KR20190098397A - Management method for private key of virtual money - Google Patents

Abstract

The present invention relates to a method for managing a private key of virtual money, to enable a user to use the held virtual money even if the private key of the user is lost. According to the present invention, the method for managing a private key of virtual money comprises the following steps: allowing a giver to receive a giver private key from an electronic wallet; allowing a recipient to receive a plurality of recipient private keys from the electronic wallet; allowing the recipient to generate a plurality of recipient public keys with the giver private keys; allowing the giver to generate a lock with the giver private keys; allowing the recipient to generate a recipient digital signature with at least some of the giver private keys; and allowing a user in a network to compare the lock with the digital signature of the giver to vary virtual money transactions.

Description

MANAGEMENT METHOD FOR PRIVATE KEY OF VIRTUAL MONEY}

The present invention relates to a method for managing a secret key of a virtual currency, and more particularly, to a method for managing a secret key of a virtual currency that allows a user to use a virtual currency that the user owns even if the user loses his secret key.

With the development of IT technologies and network technologies such as the Internet, e-commerce services are spreading. E-commerce typically involves business-to-business (B2B), business-to-person (B2C) business, business-to-person (C2C), and business-to-government. Business to government (B2G), which includes not only the transfer of money through wired or wirelessly connected network systems, but also a series of activities such as purchasing, shipping, marketing, and providing services. Can be.

Recently, virtual electronic money, that is, payment method using virtual currency, has been of interest.

Cryptocurrency is a digital currency or electronic money that is used in electronic form in a networked virtual space without realities such as bills or coins.It is issued and managed by a developer without government control and is a payment method that is used only in a specific virtual community. Say

Cryptocurrencies include Bitcoin, Namecoin, Aurora Coin, Dojicoin, Litecoin, Bytecoin, Ethereum, Dash, and Ripple, and their transactions are mainly peer-to-peer networks (P2P). It is made by a distributed database based.

The user's private key plays a very important role in the transaction of the virtual currency. If the user loses his private key, there is a problem in that the user cannot use the existing virtual currency.

The present invention has been made to solve the above problems, the technical problem to provide a secret key management method of cryptocurrency that can use the existing cryptocurrency even if the user lost his secret key. Shall be.

As a means for achieving the above object, the method for managing a secret key of a virtual currency according to the present invention includes a lock in the transaction information of the presenter and an electronic signature in the transaction information of the donor. A method for managing a secret key of a virtual currency, the method comprising: allowing the presenter to be issued a secret key of the presenter from an electronic wallet, allowing the beneficiary to be issued a plurality of beneficiary secret keys from the electronic wallet; Causing the beneficiary to generate public keys of the plurality of beneficiaries using the secret keys of the plurality of beneficiaries, causing the donor to generate a lock using the public keys of the plurality of beneficiaries; Allow a beneficiary to store the secret keys of the plurality of beneficiaries. Generating a digital signature of a beneficiary using at least some of the information; and allowing a user on a network to compare the lock and the digital signature of the beneficiary to verify the transaction of the cryptocurrency. The first feature is that the secret key of the recipient is stored separately in a separate storage device.

In addition, the separate separate storage device preferably includes a cloud, an Internet server, a personal PC, a fixed storage device, and a removable storage device.

Meanwhile, the method for managing a secret key of a cryptocurrency according to the present invention includes a secret key of a cryptocurrency that includes a lock in a transaction information of a donor, an electronic signature in a transaction information of a donor, and is applied to a transaction of a virtual currency made through an electronic wallet. A management method, comprising: causing the presenter to be issued a secret key of a donor from an electronic wallet; allowing the beneficiary to be issued a secret key of two or more beneficiaries from the electronic wallet; Allowing a third party to receive a third party's private key from an electronic wallet, and causing the recipient to generate a public key of two or more beneficiaries using the private keys of the two or more beneficiaries; Allow a third party to generate a third party's public key using the third party's private key Establishing a lock using the donor's public key and the third party's public key; and allowing the beneficiary to generate the lock; Generating a digital signature of a beneficiary using at least two private keys of a third party's secret key, and allowing a user on a network to compare the lock and the digital signature of the beneficiary to verify the transaction of the cryptocurrency. And the second and third private keys and the third party's private keys are stored separately in separate and separate storage devices.

Here, the separate separate storage device preferably includes a cloud, an internet server, a personal PC, a fixed storage device, and a removable storage device.

It is also preferred that the third party is a third party designated by the recipient.

In addition, the third party is preferably a plurality of people.

According to the present invention, even if a user loses his or her private key, the present invention can provide a secret key management method of a virtual currency that can use a virtual currency that the user already has.

1 is a conceptual diagram illustrating a donor's transaction and a recipient's transaction;

The configuration shown in the following embodiments or drawings is only a preferred example of the present invention, it turns out that there are various modifications that can replace it.

First, the transaction process of virtual currency will be described in detail.

An electronic wallet is required to trade cryptocurrencies. An electronic wallet generates and stores various keys such as a private key and a public key, and enables the trading of virtual currency using these keys. This program allows you to see the trading status of money.

Here, the public key is information that is open to anyone on the network, while the private key is information that is open to only one person or a few users. Knowing the secret key tells the public key, but vice versa.

The user creates his digital signature using his private key, for example the digital signature contains the secret key information. As such, the digital signature is generated using the user's private key, but can be verified only by the user's public key. Therefore, if there is an electronic signature, the public key can be used to determine whose electronic signature.

Transactions in cryptocurrencies are made by the donor (the one who sends the virtual currency), sending the cryptocurrency to the beneficiary (the person who receives the virtual currency), and the beneficiary sends the cryptocurrency he received back to the other recipient.

Specifically, first, the donor (the one who sends virtual money) creates a transaction history (transaction of the donor, 10) that sends the cryptocurrency to the beneficiary (the person who receives the virtual currency), and then the donor sends the virtual money to another beneficiary. Create outgoing transaction details (transaction of the beneficiary, 20).

At this time, the presenter's transaction information 10 includes the presenter's public key 11, the presenter's electronic signature 12, the transfer amount 13, and the lock 14.

Here, the lock 14 is generated using the public key 21 of the witness, for example, the lock 14 includes public key information of the witness.

On the other hand, when the beneficiary trades the cryptocurrency received from the donor, the beneficiary generates the donor's transaction information 20 as in the case of the donor, and the beneficiary's transaction information 20 includes the donor's electronic signature Digital signature generated using the key 22).

Such transaction information is spread to users all over the world, and users around the world use the recipient's digital signature (part of the recipient's transaction information, 22) to unlock the lock (part of the donor's transaction information, 14). Verify that you have received and retained the cryptocurrency from your account.

Secret keys play a very important role in this series of cryptocurrency transactions.

The secret key is a random series of numbers issued by the user from the electronic wallet. If the user loses the secret key, the same secret key cannot be issued again.

Therefore, when the user loses the secret key, a new secret key must be issued. When the secret key is changed, both the public key and the electronic signature generated using the secret key are changed.

In this case, the following problems arise in the trading of virtual currency.

First, when generating donor transaction information, the presenter generates a lock (existing lock) by using the public key of the known donor (existing public key). Therefore, the donor's transaction information includes the existing lock.

If the recipient loses his or her private key, he or she will be issued a new secret key (the new recipient's private key), which will change the public key of the recipient (new public key) and the digital signature of the recipient. (Digital signature of the new witness).

Then, when the beneficiary generates the transaction information of the beneficiary for the virtual currency received from the donor, the transaction information of the beneficiary includes the new signature of the beneficiary.

Users around the world use the new beneficiary's digital signature (part of the recipient's transaction information) to unlock the existing lock (part of the donor's transaction information) to verify that the recipient had received and retained that amount of cryptocurrency from the presenter. do.

However, the electronic signature of the new recipient is information generated using the private key of the new recipient, and the existing lock is information generated using the public key (information generated using the existing key of the existing recipient).

Therefore, as a result of the above verification, the digital signature of the new beneficiary and the existing lock do not coincide with each other, and it is not verified whether the beneficiary received and retained the corresponding amount of cryptocurrency from the donor.

The first embodiment of the present invention for solving this problem has the following configuration.

A method of managing a secret key of a virtual currency applied to a transaction of a virtual currency through an electronic wallet by including a lock 14 in the presenter's transaction information 10 and an electronic signature 22 in the recipient's transaction information 20. The method of claim 1, further comprising: causing the presenter to be issued a secret key of a donor from an electronic wallet; allowing the beneficiary to be issued a private key of a plurality of beneficiaries from an electronic wallet; Generating a public key of a plurality of recipients using a secret key; causing the presenter to generate a lock 14 using the public keys of the plurality of recipients; Generate at least one digital signature 22 of the beneficiary using at least some of the secret key of the beneficiary. And allowing a user on a network to verify the transaction of the cryptocurrency by comparing the lock 14 and the digital signature 22 of the beneficiary, wherein the secret keys of the plurality of beneficiaries are distinct and separate. They are stored separately in storage.

The first embodiment is a case where the recipient receives the secret keys of the plurality of recipients.

In this case, the beneficiary may generate public keys of the plurality of beneficiaries using the secret keys of the plurality of beneficiaries, and generate a digital signature 22 of the beneficiaries using at least some of the secret keys of the plurality of beneficiaries.

The presenter generates the lock 14 using the public keys of the plurality of recipients.

At this time, the lock 14 is to be released by the digital signature 22 of the witness.

Therefore, even if the recipient loses some of the plurality of recipients' private keys, the recipient can perform the digital signature 22 of the recipient. In this case, the lock 14 is unlocked by the recipient's digital signature 22. The trading of money can be validated.

In addition, since each secret key is separately stored and stored in a separate separate storage device, such as a cloud, an Internet server, a personal PC, a fixed storage device, and a removable storage device, there is no fear of losing a plurality of secret keys at once.

The method of managing a secret key of virtual currency according to the present invention can be applied between a person who does not use the present invention and a person who uses the present invention. For example, even if the donor's private key is one and the recipient's private key is plural, Currency trading may be possible.

In addition, the secret key management method of the virtual currency according to the present invention can be applied to people using the present invention, for example, even if there are multiple secret keys of the donor and the beneficiary, it may be possible to trade the virtual currency.

Next, the second embodiment of the present invention has the following configuration.

Secret key management method including the lock 14 in the presenter's transaction information 10 and the digital signature 22 in the transaction information 20 of the donor The method of claim 1, further comprising: causing the presenter to be issued a secret key of a donor from an electronic wallet; allowing the beneficiary to be issued a secret key of two or more beneficiaries from the electronic wallet; Allowing a third party to obtain a third party's private key from an electronic wallet; causing the recipient to generate a public key of two or more recipients using the private keys of the two or more recipients; and Causing a party to generate a third party's public key using the third party's private key; Generating a lock 14 using the public key of the two or more beneficiaries and the public key of the third party; Generating a digital signature 22 of the beneficiary using two or more secret keys, and allowing a user on the network to compare the lock 14 and the digital signature 22 of the beneficiary to perform a transaction of the cryptocurrency. And verifying, wherein the two or more recipient's private keys and the third party's private key are stored separately in separate, separate storage devices.

It is preferable that the said 3rd person is two or more persons named by the said recipient.

The second embodiment is a case where the beneficiary and the third party are each issued a secret key, and the beneficiary is issued two or more secret keys.

In this case, the beneficiary may generate the electronic signature 22 of the beneficiary using at least two secret keys of the at least two beneficiaries and the third party's secret key.

The presenter generates the lock 14 using the public keys of the two or more recipients and the public keys of the third party.

At this time, the lock 14 is to be released by the digital signature 22 of the witness.

Therefore, even if the recipient loses some of the secret keys of the two or more beneficiaries and the third party's private key, the recipient can perform the digital signature 22 of the beneficiary, and in this case, the lock 14 is the digital signature of the beneficiary. Since it is solved by (22), the transaction of the virtual currency can be effectively validated.

In addition, the beneficiary generates a digital signature 22 of the beneficiary by using at least two secret keys of the at least two beneficiaries and the third party's secret key, thus vaporizing that the third party has its own secret key. Will not be able to intercept the cryptocurrency of the beneficiary. Therefore, it may be safe to leave the private key to a third party.

As described above, according to the second embodiment of the present invention, it is possible to entrust a secret key to a third party, for example, when there are three secret keys, one of them is stored in a personal PC which can be easily accessed, and the other is via a network. You can store it in a third-party storage that can be easily accessed from anywhere, and the other can be stored in a safe place.

Among them, personal PCs and third-party storage devices are easy to access and easy to use, and at the same time, transactions of cryptocurrencies can be secured as long as both are not penetrated.

10: presenter's transaction information 11: presenter's public key
12: Electronic signature of presenter 13: Transfer amount
14: lock 20: transaction information of the witness
21: Public key of the beneficiary 22: Electronic signature of the beneficiary
23: transfer amount 24: lock

Claims (5)

A method of managing a secret key of a virtual currency applied to a transaction of a virtual currency through an electronic wallet by including a lock 14 in the presenter's transaction information 10 and an electronic signature 22 in the recipient's transaction information 20. To
Allowing the presenter to receive a donor's secret key from an electronic wallet;
Allowing the recipient to be issued secret keys of a plurality of recipients from an electronic wallet;
Causing the recipient to generate public keys of the plurality of recipients using the secret keys of the plurality of recipients;
Causing the presenter to generate a lock 14 using the public keys of the plurality of recipients,
Causing the beneficiary to generate a digital signature 22 of the beneficiary using at least some of the secret keys of the plurality of beneficiaries;
Allowing a user on a network to compare the lock 14 and the beneficiary's digital signature 22 to verify the transaction of the cryptocurrency,
Secret key management method of the virtual currency, characterized in that each of the plurality of recipients are stored separately in a separate storage device. Secret key management method including the lock 14 in the presenter's transaction information 10 and the digital signature 22 in the transaction information 20 of the donor To
Allowing the presenter to receive a donor's secret key from an electronic wallet;
Allowing the beneficiary to be issued a secret key of two or more beneficiaries from an electronic wallet;
Allowing a third party other than the donor and the beneficiary to obtain a third party's secret key from an electronic wallet;
Causing the recipient to generate a public key of two or more recipients using the secret keys of the two or more recipients;
Causing the third party to generate a third party's public key using the third party's private key;
Causing the presenter to generate a lock 14 using the public keys of the two or more recipients and the public keys of the third party;
Causing the beneficiary to generate a digital signature 22 of the beneficiary using at least two of the secret keys of the at least two beneficiaries and the secret key of the third party;
Allowing a user on a network to compare the lock 14 and the beneficiary's digital signature 22 to verify the transaction of the cryptocurrency,
Secret key of the two or more recipients and the secret key of the third party is stored separately in a separate storage device, virtual key secret method management method. The method according to claim 1 or 2,
The separate separate storage device includes a cloud, an internet server, a personal PC, a fixed storage device, and a removable storage device. The method of claim 2,
And said third party is a third party designated by said beneficiary. The method of claim 2,
Secret key management method of a virtual currency, characterized in that the third party is a plurality of persons.

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