CN110289971B - Shared service management method and system - Google Patents

Abstract

The invention discloses a shared service management method and a system, aiming at solving the problems of complex shared service management, overhigh potential safety hazard, difficult maintenance and the like, wherein the method comprises the following steps: a first network node sends first broadcast information to a block chain, so that other network nodes except the first network node in the block chain receive the first broadcast information and then carry out signature according to the first broadcast information and send the signature to the block chain; the first network node acquires signatures sent by other network nodes in the block chain and generates second broadcast information according to the signature result; and the first network node sends the second broadcast information to an operator server. The process of the network node for acquiring the use permission of the shared service is simple and rapid, the user experience is improved, the safety is higher, meanwhile, the labor and economic cost of a service provider for maintaining data is reduced, and a large amount of manpower and material resources are saved.

Description

Shared service management method and system

Technical Field

The present invention relates to the field of communications technologies, and in particular, to a shared service management method and a shared service management system.

Background

With the continuous development of mobile communication, operators or service providers offer shared service packages for users of the same type in order to improve user experience.

The shared service management method applied most widely at present carries out unified control through a server, parameter information, used amount information and unused amount information of the shared service are stored in databases of various service providers, the use authority of each terminal on the shared service is uniformly controlled by the server, if a user changes the use terminal or the terminal authority, the user needs to sign again at the service provider, meanwhile, the potential safety hazard of user information leakage exists, and once a management system of the server is tampered maliciously or the server is attacked by hacker attacks and viruses, the whole system faces paralysis and fatalities.

In order to improve the user experience, it is necessary to provide a shared service management scheme with high security and convenient operation.

Disclosure of Invention

The invention provides a shared service management method and a shared service management system, which aim to solve the problems of complex shared service management, overhigh potential safety hazard, difficult maintenance and the like.

In order to achieve the above object, the present invention provides a method for managing shared services, including:

a first network node sends first broadcast information to a block chain, so that other network nodes except the first network node in the block chain receive the first broadcast information, then carry out signature according to the first broadcast information and send the signature to the block chain, wherein the first broadcast information comprises a first network node ID, a shared package use request and a shared package ID;

the first network node acquires signatures sent by other network nodes in the block chain and generates second broadcast information according to the signature result, wherein the second broadcast information comprises the signature results of the other network nodes, the shared package ID and the first network node ID;

and the first network node sends the second broadcast information to an operator server so that the operator server determines whether to open the authority of the first network node on the shared package use request in the first broadcast information according to the second broadcast information.

Optionally, the first network node, the other network nodes and the operator server store preset shared package contracts, where the shared package contracts include shared package IDs, total package usage amounts under the shared package IDs, and package usage amounts under each network node ID.

Optionally, obtaining, at the first network node, a shared package usage right and using the shared package after, further comprising:

and the operator server recalculates the available quantity of the shared package of the first network node according to the used quantity of the shared package of the first network node, and sends third broadcast information to the block chain according to the calculation result, so that each network node in the block chain updates the use condition of the shared package of the first network node after receiving the third broadcast information.

Optionally, the method further comprises:

a second network node sends fourth broadcast information to the blockchain, so that the first network node in the blockchain judges and analyzes the fourth broadcast information and signs according to the fourth broadcast information after receiving the fourth broadcast information, wherein the second network node is any network node except the first network node in the blockchain, and the fourth broadcast information comprises a second network node ID, a shared package use request and a shared package ID;

the first network node sends the signature into a blockchain.

Optionally, the determining, analyzing, and signing, by the first network node, the fourth broadcast information according to the first network node includes:

the first network node judges and analyzes the package state corresponding to the shared package ID, the authority information corresponding to the second network node ID and the used amount and the unused amount of the package corresponding to the second network node ID in the fourth broadcast information;

and if the package state corresponding to the shared package ID is available, the first network node judges that the second network node has the use permission of the shared package, and carries out permission signature when the available quantity of the shared package corresponding to the second network node ID is larger than a preset threshold value.

In order to achieve the above object, the present invention correspondingly provides a shared service management system, including a block chain, where the block chain includes a first network node, other network nodes except the first network node, and an operator server:

the first network node is configured to send first broadcast information to a blockchain, where the first broadcast information includes a first network node ID, a shared package use request, and a shared package ID;

the other network nodes are used for receiving the first broadcast information in the block chain, then signing according to the first broadcast information and sending the signature to the block chain;

the first network node is further configured to acquire signatures sent by other network nodes in the block chain, and generate second broadcast information according to a signature result, where the second broadcast information includes signature results of the other network nodes, a shared package ID, and a first network node ID;

the first network node is further configured to send the second broadcast information to an operator server;

and the operator server is used for determining whether to open the authority of the first network node on the shared package use request in the first broadcast information according to the second broadcast information.

Optionally, the first network node, the other network nodes, and the operator server are further configured to store a preset shared package contract, where the shared package contract includes a shared package ID, a total package usage amount under the shared package ID, and a package usage amount under each network node ID.

Optionally, the operator server is further configured to, after the first network node obtains the usage right of the shared package and uses the shared package, recalculate the available amount of the shared package of the first network node according to the used amount of the shared package of the first network node this time, and send third broadcast information to the block chain according to the calculation result;

the first network node and the other network nodes are also used for receiving the third broadcast information and then updating the shared package service condition of the first network node.

Optionally, a second network node in the other network nodes, configured to send fourth broadcast information to the blockchain, where the second network node is any network node in the blockchain except the first network node;

the first network node is further configured to receive fourth broadcast information sent by a second network node in a block chain, where the fourth broadcast information includes a second network node ID, a shared package use request, and a shared package ID;

the first network node is further configured to perform judgment analysis on the fourth broadcast information and perform signature according to the fourth broadcast information;

the first network node is further configured to send the signature to a blockchain.

Preferably, the determining, analyzing and signing the fourth broadcast information by the first network node according to the fourth broadcast information specifically includes:

the first network node is further configured to perform judgment and analysis according to the package state corresponding to the shared package ID, the right information corresponding to the second network node ID, and the used amount and the unused amount of the package corresponding to the second network node ID in the fourth broadcast information;

the first network node is further configured to determine that the second network node has the usage right of the shared package when the package state corresponding to the shared package ID is available, and perform permission signature when the available amount of the package corresponding to the second network node ID is greater than a preset threshold.

Has the advantages that:

compared with the prior art, the invention has the advantages that the first network node sends the first broadcast information containing the shared package use request to the block chain, other network nodes in the block chain analyze and sign according to the first broadcast information, then the first network node obtains the signing results of other network nodes and generates the second broadcast information containing the signing results of other network nodes, finally, the operator server receives the second broadcast information and determines whether to enable the authority of the first network node about the shared package use request, the package use request of the network node is jointly signed and managed by the network nodes participating in the shared package, the whole management process does not need to depend on any server end, the defects that the unified management and control operation of the existing shared service by a central server is complex, the potential safety hazard is easily caused and the like are overcome, the user experience is improved, meanwhile, the labor and economic cost of the service provider for maintaining data is reduced, and a large amount of manpower and material resources are saved.

Drawings

Fig. 1 is a flowchart of a shared service management method according to an embodiment of the present invention;

fig. 2 is a flowchart of a shared service management method according to a second embodiment of the present invention;

fig. 3 is a flowchart of a shared service management method according to a third embodiment of the present invention;

fig. 4 is a structural diagram of a shared service management system according to a fourth embodiment of the present invention;

fig. 5 is a system structure diagram of a first network node in a shared service management system according to a fourth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

The block chain (Blockchain) network is an intelligent peer-to-peer network which uses a distributed database to identify, spread and record information, the block chain technology comprises the steps of storing data in a block structure, using cryptography to guarantee transmission and access safety and the like, and the block chain (Blockchain) network can realize a technical system of data consistency storage, tamper resistance and decentration. The embodiment implements management of a shared service based on a blockchain network, wherein the blockchain comprises a plurality of network nodes;

a network node, which is a computer or other equipment connected with a network having an independent address and a function of transmitting or receiving data, and can be a workstation, a client, a network user or a personal computer, or a server, a printer and other network-connected equipment, wherein each workstation, server, terminal equipment and network equipment, that is, the equipment having its own unique network address, is a network node; the first network node described in this embodiment may be a node that needs to use a shared service in a block chain;

the shared package may be one of the shared services, for example: the service package of the service resource shared by the multiple terminal accounts is provided by the operator to meet the user requirements. The shared package enables the terminal accounts participating in the shared package to obtain the service resources required by the terminal accounts, and meanwhile, the utilization rate of the resources in the package can be improved, so that the waste of the resources is avoided, for example: two users share a 198 yuan package (1000 minutes call, 10G flow) and are more cost-effective than a 98 yuan package (400 minutes call, 4G flow) ordered respectively, and when the shared package is ordered, each user signs a contract to contract the proportion of the price of the package occupied respectively and the proportion of the corresponding package content that can be enjoyed, such as: two users share a 198 yuan package, each bearing 99 yuan of fee, and both users enjoy 50% of the package content (500 minutes of conversation, 5G of traffic).

Referring to fig. 1, fig. 1 is a flowchart of a shared service management method according to an embodiment, including:

step S101, a first network node sends first broadcast information to a block chain, so that other network nodes except the first network node in the block chain receive the first broadcast information, then carry out signature according to the first broadcast information and send the signature to the block chain, wherein the first broadcast information comprises a first network node ID, a shared package use request and a shared package ID;

the network nodes described in this embodiment may be nodes corresponding to an operator server of a shared service, each network node realizes the use of the shared service by sending a request to other network nodes and obtaining a joint signature of other nodes, the state and authority of the shared service are stored and managed at each network node at the same time, the whole management process does not depend on any server, the potential safety hazard of the current shared service management mode is solved, meanwhile, the labor and economic costs of a service provider for maintaining data are reduced, and manpower and material resources are saved.

Optionally, the first network node, the other network nodes and the operator server store preset shared package contracts, where the shared package contracts include a shared package ID, a total package usage amount under the shared package ID, and a package usage amount under each network node ID.

In this embodiment, each user sharing the same package contract signs a shared package contract, may agree with a ratio of package prices borne by each user and a ratio of package contents enjoyable by each user, and stores the contract in each network node and the operator server after signing the contract.

It should be noted that the shared package contracts stored in the network nodes and the operator server are not limited to one, and may be a plurality of different shared package contracts, where each package contract corresponds to one shared package ID, the total package usage amount under the shared package ID, and the package usage amount under each network node ID.

Specifically, when a first network node needs to use a shared package, first broadcast information is sent to a blockchain network, where the first broadcast information includes a first network node ID, a shared package use request, and first broadcast information of the shared package ID, and other network nodes except the first network node receive the first broadcast information of the first network node through the blockchain, where one or more other network nodes except the first network node may be provided;

the other network nodes except the first network node in the block chain analyze the use state of the shared package under the shared package ID, the authority information and the available amount of the shared package under the first network node ID according to the first broadcast information, sign the shared package use request, send the signed shared package use request to the block chain, and send the signed shared package use request to the first network node through the block chain, for example: when the shared package using state under the shared package ID is available, the first network node has the right to use the service, and the available amount of the first network node is greater than the preset threshold, the preset threshold may be 0 in this embodiment, and the signature result is a permission, otherwise, the signature result is a rejection, and the signature is sent to the block chain.

Step S102, the first network node acquires the signatures sent by other network nodes and generates second broadcast information according to the signature result, wherein the second broadcast information comprises the signature results of other network nodes, the shared package ID and the first network node ID;

specifically, the first network node acquires the signatures sent by each other network node in the block chain, and integrates the signatures of each network node into a signature result to generate the second broadcast information.

Step S103, the first network node sends the second broadcast information to an operator server, so that the operator server determines whether to open the authority of the first network node on the shared package use request in the first broadcast information according to the second broadcast information.

Specifically, the first network node sends the second broadcast information to the operator server through the block chain, the operator server receives the second broadcast information and judges the second broadcast information, and when the operator server confirms that all signature results in the second message are permission, the shared package use permission under the shared package ID requested by the first network node is opened for the first network node to use.

In this embodiment, a first network node sends first broadcast information including a shared package use request to a block chain, other network nodes except the first network node in the block chain judge whether the operation request is reasonable according to the broadcast information and sign the operation request, then the first network node obtains the signature results of other network nodes and generates second broadcast information including the signature results of other network nodes, and finally an operator server receives the second broadcast information and determines whether to enable the authority of the first network node about the shared package use request, the package use request of the network node is jointly managed by the network nodes participating in the shared package, the whole management process does not need to depend on any server end, and the problems that the unified management and control operation of the existing shared service by a central server is complex, and potential safety hazards are easily caused are solved, meanwhile, the labor and economic cost of a service provider for maintaining data is reduced, and a large amount of manpower and material resources are saved.

Referring to fig. 2, fig. 2 is a flowchart of a shared service management method provided in the second embodiment, and compared with the first embodiment, this embodiment includes, in addition to steps S101 to S103 in the first embodiment, a step S204 after step S103, in this embodiment, an operator server obtains an authority for a first network node and recalculates a usage of a shared package after the shared package is used, so that each network node in a block chain can update the usage of the shared package in real time, specifically:

s204, after the first network node acquires the usage right of the shared package and uses the shared package, the operator server recalculates the available quantity of the shared package of the first network node according to the used quantity of the shared package of the first network node, and sends third broadcast information to the block chain according to the calculation result, so that each network node in the block chain updates the usage condition of the shared package of the first network node after receiving the third broadcast information.

For example, after the first network is used, the operator or the service provider recalculates the available information of the first network node according to the current usage amount of the first network node, and if the available information is greater than 0 or equal to 0, sends a third broadcast message including the unused amount of the first network node; and if the available quantity information is less than 0, sending a third broadcast message with the available quantity of the first network node being 0, and charging the part of the first network node exceeding the package content according to the standard charge. And after receiving the third broadcast information, each network node modifies the available quantity information of the shared package and the available quantity information of the first network node for updating.

Referring to fig. 3, fig. 3 is a flowchart of a shared service management method provided in a third embodiment, and compared with the first embodiment, this embodiment includes, in addition to steps S101 to S103 in the first embodiment, step S304 and step S305 after step S103, when receiving broadcast information of a shared package use request sent by another network node, a first network node performs judgment analysis on the broadcast information and performs signature, so that an operator server finally determines whether to enable the purpose of using a shared package authority by another network node, specifically:

s304, the second network node sends fourth broadcast information to the blockchain, so that the first network node in the blockchain, after receiving the fourth broadcast information, performs judgment and analysis on the fourth broadcast information and performs signature according to the fourth broadcast information, where the second network node is any network node in the blockchain except the first network node, and the fourth broadcast information includes a second network node ID, a shared package use request, and a shared package ID;

s305, the first network node sends the signature to a block chain.

In this embodiment, other network nodes except the first network node may also send broadcast information requesting to use the shared package to the blockchain, and the second network node is any one of the other network nodes.

Specifically, the first network node sends a signature on fourth broadcast information of the second network node to the block chain, and at the same time, other network nodes except the first network node and the second network node also sign according to the fourth broadcast information of the second network node and send the signature into the block chain, and the second network node receives all signatures on the fourth broadcast information and sends the signature on the fourth broadcast information to the operator server, so that the operator server judges whether the use authority of the second network node on the shared package use request in the fourth broadcast information can be opened.

The shared package use request included in the fourth broadcast information may be the same as or different from the shared package use request included in the first broadcast information. For example, when a plurality of different shared package contracts are made between network nodes, each shared package contract contains a shared package ID under the shared package contract, a total usage amount, and a usable amount under each network node ID.

Specifically, the determining and analyzing the fourth broadcast information and signing according to the fourth broadcast information includes:

the first network node judges and analyzes the package state corresponding to the shared package ID, the authority information corresponding to the second network node ID and the used amount and the unused amount of the package corresponding to the second network node ID;

and if the package state corresponding to the shared package ID is available, the second network node has the use permission of the shared package, and the available quantity of the shared package corresponding to the second network node ID is larger than a preset threshold value, then permission signature is carried out. The preset threshold value can be set by user according to user requirements.

Referring to fig. 4, fig. 4 is a system for managing shared services according to a fourth embodiment, including a blockchain 10, where the blockchain includes a first network node 11, other network nodes 12 except the first network node, and an operator server 13:

the first network node 11 is configured to send first broadcast information to a blockchain, where the first broadcast information includes a first network node ID, a shared package use request, and a shared package ID;

the other network node 12 is configured to receive the first broadcast information in the blockchain, then perform signature according to the first broadcast information, and send the signature to the blockchain;

the first network node 11 is further configured to obtain signatures sent by other network nodes in the block chain, and generate second broadcast information according to a signature result, where the second broadcast information includes signature results of the other network nodes, a shared package ID, and a first network node ID;

the first network node 11 is further configured to send the second broadcast information to an operator server;

the operator server 13 is configured to determine whether to open an authority of the first network node regarding a shared package use request in the first broadcast information according to the second broadcast information.

In this embodiment, the shared service management system includes a blockchain 10, a first network node 11 and other network nodes 12, which are at least two network nodes included in a blockchain network, and an operator server 13 for opening a shared service authority, and referring to fig. 5, fig. 5 is a schematic structural diagram of the first network node, and each network node (in this embodiment, the first network node is taken as an example) may include a receiving module 111 for receiving broadcast information sent by other network nodes, a signature module 112 for performing joint signature, a storage module 113 for storing a shared package contract and other information, and a sending module 114 for sending broadcast information. Specifically, the receiving module 111 is configured to receive a broadcast message sent by another network node; the storage module 113 is used for storing information such as a shared package contract and a shared service state, and the signature module 112 is used for judging whether the operation request sent by other nodes is reasonable or not according to the shared service state and the authority stored by the current node and signing the operation request; the 114 sending module is used for sending the broadcast message so that other network nodes can record the broadcast message into the block, and the joint signature among the network nodes is realized through the action of each module of the network nodes, and the state and the authority of the shared service are simultaneously stored and managed in each network node, thereby solving the hidden trouble of the current shared service management mode.

Optionally, the first network node 11, the other network nodes 12, and the operator server 13 are further configured to store a preset shared package contract, where the shared package contract includes a shared package ID, a total package usage amount under the shared package ID, and a package usage amount under each network node ID.

Optionally, the operator server 13 is further configured to, after the first network node 11 obtains the usage right of the shared package and uses the shared package, recalculate the available amount of the shared package of the first network node according to the used amount of the shared package of the first network node 11 this time, and send third broadcast information to the blockchain 10 according to the calculation result;

the first network node 11 and the other network nodes 12 are further configured to receive the third broadcast information, and then update the shared package usage of the first network node 11.

Optionally, a second network node of the other network nodes 12 is configured to send fourth broadcast information to the blockchain, where the second network node is any network node of the blockchain 10 except the first network node 11;

the first network node 11 is further configured to receive, in the blockchain 10, fourth broadcast information sent by the second network node 12, where the fourth broadcast information includes a second network node ID, a shared package use request, and a shared package ID;

the first network node 11 is further configured to perform judgment analysis on the fourth broadcast information and perform signature according to the fourth broadcast information;

the first network node 11 is further configured to send the signature into a blockchain.

Preferably, the determining and analyzing the fourth broadcast information and the signing according to the fourth broadcast information by the first network node 11 are specifically:

the first network node 11 is further configured to perform judgment and analysis according to the package state corresponding to the shared package ID, the right information corresponding to the second network node ID, and the used amount and the unused amount of the package corresponding to the second network node ID in the fourth broadcast information;

the first network node 11 is further configured to determine that the second network node has the usage right of the shared package when the package state corresponding to the shared package ID is available, and perform permission signature when the available amount of the package corresponding to the second network node ID is greater than a preset threshold.

The service sharing management system provided by this embodiment includes a block chain, where the block chain includes a first network node, other network nodes except the first network node, and an operator server, the first network node sends first broadcast information including a shared package use request to the block chain, the other network nodes except the first network node in the block chain judge according to the first broadcast information, sign the first broadcast information and send the signed first broadcast information to the block chain, then the first network node obtains the signed results of the other network nodes and generates second broadcast information including the signed results of the other network nodes, finally, the operator server receives the second broadcast information and determines whether to enable the authority of the first network node regarding the shared package use request, and the package use requests of the network nodes are jointly managed by the network nodes participating in the shared package, the whole management process does not need to depend on any server side, the defects that the operation of unified management and control of the existing sharing service by a central server is complex, potential safety hazards are easily caused and the like are overcome, the user experience is improved, meanwhile, the labor and economic cost of a service provider for maintaining data is reduced, and a large amount of manpower and material resources are saved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A method for managing shared services, comprising:

a first network node sends first broadcast information to a block chain, so that other network nodes except the first network node in the block chain receive the first broadcast information, then carry out signature according to the first broadcast information and send the signature to the block chain, wherein the first broadcast information comprises a first network node ID, a shared package use request and a shared package ID;

the first network node acquires signatures sent by other network nodes in the block chain, and generates second broadcast information according to the signature result of permission or rejection of the signatures of the other network nodes, wherein the second broadcast information comprises the signature result of the other network nodes, the shared package ID and the first network node ID;

and the first network node sends the second broadcast information to an operator server so that the operator server determines whether to open the authority of the first network node on the shared package use request in the first broadcast information according to the second broadcast information.

2. The method of claim 1,

the first network node, the other network nodes and the operator server store preset shared package contracts, wherein the shared package contracts comprise shared package IDs, package total usage under the shared package IDs and package available usage under each network node ID.

3. The method of claim 1,

obtaining, at the first network node, shared package usage rights and using the shared package after, further comprising:

and the operator server recalculates the available quantity of the shared package of the first network node according to the used quantity of the shared package of the first network node, and sends third broadcast information to the block chain according to the calculation result, so that each network node in the block chain updates the use condition of the shared package of the first network node after receiving the third broadcast information.

4. The method of claim 1, further comprising:

a second network node sends fourth broadcast information to the blockchain, so that the first network node in the blockchain judges and analyzes the fourth broadcast information and signs according to the fourth broadcast information after receiving the fourth broadcast information, wherein the second network node is any network node except the first network node in the blockchain, and the fourth broadcast information comprises a second network node ID, a shared package use request and a shared package ID;

the first network node sends the signature into a blockchain.

5. The method of claim 4, wherein the first network node performing decision analysis on the fourth broadcast information and signing according to the fourth broadcast information comprises:

the first network node judges and analyzes the package state corresponding to the shared package ID, the authority information corresponding to the second network node ID and the used amount and the unused amount of the package corresponding to the second network node ID in the fourth broadcast information;

and if the package state corresponding to the shared package ID is available, the first network node judges that the second network node has the use permission of the shared package, and carries out permission signature when the available quantity of the shared package corresponding to the second network node ID is larger than a preset threshold value.

6. A shared traffic management system comprising a blockchain comprising a first network node, other network nodes than the first network node and an operator server,

the first network node is configured to send first broadcast information to a blockchain, where the first broadcast information includes a first network node ID, a shared package use request, and a shared package ID;

the other network nodes are used for receiving the first broadcast information in the block chain, then signing according to the first broadcast information and sending the signature to the block chain;

the first network node is further configured to acquire signatures sent by other network nodes in the block chain, and generate second broadcast information according to the signature result of the other network nodes, which is allowed or rejected, where the second broadcast information includes the signature result of the other network nodes, the shared package ID, and the first network node ID;

the first network node is further configured to send the second broadcast information to an operator server;

and the operator server is used for determining whether to open the authority of the first network node on the shared package use request in the first broadcast information according to the second broadcast information.

7. The system of claim 6,

the first network node, the other network nodes and the operator server are further configured to store a preset shared package contract, where the shared package contract includes a shared package ID, a total package usage amount under the shared package ID, and a package usage amount under each network node ID.

8. The system of claim 6,

the operator server is further used for recalculating the available quantity of the shared package of the first network node according to the used quantity of the shared package of the first network node after the first network node acquires the use permission of the shared package and uses the shared package, and sending third broadcast information to the block chain according to the calculation result;

the first network node and the other network nodes are also used for receiving the third broadcast information and then updating the shared package service condition of the first network node.

9. The system of claim 6,

a second network node of the other network nodes, configured to send fourth broadcast information to the blockchain, where the second network node is any network node of the blockchain except the first network node;

the first network node is further configured to receive fourth broadcast information sent by a second network node in a block chain, where the fourth broadcast information includes a second network node ID, a shared package use request, and a shared package ID;

the first network node is further configured to perform judgment analysis on the fourth broadcast information and perform signature according to the fourth broadcast information;

the first network node is further configured to send the signature to a blockchain.

10. The system of claim 9, wherein the first network node is further configured to perform decision analysis on the fourth broadcast information and perform signature according to the fourth broadcast information specifically:

the first network node is further configured to perform judgment and analysis according to the package state corresponding to the shared package ID, the right information corresponding to the second network node ID, and the used amount and the unused amount of the package corresponding to the second network node ID in the fourth broadcast information;

the first network node is further configured to determine that the second network node has the usage right of the shared package when the package state corresponding to the shared package ID is available, and perform permission signature when the available amount of the package corresponding to the second network node ID is greater than a preset threshold.

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