CN111639079A - Office data checking method and device for content charging service - Google Patents

Abstract

The application provides a content charging service-oriented office data checking method, which comprises the following steps: acquiring standard data of a target content charging service; processing the standard data to obtain a standard data table, wherein the standard data table comprises standard pure three-layer protocol data, standard seven-layer protocol data and a corresponding relation between the standard pure three-layer protocol data and the standard seven-layer protocol data; acquiring configuration data of the current network; analyzing the present network configuration data to obtain a present network data table, wherein the present network data table comprises present network pure three-layer protocol data, present network seven-layer protocol data and a corresponding relation between the present network pure three-layer protocol data and the present network seven-layer protocol data; and obtaining a data checking result according to the comparison standard data sheet and the present network data sheet. The office data checking method greatly improves the office data checking efficiency and reduces the manual checking cost.

Description

Office data checking method and device for content charging service

Technical Field

The present application relates to the field of communications technologies, and in particular, to a method and an apparatus for office data checking.

Background

Office Data (Office Data) is generally understood to be Data on various network devices in the core network domain of a communication network, and may include configuration Data and service Data of the devices themselves. The communication devices on the office, such as switches, gateways, etc., need to be configured with office data before they can normally communicate with other office communication devices. Therefore, it is necessary to check the office data only by checking whether the office data is configured correctly and completely.

The traditional checking method is manual checking, namely: and after the data making is finished by the office data producer, the specified command is sent to the switch to check the data making condition through the operation maintenance terminal of the network element. According to the standard, data making and data checking are separated operation flows and need different operators, so it is obvious that the above-mentioned method will consume a lot of manpower and material resources, the maintenance cost is higher, in addition, with the development of communication technology and the increase of communication service, the core network is also gradually evolving, the domain of office data is also expanded from traditional circuit domain related voice service data such as telephone traffic routing, signaling routing, destination code, roaming, etc. to multimedia message, short message, video, etc. packet domain related new service data, the massive data further increases the workload of the maintainer.

Content of application

The embodiment of the application provides a content charging service-oriented office data checking method and device, solves the problems of low efficiency and large workload of maintenance personnel of the existing manual checking method, and solves the problem that some checking methods are not universal.

In a first aspect, the present application provides a method for checking office data for a content charging service, including: acquiring standard data of a target content charging service; processing the standard data to obtain a standard data table, wherein the standard data table comprises standard pure three-layer protocol data, standard seven-layer protocol data and a corresponding relation between the standard pure three-layer protocol data and the standard seven-layer protocol data; acquiring configuration data of the current network; analyzing the present network configuration data to obtain a present network data table, wherein the present network data table comprises present network pure three-layer protocol data, present network seven-layer protocol data and a corresponding relation between the present network pure three-layer protocol data and the present network seven-layer protocol data; and obtaining a data checking result according to the comparison standard data sheet and the present network data sheet.

In one possible implementation, the analyzing the current network configuration data to obtain the current network data table includes:

and compiling a regular expression according to the characteristics of the target content charging service, and obtaining the pure three-layer protocol data of the current network, the seven-layer protocol data of the current network and the corresponding relation between the pure three-layer protocol data of the current network and the seven-layer protocol data of the current network through regular matching.

In another possible implementation, the content charging service features include: the instruction characteristics of the pure three-layer protocol data, the instruction characteristics of the seven-layer protocol data and the instruction characteristics of the corresponding relation between the pure three-layer protocol data and the current network seven-layer protocol data.

In another possible implementation, the pure three-layer protocol data includes three layers of IP addresses and four layers of ports; the seven-layer protocol data comprises a uniform resource locator url; the corresponding relation between the pure three-layer protocol data and the seven-layer protocol data comprises three-layer protocol data and seven-layer protocol data which are grouped and made into data according to the corresponding relation of n to n.

In another possible implementation, the comparing the standard data table with the present web data table includes: and comparing the data in the standard data table and the data in the present network data table by bidirectional polling.

In another possible implementation, the checking result includes: normal, do more, do not do, do by mistake one or more.

In another possible implementation, the standard data table and the present network data table are excel tables with a uniform format.

In a second aspect, the present application provides an electronic device comprising: the system comprises a memory, a processor, a receiver, a display and a computer program, wherein the computer program is stored in the memory, and the processor runs the computer program to execute the office data checking method for the content charging service in the first aspect.

In a third aspect, the present application provides a storage medium comprising: a readable storage medium and a computer program stored in the readable storage medium, the computer program being for implementing the office data checking method for a content charging service of the first aspect.

According to the office data checking method for the content charging service, the standard data and the current network configuration data are processed to form the standard data table and the current network data table with unified formats, so that the comparison between the standard data and the current network configuration data is facilitated, the checking method is universal, and the checking efficiency is greatly improved.

Drawings

Fig. 1 is an application scenario diagram of an office data checking method for a content charging service according to an embodiment of the present application;

FIG. 2 is a flow chart of a verification method applied to the scenario shown in FIG. 1;

fig. 3 is an interaction diagram implemented in a terminal by the checking method according to the embodiment of the present application.

Detailed Description

The technical solution of the present application is further described in detail by the accompanying drawings and examples.

In order to solve the problems of the traditional checking method, an improved checking method is provided, which mainly writes a specific checking algorithm aiming at various types of office data so as to facilitate the checking of the office data by the checking personnel, reduce the workload of the checking personnel and ensure the accuracy of the checking.

However, in practical use, the applicant has found that the above-mentioned checking method has at least the following problems: the method aims at the content charging service data production appeal to carry out full-volume check, and relates to the problems that the data volume of the existing network configuration file is large, standard data is not standard, the data has a dependency relationship, the analysis rule is complex, the check time is too long, and the data production efficiency is influenced.

In order to solve the above problem, the present application provides a method for checking office data for content charging service.

Fig. 1 is an application scenario diagram of an office data checking method for content charging services according to an embodiment of the present application. The terminal comprises a plurality of acquisition devices 1, a terminal 2 and a device 3 in figure 1, wherein the terminal 2 is in communication connection with the acquisition devices 1 and the device 2 respectively. The terminal 2 obtains the standard data of the target content charging service from the device 3, and the terminal 2 obtains the current network configuration data from the acquisition device 1. And the terminal 2 checks and compares the current network configuration data and the standard data through a preset office data checking program to obtain a checking result.

It is to be explained that several acquisition devices 1 are used to acquire and store the present network configuration data.

The terminal 2 may be any device with computing capability, such as a personal computer, a notebook computer, a tablet computer, a smart phone, and an intelligent wearable device.

The device 3 stores therein standard data of a target content charging service, which may be any storage device having a storage capability.

For example, the device 3 may be a usb disk/mobile hard disk, in which the standard data of the target content charging service is stored, and the usb disk/mobile hard disk is connected to the terminal 2, so that the terminal 2 can copy the standard data of the target content charging service from the usb disk/mobile hard disk.

The device 3 may also be a cloud server, and the terminal 2 logs in the cloud server through an account to obtain standard data of the target content charging service.

The device 3 may also be an internet device such as a smart phone, a tablet computer, or a computer, and sends standard data of the target content charging service to the terminal 2.

Fig. 2 is a flowchart of a checking method applied to the scenario shown in fig. 1. The method comprises the following steps:

step S201, obtaining standard data of the target content charging service.

The terminal 2 obtains the standard data of the target content charging service stored in the device 3 through the device 3, and the device 3 only needs to have a storage capability, and the application does not specifically limit the device 3.

Step S202, processing the standard data to obtain a standard data table, wherein the standard data table comprises standard pure three-layer protocol data, standard seven-layer protocol data and a corresponding relation between the standard pure three-layer protocol data and the standard seven-layer protocol data.

Because the standard data has various sources and formats and the data has a dependency relationship, in order to realize the universality of the checking method, the standard data needs to be processed to obtain a standard data table with a uniform format.

The standard data processing method comprises the following steps: and screening pure three-layer protocol data of the standard data of the target content charging service as the standard pure three-layer protocol data. And screening the seven-layer protocol data of the standard data of the content charging service in the target as the standard seven-layer protocol data. And searching the corresponding relation between the pure three-layer protocol data and the seven-layer protocol data in the standard data of the target content charging service to obtain the corresponding relation between the standard pure three-layer protocol data and the standard seven-layer protocol data.

It should be explained that the standard pure three-layer protocol data includes: three layers of IP addresses and four layers of ports in the standard data of the target content charging service. The standard seven-layer protocol data includes: a uniform resource locator url in the standard data of the target content charging service. Therefore, only concerned data and configuration on the network element are realized, and the effect generated by the data is not concerned, so that the data volume of the standard data is reduced, and the checking workload is further reduced.

The corresponding relation between the standard pure three-layer protocol data and the standard seven-layer protocol data is as follows: and the standard pure three-layer protocol data and the standard seven-layer protocol data are grouped according to the corresponding relation of n to be used as data.

For example: a three-layer ip address and four-layer port corresponding to a plurality of seven-layer urls. Or, a plurality of three layers of ip addresses and four layers of ports correspond to a seven layer url. Or, the three layers of ip addresses and the four layers of ports correspond to the seven layers of urls.

Step S203, acquiring the current network configuration data.

The terminal 2 may obtain the current network configuration data by receiving the current network configuration data of the target network element corresponding to the collected target content charging service sent by the collection devices 1. Alternatively, the terminal 2 may download the current network configuration data by logging in a cloud server storing the current network configuration data.

And S204, analyzing the current network configuration data to obtain a current network data table, wherein the current network data table comprises the current network pure three-layer protocol data, the current network seven-layer protocol data and the corresponding relation between the current network pure three-layer protocol data and the current network seven-layer protocol data.

The existing network configuration data is analyzed into the existing network data table with the same format as the standard data table, so that clear checking of the data is facilitated, and the checking efficiency is improved. The standard data sheet and the present network data sheet are excel sheets with the same format, so that the subsequent check and comparison are facilitated.

The specific analysis method comprises the following steps: firstly, combining an equipment mechanism and service characteristics to carry out session concurrence; then, according to the characteristics of the target content charging service, performing block analysis on the current network data to obtain the pure three-layer protocol data and the seven-layer protocol data of the current network; and finally, performing data correlation calculation by combining the data dependency relationship to obtain the corresponding relationship between the pure three-layer protocol data of the existing network and the seven-layer protocol data of the existing network.

It should be explained that the above-mentioned device is a present network element, and the device mechanism is an instruction issuing mechanism accepted by the network element. The target content charging service characteristics refer to the characteristics of the target content charging service, namely the service characteristics determined by the corresponding relationship between the current network pure three-layer protocol data, the current network seven-layer protocol data and the current network pure three-layer protocol data and the current network seven-layer protocol data, namely the configuration structure of the data table on the current network element, namely the data structure converted into the network element machine language. The existing network pure three-layer protocol data comprises: three layers of IP addresses and four layers of ports of the existing network. The current network seven-layer protocol data comprises: the uniform resource locator url of the existing network. The corresponding relation between the existing network pure three-layer protocol data and the existing network seven-layer protocol data is as follows: and the existing network pure three-layer protocol data and the existing network seven-layer protocol data are grouped and made into data according to the corresponding relation of n to n.

Because the existing network configuration data is a document in a plain text format, which is different from the excel table format of the standard data table, the required information needs to be extracted from the document in the plain text format of the existing network configuration data to be made into the excel table format which is the same as the standard data table format, and the checking and comparison of the subsequent steps are facilitated.

The existing network configuration data in the plain text format only contains the meaning of each field and is hidden in the text, the required data can be extracted through the regular expression, and then the extracted data is normalized to the existing network table in the excel format.

The specific method is that corresponding instruction regular expressions are compiled according to the configuration characteristics of different instructions, the characteristics of the existing network pure three-layer protocol data, the characteristics of the existing network seven-layer protocol data and the corresponding relationship characteristics of the existing network pure three-layer protocol data and the existing network seven-layer protocol data (for example, taking a filter as an example, a three-layer service name _ f _ serial number is started from 001, f is abbreviated as filter, and a service name _ f _ l3l7_ serial number is obtained by taking a filter as a three-four-layer service name _ f _ l3l7_ serial number which is started from 001 and a seven-layer service name _ f _ h _ serial number which is abbreviated as filter and host when the configuration data is a pure seven-layer service, the filter name is a service name _ f _ h _ serial number which is started from 001, and f _ h is abbreviated as filter and host), namely key parameters of the instructions are compiled into a regular expression, and the existing network pure three-layer protocol data are distinguished according to the instruction level according to the instruction regular expression, The characteristics of the current network seven-layer protocol data, and the corresponding relation between the current network pure three-layer protocol data and the current network seven-layer protocol data. Regular expression programming is as follows:

the key parameter naming rules for the instructions are detailed in the following table:

and S205, obtaining a data checking result according to the comparison standard data sheet and the present network data sheet.

The checking and comparing method of the standard table and the present table is carried out by adopting a bidirectional comparing mode. Firstly, the number of instructions required to be generated by a single standard can be obtained through a group specification and a configuration relation. And (e.g., if the cbb-id instruction exists in the standard data table, whether the cbb-id matched with the ccb-id exists in the network data table or not is found according to the key parameter of the ccb-id instruction, if so, the cbb-id is consistent, and if not, the checking result is neglected. In addition, if the current network data table fails to be successfully matched with the standard data table, the current network data which are not successfully matched are considered as the data which are not successfully matched, and a deleting instruction is generated.

The checking result comprises the following steps: normal, do more, do not do, do by mistake one or more.

For example, the bidirectional polling compares the standard data table with the existing network data table, and if the data in the standard data table is completely consistent with the data in the existing network data table, the checking result is normal.

If a certain pure three-layer protocol data or seven-layer protocol data does not exist in the standard data table, but the pure three-layer protocol data or seven-layer protocol data exists in the current network data table, the checking result is that more than one protocol is done.

If a certain pure three-layer protocol data or seven-layer protocol data exists in the standard data table, but the pure three-layer protocol data or seven-layer protocol data does not exist in the current network data table, the checking result is that the operation is missed.

If the corresponding relation between one pure three-layer protocol data and seven-layer protocol data in the standard data table is inconsistent with that in the current network data table, the checking result is false.

Of course, if the bidirectional polling compares the standard data sheet with the present network data sheet, and the condition of doing more and/or missing and/or doing in error occurs, the checking result is that doing more and/or missing and/or doing in error occurs.

Fig. 3 is an interaction diagram implemented in a terminal by the checking method according to the embodiment of the present application. The implementation instructions of the checking method are stored in the work order, after the work order is created, the system triggers the task to come to the converter pool, the system matches the service scheme through the work order information, calls the script library and the instruction library, and generates the script task through the preset script logic rule. After the script task is sent to the task scheduling center, the task scheduling center matches with a corresponding scheduler according to the task type, splits the script task into a plurality of subtasks through a certain splitting rule, and sends the subtasks to the task running pool. And after receiving the subtasks, the running pool concurrently executes the script according to the equipment multithreading execution principle, and in the execution process, if the running pool needs to interact with the network element, a session borrowing request is sent to the session pool, if the current network element type has an available session, the session is returned, if the current network element type does not have the available session, the subtasks corresponding to the current equipment enter a waiting queue until the session pool returns the available session. The session pool is responsible for session number management interacting with the network element and is a management center for network element scheduling. And after the execution of the subtasks is finished, sending the subtasks to a service data persistence pool, and storing the log, the execution condition (success or failure), the instruction content, the audit information and the like corresponding to the current network element into a database by the persistence pool.

According to the embodiment of the application, when the content charging service is opened, the full-amount checking efficiency can be improved, and the labor time cost is saved. After the wide application of part of operator companies, good economic benefits are obtained.

By improving the information standardization of the content charging service standard library, the current network file acquisition and analysis thread and the standard and current network bidirectional polling comparison mechanism. In an actual production scene, before the system is invented, the access of the application of a mobile data service industry relates to dozens of devices and different device manufacturers, corresponding instructions need to be generated according to different devices and different device types, then the devices are logged in one by one, and the time is required to be 1-2 hours when the whole device is used. And only a dozen minutes are actually needed by system delivery.

In another aspect, an embodiment of the present application further provides an electronic device, a memory, a processor, a receiver, a display, and a computer program, where the computer program is stored in the memory, and the processor executes the computer program to perform the office data checking method for content charging services.

In another aspect, an embodiment of the present application further provides a storage medium, including: a readable storage medium and a computer program stored in the readable storage medium, the computer program being used for implementing the office data checking method for the content-oriented charging service.

It will be further appreciated by those of ordinary skill in the art that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be embodied in electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described in a functional general in the foregoing description for the purpose of illustrating clearly the interchangeability of hardware and software. Whether these functions are performed in hardware or software depends on the particular application of the solution and design constraints. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in hardware, a software module executed by a processor, or a combination of the two. A software module may reside in Random Access Memory (RAM), memory, Read Only Memory (ROM), electrically programmable ROM, electrically erasable programmable ROM, registers, hard disk, a removable disk, a CD-ROM, or any other form of storage medium known in the art.

The above-mentioned embodiments, objects, technical solutions and advantages of the present application are described in further detail, it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present application, and are not intended to limit the scope of the present application, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present application should be included in the scope of the present application.

Claims (9)

1. A office data checking method for content charging service is characterized by comprising the following steps:

acquiring standard data of a target content charging service;

processing the standard data to obtain a standard data table, wherein the standard data table comprises standard pure three-layer protocol data, standard seven-layer protocol data and a corresponding relation between the standard pure three-layer protocol data and the standard seven-layer protocol data;

acquiring configuration data of the current network;

analyzing the present network configuration data to obtain a present network data table, wherein the present network data table comprises present network pure three-layer protocol data, present network seven-layer protocol data and a corresponding relation between the present network pure three-layer protocol data and the present network seven-layer protocol data;

and obtaining a data checking result according to the comparison standard data sheet and the present network data sheet.

2. The method of claim 1, wherein parsing the existing network configuration data to obtain an existing network data table comprises:

and compiling a regular expression according to the characteristics of the target content charging service, and obtaining the pure three-layer protocol data of the current network, the seven-layer protocol data of the current network and the corresponding relation between the pure three-layer protocol data of the current network and the seven-layer protocol data of the current network through regular matching.

3. The method of claim 2, wherein the content charging service features comprise: the instruction characteristics of the pure three-layer protocol data, the instruction characteristics of the seven-layer protocol data and the instruction characteristics of the corresponding relation between the pure three-layer protocol data and the current network seven-layer protocol data.

4. The method of claim 1, wherein said pure three-layer protocol data comprises three layers of IP addresses and four layers of ports; the seven-layer protocol data comprises a uniform resource locator url; the corresponding relation between the pure three-layer protocol data and the seven-layer protocol data comprises three-layer protocol data and seven-layer protocol data which are grouped and made into data according to the corresponding relation of n to n.

5. The method of claim 1, wherein said comparing the standard data sheet to the present web data sheet comprises: and comparing the data in the standard data table and the data in the present network data table by bidirectional polling.

6. The method according to any one of claims 1-5, wherein the checking result comprises: normal, do more, do not do, do by mistake one or more.

7. The method according to claim 1, wherein the standard data table and the presence data table are excel tables with a uniform format.

8. An electronic device, comprising: memory, processor, receiver, display and computer program, the computer program being stored in the memory, the processor running the computer program to perform the office data checking method for a content oriented charging service according to any of claims 1 to 7.

9. A storage medium, comprising: a readable storage medium and a computer program stored in the readable storage medium, the computer program being for implementing the office data checking method for a content-oriented charging service according to any one of claims 1 to 7.

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