CN113660337B - Block chain multiple-crossing protection method - Google Patents

Abstract

The invention discloses a blockchain multiple-cross-chain protection method, which comprises multiple adjacent blockchains, wherein a blockchain independent operation area is connected between every two adjacent blockchains, and the area only receives information sent between the two adjacent blockchains, namely, except that an edge blockchain independently transmits the information to one blockchain independent operation area, the rest blockchains respectively transmit the information to two independent operation areas; the blockchain independent running area comprises two independent and mutually associated blockchain receiving modules, wherein each blockchain receiving module corresponds to one blockchain and is used for receiving and protecting each blockchain. A single block chain operation area is connected between every two adjacent block chains, and each single block chain operation area operates independently, so that when one block chain data is disordered or misplaced, the other block chain data is not affected.

Description

Block chain multiple-crossing protection method

Technical Field

The invention relates to the technical field of blockchains, in particular to a blockchain multiple-cross-chain protection method.

Background

Blockchains are a term of art in information technology. Essentially, the system is a shared database, and data or information stored in the shared database has the characteristics of 'non-falsifiability', 'whole-course trace', 'traceability', 'disclosure transparency', 'collective maintenance', and the like. Based on the characteristics, the blockchain technology lays a solid 'trust' foundation, creates a reliable 'cooperation' mechanism and has wide application prospect.

Blockchains are novel application modes of computer technologies such as distributed data storage, point-to-point transmission, consensus mechanisms, encryption algorithms, and the like. The common knowledge mechanism is a mathematical algorithm for realizing trust establishment and rights acquisition among different nodes in a block chain system. A blockchain is essentially a de-centralized database. A blockchain is a string of data blocks that are generated in association using a cryptographic method, each of which contains information of a blockchain network transaction for verifying the validity of the information and generating a next block. A cross-chain operation refers to an operation performed between multiple blockchains, which is a bridge that connects discrete blockchain islands.

The block chain technology is continuously developed, and more people pay attention to the block chain technology, so that block chain conveying information, block chain transaction and block chain multiple setting information sharing are formed, but at present, data disorder exists when data are conveyed among multiple block chain spans of the existing block chain, so that data errors are caused, and meanwhile, the data disorder and errors among the multiple chain spans can be caused by the occurrence of errors of single data disorder.

Disclosure of Invention

The invention aims to provide a multi-cross-chain protection method for a block chain, which aims to solve the problems that data is disturbed when data is transmitted between multiple cross-chains of the block chain at present, so that data errors are caused, and meanwhile, the data disturbance and errors between the multiple cross-chains are caused when a single data disturbance occurs.

In order to achieve the above purpose, the present invention provides the following technical solutions: a multi-cross-chain protection method for a block chain comprises multiple adjacent block chains, wherein a block chain independent operation area is connected between every two adjacent block chains, and the area only receives information sent between the two adjacent block chains, namely, except that an edge block chain independently transmits the information to one block chain independent operation area, the rest block chains respectively transmit the information to two independent operation areas;

the independent running area of the block chain comprises two independent and interrelated block chain receiving modules, wherein each block chain receiving module corresponds to one block chain and is used for receiving and protecting each block chain;

when one of the blockchains is in data disorder, the blockchain receiving module corresponding to the blockchain stops running of the blockchain, and meanwhile the blockchain receiving module corresponding to the blockchain is cut off from being associated with the other blockchain receiving module, so that normal running among other multiple blockchains is synchronously ensured.

Furthermore, the independent block chain operation area further comprises a block chain data diagnosis module, wherein the block chain data diagnosis module is provided with two independent data receiving ends, and the two independent data receiving ends are respectively and independently connected with the block chain receiving module and are used for diagnosing the data operated by the block chain receiving module.

Further, a data repair module is arranged in each blockchain, and the data repair modules independently operate and are used for repairing the blockchain data disorder.

Further, the block chain data diagnosis module is singly corresponding to one block chain and is in signal connection with the data restoration module, and when the block chain data detected by the block chain data diagnosis module is disordered, the block chain data diagnosis module sends a signal to the data restoration module to restore the block chain data through the data restoration module.

Further, each two blockchains correspond to one blockchain independent operation area to form a plurality of blockchain independent operation areas, and independent operation of each blockchain independent operation area is not interfered with each other.

Further, a data interference module is arranged between each two independent operation areas of the block chains, and each data interference module operates independently and does not interfere with each other and is used for interfering data between each independent operation area of the block chains.

Compared with the prior art, the invention has the beneficial effects that:

according to the multi-chain crossing protection method for the block chains, a block chain independent operation area is connected between every two adjacent block chains, each block chain independent operation area independently operates, and further, when one block chain data is disordered or misplaced, the other block chain data is not affected.

Drawings

FIG. 1 is a flow chart of a block chain multiple cross-chain protection method according to the present invention;

FIG. 2 is a flow chart of a block chain independent operation region of a block chain multiple cross-chain protection method according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In a first embodiment of the present invention,

1-2, in an embodiment of the present invention, a blockchain multi-stride protection method includes multiple adjacent blockchains, where a blockchain independent operation area is connected between every two adjacent blockchains, and the area only receives information sent between two adjacent blockchains, that is, except for an edge blockchain that independently sends information to one blockchain independent operation area, all the other blockchains send information to two independent operation areas.

The blockchain independent running area comprises two independent and mutually associated blockchain receiving modules, wherein each blockchain receiving module corresponds to one blockchain and is used for receiving and protecting each blockchain.

When one of the blockchains is in data disorder, the blockchain receiving module corresponding to the blockchain stops running of the blockchain, and meanwhile the blockchain receiving module corresponding to the blockchain is cut off from being associated with the other blockchain receiving module, so that normal running among other multiple blockchains is synchronously ensured.

In this embodiment, according to the blockchain multiple-cross-chain protection method, a blockchain independent operation area is connected between every two adjacent blockchains, and each blockchain independent operation area operates independently, so that when one blockchain data is disordered or misplaced, the other blockchain data is not affected.

In the case of example 2,

a block chain multiple cross-chain protection method comprises multiple adjacent block chains, wherein a block chain independent operation area is connected between every two adjacent block chains, the area only receives information sent between the two adjacent block chains, namely, the edge block chains independently convey information to one block chain independent operation area, and the rest block chains respectively convey information to two independent operation areas.

The blockchain independent running area comprises two independent and mutually associated blockchain receiving modules, wherein each blockchain receiving module corresponds to one blockchain and is used for receiving and protecting each blockchain.

When one of the blockchains is in data disorder, the blockchain receiving module corresponding to the blockchain stops running of the blockchain, and meanwhile the blockchain receiving module corresponding to the blockchain is cut off from being associated with the other blockchain receiving module, so that normal running among other multiple blockchains is synchronously ensured.

The block chain independent operation area further comprises a block chain data diagnosis module, wherein the block chain data diagnosis module is provided with two independent data receiving ends, and the two independent data receiving ends are respectively and independently connected with the block chain receiving module and are used for diagnosing the data operated by the block chain receiving module.

In this embodiment, the blockchain data diagnosis module receives the data information corresponding to each blockchain data, and diagnoses each blockchain data, so that one blockchain diagnoses the data as to a problem through the blockchain data diagnosis module, the blockchain receiving module corresponding to the blockchain stops running of the blockchain, and meanwhile, the blockchain receiving module corresponding to the blockchain cuts off the association with the other blockchain receiving module, thereby synchronously ensuring the normal running among other multiple blockchains, and further avoiding the problem that one blockchain generates data disorder to cause a plurality of blockchain data disorder.

And a data repair module is arranged in each blockchain and independently operates and is used for repairing the blockchain data disorder.

The block chain data diagnosis module is singly corresponding to one block chain and is connected with the data restoration module through signals, and when the block chain data detected by the block chain data diagnosis module is disordered, the block chain data diagnosis module sends signals to the data restoration module to restore the block chain data through the data restoration module.

Each two block chains corresponds to one block chain independent operation area so as to form a plurality of block chain independent operation areas, and each block chain independent operation area independently operates without interference.

The data interference modules are arranged between every two independent operation areas of the block chains, each data interference module operates independently and does not interfere with each other, and the data interference modules are used for interfering data between each independent operation area of the block chains, wherein the data interference modules avoid interference of data signals between the two block chains, and a series of block chains are generated to generate data disorder.

According to the multi-chain crossing protection method for the block chains, a block chain independent operation area is connected between every two adjacent block chains, each block chain independent operation area independently operates, and further, when one block chain data is disordered or misplaced, the other block chain data is not affected.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. A multi-cross-chain protection method for a blockchain comprises multiple adjacent blockchains, and is characterized in that a blockchain independent operation area is connected between every two adjacent blockchains, the area only receives information sent between the two adjacent blockchains, namely, except that an edge blockchain independently transmits the information to one blockchain independent operation area, the rest blockchains respectively transmit the information to two independent operation areas;

the independent running area of the block chain comprises two independent and interrelated block chain receiving modules, wherein each block chain receiving module corresponds to one block chain and is used for receiving and protecting each block chain;

when one of the blockchains is in data disorder, the blockchain receiving module corresponding to the blockchain stops running of the blockchain, and meanwhile the blockchain receiving module corresponding to the blockchain is cut off from being associated with the other blockchain receiving module, so that normal running among other multiple blockchains is synchronously ensured.

2. The blockchain multiple-cross-chain protection method of claim 1, wherein the blockchain independent operation area further comprises a blockchain data diagnosis module, wherein the blockchain data diagnosis module is provided with two independent data receiving ends, and the two independent data receiving ends are respectively and independently connected with the blockchain receiving module and are used for diagnosing data operated by the blockchain receiving module.

3. The blockchain multi-cross-chain protection method of claim 2, wherein a data repair module is arranged in each blockchain, and the data repair modules independently operate for repairing blockchain data disorders.

4. The method of claim 3, wherein the blockchain data diagnostic module is configured to correspond to a blockchain independently and is in signal communication with the data repair module, and when the blockchain data detected by the blockchain data diagnostic module is in disorder, the blockchain data diagnostic module sends a signal to the data repair module to repair the blockchain data by the data repair module.

5. The method of claim 1, wherein each two blockchains corresponds to a blockchain independent operation area to form a plurality of blockchain independent operation areas, and each blockchain independent operation area is independently operated without interference.

6. The method of claim 1, wherein each two independent operation areas of the blockchain are provided with data interference modules, each data interference module operates independently and does not interfere with each other, and the data interference modules are used for interfering data between each independent operation area of the blockchain.