CN108810868B - Operation method of shared package and shared package system - Google Patents

Abstract

The invention provides an operation method of a shared package and a shared package system, belongs to the technical field of communication, and can at least partially solve the problems of inconvenience in operation and poor liquidity of the existing shared package. The operation method of the shared package comprises the steps of writing a shared package rule template into a shared intelligent contract, storing the shared intelligent contract in a block chain, wherein each shared package rule template corresponds to 0 or at least 1 shared intelligent contract item; acquiring registered user information, storing the registered user information in the block chain, and distributing an independent key pair for each user; processing the operation of the user on the shared intelligent contract item according to the registered user information and the key pair; and saving the shared intelligent contract items operated by the user in the block chain.

Description

Operation method of shared package and shared package system

Technical Field

The invention belongs to the technical field of communication, and particularly relates to an operation method of a shared package and a shared package system.

Background

In the communications industry, users typically subscribe to service packages of an industry operator. This service package may be shared by others in the form of a secondary card. However, this usually requires the user to go to the online shop of the operator for transaction and to perform the transaction one month earlier, which is cumbersome. In addition, only a few users registered by the operator can realize package content sharing, package sharing cannot be realized among users who are not acquainted with each other, incomplete package content of one user cannot be shared with users who are not acquainted with the user, and the mobility of the shared package is poor.

Disclosure of Invention

The invention at least partially solves the problems of complex operation and poor mobility of the existing shared package, and provides an operation method and a system for sharing the package.

The technical scheme adopted for solving the technical problem of the invention is an operation method for sharing package, which comprises the following steps:

in step S1, writing a shared package rule template into a shared intelligent contract, and storing the shared intelligent contract in a block chain, where each shared package rule template corresponds to 0 or at least 1 shared intelligent contract entry, and each shared intelligent contract entry has a shared package rule conforming to the specification of the shared package rule template;

in step S2, obtaining registered user information, storing the registered user information in the blockchain, and assigning an independent key pair to each user;

processing the operation of the user on the shared smart contract item according to the registered user information and the key pair in step S3;

in step S4, the shared intelligent contract entry operated by the user is saved in the blockchain.

Further preferably, after step S4, the method further includes:

in step S5, acquiring and verifying the package extraction application of the user, and if the package extraction application passes the verification, determining the extraction limit of the user according to the sharing package rule of the intelligent sharing contract entry;

in step S6, the extracted quota of the user and the updated intelligent share contract entry are saved in the block chain.

Further preferably, the package extraction application for verifying the user includes: and verifying whether the package extraction limit of the user exceeds the highest extraction limit of the user, if not, the verification is passed, and if so, the verification is not passed.

Further preferably, the highest extraction quota of the user is positively correlated with the sharing amount of the user; or

The highest extraction limit of the user is positively correlated with the time length for the user to join the shared intelligent contract item.

Further preferably, the shared package rule includes: participant, shared content, join contract minimum, maximum draw amount, exit mechanism.

It is further preferred that the registered user information comprises at least one of a unique identification code of the user, identification card information, a mobile phone number.

More preferably, step S3 specifically includes:

acquiring an application of a user for joining an existing shared intelligent contract item;

writing the registered user information of the user into the shared intelligent contract item;

signing the updated shared intelligent contract entry by using a private key in the key pair of the user so that all nodes in the block chain can verify the updated shared intelligent contract entry;

writing the updated shared smart contract entry into the block chain.

More preferably, step S3 specifically includes:

acquiring a shared intelligent contract item newly built by a user;

signing the newly-built shared intelligent contract entry by using a private key in the key pair of the user so as to verify a newly-built shared intelligent contract entry set by all nodes in the block chain;

and writing the newly-built shared intelligent contract item into the block chain.

The technical scheme adopted for solving the technical problem is a sharing package system which comprises a rule writing module, an information acquisition module, an item operation module and an information storage module;

the rule writing module is used for writing a shared package rule template into a shared intelligent contract and storing the shared intelligent contract in a block chain, wherein each shared package rule template corresponds to 0 or at least 1 shared intelligent contract entry, and each shared intelligent contract entry has a shared package rule conforming to the specification of the shared package rule template;

the information acquisition module is used for acquiring the information of the registered user, storing the information of the registered user in the block chain and distributing an independent key pair for each user;

the item operation module is used for processing the operation of the user on the shared intelligent contract item according to the registered user information and the key pair;

the information storage module is used for storing the shared intelligent contract items operated by the user in the block chain;

further preferably, the system further comprises an extraction verification module and an information updating module;

the extraction and verification module is used for acquiring and verifying package extraction application of a user, and if the package extraction application passes verification, the extraction limit of the user is determined according to the sharing package rule of the intelligent sharing contract entry;

and the information updating module is used for storing the extracted quota of the user and the updated intelligent shared contract entry in the block chain.

By using the method of the embodiment of the invention, any user can operate the shared intelligent contract item (for example, adding a shared intelligent contract item or creating a shared intelligent contract item), and the operation is convenient and reliable; and increases the fluidity of the shared package.

Drawings

FIG. 1 is a schematic flow chart diagram illustrating a method of operation of a shared package in accordance with an embodiment of the present invention;

FIG. 2 is a block diagram of a shared package system according to an embodiment of the present invention;

wherein the reference numerals are: 100. a rule writing module; 200. an information acquisition module; 300. an item operation module; 400. an information storage module; 500. an extraction verification module; 600. and an information updating module.

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.

Example 1:

the embodiment provides an operation method of a shared package, and referring to fig. 1, the method comprises the following steps. The method is for example run in a shared package system.

In step S1, writing a shared package rule template into the shared intelligent contract, and storing the shared intelligent contract in a block chain, where each shared package rule template has 0 or at least 1 shared intelligent contract entry, and each shared intelligent contract entry has a shared package rule that meets the specification of the shared package rule template.

A shared intelligent contract is a computer protocol that propagates, validates, and enforces contracts.

The shared intelligent contract allows trusted transactions to be conducted without a third party.

The rule template of the shared package is written into the shared intelligent contract, namely a rule or a protocol of the shared package is established. Each specific shared package rule is defined by the specification of the protocol for specific values of each parameter type.

Each shared intelligent contract entry records how a plurality of users contribute own resources as common shared resources so that the users can extract the shared resources according to the requirements and the shared package rule.

Further preferably, the shared package rule includes: participant, shared content, join contract minimum, maximum draw amount, exit mechanism.

The participant is the user who is allowed to join the shared intelligent contract entry. The shared content represents the resource (such as call time, network traffic, short message number, multimedia message number, etc.) shared by the users. Joining a contract minimum indicates how much of the user contributed the least amount of resources to this shared contract entry. The maximum draw amount indicates how much of the user can draw from the shared intelligent contract entry at most. The exit mechanism includes how the user exits a shared intelligent contract entry and/or how a shared intelligent contract entry ends.

For example, user a creates a shared intelligent contract entry, and adds the shared intelligent contract entry with the call time taken out by 100 minutes, and the call time of 100 minutes is correspondingly reduced by the mobile account of user a. The user A writes in the sharing package rule, each user who joins the sharing intelligent contract contributes 50 minutes of conversation time at least, and when the conversation time of the users is insufficient, the users can extract the resource which is 2 times of the sharing quota of the users from the sharing intelligent contract items at most. User B joins this shared intelligent contract entry and contributes 50 minutes of talk time. When the user B runs out of the talk time in his package, he can extract up to 100 minutes of talk time from the shared intelligent contract entry (if there is still 100 minutes of talk time in the shared intelligent contract entry at this time).

In step S2, the registered user information is obtained, stored in the blockchain, and each user is assigned an independent key pair.

I.e., receiving information of a user applying for registration of a shared intelligent contract entry for joining the shared package rule template.

The registered user information specifically includes at least one of a unique identification code, identification card information, and a mobile phone number of the user. The unique identification code is the user's ID in the shared package system. As such, this user may be identified throughout the shared package system.

The shared package system distributes an independent key pair for each user, a public key in the key pair is sent to the user, and a private key of the key pair is stored by the shared package system.

Preferably, the shared package system further symmetrically encrypts (e.g., AES symmetrically encrypts) the sensitive information of the user (including at least the user's id card information or mobile phone number) and stores the information in the blockchain.

In step S3, the user' S operation on the shared smart contract entry is processed according to the registered user information and the key pair.

The user needs to rely on the registered user information and the key pair when operating the shared smart contract.

More preferably, step S3 specifically includes:

in step S31a, an application for a user to join an existing shared intelligent contract entry is obtained.

Since the shared intelligent contract entries are stored in the blockchain, any user has the right to search and read the shared intelligent contract entries. The user may choose to apply for joining an existing shared intelligent contract entry without regard to whether he knows the user who has joined the shared intelligent contract entry.

In step S32a, the registered user information for the user is written to the shared intelligent contract entry.

And the shared package system writes the registered user information of the user into the participant items of the shared intelligent contract items. The information written at this time should include the identity information of the user, such as a unique identification code, identification card, mobile phone number, etc. Preferably, at least the unique identification code is included.

In step S33a, the updated shared smart contract entry is signed with the private key of the key pair of the user for all nodes in the block chain to verify the updated shared smart contract entry.

In step S34a, the updated shared smart contract entry is written into the blockchain.

In the above way, the user can join the existing shared intelligent contract items. The shared package system signs the updated shared intelligent contract items by using the private key of the key pair, so that all nodes in the block chain can verify the updated shared intelligent contract items, for example, whether the private key signature of a participant is matched with the information of the registered user of the participant can be verified.

More preferably, step S3 specifically includes:

in step S31b, the shared intelligent contract entry newly created by the user is obtained.

I.e., a new shared intelligent contract entry is created by the user. The shared package rule template set up in step S1 needs to be followed. For example, the shared intelligent contract entry may specify a particular value or parameter for at least one of a participant, shared content, join contract minimum, maximum withdrawal amount, exit mechanism. Alternatively, the items that are not set may be set by default.

In step S32b, the shared smart contract entry is signed with the private key of the key pair of the user for all nodes in the blockchain to verify the more newly-established shared smart contract entry.

In step S33b, the newly created shared smart contract entry is written into the blockchain.

Specifically, the newly-built shared intelligent contract entry is written into the blockchain by the shared package system, and all nodes in the blockchain verify the newly-built intelligent contract entry, for example, verify whether the private key signature of each participant of the shared intelligent contract entry matches with the registered user information thereof.

In step S4, the shared intelligent contract entry operated by the user is saved in the blockchain.

Preferably, when a portion of the resources (e.g., airtime, network traffic, short credits in a package, etc.) need to be deducted from the user's mobile number, the operator of the shared package system needs to confirm with the user's mobile number whether the remaining amount in the package of the user's mobile number is sufficient.

Preferably, the amount of resources contributed by a user to join a shared smart contract entry is freely settable by the user.

Preferably, the shared package system calculates the contribution degree of the user according to the history of the resources contributed by the user for the shared intelligent contract entry. The contribution degree indicates a size of the contribution made by the user to the shared intelligent contract entry.

It should be noted that the contribution degree in the present invention is a quantified parameter of the contribution amount to the user, and the aforementioned share quota is the amount of the resource contributed by a specific user in a shared intelligent contract entry.

The shared package system may record the contribution degree of each user in the information of his registered user, or may record the contribution degree in the shared intelligent contract entry added by the user, or in other data structures, which is not limited in the present invention.

Based on a public rule, all users can create or join a shared intelligent contract item, and do not need to specially register and handle at the network site of an operator, all nodes can operate the shared intelligent contract item, the operation is convenient, and the mobility of shared resources is increased.

After a user joins a shared intelligent contract entry, those skilled in the art may also specify how to extract the shared resources, or be set by the user who created the shared intelligent contract entry. For example, all users who may agree to join the shared intelligent contract entry may be free to retrieve the shared resources therein.

Further preferably, after step S4, the method further includes:

in step S5, the package extraction application of the user is obtained and verified, and if the package extraction application passes the verification, the extraction limit of the user is determined according to the sharing package rule of the intelligent sharing contract entry.

Namely, the extraction application of the user is verified according to the sharing package rule of the intelligent sharing contract entry.

For example, a user submits an extraction request to the shared package system, and additionally submits user information of the user. Preferably, the subscriber information comprises a mobile number of the subscriber. The shared package system compares and verifies the user information submitted by the applicant with the registered user information stored in the block chain, if the comparison is consistent, the shared package system sends the extraction application of the user to the shared intelligent contract items, and the shared intelligent contract items output the extraction limit of the user according to the rules set by the shared intelligent contract items.

Further preferably, the package pickup application for verifying the user includes: and verifying whether the package extraction limit of the user exceeds the highest extraction limit of the user, if not, the verification is passed, and if so, the verification is not passed.

I.e. the user cannot extract more resources than his own maximum extraction limit. Thus, the extraction action of the user can be limited, and fairness is facilitated.

Further preferably, the highest extraction quota of the user is positively correlated with the sharing amount of the user; or the highest extraction quota of the user is positively correlated with the time for the user to join the shared intelligent contract item.

The larger the share of the user, i.e. the more resources he contributes to a certain shared intelligent contract entry, the more resources he has the right to extract. For example, the size of the sharing amount can be indicated according to the aforementioned contribution degree. Those skilled in the art can make different limitations on the specific calculation method of the contribution degree. For example, the contribution degree is determined only according to the sum of the resources contributed by the user for the shared intelligent contract entry, or according to the sum of the resources contributed by the user for the shared intelligent contract entry and the extraction record of the user, and so on.

The greater the amount of sharing by a user or the longer the user spends in a shared smart contract entry, the more resources he can extract from that shared smart contract entry.

Specifically, those skilled in the art can set various extraction rules accordingly, which is not limited by the present invention.

In step S6, the extracted quota of the user and the updated intelligent share contract entry are stored in the block chain.

Preferably, the information of the registered user includes a share amount item. And the sharing package system deducts sharing limit in the registered user information of the user according to the user extraction limit output by the sharing intelligent contract item.

That is, the registered user information records how much resources the user shares, and when the user extracts the resources from the shared intelligent contract item, the extracted part of the resources shared by the user is correspondingly subtracted.

For example, the registered user information records that the user contributed 1G traffic to the shared intelligent contract entry, and after the user extracted 300M traffic from the shared intelligent contract entry, the registered user information is updated to contribute 700M traffic to the user.

Of course, the above information may also be recorded in the shared intelligent contract entry.

Preferably, the shared intelligent contract entry determines whether the user exits the shared intelligent contract entry according to the exit mechanism described above. If the user exits the shared intelligent contract entry, the participant item in the intelligent contract entry is updated.

The shared package system writes the various information into the block chain, and informs the operation platform of the operator where the user is located of increasing the package amount extracted by the user for the user.

Preferably, the operation platform periodically queries the information of the package amount extracted by the user stored in the block chain, so as to automatically increase the corresponding package amount for the user.

The method is based on the block chain technology, and the shared package system is operated in a decentralized network, so that the service data cannot be tampered or compiled, the non-private data in the service information can be public and transparent, and meanwhile, the inquiry and the audit of individuals or operators on the data are facilitated. When disputes occur, the basis is available, and the system operation cost is reduced. In addition, by using an intelligent contract technology, the whole shared package system is operated in an unattended automatic execution environment, so that the thought intervention is avoided, and the labor cost is reduced. Furthermore, as long as the internet exists, the block chain and the intelligent contract can be reserved, so that the service of sharing packages is not interrupted, the system maintenance cost is reduced, and the user complaint rate is reduced.

Example 2:

embodiment 2 is a shared package system for implementing the foregoing method.

Referring to fig. 2, the system includes a rule writing module 100, an information obtaining module 200, an entry operating module 300, and an information saving module 400.

The rule writing module 100 is configured to write a shared package rule template into a shared intelligent contract, and store the shared intelligent contract in a block chain, where each shared package rule template corresponds to 0 or at least 1 shared intelligent contract entry, and each shared intelligent contract entry has a shared package rule that meets the specification of the shared package rule template.

The information obtaining module 200 is configured to obtain the information of the registered user, store the information of the registered user in the blockchain, and assign an independent key pair to each user.

The entry operation module 300 is used for processing the operation of the shared intelligent contract entry by the user according to the registered user information and the key pair.

The information saving module 400 is used for saving the shared intelligent contract entries operated by the user in the block chain.

It is further preferred that the system further comprises an extraction verification module 500 and an information update module 600;

the extraction verification module 500 is configured to obtain and verify a package extraction application of a user, and if the package extraction application passes verification, determine an extraction limit of the user according to a sharing package rule of an intelligent sharing contract entry;

the information updating module 600 is configured to store the extracted quota of the user and the updated intelligent shared contract entry in the block chain.

The operation details of the above modules may refer to the method provided in embodiment 1, and are not described in detail.

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 substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims (8)

1. A method of operating a shared package, the method comprising:

in step S1, writing a shared package rule template into a shared intelligent contract, and storing the shared intelligent contract in a block chain, where each shared package rule template corresponds to 0 or at least 1 shared intelligent contract entry, and each shared intelligent contract entry has a shared package rule conforming to the specification of the shared package rule template;

in step S2, obtaining registered user information, storing the registered user information in the blockchain, and assigning an independent key pair to each user;

processing the operation of the user on the shared smart contract item according to the registered user information and the key pair in step S3;

in step S4, saving the shared intelligent contract entry operated by the user in the block chain;

each shared intelligent contract entry records how a plurality of users contribute own resources as common shared resources so that the users can extract the shared resources according to the requirements and the shared package rule;

further included after step S4 is:

in step S5, acquiring and verifying the package extraction application of the user, and if the package extraction application passes the verification, determining the extraction limit of the user according to the sharing package rule of the sharing intelligent contract entry;

in step S6, the extracted quota of the user and the updated shared intelligent contract entry are saved in the block chain.

2. The operating method according to claim 1,

the package extraction application for verifying the user comprises the following steps: and verifying whether the package extraction limit of the user exceeds the highest extraction limit of the user, if not, the verification is passed, and if so, the verification is not passed.

3. The operating method according to claim 2, wherein the highest extraction quota of the user is positively correlated with the sharing amount of the user; or

The highest extraction limit of the user is positively correlated with the time length for the user to join the shared intelligent contract item.

4. The method of operation of claim 1, wherein the shared package rule comprises: participant, shared content, join contract minimum, maximum draw amount, exit mechanism.

5. The operating method of claim 1, wherein the registered user information comprises at least one of a unique identification code of the user, identification card information, and a mobile phone number.

6. The operating method according to claim 1, wherein step S3 specifically comprises:

acquiring an application of a user for joining an existing shared intelligent contract item;

writing the registered user information of the user into the shared intelligent contract item;

signing the updated shared intelligent contract entry by using a private key in the key pair of the user so that all nodes in the block chain can verify the updated shared intelligent contract entry;

writing the updated shared smart contract entry into the block chain.

7. The operating method according to claim 1, wherein step S3 specifically comprises:

acquiring a shared intelligent contract item newly built by a user;

signing the newly-built shared intelligent contract item by using a private key in the key pair of the user so as to verify the newly-built shared intelligent contract item by all nodes in the block chain;

and writing the newly-built shared intelligent contract item into the block chain.

8. A shared package system is characterized by comprising a rule writing module, an information acquisition module, an item operation module and an information storage module;

the rule writing module is used for writing a shared package rule template into a shared intelligent contract and storing the shared intelligent contract in a block chain, wherein each shared package rule template corresponds to 0 or at least 1 shared intelligent contract entry, and each shared intelligent contract entry has a shared package rule conforming to the specification of the shared package rule template;

the information acquisition module is used for acquiring the information of the registered user, storing the information of the registered user in the block chain and distributing an independent key pair for each user;

the item operation module is used for processing the operation of the user on the shared intelligent contract item according to the registered user information and the key pair;

the information storage module is used for storing the shared intelligent contract items operated by the user in the block chain;

each shared intelligent contract entry records how a plurality of users contribute own resources as common shared resources so that the users can extract the shared resources according to the requirements and the shared package rule;

the system also comprises an extraction verification module and an information updating module;

the extraction and verification module is used for acquiring and verifying package extraction application of a user, and if the package extraction application passes verification, the extraction limit of the user is determined according to the sharing package rule of the sharing intelligent contract item;

and the information updating module is used for storing the extracted limit of the user and the updated shared intelligent contract item in the block chain.

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