CN111369730A

CN111369730A - Voting processing method and device based on block chain

Info

Publication number: CN111369730A
Application number: CN202010104788.6A
Authority: CN
Inventors: 崔冉
Original assignee: Tencent Technology Shenzhen Co Ltd
Current assignee: Tencent Technology Shenzhen Co Ltd
Priority date: 2020-02-20
Filing date: 2020-02-20
Publication date: 2020-07-03
Anticipated expiration: 2040-02-20
Also published as: CN111369730B

Abstract

The application provides a voting processing method and device based on a block chain, node equipment and a storage medium, and belongs to the technical field of block chains. According to the technical scheme, the voting related information quitting the service is subjected to decentralized and persistent block chain type storage through the block chain, and the identity of the voter is identified through the biological characteristics, so that the identity of the voting participants can be guaranteed to be legal while the safety and reliability of the voting data are guaranteed, the condition that other people falsely appear in the voting process is prevented, and the public credibility of the voting result can be guaranteed.

Description

Voting processing method and device based on block chain

Technical Field

The present application relates to the field of network technologies and block chain technologies, and in particular, to a voting processing method and apparatus based on a block chain, a node device, and a storage medium.

Background

With the development of network technology, more and more operations are performed through a network, for example, after an organization is responsible for providing a certain service, once the organization wants to quit the service, voting needs to be performed by the relevant people of the service, and the voting is generally built based on a centralized service, that is, an organization server is used as a service platform to perform voting initiation and receiving and storing of voting data, and perform data statistics based on the stored voting data to obtain a voting result. By the centralized processing method, the voting data are easy to tamper and cannot be traced, so that the data security and reliability are low, and the credibility of the voting result is poor. Therefore, a method for handling mechanism exit that can ensure data security, reliability and credibility is needed.

Disclosure of Invention

The embodiment of the application provides a voting processing method, a voting processing device, node equipment and a storage medium based on a block chain, which can ensure the safety and reliability of voting data and provide a processing scheme for mechanism quitting which can ensure the safety, reliability and public trust of the data. The technical scheme is as follows:

in one aspect, a voting processing method based on a block chain is provided, and is applied to a first node device of a block chain system, and the method includes:

responding to a voting submission operation of a target voting page, and acquiring voting information of the voting submission operation, wherein the target voting page is a page for voting aiming at a service quitting request initiated by a target mechanism;

performing identity recognition based on the biological characteristics of the executor performing the voting submission operation to obtain the identity of the executor;

in response to the voting information and the identity passing through the consensus in the blockchain system, storing a target block on a blockchain of the blockchain system, wherein the target blockchain is used for storing relevant data of the voting activity, and the target block is used for storing the voting information and the identity;

and if the voting information collected by the target voting page meets the target condition, responding to the service quitting request of the target mechanism, and allowing the target mechanism to quit the service.

In one aspect, a voting processing apparatus based on a block chain is provided, which is applied to a first node device of a block chain system, and includes:

the system comprises a voting information acquisition module, a voting information processing module and a voting information processing module, wherein the voting information acquisition module is used for responding to the voting submission operation of a target voting page and acquiring the voting information of the voting submission operation, and the target voting page is a page for voting aiming at a service quitting request initiated by a target mechanism;

the identification module is used for carrying out identity identification based on the biological characteristics of the executor who carries out the voting submission operation to obtain the identity of the executor;

a storage module, configured to store a target block on a block chain of the blockchain system in response to the voting information and the identity passing through a consensus in the blockchain system, where the target block is used to store data related to the voting activity, and the target block is used to store the voting information and the identity;

and the quitting processing module is used for responding to a quitting service request of the target mechanism and allowing the target mechanism to quit the service if the voting information collected by the target voting page meets the target condition.

In one possible implementation, the identification module includes:

a biometric acquisition unit configured to acquire a biometric of an executor of the vote submission operation;

and the identity acquiring unit is used for acquiring an identity matched with the biological characteristics from the block chain of the block chain system according to the biological characteristics of the executor.

In one possible implementation, the biometric acquisition unit is configured to perform any one of the following steps:

recording the voice of the executor through sound acquisition equipment to obtain the voice data of the executor, and extracting the voice feature of the executor from the voice data;

and carrying out image acquisition on the face of the executor through image acquisition equipment to obtain a face image of the executor, and extracting the five-sense organ characteristics of the executor from the face image.

In one possible implementation, the apparatus further includes:

the notarization information acquisition module is used for acquiring electronic notarization information of the voting information through interaction with second node equipment in the block chain system, wherein the second node equipment is used for providing electronic notarization service;

the storage module is further used for responding to the passing of the electronic notarization information of the voting information, and storing the electronic notarization information to the block chain in a block form.

In one possible implementation, the apparatus further includes: and the certificate verification module is used for comparing the digital certificate carried by the voting information with the digital certificate of the identity identifier stored in the blockchain system, and triggering a consensus process if the digital certificates are the same.

In one possible implementation, the apparatus further includes:

the information acquisition module is used for acquiring the resource lending information of the identity identifier from the block chain system according to the identity identifier;

the interaction module is used for carrying out voice interaction with the executor on the basis of the resource lending information of the identity;

the interaction module is further configured to trigger a consensus process if the resource lending information is determined to be consistent through voice interaction.

In one possible implementation, the blockchain system further includes at least one of a third node device and a fourth node device,

the third node equipment has the inquiry authority of the block chain and does not have the data uplink authority of the block chain;

and the fourth node equipment is used for responding to a verification request of any voting item, verifying the voting result of the voting item according to the voting information stored in the block chain and outputting the verification result.

In one aspect, a node device is provided, where the node device includes a processor and a memory, where the memory is used to store at least one section of program code, and the at least one section of program code is loaded and executed by the processor to implement the voting processing method based on a block chain in the embodiment of the present application.

In one aspect, a storage medium is provided, where at least one program code is stored in the storage medium, and the at least one program code is configured to execute a voting processing method based on a block chain in an embodiment of the present application.

The technical scheme provided by the embodiment of the application has the following beneficial effects: by adopting the block chain to perform decentralized and persistent block chain type storage on the voting related information exiting from the service and performing identity recognition on the voter through biological characteristics, the identity of the voting participants can be ensured to be legal while the safety and reliability of the voting data are ensured, the condition that other people falsely appear in the voting process is prevented, and the public credibility of the voting result can be ensured.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a system architecture diagram of a block chain system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a blockchain according to an embodiment of the present application;

FIG. 3 is a flow chart of a new block generation provided according to an embodiment of the present application;

FIG. 4 is a functional architecture diagram of a node device in a blockchain system according to an embodiment of the present application;

FIG. 5 is a schematic diagram illustrating an organization included in a federation chain according to an embodiment of the present application;

FIG. 6 is a block chain management interface according to an embodiment of the present disclosure;

fig. 7 is a flowchart of a voting processing method based on a block chain according to an embodiment of the present application;

FIG. 8 is a schematic illustration of a loan resource confirmation page according to an embodiment of the application;

FIG. 9 is a schematic diagram of a mechanism exit provided in accordance with an embodiment of the present application;

FIG. 10 is a schematic illustration of another mechanism exit principle provided according to an embodiment of the present application;

fig. 11 is a block diagram of a voting processing device based on a block chain according to an embodiment of the present application;

fig. 12 is a schematic structural diagram of a node device according to an embodiment of the present application.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings.

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

Hereinafter, terms related to the present application are explained.

Block chain (English: blockchain): the method is a novel application mode of computer technologies such as distributed data storage, point-to-point transmission, a consensus mechanism, an encryption algorithm and the like. The blockchain is essentially a decentralized database, which is a string of data blocks associated by using cryptography, each data block contains information of a batch of network transactions, and the information is used for verifying the validity (anti-counterfeiting) of the information and generating the next block. The blockchain may include a blockchain underlying platform, a platform product services layer, and an application services layer.

The block chain underlying platform can comprise processing modules such as user management, basic service, intelligent contract and operation monitoring. The user management module is responsible for identity information management of all blockchain participants, and comprises public and private key generation maintenance (account management), key management, user real identity and blockchain address corresponding relation maintenance (authority management) and the like, and under the authorization condition, the user management module supervises and audits the transaction condition of certain real identities and provides rule configuration (wind control audit) of risk control; the basic service module is deployed on all block chain node equipment and used for verifying the validity of the service request, recording the service request to storage after the effective request is identified in a consensus, and for a new service request, the basic service firstly performs interface adaptation analysis and authentication processing (interface adaptation), then encrypts service information (consensus management) through a consensus algorithm, transmits the encrypted service information to a shared account (network communication) completely and consistently, and records and stores the encrypted service information; the intelligent contract module is responsible for registering and issuing contracts, triggering the contracts and executing the contracts, developers can define contract logics through a certain programming language, issue the contract logics to a block chain (contract registration), call keys or other event triggering and executing according to the logics of contract clauses, complete the contract logics and simultaneously provide the function of upgrading and canceling the contracts; the operation monitoring module is mainly responsible for deployment, configuration modification, contract setting, cloud adaptation in the product release process and visual output of real-time states in product operation, such as: alarm, monitoring network conditions, monitoring node equipment health status, and the like.

The platform product service layer provides basic capability and an implementation framework of typical application, and developers can complete block chain implementation of business logic based on the basic capability and the characteristics of the superposed business. The application service layer provides the application service based on the block chain scheme for the business participants to use.

Consensus mechanism (English: consensus mechanism): the block chain system is a mathematical algorithm for establishing trust and obtaining rights and interests among different nodes. In the block chain system, the verification and confirmation of the transaction can be completed in a short time through the voting of the special node devices, and if a plurality of node devices with irrelevant benefits can achieve the consensus, all the node devices in the system can also achieve the consensus.

Smart contract (english): is a computer protocol intended to propagate, validate or execute contracts in an informational manner. Each node device in the blockchain system can automatically execute a contract program according to a specific condition, can operate data stored in the chain, and is an important way for a user to interact with the blockchain and realize business logic by using the blockchain. The goal of smart contracts is to provide a secure method over traditional contracts and to reduce other transaction costs associated with the contracts, which allows for trusted transactions that are traceable and irreversible without third parties. The intelligent contracts are triggered by transactions, and can read, write and calculate transaction data on a blockchain, so that the operation of various business applications is supported. The computerized program capable of automatically executing contract clauses identifies and judges data information obtained from the outside, and immediately triggers the system to automatically execute corresponding contract clauses when the conditions set by the central node and the alliance node are met, so as to complete the transaction and the transfer of the universal virtual resources/mechanism virtual resources in the embodiment of the application. The intelligent contract in the embodiment of the application is divided into a universal part and a customized part. The universal part supports basic functions of identity authentication, transaction, virtual resource transfer and the like. The customized part is used for coping with the differentiated application scenario of the third node device, and the third node device can realize special functions by configuring an independent intelligent contract.

Public key (English) and private key (English): is a key pair (i.e., a public key and a private key) obtained by an algorithm, the public key being a public part of the key pair, and the private key being a non-public part. Public keys are typically used to encrypt data, verify digital signatures, and the like. By means of this algorithm it is ensured that the resulting key pair is unique, and that when using this key pair, if one of the keys is used to encrypt a piece of data, the other key must be used to decrypt it, e.g. if the data is encrypted with the public key, the private key must be used to decrypt it, and if the data is encrypted with the private key, the public key must be used to decrypt it, otherwise the decryption will not succeed.

The present embodiment provides a blockchain system 100 implemented based on the above-mentioned blockchain technique, and a system architecture of the blockchain system is described below. Referring to fig. 1, the blockchain system may include a plurality of node apparatuses 101, and may further include a client. Node device 101 may be any form of computing device in a network, such as a server, a host, a user terminal, etc. The node apparatus 101 and the node apparatus 101 can share data therebetween. Among them, the node devices 101 may establish a P2P network based on a Peer-To-Peer (P2P) protocol. The P2P Protocol is an application layer Protocol that runs on top of the Transmission Control Protocol (TCP) Protocol.

Each node apparatus 101 may receive input information during normal operation, and maintain shared data in the blockchain system based on the received input information. In order to ensure information intercommunication in the blockchain system, information connection can exist between each node device in the blockchain system, and information transmission can be carried out between the node devices through the information connection. For example, when any node device in the blockchain system receives input information, other node devices in the blockchain system acquire the input information according to a consensus algorithm, and store the input information as data in shared data, so that the data stored in all the node devices in the blockchain system are consistent.

Each node device in the blockchain system has a node device identifier corresponding thereto, and each node device in the blockchain system can store node device identifiers of other node devices in the blockchain system, so that the generated block is broadcast to other node devices in the blockchain system according to the node device identifiers of the other node devices in the subsequent process. Each node device may maintain a node device identifier list as shown in table 1 below, and store the node device name and the node device identifier in the node device identifier list correspondingly. The node device identifier may be an IP (internet protocol) address and any other information that can be used to identify the node device, and table 1 only illustrates the IP address as an example.

TABLE 1

Node device name	Node device identification
		Node device 1	117.114.151.174
Node device 2	117.116.189.145
		…	…
Node device N	119.123.789.258

Each node device in the blockchain system stores one identical blockchain. The block chain is composed of a plurality of blocks, referring to fig. 2, the block chain is composed of a plurality of blocks, the starting block includes a block header and a block main body, the block header stores an input information characteristic value, a version number, a timestamp and a difficulty value, and the block main body stores input information; the next block of the starting block takes the starting block as a parent block, the next block also comprises a block head and a block main body, the block head stores the input information characteristic value of the current block, the block head characteristic value of the parent block, the version number, the timestamp and the difficulty value, and the like, so that the block data stored in each block in the block chain is associated with the block data stored in the parent block, and the safety of the input information in the block is ensured.

When each block in the block chain is generated, referring to fig. 3, when the node device where the block chain is located receives input information, the input information is verified, after the verification is completed, the input information is stored in the memory pool, and the hash tree for recording the input information is updated; and then, updating the updating time stamp to the time when the input information is received, trying different random numbers, and calculating the characteristic value for multiple times, so that the calculated characteristic value can meet the following formula:

SHA256(SHA256(version+prev_hash+merkle_root+ntime+nbits+x))<TARGET

wherein, SHA256 is a characteristic value algorithm used for calculating a characteristic value; version is version information of the relevant block protocol in the block chain; prev _ hash is a block head characteristic value of a parent block of the current block; merkle _ root is a characteristic value of the input information; ntime is the update time of the update timestamp; nbits is the current difficulty, is a fixed value within a period of time, and is determined again after exceeding a fixed time period; x is a random number; TARGET is a feature threshold, which can be determined from nbits.

Therefore, when the random number meeting the formula is obtained through calculation, the information can be correspondingly stored, and the block head and the block main body are generated to obtain the current block. And then, the node equipment where the block chain is located respectively sends the newly generated blocks to other node equipment in the block chain system where the newly generated blocks are located according to the node equipment identifications of the other node equipment in the block chain system, the newly generated blocks are verified by the other node equipment, and the newly generated blocks are added to the block chain stored by the newly generated blocks after the verification is completed.

The functional architecture of the node apparatus 101 in the blockchain system is described below.

Referring to fig. 4, the node device 101 may be functionally divided into a hardware layer, an intermediate layer, an operating system layer and an application layer, and the specific functions involved may be as follows:

1) routing, a basic function that the node device has for supporting communication between the node devices.

The node device may have the following functions in addition to the routing function:

2) the application is used for being deployed in a block chain, realizing specific services according to actual service requirements, recording data related to the realization functions to form recording data, carrying a digital signature in the recording data to represent a source of task data, and sending the recording data to other node equipment in the block chain system for the other node equipment to add the recording data to a temporary block when the source and integrity of the recording data are verified successfully.

For example, the services implemented by the application include:

2.1) wallet, for providing the function of transaction of electronic money, including initiating transaction (i.e. sending the transaction record of current transaction to other node devices in the blockchain system, after the other node devices are successfully verified, writing the record data of transaction into the temporary blocks of the blockchain as the response of affirming that the transaction is valid; of course, the wallet also supports the querying of the electronic money remaining in the electronic money address.

And 2.2) the shared account book is used for providing functions of operations such as storage, query and modification of account data, sending the recorded data of the operations on the account data to other node equipment in the block chain system, writing the recorded data into a temporary block as a response for acknowledging that the account data is valid after the other node equipment verifies that the operation is valid, and sending confirmation to the node equipment initiating the operation.

2.3) Intelligent contracts, computerized agreements, which can enforce the terms of a contract, implemented by codes deployed on a shared ledger for execution when certain conditions are met, for completing automated transactions according to actual business requirement codes, such as querying the logistics status of goods purchased by a buyer, transferring the buyer's electronic money to the merchant's address after the buyer signs for the goods; of course, smart contracts are not limited to executing contracts for trading, but may also execute contracts that process received information.

3) And the Block chain comprises a series of blocks (blocks) which are mutually connected according to the generated chronological order, new blocks cannot be removed once being added into the Block chain, and the blocks record the record data submitted by the node equipment in the Block chain system.

The embodiment of the application can be applied to a federation chain, and each node device in the federation chain may belong to each related enterprise, for example, as shown in fig. 5, the federation chain may include node devices belonging to a government agency, a regulatory agency, an enterprise, a credit platform, and a judicial arbitration agency, respectively, so as to supervise the service of the credit platform. That is, alliance chain nodes can be deployed on servers corresponding to the above-mentioned organizations, an individual can perform a service through the block chain nodes corresponding to the unified platform, when service data occurs, data synchronization can be performed in the alliance chain based on the block chain characteristics, each node device can store a required metadata, data consistency is guaranteed, decentralized distributed storage is provided, it is not only guaranteed that all related service parties follow the same permission mechanism, but also mutual communication and data sharing among the node devices in the alliance chain can be realized, and the node devices can all participate in the service processing process. Based on the architecture, a regulatory body can record, supervise and audit related processing flows in a federation chain, for example, the regulatory body can supervise an agency exit flow related to the embodiment of the present application.

It should be noted that the above-mentioned service processing procedures, for example, the processing procedure for the quit service request, and the like, may be implemented based on an intelligent contract deployed on the blockchain, where the intelligent contract may include an intelligent contract for processing data processing, data storage, and uplink service of the voting process of the voter, may also include an intelligent contract for performing judicial evidence preservation to implement evidence preservation, and may also include an intelligent contract for performing voting verification to verify whether the voting information in the system and the data stored on the blockchain are consistent.

The management of the intelligent contract, such as deployment, release, and update, may be triggered by a user through a blockchain management platform running on a node device in a federation chain, as shown in fig. 6, the blockchain management platform may be used to implement functions such as data overview, management of the node device, monitoring of a running state of the node device, management of a private key, and system management, in addition to the contract management function, and the blockchain management platform may visually represent information such as a node in the blockchain system, a deployed intelligent contract, an existing block in the chain, and a transaction quantity stored in the chain, and may also provide a trend graph display of a key monitoring index, and the like, where the form shown in fig. 6 is merely an example, and the embodiment of the present application does not limit a specific display form thereof.

It should be noted that, the user can register the identity information of the individual or the enterprise at the business front end of the credit platform and perfect the individual account information. The user may be a lending user or a lending user of a credit service. Taking a lending user as an example, the lending user can submit identity certification information such as photos on the front and back sides of an identity card when applying for resource lending, the credit platform can perform asset clearing according to the identity of the lending user and includes detailed information such as a fund returning channel, and finally the lending user confirms and submits the information to the credit platform which stores the information to a block chain of the block chain system. Through the storage of the identity-related information and other information, the data can be executed based on the data recorded in the system in any subsequent business process, the technical advantages of tamper resistance and decentralization of the block chain technology are utilized, and persistent, high-reliability and high-safety data recording is performed.

It should be noted that, in a case that the block chain is a federation chain, each node device in the federation chain may be configured with the same block chain, and each node device may also be configured with its own private chain, that is, a block chain only used for the node device to perform data storage, query, and other processing.

The block chain system according to the embodiment of the present application may include a first node device and a second node device. The first node device may be a target organization, that is, a node device corresponding to a credit platform, or a node device corresponding to a regulatory agency, and the second node device may be a node device for providing an electronic notarization service, or a node device of a judicial arbitration organization. Based on the architecture of the block chain system, refer to fig. 7, where fig. 7 is an interaction flowchart of a voting processing method based on a block chain according to an embodiment of the present application.

700. And the terminal displays a target voting page, wherein the target voting page is a page for voting aiming at the service quitting request initiated by the target mechanism.

For the block chain system, any node device may operate the service platform, for example, a target organization may operate the service platform through its own corresponding node device, or may operate the service platform through other node devices having a supervision authority on the service of the target organization in the federation chain. In this embodiment of the present application, the target mechanism may initiate an exit vote on the service platform, and the service platform may generate a target voting page based on the exit vote, so that the terminal can display the target voting page by accessing the service platform, thereby participating in the vote. The access of the terminal to the service platform can be realized by running a voting client of the service platform or accessing a portal website of the service platform, and the like, and the embodiment of the application does not limit the specific way of accessing the target voting page.

The goal voting page displayed on the terminal may include project information of the goal voting project, voting options, and voting submission options. The item information of the target voting item can comprise an exit reason, an exit time, a processing strategy for the relevant user after the exit, and the like; the voting option refers to an option whether to approve the voted item, for example, for quitting voting, the voting option may include quitting and disapproving quitting; the voting submission option is used for responding to a submission operation of the user, generating voting information corresponding to the voting option selected by the user, and submitting the voting information to the service platform. Optionally, in order to ensure the right of knowledge of the lending user, the service platform may further provide a loan resource confirmation page for displaying the resource loan information between the lending user and the target institution, and when the lending user confirms the accuracy of the resource loan information on the loan resource confirmation page, the lending user determines the voting option selected by the lending user. For example, fig. 8 is a schematic diagram of a loan resource confirmation page according to an embodiment of the present application, where the schematic diagram may show that the amount of outstanding funds lent by the lender on the lending platform is 10000RMB, and if the confirmation is consistent, the user may check that the loan is submitted by clicking the confirmation option 800. It should be noted that the loan resource confirmation page may be provided with a time limit, for example, during the voting notice public period, so as to avoid wasting platform resources.

It should be noted that the user can log in the service platform based on real-name identity authentication and other manners, so as to perform voting based on the target voting page, thereby avoiding the user performing voting at will, ensuring that the identity of the user who participates in the voting is legal, and ensuring the validity of the voting.

In one possible implementation, the voting process may be audited by other mechanisms to inform and urge the lender to vote. Correspondingly, the method may further include: in the voting period of the target voting, the node equipment for auditing and monitoring acquires the identity of the lending user of the target mechanism, screens out the identity of the user who does not participate in the voting in the identity of the lending user according to the identity of the voted user of the target voting, and pushes voting reminding information to the user based on the identity of the user who does not participate in the voting so as to remind the user to participate in the voting period and avoid missing the voting period.

701. And the first node equipment responds to the voting submission operation aiming at the target voting page on the terminal and acquires the voting information of the voting submission operation.

After detecting the vote submission operation of the user on the target vote page, the terminal may submit the vote submission operation to any node device in the blockchain system, where the submission may be first submitted to the service platform and then sent to any node device in the blockchain system by the service platform, or may be directly sent to any node device in the blockchain system through communication with the blockchain system.

702. The first node device obtains the biometric characteristic of the implementer of the vote submission operation.

It should be noted that the biometric feature can uniquely identify the feature of a person, and therefore, the identity of the performer can be determined by obtaining the biometric feature of the performer to determine whether the performer is a person who has the right to participate in the voting. In some possible implementations, the biometric feature may include a plurality of different features, such as a human voice feature and a five-sense feature, for which the biometric feature of the person performing the vote submission operation includes at least one of: recording the voice of the executor through sound acquisition equipment to obtain the voice data of the executor, and extracting the voice feature of the executor from the voice data; and acquiring the face of the executive person through an image acquisition device to obtain a face image of the executive person, and extracting the five-sense organ characteristics of the executive person from the face image.

703. And the first node equipment acquires the identity matched with the biological characteristics from the block chain of the block chain system according to the biological characteristics of the executor.

For the blockchain system, the biometric characteristics and the corresponding identification of the user registered on the credit platform can be stored in a blockchain storage mode. After acquiring the biological features of the executor, the first node device may determine, according to the acquired biological features, whether a biological feature matching the acquired biological features exists in the stored biological features on the block chain, and if so, may acquire an identity corresponding to the stored biological features, and may use the acquired identity to represent identity information in the voting process; if not, the executive is not the registered user on the credit platform, and the subsequent steps are not executed.

The above steps 702 and 703 are processes of performing identity recognition based on the biometric features of the executor performing the voting submission operation to obtain the identity of the executor. Through the acquisition process of the identity identification, the identity of the voting participants can be guaranteed to be legal, the condition that others falsify and pretend in the voting process is prevented, and the public credibility of the voting result can be ensured. Under the condition of acquiring the identity, the subsequent uplink storage process can be carried out only based on the identity without carrying out uplink storage on all sensitive information of the user, so that the identity of the voting participants is guaranteed to be legal, and the privacy of the voting participants can be protected.

704. The first node device obtains the resource loan information of the identity from the blockchain system according to the identity.

For the participating voting users, the identities of the participating voting users should belong to the lenders of the target structure, and therefore, the resource lending information of the participating voting users, that is, the creditor information, such as the loan amount, the outstanding balance amount, and the like, should be stored in the block chain system, and the first node device may perform a query in the block chain system according to the identities to obtain the blocks including the identities, and obtain the resource lending information of the identities from the obtained blocks. Because the resource lending information of the lender is stored in the block chain, the data reliability of the lender can be ensured.

705. The first node device performs voice interaction with the executor based on the resource lending information of the identity, and if it is determined through the voice interaction that the resource lending information matches, step 706 is performed.

After the first node device obtains the resource lending information of the identity, the first node device can trigger voice interaction between the robot and the executor to verify the identity of the executor, so that the accuracy of the identity of the voting participant is further ensured.

In a possible implementation manner, the first node device sends the resource lending information and the phone number of the identity to the intelligent voice interaction robot, the intelligent voice interaction robot generates voice information based on the resource lending information of the identity, initiates a voice call based on the phone number, after the voice call is connected, plays the voice information for the user, and provides a way for the user to confirm that the voice information is correct, for example, if the amount is correct, confirm please press 1, and the like, if a confirmation instruction of the user for the played content is received, it is determined that the resource lending information is consistent, and the identity of the voting executor is correct. Of course, the above process is only an example of voice interaction, and the embodiment of the present application may also apply other ways to perform identity verification to achieve the purpose of authentication.

706. The first node device compares the digital certificate carried by the voting information with the digital certificate of the identity stored in the blockchain system, and if the digital certificates are the same, step 707 is executed.

The first node device can also provide verification of the digital certificate, for voting information, when a voting user executes voting operation, the digital certificate can be provided through importing the digital certificate or importing a private key, and the like, furthermore, the voting information received by the first node device can carry the imported digital certificate or the digital certificate obtained based on the imported private key, the digital certificate of the identity is obtained from the block chain based on the identity for comparison, and if the digital certificates are the same, the identity of the voting user can be confirmed.

In the above steps 702 to 706, online biometric identification technology, intelligent voice interaction robot and digital certificate authentication are introduced for identity verification. On one hand, the identity of the lender is confirmed by using a face recognition and digital certificate authentication mode, so that the condition that others falsify in the voting process can be prevented, all sensitive information of the voter is prevented from being linked up, and the public credibility of the voting result is ensured while the privacy of the user is protected. On the other hand, the intelligent voice interaction robot is used for voice interaction with the lender to confirm the creditor information, so that the counterfeit situation of other people is further prevented, and the public credibility and the validity of voting are ensured.

Optionally, the identities of the participating voting users may also be uplinked. For example, the identity of the voting users is stored in the form of blocks in the block chain, and certainly, a voter identity chain may be configured in the block chain system, and is dedicated to record the identities of the voting users, and the identities of the voting users and the voting items are stored in the voter identity chain in the form of blocks. In an alternative, the voice interaction process may also be recorded to obtain a voice recording, and the voice recording may be uplinked. For example, the voice records of the voting users are stored in the form of blocks in the block chain, and of course, a voting voice record chain may be configured in the block chain system, and is dedicated to record the voice records of the voting users, and the voice records of the voting users and the voting items are stored in the voting voice record chain in the form of blocks. The storage can ensure the safety and reliability of the voting related information through the characteristics of high difficulty in information tampering on the block chain and traceability.

It should be noted that, in the above steps 702 to 706, multiple authentications based on the intelligent voice interaction robot and the digital certificate authentication may also be optional steps, and in some possible implementations, the optional steps may be selectively combined with the steps 702 and 703 according to actual situations to enhance the verification accuracy, and the combination of which verification manner is specifically adopted is not limited in the embodiment of the present application.

707. And the first node equipment acquires the electronic notarization information of the voting information through interaction with the second node equipment in the block chain system.

The second node device can be a mechanism for providing notarization service, such as a judicial organization, the first node device can send the voting information to the second node device, the second node device notarizes the voting information, and returns the electronic notarization information of the voting information to the first node device, so that judicial evidence storage is realized, evidence preservation of voting results is guaranteed from a legal perspective, and effectiveness and truthfulness of the judicial of the voting data in the whole process are finally guaranteed.

708. In response to the voting information, the identity identifier and the electronic notarization information passing through the block chain system in a consensus manner, the first node device stores a target block on a block chain of the block chain system, the target block chain is used for storing relevant data of the voting activity, and the target block is used for storing the voting information, the identity identifier and the corresponding electronic notarization information of the user account.

For the above consensus process, reference may be made to the process described in the foregoing embodiment, and in the blockchain system, the consensus process may be initiated by any node device, so as to generate a target block based on the data passed by the consensus, so as to uplink store the voting information, the identity of the voting participant user, and the electronic notarization information obtained by notarization. Based on the advantages of tamper resistance and decentralization of the block chain technology, the relevant voting information is recorded, and each vote can be recorded and cannot be tampered under the condition that the privacy of a user is guaranteed. Meanwhile, each vote is participated in chain official deposit evidence by an authority, so that evidence preservation of the voting result can be ensured from a legal perspective, and finally, judicial validity and truthfulness and credibility of the voting data in the whole process are ensured.

Optionally, the blockchain stored in the target block may be a private arbitration chain in a blockchain system, that is, a blockchain may be used to specially store the voting-related information, and the storage right and the access right of the blockchain may be directed to some specific node devices, so as to achieve the purpose of further ensuring data security and reliability.

709. And if the voting information collected by the target voting page meets the target condition, responding to the service quitting request of the target organization, and allowing the target organization to quit the service.

The voting information collected by the target voting page meeting the target condition may mean that the voting time limit is reached, the number of users allowed to quit in the collected voting information reaches the target number, and the target condition may be adjusted according to the actual situation of the voted item, which is not specifically limited in the embodiment of the present application. For example, some voting items may employ voting rules that allow withdrawal if the number of users who cast permission to withdraw exceeds half of the number of lending users, voting rules that allow withdrawal if all lending users cast permission to withdraw, and the like. In one possible implementation manner, if the voting information collected by the target voting page does not satisfy the target condition, for example, the number of users participating in the voting is less than half of the total number of users who have reached the voting period, the voting item is invalidated, and the target institution is not allowed to exit from the service.

Of course, whether the target institution is allowed to quit the service or not may be that the first node device submits the voting result to the node device corresponding to the relevant institution, such as a supervision committee or a supervision department, after determining the voting result, so that the node device executes the corresponding quitting step.

In addition, when the voting result is calculated based on the voting information, the specific calculation mode can be performed according to the preset calculation rule of the voting items, and different voting items can correspond to different calculation rules. For example, refer to the ninth item of rules (trial) for good quit of the unified voting system by the network lending institution: the online credit institution clearing group calculates the voting weight of the amount of the unpaid repayment sum of the lender and the total amount of the unpaid repayment sum of the online credit institution based on the voting notice release date, correspondingly, the preset calculation rule can set the voting weight based on the amount of the unpaid repayment sum of the participated voting users and the total amount of the unpaid repayment sum of the online credit institution, and the voting result is obtained based on the weighted summation of the voting information of all the participated voting users. In brief, if the sum of the outstanding repayment amount of a participating voting user is 10 ten thousand and the sum of the outstanding repayment amount of the online credit institution is 100 ten thousand, the voting weight of the participating voting user may be 10 ten thousand/100 ten thousand to 0.1, and the influence of the voting information in the final voting result may reach 0.1.

After obtaining the voting result based on the voting information, the first node device obtains the voting result through interaction with the second node device to perform notarization so as to obtain electronic notarization information of the voting result, and returns the electronic notarization information to the first node device, the first node device stores the electronic notarization information of the voting result based on the intelligent contract, and the services such as verification and the like can be performed based on the stored electronic notarization information in the later period. In a possible implementation manner, the first node device may further carry electronic notarization information of voting information obtained through evidence storage when sending the voting result to the second node device, and after receiving the voting result and the electronic notarization information of the voting information, the second node device may further perform verification based on the electronic notarization information of the voting information, and provide an electronic notarization service of the voting result after the verification is passed. Certainly, the second node device may also perform electronic notarization directly based on the received voting result and the electronic notarization information of the voting information, and return the voting result and the electronic notarization information of the voting information to the second node device, thereby implementing the electronic notarization.

In the blockchain system according to the embodiment of the present application, in order to ensure reliability of uplink data, uplink permission may be issued only to some node devices in the blockchain system, and some other node devices may only have permission to query data. That is, the blockchain system further includes a third node device, and the third node device has the inquiry permission of the blockchain and does not have the data uplink permission to the blockchain. For example, for the node device corresponding to the credit agency, the data uplink authority and the query authority may be issued for the node device, and for the node device corresponding to the supervision agency, the data query authority may be issued for the node device.

The block chain system of the embodiment of the application can also provide a voting verification service, and anyone can verify whether the data of the voting system is consistent with the data stored on the block chain through the service, so that the whole voting process is supervised from the perspective of everyone, and the public credibility of the voting result is enhanced. That is, the blockchain system further includes a fourth node device, where the fourth node device is configured to, in response to a verification request for any voting item, verify a voting result of the voting item according to the voting information stored in the blockchain, and output the verification result. The verification process may be embodied as the following process: the service platform displays the voting result of the voting item and provides a verification option of the voting result, a user can trigger the verification option to interrupt sending of a verification request of the voting item to a fourth node device, the fourth node device responds to the verification request of the terminal to the voting item, according to the item identification of the voting item, voting information corresponding to the item identification is inquired from a block chain, based on the inquired voting information and the voting calculation rule of the voting item, the voting result is recalculated, the recalculated voting result is compared with the voting result displayed on the service platform, if the comparison is consistent, the verification result with the consistent comparison is output to the terminal, and if the comparison is inconsistent, the verification result with the inconsistent comparison is output to the terminal.

In the above embodiment, only the interaction of the lending user terminal, the first node device corresponding to the credit agency, and the second node device corresponding to the judicial agency is taken as an example for further explanation, and the following description is taken in conjunction with the data flow direction between each agency and the service platform provided by the credit agency voting system shown in fig. 9 as an example for further explaining the processing mechanism of the service quitting thereof, where the lending user may log in the service platform through the terminal to vote, the service platform calls an intelligent contract to uplink voting information, the judicial agency may store a certificate based on the vote of the lending user, the credit agency may initiate the vote through the service platform and deploy a voting agreement contract, so that the processing of the voting related information generated in the subsequent voting process may perform corresponding steps based on the voting agreement contract thereof, and the credit agency may provide the voting service other than the voting service, corresponding information disclosure services can also be provided to provide public with voting-related data publicity. And the supervision committee as a supervision mechanism can audit and supervise the voting based on the voting related information stored in the block chain, so that a whole set of exit processing flow which can ensure the reliability and the safety of the voting result and improve the public credibility of the voting result is provided.

Fig. 9 is a diagram for describing functions of each mechanism implemented by the service platform from the service layer, and fig. 10 provides a diagram for embodying each flow stage involved in the voting process from the perspective of the node device corresponding to each mechanism. For example, the lender may effect submission of a vote through the node apparatus 1. The judicial organization can realize endorsement of voting information storage certificate through the node equipment 2, namely, the electronic notarization service is provided, the main purpose is to realize judicial storage certificate, the evidence storage of voting results is ensured from the legal perspective, and finally the effectiveness and the truthfulness of the judicial of the whole process voting data are ensured. The supervision committee may act as an observation node in the alliance nodes, may enjoy the authority to view data, but cannot perform data uplink operations, and the specific function of viewing and supervising the result may be implemented by the node device 4. The supervision department, as a block chain node, can check all voting results and voting information (namely, relevant details of voting), and supervise the voting, thereby realizing the traceability check of the whole voting process, and facilitating the examination and check of the benign quit of enterprises in the whole process. In the whole process, the block chain system can store the transaction data, results and other information in the process in an uplink mode, and therefore the block chain system can be traced conveniently in the future. Of course, the supervision department may also have a function of checking uplink data. Through the interaction in the federation chain formed by the node devices corresponding to the organizations, the voting processing based on the block chain provided by the embodiment of the application can be realized.

It should be noted that, the supervision committee and the supervision department involved in the foregoing embodiments may be supervision mechanisms for supervising the voting process, in some possible implementation manners, one of the mechanisms may be adopted for supervision, or both of the mechanisms may be adopted for supervision, the authorities covered by the supervision may be the same or different, the specific implementation may be limited according to division of labor by the mechanism, and this is not specifically limited in the embodiment of the present application.

Fig. 11 is a block diagram of a voting processing device based on a block chain according to an embodiment of the present application. The processing apparatus can be applied to a first node device of a blockchain system, and the apparatus includes:

a voting information obtaining module 1101, configured to obtain voting information of a voting submission operation in response to a voting submission operation of a target voting page, where the target voting page is a page for voting for a service exit request initiated by a target mechanism;

the identification module 1102 is configured to perform identity identification based on a biological feature of an executor performing the voting submission operation to obtain an identity of the executor;

a storage module 1103, configured to store, in response to that the voting information and the identity pass through a consensus in the blockchain system, a target block on a blockchain of the blockchain system, where the target blockchain is used to store data related to the voting campaign, and the target block is used to store the voting information and the identity;

and the quit processing module 1104 is configured to respond to a service quit request of the target institution and allow the target institution to quit the service if the voting information collected by the target voting page meets a target condition.

In one possible implementation, the identification module includes:

In one possible implementation, the apparatus further includes:

It should be noted that: in the voting processing device based on the block chain according to the above embodiment, only the division of the above function modules is illustrated in processing, and in practical applications, the function distribution may be completed by different function modules according to needs, that is, the internal structure of the device is divided into different function modules to complete all or part of the functions described above. In addition, the block chain-based voting processing device provided in the above embodiment and the block chain-based voting processing method embodiment belong to the same concept, and specific implementation processes thereof are described in the method embodiment and are not described herein again.

In the embodiment of the present application, the node device may be implemented as a terminal or a computer device, and when implemented as a terminal, the terminal may implement the operation performed by the message sending method, and when implemented as a computer device, the computer device may implement the operation performed by the message sending method, or the computer device and the terminal may interact with each other to implement the operation performed by the message sending method.

Fig. 12 is a schematic structural diagram of a node apparatus 1200 according to an embodiment of the present application, where the node apparatus may generate a relatively large difference due to different configurations or performances, and may include one or more processors (CPUs) 1201 and one or more memories 1202, where the memory 1202 stores at least one instruction, and the at least one instruction is loaded and executed by the processors 1201 to implement the methods provided by the method embodiments. Certainly, the node device may further have components such as a wired or wireless network interface, a keyboard, and an input/output interface, so as to perform input and output, and the node device may further include other components for implementing functions of the device, which is not described herein again.

The embodiment of the present application further provides a computer-readable storage medium, which is applied to a node device, and the computer-readable storage medium stores at least one program code, where the at least one program code is configured to be executed by a processor and implement the operations performed by the node device in the block chain based voting processing method in the embodiment of the present application.

It will be understood by those skilled in the art that all or part of the steps for implementing the above embodiments may be implemented by hardware, or may be implemented by a program instructing relevant hardware, where the program may be stored in a computer-readable storage medium, and the above-mentioned storage medium may be a read-only memory, a magnetic disk or an optical disk, etc.

The above description is only exemplary of the present application and should not be taken as limiting, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims

1. A voting processing method based on block chains is characterized in that the voting processing method is applied to a first node device of a block chain system, and comprises the following steps:

2. The method of claim 1, wherein the identifying based on the biometric characteristic of the executor performing the voting submission operation comprises:

obtaining the biological characteristics of the executor of the voting submission operation;

and acquiring an identity matched with the biological characteristics from the block chain of the block chain system according to the biological characteristics of the executor.

3. The method of claim 2, wherein the obtaining of the biometric characteristic of the implementer of the vote submission operation includes at least one of:

4. The method of claim 1, further comprising:

and comparing the digital certificate carried by the voting information with the digital certificate of the identity label stored in the blockchain system, and if the digital certificates are the same, executing a consensus process.

5. The method of claim 1, further comprising:

acquiring resource lending information of the identity identifier from the block chain system according to the identity identifier;

performing voice interaction with the executor based on the resource lending information of the identity;

and if the resource lending information is determined to be consistent through voice interaction, executing a consensus process.

6. The method of claim 1, further comprising:

acquiring electronic notarization information of the voting information through interaction with second node equipment in the block chain system, wherein the second node equipment is used for providing electronic notarization service;

and responding to the passing of the electronic notarization information of the voting information, and storing the electronic notarization information to the block chain in a block form.

7. The method of claim 1, further comprising at least one of a third node device and a fourth node device in the blockchain system,

8. A voting processing apparatus based on block chain, applied to a first node device of a block chain system, the apparatus comprising:

9. A node device, for use in a block chain system, the node device comprising a processor and a memory, the memory storing at least one piece of program code, the at least one piece of program code being loaded by the processor and executing the method for block chain based voting processing according to any one of claims 1 to 7.

10. A storage medium for storing at least one program code for executing the method for voting based on a block chain according to any one of claims 1 to 7.