CN114328621A - Data processing method, device and equipment - Google Patents

Abstract

The application provides a data processing method, a data processing device and data processing equipment, which are applied to a server, wherein the method comprises the following steps: receiving a query message sent by a terminal device, wherein the query message comprises identification information of a base station corresponding to base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data; according to the identification information of the base station corresponding to the base station data and the identification information of a first operator corresponding to the base station data, determining the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator; and acquiring base station data from a primary sub-block chain corresponding to the first operator according to the index information, and processing the base station data. By the method, the safety and the reliability of the base station data can be realized and the integrity of the data can be guaranteed in the process of co-building the shared base station without operators.

Description

Data processing method, device and equipment

Technical Field

The present application relates to the field of data processing technologies, and in particular, to a data processing method, apparatus and device.

Background

In order to improve the resource utilization rate and reduce the network operation cost, the idea of co-building a shared base station is developed, so that different operators can use the same base station to complete data transmission.

The data of different operators are isolated from each other, and any party cannot directly view the data of the base station of the other party, however, the key of the co-building and sharing of the base stations lies in the sharing of the data of the base stations. In the prior art, to acquire base station data provided by an operator of an opposite party, the data of a pull-back network management provided by the opposite party is usually relied on, however, the data of the pull-back network management is easy to be tampered, and the data security and reliability are low.

Disclosure of Invention

The application provides a data processing method, a data processing device and data processing equipment, which can realize the safety and reliability of base station data and guarantee the integrity of the data in the process of co-building a shared base station without operators.

In a first aspect, the present application provides a data processing method, applied to a server, including: receiving a query message sent by a terminal device, wherein the query message comprises identification information of a base station corresponding to base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data; according to the identification information of the base station corresponding to the base station data and the identification information of a first operator corresponding to the base station data, determining the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator; and acquiring base station data from a primary sub-block chain corresponding to the first operator according to the index information, and processing the base station data.

Optionally, the processing the base station data includes: acquiring identification information of a second operator corresponding to the terminal equipment; matching the base station data with a preset rule corresponding to a second operator; and if the matching fails, sending the target base station data failed in matching to the terminal equipment.

Optionally, after the data of the target base station with failed matching is sent to the terminal device, the method further includes: sending a first message to each node on a secondary sub-block chain corresponding to the target base station data, wherein the first message is used for determining whether the node agrees to modify the target base station data; and when determining that all the nodes agree to modify the target base station data, sending a second message to each node, wherein the second message comprises modification data and is used for indicating each node to modify the target base station data according to the modification data.

Optionally, the method further comprises: and if the matching is successful, sending a notification message to the terminal equipment, wherein the notification message is used for reminding the user that the base station data is matched with the preset rule corresponding to the second operator.

Optionally, the query message further includes an account number, identification information of a base station corresponding to the base station data, and identification information of an operator corresponding to the base station data, and the index information of a storage location in a primary sub-block chain corresponding to a second operator is determined from the main block chain, where the index information includes: judging whether the account has the authority of inquiring the base station data; and if the authority of inquiring the base station data is provided, determining the base station data corresponding to the base station data and the identification information of the operator corresponding to the base station data from the main block chain, and determining the index information of the storage position in the primary sub-block chain corresponding to the second operator, wherein the base station data corresponds to the base station data.

Optionally, before receiving the query message sent by the terminal device, the method further includes: receiving first data corresponding to a network management server of at least one first operator and second data corresponding to a network management server of at least one second operator; determining a primary sub-block chain corresponding to a first operator according to the first data; determining a primary sub-block chain corresponding to a second operator according to the second data; and determining the main block chain according to the storage position of the first data in the primary sub-block chain corresponding to the first operator and the storage position of the second data in the primary sub-block chain corresponding to the second operator.

In a second aspect, the present application provides a data processing method, applied to a terminal device, including: sending a query message to a server so that the server determines base station data corresponding to the base station identification information from the main block chain and index information of a storage position in a primary sub-block chain corresponding to a first operator according to the identification information of the base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data; acquiring base station data from a primary sub-block chain corresponding to a first operator according to the index information, and processing the base station data; the query message includes identification information of a base station corresponding to the base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data.

Optionally, the method further comprises: and receiving a notification message sent by the server, wherein the notification message is sent when the base station data is successfully matched with the preset rule corresponding to the second operator, and the notification message is used for reminding a user that the base station data is matched with the preset rule corresponding to the second operator.

In a third aspect, the present application provides a data processing apparatus comprising:

the receiving module is used for receiving a query message sent by the terminal device, wherein the query message comprises identification information of a base station corresponding to base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data.

And the processing module is used for determining the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator according to the identification information of the base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data.

And the processing module is further used for acquiring the base station data from the primary sub-block chain corresponding to the first operator according to the index information and processing the base station data.

Optionally, the processing module is specifically configured to obtain identification information of a second operator corresponding to the terminal device; matching the base station data with a preset rule corresponding to a second operator; and if the matching fails, sending the target base station data failed in matching to the terminal equipment.

Optionally, the processing module is further configured to send a first message to each node on the secondary sub-block chain corresponding to the target base station data, where the first message is used to determine whether the node agrees to modify the target base station data; and when determining that all the nodes agree to modify the target base station data, sending a second message to each node, wherein the second message comprises modification data and is used for indicating each node to modify the target base station data according to the modification data.

Optionally, the processing module is further configured to send a notification message to the terminal device if the matching is successful, where the notification message is used to remind the user that the base station data matches with the preset rule corresponding to the second operator.

Optionally, the query message further includes an account, and the processing module is specifically configured to determine whether the account has a right to query the base station data; and if the authority of inquiring the base station data is provided, determining the base station data corresponding to the base station data and the identification information of the operator corresponding to the base station data from the main block chain, and determining the index information of the storage position in the primary sub-block chain corresponding to the second operator, wherein the base station data corresponds to the base station data.

Optionally, the receiving module is further configured to receive first data corresponding to a network management server of at least one first operator and second data corresponding to a network management server of at least one second operator; determining a primary sub-block chain corresponding to a first operator according to the first data; determining a primary sub-block chain corresponding to a second operator according to the second data; and determining the main block chain according to the storage position of the first data in the primary sub-block chain corresponding to the first operator and the storage position of the second data in the primary sub-block chain corresponding to the second operator.

In a fourth aspect, the present application provides a data processing apparatus comprising:

the sending module is used for sending a query message to the server so that the server determines the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator according to the identification information of the base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data; acquiring base station data from a primary sub-block chain corresponding to a first operator according to the index information, and processing the base station data; the query message includes identification information of a base station corresponding to the base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data.

Optionally, the method further comprises:

and the receiving module is used for receiving a notification message sent by the server, wherein the notification message is sent when the base station data is successfully matched with the preset rule corresponding to the second operator, and the notification message is used for reminding a user that the base station data is matched with the preset rule corresponding to the second operator.

In a fifth aspect, the present application provides an electronic device, comprising: at least one processor; and a memory communicatively coupled to the at least one processor; wherein the memory stores instructions executable by the at least one processor to cause the at least one processor to perform the method of the first aspect or the alternatives of the first aspect, or the method of the second aspect or the alternatives of the second aspect.

In a sixth aspect, the present application provides a computer readable storage medium having stored thereon computer executable instructions for performing a method as described in the first aspect or the alternatives of the first aspect, or the second aspect or the alternatives of the second aspect, when executed by a processor.

According to the data processing method, the device and the equipment, the query message which is sent by the terminal equipment and comprises the identification information of the base station corresponding to the base station data requested to be queried by the terminal equipment and the identification information of the first operator corresponding to the base station data is received; according to the identification information of the base station corresponding to the base station data requested to be inquired by the terminal equipment and the identification information of a first operator corresponding to the base station data, determining the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator; and then according to the index information, base station data is obtained from the primary sub-block chain corresponding to the first operator and is processed, so that co-construction sharing of base stations among different operators can be realized based on the block chain technology, the reliability, the safety and the data consistency of co-construction shared data among different operators are improved, the reliability of the data is improved, and the integrity of the data is guaranteed.

Drawings

Fig. 1 is a schematic diagram of a blockchain provided in the present application;

fig. 2 is a schematic diagram of an application scenario of a data processing method provided in the present application;

FIG. 3 is a schematic flow chart of a data processing method provided in the present application;

FIG. 4 is a schematic flow chart of another data processing method provided herein;

fig. 5 is a schematic diagram of a block chain generation process provided in the present application;

FIG. 6 is a schematic flow chart diagram illustrating another data processing method provided herein;

FIG. 7 is a schematic structural diagram of a data processing apparatus provided in the present application;

FIG. 8 is a schematic diagram of another data processing apparatus provided in the present application;

fig. 9 is a schematic structural diagram of an electronic device provided in the present application.

With the foregoing drawings in mind, certain embodiments of the disclosure have been shown and described in more detail below. These drawings and written description are not intended to limit the scope of the disclosed concepts in any way, but rather to illustrate the concepts of the disclosure to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

In order to improve the resource utilization rate and reduce the network operation cost, the idea of co-building a shared base station is developed, so that different operators can use the same base station to complete data transmission.

The data of different operators are isolated from each other, and any party cannot directly view the data of the base station of the other party, however, the key of the co-building and sharing of the base stations lies in the sharing of the data of the base stations. The network operation and maintenance data of an operator mainly depends on the network management background, the network management system and various service platforms depending on the northbound data provide equipment alarms such as transmission broken link, antenna fault and the like, service index data such as the number of users, flow, call-on rate, line-drop rate and the like, mobile phones covering cell level, quality and the like report measurement data, software and hardware configuration information of a base station and the like, and the data jointly form the foundation of network operation and maintenance. If the data is inaccurate or missing, the construction and maintenance system of the whole mobile wireless network is in a problem.

In the network maintenance and analysis process of the current co-established shared network, the base station data provided by the operator of the opposite side is usually acquired by relying on the data of the pull-back network manager provided by the opposite side, however, the data of the pull-back network manager is easy to be distorted, and the data security, reliability, timeliness and credibility are low; due to low timeliness, the consistency of data is poor; because the manual participation degree is higher, because the manual operation reliability is lower, the data integrity is difficult to guarantee.

In order to solve the technical problem, the present application provides a data processing method, which is based on a block chain technology, and stores base station data that is not provided by an operator on a block chain, so that not only is the security and reliability of the data improved, but also the efficiency of querying the data by a user can be improved.

In a co-construction sharing scenario, in view of network isolation between different operators, a block chain needs to be built on a public cloud in the conventional technology, so that users can conveniently and stably access the block chain. For safety reasons, the operator network management system is built in the internal network and must be reliably isolated from the external network, so that the wireless network management system cannot be directly connected to the cloud, and a complete block chain is directly built.

In order to solve the problem, the block chain architecture of a 'three-level block chain' is provided according to a side chain concept in the block chain, data synchronization between a main block chain and a sub-block chain is achieved through a side chain protocol, and meanwhile safety isolation and data transparent mutual trust are met.

Fig. 1 is a schematic diagram of a block chain provided in the present application, and fig. 1 takes a scenario in which two operators co-establish a shared base station as an example, it should be noted that the method provided in the present application also uses a scenario in which a shared base station is co-established with multiple operators. As shown in fig. 1, the present application provides a "three-level five-chain" block chain architecture, which specifically includes a main block chain, two primary sub-block chains respectively corresponding to two operators, and two secondary sub-block chains respectively corresponding to two operators.

Wherein, the operators of both parties respectively combine the equipment merchants thereof to establish respective private chains as secondary sub-block chains. Data in the network management server enters a secondary sub-block chain through a northbound interface and a transfer server, and in the process, full automation is realized, human intervention is avoided, and therefore internal safety and data transparency are ensured. The private chain of the operator can be regarded as a alliance chain in the interior, a centralized structure is adopted, the province company node is used as a central node, and the prefecture company and the equipment company node are sub-nodes. The transfer server utilizes a trusted execution environment technology, so that the absolute safety and the credibility of the operation executed in the environment can be ensured, and the operation cannot be interfered by the outside. The data credibility and the operation safety can be further ensured. The trusted execution environment divides hardware and software resources of the device into a secure world and a non-secure world, and the secure world isolated by the hardware is utilized to protect the security of sensitive data and the correct execution of programs. The two worlds have independent system resources and cannot exchange data at will. Codes and resources in the secure world are protected by a strict access control strategy, and processes in the non-secure world forbid access to the secure world so as to ensure that sensitive resources stored in the secure world are not illegally accessed or stolen, and disclosure of security system vulnerabilities, external attacks and virus intrusion can be effectively reduced.

The secondary blockchain may be a blockchain stored on a private cloud.

And the secondary sub-block chain is connected with the primary sub-block chain on the public cloud through a side chain protocol.

On a public cloud, resource isolation of the primary sub-block chains of the two parties can be realized, so that the safety of data between the primary sub-block chains is realized. And setting data authority in a first-level sub-block chain, only allowing mutual access to co-constructed shared related data, and enabling the setting rules to be transparent and visible, namely ensuring the security and ensuring the integrity of the data.

Based on the block chain, the application provides a data processing method, which comprises the steps of receiving a query message which is sent by terminal equipment and comprises identification information of a base station corresponding to base station data requested to be queried by the terminal equipment and identification information of a first operator corresponding to the base station data; according to the identification information of the base station corresponding to the base station data requested to be inquired by the terminal equipment and the identification information of a first operator corresponding to the base station data, determining the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator; and then according to the index information, base station data is obtained from the primary sub-block chain corresponding to the first operator and is processed, so that co-construction sharing of base stations among different operators can be realized based on the block chain technology, the reliability, the safety and the data consistency of co-construction shared data among different operators are improved, the reliability of the data is improved, and the integrity of the data is guaranteed.

Fig. 2 is a schematic diagram of an application scenario of the data processing method provided in the present application, and as shown in fig. 2, the scenario includes a server 21, a terminal device 22, a network management server 23 corresponding to a first operator, and a network management server 24 corresponding to a second operator.

The server 21 includes a primary and a primary sub-block chain. The server 21 may be a cloud server.

The server 21 receives an inquiry message sent by the terminal device 22, where the inquiry message includes identification information of a base station corresponding to base station data requested to be inquired by the terminal device and identification information of a first operator corresponding to the base station data; according to the identification information of the base station corresponding to the base station data and the identification information of a first operator corresponding to the base station data, determining the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator; and acquiring base station data from a primary sub-block chain corresponding to the first operator according to the index information, and processing the base station data.

Optionally, the server 21 is further configured to obtain identification information of a second operator corresponding to the terminal device 22; matching the base station data with a preset rule corresponding to a second operator; if the matching fails, the target base station data that failed in matching is sent to the terminal device 22.

Optionally, the server 21 is further configured to send a first message to each node on the secondary sub-block chain corresponding to the target base station data, where the first message is used to determine whether the node agrees to modify the target base station data; and when determining that all the nodes agree to modify the target base station data, sending a second message to each node, wherein the second message comprises modification data and is used for indicating each node to modify the target base station data according to the modification data.

Optionally, the server 21 is further configured to send a notification message to the terminal device 22 if the matching is successful, where the notification message is used to remind the user that the base station data matches with the preset rule corresponding to the second operator.

Optionally, the query message further includes an account, and the server 21 is configured to determine whether the account has a right to query the base station data; and if the authority of inquiring the base station data is provided, determining the base station data corresponding to the base station data and the identification information of the operator corresponding to the base station data from the main block chain, and determining the index information of the storage position in the primary sub-block chain corresponding to the second operator, wherein the base station data corresponds to the base station data.

Optionally, the server 21 is further configured to receive first data corresponding to at least one network management server 23 of a first operator and second data corresponding to at least one network management server 24 of a second operator; determining a primary sub-block chain corresponding to a first operator according to the first data; determining a primary sub-block chain corresponding to a second operator according to the second data; and determining the main block chain according to the storage position of the first data in the primary sub-block chain corresponding to the first operator and the storage position of the second data in the primary sub-block chain corresponding to the second operator.

Fig. 3 is a schematic flowchart of a data processing method provided in the present application, where the data processing method is applied to a server, which may be, for example, a cloud server, as shown in fig. 3, where the method includes:

s301, receiving the inquiry message sent by the terminal equipment.

The query message includes identification information of a base station corresponding to the base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data.

The terminal device is a device operated by an operation and maintenance worker, and may specifically be an electronic device obtained in any form, and exemplarily, the terminal device is an electronic device such as a mobile phone, a tablet, a computer, and the like.

And the operation and maintenance personnel of the second operator sends a first message to the server through the terminal equipment, and the first message is used for inquiring the base station data of the target base station provided by the first operator.

And the identification information of the base station corresponding to the base station data is used for distinguishing the base station corresponding to the base station data.

And the identification information of the operator corresponding to the base station data is used for distinguishing the operators providing the base station data.

S302, according to the identification information of the base station corresponding to the base station data and the identification information of the operator corresponding to the base station data, the base station data corresponding to the base station identification information and the index information of the storage position in the primary sub-block chain corresponding to the first operator are determined from the main block chain.

Illustratively, each block of the main block chain stores a corresponding relationship between a storage location of base station data in at least one primary sub-block chain and identification information of a base station and identification information of an operator.

Illustratively, the master blockchain and the primary blockchain are both deployed on a public cloud. The main block chain is connected with a first-level sub-block chain corresponding to a first operator and a first-level sub-block chain corresponding to a second operator through a side chain protocol. And the first operator forms a alliance chain for each node on the primary sub-block chain and each node on the primary sub-block chain corresponding to the second operator, and the query and edit capability of the data is constructed on the primary sub-block chain through an intelligent contract.

Side chains, are a relative concept for a certain backbone. The side-chain protocol is a protocol that implements Two-way anchoring (Two-way Peg) by which data can be converted between the main chain and its chain, or in the form of a separate, isolated system.

Optionally, on a public cloud, resource isolation between the primary sub-block chain of the first operator and the primary sub-block chain of the second operator may be implemented, so as to ensure security between the primary sub-block chains corresponding to different operators. And setting data authority in a first-level sub-block chain, only allowing mutual access to co-constructed shared related data, and enabling the setting rules to be transparent and visible, namely ensuring the security and ensuring the integrity of the data.

And S303, acquiring base station data from the primary sub-block chain corresponding to the first operator according to the index information, and processing the base station data.

Illustratively, the base station data requested to be queried is obtained from the block corresponding to the primary sub-block chain according to the index information.

The data processing method comprises the steps of receiving a query message which is sent by a terminal device and comprises identification information of a base station corresponding to base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data; according to the identification information of the base station corresponding to the base station data requested to be inquired by the terminal equipment and the identification information of a first operator corresponding to the base station data, determining the base station data corresponding to the base station identification information from the main block chain and the index information of the storage position in the primary sub-block chain corresponding to the first operator; and then according to the index information, base station data is obtained from a primary sub-block chain corresponding to the first operator and is processed, so that co-construction sharing of base stations among different operators can be realized based on a block chain technology, reliability, safety and data consistency of co-construction shared data among different operators are improved, reliability of the data is improved, and integrity of the data is guaranteed.

Fig. 4 is a schematic flowchart of another data processing method provided in the present application, where the data processing method is applied to a server, for example, the server may be a cloud server, and fig. 4 further details how to process target base station data based on the embodiment shown in fig. 3, and as shown in fig. 4, the method includes:

s401, receiving the inquiry message sent by the terminal equipment.

The query message includes identification information of a base station corresponding to the base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data.

Optionally, the query message further includes an account, and the base station data corresponding to the base station identification information is determined from the master block chain according to the identification information of the base station corresponding to the base station data and the identification information of the operator corresponding to the base station data, and the index information of the storage location in the primary sub-block chain corresponding to the first operator includes: judging whether the account has the authority of inquiring the base station data; and if the authority of inquiring the base station data is provided, determining the base station data corresponding to the base station data and the identification information of the operator corresponding to the base station data from the main block chain, and the index information of the storage position in the primary sub-block chain corresponding to the first operator, wherein the base station data corresponds to the base station data.

Optionally, the determining whether the account has the authority to query the base station data includes: and controlling each node on the primary sub-block chain corresponding to the first operator and each node on the primary sub-block chain corresponding to the second operator, respectively verifying the account numbers included in the query messages, and if the account numbers pass the verification, determining that the account numbers have the authority of querying the base station data.

Illustratively, operation and maintenance personnel in an operator place city log in a public cloud, a base station configuration data module is selected to inquire the other party to establish a shared site, and nodes of the two parties of the electric connection on the chain successively utilize a key to verify the identity of the nodes.

Optionally, before receiving the query message sent by the terminal device, the method further includes:

receiving first data corresponding to a network management server of at least one first operator and second data corresponding to a network management server of at least one second operator; determining a primary sub-block chain corresponding to a first operator according to the first data; determining a primary sub-block chain corresponding to a second operator according to the second data; and determining the main block chain according to the storage position of the first data in the primary sub-block chain corresponding to the first operator and the storage position of the second data in the primary sub-block chain corresponding to the second operator.

The cloud server can directly receive the data sent by the network management server, and can also receive the data which is sent by the network management server and is transferred by other servers. The plurality of network management servers can send data to the cloud server through one or more transit servers.

By the method, data provided by any operator can be prevented from being tampered, the reliability and the safety of the data are improved, and the authenticity and the consistency of the data are guaranteed.

Exemplarily, fig. 5 is a schematic diagram of a block chain generation process provided in the present application, and as shown in fig. 5, a network management server of an operator sends data to a transit server, and the transit server processes the data according to a preselected and stored policy and then periodically sends the processed data to a cloud server to generate a new block, and periodically updates a block chain on the cloud server step by step.

Illustratively, different operators respectively combine their equipment vendors to build each private chain as a secondary sub-block chain. Data in the network management server enters a secondary sub-block chain through a northbound interface and a transfer server, so that full automation is realized in the process, and manual intervention is avoided. Thereby ensuring internal security and data transparency in the first place.

The private chain of the operator can be regarded as a alliance chain in the inside, a centralized structure is adopted, a provincial company node in a secondary sub-block chain is used as a central node, and a prefecture company and an equipment company node are sub-nodes.

The transfer server utilizes a trusted execution environment technology, so that the absolute safety and the credibility of the operation executed in the environment can be ensured, and the operation cannot be interfered by the outside. The data credibility and the operation safety can be further ensured.

The trusted execution environment divides hardware and software resources of the device into a secure world and a non-secure world, and the secure world isolated by the hardware is utilized to protect the security of sensitive data and the correct execution of programs. The two worlds have independent system resources and cannot exchange data at will. Codes and resources in the secure world are protected by a strict access control strategy, and processes in the non-secure world forbid access to the secure world so as to ensure that sensitive resources stored in the secure world are not illegally accessed or stolen, and disclosure of security system vulnerabilities, external attacks and virus intrusion can be effectively reduced.

Further, the secondary sub-block chain is connected with the primary sub-block chain on the public cloud through a side chain protocol, and optionally, a firewall can be arranged between the secondary sub-block chain and the primary sub-block chain to improve the safety of data and the safety of the server.

S402, according to the identification information of the base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data, the base station data corresponding to the base station identification information and the index information of the storage position in the primary sub-block chain corresponding to the first operator are determined from the main block chain.

S402 and S302 have the same technical features, and for the specific description, reference may be made to S302, which is not described herein again.

And S403, acquiring target base station data from the first block chain according to the index information.

Illustratively, the base station data requested to be queried is obtained from the block corresponding to the primary sub-block chain according to the index information.

S404, acquiring identification information of a second operator corresponding to the terminal equipment.

And the identification information of the second operator corresponding to the terminal device is the identification information of the operator of the operation and maintenance personnel.

Optionally, the query message sent by the terminal device includes identification information of an operator corresponding to the terminal device, and the server may obtain identification information of a second operator corresponding to the terminal device from the query message. Or the server acquires the identification information of the second operator corresponding to the terminal equipment, which is actively reported by the terminal equipment.

Optionally, the server sends an instruction requesting to acquire operator information corresponding to the terminal device, and acquires identification information of a second operator corresponding to the terminal device according to the received response instruction.

S405, matching the base station data with a preset rule corresponding to a second operator.

And the server checks the base station data provided by the first operator according to a preset rule corresponding to the second operator which is stored in advance.

And S406, if the matching fails, sending the target base station data which fails to be matched to the terminal equipment.

The server checks the base station data provided by the first operator according to a pre-stored preset rule corresponding to the second operator, and determines the data failing the check as target base station data.

Optionally, after the target base station data failed in matching is sent to the terminal device, the method further includes: sending a first message to each node on a secondary sub-block chain of a first operator corresponding to the target base station data, wherein the first message is used for determining whether the node agrees to modify the target base station data; and when determining that all the nodes agree to modify the target base station data, sending a second message to a network management server of the first operator corresponding to the target base station data.

Wherein the second message includes the modification data.

And the second message is used for indicating each node to modify the target base station data according to the modification data.

That is, after the server determines that the nodes on the secondary sub-block chain reach the consensus, the server sends modification data to the network management server of the first operator providing the target base station data, so that the modification is performed.

The modification data may specifically be a webmaster modification script.

Optionally, the server may send the network management modification script to the relay server first, and then the relay server forwards the network management modification script to the corresponding network management server.

And the server initiates a data modification application according to the inconsistent list and the script. The nodes on the secondary sub-block chain of each operator receive the modification application, and each node performs automatic check or manual check according to the strategy to achieve consensus. And after the nodes achieve consensus, the server sends the network management modification script to the transfer server.

After receiving the network management modification script, the transfer server checks the compliance of the network management modification script based on the operator and equipment manufacturer standards, checks the identity and the authority corresponding to the terminal equipment again, and transmits the network management modification script to the corresponding network management through the equipment manufacturer standard interface after the check is passed, so that the network management automatically executes the modification script to complete the data modification.

By the method, the server can automatically complete the data application of the matching failure, the data modification efficiency is improved, the manual participation is reduced, and the labor cost is reduced.

Optionally, after the target base station data failed in matching is sent to the terminal device, the method further includes: if a modification request message sent by the terminal equipment according to the target base station data is received, sending a first message to each node on a secondary sub-block chain corresponding to the target base station data, wherein the first message is used for determining whether the node agrees to modify the target base station data; and when determining that all the nodes agree to modify the target base station data, sending a second message to each node, wherein the second message comprises modification data and is used for indicating each node to modify the target base station data according to the modification data.

By the method, operation and maintenance personnel can determine whether to modify unmatched data according to requirements.

Optionally, the method further includes: and if the matching is successful, sending a notification message to the terminal equipment.

The notification message is used for reminding the user that the target base station data is matched with a preset rule corresponding to the first operator.

By the method, users, such as operation and maintenance personnel, can timely master the data matching condition, the user experience is improved, and the users can timely perform the next operation.

On the basis of the above embodiment, the data processing method further includes acquiring identification information of a second operator corresponding to the terminal device; matching the base station data with a preset rule corresponding to a second operator; and if the matching fails, the target base station data failed to be matched is sent to the terminal equipment, so that the data which is provided by the first operator and does not meet the requirements of the second operator can be quickly determined, the modified data is generated, and the data modification speed is increased.

Fig. 6 is a schematic flowchart of another data processing method provided in the present application, which is applied to a terminal device, and as shown in fig. 6, the method includes:

s601, sending a query message to a server so that the server determines base station data corresponding to the base station identification information from a main block chain and index information of a storage position in a primary sub-block chain corresponding to a first operator according to the identification information of a base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data; and acquiring base station data from a primary sub-block chain corresponding to the first operator according to the index information, and processing the base station data.

The inquiry message comprises identification information of a base station corresponding to the base station data requested to be inquired by the terminal equipment and identification information of a first operator corresponding to the base station data;

optionally, the method further includes:

and S602, receiving a notification message sent by the server, wherein the notification message is sent when the matching between the base station data and the preset rule corresponding to the second operator is successful.

The notification message is used for reminding the user that the base station data is matched with the preset rule corresponding to the second operator.

The data processing method provided by the application comprises the steps that a query message is sent to a server, so that the server determines base station data corresponding to base station identification information from a main block chain and index information of a storage position in a primary sub-block chain corresponding to a first operator according to the identification information of a base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data; acquiring base station data from a primary sub-block chain corresponding to a first operator according to the index information, and processing the base station data; the query message comprises the identification information of the base station corresponding to the base station data requested to be queried by the terminal equipment and the identification information of the first operator corresponding to the base station data, so that a user can query real data and can rapidly complete data processing.

Fig. 7 is a schematic structural diagram of a data processing apparatus provided in the present application, and as shown in fig. 7, the apparatus includes:

the receiving module 71 is configured to receive an inquiry message sent by the terminal device, where the inquiry message includes identification information of a base station corresponding to base station data requested to be inquired by the terminal device and identification information of a first operator corresponding to the base station data.

The processing module 72 is configured to determine, from the master block chain, base station data corresponding to the base station identification information and index information of a storage location in a primary sub-block chain corresponding to the first operator according to the identification information of the base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data.

The processing module 72 is further configured to obtain base station data from the primary sub-block chain corresponding to the first operator according to the index information, and process the base station data.

Optionally, the processing module 72 is specifically configured to obtain identification information of a second operator corresponding to the terminal device; matching the base station data with a preset rule corresponding to a second operator; and if the matching fails, sending the target base station data failed in matching to the terminal equipment.

Optionally, the processing module 72 is further configured to send a first message to each node on the secondary sub-block chain corresponding to the target base station data, where the first message is used to determine whether the node agrees to modify the target base station data; and when determining that all the nodes agree to modify the target base station data, sending a second message to each node, wherein the second message comprises modification data and is used for indicating each node to modify the target base station data according to the modification data.

Optionally, the processing module 72 is further configured to send a notification message to the terminal device if the matching is successful, where the notification message is used to remind the user that the base station data matches with the preset rule corresponding to the second operator.

Optionally, the query message further includes an account, and the processing module 72 is specifically configured to determine whether the account has a right to query the base station data; and if the authority of inquiring the base station data is provided, determining the base station data corresponding to the base station data and the identification information of the operator corresponding to the base station data from the main block chain, and determining the index information of the storage position in the primary sub-block chain corresponding to the second operator, wherein the base station data corresponds to the base station data.

Optionally, the receiving module 71 is further configured to receive first data corresponding to a network management server of at least one first operator and second data corresponding to a network management server of at least one second operator; determining a primary sub-block chain corresponding to a first operator according to the first data; determining a primary sub-block chain corresponding to a second operator according to the second data; and determining the main block chain according to the storage position of the first data in the primary sub-block chain corresponding to the first operator and the storage position of the second data in the primary sub-block chain corresponding to the second operator.

The apparatus may perform the method provided in the method embodiment shown in fig. 3 or fig. 4, and the content and effect thereof may refer to the part of the method embodiment, which is not described again.

Fig. 8 is a schematic structural diagram of another data processing apparatus provided in the present application, and as shown in fig. 8, the apparatus includes:

a sending module 81, configured to send a query message to a server, so that the server determines, according to identification information of a base station corresponding to base station data and identification information of a first operator corresponding to the base station data, the base station data corresponding to the base station identification information from the main block chain, and index information of a storage location in a primary sub-block chain corresponding to the first operator; acquiring base station data from a primary sub-block chain corresponding to a first operator according to the index information, and processing the base station data; the query message includes identification information of a base station corresponding to the base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data.

Optionally, the method further comprises:

the receiving module 82 is configured to receive a notification message sent by the server, where the notification message is sent when the base station data is successfully matched with the preset rule corresponding to the second operator, and the notification message is used to remind the user that the base station data is matched with the preset rule corresponding to the second operator.

The apparatus may perform the method provided in the method embodiment shown in fig. 6, and the content and effect thereof may refer to the method embodiment section, which is not described again.

Fig. 9 is a schematic structural diagram of an electronic device provided in the present application, and as shown in fig. 9, the electronic device includes: a processor 91, a memory 92; the processor 91 is communicatively connected to the memory 92. The memory 92 is used to store computer programs. The processor 91 is adapted to call a computer program stored in the memory 92 to implement the method in the above-described method embodiment.

Optionally, the electronic device further comprises: a transceiver 93 for enabling communication with other devices.

The electronic device may execute the method provided in the foregoing method embodiment, and the content and effect of the method may refer to part of the method embodiment, which is not described again.

The present application also provides a computer-readable storage medium having stored therein computer-executable instructions for implementing the above method when executed by a processor.

The content and effect of the method can be referred to in the embodiment section of the method, and details are not repeated here.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims. It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A data processing method is applied to a server, and the method comprises the following steps:

receiving an inquiry message sent by a terminal device, wherein the inquiry message comprises identification information of a base station corresponding to base station data requested to be inquired by the terminal device and identification information of a first operator corresponding to the base station data;

according to the identification information of the base station corresponding to the base station data and the identification information of a first operator corresponding to the base station data, determining the base station data corresponding to the base station identification information from a main block chain and the index information of the storage position in a primary sub-block chain corresponding to the first operator;

and acquiring the base station data from the primary sub-block chain corresponding to the first operator according to the index information, and processing the base station data.

2. The method of claim 1, wherein the processing the base station data comprises:

acquiring identification information of a second operator corresponding to the terminal equipment;

matching the base station data with a preset rule corresponding to the second operator;

and if the matching fails, sending the target base station data failed in matching to the terminal equipment.

3. The method of claim 2, wherein after the target base station data failing to be matched is transmitted to the terminal device, the method further comprises:

sending a first message to each node on a secondary sub-block chain corresponding to the target base station data, wherein the first message is used for determining whether the node agrees to modify the target base station data;

and when determining that all the nodes agree to modify the target base station data, sending a second message to each node, wherein the second message comprises modification data, and the second message is used for indicating each node to modify the target base station data according to the modification data.

4. A method according to claim 2 or 3, characterized in that the method further comprises:

and if the matching is successful, sending a notification message to the terminal equipment, wherein the notification message is used for reminding a user that the base station data is matched with a preset rule corresponding to the second operator.

5. The method according to any of claims 1-3, wherein the query message further comprises an account number,

the identification information of the base station corresponding to the base station data and the identification information of the operator corresponding to the base station data determine the base station data corresponding to the base station identification information from the main block chain, and the index information of the storage position in the primary sub-block chain corresponding to the second operator comprises:

judging whether the account has the authority of inquiring the base station data;

and if the authority of inquiring the base station data is provided, determining the base station data corresponding to the base station identification information and the index information of the storage position in the primary sub-block chain corresponding to the second operator from the main block chain according to the identification information of the base station corresponding to the base station data and the identification information of the operator corresponding to the base station data.

6. The method according to any of claims 1-3, wherein before the receiving the query message sent by the terminal device, the method further comprises:

receiving first data corresponding to a network management server of at least one first operator and second data corresponding to a network management server of at least one second operator;

determining a primary sub-block chain corresponding to the first operator according to the first data;

determining a primary sub-block chain corresponding to the second operator according to the second data;

and determining the main block chain according to the storage position of the first data in the primary sub-block chain corresponding to the first operator and the storage position of the second data in the primary sub-block chain corresponding to the second operator.

7. A data processing method is applied to a terminal device, and the method comprises the following steps:

sending a query message to a server so that the server determines base station data corresponding to the base station identification information from a main block chain and index information of a storage position in a primary sub-block chain corresponding to a first operator according to the identification information of a base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data; acquiring the base station data from a primary sub-block chain corresponding to the first operator according to the index information, and processing the base station data; the query message includes identification information of a base station corresponding to the base station data requested to be queried by the terminal device and identification information of a first operator corresponding to the base station data.

8. A data processing apparatus, comprising:

a receiving module, configured to receive an inquiry message sent by a terminal device, where the inquiry message includes identification information of a base station corresponding to base station data requested to be inquired by the terminal device and identification information of a first operator corresponding to the base station data;

the processing module is used for determining base station data corresponding to the base station identification information from the main block chain and index information of a storage position in a primary sub-block chain corresponding to the first operator according to the identification information of the base station corresponding to the base station data and the identification information of the first operator corresponding to the base station data;

the processing module is further configured to obtain the base station data from the primary sub-block chain corresponding to the first operator according to the index information, and process the base station data.

9. An electronic device, comprising:

at least one processor; and

a memory communicatively coupled to the at least one processor; wherein the content of the first and second substances,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the method of any one of claims 1-7.

10. A computer-readable storage medium having computer-executable instructions stored thereon, which when executed by a processor, perform the method of any one of claims 1-7.

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