CN107547275A

CN107547275A - Deployment and exchange method in PaaS cloud platforms

Info

Publication number: CN107547275A
Application number: CN201710730348.XA
Authority: CN
Inventors: 李东旭; 路阳; 曹东
Original assignee: BEIJING BEIWEI COMMUNICATION SCIENCE AND TECHNOLOGY Co Ltd
Current assignee: BEIJING BEIWEI COMMUNICATION SCIENCE AND TECHNOLOGY Co Ltd
Priority date: 2017-08-23
Filing date: 2017-08-23
Publication date: 2018-01-05
Anticipated expiration: 2037-08-23
Also published as: CN107547275B

Abstract

This application discloses the deployment in a kind of PaaS cloud platforms and exchange method, including step：The batch deployment of module：A project is selected, is entered in the example page of affiliated project, the version of module to be disposed and module is selected, the module is added in the list of batch deployment, starts batch deployment, is terminated after the completion of the deployment of all modules；The cancellation of deployment：It is determined that after cancelling deployment module, show that the module has stopped in front end, and rear end is then after cancelling deployment order and reaching, continue to dispose the module until deployment is completed, close the module after the completion of deployment immediately；After cancelling and disposing the module, and the module does not have startup to finish in rear end, and when disposing the module again, the parallel task deployment module is opened in rear end.The application uses multimode batch deployment way, realizes user and once selects to dispose simultaneously, the mode run simultaneously after the completion of deployment, saves the operation for individually disposing spent time and redundancy.

Description

Deployment and exchange method in PaaS cloud platforms

Technical field

The present invention relates to the deployment operation field of cloud platform, is the deployment being related in a kind of PaaS cloud platforms specifically With exchange method.

Background technology

PaaS(Platform-as-a-Service：Platform services) refer to take the platform of research and development of software as one kind Business, user is submitted to SaaS pattern.Therefore, PaaS is also a kind of application of SaaS patterns.But PaaS appearance can be with Accelerate SaaS development, be especially to speed up the development rate of SaaS applications.In 2007, domestic and international SaaS manufacturers successively released certainly Oneself PAAS platforms.PAAS can provide the middleware platform of enterprise's being customized research and development, while cover database and application Server etc..PAAS can improve the resource quantity utilized on Web platforms.For example, data can be used by remote Web services Service (Data-as-a-Service：Data service), visual API, or even the PAAS as 800app can also be used Platform also allows you to mix and matches suitable other platforms that you apply.User or manufacturer, which are based on PaaS platform, quickly to open Application and product required for oneself.Meanwhile the application of PaaS platform exploitation can preferably build the enterprise based on SOA framework Using.

So-called PaaS actually refers to service the platform of research and development of software as one kind, and use is submitted to SaaS pattern Family.Therefore, PaaS is also a kind of application of SaaS patterns.But PaaS appearance can accelerate SaaS development, especially add The development rate of fast SaaS applications.Why PAAS can promote SaaS development, and enterprise's progress can be provided by essentially consisting in it The middleware platform of research and development is customized, while covers database and application server etc..PAAS can improve sharp on Web platforms Resource quantity.The application and product that user or manufacturer can be quickly developed based on PaaS platform required for oneself.Meanwhile The application of PaaS platform exploitation can preferably build enterprise's application based on SOA framework.In addition, PAAS comes for SaaS operators Say, him can be helped to carry out product diversification and product customization.

Project is disposed in cloud platform, an example will be produced on platform, user can enter for example Row carries out the work such as switching of version to disposing the project, and the module of the project is run on platform after example deployment.

The cloud platform of current main-stream is essentially first built for the deploying step of example (some platforms referred to as " are applied ") Code and mirror image, the individual module that structure is directed under project again afterwards are disposed one by one, are created and are serviced and finally start Service, opened on platform and run the module.This process major part platform is all to click on manually step by step, or a step Display runs to which step, the time and carry out progress that user uses for the process of structure in interface when one step is carried out It is only capable of being analyzed and being judged by caused daily record during this.It is existing when multiple modules being present under one project Mainstream Platform is to need to carry out click deployment respectively one by one mostly, and there is the operation of the redundancy much repeated for this process Step, and the uncontrollable progress of user among deployment process.

When a project has many modules, and completing function needs multiple module cooperatives to carry out, and user can only Deployment one by one is carried out to the module under example (application) in cloud platform, there is the operation of repeated and redundant for deployment process Step, and among the process disposed, user is only capable of seeing which step specifically proceeded to, deployment progress is had no way of intuitively in platform On see.And there is deployment backstage exception, time-out etc. occurs and front end does not show, what user can only dispose according to consulting Daily record could obtain this information, and interactive experience of the deployment process on platform is less desirable.

The content of the invention

The technical problems to be solved by the invention be the deployment that can dispose simultaneously in the PaaS cloud platforms of multiple modules with Exchange method.

In order to solve the above technical problems, the invention provides the deployment in a kind of PaaS cloud platforms and exchange method, including Step：

The batch deployment of module：A project is selected, enters in the example page of affiliated project, selects mould to be disposed Block, simultaneous selection dispose the version of the module, the module are added in the list of batch deployment, start batch and dispose, in portion Affix one's name in the page and the module in list is subjected to batch deployment, terminate after the completion of the deployment of all modules, disposed in the batch of module During, deployment interface display carries out four steps in PaaS cloud platforms：Code construction, generation mirror image, create service and open Dynamic service, four steps total second total time t averagely completed, show that progress bar reads bar on the deployment interface of platform, wherein, Time t2 second that second time t1 that statistics codes structure is averagely completed, generation mirror image are averagely completed, the service of establishment are averagely completed Second time t3, start second time t4 that service is averagely completed, t=t1+t2+t3+t4；

The cancellation of deployment：It is determined that after cancelling deployment module, show that the module has stopped in front end, the state of off-duty, and Rear end then after cancelling deployment order and reaching, continues to dispose the module until deployment completion, closes the mould immediately after the completion of deployment Block；After the module is disposed in cancellation, and the module does not have startup to finish in rear end, when disposing the module again, is opened in rear end Open the parallel task deployment module.

Preferably, during the batch deployment of the module, when selected module is deployed as individual module deployment, progress Bar display mode is that will read bar progress 100% to be averagely divided into 4 parts, the code construction, generation mirror image, creates service and opens The each step of four steps of dynamic service takes a.

Preferably, the code construction, generation mirror image, establishment service and each step of four steps of startup service take one Part, further for the code construction is completed to be set as at the 25% of progress bar, and generation mirror image is completed to be set as progress bar At 50%, generation mirror image is set as at the 75% of progress bar, starts service and completes to be set as at the 100% of progress bar.

Preferably, during the batch deployment of module, front end progress bar is walked according to the percentage point of 25/ average time per second It is dynamic, until walking about previous percentage point to completion, when the signal of completion is transmitted in rear end, then start the reading bar in next stage.

Preferably, during the batch deployment of module, front end progress bar is walked according to the percentage point of 25/ average time per second Dynamic, until walking about previous percentage point to completion, when the signal of completion is not transmitted in rear end, then progress bar is stuck in original place wait Signal.

Preferably, during the batch deployment of module, front end progress bar is walked according to the percentage point of 25/ average time per second Dynamic, until walking about previous percentage point to completion, when rear end shifts to an earlier date derived signals, then progress bar leaps to the progress of completion At scale, the progress for starting next stage reads bar.

Preferably, disposed when batch is disposed above progress page and be provided with aggregate scheduling bar, and each module rear is designed with respectively From progress bar, aggregate scheduling bar obtains according to each progress (n1+n2+n3+ ...+nx)/100x.

The present invention can carry out batch deployment, carry out deployment startup simultaneously to multiple modules under an example, will treat portion The module of administration is disposed in list after choosing version added to one, and the module for choosing version that then will be added in list is entered The disposable unified plan of row.When deployment, platform will provide a deployment progress dynamic according to deployable state and read bar, use Family can learn the progress currently carried out of disposing according to bar progress is read, while can also will be currently deployed in when deployment Row cancels operation.Lift the Consumer's Experience of deployment and smooth degree.

Compared with prior art, the deployment in PaaS cloud platforms of the present invention and exchange method, have reached following effect Fruit：

The application uses multimode batch deployment way, realizes user and once selects, disposes simultaneously, same after the completion of deployment Shi Yunhang mode, save one by one the operation of individually deployment spent time and redundancy.

The present invention has progress to read bar during deployment, and user can intuitively see the progress of deployment by reading bar, Or the aggregate scheduling of batch deployment, it just will appreciate that progress without reading daily record.

The present invention innovatively adds cancellation deployment, and after user carries out cancellation deployment operation, platform interface shows the module It is out of service, and the deployment process being currently cancelled will give backstage to complete, and be carried out immediately on backstage after completing deployment Close, realize the cancellation of deployment, this phase user is invisible on platform.Deployment is completed to hand over closing the step Completed to from the background, save the duration of user's wait, the deployment process for project is more controllable.

Brief description of the drawings

Accompanying drawing described herein is used for providing a further understanding of the present invention, forms the part of the present invention, this hair Bright schematic description and description is used to explain the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings：

Fig. 1 is deployment and exchange method flow chart in the PaaS cloud platforms of embodiment 1；

Fig. 2 is to dispose flow chart in batches in embodiment 3；

Fig. 3 is that progress interface schematic diagram is disposed in embodiment 3；

Fig. 4 is to cancel deployment schematic flow sheet in embodiment 3；

Fig. 5 is that schematic flow sheet is disposed in the cancellation of individual module in embodiment 3；

Fig. 6 is that schematic flow sheet is disposed in the cancellation of batch deployment module in embodiment 3；

Fig. 7 is the schematic flow sheet after being disposed again after cancellation deployment in embodiment 3.

Embodiment

Some vocabulary has such as been used to censure specific components among specification and claim.Those skilled in the art should It is understood that hardware manufacturer may call same component with different nouns.This specification and claims are not with name The difference of title is used as the mode for distinguishing component, but is used as the criterion of differentiation with the difference of component functionally.Such as logical The "comprising" of piece specification and claim mentioned in is an open language, therefore should be construed to " include but do not limit In "." substantially " refer in receivable error range, those skilled in the art can be described within a certain error range solution Technical problem, basically reach the technique effect.In addition, " coupling " one word is herein comprising any direct and indirect electric property coupling Means.Therefore, if the first device of described in the text one is coupled to a second device, representing the first device can directly electrical coupling The second device is connected to, or the second device is electrically coupled to indirectly by other devices or coupling means.Specification Subsequent descriptions for implement the present invention better embodiment, so it is described description be by illustrate the present invention rule for the purpose of, It is not limited to the scope of the present invention.Protection scope of the present invention is worked as to be defined depending on appended claims institute defender.

The present invention is described in further detail below in conjunction with accompanying drawing, but it is not as a limitation of the invention.

Embodiment 1：

With reference to Figure of description 1, present embodiment discloses the deployment in a kind of PaaS cloud platforms and exchange method, including step Suddenly：

Step 101, the batch deployment of module：A project is selected, is entered in the example page of affiliated project, selection is treated The module of deployment, simultaneous selection dispose the version of the module, the module are added in the list of batch deployment, start batch portion Administration, the module in list is subjected to batch deployment in the page is disposed, terminated after the completion of the deployment of all modules；

Deployment interface display carries out four steps in PaaS cloud platforms in the process：Code construction, generation mirror image, wound The service of building and startup service, four steps total second total time t averagely completed, progress bar is shown on the deployment interface of platform Bar is read, wherein, statistics codes build second time t1 averagely completed, second time t2 that generation mirror image is averagely completed, create service Second time t3 for averagely completing, start second time t4 that service is averagely completed, t=t1+t2+t3+t4.

Step 102, the cancellation of deployment：It is determined that after cancelling deployment module, show that the module has stopped in front end, off-duty State, and rear end is then after cancelling deployment order and reaching, continue to dispose the module until deployment is completed, closed immediately after the completion of deployment Close the module；After the module is disposed in cancellation, and the module does not have startup to finish in rear end, when disposing the module again, Open the parallel task deployment module in rear end.

Embodiment 2：

On the basis of embodiment 1, present embodiment discloses the deployment in a kind of PaaS cloud platforms and exchange method, including Step：

During the batch deployment of the module, deployment interface display carries out four steps in PaaS cloud platforms：Code Structure, generation mirror image, create service and start service, four steps total second total time t averagely completed, in the deployment of platform Shown on interface progress bar read bar, wherein, statistics codes structure averagely complete second time t1, generation mirror image averagely complete when Between t2 seconds, the service of establishment averagely complete second time t3, start second time t4 for averagely completing of service, t=t1+t2+t3+t4.

During the batch deployment of the module, when selected module is deployed as individual module deployment, progress bar is shown Mode is that will read bar progress 100% to be averagely divided into 4 parts, the code construction, generation mirror image, creates service and starts service The each step of four steps takes a.

The code construction, generation mirror image, establishment service and each step of four steps of startup service take portion, enter one Walk and be, the code construction is completed to be set as at the 25% of progress bar, and generation mirror image is completed to be set as at the 50% of progress bar, raw It is mirrored into being set as at the 75% of progress bar, starts service and complete to be set as at the 100% of progress bar.

During the batch deployment of module, front end progress bar is walked about according to the percentage point of 25/ average time per second, until Previous percentage point to walk about to completion, when the signal of completion is transmitted in rear end, then start the reading bar in next stage.

During the batch deployment of module, front end progress bar is walked about according to the percentage point of 25/ average time per second, until Previous percentage point to walk about to completion, when the signal of completion is not transmitted in rear end, then progress bar is stuck in original place waiting signal.

During the batch deployment of module, front end progress bar is walked about according to the percentage point of 25/ average time per second, until Previous percentage point to walk about to completion, when rear end shifts to an earlier date derived signals, then progress bar is leapt at the progress scale of completion, The progress for starting next stage reads bar.

Disposed when batch is disposed above progress page and be provided with aggregate scheduling bar, and each module rear is designed with respective progress Bar, aggregate scheduling bar obtain according to each progress (n1+n2+n3+ ...+nx)/100x.

Embodiment 3：

It is Application Example with reference to Figure of description 2- Fig. 7 the present embodiment on the basis of embodiment 2：

(1) the batch deployment of module

User can realize on the platform while carry out batch to the multiple modules of example (application) under same project Deployment.User selectes a project, enters among the example page of the project, and then selection needs the module disposed, and selects The version for disposing the module is selected, then clicking on makes it be added in the list of batch deployment.Being disposed in batch in list to see The module added to user, user can also be removed the module release in list, are not involved in this time batch and disposed.User Choose after needing concurrently deployed module, multiple modules in list can be entered on platform after clicking on batch deployment button Row batch is disposed.After the flow chart of batch deployment is as shown in Fig. 2 start, example → selection module is selected in example page, will Module is added in batch deployment list, and → button for clicking on " disposing immediately " → enters the module in list in the page is disposed Row batch deployment → end.

(2) progress interface is disposed

When batch deployment module, or when single deployment module, four steps, code are carried out on platform Structure, generation mirror image, create service and start service.When carrying out these steps, progress is had at the deployment interface of platform Bar reads bar, has counted second time t2 that second time t1, generation mirror image that code construction averagely completes averagely complete, to create service flat Second time t3 for completing, start second time t4 that service is averagely completed.The wherein progress bar display mode of individual module deployment Will to read bar progress 100% and be averagely divided into 4 parts, each stage takes a：Wherein code construction is completed to be set as progress At the 25% of bar, generation mirror image is completed to be set as at the 50% of progress bar, and generation mirror image is set as at the 75% of progress bar, and opens Dynamic service is completed to be set as the 100% of progress bar.As shown in figure 3, in terms of front end, progress bar is according to 25/ average time per second Percentage point is walked about, and until walking about previous percentage point to completion, if the signal of completion is transmitted in rear end, starts next rank The reading bar of section；If the signal of completion is not transmitted in rear end, progress bar is stuck in waiting signal here；If rear end is transmitted in advance Signal, then progress bar leap at the progress scale of completion, start next stage progress read bar.

Disposed when batch is disposed above progress and aggregate scheduling bar occur, and each module rear can have respective progress Bar, total progress bar obtain according to each progress (n1+n2+n3+ ...+nx)/100x.

(3) cancellation of deployment

During deployment, can exist and not wait until that deployment is completed and user needs to cancel the operation for disposing the module.This When the process that carries out on the platform be (as shown in Figure 4), user determines to cancel and disposed after the module, immediately in front end It can show that the module has stopped, the state of off-duty；And rear end is then after user cancels deployment order arrival, may proceed to dispose The module until deployment complete, after the completion of close the module immediately.

And after user is cancelling the deployment module, and the module finishes on backstage without startup, at this moment deployment should again Module, then it can open the parallel task deployment module (as shown in Figure 7) on backstage.Cancel deployment and be divided into individual module Cancel deployment and the cancellation of batch deployment module is disposed, two kinds of situation processing modes are different, specifically as shown in Figure 5 and Figure 6.

The key technology of the present invention is：

(1) mode of multiple module batch deployment：

Batch can be carried out to the module under same project (application) on platform to dispose simultaneously, module is same after the completion of deployment When run on platform.

(2) mode and progress bar computational methods that process schedule reads bar are disposed：

The process schedule of deployment is presented to user with the interactive mode of progress bar, user can be allowed more intuitively to see portion Affix one's name to the progress carried out.Progress bar display mode is calculated with phases-time simultaneously, and the mode that backstage transmission phase completes signal embodies The current schedules of progress bar.

(3) mechanism of deployment is cancelled：

User can carry out cancelling the operation of deployment, multiple modules during deployment progress to the module currently disposed Deployment can equally divide individual module cancel the module disposed during also disposably all batches can be disposed while take Disappear deployment.Cancel deployment operation be sent to backstage can backstage complete deployment overall process and after the completion of directly it is out of service be somebody's turn to do It module, can then show that the module has cancelled deployment on foreground, be the state of off-duty on platform.

The present invention innovatively adds cancellation deployment, and deployment is completed to give backstage with closing the step to complete, saved The duration of user's wait is saved, the deployment process for project is more controllable.

Some preferred embodiments of the present invention have shown and described in described above, but as previously described, it should be understood that the present invention Be not limited to form disclosed herein, be not to be taken as the exclusion to other embodiment, and available for various other combinations, Modification and environment, and above-mentioned teaching or the technology or knowledge of association area can be passed through in the scope of the invention is set forth herein It is modified., then all should be in this hair and the change and change that those skilled in the art are carried out do not depart from the spirit and scope of the present invention In the protection domain of bright appended claims.

Claims

1. deployment and exchange method in a kind of PaaS cloud platforms, it is characterised in that including step：

The batch deployment of module：A project is selected, enters in the example page of affiliated project, selects module to be disposed, Simultaneous selection disposes the version of the module, the module is added in the list of batch deployment, starts batch and disposes, in deployment page The module in list is subjected to batch deployment in face, terminated after the completion of the deployment of all modules, process is disposed in the batch of module In, deployment interface display carries out four steps in PaaS cloud platforms：Code construction, generation mirror image, create service and start clothes Business, four steps total second total time t averagely completed, show that progress bar reads bar on the deployment interface of platform, wherein, statistics The time that second time t2 that second time t1 that code construction is averagely completed, generation mirror image are averagely completed, the service of establishment are averagely completed The t3 seconds, start second time t4 that service is averagely completed, t=t1+t2+t3+t4；

The cancellation of deployment：It is determined that after cancelling deployment module, show that the module has stopped in front end, the state of off-duty, and rear end Then after cancelling deployment order and reaching, continue to dispose the module until deployment completion, closes the module immediately after the completion of deployment； Cancel after disposing the module, and the module does not have startup to finish in rear end, when disposing the module again, is opened in the lump in rear end The capable task deployment module.

2. deployment and exchange method in PaaS cloud platforms according to claim 1, it is characterised in that batch of the module During amount deployment, when selected module is deployed as individual module deployment, progress bar display mode is that will read bar progress 100% is averagely divided into 4 parts, and the code construction, generation mirror image, establishment service and startup four each steps of step of service account for With portion.

3. deployment and exchange method in PaaS cloud platforms according to claim 2, it is characterised in that the code structure It is a to build, generate mirror image, create service and start each step occupancy of four steps of service, is further the code construction Completion is set as at the 25% of progress bar that generation mirror image is completed to be set as at the 50% of progress bar, and generation mirror image is set as progress At the 75% of bar, start service and complete to be set as at the 100% of progress bar.

4. deployment and exchange method in PaaS cloud platforms according to claim 3, it is characterised in that in the batch of module During deployment, front end progress bar is walked about according to the percentage point of 25/ average time per second, until walking about to previous the hundred of completion Branch, when the signal of completion is transmitted in rear end, then start the reading bar in next stage.

5. deployment and exchange method in PaaS cloud platforms according to claim 3, it is characterised in that in the batch of module During deployment, front end progress bar is walked about according to the percentage point of 25/ average time per second, until walking about to previous the hundred of completion Branch, when the signal of completion is not transmitted in rear end, then progress bar is stuck in original place waiting signal.

6. deployment and exchange method in PaaS cloud platforms according to claim 3, it is characterised in that in the batch of module During deployment, front end progress bar is walked about according to the percentage point of 25/ average time per second, until walking about to previous the hundred of completion Branch, when rear end shifts to an earlier date derived signals, then progress bar is leapt at the progress scale of completion, and the progress for starting next stage is read Bar.

7. according to the deployment in any described PaaS cloud platforms of claim 1-6 and exchange method, it is characterised in that batch portion Disposed during administration above progress page and be provided with aggregate scheduling bar, and each module rear is designed with respective progress bar, aggregate scheduling bar root Obtained according to each progress (n1+n2+n3+ ...+nx)/100x.