CN105871580A - Cross-cluster automation dispatching operation system and method - Google Patents

Abstract

The present invention discloses a cross-cluster automation dispatching operation system and method, and relates to the field of the server technology. A middle control module and a cluster control module are arranged in the cross-cluster automation dispatching operation system, the cluster control module is configured to dispatch the server resource in the server cluster and dispatch the application files to a linux container based on the dispatched server resource so as to uniformly manage the server cluster and automatically dispatch the dispatching application. Therefore, the time and the manpower resource are saved.

Description

Operational system and method is disposed across cluster automatization

Technical field

The present invention relates to server technology field, dispose fortune particularly to one across cluster automatization Dimension system and method.

Background technology

While the Internet fast development, Internet firm is of all kinds in order to provide a user with Service, it usually needs dispose some with application corresponding to service, along with application on the server Quantity increase, the requirement for server is more and more higher, for meet server is wanted Ask, prior art carrys out application deployment typically by server cluster, even can be by multiple Server cluster carrys out application deployment.

But in prior art, when by multiple server cluster application deployment, due to server Between cluster mutually isolated, it is impossible to unified management, and when application deployment need by O&M people Member's artificial treatment, wastes time and human resources.

Summary of the invention

The embodiment of the present invention provides a kind of and disposes operational system and method across cluster automatization, in order to Solve server cluster in prior art cannot be managed collectively, and need when application deployment by The defect of operation maintenance personnel artificial treatment, it is achieved the same management of server cluster, and without artificial portion Administration's application.

The embodiment of the present invention provides a kind of and disposes operational system, described system bag across cluster automatization Include: middle control module, clustered control module and at least two server cluster；

Described middle control module, for obtaining the application file treating application deployment, disposes described waiting The application file of application sends to clustered control module；

Described clustered control module, for treating the application file of application deployment described in receive Time, dispatch the server resource in described server cluster, server resource based on scheduling will The described application file treating application deployment is deployed in linux container, treats that deployment should described in realizing Application file across cluster automatic deployment

The embodiment of the present invention provides a kind of based on described system deployment across cluster automatization to transport Dimension method, described method includes:

Middle control module obtains the application file treating application deployment, by the described application treating application deployment File sends to clustered control module；

Described clustered control module, described in receiving until the application file of application deployment time, is dispatched Server resource in server cluster, by described, server resource based on scheduling treats that deployment should Application file be deployed in linux container.

The present invention, by arranging middle control module and clustered control module, is adjusted by clustered control module Server resource in degree server cluster, described waiting is disposed by server resource based on scheduling The application file of application is deployed in linux container, it is possible to server cluster is unified pipe Reason, and application deployment can be treated by clustered control module and carry out automatic deployment, when saving Between and human resources.

Accompanying drawing explanation

Fig. 1 is the structure disposing operational system across cluster automatization of one embodiment of the present invention Block diagram；

Fig. 2 is the structure disposing operational system across cluster automatization of one embodiment of the present invention Block diagram；

Fig. 3 is the structure disposing operational system across cluster automatization of one embodiment of the present invention Block diagram；

Fig. 4 is the structure disposing operational system across cluster automatization of one embodiment of the present invention Block diagram；

Fig. 5 is the flow process of the O&M method of disposing across cluster automatization of one embodiment of the present invention Figure.

Detailed description of the invention

For making the purpose of the embodiment of the present invention, technical scheme and advantage clearer, below will knot Close the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, Be fully described by, it is clear that described embodiment be a part of embodiment of the present invention rather than Whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art are not having Make the every other embodiment obtained under creative work premise, broadly fall into present invention protection Scope.

Fig. 1 is the structure disposing operational system across cluster automatization of one embodiment of the present invention Block diagram；With reference to Fig. 1, described system includes: middle control module 101, clustered control module 102 and At least two server cluster 103；

Described middle control module 101, for obtaining the application file treating application deployment, treats described The application file of application deployment sends to clustered control module 102；

It should be noted that described application can be regarded as a kind of application journey providing the user service Sequence, such as: game, website, chat tool etc..

It will be appreciated that described application file is to realize the file needed for described application.

In implementing, described in treat application deployment application file can by operation maintenance personnel transmit to Middle control module, certainly, it is possible to adopt and obtain in other ways, present embodiment is without restriction to this.

Described clustered control module 102, for treating the practical writing of application deployment described in receive During part, dispatch the server resource in described server cluster 103, server based on scheduling The described application file treating application deployment is deployed in linux container by resource, treats described in realizing The application file of application deployment across cluster automatic deployment.

In implementing, described clustered control module 102 is dispatching described server cluster 103 In server resource time, can carry out according to preset strategy, such as: according to each server cluster Resources left situation be scheduling, say, that can be in the more server set of resources left Dispatch server resource in Qun, thus make full use of the resource of each server cluster.

It will be appreciated that linux container is a kind of light-weighted virtualized means, can be effective Ground divides the resource of each server cluster.

Present embodiment is by arranging middle control module and clustered control module, by clustered control mould Server resource in block dispatching server cluster, server resource based on scheduling is treated described The application file of application deployment is deployed in linux container, it is possible to unify server cluster Management, and application deployment can be treated by clustered control module and carry out automatic deployment, save Time and human resources.

Realize application to be called is called for ease of subscriber equipment, with reference to Fig. 2, this embodiment party Formula is with the embodiment difference shown in Fig. 1, and described system also includes: front end is accessed Module 104；

Described clustered control module 102, is additionally operable to dispose described linux container and described treating Corresponding relation between application sends to described front end AM access module 104；

Described front end AM access module 104, for by described linux container and described wait dispose should Corresponding relation between with adds to mapping relations, when receiving application invocation request, really The application to be called that fixed described application invocation request is corresponding, according to described mapping relationship searching and institute State the linux container that application to be called is corresponding, to realize described application to be called is called.

It will be appreciated that described application invocation request is generally sent by subscriber equipment, certainly, Described application invocation request includes: application to be called, can be by described application invocation request Carry out resolving and obtain.

It should be noted that described subscriber equipment includes: mobile phone, PC, panel computer etc. Equipment, this is not any limitation as by present embodiment.

In the prior art, when application operation exception in server cluster, it is the most all first Reported to the police by server cluster, operation maintenance personnel carrying out artificial treatment according to particular problem, Causing trouble is uncontrollable for repair time, for avoiding the problems referred to above, in present embodiment, and described collection Group control module 102, is additionally operable to obtain the running status of each application, in the operation of current application When state occurs abnormal, server resource corresponding for the linux container of described current application is entered Row reclaims, and reschedules the server resource in described server cluster, based on reschedule Described current application is migrated in new linux container by server resource, and by described new Corresponding relation between linux container and current application sends extremely described front end AM access module, with Update the mapping relations in the AM access module of described front end.

It will be appreciated that described running status whether include: whether can be by normal call, in fortune Break down during row, if current application can not be occurred in normal call or running Fault, then the running status that can be regarded as current application occurs abnormal.

In present embodiment, described clustered control module occurs different in the running status of current application Chang Shi, can migrate current application automatically, so that fault can be repaired automatically, bright Show and decrease fault correction time.

Owing to described current application is when being deployed, it is common that adjust according to default resource size Degree server resource, so the situation that resource is not enough may there is in some application, but some May there is again the situation that resource is underused in application, stretch to realize the elasticity of resource Contracting, in present embodiment, described clustered control module 102, be additionally operable to reschedule described During server resource in server cluster, obtain described current application in preset time range Resources occupation rate, current application resources occupation rate less than first preset occupancy time, subtract The server resource rescheduled less；Current application resources occupation rate higher than second preset account for When using rate, increase the server resource rescheduled.

Can be regarded as it should be noted that reduce the server resource rescheduled: make again to adjust Server resource less than the current application resource when disposing, say, that, it is assumed that current Applying when disposing, the server resource called is A, then the server resource meeting of re invocation Less than A；

The server resource increasing re invocation can be regarded as: makes the server resource of re invocation More than current application dispose time resource, say, that, it is assumed that current application dispose time, The server resource called is A, then the server resource of re invocation can be more than A.

It will be appreciated that the resources occupation rate of current application can determine in several ways, such as: The maximum of current application resources occupation rate in preset time range can be worked as described The resources occupation rate of front application, also can be by current application resource occupation in preset time range The meansigma methods of rate is as the resources occupation rate of described current application, certainly, also by its other party Formula determines, this is not any limitation as by present embodiment.

Although above can be by when application migrates, server into application schedules being increased or decreased Resource, but it has limitation, when i.e. applying necessary running status exception, just can carry out with Upper adjustment, and also not all application all there will be running status extremely, for preventing application further Resource not enough, or the situation such as the wasting of resources of application, in present embodiment, described cluster Control module 102, is additionally operable to obtain each resources occupation rate applied in preset time range, When the resources occupation rate of current application presets occupancy less than first, by described current application The server resource that linux container is corresponding reclaims, and reduces the server resource rescheduled, Based on the server resource rescheduled, described current application is deployed to new linux container In, and described corresponding relation between new linux container and current application is sent to described Front end AM access module, to update the mapping relations in the AM access module of described front end；

When the resources occupation rate of current application is higher than the second occupancy, by described current application The server resource that linux container is corresponding reclaims, and increases the server resource rescheduled, Based on the server resource rescheduled, described current application is deployed to new linux container In, and described corresponding relation between new linux container and current application is sent to described Front end AM access module, to update the mapping relations in the AM access module of described front end.

In implementing, some server cluster may be arranged at domestic, other servers Cluster may be arranged at abroad, if only arranging a clustered control module, can make clustered control Message transmission rate between module and server cluster is the slowest, for avoiding the problems referred to above, and reference Fig. 3, the system of present embodiment includes: middle control module 101, clustered control module 102 and At least two server cluster 103, the quantity of described clustered control module 102 and described service The quantity of device cluster 103 is identical and one_to_one corresponding；

Described middle control module 101, for obtaining the mark of clustered control module and treating application deployment Application file, according to described mark, the described application file treating application deployment is sent to cluster Control module 102；

In implementing, described in treat that the application file of application deployment can be passed by operation maintenance personnel Defeated, the mark of clustered control module also can be chosen by operation maintenance personnel, certainly, also can use Other modes obtain, such as: the mark of described clustered control module can be according to each server cluster Surplus resources determine, present embodiment is without restriction to this.

Described clustered control module 102, for treating the practical writing of application deployment described in receive During part, the server resource in scheduling corresponding server cluster, server resource based on scheduling The described application file treating application deployment is deployed in linux container, described in realizing, treats portion Administration application application file across cluster automatic deployment.

It will be appreciated that close owing to clustered control module and server cluster exist one_to_one corresponding System, so, " corresponding server cluster " is the service corresponding with described clustered control module Device cluster.

For ease of making operation maintenance personnel choose the mark of described clustered control module, present embodiment In, described clustered control module 102, it is additionally operable to obtain the server money of corresponding server cluster Source information, and the server resource information obtained is sent to described middle control module；

Correspondingly, described middle control module 101, it is additionally operable to receive the server of each server cluster Resource information, and the server resource information of each server cluster is shown.

Realize application to be called is called for ease of subscriber equipment, with reference to Fig. 4, this embodiment party Formula is with the embodiment difference shown in Fig. 3, and in present embodiment, described system is also Including: front end AM access module 104, the quantity of described front end AM access module 104 and described service The quantity of device cluster 103 is identical and one_to_one corresponding；

It should be noted that due to front end AM access module 104 and server cluster 103 1 a pair Should, so, data transmission between front end AM access module 104 and server cluster 103 can be avoided The problem that speed is the slowest

It will be appreciated that due to front end AM access module 104 and server cluster 103 one_to_one corresponding, Clustered control module 102 and server cluster 103 also one_to_one corresponding, so, described front termination Enter and there is also one-to-one relationship between module 104 and clustered control module 102.

Described clustered control module 102, is additionally operable to dispose described linux container and described treating Corresponding relation between application sends to corresponding front end AM access module 104；

Owing to there is also one_to_one corresponding between front end AM access module 104 and clustered control module 102 Relation, so, " corresponding front end AM access module " is and described clustered control module 102 Corresponding front end AM access module 104.

Described front end AM access module 104, for receiving described linux container and described treating During corresponding relation between application deployment, by described linux container and described treat application deployment it Between corresponding relation add in mapping relations, when receiving application invocation request, determine institute State the application to be called that application invocation request is corresponding, treat with described according to described mapping relationship searching Call the linux container that application is corresponding, to realize described application to be called is called.

Fig. 5 is the stream of the O&M method of disposing across cluster automatization of one embodiment of the present invention Cheng Tu；With reference to Fig. 5, described method includes:

S501: middle control module obtains the application file treating application deployment, treats application deployment by described Application file send to clustered control module；

S502: described clustered control module treats the application file of application deployment described in receive Time, the server resource in dispatch server cluster, server resource based on scheduling is by described Treat that the application file of application deployment is deployed in linux container.

Alternatively, after step S502, described method also includes:

S503: described clustered control module by described linux container and described treat application deployment it Between corresponding relation add in mapping relations, and described mapping relations sent access to front end Module；

S504: described front end AM access module by described linux container and described treat application deployment it Between corresponding relation add in mapping relations, when receiving application invocation request, determine institute State the application to be called that application invocation request is corresponding, treat with described according to described mapping relationship searching Call the linux container that application is corresponding, to realize described application to be called is called.

Device embodiment described above is only schematically, wherein said as separated part The unit of part explanation can be or may not be physically separate, shows as unit Parts can be or may not be physical location, i.e. may be located at a place, or also Can be distributed on multiple NE.Can select according to the actual needs part therein or The whole module of person realizes the purpose of the present embodiment scheme.Those of ordinary skill in the art are not paying In the case of going out performing creative labour, i.e. it is appreciated that and implements.

Through the above description of the embodiments, those skilled in the art it can be understood that The mode of required general hardware platform can be added by software to each embodiment to realize, certainly Hardware can also be passed through.Based on such understanding, technique scheme is the most in other words to existing The part having technology to contribute can embody with the form of software product, and this computer is soft Part product can store in a computer-readable storage medium, such as ROM/RAM, magnetic disc, light Dish etc., including some instructions with so that computer equipment (can be personal computer, Server, or the network equipment etc.) perform some part institute of each embodiment or embodiment The method stated.

Last it is noted that above example is only in order to illustrate technical scheme, and Non-to its restriction；Although the present invention being described in detail with reference to previous embodiment, ability The those of ordinary skill in territory is it is understood that it still can be to the skill described in foregoing embodiments Art scheme is modified, or wherein portion of techniques feature is carried out equivalent；And these are repaiied Change or replace, not making the essence of appropriate technical solution depart from various embodiments of the present invention technical side The spirit and scope of case.

Claims (10)

1. dispose operational system across cluster automatization for one kind, it is characterised in that described system bag Include: middle control module, clustered control module and at least two server cluster；

Described middle control module, for obtaining the application file treating application deployment, disposes described waiting The application file of application sends to clustered control module；

Described clustered control module, for treating the application file of application deployment described in receive Time, dispatch the server resource in described server cluster, server resource based on scheduling will The described application file treating application deployment is deployed in linux container, treats that deployment should described in realizing Application file across cluster automatic deployment.

System the most according to claim 1, it is characterised in that described system also includes: Front end AM access module；

Described clustered control module, is additionally operable to described linux container and described treats application deployment Between corresponding relation send to the AM access module of described front end；

The AM access module of described front end, for by described linux container and described treat application deployment it Between corresponding relation add in mapping relations, when receiving application invocation request, determine institute State the application to be called that application invocation request is corresponding, treat with described according to described mapping relationship searching Call the linux container that application is corresponding, to realize described application to be called is called.

System the most according to claim 2, it is characterised in that described clustered control mould Block, is additionally operable to obtain the running status of each application, and the running status in current application occurs abnormal Time, server resource corresponding for the linux container of described current application is reclaimed, again Dispatch the server resource in described server cluster, will based on the server resource rescheduled Described current application migrates in new linux container, and by described new linux container and work as Corresponding relation between front application sends to the AM access module of described front end, to update described front termination Enter the mapping relations in module.

System the most according to claim 3, it is characterised in that described clustered control mould Block, when being additionally operable to the server resource in rescheduling described server cluster, obtains described Current application resources occupation rate in preset time range, in the resources occupation rate of current application When presetting occupancy less than first, reduce the server resource rescheduled；In current application When resources occupation rate presets occupancy higher than second, increase the server resource rescheduled.

System the most according to claim 2, it is characterised in that described clustered control mould Block, is additionally operable to obtain each resources occupation rate applied in preset time range, in current application Resources occupation rate less than first preset occupancy time, by the linux container of described current application Corresponding server resource reclaims, and reduces the server resource rescheduled, based on again Described current application is deployed in new linux container by the server resource of scheduling, and by institute State the corresponding relation between new linux container and current application to send to described front end access mould Block, to update the mapping relations in the AM access module of described front end；

When the resources occupation rate of current application is higher than the second occupancy, by described current application The server resource that linux container is corresponding reclaims, and increases the server resource rescheduled, Based on the server resource rescheduled, described current application is deployed to new linux container In, and described corresponding relation between new linux container and current application is sent to described Front end AM access module, to update the mapping relations in the AM access module of described front end.

6. according to the system according to any one of Claims 1 to 5, it is characterised in that described The quantity of clustered control module is identical with the quantity of described server cluster and one_to_one corresponding；

Described middle control module, for obtaining the mark of clustered control module and treating answering of application deployment With file, according to described mark, the described application file treating application deployment is sent to clustered control Module；

Described clustered control module, for treating the application file of application deployment described in receive Time, the server resource in scheduling corresponding server cluster, server resource based on scheduling will The described application file treating application deployment is deployed in linux container, waits to dispose described in realizing Application application file across cluster automatic deployment.

System the most according to claim 6, it is characterised in that described clustered control mould Block, is additionally operable to obtain the server resource information of corresponding server cluster, and the service that will obtain Device resource information sends to described middle control module；

Correspondingly, described middle control module, it is additionally operable to receive the server resource of each server cluster Information, and the server resource information of each server cluster is shown.

System the most according to claim 6, it is characterised in that described system also includes: Front end AM access module, the quantity phase of the quantity of described front end AM access module and described server cluster With and one_to_one corresponding；

Described clustered control module, is additionally operable to described linux container and described treats application deployment Between corresponding relation send to corresponding front end AM access module；

The AM access module of described front end, for receiving described linux container and described waiting is disposed During corresponding relation between application, by described linux container with described treat between application deployment Corresponding relation adds to mapping relations, when receiving application invocation request, determines described answering With application to be called corresponding to call request, to be called with described according to described mapping relationship searching The linux container that application is corresponding, to realize calling described application to be called.

9. one kind based on the system according to any one of claim 1～8 across cluster automatization Dispose O&M method, it is characterised in that described method includes:

Middle control module obtains the application file treating application deployment, by the described application treating application deployment File sends to clustered control module；

Described clustered control module, described in receiving until the application file of application deployment time, is dispatched Server resource in server cluster, by described, server resource based on scheduling treats that deployment should Application file be deployed in linux container.

Method the most according to claim 9, it is characterised in that described clustered control mould The described application file treating application deployment is deployed to linux by block server resource based on scheduling After in container, described method also includes:

Described clustered control module by described linux container and described treat between application deployment right Should be related to and add to mapping relations, and described mapping relations are sent to front end AM access module；

The AM access module of described front end by described linux container and described treat between application deployment right Should be related to and add to mapping relations, when receiving application invocation request, determine described application The application to be called that call request is corresponding, according to described mapping relationship searching with described to be called should With corresponding linux container, to realize described application to be called is called.