CN110048883B - Method for realizing comprehensive network management based on micro-service cloud architecture - Google Patents

Abstract

The invention relates to a method for realizing comprehensive network management based on a micro-service cloud architecture, which provides a comprehensive network management system, and a basic platform module, an index acquisition micro-service module, a data transmission micro-service module, a rule engine micro-service module and an index data application module which are carried in the comprehensive network management system; the index acquisition micro-service module acquires index data in the basic platform module and respectively transmits the index data to the rule engine micro-service module and the data transmission micro-service module; the rule engine micro-service module classifies the transmission rule and the alarm rule of the index data and pushes the transmission rule to the data transmission micro-service module; the data transmission micro-service module processes the index data sent by the index acquisition micro-service by using the transmission rule and sends the processed data to the index data application module. The invention can improve the monitoring range of the comprehensive network management system, improve the alarm mechanism and expand the application of the comprehensive network management system in fault tracing and intelligent research and judgment.

Description

Method for realizing comprehensive network management based on micro-service cloud architecture

Technical Field

The invention relates to the technical field of network information, in particular to a method for realizing comprehensive network management based on a micro-service cloud architecture.

Background

At present, the expansion of the network infrastructure of the power system is accelerated, and the high-speed development of the comprehensive network management service is realized, so that a background support system is overwhelmed. Increasing traffic demands cannot be met in terms of throughput, stability, and scalability. With the rapid increase of the traffic, the operation and maintenance cost of the integrated network management is increased sharply. The traditional architecture design cannot guarantee the system monitoring performance, realize dynamic expansion and high availability.

The comprehensive network management system based on the traditional architecture design and development has the advantages that the number of information communication network resource devices is increased sharply, higher requirements on the management and the operation reliability of the network devices are provided, and the performance bottleneck of data acquisition, query and processing is generated; and the aspects of application deployment, upgrading and extension are relatively complex, and the adaptability to the change of the monitored object is poor.

Disclosure of Invention

In view of the above, the present invention provides a method for implementing integrated network management based on a micro service cloud architecture, so as to overcome the defects in the prior art.

The invention is realized by adopting the following scheme: a method for realizing comprehensive network management based on a micro-service cloud architecture provides a comprehensive network management system, and a basic platform module, an index acquisition micro-service module, a data transmission micro-service module, a rule engine micro-service module and an index data application module which are carried in the comprehensive network management system; the basic platform module is in communication connection with the index acquisition micro-service module; the rule engine micro-service module is respectively in communication connection with the data transmission micro-service module and the index acquisition micro-service module; the data transmission micro-service module is also in communication connection with the index acquisition micro-service module and the index data application module respectively; the method is realized by the following steps:

step S1: the index acquisition micro-service module acquires index data in the basic platform module and transmits the index data to the rule engine micro-service module and the data transmission micro-service module respectively;

the collected index data comprises basic platform index data, network equipment index data and application system index data;

step S2: the rule engine micro-service module identifies and classifies the received index data according to the transmission rule and the alarm rule, and pushes the transmission rule to the data transmission micro-service module;

step S3: the data transmission micro-service module processes the index data sent by the index acquisition micro-service by using the received transmission rule and sends the processed data to the index data application module.

Furthermore, the index acquisition micro-service module comprises a basic platform acquisition micro-service unit, a network equipment acquisition micro-service unit and an application system acquisition micro-service unit; the basic platform module comprises a basic platform unit, a network equipment unit and an application system unit; the basic platform acquisition micro-service unit acquires index data of the basic platform unit; the network equipment acquisition micro-service unit acquires index data of the network equipment unit; the application system acquisition micro-service unit acquires index data of the application system unit; and the index acquisition micro-service module respectively sends the acquired three index data to the data transmission micro-service module and the rule engine micro-service module.

Further, the rule engine micro-service module comprises a transmission rule micro-service module and an alarm rule micro-service module; the rule engine micro-service module divides the received index data and respectively stores the index data in the rule micro-service module and the alarm rule micro-service module; and the transmission rule micro-service module pushes the transmission rule in the module to the data transmission micro-service module.

Further, the data transmission micro-service module comprises a message production micro-service unit and a data pushing micro-service unit; the message production micro-service unit and the data pushing micro-service unit process the received index data by using the transmission rule, and the data pushing micro-service unit sends the processed data to the index data application module.

Compared with the prior art, the invention has the following beneficial effects:

(1) the invention can effectively improve the monitoring range of the comprehensive network management system, improve the effectiveness of the alarm mechanism and expand the application of the comprehensive network management system in fault tracing and intelligent research and judgment.

(2) The invention effectively adopts the realization mode based on the micro-service cloud architecture, under the condition of unchanged functions, the application is decomposed into a plurality of manageable branches or services, so that developers do not need to coordinate the influence of other service deployment on the service, and the economic cost is saved.

Drawings

FIG. 1 is a flow chart of an embodiment of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings and the embodiments.

As shown in fig. 1, the present embodiment provides a method for implementing integrated network management based on a micro-service cloud architecture, and provides an integrated network management system, and a base platform module, an index acquisition micro-service module, a data transmission micro-service module, a rule engine micro-service module, and an index data application module that are loaded in the integrated network management system; the basic platform module is in communication connection with the index acquisition micro-service module; the rule engine micro-service module is respectively in communication connection with the data transmission micro-service module and the index acquisition micro-service module; the data transmission micro-service module is also in communication connection with the index acquisition micro-service module and the index data application module respectively; the method is realized by the following steps:

step S1: the index acquisition micro-service module acquires index data in the basic platform module and transmits the index data to the rule engine micro-service module and the data transmission micro-service module respectively;

the collected index data comprises basic platform index data, network equipment index data and application system index data;

step S2: the rule engine micro-service module identifies and classifies the received index data according to the transmission rule and the alarm rule, and pushes the transmission rule to the data transmission micro-service module;

step S3: the data transmission micro-service module processes the index data sent by the index acquisition micro-service by using the received transmission rule and sends the processed data to the index data application module.

In this embodiment, the index acquisition micro-service module includes a basic platform acquisition micro-service unit, a network device acquisition micro-service unit, and an application system acquisition micro-service unit; the basic platform module comprises a basic platform unit, a network equipment unit and an application system unit; the basic platform acquisition micro-service unit acquires index data of the basic platform unit; the network equipment acquisition micro-service unit acquires index data of the network equipment unit; the application system acquisition micro-service unit acquires index data of the application system unit; and the index acquisition micro-service module respectively sends the acquired three index data to the data transmission micro-service module and the rule engine micro-service module.

In this embodiment, the rule engine micro-service module includes a transmission rule micro-service module and an alarm rule micro-service module; the rule engine micro-service module divides the received index data and respectively stores the index data in the rule micro-service module and the alarm rule micro-service module; and the transmission rule micro-service module pushes the transmission rule in the module to the data transmission micro-service module.

In this embodiment, the data transmission microservice module includes a message production microservice unit and a data push microservice unit; the message production micro-service unit and the data pushing micro-service unit process the received index data by using the transmission rule, and the data pushing micro-service unit sends the processed data to the index data application module.

In this embodiment, the data classification collection is performed through the base platform, the network device and the application system, and the index collection micro service performed through the collected data mainly includes a base platform collection micro service, a network device collection micro service and an application system collection micro service, and the index data is applied to the related data through a data transmission micro service.

Preferably, in the present embodiment,

a basic platform module: a base platform unit, a network device unit, and an application system unit are provided.

The index acquisition micro-service module: the micro-service acquisition function of acquiring micro-services by a basic platform, acquiring micro-services by network equipment and acquiring micro-services by an application system to realize index data is covered.

The rule engine micro-service module: and the transmission rule micro service and the alarm rule micro service realize intelligent identification and classification of the acquisition indexes.

The data transmission micro-service module: the last micro service of the message and the data push micro service realize the effective encapsulation and push of the message and the data.

Index data application module: and realizing the application of index data.

Preferably, in this embodiment, the specific working modes of the basic platform module, the index acquisition micro-service module, the rule engine micro-service module, the data transmission micro-service module, and the index data application module are as follows:

1) classifying and collecting the basic platform unit, the network equipment unit and the application system unit;

2) the acquisition of various resource indexes is realized through the index acquisition micro-service module;

3) providing index data for a rule engine micro-service module, and judging a transmission rule and an alarm rule by the rule engine micro-service;

4) and providing a transmission rule for the data transmission micro-service module. The data transmission micro-service module processes the message through the message production micro-service unit and the data push micro-service unit;

5) and providing the final index data to an index application module.

In particular, in this embodiment, a microservice partitioning policy is constructed according to application characteristics, for example, from the application perspective, a collection-type related microservice, a rule engine-type microservice, and a data transmission-type microservice are constructed, and meanwhile, characteristics such as miniaturization, light application, convenience in expansion, and the like are considered, so that various services are subdivided. The collection classes can be divided according to collection objects and collection index characteristics, and the basic platform class collects micro services, the network equipment collects micro services and the application system collects micro services; the rule engine micro service is subdivided into a transmission rule micro service and an alarm rule micro service; the data transmission micro service is subdivided into a message production micro service and a data push micro service.

Particularly, in the embodiment, overall application design of the micro-service is performed, based on a micro-service partitioning strategy, overall framework design of the micro-service, deployment strategy design of the micro-service, and design of a micro-service expansion mode are performed, and application specifications and development specifications of each micro-service are formulated to guide realization and application expansion of a product.

In particular, in the embodiment, the code implementation and the application joint debugging complete the implementation of the micro-service application function, and the micro-service is deployed in the actual environment for systematic joint debugging and optimization improvement.

In particular, the present embodiment is generalized, applied and popularized by a micro-service framework-based integrated network management system.

Preferably, the present embodiment performs data classification collection through the base platform, the network device and the application system, and the performing of the index collection micro service through the collected data mainly includes performing of the index collection micro service through the base platform, performing of the index collection micro service through the network device and performing of the index data through the data transmission micro service.

The complexity problem is solved for multiple service methods by decomposing a large monolithic application. With no changes in functionality, an application is broken down into multiple manageable branches or services. Also, the microservice architecture schema is an independent deployment of each microservice. Developers no longer need to coordinate the impact of other service deployments on the present service.

The effective implementation of the micro-service based cloud architecture decomposes applications into multiple manageable branches or services without changing functionality. Also, the microservice architecture schema is an independent deployment of each microservice. Developers no longer need to coordinate the impact of other service deployments on the present service.

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made in accordance with the claims of the present invention should be covered by the present invention.

Claims (2)

1. A method for realizing comprehensive network management based on a micro-service cloud architecture is characterized in that: providing a comprehensive network management system, and a basic platform module, an index acquisition micro-service module, a data transmission micro-service module, a rule engine micro-service module and an index data application module which are carried in the comprehensive network management system; the basic platform module is in communication connection with the index acquisition micro-service module; the rule engine micro-service module is respectively in communication connection with the data transmission micro-service module and the index acquisition micro-service module; the data transmission micro-service module is also in communication connection with the index acquisition micro-service module and the index data application module respectively; the method is realized by the following steps:

step S1: the index acquisition micro-service module acquires index data in the basic platform module and transmits the index data to the rule engine micro-service module and the data transmission micro-service module respectively;

the collected index data comprises basic platform index data, network equipment index data and application system index data;

step S2: the rule engine micro-service module identifies and classifies the received index data according to the transmission rule and the alarm rule, and pushes the transmission rule to the data transmission micro-service module;

step S3: the data transmission micro-service module processes the index data sent by the index acquisition micro-service by using the received transmission rule and sends the processed data to the index data application module;

the index acquisition micro-service module comprises a basic platform acquisition micro-service unit, a network equipment acquisition micro-service unit and an application system acquisition micro-service unit; the basic platform module comprises a basic platform unit, a network equipment unit and an application system unit; the basic platform acquisition micro-service unit acquires index data of the basic platform unit; the network equipment acquisition micro-service unit acquires index data of the network equipment unit; the application system acquisition micro-service unit acquires index data of the application system unit; the index acquisition micro-service module respectively sends the acquired three kinds of index data to the data transmission micro-service module and the rule engine micro-service module;

the rule engine micro-service module comprises a transmission rule micro-service module and an alarm rule micro-service module; the rule engine micro-service module divides the received index data and respectively stores the index data in the rule micro-service module and the alarm rule micro-service module; and the transmission rule micro-service module pushes the transmission rule in the module to the data transmission micro-service module.

2. The method for realizing integrated network management based on the micro-service cloud architecture according to claim 1, wherein the method comprises the following steps: the data transmission microservice module comprises a message production microservice unit and a data pushing microservice unit; the message production micro-service unit and the data pushing micro-service unit process the received index data by using the transmission rule, and the data pushing micro-service unit sends the processed data to the index data application module.

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