CN106686132A - Yunhai system deployment method and system - Google Patents

Abstract

The invention discloses a Yunhai system deployment method and system, and the method comprises the steps: enabling each module in a Yunhai system to be disassembled and converted into a corresponding micro-service through a micro-service framework, and obtaining a corresponding micro-service set; enabling each micro-service in the micro-service set to be deployed in a different container; and carrying out the unified management of the container with the micro-service through a preset container management platform. The method enables each module in the Yunhai system to be disassembled and converted into one corresponding micro-service, and then enables each micro-service in the micro-service set to be deployed in one different container, i.e., carrying out the new deployment of an original Yunhai system in a distributed deployment mode. When the micro-service of one container has a fault, the micro-services of other containers can continue to work under the condition, and cannot be affected, thereby reducing the probability that the Yunhai system has a large-area fault, and improving the stability of the Yunhai system.

Description

A kind of sea of clouds system deployment method and platform

Technical field

The present invention relates to field of cloud computer technology, more particularly to a kind of sea of clouds system deployment method and platform.

Background technology

With the development of information technology, cloud computing has progressively become the Hot spots for development of industry, cloud computing technology also by The multiple fields such as education, science, culture, public security, government, health, high-performance calculation, ecommerce, Internet of Things are gradually applied to, Therewith the usage amount and liveness of cloud computing service platform also grows with each passing day.

Sea of clouds system is domestic a range of application cloud system widely, has provided the user the cloud clothes of many high-quality Business.However, because traditional sea of clouds system adopts single-point deployment way, with sea of clouds system user quantity and each user's reality Border demand is continuously increased, and sea of clouds system increasingly becomes huge, cause the probability that sea of clouds system goes wrong constantly to increase, stable Property is gradually reduced.

In sum as can be seen that the stability for how improving sea of clouds system is current problem demanding prompt solution.

The content of the invention

In view of this, it is an object of the invention to provide a kind of sea of clouds system deployment method and platform, it is possible to increase sea of clouds The stability of system.Its concrete scheme is as follows：

A kind of sea of clouds system deployment method, including：

Using micro services framework, the modules in sea of clouds system are converted into into respectively corresponding micro services, obtain corresponding Micro services set；

Each micro services in the micro services set are deployed to respectively in different containers；

Using default Container Management platform, all containers for being deployed with micro services are managed collectively.

Optionally, the modules in the system by sea of clouds are converted into respectively before the process of corresponding micro services, also Including：

Decoupling process is carried out to the sea of clouds system, modules corresponding with the sea of clouds system are obtained；Wherein, arbitrarily The degree of coupling between two modules is respectively less than predetermined threshold value.

Optionally, it is described using default Container Management platform, all containers for being deployed with micro services are carried out to unify pipe The process of reason, including：

Using Kubernetes, all containers for being deployed with micro services are managed collectively.

Optionally, the utilization Kubernetes, the process that all containers for being deployed with micro services are managed collectively, Including：

Using the Pod components in the Kubernetes, Service components and ReplicationController components, All containers for being deployed with micro services are managed collectively.

The present invention further correspondingly discloses a kind of sea of clouds system deployment platform, including：

Micro services creation module, for using micro services framework, the modules in sea of clouds system being converted into respectively into phase The micro services answered, obtain corresponding micro services set；

Micro services deployment module, for each micro services in the micro services set to be deployed to respectively into different containers In；

Container Management module, for using default Container Management platform, carrying out to all containers for being deployed with micro services Unified management.

Optionally, the sea of clouds system deployment platform, also includes：

System decoupling module, for respectively turning the modules in the sea of clouds system in the micro services creation module Before changing corresponding micro services into, decoupling process is carried out to the sea of clouds system, obtain it is corresponding with the sea of clouds system each Module；Wherein, the degree of coupling between any two module is respectively less than predetermined threshold value.

Optionally, the Container Management module, specifically for utilizing Kubernetes, to all appearances for being deployed with micro services Device is managed collectively.

Optionally, the Container Management module, specifically for using Pod components, the Service in the Kubernetes All containers for being deployed with micro services are managed collectively by component and ReplicationController components.

In the present invention, sea of clouds system deployment method, including：Using micro services framework, by the modules in sea of clouds system Corresponding micro services are converted into respectively, obtain corresponding micro services set；By each the micro services difference portion in micro services set Affix one's name to into different containers；Using default Container Management platform, all containers for being deployed with micro services are managed collectively.

It can be seen that, the present invention is respectively converted into the modules in sea of clouds system corresponding micro- first with micro services framework Service, is then respectively deployed to each micro services in different containers, so equivalent to deployment way in a distributed manner to original Sea of clouds system redeployed, in this case, after the micro services on arbitrary container break down, other containers On micro services can continue normal work, without being affected, there are wide-area failures so as to reduce sea of clouds system Probability, thus improves the stability of sea of clouds system.

Description of the drawings

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing The accompanying drawing to be used needed for having technology description is briefly described, it should be apparent that, drawings in the following description are only this Inventive embodiment, for those of ordinary skill in the art, on the premise of not paying creative work, can be with basis The accompanying drawing of offer obtains other accompanying drawings.

Fig. 1 is a kind of sea of clouds system deployment method flow diagram disclosed in the embodiment of the present invention；

Fig. 2 is a kind of sea of clouds system deployment platform structure schematic diagram disclosed in the embodiment of the present invention.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than the embodiment of whole.It is based on Embodiment in the present invention, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of protection of the invention.

The embodiment of the invention discloses a kind of sea of clouds system deployment method, shown in Figure 1, the method includes：

Step S11：Using micro services framework, the modules in sea of clouds system are converted into into respectively corresponding micro services, Obtain corresponding micro services set.

In the present embodiment, the modules in the above-mentioned system by sea of clouds be converted into respectively corresponding micro services process it Before, can also include：

Decoupling process is carried out to sea of clouds system, modules corresponding with sea of clouds system are obtained；Wherein, any two module Between the degree of coupling be respectively less than predetermined threshold value.

That is, the degree of coupling in above-mentioned steps S11 between the modules of sea of clouds system is relatively low, there is no shadow each other Ring or influence degree is relatively low, so as to be conducive to improving the service reliability of sea of clouds system.

Step S12：Each micro services in micro services set are deployed to respectively in different containers.

Step S13：Using default Container Management platform, all containers for being deployed with micro services are managed collectively.

Wherein, it is above-mentioned using default Container Management platform, all containers for being deployed with micro services are managed collectively Process, can include：

Using Kubernetes, all containers for being deployed with micro services are managed collectively.

More specifically, above-mentioned utilization Kubernetes, the mistake that all containers for being deployed with micro services are managed collectively Journey, including：

Using the Pod components in Kubernetes, Service components and ReplicationController components, to institute There is the container for being deployed with micro services to be managed collectively.

Wherein, above-mentioned Pod components are the most basic deployment scheduling units of Kubernetes, can include container, are patrolled An example of certain application is represented on volume.Such as, it is assumed that a web site application passes through front end, rear end and database sharing Form, these three parts will be operated in respective container, then can correspondingly create the pod comprising three container.

In addition, above-mentioned Service components be pod route agent it is abstract, for solve between pod exist service discovery Problem.Because the running status of pod can dynamic change (such as switch and be terminated during machine, capacity reducing), visit Ask end can not to write dead IP in the way of go to access the service that the pod is provided.The introducing of Service components is meant to ensure that pod's is dynamic State change is transparent to access end, and access end only needs to know the address of Service, and by Service agency is provided.

Secondly, above-mentioned ReplicationController components are that the duplication of pod is abstract, and the dilatation for solving pod is contracted Appearance problem.Generally, Distributed Application needs to replicate many parts of resources for the consideration of performance or high availability, and according to load Situation dynamic retractility.By ReplicationController, it is possible to specify an application needs several parts of duplications, Kubernetes will be per part and replicate one pod of establishment, and ensure that actual motion pod quantity is always equal with the duplication quantity (for example, current certain pod delay machine when, automatically create new pod to replace).

It is as follows with regard to the more specific detailed deployment process of above-mentioned sea of clouds system in the present embodiment：By sea of clouds micro services Each business module after change is deployed in different vessels, and derives mirror image according to the stable environment after deployment, and mirror image is put into In the privately owned mirror sites of Kubernetes；Then, according to above-mentioned image, ReplicationController is created, and specifies pod Copy number；Then, according to it is above-mentioned be created that come ReplicationController, in Kubernetes environment create Service, and Service is exposed in outer net.

It can be seen that, the modules in sea of clouds system are converted into respectively phase by the embodiment of the present invention first with micro services framework The micro services answered, are then respectively deployed to each micro services in different containers, so equivalent to deployment way in a distributed manner Original sea of clouds system is redeployed, in this case, after the micro services on arbitrary container break down, its Micro services on his container can continue normal work, without being affected, large area occur so as to reduce sea of clouds system The probability of failure, thus improves the stability of sea of clouds system.

Accordingly, the embodiment of the invention also discloses a kind of sea of clouds system deployment platform, shown in Figure 2, the platform bag Include：

Micro services creation module 11, for using micro services framework, the modules in sea of clouds system being converted into respectively Corresponding micro services, obtain corresponding micro services set；

Micro services deployment module 12, for each micro services in micro services set to be deployed to respectively into different containers In；

Container Management module 13, for using default Container Management platform, entering to all containers for being deployed with micro services Row unified management.

In the present embodiment, above-mentioned sea of clouds system deployment platform can also include：

System decoupling module, for being respectively converted into the modules in sea of clouds system accordingly in micro services creation module Micro services before, decoupling process is carried out to sea of clouds system, obtain modules corresponding with sea of clouds system；Wherein, any two The degree of coupling between individual module is respectively less than predetermined threshold value.

In addition, the Container Management module 13 in the present embodiment, specifically can be used for utilizing Kubernetes, to all deployment The container for having micro services is managed collectively, specifically using the Pod components in Kubernetes, Service components and All containers for being deployed with micro services are managed collectively by ReplicationController components.

It can be seen that, the modules in sea of clouds system are converted into respectively phase by the embodiment of the present invention first with micro services framework The micro services answered, are then respectively deployed to each micro services in different containers, so equivalent to deployment way in a distributed manner Original sea of clouds system is redeployed, in this case, after the micro services on arbitrary container break down, its Micro services on his container can continue normal work, without being affected, large area occur so as to reduce sea of clouds system The probability of failure, thus improves the stability of sea of clouds system.

Finally, in addition it is also necessary to explanation, herein, such as first and second or the like relational terms be used merely to by One entity or operation make a distinction with another entity or operation, and not necessarily require or imply these entities or operation Between there is any this actual relation or order.And, term " including ", "comprising" or its any other variant meaning Covering including for nonexcludability, so that a series of process, method, article or equipment including key elements not only includes that A little key elements, but also including other key elements being not expressly set out, or also include for this process, method, article or The intrinsic key element of equipment.In the absence of more restrictions, the key element for being limited by sentence "including a ...", does not arrange Except also there is other identical element in including the process of the key element, method, article or equipment.

A kind of sea of clouds system deployment method provided by the present invention and platform are described in detail above, herein should The principle and embodiment of the present invention are set forth with specific case, the explanation of above example is only intended to help and manages The solution method of the present invention and its core concept；Simultaneously for one of ordinary skill in the art, according to the thought of the present invention, Will change in specific embodiment and range of application, in sum, this specification content should not be construed as to this Bright restriction.

Claims (8)

1. a kind of sea of clouds system deployment method, it is characterised in that include：

Using micro services framework, the modules in sea of clouds system are converted into into respectively corresponding micro services, obtain corresponding micro- Set of service；

Each micro services in the micro services set are deployed to respectively in different containers；

Using default Container Management platform, all containers for being deployed with micro services are managed collectively.

2. sea of clouds system deployment method according to claim 1, it is characterised in that each mould in the system by sea of clouds Block is converted into respectively before the process of corresponding micro services, is also included：

Decoupling process is carried out to the sea of clouds system, modules corresponding with the sea of clouds system are obtained；Wherein, any two The degree of coupling between module is respectively less than predetermined threshold value.

3. sea of clouds system deployment method according to claim 1, it is characterised in that described to be patted using default container tube Platform, the process that all containers for being deployed with micro services are managed collectively, including：

Using Kubernetes, all containers for being deployed with micro services are managed collectively.

4. sea of clouds system deployment method according to claim 3, it is characterised in that the utilization Kubernetes, to institute There is the process that the container for being deployed with micro services is managed collectively, including：

Using the Pod components in the Kubernetes, Service components and ReplicationController components, to institute There is the container for being deployed with micro services to be managed collectively.

5. a kind of sea of clouds system deployment platform, it is characterised in that include：

Micro services creation module, for using micro services framework, the modules in sea of clouds system being converted into respectively accordingly Micro services, obtain corresponding micro services set；

Micro services deployment module, for each micro services in the micro services set to be deployed to respectively in different containers；

Container Management module, for using default Container Management platform, unifying to all containers for being deployed with micro services Management.

6. sea of clouds system deployment platform according to claim 5, it is characterised in that also include：

System decoupling module, for being respectively converted into the modules in the sea of clouds system in the micro services creation module Before corresponding micro services, decoupling process is carried out to the sea of clouds system, obtain modules corresponding with the sea of clouds system； Wherein, the degree of coupling between any two module is respectively less than predetermined threshold value.

7. sea of clouds system deployment platform according to claim 5, it is characterised in that

All containers for being deployed with micro services, specifically for utilizing Kubernetes, are unified by the Container Management module Management.

8. sea of clouds system deployment platform according to claim 7, it is characterised in that

The Container Management module, specifically for using the Pod components in the Kubernetes, Service components and All containers for being deployed with micro services are managed collectively by ReplicationController components.