CN105630488A - Docker container technology-based continuous integration realizing method - Google Patents

Abstract

The invention relates to a Docker container technology-based continuous integration realizing method. The method comprises the following steps: 1) obtaining a native mirror image; 2) setting a container cluster tool which is used for managing Docker containers; 3) executing the native mirror image, generating a Docker container and configuring related environment parameters; 4) deploying a client plugin of a continuous integration system by the Docker container to ensure that the Docker container becomes a client node; and 5) obtaining information of the client node by a server of the continuous integration system and configuring construction information of the client node to complete the construction task. Compared with the prior art, the method has the advantages of reducing the hardware investment cost and simplifying the continuous integration environment deployment.

Description

A kind of continuous integrating based on docker container technique realizes method

Technical field

The present invention relates to computer software development field, especially relate to a kind of continuous integrating based on docker container technique and realize method.

Background technology

Along with improving constantly of software development complexity, between team exploitation member, how better collaborative work has slowly become unavoidable problem in development process with the quality guaranteeing software development. Especially in the last few years, agile development is more and more flourishing in field of software engineering, how can rapidly adapt in the demand being continually changing and to ensure that the quality of software also seems especially important.

Continuous integrating is just for a kind of practice of software of this class problem. It advocate team exploitation member must often their work integrated, even every day is all it may happen that repeatedly integrated. And each integrated be all that structure by automatization is verified, including automatic compiling, issue and test, thus finding integrated mistake as soon as possible, allow team can develop cohesion software faster.

The core value of continuous integrating is in that:

1. any one link in continuous integrating is all automatically performed, it is not necessary to too many manual intervention, advantageously reduces repetitive process with saving time, expense and workload;

2. continuous integrating has ensured that the code that on each time point, Team Member submits to is can be successful integrated. In other words, point can find the integration problem of software the very first time any time, and making random time issue the software that can dispose becomes possibility;

3. continuous integrating can also be beneficial to the development trend of software itself, is even more important in the sight that this or frequency indefinite in demand changes, and the quality of continuous integrating can help team to carry out effective decision-making, sets up team's confidence to development simultaneously.

But, wherein there is the deployment issue of a structure machine in this, generally, and the corresponding structure machine of each structure task, and the selection building machine is typically deployed on virtual machine platform, only a few build machine operating system do not support virtual machine environment need be deployed in entity cashier's office in a shop. Example is turned to vmwarevsphere server virtual; one Windows virtual machine of manual installation or Linux virtual machine tens minutes approximately; every virtual machine is for ensureing to build performance; 4 cores, 6G internal memory, 400G would generally be selected to store; and be that independent memory, thickness are put storage (thick is stored; rather than thin storage, representing storage is the real space accounting for disk, but not extension automatically as required). Software kit for ensureing all operations system on-demand in time builds, software is usually divided into tens submodules and builds respectively, operating system corresponding to each module also to prepare set of environmental, in theory, ideally build a software kit the soonest, required structure machine quantity easily just can reach more than 100, and required hardware cost is significantly high, and deployment is wasted time and energy.

But also face a big problem, if being exactly need code to return back to certain version to build a software kit again and be accomplished by the original environment of cleaning, download corresponding code release to start to build, institute's spended time is very long, and rebuild again when needing to return mainline release, timeliness is had a greatly reduced quality, so ageing in order to ensure, would generally select to dispose again a set of constructing environment to stand ready and build the code release specified, this means that structure machine number needs described above to add one times, and can often in idle state, which company to be all a kind of huge waste for.

Docker is the Paas provider dotCloud senior container engine based on LXC increased income, and source code trustship is on Github, based on go language and defer to Apache2.0 agreement and increase income. It allow developer can pack they application and rely on bag in a transplantable container, be then published on any popular Linux machine, it is also possible to realize virtualization. Container is to use sandbox mechanism completely, does not have any interface each other, almost without performance cost, it is possible to run in machine and data center easily. The most important thing is, it does not rely on any language, framework and system, and in other words, docker can be understood as the virtual machine of more lightweight.

Summary of the invention

Defect that the purpose of the present invention is contemplated to overcome above-mentioned prior art to exist and provide and a kind of reduce hardware input cost, simplify the continuous integrating based on docker container technique that continuous integrating environment disposes and realize method.

The purpose of the present invention can be achieved through the following technical solutions:

A kind of continuous integrating based on docker container technique realizes method, comprises the following steps:

1) primary mirror image is obtained;

2) the container cluster tool of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container, and configure relevant environmental parameter;

4) client plug-in of continuous integration system disposed by docker container, makes this docker container become a client node;

5) information of the service end described client node of acquisition of continuous integration system, and configure the structure information of described client node, complete structure task.

Described relevant environmental parameter includes network, password and code compilation and relies on storehouse.

A kind of continuous integrating based on docker container technique realizes method, comprises the following steps:

1) primary mirror image is obtained;

2) the container cluster tool of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container;

4) continuous integration system client plug-in disposed by docker container, and configures relevant environmental parameter;

5) the docker container after configuration relevant environmental parameter is generated a new mirror image, and this mirror image is pushed in mirror image warehouse, described mirror image warehouse comprises multiple new mirror image;

6) a new mirror image in mirror image warehouse described in container cluster instrument start-up, generates an operation container, becomes a client node of continuous integration system;

7) service end of continuous integration system is as management node, and described client node manages node from trend and sends connection request and environment configuration information, completes structure task after management node identification success.

The configuration of described relevant environmental parameter includes: network IP is set to automatic distribution, configuration management node information and dispose code compilation rely on storehouse.

Described step 7) in, the environment configuration information that client node sends to management node includes IP information and OS information.

A kind of continuous integrating based on docker container technique realizes method, comprises the following steps:

1) primary mirror image is obtained;

2) the container cluster tool of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container;

4) continuous integration system client plug-in disposed by docker container, and configures relevant environmental parameter;

5) the docker container after configuration relevant environmental parameter is generated a new mirror image, and this mirror image is pushed in mirror image warehouse, described mirror image warehouse comprises multiple new mirror image;

6) a new mirror image in mirror image warehouse described in container cluster instrument start-up, generates an operation container, becomes a client node of continuous integration system, configure the network mapping of described client node;

7) service end of continuous integration system is as management node, configures the environment configuration information of described client node, complete structure task in described management node.

The configuration of described relevant environmental parameter includes: information and the deployment code compilation of configuration management node rely on storehouse.

Compared with prior art, the method have the advantages that

1, container can be described as a process of operating system, but it is completely isolated and be independent of each other between process, without as virtual machine environment, distribution 6G internal memory takies server 6G internal memory with regard to out and out, causes that other application cannot use these to be marked as the hardware resource of seizure condition. It possesses again the such all of program execution environments of virtual machine environment, so can be substantially reduced the input of hardware cost.

2, a container is replicated comparatively simple, it is only necessary to starting a container and compose a newname, the migration unlike virtual machine needs to utilize special tool(s) to change for a long time. And it is quite fast to start a container, second level just can start a container, will not be so complicated as virtual machine, and the environment that so can simplify continuous integrating is disposed.

3, improving automaticity, originally needed the part of manual configuration virtual machine environment can pass through to produce once, the mode that script drives completes automatization, saves human cost.

4, when the task of structure is too much, continuous integration system is likely to and becomes a bottleneck, we can take to dispose minimum task quantity, namely inside same set of constructing system, the bag of all platforms is not all built, then pass through simple this cover system that replicates to build all of platform bag, the performance bottleneck solving continuous integration system of very comfortable.

5, in sum, the present invention can utilize a small amount of hardware resource efficiently and put into a small amount of human resources and ensure the optimum ageing of bag.

Accompanying drawing explanation

Fig. 1 is the architecture principle schematic diagram of the present invention.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the present invention is described in detail. The present embodiment is carried out premised on technical solution of the present invention, gives detailed embodiment and concrete operating process, but protection scope of the present invention is not limited to following embodiment.

Being illustrated in figure 1 the Organization Chart of the present invention, scheme before making the present invention is to be probably the virtualization softwares such as vmwarevsphere in server2 server, and internal virtual goes out some virtual machine node environment. The docker container that uses of the invention improves the defect of original scheme, and concrete deployment is as follows:

1.server1 uses the Linux server of 8G internal memory 4 core CPU, a 500G hard disk, disposes the client of continuous integration system, it is possible to select jenkins or hudson.

2.server2 selects hardware configuration according to practical situation, in theory 32G internal memory, and 8 core CPU, 10T hard disks at least meet 100 docker containers and run simultaneously, compare installation virtual machine environment, greatly reduce the dependence of hardware configuration

3.server2 disposes kubernetes or swarm container cluster management instrument.

4. the present invention can realize structure task by three kinds of modes, specific as follows:

(1) manual operation scheme:

1) primary mirror image (centosimage etc.) is obtained from operating system manufacturer: dockerpullcentos6.5;

2) the container cluster tool (kubernetes or swarm) of management docker container it is arranged in the server;

3) perform described primary mirror image, generate a docker container (dockerrun I tcentos6.5bash), and configure relevant environmental parameter, rely on storehouse etc. including network, password and code compilation;

4) client plug-in of continuous integration system disposed by docker container, makes this docker container become a client node;

5) information of the service end described client node of acquisition of continuous integration system, and configure the structure information of described client node, complete structure task.

(2) automation scheme:

1) primary mirror image (ibid) is obtained;

2) the container cluster tool (ibid) of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container (ibid);

4) docker container dispose continuous integration system client plug-in, and network IP is set to automatic distribution, configuration management node information and dispose code compilation rely on storehouse;

5) the docker container after configuration relevant environmental parameter is generated new mirror image (dockercommit m " newcentos " $ { containerid} $ { newimagename}), and this mirror image is pushed to (dockerpush) in mirror image warehouse, described mirror image warehouse comprises multiple new mirror image;

6) a new mirror image in mirror image warehouse described in container cluster instrument start-up, generates an operation container, becomes a client node of continuous integration system;

7) service end of continuous integration system is as management node, and described client node manages node from trend and sends connection request and environment configuration information, including IP information and OS information etc., completes structure task after management node identification success.

(3) semi-automatic scheme:

1) primary mirror image (ibid) is obtained;

2) the container cluster tool (ibid) of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container (ibid);

4) continuous integration system client plug-in disposed by docker container, and the information of configuration management node and deployment code compilation rely on;

5) the docker container after configuration relevant environmental parameter is generated new mirror image (dockercommit m " newcentos " $ { containerid} $ { newimagename}), and this mirror image is pushed to (dockerpush) in mirror image warehouse, described mirror image warehouse comprises multiple new mirror image;

6) a new mirror image in mirror image warehouse described in container cluster instrument start-up, generate an operation container, become a client node of continuous integration system, configure the network mapping of described client node, network is configured, in order to management node communication to client node;

7) service end of continuous integration system is as management node, configures the environment configuration information of described client node, complete structure task in described management node.

Flow process involved by such scheme, code, architecture design should in protection domains.

Claims (7)

1. one kind realizes method based on the continuous integrating of docker container technique, it is characterised in that comprise the following steps:

1) primary mirror image is obtained;

2) the container cluster tool of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container, and configure relevant environmental parameter;

4) client plug-in of continuous integration system disposed by docker container, makes this docker container become a client node;

5) information of the service end described client node of acquisition of continuous integration system, and configure the structure information of described client node, complete structure task.

2. the continuous integrating based on docker container technique according to claim 1 realizes method, it is characterised in that described relevant environmental parameter includes network, password and code compilation and relies on storehouse.

3. one kind realizes method based on the continuous integrating of docker container technique, it is characterised in that comprise the following steps:

1) primary mirror image is obtained;

2) the container cluster tool of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container;

4) continuous integration system client plug-in disposed by docker container, and configures relevant environmental parameter;

5) the docker container after configuration relevant environmental parameter is generated a new mirror image, and this mirror image is pushed in mirror image warehouse, described mirror image warehouse comprises multiple new mirror image;

6) a new mirror image in mirror image warehouse described in container cluster instrument start-up, generates an operation container, becomes a client node of continuous integration system;

7) service end of continuous integration system is as management node, and described client node manages node from trend and sends connection request and environment configuration information, completes structure task after management node identification success.

4. the continuous integrating based on docker container technique according to claim 3 realizes method, it is characterized in that, the configuration of described relevant environmental parameter includes: network IP is set to automatic distribution, configuration management node information and dispose code compilation rely on storehouse.

5. the continuous integrating based on docker container technique according to claim 3 realizes method, it is characterised in that described step 7) in, the environment configuration information that client node sends to management node includes IP information and OS information.

6. one kind realizes method based on the continuous integrating of docker container technique, it is characterised in that comprise the following steps:

1) primary mirror image is obtained;

2) the container cluster tool of management docker container it is arranged to;

3) perform described primary mirror image, generate a docker container;

4) continuous integration system client plug-in disposed by docker container, and configures relevant environmental parameter;

5) the docker container after configuration relevant environmental parameter is generated a new mirror image, and this mirror image is pushed in mirror image warehouse, described mirror image warehouse comprises multiple new mirror image;

6) a new mirror image in mirror image warehouse described in container cluster instrument start-up, generates an operation container, becomes a client node of continuous integration system, configure the network mapping of described client node;

7) service end of continuous integration system is as management node, configures the environment configuration information of described client node, complete structure task in described management node.

7. the continuous integrating based on docker container technique according to claim 1 realizes method, it is characterised in that the configuration of described relevant environmental parameter includes: information and the deployment code compilation of configuration management node rely on storehouse.