CN111159299A - Block chain chaining method - Google Patents

Abstract

The invention discloses a block chain uplink method, which is set in a NULS chain factory and comprises the steps of selecting a module, filling in basic information, configuring a creating block, configuring a seed node and confirming information, and sequentially selecting the module, filling in the basic information, configuring the creating block, configuring the seed node and confirming the information. The invention reduces the uplink cost and promotes the development of block chain technology.

Description

Block chain chaining method

Technical Field

The present invention relates to the field of block chains, and in particular, to a block chain uplink method.

Background

The block chain technology is a novel decentralized protocol, digital currency transactions or other data can be safely stored, information cannot be forged and tampered, transaction confirmation on the block chain is completed by all nodes on the block chain together, consistency of the transaction confirmation is guaranteed by a consensus algorithm, a public account book is maintained on the block chain and used for storing balance of all users on a block chain network, and any node of the public account book on a storage block is visible, so that counterfeiting and tampering of the public account book are guaranteed.

In recent two years, the blockchain technology is gradually applied to various high-end industries and is gradually known by the public, and many enterprises seek for chain modification to link their business, but the blockchain technology has high technical threshold and is not suitable for being taken by people with skills due to shortage. The threshold of the enterprise transformation block chain is very high, the block chain technology is a combination of various technologies such as an encryption algorithm, distributed storage, point-to-point transmission and the like, and the technical difficulty of the block chain technology is high. In the traditional industry, distributed engineers, algorithm engineers, network security engineers and the like exist, and now the technologies are combined, so that the engineers are required to have deep knowledge of various technologies, and therefore, the labor cost of the industry is very high. The special currency appears until now, the blockchain industry develops for 10 years, most of the time period of the blockchain industry is a brute-force growth process, the technical quality is low, and therefore development talents with actual application experience of blockchain are seriously lacked in the industry. In addition, even if the enterprise owns related technical personnel, the development of the block chain needs a longer period, the development period is prolonged due to low investment cost, and the operation cost of the enterprise is increased due to high investment cost.

In view of the above, there is a need in the art for a method for uplink transmission that solves the above-mentioned problems.

Disclosure of Invention

The invention aims to provide a chain loading method, which reduces the chain loading cost and promotes the development of block chain technology.

The technical scheme adopted by the invention for solving the technical problems is as follows: a block chain uplink method is set in a NULS chain factory and comprises the steps of selecting a module, filling basic information, configuring a creating block, configuring a seed node and confirming information, and the uplink method comprises the following steps:

s1, entering a NULS chain factory through a web end;

s2, selecting modules, wherein the essential basic modules comprise an account book module, a network module, a transaction module, an account module, a consensus module and a block module;

s3, filling basic information, wherein the basic information comprises a chain name, a chain Logo, an address prefix, a certificate of pass abbreviation, a total issue amount, precision, a certificate of pass switch and a certificate of pass expansion;

s4, configuring the created block information, and backing up the created address private key after configuring the created block information;

s5, configuring seed nodes, inputting the server IP or domain name of the corresponding seed node, selecting the number of the seed nodes, and finally downloading the private key of the co-identified block address;

and S6, downloading the installation package and completing the block chain.

Preferably, in step S2, an extension module may be further selected, where the extension module includes an intelligent contract module, a Public-Service module, and a cross-chain module.

Preferably, between steps S5 and S6, there is further provided step S601:

s601, confirming the order, and clicking the detail in the confirmation information to check the expense detail of the whole chain after the steps from S1 to S5 are completed.

Preferably, in step S3, the inflation includes an initial inflation amount, a total inflation amount, an inflation start time, a deflation ratio, and an interval time.

Preferably, the initial flatulence amount and the total flatulence amount are positive integers greater than 0; the inflation starting time is the first inflation starting time; the general shrinkage ratio is a number between 0 and 100, and 2 decimal places are reserved; the interval time is a positive integer greater than 0.

Preferably, the chain name is a combination of 3-30 digits of English and numbers; the chain Logo is a picture in a svg format; the length of the address prefix is English in the range of 1-5; the general certificate is abbreviated as 2-10 English; the total release amount is a positive integer of 1-15 bits; the precision is a positive integer of 0-8 bits; the evidence-passing switch can self-define the inflation model when needing to be opened, and the default mode is closed and the inflation is not caused.

The invention has the beneficial effects that:

1. the technical threshold is reduced: the block chain is a technology combining multiple disciplines, a large amount of knowledge storage and practical experience are needed for completely mastering the technology, and the technical talents are cultivated at high cost by enterprises to bear greater risks;

2. the development cost is reduced: due to the scarcity of the employees, the development of the block chain needs higher cost investment, and the chain linking method is used, so that the requirement on the technical level of the employees is reduced, and further the labor cost and the development cost are reduced;

3. the development process is simplified: the block chain technology is in the initial development stage, more standards in the industry are not determined, a large amount of challenges and difficulties are faced, continuous follow-up is needed, a large amount of resources are consumed, through the use of the chain linking method, the resources are saved, the development process is simplified, and the development of the block chain technology is promoted.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

fig. 1 is a schematic diagram of a module selection page in step S2 in a block chain uplink method according to the present invention;

fig. 2 is a schematic diagram of a basic information filling page in step S3 in the uplink method of a block chain according to the present invention;

fig. 3 is a schematic view of the inflation setting page in step S3 in the block chain winding method according to the present invention;

FIG. 4 is a schematic diagram of a configuration created block page in step S4 of a block chain uplink method according to the present invention;

fig. 5 is a schematic diagram illustrating a seed node page allocation in step S5 of the block chain uplink method according to the present invention;

FIG. 6 is a schematic diagram of an acknowledgement page in a block chain uplink method according to the present invention;

FIG. 7 is a diagram illustrating chain generation in a block chain uplink method according to the present invention;

fig. 8 is a schematic diagram of step S6 in the uplink method of the blockchain according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

In embodiment 1, as shown in fig. 1 to 8, a block chain uplink method is configured in a NULS chain factory, where the configuration includes selecting a module, filling basic information, configuring a creating block, configuring a seed node, and determining information, and the uplink method includes the following steps:

s1, entering a NULS chain factory through a web end;

s2, selecting modules, wherein the essential basic modules comprise an account book module, a network module, a transaction module, an account module, a consensus module and a block module;

s3, filling basic information, wherein the basic information comprises a chain name, a chain Logo, an address prefix, a certificate of pass abbreviation, a total issue amount, precision, a certificate of pass switch and a certificate of pass expansion;

s4, configuring the created block information, and backing up the created address private key after configuring the created block information;

s5, configuring seed nodes, inputting the server IP or domain name of the corresponding seed node, selecting the number of the seed nodes, and finally downloading the private key of the co-identified block address;

and S6, downloading the installation package and completing the block chain.

In particular, NULS is a global blockchain source community project, a customizable blockchain infrastructure consisting of microkernels and functional modules. The technical architecture of the NULS design is composed of microkernels and functional modules, a brand new thought of weakening a main chain is provided, and a highly-modularized bottom-layer architecture is further realized by stripping events and services. Meanwhile, NULS sets up a set of industrialized block chain technical standards, follows hot plug, modularization and parallel extension principles, provides running mechanisms such as intelligent contracts, multi-chain parallelism and cross-chain consensus, and reduces development and use costs. By utilizing the micro-service of NULS and the pluggable characteristic of modules, different types of block chains can be assembled, so that a chain factory is formed to search for a better uplink method. By utilizing the characteristics of NULS micro-service and modularization, the packaging of different business function chains is realized through operations such as selecting a module, configuring parameters and setting an integral evidence passing model meeting requirements at a web end, different types of installation packages are downloaded according to requirements, the packages are arranged on a server, and a powerful block chain is constructed. Its aim at reduces the block chain and builds the threshold, need not deep learning block chain technique and also can build a chain, and then reduces development cost, only need pay a small amount of funds earlier stage and build the block chain, does little maintenance work later stage to enterprise or individual no longer need go deep into the block chain technique of boring, only through configuring some simple parameters at chain mill, just can build a block chain that accords with the demand.

The basic module is the must select module, wherein: account book module: the account book module is a data center of the whole block chain, the balance and transaction of all accounts are stored in the account book module, and each full node stores an account book of a whole network, so that the completeness, openness and transparency of data are ensured, and meanwhile, the data are not falsified and traceable; the network module is used for ensuring communication among decentralized nodes and providing services such as network communication, node discovery and the like at the bottommost layer; the transaction module is used for processing the collection, verification, storage, forwarding and the like of transactions; the account module is used for managing the generation, security and storage of the account, obtaining information, storing the address of the account, a public and private key pair and verifying a data signature; the consensus module is used for processing the verification and confirmation of the transaction, block packaging, reward distribution and the like; a block module, management and storage of blocks, data verification in blocks, etc.

Further, in step S2, an extension module may be further selected, where the extension module includes an intelligent contract module, a Public-Service module, and a cross-chain module.

The intelligent contract module provides a programmable environment on the chain and supports the contract issuing on the chain; the Public-Service module provides a link data query Service, and also comprises a web program and a block browser, so that the link data can be displayed more clearly and intuitively, and the query is convenient and quick; the chain module of striding provides and strides chain general evidence transfer service, increases the circulation of general evidence in whole ecology on the chain, not only can pass the evidence transfer with the NULS network, also can pass the evidence transfer between two chains of making out through the chain mill, realizes the value circulation between chain and the chain. In module selection, the basic module is a necessary module, a user can select the module in the expansion module according to own requirements, submit the module after the module is selected, and enter the next step of basic information filling.

Further, between steps S5 and S6, there is provided step S601:

s601, confirming the order, and clicking the detail in the confirmation information to check the expense detail of the whole chain after the steps from S1 to S5 are completed.

Specifically, the operations of the previous 5 steps are completed, the information setting of the whole chain is basically completed, the accuracy of the information is confirmed again, the selected module, the basic information, the creation speed, the seed node, the total cost and the order confirmation option are sequentially arranged from top to bottom, the accuracy of each information is checked, the order can be confirmed after the downloaded file information is checked to be correct, the expense detail of the whole chain can be checked by clicking the detail before the order is confirmed, the specific fund consumption item is known, the order is confirmed after the confirmation, the expense is paid, and the chain factory can automatically package the chain. Therefore, a total check is completed before the price-raising chain is generated, so that re-chaining caused by filling errors or omission and the like is avoided, and property loss is avoided.

Further, in step S3, the inflation includes an initial inflation amount, a total inflation amount, an inflation start time, a deflation ratio, and an interval time.

Further, the initial flatulence amount and the total flatulence amount must be positive integers greater than 0; the inflation starting time is the first inflation starting time; the general shrinkage ratio is a number between 0 and 100, and 2 decimal places are reserved; the interval time is a positive integer greater than 0.

Specifically, the initial flatulence amount is the total flatulence amount in the first flatulence period, and the initial flatulence amount is a positive integer larger than 0; the total flatulence amount is the total flatulence amount of the chain during the whole chain running process, the total flatulence amount is a positive integer larger than 0, the total flatulence amount is not smaller than the initial flatulence amount, and certainly, the total flatulence amount can be set according to actual requirements; the inflation starting time is the first inflation time; the percent shrinkage, namely the ratio of the next inflation amount to the previous inflation amount after each inflation period, for example, if the inflation amount of a certain inflation period is A, the next inflation period is xx% A, the percent shrinkage is a number between 0 and 100, and two decimal numbers are reserved; and the interval time is a time period for which the expansion amount is reduced according to the contraction proportion, and the interval time is a positive integer greater than 0.

Further, the chain name length is a combination of English and number with 3-30 bits; the chain Logo is a picture in a svg format; the length of the address prefix is English in the range of 1-5; the general certificate is abbreviated as 2-10 English; the total release amount is a positive integer of 1-15 bits; the precision is a positive integer of 0-8 bits; the evidence-passing switch can self-define the inflation model when needing to be opened, and the default mode is closed and the inflation is not caused.

Specifically, the basic information of the chain includes some simple parameter configurations (chain name, chain Logo, address prefix, short for general evidence, total amount of issuance, decimal number, etc.): the chain name is the name of the chain established by the user at this time, and the length of the chain name is 3-30 English plus numbers; chain Logo: the method has the advantages that the definition of the picture cannot be changed due to the expansion and contraction of the picture, because the whole picture stores data in relative points. The relative position of each point on the picture is recorded, and the points with rgb colors are not recorded, so that the display effect is the same whether the points are enlarged or reduced, the effect picture is small, the response is faster, and the editability is better, so that the chain generation efficiency is improved; the address prefix is the first few digits of a self-defined generated address, and the length of the address prefix is 1-5 digits English; the Tong-Tu-Zheng is abbreviated as the symbol of the Lintong-Tu-Zheng, and the length is 2-10 English digits; the total issuing amount is the initial total amount of the certificate issued on the chain, and is a positive integer of 1-15 bits; the precision is the decimal number supported by the general evidence, and the precision is a positive integer of 0-8 bits; in the evidence-passing switch option, the inflation model can be defined by user when the switch is turned on, and the default inflation is not turned off. Other parameters such as chain ID, magic parameter and the like of the chain are randomly distributed by the system, and can be changed according to requirements at the later stage. After the basic information is filled, the basic information is submitted to be in the founding block configuration.

For the configuration of the creation block, a plurality of addresses can be configured according to the actual needs of users, each address is allocated with a certain number of certificates, and the locking time of the address certificates is set (the locking time is set to be less than the current time, the certificates on the chain can be directly used, and the locking time is set to be greater than the current time, the certificates in the creation address can be used only when the time is changed after the chain is started), so as to meet different business requirements. The general evidence sum of all the creature address allocation must be equal to the issuing quantity of basic information filling, after the creature quick information is filled, the private key of the creature address is backed up (the private key cannot enter the next step without backup), and after the backup is successful, the next step can be entered by clicking the submitted information, so as to configure the seed nodes.

For configuration of seed nodes: the configuration of the seed nodes is about the starting problem of the following chain, the server IP or the domain name which is ready to be used as the seed nodes is input, the number of the seed nodes is selected and configured according to the requirement and the actual situation, the preferred range is 3-5, the private keys which can commonly identify the block address are downloaded after the confirmation (the block address can be output by importing the seed after the program is started successfully), and the order confirmation page of the whole chain is entered after the chain information is submitted.

After the chain is configured in the chain factory, chain generation is performed, that is, in step S6: after the factory finishes packaging the chain, different types of installation packages can be downloaded to install and build the chain, the expansion package comprises a Public-service module (if the module is not selected, the installation package of the type cannot be downloaded), after installation, a packaged web program and a block browser can be used, and the normal package is a common node program. Downloading a packet printed by a chain factory, uploading the packet to a server according to a guide document, starting, importing a seed block address to finish the deployment of the chain, and finishing or developing the service on the chain after the chain runs.

Wherein, it should be noted that the inflation may not be configured, and the NULS chain factory has default configuration; the selection of the modules is too many, which affects the performance of the chain, the whole selection of the modules affects the overall performance, and the user can select the modules according to the actual business requirements.

Claims (9)

1. A block chain uplink method is set in a NULS chain factory and comprises a selection module, basic information filling, a founding block configuration, a seed node configuration and confirmation information, and is characterized by comprising the following steps:

s1, entering a NULS chain factory through a web end;

s2, selecting modules, wherein the essential basic modules comprise an account book module, a network module, a transaction module, an account module, a consensus module and a block module;

s3, filling basic information, wherein the basic information comprises a chain name, a chain Logo, an address prefix, a certificate of pass abbreviation, a total issue amount, precision, a certificate of pass switch and a certificate of pass expansion;

s4, configuring the created block information, and backing up the created address private key after configuring the created block information;

s5, configuring seed nodes, inputting the server IP or domain name of the corresponding seed node, selecting the number of the seed nodes, and finally downloading the private key of the co-identified block address;

and S6, downloading the installation package and completing the block chain.

2. The method for uplink of block chain according to claim 1, wherein in step S2, an extension module is further selected, and the extension module includes an intelligent contract module, a Public-Service module and a cross-chain module.

3. The block chain winding method according to claim 1 or 2, wherein between steps S5 and S6, there is further provided step S601:

s601, confirming the order, and clicking the detail in the confirmation information to check the expense detail of the whole chain after the steps from S1 to S5 are completed.

4. The block chain winding method according to claim 1 or 2, wherein in step S3, the inflation includes an initial inflation amount, an inflation total amount, an inflation start time, a deflation ratio and an interval time.

5. The block chain winding method according to claim 4, wherein the initial flatulence amount and the total flatulence amount are necessarily positive integers greater than 0; the inflation starting time is the first inflation starting time; the general shrinkage ratio is a number between 0 and 100, and 2 decimal places are reserved; the interval time is a positive integer greater than 0.

6. The block chain winding method according to claim 3, wherein the initial inflation amount and the total inflation amount are positive integers greater than 0; the inflation starting time is the first inflation starting time; the general shrinkage ratio is a number between 0 and 100, and 2 decimal places are reserved; the interval time is a positive integer greater than 0.

7. The method for uplink of a blockchain according to claim 1, 2, 5 or 6, wherein the chain name is a combination of 3-30 digits in english and numerals; the chain Logo is a picture in a svg format; the length of the address prefix is English in the range of 1-5; the general certificate is abbreviated as 2-10 English; the total release amount is a positive integer of 1-15 bits; the precision is a positive integer of 0-8 bits; the evidence-passing switch can self-define the inflation model when needing to be opened, and the default mode is closed and the inflation is not caused.

8. The method of claim 3, wherein the chain name length is a combination of 3-30 digits in English and numeric notation; the chain Logo is a picture in a svg format; the length of the address prefix is English in the range of 1-5; the general certificate is abbreviated as 2-10 English; the total release amount is a positive integer of 1-15 bits; the precision is a positive integer of 0-8 bits; the evidence-passing switch can self-define the inflation model when needing to be opened, and the default mode is closed and the inflation is not caused.

9. The method of claim 4, wherein the chain name length is a combination of 3-30 digits in English and numeric notation; the chain Logo is a picture in a svg format; the length of the address prefix is English in the range of 1-5; the general certificate is abbreviated as 2-10 English; the total release amount is a positive integer of 1-15 bits; the precision is a positive integer of 0-8 bits; the evidence-passing switch can self-define the inflation model when needing to be opened, and the default mode is closed and the inflation is not caused.

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