CN104618164A - Management method for rapid cloud computing platform application deployment - Google Patents

Abstract

The invention provides a management method for rapid cloud computing platform application deployment. The method includes the steps that an application deployment controller receives an application deployment or undeployment request and sends the application deployment or undeployment request to a cloud platform resource manager; the cloud platform resource manager determines resources required by the application deployment or undeployment request and sends resource information to an application deployment controller; the application deployment or undeployment request is sent to a local agent corresponding to position information in the resource information so that the local agent can conduct application deployment or undeployment in a corresponding container of the application deployment or undeployment request at a corresponding node; an application deployment controller receives an application deployment or undeployment success message sent by the local agent, and the application deployment or undeployment success message is sent to the cloud platform resource manager and a rapid deployment module; the rapid deployment module renews a configuration file according to corresponding application deployment information in the application deployment or undeployment message, and brings the configuration file into effect through dynamic hot deployment.

Description

The management method of cloud computing platform application rapid deployment

Technical field

The present invention relates to computer realm, particularly relate to a kind of management method of cloud computing platform application rapid deployment.

Background technology

The computational resource that the Internet converges, storage resources and application resource constantly increase along with the expansion of internet scale, in order to adapt to the new features of Internet resources, cloud computing is arisen at the historic moment, cloud computing is a kind of pattern of paying by use amount, this pattern provides access to netwoks available, easily, as required, enter configurable computing resource sharing pond (resource comprises network, server, storage, application software, service etc.), these resources only need drop into little management work or carry out little can being supplied by Quick alternately with service supplier.Along with the development of cloud computing technology, emerge cloud computing platform (also referred to as cloud platform), cloud platform has the characteristics such as highly concurrent, customer volume is large, and terminal use can meet the demand of calculating to application software, storage or other infrastructure by cloud platform.

But, along with the development of cloud computing technology and universal, the popularization of cloud platform user quantity, the application be deployed in single node can not meet the requirements for access of multiple user, particularly when the concurrent arrival of the access request of multiple user, response time will obviously increase, good Consumer's Experience cannot be ensured, therefore, how to support for user provides application deployment fast, flexibly and runs, and the supply of resource and the demand of user in cloud platform are matched, become current cloud platform application and dispose the new challenge faced.

Summary of the invention

The invention provides a kind of management method of cloud computing platform application rapid deployment, can support for user provides application deployment fast, flexibly and runs, and the supply of resource and the demand of user in cloud platform are matched.

The management method of cloud computing platform application rapid deployment provided by the invention, comprising:

Application deployment controller receives application deployment or instead disposes request;

Application deployment controller sends application deployment to cloud platform resource manager or instead disposes request;

Cloud platform resource manager determination application deployment or anti-deployment ask resource requirement;

Cloud platform resource manager sends resource information to application deployment controller;

Cloud platform resource manager sends application deployment to local agent corresponding to positional information in resource information or instead disposes request, to make local agent according to application deployment or instead dispose deployment that request carries out applying in the corresponding container of corresponding node or instead to dispose;

Application deployment controller receives the application deployment of local agent transmission or anti-deployment success message;

Application deployment controller sends application deployment or anti-deployment success message to cloud platform resource manager and rapid deployment module, wherein, sends to the application deployment of rapid deployment module or anti-deployment success message to comprise corresponding application configuration information;

Rapid deployment module is disposed according to the application configuration information Reconfigurations file of correspondence and by Dynamic Thermal and configuration file is come into force.

The management method of cloud computing platform application rapid deployment provided by the invention, when user submits to application deployment or anti-deployment to ask, application deployment controller receives application deployment or anti-dispose request and send application deployment to cloud platform resource manager or instead dispose request, cloud platform resource manager determination application deployment or anti-deployment are asked resource requirement and are sent resource information to application deployment controller, and send application deployment to local agent corresponding to positional information in resource information or instead dispose request, to make local agent according to application deployment or anti-dispose deployment that request carries out applying in the corresponding container of corresponding node or instead to dispose, application deployment controller receives application deployment or the anti-deployment success message of local agent transmission and sends application deployment or anti-deployment success message to cloud platform resource manager and rapid deployment module, the application deployment of rapid deployment module or anti-deployment success message is sent to comprise corresponding application configuration information, rapid deployment module is disposed according to the application configuration information Reconfigurations file of correspondence and by Dynamic Thermal and configuration file is come into force.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The management method flow chart of the cloud computing platform application rapid deployment that Fig. 1 provides for one embodiment of the invention;

Fig. 2 is the managerial structure figure of application oriented rapid deployment and elastic telescopic in the management method of cloud computing platform application rapid deployment provided by the invention;

The management method flow chart of the cloud computing platform application rapid deployment that Fig. 3 provides for another embodiment of the present invention;

Fig. 4 is the process schematic applying rapid deployment in the management method of cloud computing platform application rapid deployment provided by the invention;

The management method application access flow chart of the cloud computing platform application rapid deployment that Fig. 5 provides for another embodiment of the present invention;

Fig. 6 is the process schematic of application deployment and application access in the management method of cloud computing platform application rapid deployment provided by the invention;

The management method flow chart of the cloud computing platform application rapid deployment that Fig. 7 provides for further embodiment of this invention.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the embodiment of the present invention, technical scheme in the embodiment of the present invention is clearly and completely described, obviously, described embodiment is the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

The management method flow chart of the cloud computing platform application rapid deployment that Fig. 1 provides for one embodiment of the invention, Fig. 2 is the managerial structure figure of application oriented rapid deployment and elastic telescopic in the management method of cloud computing platform application rapid deployment provided by the invention.Need to carry out in cloud platform as user the rapid deployment applied or instead to dispose, and when making that in platform, the supply of resource and the demand of user match, the management method of the cloud computing platform application rapid deployment that the present embodiment just can be adopted to provide.As depicted in figs. 1 and 2, the management method of the cloud computing platform application rapid deployment that the present embodiment provides, comprising:

S101: application deployment controller 22 receives application deployment or instead disposes request;

Wherein, application deployment controller 22 for the treatment of application deployment or instead dispose request, user can carry out application deployment or instead to dispose in cloud platform, when user wants in the application of cloud platform upper administration, user submits application deployment request to application deployment controller 22, and application deployment controller 22 receives the application deployment request that user submits to; When user wants anti-application deployment on cloud platform, user submits to application instead to dispose request to application deployment controller 22, and application deployment controller 22 receives that application that user submits to is counter disposes request.

It should be noted that, user herein refers to the authority had at cloud Platform deployment or anti-application deployment, can carry out application deployment or the anti-user disposed on cloud platform.

S102: application deployment controller 22 sends application deployment to cloud platform resource manager 21 or instead disposes request;

Wherein, cloud platform resource manager 21 is used for managing the resource such as calculating, storage be distributed on each node of cloud platform, totally dispatches the deployment of applying or anti-deployment.

It should be noted that, application distribution all in cloud platform on some nodes, as node 1, node 2 ..., node n, wherein, n is used for representing the number of node.

S103: cloud platform resource manager 21 determines that application deployment or anti-deployment ask resource requirement;

S104: cloud platform resource manager 21 sends resource information to application deployment controller 22;

Wherein, after the application deployment that cloud platform reception application deployment controller 22 sends or anti-deployment are asked, cloud platform resource manager 21 is according to the resource determination application deployments such as the calculating be distributed on each node, storage or anti-resource of disposing needed for request, comprise positional information and the Container Type of resource requirement in resource requirement, send application deployment or anti-positional information of disposing request resource requirement to application deployment controller 22.Concrete, the positional information of resource can be the address of node address that resource requirement is corresponding and container.

It should be noted that, cloud platform resource manager 21 is determined to apply and is instead disposed inquiry when request resource requirement refers to that application is anti-to be disposed and need by the application locations of copies of anti-application correspondence of disposing.

S105: cloud platform resource manager 21 sends application deployment to the local agent 23 that positional information in resource information is corresponding or instead disposes request, to make local agent 23 according to application deployment or instead dispose deployment that request carries out applying in the corresponding container of corresponding node or instead to dispose;

Wherein, local agent 23 is distributed on each node of cloud platform, and each node, containing a local agent 23 and one or more container, comprises one or more application in each container.

S106: application deployment controller 22 receives the application deployment of local agent 23 transmission or anti-deployment success message;

S107: application deployment controller 22 sends application deployment or anti-deployment success message to cloud platform resource manager 21 and rapid deployment module 24, wherein, the application deployment of rapid deployment module 24 or anti-deployment success message is sent to comprise corresponding application configuration information;

Concrete, rapid deployment module 24 comprises block configuration device 241 and dynamic reverse proxy 242.Application deployment controller 22 sends application deployment or anti-deployment success message to cloud platform resource manager 21 and rapid deployment module 24, comprising: application deployment controller 22 sends application deployment or anti-deployment success message to cloud platform resource manager 21 and dynamic reverse proxy 242.

It should be noted that, reverse proxy can be regarded as a special proxy server, it accepts the connection request on network, then by request forward to the server on internal network, and the result obtained from server being returned to the client that network asks connection, now reverse proxy externally just shows as a server.Usually, reverse proxy is deployed near one end of original contents but not client.Meanwhile, dynamic reverse proxy 242 can as load equalizer.Such as, when client sends a request, when rear end has multiple application server can respond this request, just there is the problem of load balancing.Load equalizer is one of significant components in distributed system, for load being split in the node of some responsible service requests, making multiple nodes of a system can provide service for identical function, and balancing the resource utilization of each server.The dynamic reverse proxy 242 with load balancing effect just can as load equalizer, be used in cloud platform, many connections simultaneously carried out can be processed, and by these connection routes on one of them service node, make system can process more requests by increasing node.

The dynamic reverse proxy 242 that the present embodiment provides uses lightweight, supports the HTML (Hypertext Markup Language) of high concurrent connection (Hypertext transfer protocol, be called for short HTTP) server Nginx, and expand on Nginx, support Dynamic Thermal is disposed, and can promote the deployment efficiency of whole system.Nginx not only as dynamic reverse proxy 242, also can be used as load equalizer.

S108: rapid deployment module 24 is disposed according to the application configuration information Reconfigurations file of correspondence and by Dynamic Thermal and configuration file is come into force.

Wherein, rapid deployment module 24 is disposed according to the application configuration information Reconfigurations file of correspondence and by Dynamic Thermal and configuration file is come into force, and comprising: dynamically reverse proxy 242 is according to the configuration file of the application configuration information Regeneration dynamics reverse proxy 242 of correspondence.

It should be noted that, Dynamic Thermal deployment refers to container state and redeploys whole project when running, and can revise the configuration file of reverse proxy when not stopping service.

Dynamic reverse proxy 242 is disposed by Dynamic Thermal and configuration file is come into force.

Concrete, dynamic reverse proxy 242 can dynamically update the configuration file of oneself and by heat deployment, new configuration be come into force, and is stored in the configuration file on disk without the need to manual modification.

The management method of the cloud computing platform application rapid deployment that the present embodiment provides, when user submits to application deployment or anti-deployment to ask, application deployment controller 22 receives application deployment or anti-dispose request and send application deployment to cloud platform resource manager 21 or instead dispose request, cloud platform resource manager 21 determines that application deployment or anti-deployment are asked resource requirement and send resource information to application deployment controller 22, and send application deployment to the local agent 23 that positional information in resource information is corresponding or instead dispose request, to make local agent 23 according to application deployment or anti-dispose deployment that request carries out applying in the corresponding container of corresponding node or instead to dispose, application deployment controller 22 receives application deployment or the anti-deployment success message of local agent 23 transmission and sends application deployment or anti-deployment success message to cloud platform resource manager 21 and rapid deployment module 24, the application deployment of rapid deployment module 24 or anti-deployment success message is sent to comprise corresponding application configuration information, rapid deployment module 24 is disposed according to the application configuration information Reconfigurations file of correspondence and by Dynamic Thermal and configuration file is come into force.

The management method of the cloud computing platform application rapid deployment that the present embodiment provides, support Dynamic Thermal is disposed, can dynamic implement application deployment or instead to dispose fast, promote the deployment efficiency of whole system, can support for user provides application deployment fast, flexibly and runs, and the supply of resource and the demand of user in cloud platform are matched.

Optionally, block configuration device 241 is for presenting the configuration file of dynamic reverse proxy 242 with visual means and carrying out modular arrangements.

Concrete, for the ease of operation and management, the visual mode that is configured to of dynamic reverse proxy 242 can be presented to user by module by block configuration device 241, user directly can revise current configuration at the block configuration page, if amended configuration meets the rule inspection of configuration file, then after submitting to, new configuration can come into force.

The management method flow chart of the cloud computing platform application rapid deployment that Fig. 3 provides for another embodiment of the present invention, Fig. 4 is the process schematic applying rapid deployment in the management method of cloud computing platform application rapid deployment provided by the invention.When user in cloud platform application deployment or anti-dispose carry out the deployment of many copies or counter dispose time, the management method of the cloud computing platform application rapid deployment that the present embodiment just can be adopted to provide.As shown in Figure 3 and Figure 4, the management method of the cloud computing platform application rapid deployment that the present embodiment provides, comprising:

S301: application deployment controller 22 receives application deployment or instead disposes request, application deployment or instead dispose request and comprise application deployment or the anti-copy disposed;

Concrete, because the deployment of many copies supported by cloud platform, so when user submits to deployment to ask, the number of copy can be arranged; When user submits to anti-deployment to ask, namely will delete in cloud platform the some application be deployed, acquiescence deletes all copies of this application correspondence.

It should be noted that, copy refers to be redundancy that data or service provide in a distributed system.Data trnascription refers to the same number certificate of persistence on different nodes, when there is the loss of data that some nodes store, can read data from copy.Another kind of copy is service copy, the service that an index node provides certain identical, and this service is general and do not rely on this locality storage of node, and its desired data is generally from other nodes.Along with the demand of the user in the Internet to resource is increasing, if only there are a data, then need the user of these data all must read it to same node, network easily occurs congested, and the limited node of disposal ability also can because access number is too large machine of delaying.But, create many parts of data trnascriptions, and by their reasonable layouts on multiple server node, share the task of process access request, can effectively reduce node failure rate, reduce subscriber response time.

S302: application deployment controller 22 sends application deployment to cloud platform resource manager 21 or instead disposes request;

S303: copy resource requirement in application deployment or anti-deployment request determined by cloud platform resource manager 21;

S304: cloud platform resource manager 21 sends copy resource requirement information to application deployment controller 22;

Concrete, cloud platform resource manager 21 determines that application deployment or anti-copy resource requirement information in request of disposing comprise positional information and the Container Type of resource requirement, wherein, the positional information of copy resource requirement can be the address of node address that copy resource requirement is corresponding and container.

S305: cloud platform resource manager 21 sends application deployment to the local agent 23 that positional information in copy resource requirement information is corresponding or instead disposes request, to make local agent 23 according to application deployment or instead to dispose request and carry out the deployment of the copy applied or instead to dispose in the corresponding container of corresponding node;

S306: application deployment controller 22 receives the application deployment of local agent 23 transmission or anti-deployment success message;

S307: application deployment controller 22 sends application deployment or anti-deployment success message to cloud platform resource manager 21 and rapid deployment module 24, wherein, the application deployment of rapid deployment module 24 or anti-deployment success message is sent to comprise corresponding application configuration information;

Wherein, corresponding application configuration information comprises the mapping relations of application-copy.

S308: rapid deployment module 24 is disposed according to the application configuration information Reconfigurations file of correspondence and by Dynamic Thermal and configuration file is come into force.

Wherein, rapid deployment module 24 is according to the configuration of the dynamic reverse proxy 242 of configuration information update of the application-copy mapping relations of correspondence.

The management method of the cloud computing platform application rapid deployment that the present embodiment provides, by application deployment or the anti-copy disposed request and comprise application deployment or anti-deployment, each copy resource requirement in application deployment or anti-deployment request determined by cloud platform resource manager 21, each copy resource requirement information comprises node address corresponding to each copy resource requirement, the address of Container Type and container, dynamic reverse proxy 242 dynamically upgrades the configuration of oneself fast according to the application in the application configuration information of correspondence-copy mapping relations, rapid deployment and the configuration of applying and applying many copies can be realized.

The management method application access flow chart of the cloud computing platform application rapid deployment that Fig. 5 provides for another embodiment of the present invention, Fig. 6 is the process schematic of application deployment and application access in the management method of cloud computing platform application rapid deployment provided by the invention.When user is in cloud platform after application deployment or anti-deployment success, when application access request arrives, the management method of the cloud computing platform application rapid deployment that the present embodiment just can be adopted to provide.As shown in Figure 5 and Figure 6, on the basis of above-described embodiment, the management method of the cloud computing platform application rapid deployment that the present embodiment provides, also comprises:

S501: dynamically reverse proxy 242 receives application access request;

Wherein, when user is in cloud platform after application deployment or anti-deployment success, when having the user of application access request to want the application using cloud Platform deployment, the user of application access request is had to propose application access request, when application access request arrives, dynamic reverse proxy 242 receives application access request.

S502: the application copy that dynamically reverse proxy 242 is corresponding with copy mapping relations and the request of load balancing determination application access according to the application in configuration file;

Concrete, the application copy that dynamic reverse proxy 242 is corresponding with copy mapping relations and the request of load balancing determination application access according to the application in configuration file, comprising: dynamically reverse proxy 242 applies copy according to corresponding with copy mapping relations and the request of load balancing determination application access of the application in configuration file.

It should be noted that, dynamic reverse proxy 242 can as load equalizer, the setting to load balancing is contained in dynamic reverse proxy 242 inside, the application copy that dynamic reverse proxy 242 is corresponding with the load balancing determination application access request that copy mapping relations and dynamic reverse proxy are arranged self according to the application in configuration file.

S503: dynamically reverse proxy 242 obtains the application access result of application access request from the application copy that application access request is corresponding;

S504: dynamically reverse proxy 242 sends application access result to the user sending application access request.

Concrete, when multiple application request user accesses, during especially multiple application request user concurrent access, dynamic reverse proxy 242 carries out guiding fast according to the application in oneself configuration information-copy mapping relations and load balancing to access request fast, makes application request user fast access to application.

It should be noted that, the user of application access request only possesses the user of access application authority, and the user of application access request does not generally have the authority of carrying out application deployment or anti-deployment on cloud platform.

The management method of the cloud computing platform application rapid deployment that the present embodiment provides, on the basis of above-described embodiment, when there being application request, dynamic reverse proxy 242 is led to access request fast according to the application in oneself configuration information-copy mapping relations and load balancing, while realizing the application quick Dynamical Deployment of many copies and configuration, can be implemented in multiple application request user when accessing, during especially multiple application request user concurrent access, dynamic reverse proxy 242 is led to access request fast according to the application in oneself configuration information-copy mapping relations and load balancing, make application request user fast access to application, decrease the stand-by period of application request user, ensure that application request user has good Consumer's Experience.

The management method flow chart of the cloud computing platform application rapid deployment that Fig. 7 provides for further embodiment of this invention.When user is in cloud platform after application deployment or anti-deployment success, need to application deployment or anti-dispose in apply copy carry out elastic telescopic time, the management method of the cloud computing platform application rapid deployment that the present embodiment just can be adopted to provide.As shown in Figure 7, the management method of the cloud computing platform application rapid deployment that the present embodiment provides, also comprises:

S701: dynamic retractility module 25 obtains the resource service condition of all local agent 23 places node;

Concrete, dynamic retractility module 25 comprises data capture device 255, data collector 254, application engine watch-dog 253, copy flow monitor 252, dynamic retractility controller 251.

Wherein, dynamic retractility module 25 obtains the resource service condition of all local agent 23 places node, comprising: data capture device 255 obtains the resource service condition of place node, and resource service condition is sent to data collector 254.

It should be noted that, data capture device 255 is distributed on each node of cloud platform, and each node is containing a data grabber 255.The service condition of resource on monitor node is responsible for by data capture device 255, the startup of container on node, ruuning situation, and in upper vessel portion administration or anti-application message of disposing, and initiatively send to data collector 254 data message monitored by some cycles.The monitor data collecting, converge the transmission of all data capture devices 255 is responsible for by data collector 254.

S702: dynamic retractility module 25 presents resource service condition with visual means;

Wherein, dynamic retractility module 25 presents resource service condition with visual means, comprising: copy flow monitor 252 presents the access times of copy place node corresponding to each application, container and each copy with visual means; Application engine watch-dog 253 presents the varigrained resource service condition of each node with visual means.For user provides the monitoring resource of the monitoring of visual application copy flowing of access and many granularities, make user can check rapidly the access situation of current application deployment, and the varigrained resource service condition of cloud platform interior joint.

Concrete, copy flow monitor 252 provides the traffic monitoring of copy real time access for user, and show to user with the visual form of webpage, when user checks that copy flowing of access is monitored, copy flow monitor 252 can ask corresponding data message to dynamic reverse proxy 242, then shows.Monitored by the flowing of access of copy, user can see that each applies the copy of current correspondence, and the number of times that each application copy is accessed, and judges current request amount.

Table 1 is copy flowing of access monitoring form, as shown in table 1, the identify label number (IDentity is called for short ID) of application deployment in platform, title (Name), corresponding copy information (back-end Node (s)) and the current accessed number of times of each copy (Invoke Counts) is illustrated in the flowing of access monitoring page.Deploy two methods (ID is APP_113 and APP_114 respectively) in current platform, wherein applying APP_114 has two copies, operates in respectively in 192.168.7.106:80 and 192.168.7.107:80 two containers.Table 2 for copy stretch after copy flowing of access monitoring form, the copy that in table 2, APP_113 newly increases operates on the node that IP address is 192.168.7.107, and the access request arrived subsequently can be reversed agency and shunt, thus alleviates the load of original node.Application APP_114 then decreases one, and to operate in address be copy in 192.168.7.107:80 container.

Table 1: copy flowing of access monitoring form

Table 2: the copy flowing of access monitoring form after copy stretches

Concrete, the varigrained resource usage data (as computational resource, storage resources) that data collector 254 collects by application engine watch-dog 253 shows user with webpage visual pattern.The application message that the access application engine monitoring page can be checked each node, operate in the container on node and dispose in a reservoir.

Concrete, multi-granularity resource monitors Internet protocol (the Internet Protocol that the information shown in the visual page provided comprises node, be called for short IP) address, CPU (the Central Processing Unit that node respective hosts is current, be called for short CPU) utilance, current idle internal memory, indicate the timestamp (timestamp) of data obtaining time on this monitoring page, current deployment number of vessels etc. on this node, the position that the visual page user provided directly can check node upper container is monitored according to multi-granularity resource, the timestamp of data acquisition and the application numbers be currently operating on this container and application call address etc.

S703: dynamic retractility module 25 receives application dilatation or capacity reducing request;

Optionally, application dilatation or capacity reducing request comprise the request increasing or reduce application copy amount.

Wherein, dynamic retractility module 25 receives application dilatation or capacity reducing request, comprising: dynamic retractility controller 251 receives application dilatation or capacity reducing request.Flexible management is carried out to application copy, avoids deficiency or the residue of resource, realize the management of dynamic elastic telescopic, simple operation.

Concrete, dynamic retractility controller 251 provides interface at the application engine monitoring page for user, makes user can carry out the operation of dynamic retractility application copy number.On the one hand, user can only manage according to copy flowing of access: when the application access amount of having disposed is larger, and user can monitor in application engine the copy number page being increased application by " increasing (scale out) " button.To be applied in visit capacity in a period of time less when a certain, and when current copy number is more, and user can monitor in application engine the page to reduce this application copy number by " reducing (scale in) " button.By dynamically increasing and decreasing the copy number of application, avoid deficiency or the residue of resource.Owing to employing dynamic reverse proxy 242 in framework, so the change meeting Real-time Feedback of application replica node is in the configuration of dynamic reverse proxy 242, and then by the load balancing effect of dynamic reverse proxy 242, overall system performance is promoted.

It should be noted that, user can only according to fine-grained monitoring resource results management replica node.User these two kinds of results of resource of simultaneously connected applications copy flowing of access and many granularities can also carry out corresponding elastic telescopic operation.The present embodiment does not limit at this.

When the resource utilization monitoring certain node is higher, user can increase copy number for the application be deployed on this node, user's request can be diverted on the application copy that newly increases by load balancing that then dynamically reverse proxy 242 has automatically, reduce the load of single copy, promote total throughput.

In the present embodiment, the application copy information shown in visual page that option provides of stretching comprises " scale out " or " scale in " button, and user directly can increase or reduce by button " scale out " or " scalein " button the copy number that appointment applies.

S704: dynamic retractility module 25 is by the resource information of application deployment controller 22 to cloud platform resource manager 21 inquiry application dilatation or copy corresponding to capacity reducing request;

Wherein, dynamic retractility module 25 is by the resource information of application deployment controller 22 to cloud platform resource manager 21 inquiry application dilatation or copy corresponding to capacity reducing request, comprise: dynamic retractility controller 251 is by the resource information of application deployment controller 22 to cloud platform resource manager 21 inquiry application dilatation or copy corresponding to capacity reducing request, and the resource information of concrete copy comprises the positional information of copy.

S705: application deployment controller 22 receives the resource information of application dilatation that cloud platform resource manager 21 sends or application copy corresponding to capacity reducing request, and the local agent 23 application dilatation or capacity reducing request being sent to application dilatation or application copy place node corresponding to capacity reducing request;

S706: application deployment controller 22 receives application dilatation or the capacity reducing success message of local agent 23 transmission, and application dilatation or capacity reducing success message are sent to cloud platform resource manager 21 and rapid deployment module 24.

Concrete, increase to example with what apply copy number, flow process is performed to elastic telescopic and is described.

(1) when being deployed in the application in cloud platform and needing an increase copy, the interface that user is provided on the application engine monitoring page by dynamic retractility controller 251 selects increase copy, namely click " scale out " button of this application correspondence, this deployment request can send to application deployment controller 22.

(2), after application deployment controller 22 receives the request increasing copy, which container on which node and node should be deployed in the newly-increased copy of cloud platform resource manager 21 inquiry.

(3) after cloud platform resource manager 21 receives above-mentioned request, according to the service condition of global resource, be newly-increased copy distribution node and container, and result is sent to application deployment controller 22.

(4) the deployment nodal information of newly-increased copy and distribution is sent to the local agent 23 in corresponding node by application deployment controller 22, by local agent 23, newly-increased copy is disposed, after successful deployment, send to application deployment controller 22 1 feedback.

(5), after application deployment controller 22 receives the feedback of successful deployment, the message of a successful deployment can be sent to cloud platform resource manager 21, be convenient to follow-up resource management.Simultaneously, application deployment controller 22 also can send the deployment information configuring request of a newly-increased copy to dynamic reverse proxy 242, make dynamic reverse proxy 242 can in time by newly-increased Replica updating to oneself configuration file, thus equilibrium assignment is carried out to follow-up access request.

It should be noted that, the copy that also can carry out applying reduces operation, and the copy of application reduces " scale in " button that this application correspondence is clicked in operation, and other operation increases class of operation seemingly with application copy, does not repeat them here.

The management method of the cloud computing platform application rapid deployment that the present embodiment provides, on the basis of above-described embodiment, for user provides the monitoring resource of the monitoring of visual application copy flowing of access and many granularities, make user directly can check rapidly the access situation of current application deployment, and the varigrained resource service condition of cloud platform interior joint, and rapidly flexible management is carried out to application copy according to the characteristic oneself applied and monitor data, avoid deficiency or the residue of resource, application is carried out flexibly, the management of dynamic elastic telescopic, simple operation.

Last it is noted that above each embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to foregoing embodiments to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein some or all of technical characteristic; And these amendments or replacement, do not make the essence of corresponding technical scheme depart from the scope of various embodiments of the present invention technical scheme.

Claims (9)

1. a management method for cloud computing platform application rapid deployment, is characterized in that, comprising:

Application deployment controller receives application deployment or instead disposes request;

Described application deployment controller sends described application deployment to cloud platform resource manager or instead disposes request;

Described cloud platform resource manager determines that described application deployment or anti-deployment ask resource requirement;

Described cloud platform resource manager sends described resource information to described application deployment controller;

Described cloud platform resource manager sends described application deployment to the local agent that positional information in described resource information is corresponding or instead disposes request, to make described local agent according to described application deployment or instead dispose deployment that request carries out applying in the corresponding container of corresponding node or instead to dispose;

Described application deployment controller receives the application deployment of described local agent transmission or anti-deployment success message;

Described application deployment controller sends described application deployment or anti-deployment success message to described cloud platform resource manager and rapid deployment module, wherein, the application deployment of described rapid deployment module or anti-deployment success message is sent to comprise corresponding application configuration information;

Described rapid deployment module is disposed according to the application configuration information Reconfigurations file of described correspondence and by Dynamic Thermal and described configuration file is come into force.

2. method according to claim 1, is characterized in that, described application deployment or the anti-copy disposed request and comprise application deployment or anti-deployment;

Described cloud platform resource manager determines that described application deployment or anti-deployment ask resource requirement, comprising:

Copy resource requirement described in described application deployment or anti-deployment request determined by described cloud platform resource manager;

Described cloud platform resource manager sends described resource information to described application deployment controller, comprising:

Described cloud platform resource manager sends described copy resource requirement information to described application deployment controller;

Described cloud platform resource manager sends described application deployment to the local agent that positional information in described resource information is corresponding or instead disposes request, to make described local agent according to described application deployment or anti-dispose deployment that request carries out applying in the corresponding container of corresponding node or instead to dispose, comprising:

Described cloud platform resource manager sends described application deployment to the local agent that positional information in described copy resource requirement information is corresponding or instead disposes request, to make described local agent according to described application deployment or instead to dispose request and carry out the deployment of the described copy applied or instead to dispose in the corresponding container of corresponding node.

3. method according to claim 1 and 2, is characterized in that, described rapid deployment module comprises block configuration device and dynamic reverse proxy;

Described application deployment controller sends described application deployment or anti-deployment success message to described cloud platform resource manager and rapid deployment module, comprising:

Described application deployment controller sends described application deployment or anti-deployment success message to described cloud platform resource manager and described dynamic reverse proxy;

Described rapid deployment module is disposed according to the application configuration information Reconfigurations file of described correspondence and by Dynamic Thermal and described configuration file is come into force, and comprising:

Described dynamic reverse proxy is disposed according to the application configuration information Reconfigurations file of described correspondence and by Dynamic Thermal and described configuration file is come into force.

4. method according to claim 3, is characterized in that, described block configuration device is used for being presented with visual means by the configuration file of described dynamic reverse proxy and carrying out modular arrangements.

5. method according to claim 3, is characterized in that, described method also comprises:

Described dynamic reverse proxy receives application access request;

Described dynamic reverse proxy determines according to the application in configuration file and copy mapping relations and load balancing the application copy that described application access request is corresponding;

Described dynamic reverse proxy obtains the application access result of described application access request from the application copy that described application access request is corresponding;

Described dynamic reverse proxy sends described application access result to the user sending application access request.

6. method according to claim 5, is characterized in that, described dynamic reverse proxy is determined to comprise the application copy that described application access request is corresponding according to the application in configuration file and copy mapping relations and load balancing:

According to the application in configuration file and copy mapping relations and load balancing, described dynamic reverse proxy determines that corresponding one of described application access request applies copy.

7. method according to claim 1, is characterized in that, described method also comprises:

Dynamic retractility module obtains the resource service condition of all local agent places node;

Described dynamic retractility module presents described resource service condition with visual means;

Described dynamic retractility module receives application dilatation or capacity reducing request;

Described dynamic retractility module inquires about the resource information of described application dilatation or application copy corresponding to capacity reducing request to described cloud platform resource manager by described application deployment controller;

Described application deployment controller receives the resource information of described application dilatation that described cloud platform resource manager sends or application copy corresponding to capacity reducing request, and described application dilatation or capacity reducing request is sent to the local agent of described application dilatation or application copy place node corresponding to capacity reducing request;

Described application deployment controller receives application dilatation or the capacity reducing success message of local agent transmission, and described application dilatation or capacity reducing success message are sent to described cloud platform resource manager and described rapid deployment module.

8. method according to claim 7, is characterized in that, described application dilatation or capacity reducing request comprise the request increasing or reduce application copy amount.

9. the method according to claim 7 or 8, is characterized in that, described dynamic retractility module comprises data capture device, data collector, application engine watch-dog, copy flow monitor, dynamic retractility controller;

Described dynamic retractility module obtains the resource service condition of all local agent places node, comprising:

Described data capture device obtains the resource service condition of place node, and described resource service condition is sent to described data collector;

Described dynamic retractility module presents described resource service condition with visual means, comprising:

Described copy flow monitor presents the access times of copy place node corresponding to each application, container and each copy with visual means;

Described application engine watch-dog presents the varigrained resource service condition of each node with visual means;

Described dynamic retractility module receives application dilatation or capacity reducing request, comprising:

Described dynamic retractility controller receives application dilatation or capacity reducing request;

Described dynamic retractility module inquires about the resource information of described application dilatation or copy corresponding to capacity reducing request to described cloud platform resource manager by described application deployment controller, comprising:

The resource information of described application dilatation or copy corresponding to capacity reducing request inquired about by described dynamic retractility controller to described cloud platform resource manager by described application deployment controller.