KR20210156776A - System and method for Private key recovery using recovery transaction - Google Patents

Abstract

The present invention relates to a private key recovering system using a recovery transaction and a method thereof which comprise: a first terminal configured to generate an electronically signed recovery transaction including a first electronic wallet address, a remittance amount, and a second electronic wallet address and transmit it to a private key recovering server; and the private key recovering server including a receiving module for receiving a recovery transaction from the first terminal, a storage module for storing the recovery transaction received by the receiving module, a determination module for determining whether recovery request information is genuine when receiving preset recovery request information from the first terminal or the second terminal, a propagation module for propagating a corresponding recovery transaction stored in a recovery transaction storage unit to a blockchain network if it is determined that the recovery request information is genuine, and a transmission module for transmitting a private key of the second electronic wallet address to the first terminal or the second terminal which transmits the recovery request information if cryptocurrency is received at the second electronic wallet address corresponding to the recover transaction through blockchain network propagation of the recovery transaction. According to the present invention, provided are the private key recovering system using a recovery transaction and the method thereof which move cryptocurrency in an electronic wallet of a user to an electronic wallet for recovery through a recovery transaction and transfer a private key of the electronic wallet for recovery to the user by generating the recovery transaction, which is propagated to a blockchain network, in advance when the user loses the private key of the electronic wallet of the user, thereby enabling the user to recover the cryptocurrency of the user even though the user losses the private key.

Description

{System and method for Private key recovery using recovery transaction}

The present invention relates to a private key recovery system and method using a recovery transaction, and more particularly, to a private key recovery server by generating an electronically signed recovery transaction including a first electronic wallet address, a remittance amount, and a second electronic wallet address. a first terminal that transmits to; and a reception module for receiving a recovery transaction from the first terminal, a storage module for storing the recovery transaction received in the reception module, and when receiving preset recovery request information from the first terminal or the second terminal, the authenticity of the recovery request information A determination module for judging whether or not the recovery request information is true, a propagation module for propagating the corresponding recovery transaction stored in the recovery transaction storage unit to a block chain network, and a block chain network propagation of the recovery transaction to propagate the recovery transaction A private key recovery server comprising a transmission module that, when cryptocurrency is received to the second electronic wallet address corresponding to It relates to a private key recovery system and method using a recovery transaction including ;.

The present invention is a technology related to blockchain.

Cryptocurrency transactions using blockchain are made by a distributed database based on peer-to-peer network (P2P), and transactions are performed based on public key cryptography.

Cryptocurrency having such a payment method can be used without information such as card number, expiration date, CCV number, etc. required for credit card payment, so there is an advantage that the risk of theft is extremely small and the usage fee is low.

In addition, cryptocurrency is stored in the form of a wallet file, and each unique address, that is, a public address (hereinafter referred to as an electronic wallet address) and a private key corresponding to a password (hereinafter referred to as a private key) is given to the wallet. Transactions between users using cryptocurrency are made based on the address called public address.

As such, cryptocurrencies include Bitcoin, Litecoin, Darkcoin, Namecoin, Dogecoin, and Ripple, etc., and their common feature is that the transaction history of traders using cryptocurrencies including Bitcoin is collected. Since the stored block chain is stored in the electronic wallet, Bitcoin, Litecoin, Darkcoin, Namecoin, Dogecoin, and Ripple are collectively referred to as cryptocurrency.

These cryptocurrencies are stored in an individual's electronic wallet, and a private key is required to deposit and withdraw them.

In general, the private key is made up of various combinations that cannot be stolen by others, but it is difficult for the user to memorize and use the private key because it consists of random letters and numbers.

In addition, the moment the private key is leaked, other people can deposit and withdraw the cryptocurrencies stored in their electronic wallet, so special attention is required in managing the private key.

Accordingly, most users prevent the leakage of their private keys in various ways, such as storing them in USB and storing them separately, or printing them out on A4 paper and storing them for safety from hacking.

However, if the USB containing the private key is lost or the A4 paper on which the private key is printed is lost, the private key cannot be retrieved and the cryptocurrency of the electronic wallet cannot be used.

In addition, if a user who knows the location of the private key dies or is in a situation where the private key and electronic wallet address cannot be delivered, the cryptocurrency of the electronic wallet cannot be used by anyone.

Therefore, currently, the private key is stored in the cloud server or stored using a site that stores the key, but in this case, it is true that the risk of hacking is potential because it is always connected online.

Although the technology that is the background of the present invention is disclosed in Korean Patent Registration No. 10-0377196, etc., a fundamental solution to the above-described problem is not presented.

Republic of Korea Patent Publication No. 10-0377196

The purpose of the present invention, which has been devised to solve the above-described problems, is to generate a recovery transaction that is not propagated to the blockchain network in advance and, if the user loses the private key of his/her e-wallet, the user himself/herself through the recovery transaction By moving the cryptocurrency in the electronic wallet of To provide a system and method.

In addition, another object of the present invention is to provide data that the user has set in advance or documents proving the relationship between the user and the user when the user is dead or unable to express his/her intention to deliver the electronic wallet and private key to the heir or donor. If the administrator confirms this and propagates the recovery transaction, it is possible to deliver the private key of the recovery e-wallet to the heir or donor, so it is possible to protect assets more safely. is to provide

According to a feature of the present invention for achieving the above object, the private key recovery system using the recovery transaction of the present inventor is an electronically signed recovery transaction including a first electronic wallet address, a remittance amount, and a second electronic wallet address. a first terminal for generating and transmitting a private key recovery server; and a reception module for receiving a recovery transaction from the first terminal, a storage module for storing the recovery transaction received in the reception module, and when receiving preset recovery request information from the first terminal or the second terminal, the authenticity of the recovery request information A determination module for judging whether or not the recovery request information is true, a propagation module for propagating the corresponding recovery transaction stored in the recovery transaction storage unit to a block chain network, and a block chain network propagation of the recovery transaction to propagate the recovery transaction A private key recovery server comprising a transmission module that, when cryptocurrency is received to the second electronic wallet address corresponding to includes ;

In addition, the storage module may include: a member information storage module for storing member information of one or more first terminals; an electronic wallet address generation module that generates and matches a second electronic wallet address for each member information; and detecting the second electronic wallet address included in the recovery transaction received from the receiving module, and storing the second electronic wallet address matched to the first terminal and the second electronic wallet address included in the recovery transaction if they match, It characterized in that it further comprises; a confirmation module for transmitting a confirmation request signal to the specific first terminal if they do not match.

In addition, the determination module is characterized in that if the recovery request information set in advance by the first terminal and the received recovery request information match, it is determined to be true.

In addition, the recovery request information is characterized in that it includes terminal information of two or more terminals, and the transmission module divides the private key of the second electronic wallet address according to the number of terminal information included in the recovery request information. It is characterized in that one or more private key sources are transmitted to each terminal.

In addition, the storage module determines the validity of the recovery transaction every preset time through the first electronic wallet address included in the recovery transaction, and if not valid, transmits a recovery transaction retransmission request signal to the first terminal do it with

According to a feature of the present invention for achieving the above object, the method for recovering a private key using a recovery transaction according to the present invention includes the steps of: (a) receiving a digitally signed recovery transaction from a first terminal; (b) storing the recovery transaction received in step (a); (c) determining whether the recovery request information is authentic when receiving preset recovery request information from the first terminal or the second terminal; (d) when it is determined that the recovery request information is true in step (c), propagating the recovery transaction stored in the recovery transaction storage unit to the blockchain network; and (e) when cryptocurrency is received to the second electronic wallet address corresponding to the recovery transaction through step (d), the first terminal or the second terminal that transmits the recovery request information for the private key of the second electronic wallet address and transmitting to the terminal.

In addition, the step (b) may include: (b1) storing member information of one or more first terminals; (b2) generating and matching a second electronic wallet address for each member information; and (b3) detecting the second electronic wallet address included in the recovery transaction received in step (a) so that the second electronic wallet address matched to the first terminal and the second electronic wallet address included in the recovery transaction are It is characterized by further comprising; storing the same if they do not match, and transmitting a confirmation request signal to the specific first terminal if they do not match.

In addition, in step (c), it is characterized in that if the recovery request information set in advance by the first terminal matches the received recovery request information, it is determined as true.

In addition, the recovery request information is characterized in that it includes terminal information of two or more terminals, and in step (d), the private key of the second electronic wallet address is added to the number of terminal information included in the recovery request information. It is characterized in that one or more divided private key sources are transmitted to each terminal.

In addition, in the step (b), the validity of the recovery transaction is determined every preset time through the first electronic wallet address included in the recovery transaction, and if not valid, a recovery transaction retransmission request signal is transmitted to the first terminal. characterized in that

According to the present invention as described above, when a user loses the private key of his/her e-wallet by creating a recovery transaction that is not propagated to the block chain network in advance, the cryptocurrency in the user's own electronic wallet is recovered through the recovery transaction It is possible to provide a private key recovery system and method using a recovery transaction that enables users to recover their own cryptocurrency even if the user loses the private key by moving it to the electronic wallet and transmitting the private key of the recovery electronic wallet to the user.

In addition, according to the present invention, when the user is dead or unable to express his/her intention, so that the electronic wallet and private key cannot be delivered to the heir or donor, data set by the user in advance or documents proving the relationship with the user are sent. After the administrator confirms this and propagates the recovery transaction, it is possible to deliver the private key of the recovery e-wallet to the heir or donor. can do.

1 is an exemplary diagram showing a private key recovery system and method using a recovery transaction according to an embodiment of the present invention;
2 is a block diagram showing the configuration of a private key recovery system using a recovery transaction according to an embodiment of the present invention;
3 is a flowchart illustrating a procedure of providing a method for recovering a private key using a recovery transaction according to an embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the art to which the present invention pertains It is provided to fully inform those who have the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, the present invention will be described with reference to the drawings for explaining a private key recovery system and method using a recovery transaction according to embodiments of the present invention.

The block chain in the present invention is a technology for distributed storage of transaction data, and after encrypting the transaction data in blocks, distributed storage is stored in one or more terminals through the network (10) (10), and these blocks are combined according to a rule It is a technology that forms a chain by

When a cryptocurrency transaction request occurs, the transaction is completed through approval of the block used for the transaction, and the cryptocurrency transaction is authenticated only after approval from one or more terminals.

The first terminal 200 and the second terminal 300 described throughout the present invention are, in general, preferably personal computers, notebook computers, and the like, but are not limited thereto.

That is, if transmission and reception with the private key recovery server 100 is possible by wire or wirelessly regardless of the terminal type, such as a mobile phone terminal, a smart phone terminal, a PDA terminal, a navigation terminal, or an Internet TV, the first terminal 200 and the second terminal (300).

1 is an exemplary diagram illustrating a private key recovery system and method using a recovery transaction according to an embodiment of the present invention, and FIG. 2 is a block diagram showing the configuration of a private key recovery system using a recovery transaction according to an embodiment of the present invention to be.

1 and 2 , the system for recovering a private key using a recovery transaction according to the present invention includes a first terminal 200 , a private key recovery server 100 , and a second terminal 300 .

The first terminal 200 generates an electronically signed recovery transaction including the first electronic wallet address, the remittance amount, and the second electronic wallet address and transmits it to the private key recovery server 100 .

Here, the recovery transaction refers to a transaction digitally signed by the first terminal 200 that has not been propagated to the block chain network 10, and a transaction is generated by digitally signing in an offline state, or connected to the private key recovery server 100 Thus, it is preferable to create a transaction by digitally signing it or to generate it through an application provided by the private key recovery server 100 .

That is, the recovery transaction is not propagated to the block chain network 10 at the time of creation, so that cryptocurrency remittance is not performed. It is preferable that the recovery transaction is propagated and transmitted through the propagation module 140 of the private key recovery server 100 .

The private key recovery server 100 includes a reception module 110 , a storage module 120 , a determination module 130 , a radio wave module 140 , and a transmission module 150 .

The receiving module 110 receives a recovery transaction from the first terminal 200 .

The storage module 120 stores the recovery transaction received in the reception module 110 .

Here, the storage module 120 further includes a member storage module 120 , an electronic wallet address generation module 124 , and a confirmation module 126 .

The member information storage module 122 stores member information of one or more first terminals 200 .

The electronic wallet address generation module 124 generates and matches a second electronic wallet address for each member information.

The confirmation module 126 detects the second electronic wallet address included in the recovery transaction received from the receiving module 110 and includes the second electronic wallet address matched with the first terminal 200 and the recovery transaction. If the second electronic wallet addresses are identical, they are stored, and if they do not match, a confirmation request signal is transmitted to the specific first terminal 200 .

That is, it is preferable that the storage module 120 minimizes errors in the recovery transaction during storage by checking whether the recovery transaction generated in the first terminal 200 includes the second electronic wallet address through the verification module.

Then, the storage module 120 determines the validity of the recovery transaction every preset time through the first electronic wallet address included in the recovery transaction, and if not valid, sends a recovery transaction retransmission request signal to the first terminal 200 to send

Here, the storage module 120 checks deposits and withdrawals through the first electronic wallet address every preset time to check the balance included in the recovery transaction and the balance existing in the first electronic wallet address, so that the balance included in the recovery transaction is returned. If it is greater than the balance in the first electronic wallet address, a retransmission signal is transmitted, and if the balance included in the recovery transaction is smaller than the balance in the first electronic wallet address, the recovery transaction is determined to be valid and stored.

The determination module 130, upon receiving preset recovery request information from the first terminal 200 or the second terminal 300, determines whether the recovery request information is authentic.

Here, the determination module 130 is characterized in that if the recovery request information set in advance by the first terminal 200 matches the received recovery request information, it is determined to be true.

The recovery request information may be a password, an image, a document, etc. set by the first terminal 200, and if it is determined that the stored data and the transmitted data match, it is preferable to determine this to be true.

In addition, the recovery request information may be generated in the form of personal documentary evidence of the user of the first terminal 200 or the user of the second terminal 300 .

When the recovery request information is generated and received in the form of a personal proof document of the user of the first terminal 200, the manager of the private key recovery server 100 checks the authenticity of the information, and if it is determined to be true when checking the authenticity, the recovery transaction stored in advance It is desirable to spread

That is, when the user of the first terminal 200 loses his/her private key and requests to execute a recovery transaction, it is preferable that the administrator directly confirm the identity of the user of the first terminal 200 to propagate the recovery transaction. do.

And, when the recovery request information is generated and received in the form of a personal proof document of the user of the second terminal 300, the manager of the private key recovery server 100 checks the authenticity of the proof document, and then the user and the first terminal 200 user It is desirable to determine the relationship between the users of the second terminal 300 and propagate the recovery transaction stored in advance when it is confirmed that the user's permission is obtained from the first terminal 200 or it is confirmed that the user of the first terminal 200 is in a state that cannot be allowed. .

That is, if the user of the first terminal 200 donates or inherits to a specific second terminal 300 , if the first terminal 200 does not express an intention for this, the second terminal 300 will prove this. If possible documents are submitted, it is desirable for the administrator to directly check the authenticity of the documents and to propagate the pre-stored recovery transaction.

The propagation module 140, when it is determined that the recovery request information is true, propagates the corresponding recovery transaction stored in the recovery transaction storage unit to the block chain network 10 .

That is, when the digitally signed recovery transaction is propagated through the propagation module 140, the cryptocurrency corresponding to the remittance amount among the cryptocurrencies of the first electronic wallet address is transferred to the second electronic wallet address from the time of propagation.

When a cryptocurrency is received to the second electronic wallet address corresponding to the recovery transaction through the block chain network 10 of the recovery transaction, the transmission module 150 restores the private key of the second electronic wallet address to the recovery request information. is transmitted to the first terminal 200 or the second terminal 300 that has transmitted the

Here, the recovery request information includes terminal information of two or more terminals.

The transmission module 150 transmits to each terminal one or more private key sources divided according to the number of terminal information included in the recovery request information for the private key of the second electronic wallet address.

That is, when the first terminal 200 is inherited or gifted to two or more second terminals 300 , the private key recovery server 100 divides the private key into two and transmits each of the two or more second terminals 300 . It is desirable that one cannot arbitrarily deposit and withdraw cryptocurrency of the second electronic wallet address.

3 is a flowchart illustrating a procedure of providing a method for recovering a private key using a recovery transaction according to an embodiment of the present invention.

Referring to FIG. 3 , first, a digitally signed recovery transaction is received from the first terminal 200 ( s110 ).

Then, the recovery transaction received in step (s110) is stored (s120).

Here, in step (s120), member information of one or more first terminals 200 is stored, and a second electronic wallet address is generated for each member information and matched.

Next, the second electronic wallet address included in the recovery transaction received in step (s110) is detected, and the second electronic wallet address matched to the first terminal 200 and the second electronic wallet address included in the recovery transaction are detected. If they match, they are stored, and if they do not match, a confirmation request signal is transmitted to the specific first terminal 200 (s130).

In addition, in the step (s130), the validity of the recovery transaction is determined every preset time through the first electronic wallet address included in the recovery transaction, and if not valid, a recovery transaction retransmission request signal to the first terminal 200 to send

Then, upon receiving preset recovery request information from the first terminal 200 or the second terminal 300 (s140), it is determined whether the recovery request information is authentic or not (s150)

Here, in step (s150), if the recovery request information set in advance by the first terminal 200 matches the received recovery request information, it is determined as true.

If it is determined in step (s150) that the recovery request information is true, the recovery transaction stored in the recovery transaction storage unit is propagated to the block chain network 10 (s160).

Finally, when cryptocurrency is received to the second electronic wallet address corresponding to the recovery transaction through the step (s160), the first terminal 200 that transmits the recovery request information for the private key of the second electronic wallet address or It is transmitted to the second terminal 300 (s170).

Here, the recovery request information is characterized in that it includes terminal information of two or more terminals, and in step (s170), the private key of the second electronic wallet address is added to the number of terminal information included in the recovery request information. It transmits one or more divided private key sources to each terminal.

Those of ordinary skill in the art to which the present invention pertains will understand that the present invention may be embodied in other specific forms without changing the technical spirit or essential features thereof. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. The scope of the present invention is indicated by the claims described below rather than the above detailed description, and all changes or modifications derived from the meaning and scope of the claims and their equivalent concepts are included in the scope of the present invention. should be interpreted

10: Blockchain Network 100: Private Key Recovery Server
110: receiving module 120: storage module
122: member information storage module 124: electronic wallet address generation module
126: confirmation module 130: judgment module
140: radio wave module 150: transmission module
200: first terminal 300: second terminal

Claims (10)

a first terminal for generating an electronically signed recovery transaction including the first electronic wallet address, the remittance amount, and the second electronic wallet address and transmitting the electronically signed recovery transaction to the private key recovery server; and
A reception module for receiving a recovery transaction from the first terminal, a storage module for storing the recovery transaction received in the reception module, and whether the recovery request information is authentic when receiving preset recovery request information from the first terminal or the second terminal a determination module for judging, a propagation module for propagating the corresponding recovery transaction stored in the recovery transaction storage unit to a blockchain network when it is determined that the recovery request information is true, and a block chain network propagation of the recovery transaction to the recovery transaction a private key recovery server including a transmission module for transmitting the private key of the second electronic wallet address to the first terminal or the second terminal that has transmitted the recovery request information when the cryptocurrency is received to the corresponding second electronic wallet address; A private key recovery system using a recovery transaction that includes According to claim 1, wherein the storage module,
a member information storage module for storing member information of one or more first terminals;
an electronic wallet address generation module that generates and matches a second electronic wallet address for each member information; and
The receiving module detects a second electronic wallet address included in the received recovery transaction, stores the second electronic wallet address matched to the first terminal, and matches the second electronic wallet address included in the recovery transaction If not, a confirmation module for transmitting a confirmation request signal to the specific first terminal; Private key recovery system using a recovery transaction, characterized in that it further comprises. According to claim 1, wherein the determination module,
The private key recovery system using a recovery transaction, characterized in that it is determined as true if the recovery request information set in advance by the first terminal and the received recovery request information match. According to claim 1, wherein the recovery request information,
It is characterized in that it includes terminal information of two or more terminals,
The transmission module is
A private key recovery system using a recovery transaction, characterized in that the private key of the second electronic wallet address is divided according to the number of terminal information included in the recovery request information, and one or more private key sources are transmitted to each terminal. According to claim 1, wherein the storage module,
An individual using a recovery transaction, characterized in that the validity of the recovery transaction is determined every preset time through the first electronic wallet address included in the recovery transaction, and if not valid, a recovery transaction retransmission request signal is transmitted to the first terminal key recovery system.
(a) receiving a digitally signed recovery transaction from the first terminal;
(b) storing the recovery transaction received in step (a);
(c) determining whether the recovery request information is authentic when receiving preset recovery request information from the first terminal or the second terminal;
(d) when it is determined that the recovery request information is true in step (c), propagating the recovery transaction stored in the recovery transaction storage unit to the blockchain network; and
(e) When cryptocurrency is received to the second electronic wallet address corresponding to the recovery transaction through step (d), the first or second terminal that transmits the recovery request information for the private key of the second electronic wallet address A method of recovering a private key using a recovery transaction, comprising the step of transmitting to The method of claim 6, wherein (b) step,
(b1) storing member information of one or more first terminals;
(b2) generating and matching a second electronic wallet address for each member information; and
(b3) The second electronic wallet address included in the recovery transaction received in step (a) is detected, and the second electronic wallet address matched to the first terminal matches the second electronic wallet address included in the recovery transaction The private key recovery method using a recovery transaction, characterized in that it further comprises; storing it if it does not match, and transmitting a confirmation request signal to the specific first terminal if it does not match. The method of claim 6, wherein the step (c),
The method of recovering a private key using a recovery transaction, characterized in that it is determined as true when the recovery request information set in advance by the first terminal matches the received recovery request information. The method of claim 6, wherein the recovery request information,
It is characterized in that it includes terminal information of two or more terminals,
Step (d) is,
A private key recovery method using a recovery transaction, characterized in that the private key of the second electronic wallet address is divided according to the number of terminal information included in the recovery request information, and one or more private key sources are transmitted to each terminal. The method of claim 6, wherein (b) step,
An individual using a recovery transaction, characterized in that the validity of the recovery transaction is determined every preset time through the first electronic wallet address included in the recovery transaction, and if not valid, a recovery transaction retransmission request signal is transmitted to the first terminal How to recover the key.

Images