CN114726736A - Data supervision method, first supervision node, supervised node and block chain - Google Patents

Abstract

The invention provides a data supervision method, a first supervision node, a supervised node and a block chain, belongs to the technical field of block chains, and can at least partially solve the problem of low efficiency of the existing data supervision method. The data supervision method of the embodiment of the invention is used for a first supervision node of a block chain, and comprises the following steps: acquiring first data in supervised data sent by a supervised node, and auditing the first data, wherein the first data is data allocated to the first supervising node for auditing in the supervised data; under the condition that second data in the supervised data is not audited by other supervision nodes of a block chain, acquiring the second data in the supervised data, and auditing the second data, wherein the second data is data which is not allocated to any node for auditing in the supervised data; and sending the auditing result of the second data to other supervision nodes except the first supervision node of the block chain.

Description

Data supervision method, first supervision node, supervised node and block chain

Technical Field

The invention belongs to the technical field of block chains, and particularly relates to a data supervision method, a first supervision node, a supervised node and a block chain.

Background

In the existing combined supervision scene, after each supervision mechanism takes the supervised party to submit the supervised data, the supervision mechanism needs to perform review again, repeated authentication operation exists on some shared and general information, and the efficiency is low.

Disclosure of Invention

The invention at least partially solves the problem of low efficiency of the existing data supervision method, and provides a high-efficiency data supervision method, a first supervision node, a supervised node and a block chain.

A first aspect of the present invention provides a method of data policing for a first policing node of a blockchain, the method comprising:

acquiring first data in supervised data sent by a supervised node, and auditing the first data, wherein the first data is data allocated to the first supervising node for auditing in the supervised data;

and under the condition that second data in the supervised data is not audited by other supervision nodes of the block chain, acquiring the second data in the supervised data, and auditing the second data, wherein the second data is data which is not allocated to any node audit in the supervised data.

Optionally, the obtaining first data in the supervised data sent by the supervised node, and after the auditing of the first data, further includes: and sending re-uploading information to the supervised node under the condition that the audit result is not passed, wherein the re-uploading information is used for requiring the supervised node to re-upload the first data.

Optionally, the obtaining first data in the supervised data sent by the supervised node, and after the auditing of the first data, further includes: and under the condition that the audit result is passed, sending the audit result to a second supervision node which establishes a contract with the first supervision node in advance.

Optionally, the acquiring second data in the supervised data, after the auditing of the second data, includes: and broadcasting the auditing result of the second data in the block chain.

A second aspect of the present invention provides a data policing method for a policed node of a blockchain, the method comprising:

and transmitting the supervised data to all the supervisory nodes on the block chain.

Optionally, after sending the supervised data to all the supervising nodes on the block chain, the method further includes: and receiving re-uploading information sent by the supervision node on the block chain, and re-uploading the supervised data according to the re-uploading information.

A third aspect of the invention provides a first supervising node, comprising:

the first data processing module is used for acquiring first data in the supervised data sent by the supervised node and auditing the first data, wherein the first data is data which is allocated to the first supervision node and is audited in the supervised data;

the second data processing module is configured to, when second data in the supervised data is not audited by other supervision nodes of a block chain, acquire the second data in the supervised data, and audit the second data, where the second data is data that is not allocated to any node for auditing in the supervised data;

and the result sending module is used for sending the auditing result of the second data to other supervision nodes except the first supervision node of the block chain.

Optionally, the result sending module is further configured to: and sending re-uploading information to the supervised node under the condition that the auditing result of the first data is not passed, wherein the re-uploading information is used for requiring the supervised node to re-upload the first data.

A fourth aspect of the invention provides a supervised node, the node comprising:

and the data sending module is used for sending the supervised data to all the supervision nodes on the block chain.

A fifth aspect of the present invention provides a blockchain, the blockchain comprising:

the first supervision node as described above is arranged to,

and the supervised node described above.

In the data supervision method, the first supervision node, the supervised node and the block chain, after the first supervision node acquires the supervised data sent by the supervised node, the first data distributed to the first supervision node is directly checked, and the second data is checked under the condition that other supervision nodes do not check the second data.

Drawings

Fig. 1 is a schematic flowchart of a data policing method for a first policing node of a block chain according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a data policing method for a supervised node of a blockchain according to an embodiment of the present invention;

fig. 3 is a schematic flowchart of a data policing method for a blockchain according to an embodiment of the present invention;

FIG. 4 is a block diagram illustrating a first supervisory node according to an embodiment of the present invention;

FIG. 5 is a block diagram illustrating a supervised node according to an embodiment of the present invention;

fig. 6 is a block diagram illustrating a block chain according to an embodiment of the invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

It is to be understood that the specific embodiments and figures described herein are merely illustrative of the invention and are not limiting of the invention.

It is to be understood that the embodiments and features of the embodiments can be combined with each other without conflict.

It is to be understood that, for the convenience of description, only parts related to the present invention are shown in the drawings of the present invention, and parts not related to the present invention are not shown in the drawings.

It should be understood that each unit and module related in the embodiments of the present invention may correspond to only one physical structure, may also be composed of multiple physical structures, or multiple units and modules may also be integrated into one physical structure.

It will be understood that, without conflict, the functions, steps, etc. noted in the flowchart and block diagrams of the present invention may occur in an order different from that noted in the figures.

It is to be understood that the flowchart and block diagrams of the present invention illustrate the architecture, functionality, and operation of possible implementations of systems, apparatus, devices and methods according to various embodiments of the present invention. Each block in the flowchart or block diagrams may represent a unit, module, segment, code, which comprises executable instructions for implementing the specified function(s). Furthermore, each block or combination of blocks in the block diagrams and flowchart illustrations can be implemented by a hardware-based system that performs the specified functions or by a combination of hardware and computer instructions.

It is to be understood that the units and modules involved in the embodiments of the present invention may be implemented by software, and may also be implemented by hardware, for example, the units and modules may be located in a processor.

Example 1:

referring to fig. 1, the present embodiment provides a data policing method, which is used for a first policing node of a block chain.

The data supervision specifically refers to supervising the project data (i.e., supervised data) submitted by the supervised party to ensure that the supervised data meets the standard, such as supervising whether there is content in the supervised data that is not in compliance with the standard or is unsafe.

The first supervision node may specifically be a supervision entity participating in joint supervision, which is an independent supervision node in the block chain with the other supervision entities participating in joint supervision.

Optionally, the supervised party may also be a node of the blockchain. That is, the supervised party and the supervising authority are all independent nodes of the block chain, the node corresponding to the supervising authority is the supervising node, and the node corresponding to the supervised party is the supervised node.

In the process of executing different data supervision methods, the first supervision node may be a node corresponding to different supervision authorities, that is, in the process of executing one data supervision method, the first supervision node executing the data supervision method is a node corresponding to a certain supervision authority participating in joint supervision, and in the process of executing the next data supervision method, the first supervision node executing the data supervision method may be the supervision authority or a node corresponding to another supervision authority participating in joint supervision.

That is to say, as long as the supervisory node executing the data supervision method of the present embodiment is the first supervisory node, when all supervisory nodes on the blockchain can execute the data supervision method of the present embodiment, all nodes on the blockchain are the first supervisory node.

The data supervision method of the embodiment comprises the following steps:

s101, acquiring first data in the supervised data sent by the supervised node, and auditing the first data, wherein the first data is data allocated to the first supervising node for auditing in the supervised data.

The first supervision node acquires the supervised data (or project data) sent by the supervised party which needs to be supervised by the supervision mechanism corresponding to the first supervision node, and audits the first data in the acquired supervised data.

The supervised data is data which needs to be supervised by a supervisory authority, and the authentication of the supervised data is to verify (or audit) the supervisory data, confirm whether the obtained supervised data is data which needs to be supervised, the security of the obtained supervised data, and the like.

Because the plurality of monitoring authorities collaboratively check the monitored data, in the checking process, not all the monitoring authorities check all the monitored data, but all the monitoring authorities (namely the monitoring nodes) collaborate, and each monitoring node is responsible for checking different parts in the monitored data according to own functions, for example, the monitoring node with the function of identifying the data type is responsible for checking whether the data type of the part of the monitored data with special requirements on the data type meets the requirements.

The first data refers to the part of the supervised data which is responsible for auditing by the first supervising node.

S102, under the condition that second data in the supervised data are not audited by other supervising nodes of the block chain, acquiring the second data in the supervised data, and auditing the second data, wherein the second data are data which are not allocated to any node to be audited in the supervised data.

The supervised data includes, in addition to the data respectively audited by each supervising node, some basic data, that is, a plurality of supervising nodes exist in the block chain and can audit the block chain, and the audit result can be shared by the plurality of supervising nodes, such as the basic data of the project, specifically, whether the project name meets the specification, and the like.

In the case that the second data in the supervised data is not audited by other supervising nodes, that is, other supervising nodes may be auditing other data or not meeting the requirement of auditing the second data, the first supervising node may acquire the second data and audit the second data.

In the case where the second data has already been audited, the first supervisory node does not need to audit the second data.

The steps S101 and S102 of the data monitoring method of this embodiment do not have a sequence, and the first monitoring node may first perform the verification on the first data, or may first determine whether to perform the verification on the second data, and perform the verification on the second data.

In the data supervision method of the embodiment, after acquiring the supervised data sent by the supervised node, the first supervising node directly audits the first data allocated to its audit, and audits the second data when other supervising nodes do not audit the second data.

Example 2:

referring to fig. 2, the present embodiment provides a data policing method for a supervised node of a block chain, where the data policing method of the present embodiment includes:

s201, sending the supervised data to all the supervision nodes on the block chain.

The supervised party is a supervised node of the block chain, and submits the supervised data in the block chain and synchronously updates the supervised data to each supervising node in a broadcasting mode, so that each supervising node can acquire the supervised data and acquire corresponding data from the supervised data for auditing.

Certainly, the supervised party can also directly extract the first data in the supervised data and send the first data to the corresponding first supervision node, so that the first supervision node can conveniently and directly audit the first data.

In the data supervision method of the embodiment of the disclosure, the supervised party is also a node of the blockchain, and the supervised data is sent to the supervision node corresponding to the supervision authority by uploading the supervised data to the blockchain, so that when the supervised party data is updated, the updated supervised data can be synchronized to each supervision authority in real time by broadcasting to the blockchain, and the data to be supervised does not need to be updated repeatedly on a plurality of platforms, so that the data update becomes more convenient.

Meanwhile, the data on the block chain is transparent, real and credible, and the safety of the acquired monitored data is improved.

Example 3:

referring to fig. 3, the present embodiment provides a data policing method for a blockchain, where the blockchain of the present embodiment includes a plurality of policing nodes and a policed node.

One monitoring node may be specifically a monitoring authority participating in joint monitoring, each monitoring authority participating in joint monitoring is an independent monitoring node in a block chain, a monitored party is a monitored node of the block chain, that is, the monitored party and the monitoring authority are both independent nodes of the block chain, a node corresponding to the monitoring authority is a monitoring node, and a node corresponding to the monitored party is a monitored node.

The data supervision method of the embodiment comprises the following steps:

s301, the supervised node sends the supervised data to all the supervising nodes on the block chain.

The supervised node synchronously updates the supervised data to each supervising node in a broadcasting mode, so that each supervising node can acquire the supervised data and acquire corresponding data from the supervised data for auditing.

S302, the first supervision node acquires first data in the supervised data sent by the supervised node and audits the first data, wherein the first data is data allocated to the first supervision node for auditing in the supervised data.

The first supervision node acquires the supervised data (or project data) sent by the supervised party which needs to be supervised by the supervision mechanism corresponding to the first supervision node, and audits the first data in the acquired supervised data.

And S303, under the condition that the checking result is that the first data is not passed, the first monitoring node sends re-uploading information to the monitored node, wherein the re-uploading information is used for requiring the monitored node to re-upload the first data.

S304, the supervised node receives the re-uploading information sent by the supervising node on the block chain, and re-uploads the supervised data according to the re-uploading information.

If the first data is not approved, it indicates that the first data in the supervised data may have a problem, and the first supervising node sends information for re-uploading to the supervised node, informs the supervised node that the first data has a problem, and informs the first supervising node to modify and re-upload the first data.

And after receiving the information uploaded again, the supervised node learns that the first data has problems, then reviews and modifies the first data, and uploads the first data again after modification is completed.

S305, under the condition that the audit result is passed, the first supervision node sends the audit result to a second supervision node which establishes a contract with the first supervision node in advance.

After the first supervision node audits the first data, the first supervision node sends the auditing result of the first data to a second supervision node which establishes a contract with the first supervision node in advance.

The second supervision node which establishes a contract with the first supervision node in advance refers to a supervision node which is required by a supervision organization corresponding to the node to continue supervision flow according to the authentication result of the first supervision node on the first data.

The first supervision node and the second supervision node are both supervision nodes on a block chain, and in the process of executing different data supervision methods, the first supervision node and the second supervision node may be nodes corresponding to different supervisors, that is, in the process of executing a data supervision method once, the first supervision node executing the data supervision method is a node corresponding to a certain supervisor participating in joint supervision, and in the process of executing the data supervision method next time, the first supervision node executing the data supervision method may be the supervisor or may be a node corresponding to another supervisor participating in joint supervision, and the supervisor may become the second supervision node.

By establishing a contract, the first supervision node can acquire a second supervision node which can continue to perform supervision flow according to the obtained auditing result, and immediately transmit the auditing result to the second supervision node after auditing the supervised data and acquiring the auditing result, so that the second supervision node can continue to perform supervision flow, and the situation that the supervision nodes only realize one-way transmission of information and lack of a feedback mechanism among the supervision parties is avoided, and the supervision nodes can be pushed downwards after the flow of the previous supervision mechanism is finished, so that the supervision mechanisms corresponding to the supervision nodes can simultaneously initiate supervision flow of the supervised information, and can continue to perform supervision flow according to the auditing results of other supervision nodes is avoided, and the own flow is started after the preorder flow is finished, so that the supervision efficiency is improved.

S306, under the condition that the second data in the supervised data is not audited by other supervising nodes of the block chain, the first supervising node acquires the second data in the supervised data and audits the second data, wherein the second data is the data which is not allocated to any node for auditing in the supervised data.

When the second data in the monitored data is not audited by other monitoring nodes, that is, other monitoring nodes may be auditing other data or do not meet the requirement for auditing the second data, the first monitoring node may acquire the second data and audit the second data if the first monitoring node is idle.

In the case where the second data has already been audited, the first supervising node does not need to audit the second data.

S307, the first monitoring node broadcasts the auditing result of the second data in the block chain.

After the first supervision node audits the second data, the audit result of the supervised data is sent to other supervision nodes needing to use the second data audit result in the block chain in a broadcast mode, so that the other supervision nodes can directly use the audit result when supervising the supervised data without auditing the supervised data again.

In the data supervision method of the embodiment of the disclosure, after acquiring the supervised data sent by the supervised node, the first supervising node directly audits the first data allocated to its audit, and audits the second data when other supervising nodes do not audit the second data.

Meanwhile, the first supervision node sends the supervision result of the first data to the second supervision node and sends the auditing result of the second data to other supervision nodes of the block chain, so that when the other supervision nodes supervise the supervised data, the first supervision node can directly use the authentication result of the supervised data without re-authenticating the supervised data, and the supervision efficiency is improved.

Specifically, each organization participating in joint supervision is assumed to be an independent supervision node (such as node a, node B, node C, node D, etc.) in the blockchain network, and the supervised data P includes basic information P0, project to-be-audited information P1, P2, P3, etc. The supervision process of the supervised data P specifically includes:

a01, the supervised node submits the project data (i.e. the supervised data) to be approved on the blockchain network to form a project information block P to be issued in the blockchain network, wherein the block P includes synchronous update to each supervising node.

After a02, each supervision node receives the block P, one of the supervision nodes (i.e., the first supervision node) with a faster response authenticates the basic information P0, and broadcasts the authentication result in the blockchain network, so that other supervision nodes can use the result of the audit on the basic information P0 by the node.

A03, the supervision organization node A checks the P1 and P2 data in the item information block P which is allocated to the supervision organization node A and has the checking authority, the node B checks the P3 data which is allocated to the supervision organization node B and has the checking authority, and the node C checks the P4 data which has the authority.

That is, all supervision nodes in the block chain start to audit their respective responsible parts at the same time (which is equivalent to performing the data auditing method of multiple embodiments at the same time, each supervision node is the first supervision node in the corresponding process), so that the efficiency of joint supervision among multiple departments is improved, and the high time cost brought by the original waterfall type supervision method (that is, only one supervision mechanism finishes supervision, and other supervision mechanisms can start working) is greatly reduced.

A04, if all nodes pass the audit, the project finally passes the audit, and the certificate jointly issued by the supervision authority can be obtained, if the audit result of any supervision node is that the certificate does not pass, the project can not pass the audit.

And A05, when the audit is not passed, the supervised party resubmits part of the information which is not passed in the audit.

The supervision node in the time zone block chain network receives a new project information block Pnew, and submits the parts P2new and P3new needing to be checked in the Pnew to the corresponding node A, B for processing, and other information which does not need to be checked again and the corresponding node do not need to be checked.

Example 4:

referring to fig. 4, the present embodiment provides a first supervisory node, including:

the first data processing module is used for acquiring first data in the supervised data sent by the supervised node and auditing the first data, wherein the first data is data allocated to the first supervising node for auditing in the supervised data;

the second data processing module is used for acquiring second data in the supervised data and auditing the second data under the condition that the second data in the supervised data are not audited by other supervision nodes of the block chain, wherein the second data are data which are not allocated to any node to be audited in the supervised data;

and the result sending module is used for sending the auditing result of the second data to other supervision nodes except the first supervision node of the block chain.

Optionally, the result sending module is further configured to: and under the condition that the auditing result of the first data is not passed, re-uploading information is sent to the supervised node, and the re-uploading information is used for requiring the supervised node to re-upload the first data.

The first supervision node of this embodiment, after obtaining the supervised data that is sent by the supervised node, directly audits the first data that is allocated to its audit, and audits the second data under the condition that other supervision nodes do not audit the second data.

Example 5:

referring to fig. 5, an embodiment of the present disclosure provides a supervised node, including:

and the data sending module is used for sending the supervised data to all the supervision nodes on the block chain.

Optionally, the supervised node further includes:

and the receiving module is used for receiving the re-uploading information sent by the supervision node on the block chain and re-uploading the supervised data according to the re-uploading information.

In the data supervision method of the embodiment of the disclosure, the supervised party is also a node of the blockchain, and the supervised data is sent to the supervision node corresponding to the supervision authority by uploading the supervised data to the blockchain, so that when the supervised party data is updated, the updated supervised data can be synchronized to each supervision authority in real time by broadcasting to the blockchain, and the data to be supervised does not need to be updated repeatedly on a plurality of platforms, so that the data update becomes more convenient.

Example 6:

referring to fig. 6, the present embodiment provides a blockchain, including:

any one of the first supervisory nodes above;

the supervised node described above.

In the block chain of this embodiment, after acquiring the supervised data sent by the supervised node, the first supervising node directly checks the first data allocated to its own check, and when other supervising nodes do not check the second data, the second data is checked, because the first data is the data allocated to the first supervising node, other supervising nodes cannot check the first data, and meanwhile, when other supervising nodes do not check the second data, the second node is checked again, thereby avoiding the repeated authentication of the supervised data, and improving the supervising efficiency.

It will be understood that the above embodiments are merely exemplary embodiments taken to illustrate the principles of the present invention, which is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and scope of the invention, and such modifications and improvements are also considered to be within the scope of the invention.

Claims (10)

1. A method of data policing, the method being for a first policing node of a blockchain, the method comprising:

acquiring first data in supervised data sent by a supervised node, and auditing the first data, wherein the first data is data allocated to the first supervising node for auditing in the supervised data;

and under the condition that second data in the supervised data is not audited by other supervising nodes of the block chain, acquiring the second data in the supervised data, and auditing the second data, wherein the second data is data which is not allocated to any node audit in the supervised data.

2. The method according to claim 1, wherein after acquiring first data in supervised data sent by a supervised node and auditing the first data, the method further comprises:

and sending re-uploading information to the supervised node under the condition that the audit result is not passed, wherein the re-uploading information is used for requiring the supervised node to re-upload the first data.

3. The method according to claim 1, wherein after acquiring first data in supervised data sent by a supervised node and auditing the first data, the method further comprises:

and under the condition that the audit result is passed, sending the audit result to a second supervision node which establishes a contract with the first supervision node in advance.

4. The method according to claim 1, wherein the obtaining of the second data of the supervised data comprises, after the auditing of the second data:

and broadcasting the auditing result of the second data in the block chain.

5. A method of data policing, the method being for a policed node of a blockchain, the method comprising:

and transmitting the supervised data to all the supervisory nodes on the block chain.

6. The method of claim 5, wherein after sending the policed data to all policing nodes on the blockchain, further comprising:

and receiving re-uploading information sent by the supervision node on the block chain, and re-uploading the supervised data according to the re-uploading information.

7. A first supervising node, wherein said first supervising node comprises:

the first data processing module is used for acquiring first data in the supervised data sent by the supervised node and auditing the first data, wherein the first data is data which is allocated to the first supervision node and is audited in the supervised data;

the second data processing module is configured to, when second data in the supervised data is not audited by other supervision nodes of a block chain, acquire the second data in the supervised data, and audit the second data, where the second data is data that is not allocated to any node for auditing in the supervised data;

and the result sending module is used for sending the auditing result of the second data to other supervision nodes except the first supervision node of the block chain.

8. The node of claim 7, wherein the result sending module is further configured to:

and sending re-uploading information to the supervised node under the condition that the auditing result of the first data is not passed, wherein the re-uploading information is used for requiring the supervised node to re-upload the first data.

9. A supervised node, the node comprising:

and the data sending module is used for sending the supervised data to all the supervision nodes on the block chain.

10. A blockchain, the blockchain comprising:

a plurality of first supervisory nodes as claimed in any one of claims 7 or 8;

and, the supervised node of claim 9.

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