CN113918161A - Multi-user online coding implementation system and method based on Docker deployment - Google Patents

Abstract

The invention discloses a multi-user online coding implementation system based on Docker deployment, belongs to the technical field of online coding, and aims to solve the technical problem of how to implement multi-user online coding. The method comprises the following steps: judging whether a container access request submitted by a user is a first request or not through a user management service; if the request is the first request, the following operations are executed: acquiring user information, allocating a container address for a user, sending a container creating instruction, and binding the user and a container to establish a user container mapping relation after creating an IDE container service; creating a container based on the container creating instruction, deploying IDE container service, and returning a container creating result; mounting the container working catalog on a disk of a server; if not, the corresponding container address is returned.

Description

Multi-user online coding implementation system and method based on Docker deployment

Technical Field

The invention relates to the technical field of online coding, in particular to a system and a method for realizing multi-user online coding based on Docker deployment.

Background

Under the situation of rapid development of the current scientific technology, the work and life of people are inseparable from various electronic products, and software service using the electronic products as carriers also becomes an important field of scientific and technological development, so that programmers become one of popular careers at present, how to better develop the career, how to better improve the work efficiency of the programmers and the problem that many internet companies are always exploring.

The integrated development environment of the code is the most important and the most common tool in the daily work of a program developer, and the programmer finishes the work of writing, compiling, debugging and the like of the code. The IDE is usually configured by configuring the required language environment on the local computer and then installing the corresponding programming software, and this process is usually complicated, and there is no standard unified operation manual, and the error rate is high. Therefore, browser version users have come to do without installing Web IDEs, and many internet companies have started application and popularization of Web IDEs, for example, aristo publishes Kaitian IDE, tengyuan Cloud publishes Cloud Studio, hua Cloud publishes Cloud, and the like, which not only provide online services, but also provide webIDE installation packages, and can be used for building Cloud IDEs by themselves.

How to realize multi-user online coding based on the analysis is a technical problem to be solved so that an internet enterprise can conveniently build a system on a server of the internet enterprise for internal staff to use.

Disclosure of Invention

The technical task of the invention is to provide a system and a method for realizing multi-user online coding based on Docker deployment to solve the problem of how to realize multi-user online coding.

In a first aspect, the system for implementing multi-user online coding based on Docker deployment of the present invention is a WebIDE system built on a server, and the system includes:

the system comprises a user management service module, a user management service module and a data processing module, wherein the user management service module is interacted with a user and provides a user management service, and the user management service is used for judging whether a container access request submitted by the user is a first request, creating an IDE container service for the user and configuring a container address for the first request, acquiring user information, binding the user and the container to establish a user container mapping relation, and sending a container creating instruction; for non-first-time requests, returning a container address for the user;

the system comprises a Docker management service module, wherein the Docker management service module interacts with a server and the user service management module and provides container management service, and the container management service is used for creating a container based on a container creating instruction and deploying IDE container service, returning a container creating result to the user service management module and mounting a container working directory on a disk of the server.

Preferably, the user management service is configured to create a container management instruction based on a container management request submitted by a user, and the container management service is configured to manage a container based on the container management instruction and return a container management result to the user service management module;

the container management requests include a modify container request, a delete container request, and a create container request.

Preferably, if the container management request is to create a container, the user management service is used for creating an IDE container service for a user and configuring a container address, for acquiring user information, binding the user and the container to establish a user container mapping relationship, and for issuing a container creation instruction;

the container management service is used for creating a container based on the container creation instruction and deploying the IDE container service, returning a container creation result to the user service management module, and mounting the container working directory on a disk of the server.

Preferably, the container address includes an IP and a port, and the user service management module is configured to establish a user container mapping relationship with the IP and the port as an identifier binding user;

the port of the container corresponding to each user and the ports of the containers corresponding to other users are not conflicted with each other.

Preferably, the system further comprises a mirror configuration module, wherein the mirror configuration module is used for deploying the Web IDE mirror;

the Docker management service module is used for creating containers through Web IDE mirror images and deploying IDE container services based on container creation instructions.

In a second aspect, the method for implementing multi-user online coding based on Docker deployment of the present invention includes the following steps:

judging whether a container access request submitted by a user is a first request or not through a user management service;

if the request is the first request, the following operations are executed:

creating an IDE container service for a user, configuring a container address, acquiring user information, binding the user and the container to establish a user container mapping relation, and sending a container creating instruction;

creating a container based on the container creating instruction, deploying IDE container service, and returning a container creating result;

mounting the container working catalog on a disk of a server;

if not, the corresponding container address is returned.

Preferably, the method further comprises:

creating a container management instruction based on a container management request submitted by a user;

managing the container based on the container management instruction and returning a container management result;

the container management requests include a modify container request, a delete container request, and a create container request.

Preferably, if the container management request is to create a container, the following operations are included:

creating an IDE container service for a user, configuring a container address, acquiring user information, binding the user and the container to establish a user container mapping relation, and sending a container creating instruction;

creating a container based on the container creating instruction, deploying IDE container service, and returning a container creating result;

and mounting the container working directory on a disk of the server.

Preferably, the container address comprises an IP and a port, and the IP and the port are used as identification binding users to establish a user container mapping relation;

the port of the container corresponding to each user and the ports of the containers corresponding to other users are not conflicted with each other.

Preferably, the method further comprises deploying a Web IDE image, creating a container through the Web IDE image based on the container creation instruction, and deploying the IDE container service.

The system and the method for realizing the multi-user online coding based on Docker deployment have the following advantages:

1. only the WebIDE system of the embodiment is required to be built on the server, the user can limit the computer equipment without re-building a programming environment and installing programming software when the computer is replaced, and the programming environments among the users are uniform and standard;

2. each user corresponds to one container and one working space, so that the file access authority of the user is effectively controlled, the user cannot access file contents which do not belong to the authority of the user without the right, and the multi-user online programming work is not influenced mutually;

3. the data directory mounting enables the work directory of the user to be safer, and the data directory mounting has higher safety and reliability compared with the work directory stored on a local computer of the user, greatly reduces the risk of code loss and leakage, and plays a great help role in work handover and data confidentiality management when the staff leaves the work to a certain extent.

Drawings

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

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a block diagram of the working principle of a multi-user online coding implementation system in embodiment 1;

fig. 2 is a schematic diagram of a system for implementing multi-user online coding according to embodiment 1, in which a container working directory is mounted on a server disk.

Detailed Description

The present invention is further described in the following with reference to the drawings and the specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention, and the embodiments and the technical features of the embodiments can be combined with each other without conflict.

The embodiment of the invention provides a system and a method for realizing multi-user online coding based on Docker deployment, which are used for solving the technical problem of how to realize multi-user online coding.

Example 1:

the invention discloses a multi-user online coding implementation system based on Docker deployment, which is a WebIDE system built on a server and comprises a user management service module and a Docker management service module, wherein the user management service module interacts with a user and provides user management service, the user management service is used for judging whether a container access request submitted by the user is a first request, acquiring user information for the first request, distributing a container address for the user and sending a container creation instruction, and after creating an IDE container service, binding the user and the container to establish a user container mapping relation; for non-first-time requests, returning a container address for the user; the Docker management service module interacts with the server and the user service management module and provides container management service, the container management service is used for creating containers and deploying IDE container service based on container creation instructions, returning container creation results to the user service management module and mounting container working directories on a disk of the server.

The user management service is used for creating a container management instruction based on a container management request submitted by a user, and the container management service is used for managing the container based on the container management instruction and returning a container management result to the user service management module; the container management requests include a modify container request, a delete container request, and a create container request.

If the container management request is to create a container, the user management service is used for creating an IDE container service for the user and configuring a container address, is used for acquiring user information, binding the user and the container to establish a user container mapping relation, and is used for sending a container creation instruction; correspondingly, the container management service is used for creating a container based on the container creation instruction and deploying the IDE container service, returning a container creation result to the user service management module, and mounting the container working directory on a disk of the server.

The container address comprises an IP and a port, and the user service management module is used for binding the IP and the port as an identification binding user to establish a user container mapping relation; the port of the container corresponding to each user and the ports of the containers corresponding to other users are not conflicted with each other.

In this embodiment, each user corresponds to the usage right of one container, and the user management service is used to manage the system user and the corresponding relationship between the user and the container. When a user requests an online IDE address, whether the user is the first request or not needs to be judged, if the user is the first request, the system does not create a container belonging to the user, the system needs to create an IDE container service for the new user newly, the IP and the port of the container are recorded, the user and the use relationship of the new container are bound by taking the IP and the port as identification, the use right of the container is only corresponding to the user of the user, and other people do not have the right to use the container. The user management service appoints a container port which is not conflicted with other users for the user through a certain port distribution method, then sends a container creating instruction to the container management service, and the container management service returns a result after the container management service succeeds in the self-instruction. After the container is successfully created, the user management service can record the corresponding relation between the user and the container through a database and other persistence methods, and when the user makes a subsequent request, the exclusive IDE address of the user can be returned to the user without sending an instruction to the container management service.

When a user has a requirement for creating, modifying or closing the container, the requirement is sent to a container management service by the user management service, the container management service directly manages a mirror image pool and a docker resource pool on the server, and after receiving an adding, modifying and deleting instruction of the container, the container management service manages the container according to the instruction and feeds back a management result to the user management service. The functions born by the container management service are directly related to the docker mirror and the docker container, the docker mirror is managed, and when the container is created, the corresponding docker mirror is selected to use the ip and the port distributed by the upper layer service to create the IDE container of the user according to a certain rule.

In order to achieve the effect that the user work space and the authority are independent, when the IDE container of the user is created, the work space in the container needs to be mounted according to the user ID, so that the real file operation of the user in the container is ensured to be actually acted on a server disk outside the container, the work directory of the container cannot be lost along with the closing of the container, and the cloud storage can be used for achieving the corresponding effect. As shown in fig. 2, is an implementation of mounting a container working directory on a server disk.

The system also comprises a mirror image configuration module, wherein the mirror image configuration module is used for deploying the Web IDE mirror image; the Docker management service module is used for creating containers through the Web IDE image and deploying the IDE container services based on the container creation instruction.

The Web IDE basic mirror image can adopt a self-built mode, and can also obtain a downloading mode of a related IDE mirror image from a Docker official network, the mirror image provided by the official network is generally in the most original state, only one IDE installation package is provided, and on the basis of the basic mirror image, the mirror image is required to be perfected according to business requirements, such as establishing a language environment required by programming in the mirror image, and the like, and the standard mirror image is updated to a deployed standard mirror image every time perfection is carried out, so that the standard and consistency of a user programming environment are realized. Of course, when the user obtains the right of use of a container, the user can also adjust the Web IDE of the user in a personalized way, so that the Web IDE is more in line with the use habit and the requirement of the user. And a plurality of mirror images with different standards can be established, and IDE container services with different versions can be provided according to the needs of users, so that more diversified user needs can be met.

In the implementation system of the embodiment, logic corresponding to one container by one user is used, and webIDE service is deployed for the user in the container, so that an online coding function is provided; the system can be managed by a docker container, is destroyed when abandoned, is started when started, and freely controls the number of users; the online coded addresses of the multiple users correspond to the working space one by one, the authorities are independent and do not influence each other, and the data access authority of the users to the server is controlled within a reasonable range. The working space of each user container is mounted on the server disk through a disk mounting technology, the influence of container closing is avoided, and data storage is safer and more reliable.

Example 2:

the invention discloses a multi-user online coding implementation method based on Docker deployment, which comprises the following steps:

(1) judging whether a container access request submitted by a user is a first request or not through a user management service;

(2) if the request is the first request, the following operations are executed:

(2-1) creating an IDE container service for a user, configuring a container address, acquiring user information, binding the user and the container to establish a user container mapping relation, and sending a container creating instruction;

(2-2) creating a container and deploying the IDE container service based on the container creating instruction, and returning a container creating result;

(2-3) mounting the container working directory on a disk of a server;

(3) if not, the corresponding container address is returned.

The method also includes the steps of:

(4) creating a container management instruction based on a container management request submitted by a user;

(5) and managing the container based on the container management instruction and returning a container management result.

Wherein the container management request comprises a modify container request, a delete container request and a create container request.

If the container management request is to create a container, the method comprises the following operations:

(1) creating an IDE container service for a user, configuring a container address, acquiring user information, binding the user and the container to establish a user container mapping relation, and sending a container creating instruction;

(2) creating a container based on the container creating instruction, deploying IDE container service, and returning a container creating result;

(3) and mounting the container working directory on a disk of the server.

The container address comprises an IP and a port, and the IP and the port are used as identification binding users to establish a user container mapping relation; the port of the container corresponding to each user and the ports of the containers corresponding to other users are not conflicted with each other.

In this embodiment, a Web IDE image is deployed in advance, and then a container is created by the Web IDE image and an IDE container service is deployed based on the container creation instruction.

The method of the embodiment can be realized by the implementation system disclosed in embodiment 1.

While the invention has been shown and described in detail in the drawings and in the preferred embodiments, it is not intended to limit the invention to the embodiments disclosed, and it will be apparent to those skilled in the art that various combinations of the code auditing means in the various embodiments described above may be used to obtain further embodiments of the invention, which are also within the scope of the invention.

Claims (10)

1. A multi-user online coding implementation system based on Docker deployment is characterized in that the system is a WebIDE system built on a server, and the system comprises:

the system comprises a user management service module, a user management service module and a service module, wherein the user management service module is interacted with a user and provides user management service, and the user management service is used for judging whether a container access request submitted by the user is a first request, configuring a container address for the user and creating an IDE container service for the first request, acquiring user information, binding the user and the container to establish a user container mapping relation, and sending a container creating instruction; for non-first-time requests, returning a container address for the user;

the system comprises a Docker management service module, wherein the Docker management service module interacts with a server and the user service management module and provides container management service, and the container management service is used for creating a container based on a container creating instruction and deploying IDE container service, returning a container creating result to the user service management module and mounting a container working directory on a disk of the server.

2. The system for implementing multi-user online coding based on Docker deployment as claimed in claim 1, wherein the user management service is configured to create a container management instruction based on a container management request submitted by a user, and the container management service is configured to manage a container based on the container management instruction and return a container management result to the user service management module;

the container management requests include a modify container request, a delete container request, and a create container request.

3. The system for implementing multi-user online coding based on Docker deployment as claimed in claim 2, wherein if the container management request is to create a container, the user management service is configured to configure a container address and create an IDE container service for the user, and is configured to obtain user information, bind the user and the container to create a user-container mapping relationship, and issue a container creation instruction;

the container management service is used for creating a container based on the container creation instruction and deploying the IDE container service, returning a container creation result to the user service management module, and mounting the container working directory on a disk of the server.

4. The system for implementing multi-user online coding based on Docker deployment according to any one of claims 1 to 3, wherein the container address comprises an IP and a port, and the user service management module is configured to establish a user container mapping relationship between the IP and the port as an identification binding user;

the port of the container corresponding to each user and the ports of the containers corresponding to other users are not conflicted with each other.

5. The Docker deployment-based multi-user online coding implementation system according to any of claims 1 to 3, further comprising a mirror configuration module for deploying WebIDE mirror;

the Docker management service module is used for creating containers through WebIDE images and deploying IDE container services based on container creation instructions.

6. A multi-user online coding implementation method based on Docker deployment is characterized by comprising the following steps:

judging whether a container access request submitted by a user is a first request or not through a user management service;

if the request is the first request, the following operations are executed:

creating an IDE container service for a user, configuring a container address, acquiring user information, binding the user and the container to establish a user container mapping relation, and sending a container creating instruction;

creating a container based on the container creating instruction, deploying IDE container service, and returning a container creating result;

mounting the container working catalog on a disk of a server;

if not, the corresponding container address is returned.

7. The Docker deployment-based multi-user online coding implementation method according to claim 6, wherein the method further comprises:

creating a container management instruction based on a container management request submitted by a user;

managing the container based on the container management instruction and returning a container management result;

the container management requests include a modify container request, a delete container request, and a create container request.

8. The method for implementing multi-user online coding based on Docker deployment as claimed in claim 7, wherein if the container management request is to create a container, the method comprises the following operations:

acquiring user information, allocating a container address for a user, sending a container creating instruction, and binding the user and a container to establish a user container mapping relation after creating an IDE container service;

creating a container based on the container creating instruction, deploying IDE container service, and returning a container creating result;

and mounting the container working directory on a disk of the server.

9. The Docker deployment-based multi-user online coding implementation method according to any one of claims 6 to 8, wherein the container address includes an IP and a port, and the IP and the port are used as identification binding users to establish a user container mapping relationship;

the port of the container corresponding to each user and the ports of the containers corresponding to other users are not conflicted with each other.

10. The Docker deployment-based multi-user online coding implementation method according to any of claims 6 to 8, wherein the method further comprises deploying a Web IDE image, creating a container through the Web IDE image based on the container creation instruction, and deploying an IDE container service.

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