CN112486560B - Application resource topology management system - Google Patents

Abstract

The application provides an application resource topology management system, which comprises a production service module, a synchronous service module, an application resource topology management module and portable mobile equipment, wherein the production service module is used for providing a synchronous service for the portable mobile equipment; the production service module is connected with the synchronous service module, the synchronous service module is connected with the application resource topology management module, and the application resource topology management module is connected with the portable mobile device; based on the traditional business system application resource management, the real-time scanning and supervision of the application resource change are realized. The method also comprises the steps of monitoring the configuration, the release package and the change of the source code in real time, managing the change item and improving the operation and maintenance initiative, the automation and the operation and maintenance monitoring capability. The advantages of the graph database are fully utilized, the graph database is compared with the application resource item of the base line version, the possible deviation and the influence functional range are identified in an auxiliary mode, and the application operation and maintenance change is effectively controlled.

Description

Application resource topology management system

Technical Field

The application relates to the technical field of IT operation and maintenance service application and operation and maintenance digital analysis, in particular to an application resource topology management system.

Background

The IT operation and maintenance service application resource and IT basic resource relation chain is a very complex topological relation, and a business system application resource management library contains application operation and maintenance information such as construction business requirements, application systems, codes, release packages, operation configuration parameters, local version management and the like. Wherein, the real-time supervision and traceability management of the application resource change can further influence the analysis. The fine local version management of the system is time consuming and labor intensive and is highly prone to error.

In recent years, the relationship between service system application resources and basic resources is effectively integrated through automatic configuration and service technology application resource topology management, so that the operation flow is simplified, and each change is traceable, controllable and transparent. And a guarantee mechanism is provided for the completeness and consistency of the production results of activities such as demand tracking, upgrading and deployment. But on one hand, the method can not scan and monitor the change of the application resource in real time, and on the other hand, the analysis functions such as result tracking, change influence and the like can not be realized.

Disclosure of Invention

The application provides an application resource topology management system which aims at solving the problem that real-time scanning and supervision cannot be carried out on application resource change.

The application provides an application resource topology management system, which comprises a production service module, a synchronous service module, an application resource topology management module and portable mobile equipment, wherein the production service module is used for providing a synchronous service for the portable mobile equipment;

the production service module is connected with the synchronous service module, the synchronous service module is connected with the application resource topology management module, and the application resource topology management module is connected with the portable mobile device;

the production service module acquires the source code catalogue and the service basic information and is configured to monitor the source code catalogue and judge whether the source code catalogue is changed or not; if the source code catalog is changed, obtaining a changed catalog code, and transmitting the changed catalog code and business basic information to the synchronous service module;

the synchronization service module is configured to store and synchronize the change catalog code; acquiring the service basic information and sending the service basic information to the application resource topology management module;

the application resource topology management module comprises a system information maintenance unit, a detailed design analysis and identification unit, a system code packet structure identification unit, a system function and code correspondence identification unit and a version maintenance unit;

the system information maintenance unit is configured to input the business basic information;

the detailed design analysis and identification unit is configured to identify input demand defects, analyze the demand defects to obtain analysis data, and send the analysis data and corresponding code packages to the system code package structure identification unit;

the system code packet structure identification unit is configured to decompress the code packet and generate an overview, and the decompressed code packet and the analysis data are sent to the system function and code corresponding identification unit;

the system function and code corresponding identification unit adopts change identification to carry out association processing on the analysis data and the decompressed code packet to obtain association information;

the version maintenance unit acquires the associated information, carries out change analysis on the associated information and generates change analysis data;

the portable mobile device is configured to display the change analysis data.

Optionally, the portable mobile device includes a processor, a memory, and a display screen; the processor is connected with the memory, and the processor and the memory are respectively connected with the display screen.

Optionally, the synchronization service module and the application resource topology management module communicate data through 4G network communication.

Optionally, the application resource topology management module and the portable mobile device perform data communication through a communication interface.

Optionally, the overview includes functional comparisons, code conditions, and analysis records.

Optionally, the service basic information includes a functional topology structure diagram source data record, a server deployment diagram record and a code packet structure.

Optionally, the code package is automatically analyzed to generate a code package structure after being uploaded.

Optionally, the version maintenance unit generates the monitoring change data by monitoring a third party service system server.

As can be seen from the above technical solution, the present application provides an application resource topology management system, which includes a production service module, a synchronization service module, an application resource topology management module and a portable mobile device; the production service module is connected with the synchronous service module, the synchronous service module is connected with the application resource topology management module, and the application resource topology management module is connected with the portable mobile device; based on the traditional business system application resource management, the real-time scanning and supervision of the application resource change are realized. The method also comprises the steps of monitoring the configuration, the release package and the change of the source code in real time, managing the change item and improving the operation and maintenance initiative, the automation and the operation and maintenance monitoring capability. The advantages of the graph database are fully utilized, the graph database is compared with the application resource item of the base line version, the possible deviation and the influence functional range are identified in an auxiliary mode, and the application operation and maintenance change is effectively controlled.

Drawings

In order to more clearly illustrate the technical solution of the present application, the drawings that are needed in the embodiments will be briefly described below, and it will be obvious to those skilled in the art that other drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic diagram of an application resource topology management system;

fig. 2 is a schematic diagram of an application resource topology management module in an application resource topology management system.

Detailed Description

Reference will now be made in detail to the embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The embodiments described in the examples below do not represent all embodiments consistent with the application. Merely exemplary of systems and methods consistent with aspects of the application as set forth in the claims.

The application provides an application resource topology management system based on an automatic application configuration (Aoto Configuration Manage, ACM) management and control technology. The application mainly adopts Browser/Server (B/S) architecture for deployment, and needs to deploy a relational database and a graph database at the same time, and monitoring synchronous services such as Rsync, inotify and the like are required to be installed and deployed by starting a monitoring function.

The B/S structure is a network structure mode, which unifies the client, concentrates the core part of system function realization on the server, and simplifies the development, maintenance and use of the system. The B/S structure has the greatest advantages of low overall cost, convenient maintenance, strong distribution, simple development and the like, can be operated anywhere without installing any special software, has zero maintenance on a client, and is very easy to expand the system, and can be used only by a computer capable of surfing the Internet.

Rsync (Remotesync) is a data mirror backup tool under the class unix system, remote synchronization supports local replication, or synchronization with other SSH, rsync hosts. The Rsync data mirror image backup tool not only can mirror image and save the whole directory tree and file system, but also can easily maintain the authority, time, soft and hard links and the like of the original file. Inotify is a Linux kernel feature that monitors the file system and issues related event alerts to specialized applications in time, such as delete, read, write, and unload operations, and track details of the source and destination of the activity.

Referring to fig. 1, a schematic structure diagram of an application resource topology management system is shown. The application provides an application resource topology management system, which comprises a production service module 1, a synchronous service module 2, an application resource topology management module 3 and portable mobile equipment 4; the production service module 1 is connected with the synchronous service module 2, the synchronous service module 2 is connected with the application resource topology management module 3, and the application resource topology management module 3 is connected with the portable mobile device 4; wherein, the synchronous service module 2 and the application resource topology management module 3 communicate data through 4G network communication. The application resource topology management module 3 and the portable mobile device 4 communicate data via a communication interface.

The production service module 1 acquires a source code catalog and service basic information and is configured to monitor the source code catalog and judge whether the source code catalog is changed or not; if the source code catalog is changed, obtaining a changed catalog code, and transmitting the changed catalog code and business basic information to the synchronous service module 2; thereby realizing resource synchronization. The production service module 1 also acquires a series of resources such as a release packet, a source code and the like, monitors the real-time change of the resources, and synchronizes the resources.

Further, the synchronization service module 2 is configured to store and synchronize the change catalog code; acquiring the service basic information and sending the service basic information to the application resource topology management module 3; the change directory is an incremental synchronous directory, and may be a synchronous directory of a plurality of source server monitoring directories. A plurality of different synchronization service modules may be configured for different monitor directories of a plurality of source servers.

Referring to fig. 2, a schematic diagram of an application resource topology management module in an application resource topology management system is shown. The application resource topology management module 3 comprises a system information maintenance unit 31, a detailed design analysis and identification unit 32, a system code packet structure identification unit 33, a system function and code correspondence identification unit 34 and a version maintenance unit 35; the system information maintenance unit 31 is configured to enter the service basic information, where the service basic information includes a functional topology structure diagram source data record, a server deployment map record, and a code packet structure. And automatically analyzing and generating a code packet structure after the code packet is uploaded. The detailed design analysis and identification unit 32 is configured to identify an input demand defect, analyze the demand defect to obtain analysis data, and send the analysis data and a corresponding code packet to the system code packet structure identification unit 33; and combining and analyzing the demand defects and the business basic information to obtain analysis data, and uploading and transmitting resources such as an operation code packet, an accessory and the like. The system code package structure identification unit 33 is configured to decompress the code package and generate an overview comprising functional comparisons, code conditions and analysis records. And the decompressed code package and the analysis data are sent to the system function and code correspondence identification unit 34; the system function and code correspondence identification unit 34 uses change identification to associate the analysis data with the decompressed code packet to obtain association information, then stores the association information and synchronizes the association information to the graph database, and submits the association relation of the change identification and the updated graph database. The version maintenance unit 35 acquires the associated information, performs change analysis on the associated information, and generates change analysis data; meanwhile, the version maintenance unit 35 also obtains and inputs analysis basic information of different versions by itself, and issues the analysis basic information after the association operation. And generating monitoring change data by monitoring the third party service system server.

The portable mobile device 4 is configured to display the change analysis data. The portable mobile device 4 comprises a processor, a memory and a display screen; the processor is connected with the memory, and the processor and the memory are respectively connected with the display screen. The processor processes and manages the application resource topology management module 3 program; the memory is used for storing the result of the application resource topology management module 3 program; the display screen displays the data and records processed by the application resource topology management module 3.

The application provides an application resource topology management system, which comprises a production service module 1, a synchronous service module 2, an application resource topology management module 3 and portable mobile equipment 4; the production service module 1 is connected with the synchronous service module 2, the synchronous service module 2 is connected with the application resource topology management module 3, and the application resource topology management module 3 is connected with the portable mobile device 4; wherein, the synchronous service module 2 and the application resource topology management module 3 communicate data through 4G network communication. The application resource topology management module 3 and the portable mobile device 4 communicate data via a communication interface. Based on the traditional business system application resource management, the real-time scanning and supervision of the application resource change are realized. The method also comprises the steps of monitoring the configuration, the release package and the change of the source code in real time, managing the change item and improving the operation and maintenance initiative, the automation and the operation and maintenance monitoring capability. The advantages of the graph database are fully utilized, the graph database is compared with the application resource item of the base line version, the possible deviation and the influence functional range are identified in an auxiliary mode, the application operation and maintenance change is effectively controlled, and the problem that the application resource change cannot be scanned and supervised in real time is solved.

The above-provided detailed description is merely a few examples under the general inventive concept and does not limit the scope of the present application. Any other embodiments which are extended according to the solution of the application without inventive effort fall within the scope of protection of the application for a person skilled in the art.

Claims (8)

1. An application resource topology management system is characterized by comprising a production service module (1), a synchronous service module (2), an application resource topology management module (3) and a portable mobile device (4);

the production service module (1) is connected with the synchronous service module (2), the synchronous service module (2) is connected with the application resource topology management module (3), and the application resource topology management module (3) is connected with the portable mobile device (4);

the production service module (1) acquires a source code catalog and service basic information and is configured to monitor the source code catalog and judge whether the source code catalog is changed or not; if the source code catalog is changed, a changed catalog code is obtained, and the changed catalog code and business basic information are sent to the synchronous service module (2);

-the synchronization service module (2) configured to store and synchronize the change catalog code; acquiring the service basic information and sending the service basic information to the application resource topology management module (3);

the application resource topology management module (3) comprises a system information maintenance unit (31), a detailed design analysis and identification unit (32), a system code packet structure identification unit (33), a system function and code correspondence identification unit (34) and a version maintenance unit (35);

-the system information maintenance unit (31) configured to enter the service basic information;

the detailed design analysis and identification unit (32) is configured to identify an input demand defect, analyze the demand defect to obtain analysis data, and send the analysis data and a corresponding code packet to the system code packet structure identification unit (33);

the system code packet structure identification unit (33) is configured to decompress the code packet and generate an overview, and the decompressed code packet and the analysis data are sent to the system function and code correspondence identification unit (34);

the system function and code corresponding identification unit (34) is used for carrying out association processing on the analysis data and the decompressed code packet by adopting change identification to obtain association information;

the version maintenance unit (35) acquires the associated information, performs change analysis on the associated information and generates change analysis data;

the portable mobile device (4) is configured to display the change analysis data.

2. An application resource topology management system according to claim 1, characterized in that the portable mobile device (4) comprises a processor, a memory and a display screen; the processor is connected with the memory, and the processor and the memory are respectively connected with the display screen.

3. An application resource topology management system according to claim 1, characterized in that the synchronization service module (2) and the application resource topology management module (3) are in data communication via a 4G network communication.

4. An application resource topology management system according to claim 1, characterized in that the application resource topology management module (3) and the portable mobile device (4) are in data communication via a communication interface.

5. An application resource topology management system as recited in claim 1, wherein the overview comprises functional comparisons, code conditions, and analysis records.

6. The application resource topology management system of claim 1, wherein said business base information comprises a functional topology structure map source data record, a server deployment map record, and a code package structure.

7. An application resource topology management system as recited in claim 1, wherein the code package is automatically parsed to generate a code package structure after being uploaded.

8. An application resource topology management system according to claim 1, wherein the version maintenance unit (35) generates the monitoring change data by monitoring a third party service system server.