth step of storing; Multiple cryptocurrency transaction providing method using a blockchain based smart contract comprising a.
The method of claim 1,
After registering the smart contract with M node devices on the blockchain network,
Confirming a state in which a cryptocurrency unit designated as the smart contract is newly deposited by referring to a node device on the blockchain network; And
And when the cryptocurrency unit designated as the smart contract is newly deposited, generating transaction information corresponding to the state where the cryptocurrency unit designated as the smart contract is deposited and storing the transaction information in a designated storage medium. A method for providing multiple cryptocurrency transactions using blockchain based smart contracts.
The method of claim 1,
The second step may include determining a set of valid i (i≥1) withdrawal target electronic wallet information and i withdrawal target cryptocurrency units on the blockchain network,
The fourth step includes registering and storing the determined set of i withdrawal target electronic wallet information, i withdrawal target cryptocurrency unit, and the block identification information in the reference address area. A method for providing multiple cryptocurrency transactions using the smart contract.
The method of claim 1 or 3, wherein the block identification information,
Information identifying a particular block to be generated (or to be generated) via the blockchain network, or
A method for providing multiple cryptocurrency transactions using a blockchain-based smart contract, comprising: information identifying a specific block to be generated in the future after a block generated (or generated) through the blockchain network.
The method of claim 1,
In the case where the withdrawal target electronic wallet information is determined,
And generating and storing the verification information for validating the withdrawal target electronic wallet information in a preset verification address area, and using the blockchain-based smart contract.
The method of claim 1,
When determining the withdrawal target cryptocurrency unit,
And generating and storing verification information for validating the withdrawal target cryptocurrency unit in a predetermined verification address area, and using the blockchain-based smart contract.
The method of claim 1,
When the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined,
And generating and storing the verification information for validating the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit in a predetermined verification address area, and using the block chain-based smart contract. How to provide cryptocurrency trading.
The method according to claim 5 or 6 or 7, wherein the verification address is
A method for providing multiple cryptocurrency transactions using a blockchain-based smart contract, characterized in that it comprises the same address as the reference address.
The method according to claim 5 or 6 or 7, wherein the verification address is
A method for providing a multiple cryptocurrency transaction using a blockchain-based smart contract, comprising an address different from the reference address.
The method of claim 1,
In the case where the withdrawal target electronic wallet information is determined,
Confirming exchange wallet information associated with the determined withdrawal target electronic wallet information among exchange wallets created on a designated cryptocurrency exchange; And
And confirming the linked exchange wallet information, registering and storing the linked state confirmation information for confirming the linked state of the withdrawal target electronic wallet information and the exchange wallet information in a preset confirmation address area. A method for providing multiple cryptocurrency transactions using a blockchain-based smart contract.
The method of claim 1,
In the case where the withdrawal target electronic wallet information is determined,
Confirming user information associated with the determined to-be-extracted electronic wallet information among user information subscribed to a designated cryptocurrency exchange; And
And confirming the linked user information, registering and storing the linked status confirmation information for confirming the linked status of the electronic wallet information and the user information to be fetched in a preset confirmation address area. A method for providing multiple cryptocurrency transactions using a chain-based smart contract.
The method of claim 1,
When the withdrawal target electronic wallet information and the withdrawal target cryptocurrency unit are determined,
Confirming exchange wallet information associated with the determined withdrawal target electronic wallet information among exchange wallets created on a designated cryptocurrency exchange;
Checking the cryptocurrency balance information of the exchange wallet associated with the withdrawal target electronic wallet information when the linked exchange wallet information is confirmed; And
And registering and storing the verified cryptocurrency balance information in a preset confirmation address area.
The method according to claim 10 or 11 or 12, wherein the confirmation address,
A method for providing multiple cryptocurrency transactions using a blockchain-based smart contract, characterized in that it comprises the same address as the reference address.
The method according to claim 10 or 11 or 12, wherein the confirmation address,
A method for providing a multiple cryptocurrency transaction using a blockchain-based smart contract, comprising an address different from the reference address.
The method of claim 1,
Generating a specified verification code using one or more information including at least one information (or at least partial information of at least one information) to be stored in the reference address area; And
Registering and storing the generated verification code in the authentication address area other than the reference address; Multi-cryptocurrency transaction providing method using a blockchain-based smart contract characterized in that it further comprises.
The method of claim 1,
Generating an authentication code to be registered and stored in the reference address area by using one or more information including at least one information (or at least partial information of at least one information) to be stored in another authentication address area other than the reference address; And
Registering and storing the generated authentication code in the reference address area; Multi-cryptocurrency transaction providing method using a blockchain-based smart contract, characterized in that further comprises.
The method of claim 1,
Generating a designated authentication code to be stored in the reference address area;
Registering and storing the generated authentication code in the reference address area;
Registering and storing the verification code matched with the authentication code in the authentication address area other than the reference address; Multiple cryptocurrency transaction providing method using a blockchain-based smart contract, characterized in that it further comprises.
The method of claim 1, wherein the fifth step is
And checking the withdrawal target electronic wallet information stored in a designated storage area and the cryptocurrency withdrawal information including the cryptocurrency unit withdrawn with the withdrawal target electronic wallet by referring to a node device on the blockchain network. A method for providing multiple cryptocurrency transactions using a blockchain-based smart contract.
The method of claim 18, wherein the designated storage area,
Storage to store the state of the smart contract, or
A method for providing multiple cryptocurrency transactions using a blockchain-based smart contract, comprising a separate storage area set for storing the cryptocurrency withdrawal information.