CN112612572B - Interactive cloud native application distribution management system and method based on graphics - Google Patents

Abstract

The invention discloses an interactive cloud native application distribution management system and method based on imaging, which relate to the whole life cycle of application, distribution and management of cloud native application and are divided into an application distribution management center and an application use terminal, wherein the application distribution management center manages and distributes application, and the application use terminal installs and monitors application. The application distribution management center can globally supervise the applications of all the application use terminals and can meet the customized requirements of each application use terminal; the simple visual interface operation is adopted, the bottom environment and the complex commands involved in the operation and maintenance process of application installation are shielded, and the operation and maintenance difficulty of enterprise-level application can be effectively reduced.

Description

Interactive cloud native application distribution management system and method based on graphics

Technical Field

The invention belongs to the technical field of management, and particularly relates to an interactive cloud native application distribution management system based on graphics and an interactive cloud native application distribution management method based on graphics.

Background

With the popularity of the Docker technology (container engine), the containerized cloud native application starts to be located in various industries, so that enterprise business application development and online operation are more convenient, but with the great increase of the application, new challenges are brought to management and operation and maintenance of the application, especially, the compiling and modification of application layout files need professional knowledge to be competent, the format is slightly wrong, the normal operation of application programs can be influenced, and operation and maintenance personnel in short term of the skills are difficult to master, so that the online operation of the application is influenced.

At present, some application management software exists in the market, but a product which is completely graphical, meets the requirements of one management center and multiple deployments and also meets the flexible requirements of customized applications in various regions does not exist.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an interactive cloud native application distribution management system based on imaging.

In order to solve the technical problem, the invention provides a graphical-based interactive cloud native application distribution management system, which comprises: an application distribution management center and a plurality of application use terminals; the application distribution management center is connected with each application use terminal for communication;

the distribution management center includes: the system comprises a mirror image management module, a cluster management module, an application module, an application approval module and an application distribution module; wherein:

the mirror image management module is used for storing a docker mirror image corresponding to the cloud native application;

a cluster management module for creating clusters corresponding to the application use terminals one by one,

the application module is used for submitting an application for shelf loading application; the application is a cloud native application; uploading the docker mirror image corresponding to the application to a mirror image management module;

the application approval module is used for executing installation, test and evaluation on the applied application and obtaining a corresponding approval result;

the application distribution module is used for distributing the approved applications to each application use terminal;

the application use terminal includes: the application installation module and the application management module: wherein:

the application installation module is used for displaying the installable application and installing the application selected by the user;

and the application management module is used for managing the installed applications to carry out upgrading, uninstalling and monitoring.

Further, the applications include general applications and custom applications.

Further, the mirror image management module comprises a test environment mirror image warehouse and an application distribution management center mirror image warehouse;

testing environment mirror image warehouse: storing the docker mirror image corresponding to the application before approval,

the application distribution management center mirror warehouse: and storing the docker mirror image corresponding to the application after the approval is passed.

Further, the application use terminal further comprises an application use terminal mirror repository agent.

Further, the information of the submitted application includes: application name, application version, contact information, application description, required resources, application preview, application definition file, and application specific configuration file.

Further, in the application approval module, when the application to be applied is installed, tested and evaluated, if the submitted application cannot be normally installed, cannot normally run or excessively consumes system resources, the specific review opinions are fed back to the application module.

Further, the application installation module further displays an installation progress in the application installation process.

Correspondingly, the invention also provides a graphical-based interactive cloud native application distribution management method, which comprises the following steps:

the method comprises the steps that an application distribution management center creates clusters, and the clusters correspond to application use terminals one to one;

the application distribution management center submits the application to be applied for shelving; executing installation, test and evaluation on the applied application, and obtaining a corresponding approval result;

if the approval is passed, the application distribution management center distributes the approved application to each application use terminal;

displaying an installable application and installing the application selected by the user by using the application using terminal; and upgrade, uninstall and monitor the installed applications.

Further, after the application distribution management center creates a cluster, a unique cluster identifier token is generated, the application using terminal obtains the corresponding cluster identifier token from the application distribution management center, and configures the identifier into a configuration file of the application using terminal, and then the application using terminal must carry the token value each time a request is initiated to the application distribution management center.

Further, the application and approval process of the application distribution management center is as follows:

before an application is proposed, a mirror image corresponding to the application is pushed to a test environment mirror image warehouse of an application distribution management center;

the application distribution management center tests the newly submitted application in the test environment cluster, and if the test is passed, the application enters an approval stage;

synchronizing a mirror image corresponding to the application to an application distribution management center mirror image warehouse when the application is released;

when the application uses the terminal to install the application, the application uses the terminal mirror image warehouse agent to automatically synchronize the corresponding mirror images from the application distribution management center mirror image warehouse and cache the mirror images, and when the application is reinstalled, the cached mirror images in the agent can be directly used.

Compared with the prior art, the invention has the following beneficial effects: both can be convenient distribute the application, also can manage and control each on-the-spot self-defined application, utilize the mode of graphics to come to manage and control the full life cycle of application, greatly reduced to the requirement of fortune dimension personnel, promoted the efficiency of application deployment, also effectively reduce the probability of deployment mistake.

Drawings

FIG. 1 is a diagram of an application distribution pattern;

FIG. 2 is a mirror management flow chart;

FIG. 3 is a flow chart showing the method of the present invention;

fig. 4 is a configuration information flow diagram.

Detailed Description

The invention is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Firstly, an application distribution management center is built by utilizing an application distribution management center component, and the application distribution management center comprises the following modules: mirror image management, cluster management, application, application approval and application distribution. And then building an application use terminal by using the application use terminal assembly, wherein the application use terminal comprises the following modules: application installation, installed application management module (including upgrade, uninstall). The components corresponding to both the application distribution management center and the application use terminal are provided in the form of a Docker container. The various module components interact in a graphical format.

Based on the technical scheme, the interactive cloud native application distribution management method based on the graphics comprises the following steps:

first step, building application distribution management center

And building an application distribution management center by using mirror image management, cluster management, application, application approval and an application distribution assembly, and logging in the application distribution management center by using a preset administrator account after building is completed.

Second, the application distribution management center creates a cluster

And establishing a cluster by using the cluster management module, wherein the cluster comprises the contact information and the deployment address information of cluster managers, and a unique cluster identifier token is generated after the cluster is established.

Thirdly, building an application use terminal

The method comprises the steps that an application using terminal is built by utilizing an application installation and installed application management module assembly, one application using terminal corresponds to one cluster of a management distribution center, a corresponding cluster identification token needs to be obtained from the application distribution management center before building, the identification is configured into a configuration file of the application using terminal, and the token value needs to be carried by the application using terminal when the application using terminal initiates a request to the application distribution management center each time. After the application use terminal is built, operation and maintenance personnel can log in the application use terminal, check, search and install the application which is approved by the application distribution management center, and monitor, upgrade and uninstall the application in the running state.

Fourthly, the application distribution management center applies for application on shelf

An application developer logs in an application distribution management center, an application module is used for carrying out application racking application, submitted application racking application information comprises application summarization, preview pictures and application definition files, if the application needs special configuration, corresponding configuration information is submitted in a zip form, and the managed application aims at cloud native application, so that a docker mirror image name corresponding to the application also needs to be provided, and the docker mirror image is uploaded to a mirror image warehouse of the application distribution management center.

Fifthly, the application distribution management center performs application verification

The method comprises the steps that an administrator logs in an application distribution management center, an application approval module is utilized to check an application listing list, an application distribution management center administrator is arranged to execute installation, test and evaluation on an applied application, if the submitted application cannot be normally installed, cannot normally run or excessively consumes system resources, the administrator feeds back a specific review suggestion to an application page, and if the test is qualified, the application is marked as passing.

Sixthly, the application distribution management center distributes the application

After the application passes the approval of the application distribution management center, the application distribution management center distributes the approved application to each application use terminal by using the application distribution module.

Seventhly, the application uses the terminal to install the application

The operation and maintenance personnel can check the corresponding application in the installable application page by logging in the application and using the terminal, the application to be installed can be clicked to enter the application detail page, and the user can check the detailed description information of the application and the preview effect image after the installation is completed. And clicking installation, firstly popping up an application configuration page comprising the memory and CPU resource information required by the application and application specific configuration information, completing the configuration and executing the next step, and calling a corresponding API by the application use terminal installation module according to the application running environment to complete application installation. Along with application installation, the configuration and mirror image information related to the application can be automatically synchronized to the terminal, and the application files do not need to be copied manually.

Eighthly, the application uses the terminal to manage the application

And logging in the application use terminal by the operation and maintenance personnel to manage the application. After the application is installed, the application is displayed on an installed application interface, and the specific application can be operated on the page. The method specifically comprises the following steps:

if the application has a new version, the application can be upgraded, the upgrading process supports rolling upgrade to realize non-stop updating, and if the configuration of the application is configured in the last installation, the value configured in the last installation is displayed on an attribute configuration page;

if the specific application is not wanted to be used continuously, the application can be unloaded;

the method can enter a specific application monitoring page to check the use conditions of the CPU and the memory of the application, and can also directly check the application log to observe whether the application runs healthily.

The invention relates to a whole life cycle of application, distribution and management of cloud native application, which is divided into an application distribution management center and an application use terminal, wherein the application distribution management center manages and distributes application, and the application use terminal installs and monitors application. The application distribution management center can globally supervise the applications of all the application use terminals and can meet the customized requirements of each application use terminal; the simple visual interface operation is adopted, the bottom environment and the complex commands involved in the operation and maintenance process of application installation are shielded, and the operation and maintenance difficulty of enterprise-level application can be effectively reduced.

Examples

The invention relates to a graphical-based interactive cloud native application distribution management system, which comprises the following specific implementation modes:

(1) application distribution mode

The specific distribution pattern applied in the present invention is performed as shown in fig. 1. The system comprises an application distribution management center and a plurality of application use terminals. The mirror image management module is used for storing a docker mirror image corresponding to the cloud native application, the application module carries out application on shelf, and the application approval module carries out approval on application. The application installation module of the application use terminal checks and installs the application, and the application management module monitors the application.

(2) Mirror image management mode

The application in the invention is directed to cloud native application, and both general application and each field-defined application must be provided in a way of Docker mirror image, and the management flow of the mirror image is performed as shown in FIG. 2. General application: the installed applications can be checked in all field application use terminals; self-defining application: only checking and installing at a specific terminal; testing environment mirror image warehouse: storing a docker mirror image corresponding to the application before approval, testing an environment cluster, and testing the environment of the application; the application distribution management center mirror warehouse: storing the docker mirror image corresponding to the application after the approval is passed; the application uses a terminal mirror repository agent: storing the docker mirror image corresponding to the application after each application use terminal is installed, wherein the application use terminal produces an environment cluster: the environment in which the application actually runs.

Before an application is provided, a mirror image corresponding to the application needs to be pushed to a test environment mirror image warehouse of an application distribution management center, the application distribution management center tests the newly submitted application in a test environment cluster, and if the test is passed, the application enters an approval stage. At the moment, an application manager is required to examine and release a specific application, and when the application is released, a mirror image corresponding to the application is automatically synchronized to an application distribution management center mirror image warehouse.

When the application is installed by the application use terminal, the agent automatically synchronizes the corresponding mirror image from the mirror image warehouse of the application distribution management center and caches the mirror image, when the application is reinstalled, the cached mirror image in the agent can be directly used, the mirror image can not be repeatedly synchronized from the application distribution management center, and the authentication information of the mirror image warehouse is configured in the agent establishment.

(3) Application lifecycle management approach

The execution flow from application to application installation after application development is completed is shown in fig. 3.

Firstly, an application is submitted on an application page, and the application page needs to provide the following information: the application comprises an application name, an application version, contact information, application description, required resources, an application preview, an application definition file and an application specific configuration file. And after the application is completed, entering an approval process, and when the test is completed and the release is executed, the release becomes the field-installable application.

And each field application uses the terminal to view all the installable and upgradable applications, selects the application to be installed, and starts to install the specified version.

After installation starts, the configuration information page is entered first, configuration of information such as a CPU, an internal memory, a data source and the like can be carried out on the configuration information page, after configuration is completed, the configuration information page can be sequentially installed according to a plurality of service modules defined in the application description file, and at the moment, the installation module of the application use terminal can call an API of the cloud environment to execute specific installation logic. And displaying the installation progress in the installation process of the installation module, and feeding back node information and container information of the specific service installation in the application to the interface. The installation process is sequentially executed: mounting volume installation, network installation, configuration information release, container starting, authority installation, menu installation, UI routing information registration and API registration, wherein if abnormity occurs in the application installation process, an interface can give error information, then the application executes rolling, and if the upgrading operation is performed, the application automatically rolls into a version which is successfully installed last time.

The installed application is checked through the application management application by using the installed application page of the terminal, and the application can be unloaded, upgraded and checked.

(4) Application definition file

An application developer logs in an application distribution management center to apply, application information is required to be filled in an application page, the application information comprises an application definition file, application developer contact information, application description, an application preview image and application required resource information, the most important file provided by the application developer is an application definition file, and the format of the application definition file is as follows:

the menu part describes menu information corresponding to the application, and the corresponding format is as follows:

the api section describes the interface information that the application provides to external calls, in the following format:

services describes the information of the microservices the application contains, in the following format:

(5) application configuration information processing

If the application has the specified configuration information, the configuration information processing flow proceeds as shown in FIG. 4. The configuration page displays default values in the configuration file during first installation, and configuration information is uploaded to the configuration center after installation is completed. When the configuration file is installed again or the application is upgraded, the configuration file and the configuration obtained from the centralized configuration are combined and displayed on an interface.

The application corresponding configuration file is provided in the form of a yaml file, which is formatted as follows:

wherein, the variable supports multi-level nesting, and the variable attribute finally generated as the above example is [ variable prefix 1, variable prefix 2 ]

The variable name is a name displayed on a variable setting page in the installation process, the type corresponds to the variable type and comprises int, string, borolan and password, and the interface is customized and displayed according to different types, for example, the password can be automatically encrypted.

The system can conveniently distribute the applications, can manage and control the custom applications on each site, and can manage and control the full life cycle of the applications in a graphical mode, thereby greatly reducing the requirements on operation and maintenance personnel, improving the efficiency of application deployment and effectively reducing the probability of deployment errors.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (10)

1. An interactive cloud native application distribution management system based on graphics is characterized by comprising: an application distribution management center and a plurality of application use terminals; the application distribution management center is connected with each application use terminal for communication;

the distribution management center includes: the system comprises a mirror image management module, a cluster management module, an application module, an application approval module and an application distribution module; wherein:

the mirror image management module is used for storing a docker mirror image corresponding to the cloud native application;

a cluster management module for creating clusters corresponding to the application use terminals one by one,

the application module is used for submitting an application for shelf loading application; the application is a cloud native application; uploading the docker mirror image corresponding to the application to a mirror image management module;

the application approval module is used for executing installation, test and evaluation on the applied application and obtaining a corresponding approval result;

the application distribution module is used for distributing the approved applications to each application use terminal;

the application use terminal includes: the application installation module and the application management module: wherein:

the application installation module is used for displaying the installable application and installing the application selected by the user;

and the application management module is used for managing the installed applications to carry out upgrading, uninstalling and monitoring.

2. The graphical based interactive cloud-native application distribution management system of claim 1, wherein said applications comprise generic applications and custom applications.

3. The graphical-based interactive cloud-native application distribution management system according to claim 1, wherein the mirror management module comprises a test environment mirror repository and an application distribution management center mirror repository;

testing environment mirror image warehouse: storing the docker mirror image corresponding to the application before approval,

the application distribution management center mirror warehouse: and storing the docker mirror image corresponding to the application passing the approval.

4. The graphical-based interactive cloud-native application distribution management system according to claim 1, wherein said application use terminal further comprises an application use terminal mirror repository agent.

5. The graphical-based interactive cloud-native application distribution management system according to claim 1, wherein said information for submitting an application comprises: application name, application version, contact information, application description, required resources, application preview, application definition file, and application specific configuration file.

6. The system according to claim 1, wherein in the application approval module, if the submitted application fails to be normally installed, normally run, or excessively consume system resources when the application is installed, tested, and evaluated, the application approval module fails to approve the application and feeds back specific approval opinions to the application module.

7. The system according to claim 1, wherein the application installation module further displays an installation progress during the application installation process.

8. A management method based on the graphical interactive cloud native application distribution management system of claim 1, which comprises the following processes:

the method comprises the steps that an application distribution management center creates clusters, and the clusters correspond to application use terminals one to one;

the application distribution management center submits the application to be applied for shelf loading; executing installation, test and evaluation on the applied application, and obtaining a corresponding approval result;

if the approval is passed, the application distribution management center distributes the approved application to each application use terminal;

displaying an installable application and installing the application selected by the user by using the application using terminal; and upgrade, uninstall and monitor the installed applications.

9. A management method according to claim 8, wherein after the application distribution management center creates the cluster, a unique cluster identifier token is generated, the application using terminal obtains the corresponding cluster identifier token from the application distribution management center, and configures the identifier into the configuration file of the application using terminal, and thereafter the application using terminal must carry the token value each time it issues a request to the application distribution management center.

10. A management method according to claim 8, wherein the application and approval process of the application distribution management center is as follows:

before an application is proposed, a mirror image corresponding to the application is pushed to a test environment mirror image warehouse of an application distribution management center;

the application distribution management center tests the newly submitted application in the test environment cluster, and if the test is passed, the application enters an approval stage;

synchronizing a mirror image corresponding to the application to an application distribution management center mirror image warehouse when the application is released;

when the application uses the terminal to install the application, the application uses the terminal mirror image warehouse agent to automatically synchronize the corresponding mirror images from the application distribution management center mirror image warehouse and cache the mirror images, and when the application is reinstalled, the cached mirror images in the agent can be directly used.

Images