CN114035887A - Micro-service one-stop type management and control platform based on container technology - Google Patents

Abstract

The invention discloses a micro-service one-stop management and control platform based on a container technology, which belongs to the technical field related to IT development, operation and maintenance environment management, and realizes real cooperative operation and high-efficiency execution of enterprises by performing micro-service one-stop management and control through the container technology; by operating and maintaining each micro-service system through a unified management platform, the workload of related personnel can be effectively reduced, and the speed and flexibility of an enterprise informatization system are greatly improved; meanwhile, mapping between the real system and the service attribute is realized through establishing the service directory, so that non-professional personnel can judge and maintain the real system through the service. The method comprises the steps that in a mode that an application authorization module distributes KEY and SECRET for multiple applications, interfaces which can be accessed by the applications are limited in an interface pool, and service isolation is achieved; the whole call chain is completely recorded through the log center, so that a user can conveniently audit logs and analyze the service condition of the microservice, and the service trend is judged.

Description

Micro-service one-stop type management and control platform based on container technology

Technical Field

The invention belongs to the technical field related to IT development, operation and maintenance environment management, and provides micro-service one-stop management and control through a container technology, in particular to a micro-service one-stop management and control platform based on the container technology.

Background

The technology of effectively dividing resources of a single operating system into isolated groups so as to better balance conflicting resource usage requirements among the isolated groups is container technology.

With the development of IT technology and the increasing complexity of systems, more and more system architectures begin to transform from SOA monomers to microservice architectures. The micro-service has the advantages of simple deployment, strong expansibility, high reliability, multiple technology stacks and the like.

The major micro-service administration platforms in the market are mostly deployed in the cloud manufacturer environment, and a plurality of products are supported at the same time. Or a plurality of opening components are combined, and API management, gateway, authorization, monitoring and devops pipelines are respectively administrative and need to enter from different entrances. The IT team is not only lack of a unified management mechanism, but also has great construction difficulty and maintenance difficulty. Therefore, a lightweight IT container management platform is needed to help an IT team to quickly construct, develop and operate an environment.

Therefore, a micro-service one-stop management and control platform based on the container technology is provided.

Disclosure of Invention

1. Technical problem

The micro service architectures have more components, are independent of each other, lack connectivity and cannot perform unified management and coordination;

when the existing functions are debugged, the existing functions can be finished only by entering each system, and if the architecture system is required to be changed, all services are required to be changed step by step;

the micro-service architecture management platform solves the problems of difficult management between micro-services, difficult architecture change and the like.

The invention provides a micro-service one-stop management and control platform based on a container technology, which realizes real cooperative operation and high-efficiency execution of enterprises by integrating multiple scientific management methods and management tools in one platform. The method can realize the overall communication of the micro-service, operate and maintain each micro-service system through a unified management platform, effectively reduce the workload of related personnel, and greatly improve the speed and flexibility of an enterprise information system. Meanwhile, mapping between the real system and the service attribute is realized through establishing the service directory, so that non-professional personnel can judge and maintain the real system through the service. The method comprises the steps that in a mode that an application authorization module distributes KEY and SECRET for multiple applications, interfaces which can be accessed by the applications are limited in an interface pool, and service isolation is achieved; the whole call chain is completely recorded through the log center, so that a user can conveniently audit logs and analyze the service condition of the microservice, and the service trend is judged.

2. Technical scheme

The purpose of the invention can be realized by the following technical scheme:

a one-stop management and control platform of micro-service based on container technology comprises a management platform and a plurality of micro-service components, wherein the micro-service components are connected with the management platform,

the micro service components are provided with code logic storage units;

the system comprises a management platform, and is characterized in that an open source assembly is arranged at the lower end of the management platform, and is provided with an information acquisition module, wherein the information acquisition module is used for acquiring code logic Li of a micro service assembly connected with the management platform, completing relational mapping GLi, realizing control over the micro service assembly, further realizing business logic between businesses and changing a framework.

Further, the management platform is connected with the micro service component through a gateway interface.

Further, the mapping relation completed by the open source component is realized by a relation mapping calculation module, and a relation storage module is further provided, wherein the relation between the code logic Li and the relation mapping GLi is stored in the relation storage module: li to GLi, and the code logic Li corresponds to the relationship mapping GLi one by one.

Further, when the information obtaining module obtains the code logic Li of the micro service component for the second time, the open-source component calls the relationship mapping GLi from the relationship storage module.

Further, the management platform is also connected with an application authorization module, and the application authorization module is matched with the registration center for use.

Further, the application authorization module is connected with the management platform to acquire the identity authority and the caller identity information and then distributes the KEY and the SECRET.

Further, the management platform is further configured to implement service attribute allocation, including:

the management platform acquires all services to be served through the information acquisition module and generates a service directory according to the service attributes; acquiring the service quantity M of a service directory and formulating a service label ms;

the management platform acquires the number P of idle micro-service components through an information acquisition module;

comparing the number M of the services with the number P of the idle micro service components;

when M is less than or equal to P, distributing the services to be served to the idle micro-service components in sequence, forming an identifier Bpms, and marking the idle micro-service components as working micro-service components after the idle micro-service components are distributed to the services;

when M > P, the management platform adds the microservice component.

The system further comprises a log center, wherein the log center is used for storing the management log, a log query module is configured in the log center, the log center is used for realizing service record on the management platform, a user queries the log through the log query module, and the log center also stores the service condition of the microservice component.

Furthermore, the management platform is also connected with an external interface.

3. Advantageous effects

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

by integrating multiple scientific management methods and management tools in one platform, the real cooperative operation and high-efficiency execution of enterprises are realized. The method can realize the overall communication of the micro-service, operate and maintain each micro-service system through a unified management platform, effectively reduce the workload of related personnel, and greatly improve the speed and flexibility of an enterprise information system. Meanwhile, mapping between the real system and the service attribute is realized through establishing the service directory, so that non-professional personnel can judge and maintain the real system through the service. The method comprises the steps that in a mode that an application authorization module distributes KEY and SECRET for multiple applications, interfaces which can be accessed by the applications are limited in an interface pool, and service isolation is achieved; the whole call chain is completely recorded through the log center, so that a user can conveniently audit logs and analyze the service condition of the microservice, and the service trend is judged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic diagram of a micro-service one-stop management and control platform based on container technology according to the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the container technology-based micro-service one-stop management and control platform includes a management platform and a plurality of micro-service components, where the plurality of micro-service components are connected to the management platform, and a registration center and a log center are connected below the management platform;

the micro service components are independent from each other, and the micro service components are provided with code logic storage units;

the system comprises a management platform, an open source assembly, an information acquisition module and a data processing module, wherein the open source assembly is arranged at the lower end of the management platform and is provided with the information acquisition module, and the information acquisition module is used for acquiring the code logic of a micro service assembly connected with the management platform, completing relational mapping and realizing the control of the micro service assembly so as to further realize the functions of business logic between businesses, framework change and the like;

it should be noted that, the management platform is connected to the micro service component through a gateway interface, and specifically, a process of the management platform performing management control on the micro service component specifically includes the following steps:

the method comprises the following steps: the management platform is connected with the micro service component through a gateway interface, and the management platform confirms the communication connection between the management platform and the micro service component;

step two: after the management platform confirms the communication connection, numbering the micro service components which confirm the communication connection by the management platform, and marking the micro service components as i; wherein i represents the number of the micro service component, i is 1,2 … … n;

step three: the management platform is connected with an information acquisition module in the open source component to acquire code logic Li of the micro service component, corresponding relation mapping GLi is completed through the open source component, and the management platform stores the relation mapping GLi in a relation storage module;

step four: and the management platform realizes the management control of the micro service components through the corresponding relation mapping GLi.

It should be noted that the completion of the mapping relationship by the open source component is realized by a relationship mapping calculation module, and the manner of calculating the relationship mapping by the relationship mapping calculation module is relatively complex, so that the relationship between the code logic Li and the relationship mapping GLi is also stored in the relationship storage module: li to GLi; it should be noted that the code logic Li corresponds to the relational mapping GLi one to one;

when the code logic of the micro-service component obtained again by the information obtaining module is Li, the open-source component directly calls the relational mapping GLi from the relational storage module without carrying out calculation again through the relational mapping calculation module, so that the problem of increased server load caused by large calculation amount of recalculation is avoided, the step of recalculation is omitted, the control link is simplified, and efficient and rapid control is realized.

The management platform is also connected with an application authorization module, and the application authorization module is matched with a registration center for use;

the registration center is used for the caller to input the identity information for data calling, different identity authorities are formed due to the input identity information during registration, and the registration center sends the caller identity information and the identity authorities to the management platform after the registration is successful;

the application authorization module is connected with the management platform to acquire the identity authority and the caller identity information and then distributes the KEY and the SECRET, so that the accessible interfaces are limited, and service isolation is realized.

The management platform is further configured to implement service attribute allocation, and specifically, the process of implementing service attribute allocation by the management platform includes the following steps:

step S1: the management platform acquires all services to be served through the information acquisition module and generates a service directory according to the service attributes; acquiring the service quantity M of a service directory and formulating a service label ms; wherein M represents the service number to be served, M is 1,2 … … M, and s represents the service attribute;

step S2: the management platform acquires the number P of idle micro-service components through an information acquisition module;

step S3: comparing the service quantity M with the quantity P of the idle micro service components, wherein the number of the idle micro service components is represented by P, and P is 1,2 … … P;

when M is less than or equal to P, the number of the idle micro-service components is enough, the services to be served are sequentially distributed to the idle micro-service components, an identifier Bpms is formed, and after the idle micro-service components are distributed to the services, the idle micro-service components are marked as working micro-service components;

when M is larger than P, the number of idle micro service components is insufficient; the management platform adds micro-service components.

It should be noted that when the number of the idle micro-service components is insufficient, another processing mode may be adopted, that is, a service completion time node of the working micro-service component is obtained, a required completion time node of the service to be served is obtained, and a required completion time duration of the service to be served is obtained at the same time;

arranging time nodes needing to be completed of the services to be served according to a time node sequence, sequentially distributing the services to be served of P before arrangement to an idle micro-service component, forming an identifier Bpms, and marking the idle micro-service component as a working micro-service component after the idle micro-service component is distributed to the services;

and distributing the service to be served after the P next time, and distributing the service when the state of the working micro service assembly is converted into an idle micro service assembly and forming an identifier.

It should be further explained that, when the service completion time node plus the required completion time duration is greater than the required completion time node, the management platform adds the micro service component.

The log center is used for storing management logs, a log query module is configured in the log center, the log center is used for recording business to the management platform, a user can query the logs through the log query module, and the log center also stores the service condition of the micro-service component and is used for analyzing the trend of the service business when the user queries the business record through the log query module.

It should be noted that the management platform is further connected with an external interface, and the external interface can be connected with a service platform or a mechanism similar to an energy science micro service library or a low-code development platform, so that the application which can be used for production and manufacturing can be conveniently and quickly constructed.

The working principle of the invention is as follows: by integrating multiple scientific management methods and management tools in one platform, the real cooperative operation and high-efficiency execution of enterprises are realized. The method can realize the overall communication of the micro-service, operate and maintain each micro-service system through a unified management platform, effectively reduce the workload of related personnel, and greatly improve the speed and flexibility of an enterprise information system. Meanwhile, mapping between the real system and the service attribute is realized through establishing the service directory, so that non-professional personnel can judge and maintain the real system through the service. The method comprises the steps that in a mode that an application authorization module distributes KEY and SECRET for multiple applications, interfaces which can be accessed by the applications are limited in an interface pool, and service isolation is achieved; the whole call chain is completely recorded through the log center, so that a user can conveniently audit logs and analyze the service condition of the microservice, and the service trend is judged.

In the embodiments provided by the present invention, it should be understood that the disclosed apparatus, device and method can be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the modules is only one logical functional division, and there may be other divisions when the actual implementation is performed; the modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the method of the embodiment.

It will also be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof.

The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the system claims may also be implemented by one unit or means in software or hardware. The terms second, etc. are used to denote names, but not any particular order.

Finally, it should be noted that the above examples are only intended to illustrate the technical process of the present invention and not to limit the same, and although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical process of the present invention without departing from the spirit and scope of the technical process of the present invention.

Claims (8)

1. A micro-service one-stop management and control platform based on container technology comprises a management platform and micro-service components, wherein the micro-service components comprise a plurality of micro-service components, and the micro-service components are connected with the management platform, and the micro-service component management and control platform is characterized in that:

the micro service components are provided with code logic storage units;

the system comprises a management platform, and is characterized in that an open source assembly is arranged at the lower end of the management platform, and is provided with an information acquisition module, wherein the information acquisition module is used for acquiring code logic Li of a micro service assembly connected with the management platform, completing relational mapping GLi, realizing control over the micro service assembly, further realizing business logic between businesses and changing a framework.

2. The container technology-based micro-service one-stop management and control platform according to claim 1, wherein the management platform and the micro-service component are connected through a gateway interface.

3. The container technology-based micro-service one-stop management and control platform according to claim 1, wherein the mapping relationship completed by the open source component is realized by a relational mapping calculation module, and the container technology-based micro-service one-stop management and control platform is further provided with a relational storage module, in which a relationship between code logic Li and relational mapping GLi is stored: Li-GLi, and the code logic Li is in one-to-one correspondence with the relationship mapping GLi;

and when the information acquisition module acquires the code logic Li of the micro service component for the second time, the open-source component calls the relationship mapping GLi from the relationship storage module.

4. The container technology-based micro-service one-stop management and control platform according to claim 1, wherein an application authorization module is further connected to the management platform, and the application authorization module is used in cooperation with a registry.

5. The container technology-based microservice one-stop management and control platform of claim 4, wherein the application authorization module is connected to the management platform to obtain identity authority and caller identity information and then distribute KEY and search.

6. The container technology-based micro-service one-stop management and control platform according to claim 1, wherein the management platform is further configured to implement service attribute assignment, including:

the management platform acquires all services to be served through the information acquisition module and generates a service directory according to the service attributes; acquiring the service quantity M of a service directory and formulating a service label ms;

the management platform acquires the number P of idle micro-service components through an information acquisition module;

comparing the number M of the services with the number P of the idle micro service components;

when M is less than or equal to P, distributing the services to be served to the idle micro-service components in sequence, forming an identifier Bpms, and marking the idle micro-service components as working micro-service components after the idle micro-service components are distributed to the services;

when M > P, the management platform adds the microservice component.

7. The container technology-based micro-service one-stop management and control platform according to claim 1, further comprising a log center, wherein the log center is used for storing management logs, a log query module is configured in the log center, the log center is used for implementing service record on the management platform, a user performs log query through the log query module, and the log center further stores use conditions of micro-service components.

8. The container technology-based micro-service one-stop management and control platform according to claim 1, wherein an external interface is further connected to the management platform.

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