CN102655532B - Distributed heterogeneous virtual resource management method and system integration - Google Patents

Distributed heterogeneous virtual resource management method and system integration Download PDF

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CN102655532B
CN102655532B CN 201210114393 CN201210114393A CN102655532B CN 102655532 B CN102655532 B CN 102655532B CN 201210114393 CN201210114393 CN 201210114393 CN 201210114393 A CN201210114393 A CN 201210114393A CN 102655532 B CN102655532 B CN 102655532B
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resource
virtual
unit
heterogeneous
virtualization
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CN102655532A (en )
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王剑
钟冰
许晓鲁
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上海和辰信息技术有限公司
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一种分布式异构虚拟资源集成管理系统,系统包括:异构资源虚拟化引擎,其用于使资源节点完成自助式虚拟机部署,根据资源节点相应情况为用户提供虚拟化产品选择策略,并通过自动定制模板、可视化的流程编辑器,集成软件开发套件以及方便用户操作的Web服务接口帮助用户完成设置和部署虚拟化,资源节点变为虚拟化资源节点;异构虚拟资源接入API,用于将虚拟化资源节点注册到分布式资源管理中心;云服务平台,用于分配新的虚拟服务器,重新配置虚拟服务器和回收虚拟服务器。 A distributed heterogeneous virtual integrated resource management system, the system including: heterogeneous resource virtualization engine for the resources to complete the self-node virtual machine deployment, virtualization products provide users with selection policy based on the corresponding resource nodes, and by automatically customized templates, visual flow editor, integrated software development kit and user-friendly operation of the Web service interface to help users complete the setup and deployment of virtualization, resource nodes into a virtual resource node; heterogeneous virtual resource access API, with in the virtualized resource nodes registered to distributed resource management centers; cloud services platform for allocating new virtual server, virtual server and reconfigure the virtual recovery server. 本发明可以集中全面地管理分布广泛的,来自各种异构虚拟产品的虚拟资源。 The present invention can be centralized and comprehensive management of widely distributed, heterogeneous virtual resources from a variety of virtual products.

Description

分布式异构虚拟资源集成管理方法及系统 Distributed heterogeneous virtual resource management method and system integration

技术领域 FIELD

[0001] 本发明涉及云计算技术,更具体地,涉及一种分布式异构虚拟资源集成管理方法及系统。 [0001] The present invention relates to cloud computing, and more particularly, to a distributed heterogeneous integration method and system management virtual resources.

背景技术 Background technique

[0002] 在通向云计算的道路上,虚拟化价值的实现是一个持续的过程。 [0002] On the road leading to cloud computing, virtualization value is an ongoing process. 大多数企业或组织机构最初尝试虚拟化是为了提高服务器的效率和降低投资成本,从而为进入虚拟化价值之旅的下一个阶段奠定基础,即将虚拟化扩展到企业的关键业务应用中。 Most business or organization initially tried to virtualization to improve server efficiency and reduce capital costs, thereby laying the foundation for the next stage to the value of virtualization journey, is about to extend virtualization to business-critical applications. 接下来,用户对业务敏捷性以及服务质量的改进,将帮助企业和组织机构抵达虚拟化价值之旅的终点--IT 即服务。 Next, the user of agility and improved quality of service business, will help companies and organizations to reach the end --IT virtual tour of the value of a service.

[0003] 云计算的兴起,使得越来越多的企业意识到,虚拟化是构建云基础架构不可或缺的关键技术之一。 [0003] The rise of cloud computing, more and more companies realize that virtualization is a key technology to build cloud infrastructure indispensable. 利用虚拟化,企业不必抛弃现有的基础架构,即可构建全新的信息基础架构,从而更加充分地利用原有的IT投资。 The use of virtualization, enterprises do not have to abandon the existing infrastructure, to build a new information infrastructure to more fully utilize existing IT investments.

[0004] 云计算是推动IT转向以业务为中心模式的一次重大变革。 [0004] Cloud computing is pushing IT turned to a major change in business-centric model. 它着眼于运营效率、竞争力和快速响应等实际成果。 It looks at the actual results of operational efficiency, competitiveness and rapid response and so on. 这意味着IT的作用正在从提供IT服务逐步过渡到根据业务需求优化服务的交付和使用。 This means IT is gradually transition from the provision of IT services to optimize the delivery and use of services based on business needs. 这种全新的模式将以前的信息孤岛转化为灵活高效的资源池和具备自我管理能力的虚拟基础架构,从而以更低的成本和以服务的形式提供给用户。 This new model will be transformed into information silos previous flexible and efficient resource pools and virtual infrastructure with self-management skills, and thus available to users as a service at a lower cost. IT 即服务将提供业务所需要的一切,并在不丧失对系统的控制力的同时,保持系统的灵活性和敏捷性。 IT as a Service will provide all the services required, and without losing control over the system while maintaining the system's flexibility and agility.

[0005] 虚拟化厂商如思杰、微软和VMware推行虚拟化产品已经多年了,但是它们却不常提供强有力的工具来管理它们的这些产品。 [0005] virtualization vendors such as Citrix, Microsoft and VMware virtualization products have been implemented for years, but they often do not provide powerful tools to manage their these products. 直到今天为止,这些厂商如VMware,还是将它们的主要注意力放在了开发核心产品上。 Until today, these vendors such as VMware, or have their main focus on the development of core products. 于是,出现许多第三方的公司专门开发功能丰富的管理工具来为那些大公司的产品提供增强。 Thus, there are many third-party company specializing in the development of feature-rich management tools to provide enhanced for those products of large companies. 这些工具都是在虚拟化厂商提供的基本工具基础上开发出来的,它们包括安全、监控、报告、备份和自动化工具等。 Developed on the basis of these tools are the basic tools in virtualization vendors, which include security, monitoring, reporting, and automated backup tools. 但是到目前为止,这些虚拟产品管理工具都是局限于某一种特定的接口,比如Virt-manager XII应用软件,还没有哪个开源项目为虚拟化环境开发出真正的跨虚拟机管理程序的管理工具,开发出真正的跨虚拟机管理程序的管理工具。 But so far, these virtual product management tools are limited to a particular kind of interface, such as Virt-manager XII application software, open source projects which have not yet virtualized environment to develop a truly cross-hypervisor management tools to develop a true cross-hypervisor management tools.

[0006] 综上所述,现有的虚拟资源的管理局限于某一特定的接口,不能对来处各种异构虚拟产品的虚拟资源进行集中全面的管理。 [0006] In summary, the existing management of virtual resources limited to a specific interface, virtual resources can not come at a variety of heterogeneous virtual product of a comprehensive centralized management.

发明内容 SUMMARY

[0007] 本发明的目的在于提供一种分布式异构虚拟资源集成管理方法,以解决现有技术中现有的虚拟资源的管理局限于某一特定的接口,不能对来处各种异构虚拟产品的虚拟资源进行集中全面的管理的技术问题。 [0007] The object of the present invention is to provide a heterogeneous distributed virtual resource integrated management method, to solve the conventional management of prior art virtual resource limited to a specific interface, you can not be at the various isomers of virtual resource virtualization product for technical questions focused on comprehensive management.

[0008] 本发明的目的是提供一种分布式异构虚拟资源集成管理系统,以解决现有技术中现有的虚拟资源的管理局限于某一特定的接口,不能对来处各种异构虚拟产品的虚拟资源进行集中全面的管理的技术问题。 [0008] The object of the present invention is to provide a distributed virtual resource integrated management of heterogeneous systems, the prior art to solve the conventional management virtual resource limited to a specific interface, can not be at various isomers virtual resource virtualization product for technical questions focused on comprehensive management.

[0009] -种分布式异构虚拟资源集成管理方法,包括: [0009] - kind of distributed heterogeneous virtual resources integrated management approach, including:

[0010] 在服务器端设置异构资源虚拟化引擎,在分布式物理节点上设置对应所述异构资源虚拟化引擎,包括异域异构计算、存储、网络服务器在内物理设备的所述分布式物理节点连接所述异构资源虚拟化引擎; [0010] provided on the server side of heterogeneous resources virtualization engine is provided corresponding to the heterogeneous resource virtualization engine on the distributed physical node, including exotic heterogeneous computing, storage, network servers, including the distributed physical device physical node is connected to the heterogeneous resource virtualization engine;

[0011] 设置异构虚拟资源接入API,所述异构资源虚拟化引擎和已通过虚拟化待接入云平台的异构虚拟化资源节点连接所述异构虚拟资源接入API ; [0011] provided heterogeneous virtual resource access API, the heterogeneous resource virtualization engine and heterogeneous nodes virtualized resources to be accessed by a virtual connection to the heterogeneous cloud platform virtual resource access the API;

[0012] 所述分布式物理节点通过所述异构资源虚拟化引擎、再通过异构虚拟资源接入API向云服务平台进行注册请求,所述异构虚拟化资源节点直接通过所述异构虚拟资源接入API向云服务平台进行注册请求; [0012] The node of the distributed physical resource virtualization engine isomerization, then the resource access by isomerization virtual registration request to the API cloud services platform, the isomerization virtualized resource node directly through the isomerization virtual resource access API to register a request to the cloud service platform;

[0013] 云服务平台完成注册,并保存注册信息; [0013] cloud services platform to complete the registration, and save the registration information;

[0014] 云服务平台接收到新云资源请求后,根据资源请求的要求选择对应的虚拟资源, 在所述虚拟资源群集中创建新的虚拟服务器,并部署相应的虚拟资源监控组件; [0014] Cloud services platform after receiving the new cloud resource request, select the corresponding virtual resource request resource request, the resource in the virtual cluster to create a new virtual server, and deploy the corresponding virtual resource monitoring component;

[0015] 云服务平台在接收到云服务应用资源负载调整请求后,依据资源请求要求,选择对应的虚拟资源,在已经分配的虚拟资群集中调整虚拟服务器配额; [0015] After receiving the cloud service platform to the cloud service application resource load adjustment request, according to the requirements of a resource request, select the corresponding virtual resource, virtual server centralized adjust quotas have been allocated virtual resource base;

[0016] 云服务平台在接收到云服务应用资源释放虚拟资源请求时,回收释放分配的虚拟资源。 [0016] Upon reception of cloud services platform to the cloud service application resource release request virtual resources, recycling release virtual resource allocation.

[0017] 较佳地,进一步包括: [0017] Preferably, further comprising:

[0018] S1 :向云服务平台输入节点; [0018] S1: an input node to a cloud service platform;

[0019] S2 :若所述节点为未经虚拟化的所述分布式物理节点,则将所述分布式物理节点接入异构资源虚拟化引擎;若所述节点为已经进行过虚拟化的异构虚拟化资源节点,则将所述异构虚拟化资源节点通过所述异构虚拟资源接入API接入所述云服务平台。 [0019] S2: If the node is not the distributed virtual physical node of the access node will be physically distributed heterogeneous resource virtualization engine; if the node is already subjected virtualization heterogeneous virtualization resource nodes, then the heterogeneous virtualization resource nodes access the cloud service platform for heterogeneous virtual resource access through the API.

[0020] 较佳地,本方法进一步包括: [0020] Preferably, the method further comprising:

[0021] 所述异构资源虚拟化引擎的客户端搜索本地节点配置信息,并汇报给所述异构资源虚拟化引擎的服务器端; [0021] The heterogeneous resource virtualized client side search engine configuration information of the local node, and report to the heterogeneous resource virtualization engine server-side;

[0022] 所述异构资源虚拟化引擎的所述服务器端根据分布式物理节点配置信息,提供相应的虚拟化产品选择方案; The server [0022] The heterogeneous resource virtualization engine in accordance with configuration information distributed physical node, virtualization products provide options;

[0023] 根据所述异构资源虚拟化引擎的服务器端返回的所述虚拟化产品选择方案,所述客户端指定虚拟化产品,并反馈给所述异构资源虚拟化引擎的所述服务器端; [0023] The isomerization of the resource to the server virtualization engine returns virtualization product options, the client specifies the virtual product, and fed back to the heterogeneous resource of the virtual server engine ;

[0024] 所述虚拟化引擎的所述服务器端根据所述客户端返回的所述虚拟化产品选择方案,提供相应的虚拟化产品安装包下载; The server [0024] The virtualization engine according to the client returns virtualization product options, provide virtualization products download the installation package;

[0025] 分布式物理节点处的管理员通过所述异构资源虚拟化引擎的所述客户端,进入虚拟化软件安装流程,并反馈安装信息给所述服务器端; The client [0025] administrator node distributed physical resource through the virtualization engine isomerization end, into the virtualization software installation process and install the feedback information to the server;

[0026] 所述异构资源虚拟化引擎的所述服务器端调用异构虚拟资源接入API,将虚拟机注册云服务平台,完成所述分布式物理节点的接入和注册工作。 [0026] the heterogeneous resource server virtualization engine of the API call to access heterogeneous virtual resource, the virtual machine registered cloud service platform, and to complete the registration access to the distributed physical node.

[0027] 较佳地,本发明还包括: [0027] Preferably, the present invention further comprises:

[0028] 在异构虚拟资源接入API设置多个异构产品接口,保存该些虚拟化产品对应的命令格式和接口格式; [0028] API is provided in a plurality of heterogeneous products heterogeneous virtual resource access interfaces, the plurality of storage virtualization products corresponding to the command format and interface format;

[0029] 当接收到下层的请求时,获得该下层对应的虚拟化产品信息、接口信息,并按照预先设定的规定将所述对应的命令解析成统一命令格式上传至上层; [0029] Upon receiving the request for the lower layer, obtain a virtual product information, interface information corresponding to the lower layer, and in accordance with a predetermined command corresponding to the parsed into uniform upload command format to the upper layer;

[0030] 当接收到上层的命令时,将其解析成该对应的虚拟化产品对应的命令格式下传至下层。 [0030] Upon receiving a command to the upper layer, the lower layer is transmitted to parse the command format of the corresponding virtual corresponding products.

[0031] 较佳地,本发明还包括: [0031] Preferably, the present invention further comprises:

[0032] 在接收到新的云资源请求后,依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在虚拟资源群集中创建新的虚拟服务器,并部署相应的虚拟资源监控组件、云服务或系统服务在内的组件。 [0032] After receiving the new cloud resource request, in accordance with the requirements of resource requests, choose the most suitable to meet the virtual resource application requirements, create new virtual servers in virtual resources in the cluster, and deploy the appropriate virtual resource monitoring component, cloud component or system service, including service.

[0033] 较佳地,本发明还包括: [0033] Preferably, the present invention further comprises:

[0034] 在接收到云服务应用资源负载调整请求后,依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在已经分配的虚拟资源群集中调整虚拟服务器配额; [0034] After receiving the application resource load adjustment request cloud services, according to the requirements of the resource request, select the most appropriate to meet the application requirements of virtual resources, focus adjustment virtual server resource group in a virtual quota has been allocated;

[0035] 在接收到云服务应用释放虚拟资源请求后,资源管理单元回收释放被分配的虚拟资源,修改资源状态为"available"。 [0035] After receiving the application and services cloud virtual resource releasing request, the resource managing unit releases the virtual recovery allocated resources, updating the resource status is "available".

[0036] -种分布式异构虚拟资源集成管理系统,还包括: [0036] - kind of distributed heterogeneous virtual resources integrated management system, further comprising:

[0037] 在服务器端设置所述异构资源虚拟化引擎,在分布式物理节点上设置对应所述异构资源虚拟化引擎,包括异域异构计算、存储、网络服务器在内物理设备的所述分布式物理节点连接所述异构资源虚拟化引擎; [0037] In the server end of the said heterogeneous resource virtualization engine is provided corresponding to the heterogeneous resource virtualization engine physical node in a distributed, heterogeneous computing including the exotic, storage, network servers, including physical device distributed physical node is connected to the heterogeneous resource virtualization engine;

[0038] 设置异构虚拟资源接入API,所述异构资源虚拟化引擎和已通过虚拟化待接入云平台的异构虚拟化资源节点连接所述异构虚拟资源接入API ; [0038] provided heterogeneous virtual resource access API, the heterogeneous resource virtualization engine and heterogeneous nodes virtualized resources to be accessed by a virtual connection to the heterogeneous cloud platform virtual resource access the API;

[0039] 所述分布式物理节点通过所述异构资源虚拟化引擎、再通过异构虚拟资源接入API向云服务平台进行请求,所述异构虚拟化资源节点直接通过所述异构虚拟资源接入API向云服务平台进行请求; [0039] The node of the distributed physical resource virtualization engine isomerization, then API request to cloud services platform virtual resource access by isomerization, the isomerization virtualized resources directly through the isomerization virtual node API resource access request to the cloud service platform;

[0040] 云服务平台:用于完成注册并保存注册信息、接收到新云资源请求后根据资源请求的要求选择对应的虚拟资源在所述虚拟资源群集中创建新的虚拟服务器并部署相应的虚拟资源监控组件、以及接收到云服务应用资源负载调整请求后依据资源请求要求选择对应的虚拟资源在已经分配的虚拟资群集中调整虚拟服务器配额。 [0040] Cloud service platform: after completion of a registration and store the registration information, resource request is received to select a new cloud resource request corresponding to the virtual resource request to create a new virtual centralized server and deploy the virtual resource group corresponding virtual resource monitoring component, as well as cloud service applications received after the resource load adjustment request based on the resource request asked to select the corresponding virtual resources on a virtual server to adjust quotas have been allocated virtual resource base.

[0041] 其中,所述云服务平台包括资源调度系统单元、资源管理单元、资源监控单元、资源评估单元、审计计费单元; [0041] wherein the cloud service platform unit comprises a resource scheduling system, the resource management unit, a resource monitoring unit, the resource evaluation unit audit accounting unit;

[0042] 其中,所述资源调度系统单元与所述资源管理单元连接,所述资源调度系统单元与所述资源监控单元连接,所述资源调度系统单元与所述资源评估单元连接,所述资源调度系统单元与所述审计计费单元连接。 [0042] wherein, the resource scheduling system resource management unit and the unit is connected, the resource scheduling system unit connected to the resource monitoring unit, the resource scheduling system unit connected to the evaluation unit resource, the resource scheduling system unit connected to said audit accounting unit.

[0043] 其中所述资源调度系统单元包括请求监听子单元、资源探测子单元、资源选择子单元、资源调度子单元;其中,所述请求监听子单元与所述资源调度子单元连接,所述资源调度子单元与所述资源选择子单元连接,所述资源调度子单元与所述资源探测子单元连接,所述资源选择子单元与所述资源探测子单元连接。 [0043] wherein the system resource scheduling request listening unit comprises a sub-unit, the detection sub-unit resource, the resource selection subunit, resource scheduling sub-unit; wherein the request listening unit connected to the sub-sub-unit resource scheduling, the resource scheduling resource sub-unit is connected to the selecting sub-unit, the sub-unit and the resource scheduling resource detecting subunit and a selecting sub-unit resource with the resource detecting sub-unit is connected.

[0044] 具体地说, [0044] More specifically,

[0045] 异构资源虚拟化引擎,用于使资源节点完成自助式虚拟机部署,根据资源节点相应情况为用户提供虚拟化产品选择策略,并通过自动定制模板、可视化的流程编辑器,集成软件开发套件以及方便用户操作的Web服务接口帮助用户完成设置和部署虚拟化,资源节点变为虚拟化资源节点; [0045] heterogeneous resource virtualization engine for the resources to complete the self-node virtual machine deployment, virtualization products provide users with selection policy based on the corresponding resource nodes, and by automatically customized templates, visual flow editor, integrated software development kits, and user-friendly operation of the Web service interface to help users complete the setup and deployment of virtualization, resource nodes into a virtual resource node;

[0046] 异构虚拟资源接入API (Application Programming Interface,应用程序编程接口),用于将虚拟化资源节点注册到分布式资源管理中心; [0046] heterogeneous virtual resource access API (Application Programming Interface, Application Programming Interface) for virtualized resource node is registered to the distributed resource management center;

[0047] 云服务平台,用于分配新的虚拟服务器,重新配置虚拟服务器和回收虚拟服务器。 [0047] cloud services platform for allocating new virtual server, virtual server and reconfigure the virtual recovery server. [0048] 所述异构虚拟资源接入API连接所述异构资源虚拟化引擎和所述云服务平台。 [0048] The isomerization connecting the virtual resource access API heterogeneous resource virtualization engine and the cloud service platform.

[0049] 所述云服务平台包括资源调度系统单元、资源管理单元、资源监控单元、资源评估单元、审计计费单元; [0049] The cloud service platform unit comprises a resource scheduling system, the resource management unit, a resource monitoring unit, the resource evaluation unit audit accounting unit;

[0050] 其中,所述资源调度系统单元与所述资源管理单元连接,所述资源调度系统单元与所述资源监控单元连接,所述资源调度系统单元与所述资源评估单元连接,所述资源调度系统单元与所述审计计费单元连接,所述资源管理单元与所述资源监控单元连接,所述资源管理单元与所述审计计费单元连接,所述资源监控单元与所述资源评估单元连接。 [0050] wherein, the resource scheduling system resource management unit and the unit is connected, the resource scheduling system unit connected to the resource monitoring unit, the resource scheduling system unit connected to the evaluation unit resource, the resource scheduling system unit connected to said audit accounting unit, the resource management unit and the resource monitoring unit is connected, the resource management unit connected to said audit accounting unit, the resource monitoring unit and the resource evaluation unit connection.

[0051] 所述资源管理单元,用于负责资源节点虚拟化流程管理、虚拟资源节点的注册、注销、备份、维护、统计分析、资源部署及资源回收工作。 [0051] The resource management unit, responsible for resource registration process node virtualization management, virtual resource node, log, backup, maintenance, statistical analysis, resource deployment and resource recycling.

[0052] 所述资源监控单元,用于对所有注册到系统的虚拟资源节点实施监控,并提供虚拟机状态获取接口,在资源出现异常时,反馈信息给所述资源调度系统单元,请求其重新为请求者分配资源,保证请求者对资源的可用性;在资源使用完后,反馈信息给所述资源管理单元,请求所述资源管理单元执行清理工作来对资源进行回收。 [0052] The resource monitoring unit for monitoring the implementation of all registered virtual resource node to the system, and provide an interface acquiring virtual machine state, when an abnormality occurs resources, feedback information to the resource scheduling system unit to request re allocated resource requester, the requester to ensure the availability of resources; resource after use the feedback information to the resource management unit, to request the resource management unit performs cleanup of resources to be recovered.

[0053] 所述资源评估单元,用于对系统管理的所有资源节点进行指标的评估,并生成评估报告,并将评估报告反馈给所述资源调度系统单元,以供所述资源调度系统单元执行调度时参考。 [0053] The resource evaluation unit for assessment index for all nodes in the system resource management, and generate evaluation reports, and reports back to the evaluation system unit resource scheduling, resource scheduling system for use by the execution unit when scheduling reference.

[0054] 所述审计计费单元,用于对用户使用的资源情况进行计费。 The [0054] audit accounting unit, configured to resources used by the user for charging.

[0055] 所述资源调度系统单元包括请求监听子单元、资源探测子单元、资源选择子单元、 资源调度子单元,其中所述请求监听子单元与所述资源调度子单元连接,所述资源调度子单元与所述资源选择子单元连接,所述资源调度子单元与所述资源探测子单元连接,所述资源选择子单元与所述资源探测子单元连接。 [0055] The resource scheduling system comprising a request listening unit subunit, the detection subunit resource, the resource selection subunit, resource scheduling sub-unit, wherein said request listening unit connected to the sub-sub-unit resource scheduling, the resource scheduling sub-unit connected to the selecting sub-unit resource, the resource with the resource scheduling sub-unit connected to the detection sub-unit, select the resource to the resource sub-unit connected to the detection sub-unit.

[0056] 所述请求监听子单元用于监听资源请求申请,将其解析后提交给所述资源调度子单元。 [0056] The sub-unit configured to monitor request listening application resource request, to submit it later to resolve the resource scheduling subunit.

[0057] 所述资源探测子单元用于按照用户需求查找资源,从资源注册信息和资源监控信息中获得所有符合条件的可用的资源列表。 The [0057] detection sub-unit resource for finding resources according to user needs, a list of all the resources available to meet the conditions of the registration information from the resource information and the resource monitoring.

[0058] 所述资源选择子单元用于从资源列表中根据资源调度策略选中最优资源,并将资源选择情况反馈给所述资源调度子单元。 [0058] The resource selector unit is configured to select sub-optimal resource according to the resource scheduling policy from the resource list and resource selection feedback to the resource scheduling subunit.

[0059] 所述资源调度子单元用于向其他子单元发送命令和接收反馈信息,并完成对资源的具体分配行为。 [0059] The resource scheduling sub-unit is configured to send commands to the other sub-unit and receiving feedback information, and perform specific acts allocation of resources.

[0060] 分布式异构虚拟资源集成管理系统管理的底层分为两大类的基础设施:第一类是未经虚拟化的分布式物理节点,包括异域异构的计算、存储、网络服务器等物理设备;第二类是已通过虚拟化产品进行过虚拟化的,待接入云平台的异构虚拟化资源节点。 [0060] the underlying heterogeneous distributed virtual resource management of the Integrated Management System is divided into two major categories of infrastructure: the first is the physical nodes distributed without virtualization, including exotic heterogeneous computing, storage, network servers, etc. physical devices; second category has been virtualized by the virtual product, heterogeneous cloud platform to be accessed virtual resource node. 对于第一类的基础设施,所述异构资源虚拟化引擎是一个自助式虚拟机部署管理解决方案,帮助所述分布式物理节点完成自助式虚拟机部署。 For the first type of infrastructure, the heterogeneous resource virtualization engine is a self-service virtual machine deployment management solutions to help complete the physical node distributed self-service virtual machine deployment. 系统根据节点实际情况为用户提供虚拟化产品选择策略,并通过可自动定制的模板、可视化的流程编辑器,集成SDK (软件开发套件)以及方便用户操作的Web服务接口帮助用户完成设置和部署虚拟化。 The system provides virtualization product selection policy for users based on the actual situation node, and by automatically customized templates, visual flow editor, integration SDK (Software Development Kit) and convenient Web service interface to help users user actions to complete the setup and deployment of virtual of. 异构资源虚拟化引擎可以支持包括微软、VMware、思杰及Sun等多家公司的虚拟化平台。 Heterogeneous virtualization engine can support resources including Microsoft, VMware, Citrix and Sun and other companies virtualization platform.

[0061] 为实现本发明目的,还相应地提供了一种分布式异构虚拟资源集成管理方法,步骤如下: [0061] To achieve the object of the present invention, there is accordingly provided a distributed heterogeneous integrated virtual resource management method, the following steps:

[0062] S1 :向所述云服务平台输入节点。 [0062] S1: cloud service platform to the input node.

[0063] S2 :若所述节点为未经虚拟化的所述分布式物理节点,则将所述分布式物理节点接入异构资源虚拟化引擎;若所述节点为已经进行过虚拟化的异构虚拟化资源节点,则将所述异构虚拟化资源节点通过所述异构虚拟资源接入API接入所述云服务平台。 [0063] S2: If the node is not the distributed virtual physical node of the access node will be physically distributed heterogeneous resource virtualization engine; if the node is already subjected virtualization heterogeneous virtualization resource nodes, then the heterogeneous virtualization resource nodes access the cloud service platform for heterogeneous virtual resource access through the API.

[0064] S3 :分布式物理节点上安装所述异构资源虚拟化引擎的客户端。 [0064] S3: The node physically mounted on the distributed heterogeneous resource virtualization client engine.

[0065] S4 :所述异构资源虚拟化引擎的客户端搜索本地节点配置信息,并汇报给所述异构资源虚拟化引擎的服务器端。 [0065] S4: the virtualization of heterogeneous resources of local search engine client node configuration information, and report to the heterogeneous resource virtualization server-side engine.

[0066] S5:所述异构资源虚拟化引擎的所述服务器端根据分布式物理节点配置信息,提供相应的虚拟化产品选择方案。 [0066] S5: The server side of the heterogeneous resource virtualization engine in accordance with configuration information distributed physical node, virtualization products provide options. 还有一种方式为:由管理员人工进行选择方案。 There is another way: manually select the program by the administrator. 每种虚拟化产品就是一款软件,安装这款软件要考虑自己的软硬件是否兼容或者合适,而且每款软件的价格也不一样,系统只能给出软件列表,并列出相应的安装条件,然后由管理员根据实际情况选择安装部署。 Each product is a virtualization software, install the software to consider their own hardware and software is compatible or appropriate, and the price of each software are not the same, the system can only give a list of software, and lists the corresponding installation conditions and then by the administrator according to the actual situation choose to install deployment. 虚拟化产品就是前面提到的现有市面上常用的虚拟化产品,包括vmware、hyperv、citrix等,也可能还有其他非主流的小品牌产品,我们的平台会尽量提供更更多选择。 Virtualization product available on the market is the common virtualization products previously mentioned, including vmware, hyperv, citrix, but also there may be other non-mainstream small brand products, our platform will try to provide more choices.

[0067] S6:所述分布式物理节点处管理员根据所述异构资源虚拟化引擎的服务器端返回的所述虚拟化产品选择方案,通过所述客户端指定虚拟化产品,并反馈给所述异构资源虚拟化引擎的所述服务器端。 [0067] S6: the distributed physical node according to the administrator of the server virtualization engine heterogeneous resource virtualization products returned options, by specifying the virtual product to the client, and feedback to the the server virtualization engine of said heterogeneous resources.

[0068] S7:所述虚拟化引擎的所述服务器端根据所述客户端返回的所述虚拟化产品选择方案,提供相应的虚拟化产品安装包下载。 [0068] S7: the virtualization engine according to the server returns to the client virtualization product options, provide virtualization product installation package download. 虚拟化引擎的所述服务器可以预先存储每一种虚拟化产品对应的安装包。 The server virtualization engine may be stored in advance corresponding to each of the virtualization products installation package. 虚拟化引擎所在的服务器也可以预先存储哪种硬件环境安装对应的虚拟化产品、对应的安装包。 Server virtualization engine resides virtualization products which correspond to the installation of the hardware environment can also be stored in advance, the corresponding installation package. 这样,从客户端获得对应的信息即可下载对应的虚拟化产品安装包。 Thus, the information obtained from the corresponding client can download the corresponding virtualization product installation package.

[0069] S8:分布式物理节点处的管理员通过所述异构资源虚拟化引擎的所述客户端,进入虚拟化软件安装流程,并反馈安装信息给所述服务器端。 [0069] S8: The administrator client node distributed physical resource through the virtualization engine isomerization, the process proceeds virtualization software installation process and install the feedback information to the server.

[0070] S9:所述异构资源虚拟化引擎的所述服务器端调用异构虚拟资源接入API (Application Programming Interface,应用程序编程接口),将虚拟机注册云服务平台,完成所述分布式物理节点的接入和注册工作。 [0070] S9: the server side of the heterogeneous resource virtualization engine calls heterogeneous virtual resource access API (Application Programming Interface, Application Programming Interface), the virtual machine registered cloud services platform to complete the distributed physical access and registration node. 云服务平台的核心业务有以下三类: The core business cloud services platform has the following three categories:

[0071] 第一类为分配新的虚拟服务器:在接收到新的云资源请求后,资源调度系统依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在虚拟资源群集中创建新的虚拟服务器,并部署相应的虚拟资源监控组件、云服务或系统服务等组件,这都是一个完整部署过程的组成部分,由软件自动完成,部署完这些组件后才算分配好了虚拟服务器。 [0071] The first category is allocated a new virtual server: after receiving the new cloud resource request, resource request based resource scheduling system requirements, selecting the most appropriate virtual resource application needs, concentrated create new virtual resource group virtual servers, and deploy the appropriate virtual resource monitoring component, a cloud service or system services components, which are part of a complete deployment process is done automatically by the software, after you deploy these components are considered a good distribution of the virtual server. 资源调度系统接到资源请求(比如需要多少虚拟存储空间,需要多少CPU计算等)后,遵循资源分配策略算法(比如:资源集中分配策略,负载均衡分配策略,最大优先分配策略,最小优先分配策略,随机分配策略,指定分配策略和第三方分配策略等)在资源列表中选择最优资源。 After receiving the resource scheduling system resource requests (such as how many virtual storage space needed, how much CPU computing needs), follow the resource allocation strategy algorithm (such as: concentration of resources allocation policy, load balancing allocation policy, the maximum priority allocation policy, the minimum allocation policy priority , random allocation strategy, designated third-party allocation strategy and distribution strategy) to select the optimal resource in the resource list.

[0072] 第二类为重新配置虚拟服务器:在接收到云服务应用资源负载调整请求后,资源调度系统依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在已经分配的虚拟资源群集中调整虚拟服务器配额;第三类为回收虚拟服务器:在接收到云服务应用释放虚拟资源请求后,资源管理单元回收释放被分配的虚拟资源,修改资源状态为"available"。 [0072] The second category to reconfigure the virtual server: After receiving the application resource load adjustment request cloud services, resource scheduling system based on the requirements of the resource request, to select the most suited to meet the application requirements of virtual resources, virtual resources already allocated in the cluster adjust the virtual server quota; third category is recovered virtual server: after receiving the application and services cloud virtual resource releasing request, the resource managing unit releases the virtual recovery allocated resources, updating the resource status is "available".

[0073] 本发明实现了分布式异构虚拟资源的集成管理,以支持对跨域跨虚拟化产品的虚拟资源的无缝集成和统一调度,与现有相关技术相比,本发明既可以实现分布在异地远程的物理资源的自助式虚拟化,并对虚拟化后的资源实施统一管理,也可对已经通过任何市场上常用的虚拟化产品或技术虚拟化后的资源实施统一管理,为虚拟化应用环境提供了一个真正的跨虚拟机管理程序的集成管理工具。 [0073] The present invention achieves integrated management of distributed heterogeneous virtual resources to support seamless integration and unified virtual resources across domains across virtualization products, compared with existing technologies, the present invention may be realized located in remote places of the physical resources of self-service virtualization, and unified management of resources after virtualization, unified management can also be implemented after the resource has been used by any virtualization products on the market or virtualization technology, virtual application environment provides integrated management tools across a true virtual machine management program.

附图说明 BRIEF DESCRIPTION

[0074] 图1为本发明的一实施列的结构示意图; [0074] Fig 1 a schematic view of a configuration of the embodiment of the present invention, the column;

[0075] 图2为图1的工作流程图; [0075] FIG. 2 is a workflow diagram of Figure 1;

[0076] 图3为图1的云服务平台的结构示意图; [0076] FIG. 3 is a schematic view of a cloud service platform of Figure 1;

[0077] 图4为图1的资源调度系统单元的结构示意图。 [0077] FIG. 4 is a schematic diagram of the structure of resource scheduling system unit 1 of FIG.

具体实施方式 Detailed ways

[0078] 下面结合附图和具体实施例对本发明作出详细的说明,但下述实施列并非用于限定本发明。 [0078] DETAILED DRAWINGS made to the embodiments and the detailed description of the present invention, but the following embodiments are not intended to limit the present invention column.

[0079] 图1为本发明的一实施列的结构示意图,图3为图1的云服务平台的结构示意图, 图4为图1的资源调度系统单元的结构示意图。 A structural diagram of embodiment of column [0079] of the present invention. FIG. 1, FIG. 3 is a schematic view of a cloud service platform of FIG 1, FIG 4 is a schematic structural diagram of the system resource scheduling unit of FIG. 1.

[0080] 请参见图1,图3和图4, 一种分布式异构虚拟资源集成管理系统100,包括: [0080] Referring to FIG. 1, FIG. 3 and FIG. 4, a distributed heterogeneous virtual resource 100 integrated management system, comprising:

[0081] 异构资源虚拟化引擎1,用于使资源节点完成自助式虚拟机部署,根据资源节点相应情况为用户提供虚拟化产品选择策略,并通过自动定制模板、可视化的流程编辑器,集成软件开发套件以及方便用户操作的Web服务接口帮助用户完成设置和部署虚拟化,资源节点变为虚拟化资源节点。 [0081] heterogeneous resource virtualization engine 1, for the resources to complete the self-node virtual machine deployment, virtualization products provide users with selection policy based on the corresponding resource nodes, and by automatically customized templates, visual flow editor, integrated software development kit and user-friendly operation of the Web service interface to help users complete the setup and deployment of virtualization, virtualization resources into a resource node node. 异构资源虚拟化引擎1内保存有不同计算机环境对应可以安装的虚拟化产品,即,针对不同的硬件或软件环境对应可安装虚拟化产品的安装程序进行保存。 Heterogeneous virtualization engine to save resources within 1 virtual computer environment corresponding to the different products that can be installed, that is, for different hardware or software environment can install the corresponding virtualization product installation program to be saved.

[0082] 异构虚拟资源接入API (Application Programming Interface,应用程序编程接口)2,用于将虚拟化资源节点注册到分布式资源管理中心。 [0082] heterogeneous virtual resource access API (Application Programming Interface, Application Programming Interface) 2, virtualized resources for distributed resource node is registered to the management center. 在异构虚拟资源接入API设置多个异构产品接口,保存该些虚拟化产品对应的命令格式和接口格式;当接收到下层的请求时,获得该下层对应的虚拟化产品信息、接口信息,并按照预先设定的规定将所述对应的命令解析成统一命令格式上传至上层;当接收到上层的命令时,将其解析成该对应的虚拟化产品对应的命令格式下传至下层。 API interfaces in a plurality of heterogeneous products heterogeneous virtual resource access, the plurality of storage virtualization products and corresponding interface format command format; and when receiving a request of a lower layer to obtain the lower layer information of the virtual item corresponding interface information , and in accordance with a predetermined command corresponding to the command parse uploaded into a uniform format to the upper layer; when the received command to the upper layer, the lower layer is transmitted to parse it into a command format corresponding to the corresponding virtual product. 不同虚拟化产品的命令如何解析成标准与上层接口的命令,预先进行解析程序的设置并保存。 How different virtualization products command parsing into a standard interface and command top, set in advance and stored resolvers.

[0083] 这个引擎可以协助用户通过自己选择的虚拟化产品(根据本节点软硬件实际情况)将自己的物理节点部署成一个虚拟资源节点,然后全部的虚拟资源节点都可以通过API 被注册和管理,这是因为API是一个通用接口(可以看成是很多异构产品接口的集成),起到一个翻译和转接的作用,可以向上层模块屏蔽掉下层的异构接口(每种虚拟化产品都有自己使用的命令格式和接口格式),为上层提供统一的注册和管理接口。 [0083] This engine can help users (according to the actual situation of node hardware and software) will deploy its own physical nodes into a virtual resource node, and then all virtual resources through management API node can be registered and by their choice of virtualization products this is because the API is a universal interface (can be seen as a lot of heterogeneous integrated product interface), acts as a translator and adapter, you can fall shielding layer heterogeneous interfaces to the upper module (each virtualization products use the command has its own format and interface format) for the upper layer to provide a unified registration and management interface.

[0084] 云服务平台3,用于分配新的虚拟服务器,重新配置虚拟服务器和回收虚拟服务器。 [0084] 3 cloud services platform for allocating new virtual server, virtual server and reconfigure the virtual recovery server.

[0085] 所述异构虚拟资源接入API2连接所述异构资源虚拟化引擎1和所述云服务平台3。 The [0085] heterogeneous virtual resource access API2 connecting the heterogeneous resource virtualization engine 1 and the cloud service platform 3.

[0086] 所述云服务平台3包括资源调度系统单元31、资源管理单元32、资源监控单元33、 资源评估单元34、审计计费单元35, The [0086] Cloud services platform 3 comprises a resource scheduling system unit 31, the resource management unit 32, the resource monitoring unit 33, the evaluation unit resources 34, 35 audit accounting unit,

[0087] 其中,所述资源调度系统单元31与所述资源管理单元32连接,所述资源调度系统单元31与所述资源监控单元33连接,所述资源调度系统单元31与所述资源评估单元34 连接,所述资源调度系统单元31与所述审计计费单元35连接,所述资源管理单元32与所述资源监控单元33连接,所述资源管理单元32与所述审计计费单元35连接,所述资源监控单元33与所述资源评估单元34连接。 [0087] wherein the system resource scheduling unit 3132 is connected to the resource management unit, the resource scheduling system unit 31 is connected with the resource monitoring unit 33, the resource scheduling system unit 31 and the resource evaluation unit 34 connected to a system resource scheduling unit 3135 is connected to the audit accounting unit, the resource management unit 32 is connected with the resource monitoring unit 33, the resource management unit 35 is connected to 32 said audit accounting unit the resource monitoring unit 33 and evaluation unit 34 is connected to the resource.

[0088] 所述资源管理单元32,用于负责资源节点虚拟化流程管理、虚拟资源节点的注册、 注销、备份、维护、统计分析、资源部署及资源回收工作。 [0088] The resource management unit 32, is responsible for resource registration process node virtualization management, virtual resource node, log, backup, maintenance, statistical analysis, resource deployment and resource recycling.

[0089] 所述资源监控单元33,用于对所有注册到系统的虚拟资源节点实施监控,并提供虚拟机状态获取接口,在资源出现异常时,反馈信息给所述资源调度系统单元31,请求其重新为请求者分配资源,保证请求者对资源的可用性;在资源使用完后,反馈信息给资源管理单元32,请求所述资源管理单元32执行清理工作来对资源进行回收。 [0089] The resource monitoring unit 33 for the implementation of all registered virtual resource node monitoring system, and to provide an interface acquiring virtual machine state, when an abnormality occurs resources, feedback information to the resource scheduling system unit 31, the request re-allocating resources to the requestor, to ensure the availability of resources to the requestor; after use resources, feedback information to the resource management unit 32 requests the resource management unit 32 performs cleanup of resources to be recovered.

[0090] 所述资源评估单元34,用于对系统管理的所有资源节点进行指标的评估,并生成评估报告,并将评估报告反馈给所述资源调度系统单元31,以供所述资源调度系统单元31 执行调度时参考。 [0090] The resource evaluation unit 34, for all nodes of the system resource management to assess the indicators and generate evaluation reports, and evaluation reports to the feedback resource scheduling system unit 31, for use by the resource scheduling system when the reference unit 31 performs scheduling.

[0091] 所述审计计费单元35,用于对用户使用的资源情况进行计费。 The [0091] audit accounting unit 35 for the user of resources used for billing.

[0092] 所述资源调度系统单元31包括请求监听子单元311、资源探测子单元312、资源选择子单元313、资源调度子单元314,其中所述请求监听子单元311与所述资源调度子单元314连接,所述资源调度子单元314与所述资源选择子单元313连接,所述资源调度子单元314与所述资源探测子单元312连接,所述资源选择子单元313与所述资源探测子单元312 连接。 [0092] The system unit 31 includes a resource scheduling request listening sub-unit 311, the resource detection subunit 312, a resource selection sub-unit 313, resource scheduling sub-unit 314, wherein the request listening unit 311 of the sub-sub-unit resource scheduling 314 is connected, the resource scheduling sub-unit 314 and the resource selecting sub-unit 313 is connected, the resource scheduling sub-unit 314 and the sub-detection unit 312 connected to the resource, the resource selection unit 313 and the sub-sub-resource exploration unit 312 is connected.

[0093] 所述请求监听子单元311用于监听资源请求申请,将其解析后提交给所述资源调度子单元314。 [0093] The request listening unit 311 for listening sub-application resource request, which will be submitted to the parsed resource scheduling sub-unit 314.

[0094] 所述资源探测子单元312用于按照用户需求查找资源,从资源注册信息和资源监控信息中获得所有符合条件的可用的资源列表。 [0094] The sub-detection unit 312 for resource lookup resources according to user needs, a list of all the resources available to meet the conditions of the registration information from the resource information and the resource monitoring.

[0095] 所述资源选择子单元313用于从资源列表中根据资源调度策略选中最优资源,并将资源选择情况反馈给所述资源调度子单元314。 The [0095] Resource selection sub-unit 313 for scheduling sub-unit from the list of resources according to the resource scheduling policy selected optimal resource and feedback resource selector 314 to the resource.

[0096] 所述资源调度子单元314用于向其他单元发送命令和接收反馈信息,并完成对资源的具体分配行为。 [0096] The resource scheduling sub-unit 314 is configured to send commands to other units and receive feedback information, and perform specific acts allocation of resources.

[0097] 分布式异构虚拟资源集成管理系统管理的底层分为两大类的基础设施4 :第一类是未经虚拟化的分布式物理节点41,包括异域异构的计算、存储、网络服务器等物理设备; 第二类是已通过虚拟化产品进行过虚拟化的,待接入云平台的异构虚拟化资源节点42。 [0097] Heterogeneous distributed virtual resource underlying integrated management system for managing the infrastructure into two categories 4: The first node 41 is physically distributed without virtualization, including exotic heterogeneous computing, storage, network servers and other physical devices; second category has been virtualization products virtualization, heterogeneous virtualization resource node 42 to be accessed cloud platform. 对于第一类的基础设施4,所述异构资源虚拟化引擎1是一个自助式虚拟机部署管理解决方案,帮助所述分布式物理节点41完成自助式虚拟机部署。 For the first type of infrastructure 4, the heterogeneous resource virtualization engine 1 is a self-deploying virtual machine management solutions to help the physical node 41 to complete the distributed virtual machine self-deployment. 系统根据节点实际情况为用户提供虚拟化产品选择策略,并通过可自动定制的模板、可视化的流程编辑器,集成SDK(软件开发套件)以及方便用户操作的Web服务接口帮助用户完成设置和部署虚拟化。 The system provides virtualization product selection policy for users based on the actual situation node, and by automatically customized templates, visual flow editor, integration SDK (Software Development Kit) and convenient Web service interface to help users user actions to complete the setup and deployment of virtual of. 异构资源虚拟化引擎1可以支持包括微软、VMware、思杰及Sun等多家公司的虚拟化平台。 Heterogeneous resource virtualization engine 1 can support, including Microsoft, VMware, Citrix and Sun and other companies virtualization platform.

[0098] 图2为图1的工作流程图。 [0098] FIG. 2 is a flow chart of FIG. 一种分布式异构虚拟资源集成管理方法,包括: A distributed heterogeneous virtual resources integrated management approach, including:

[0099] 在服务器端设置异构资源虚拟化引擎,在分布式物理节点上设置对应所述异构资源虚拟化引擎,包括异域异构计算、存储、网络服务器在内物理设备的所述分布式物理节点连接所述异构资源虚拟化引擎; [0099] provided on the server side of heterogeneous resources virtualization engine is provided corresponding to the heterogeneous resource virtualization engine on the distributed physical node, including exotic heterogeneous computing, storage, network servers, including the distributed physical device physical node is connected to the heterogeneous resource virtualization engine;

[0100] 设置异构虚拟资源接入API,所述异构资源虚拟化引擎和已通过虚拟化待接入云平台的异构虚拟化资源节点连接所述异构虚拟资源接入API ; [0100] provided heterogeneous virtual resource access API, the heterogeneous resource virtualization engine and heterogeneous nodes virtualized resources to be accessed by a virtual connection to the heterogeneous cloud platform virtual resource access the API;

[0101] 所述分布式物理节点通过所述异构资源虚拟化引擎、再通过异构虚拟资源接入API向云服务平台进行注册请求,所述异构虚拟化资源节点直接通过所述异构虚拟资源接入API向云服务平台进行注册请求; [0101] The node of the distributed physical resource virtualization engine isomerization, then the resource access by isomerization virtual registration request to the API cloud services platform, the isomerization virtualized resource node directly through the isomerization virtual resource access API to register a request to the cloud service platform;

[0102] 云服务平台完成注册,并保存注册信息; [0102] cloud services platform to complete the registration, and save the registration information;

[0103] 云服务平台接收到新云资源请求后,根据资源请求的要求选择对应的虚拟资源, 在所述虚拟资源群集中创建新的虚拟服务器,并部署相应的虚拟资源监控组件; [0103] Cloud services platform after receiving the new cloud resource request, select the corresponding virtual resource request resource request, the resource in the virtual cluster to create a new virtual server, and deploy the corresponding virtual resource monitoring component;

[0104] 云服务平台在接收到云服务应用资源负载调整请求后,依据资源请求要求,选择对应的虚拟资源,在已经分配的虚拟资群集中调整虚拟服务器配额; [0104] After receiving the cloud service platform to the cloud service application resource load adjustment request, according to the requirements of a resource request, select the corresponding virtual resource, virtual server centralized adjust quotas have been allocated virtual resource base;

[0105] 云服务平台在接收到云服务应用资源释放虚拟资源请求时,回收释放分配的虚拟资源 [0105] Upon reception of cloud services platform to the cloud service application resource release request virtual resource, virtual resource recovery release distribution

[0106] 请参见图1和图2,未经虚拟化的所述分布式物理节点如何进行注册等操作步骤如下: [0106] Referring to Figures 1 and 2, and how the distributed physical node without virtual registration procedure is performed as follows:

[0107] S1 :向所述云服务平台3输入节点。 [0107] S1: an input node to the cloud service platform 3.

[0108] S2 :若所述节点为未经虚拟化的所述分布式物理节点41,则将所述分布式物理节点41接入异构资源虚拟化引擎1 ;若所述节点为已经进行过虚拟化的异构虚拟化资源节点42,则将所述异构虚拟化资源节点42通过所述异构虚拟资源接入API2接入所述云服务平台3。 [0108] S2: If the node is a non-virtualized distributed physical node 41, node 41 will be distributed physical access to the heterogeneous resource virtualization engine 1; if the node is already carried out virtualization heterogeneous virtualization resource node 42, node 42 virtualized resources isomerization API2 access the access resource by the isomerization of the virtual platform 3 then the cloud service.

[0109] S3 :分布式物理节点41上安装所述异构资源虚拟化引擎1的客户端。 [0109] S3: 41 mounted on the heterogeneous resources distributed physical node virtualization client engine 1.

[0110] S4 :所述异构资源虚拟化引擎1的客户端搜索本地节点配置信息,并汇报给所述异构资源虚拟化引擎1的服务器端。 [0110] S4: the heterogeneous resource virtualization client engine 1 searches the local node configuration information, and report to the heterogeneous resource virtualization server side of the engine 1.

[0111] S5 :所述异构资源虚拟化引擎1的所述服务器端根据分布式物理节点41配置信息,提供相应的虚拟化产品选择方案。 [0111] S5: the isomerization of the server resource virtualization engine 1 41 distributed physical node configuration information, provide virtualization product options.

[0112] S6 :所述分布式物理节点41处管理员根据所述异构资源虚拟化引擎1的服务器端返回的所述虚拟化产品选择方案,通过所述客户端指定虚拟化产品,并反馈给所述异构资源虚拟化引擎1的所述服务器端。 [0112] S6: The node 41 according to the administrator physically distributed heterogeneous resource of the virtual server engine 1 returns virtualization product options, by specifying the virtual product to the client, and feedback the heterogeneous resource to the virtual server 1 of the engine.

[0113] S7:所述虚拟化引擎的所述服务器端根据所述客户端返回的所述虚拟化产品选择方案,提供相应的虚拟化产品安装包下载。 [0113] S7: the virtualization engine according to the server returns to the client virtualization product options, provide virtualization product installation package download.

[0114] S8 :分布式物理节点处41的管理员通过所述异构资源虚拟化引擎1的所述客户端,进入虚拟化软件安装流程,并反馈安装信息给所述服务器端。 [0114] S8: distributed physical node 41 by the administrator of the isomerization of the client resource virtualization engine 1, the flow proceeds virtualization software installation process and install the feedback information to the server.

[0115] S9:所述异构资源虚拟化引擎1的所述服务器端调用异构虚拟资源接入API2 (Application Programming Interface,应用程序编程接口),将虚拟机注册云服务平台3, 完成所述分布式物理节点41的接入和注册工作。 [0115] S9: the isomerization of the server resource virtualization engine 1 is called heterogeneous virtual resource access API2 (Application Programming Interface, Application Programming Interface), the virtual machine registered cloud services platform 3, completing the distributed access and registration of physical nodes 41.

[0116] 云服务平台3的核心业务有以下三类: [0116] 3 cloud services platform core business of the following three categories:

[0117] 第一类为分配新的虚拟服务器:在接收到新的云资源请求后,资源调度系统依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在虚拟资源群集中创建新的虚拟服务器,并部署相应的虚拟资源监控组件、云服务或系统服务等组件; [0117] The first category is assigned a new virtual server: After receiving a new cloud resource request, resource scheduling system based on the requirements of a resource request, select the virtual resources best suited to meet the application requirements, create a centralized virtual resources in the new group virtual servers, and deploy the appropriate virtual resource monitoring component, a cloud service or system services components;

[0118] 第二类为重新配置虚拟服务器:在接收到云服务应用资源负载调整请求后,资源调度系统依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在已经分配的虚拟资源群集中调整虚拟服务器配额; [0118] The second category to reconfigure the virtual server: After receiving the application resource load adjustment request cloud services, resource scheduling system based on the requirements of the resource request, to select the most suited to meet the application requirements of virtual resources, virtual resources already allocated in the cluster adjust the virtual server quotas;

[0119] 第三类为回收虚拟服务器:在接收到云服务应用释放虚拟资源请求后,资源管理单元32回收释放被分配的虚拟资源,修改资源状态为"available"。 [0119] The third category is recovered virtual server: After receiving the application and services cloud virtual resource releasing request, the resource management unit 32 releases the virtual recovery allocated resources, updating the resource status is "available".

[0120] 综上所述,如何使虚拟资源管理系统可以集中全面地管理分布广泛的,来自各种异构虚拟产品的虚拟资源,是本发明所要解决的技术问题,为此,本发明的目的是提供一种云计算环境下,可以支持分布式异构虚拟资源集中管理的方法及系统,既可以实现分布在异地远程的物理资源的自助式虚拟化,并对虚拟化后的资源实施统一管理,也可对已经通过任何市场上常用的虚拟化产品或技术虚拟化后的资源实施统一管理,为虚拟化应用环境提供了一个真正的跨虚拟机管理程序的集成管理工具。 [0120] In summary, how to make centralized virtual resource management system can manage a wide range of fully distributed, heterogeneous virtual virtual resources from a variety of products, the present invention is to solve the technical problems, an object of the present invention to provide a cloud computing environment that can support a method and system for centralized management of distributed heterogeneous virtual resources, either to achieve self-virtualizing physical resources are distributed in remote places, and after the implementation of the unified management of virtualized resources can also be implemented after the unified management of resources has been virtualized through any of the usual virtualization products on the market or technology, it offers a truly integrated management tools across hypervisor for virtualized application environments.

[0121] 对本领域内的技术人员来说,在不脱离本发明的实质范围内,对上述实施例进行适当的替换或修改都将落在本发明权利要求的范围内。 [0121] to those skilled in the art, in a range not departing from the essence of the present invention, the above-described embodiment, the appropriate substitutions or modifications fall within the scope of the invention as claimed. 示例性的实施仅仅是例证性的,而不是对本发明的限定,本发明的范围由所附的权利要求所定义。 Exemplary embodiments are merely illustrative, and not limiting of the present invention, the scope of the invention as defined by the appended claims.

Claims (8)

  1. 1. 一种分布式异构虚拟资源集成管理方法,其特征在于,包括: 在服务器端设置异构资源虚拟化引擎,将分布式物理节点连接到对应的所述异构资源虚拟化引擎,所述分布式物理节点分布于包括异域异构计算、存储、网络服务器在内的物理设备上; 设置异构虚拟资源接入API,所述异构资源虚拟化引擎和已通过虚拟化待接入云平台的异构虚拟化资源节点连接所述异构虚拟资源接入API ; 所述分布式物理节点通过所述异构资源虚拟化引擎、再通过异构虚拟资源接入API向云服务平台进行注册请求,所述异构虚拟化资源节点直接通过所述异构虚拟资源接入API 向云服务平台进行注册请求; 云服务平台完成注册,并保存注册信息; 云服务平台接收到新云资源请求后,根据资源请求的要求选择对应的虚拟资源,在所述虚拟资源群集中创建新的虚拟服务器,并部 An integration of distributed heterogeneous virtual resource management method, characterized by comprising: a heterogeneous resources provided in the server virtualization engine, the physical node is connected to the distributed heterogeneous resources corresponding virtualization engine, the physical device located in said distributed nodes include exotic physically heterogeneous computing, storage, including a network server; heterogeneous virtual resources access to the API provided, the virtualization engine heterogeneous resource and have to be accessed through the virtual cloud heterogeneous virtualization platform resource node is connected to the heterogeneous virtual resource access API; the distributed physical resource node by the isomerization virtualization engine, then the virtual resource access API to register by isomerization cloud services platform after the cloud service platform receives a new cloud resource request; request, the isomerization virtualized resource node directly via the API to access resource heterogeneous virtual registration request to the cloud service platform; cloud services platform to complete the registration, the registration information and stored selecting virtual resource corresponding to the request resource request, create a new virtual focus in the virtual server resource group, and unit 相应的虚拟资源监控组件; 云服务平台在接收到云服务应用资源负载调整请求后,依据资源请求要求,选择对应的虚拟资源,在已经分配的虚拟资源群集中调整虚拟服务器配额; 云服务平台在接收到云服务应用资源释放虚拟资源请求时,回收释放分配的虚拟资源; 所述异构资源虚拟化引擎的客户端搜索本地节点配置信息,并汇报给所述异构资源虚拟化引擎的服务器端; 所述异构资源虚拟化引擎的所述服务器端根据分布式物理节点配置信息,提供相应的虚拟化产品选择方案; 根据所述异构资源虚拟化引擎的服务器端返回的所述虚拟化产品选择方案,所述客户端指定虚拟化产品,并反馈给所述异构资源虚拟化引擎的所述服务器端; 所述虚拟化引擎的所述服务器端根据所述客户端返回的所述虚拟化产品选择方案,提供相应的虚拟化产品安装包下载; The corresponding virtual resource monitoring component; cloud services platform after receiving the cloud service application resource load adjustment request, based on the resource request requirements, select the corresponding virtual resource focus adjustment virtual server quota virtual resource group has been allocated; cloud service platform upon receiving the resource release a cloud service application virtual resource request, to release the allocated virtual resource recovery; the heterogeneous resource virtualization engine searches the local client node configuration information, and report to the heterogeneous resource virtualization engine server-side ; the isomerization of the server resource virtualization engine in accordance with configuration information distributed physical node, virtualization products provide options; the return according to the heterogeneous resource server virtualization engine virtualization products option, the client specifies the virtual product, and fed back to the heterogeneous resource virtualization engine of the server; the engine of the virtual server based on the client returns virtualization product options, provide virtualization product installation package download; 分布式物理节点处的管理员通过所述异构资源虚拟化引擎的所述客户端,进入虚拟化软件安装流程,并反馈安装信息给所述服务器端; 所述异构资源虚拟化引擎的所述服务器端调用异构虚拟资源接入API,将虚拟机注册云服务平台,完成所述分布式物理节点的接入和注册工作。 Administrator node distributed physical resource virtualized by the isomerization of the client engine into virtualization software installation process and install the feedback information to the server; the heterogeneous resource virtualization engine being said heterogeneous virtual server resource access the API call, the virtual machine registered cloud service platform, and to complete the registration access to the distributed physical node.
  2. 2. 如权利要求1所述的方法,其特征在于:进一步包括: 51 :向云服务平台输入节点; 52 :若所述节点为未经虚拟化的所述分布式物理节点,则将所述分布式物理节点接入异构资源虚拟化引擎;若所述节点为已经进行过虚拟化的异构虚拟化资源节点,则将所述异构虚拟化资源节点通过所述异构虚拟资源接入API接入所述云服务平台。 2. The method according to claim 1, characterized in that: further comprising: 51: an input node to the cloud service platform; 52: the distributed physical node if the node is a non-virtualized, then the physical access node distributed heterogeneous resource virtualization engine; if the node is already subjected to the isomerization virtualization virtual resource node, then the heterogeneous virtualization by resource node access the heterogeneous virtual resource accessing the cloud service platform API.
  3. 3. 如权利要求1所述的方法,其特征在于,还包括: 在异构虚拟资源接入API设置多个异构产品接口,保存该些虚拟化产品对应的命令格式和接口格式; 当接收到下层的请求时,获得该下层对应的虚拟化产品信息、接口信息,并按照预先设定的规定将所述对应的命令解析成统一命令格式上传至上层; 当接收到上层的命令时,将其解析成该对应的虚拟化产品对应的命令格式下传至下层。 3. The method according to claim 1, characterized in that, further comprising: API interfaces in a plurality of heterogeneous products heterogeneous virtual resource access, the plurality of storage virtualization products corresponding to the command format and interface format; when receiving when the request is lower, obtain a virtual product information, interface information corresponding to the lower layer, and in accordance with a predetermined command corresponding to the parsed into a unified command format uploaded to the upper layer; when the upper layer is received command, resolves it to the format of the command is transmitted to the lower layer corresponding to the corresponding virtualization products.
  4. 4. 如权利要求1所述的方法,其特征在于,还包括: 在接收到新的云资源请求后,依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在虚拟资源群集中创建新的虚拟服务器,并部署相应的虚拟资源监控组件、云服务或系统服务在内的组件。 4. The method according to claim 1, characterized in that, further comprising: after receiving the new cloud resource request, the resource request according to the requirements and choose the most suitable virtual resources to meet application requirements, create a virtual centralized resource group a new virtual server, and deploy the appropriate virtual resource monitoring components, services including cloud services component or system.
  5. 5. 如权利要求1所述的方法,其特征在于,还包括: 在接收到云服务应用资源负载调整请求后,依据资源请求的要求,选择最适合满足应用需求的虚拟资源,在已经分配的虚拟资源群集中调整虚拟服务器配额; 在接收到云服务应用释放虚拟资源请求后,资源管理单元回收释放被分配的虚拟资源,修改资源状态为"available"。 5. The method according to claim 1, characterized in that, further comprising: after receiving the cloud service application resource load adjustment request, resource request according to the requirements and choose the most appropriate virtual resource application needs, has been assigned cluster virtual resource quotas to adjust the virtual server; after receiving the application service cloud virtual resource releasing request, the resource managing unit releases the virtual recovery allocated resources, updating the resource status is "available".
  6. 6. -种分布式异构虚拟资源集成管理系统,其特征在于,包括: 异构资源虚拟化引擎:设置在服务器端,用于使资源节点完成自助式虚拟机部署,根据资源节点相应情况为用户提供虚拟化产品选择策略,并通过自动定制模板、可视化的流程编辑器,集成软件开发套件以及方便用户操作的Web服务接口帮助用户完成设置和部署虚拟化,资源节点变为虚拟化资源节点; API :异构虚拟资源接入端,所述异构资源虚拟化引擎和已通过虚拟化待接入云平台的异构虚拟化资源节点连接所述异构虚拟资源接入API,向云服务平台进行请求; 云服务平台:用于完成注册并保存注册信息,接收到新云资源请求后根据资源请求的要求选择对应的虚拟资源在所述虚拟资源群集中创建新的虚拟服务器并部署相应的虚拟资源监控组件、以及接收到云服务应用资源负载调整请求后依 6. - A distributed virtual resource Heterogeneous integrated management system, characterized by comprising: a heterogeneous resource virtualization engine: the server is provided, the resource node for the virtual machine to complete the self-deployment of resources according to the respective node to provide users with virtualization product selection strategy, and by automatically customized templates, visual flow editor, integrated software development kit and user-friendly operation of the Web service interface to help users complete the setup and deployment of virtualization, resource nodes into a virtual resource node; API: heterogeneous virtual resource access terminal, the heterogeneous resource virtualization engine and the isomers are connected by virtual resource access API heterogeneous virtualization virtual resource node to be accessed cloud platforms, the cloud service platform request; cloud services platform: after completion of a registration and store the registration information, resource request is received to select a new cloud virtual resource corresponding to the request resource request to create a new virtual centralized server and deploy the virtual resource group corresponding virtual resource monitoring component, and receives the cloud service application resource load regulation in accordance with the request 资源请求要求选择对应的虚拟资源在已经分配的虚拟资源群集中调整虚拟服务器配额。 Resource request asked to choose a virtual resource corresponding adjustment centralized virtual server resource group in a virtual quota has been allocated.
  7. 7. 如权利要求6所述的系统,其特征在于,所述云服务平台包括资源调度系统单元、资源管理单元、资源监控单元、资源评估单元、审计计费单元; 其中,所述资源调度系统单元与所述资源管理单元连接,所述资源调度系统单元与所述资源监控单元连接,所述资源调度系统单元与所述资源评估单元连接,所述资源调度系统单元与所述审计计费单元连接; 所述资源管理单元,用于负责资源节点虚拟化流程管理、虚拟资源节点的注册、注销、 备份、维护、统计分析、资源部署及资源回收工作; 所述资源监控单元,用于对所有注册到系统的虚拟资源节点实施监控,并提供虚拟机状态获取接口,在资源出现异常时,反馈信息给所述资源调度系统单元,请求其重新为请求者分配资源,保证请求者对资源的可用性,在资源使用完后,反馈信息给资源管理单元 7. The system according to claim 6, wherein the cloud service platform unit comprises a resource scheduling system, the resource management unit, a resource monitoring unit, the resource evaluation unit audit accounting unit; wherein the resource scheduling system resource management unit and the unit is connected, the resource scheduling system unit connected with the resource monitoring unit, the resource scheduling system resource unit is connected to the evaluation unit, the unit and the resource scheduling system audit accounting unit connection; the resource management unit, responsible for resource node virtualization process management, virtual resource node registration, cancellation, backup, maintenance, statistical analysis, resource deployment and resource recycling; the resource monitoring unit for all availability embodiment registered virtual resource node monitoring system, and to provide an interface acquiring virtual machine state, when an abnormality occurs resources, feedback information to the resource scheduling system unit, which requests the requestor reallocate resources, to ensure that the resource requester , after use of resources, feedback information to the resource management unit 请求所述资源管理单元执行清理工作来对资源进行回收; 所述资源评估单元,用于对系统管理的所有资源节点进行指标的评估,并生成评估报告,并将评估报告反馈给所述资源调度系统单元,以供所述资源调度系统单元执行调度时参考; 所述审计计费单元,用于对用户使用的资源情况进行计费。 Requesting said resource management unit performs cleanup of resources to be recovered; the resource evaluation unit for assessment index for all nodes in the system resource management, and generate evaluation reports, and evaluation reports to the feedback resource scheduling system unit, for use by the resource scheduling unit performs scheduling the reference system; the audit accounting unit, configured to resources used by the user for charging.
  8. 8. 如权利要求7所述的分布式异构虚拟资源集成管理系统,其特征在于,所述资源调度系统单元包括请求监听子单元、资源探测子单元、资源选择子单元、资源调度子单元; 其中,所述请求监听子单元与所述资源调度子单元连接,所述资源调度子单元与所述资源选择子单元连接,所述资源调度子单元与所述资源探测子单元连接,所述资源选择子单元与所述资源探测子单元连接; 所述请求监听子单元用于监听资源请求申请,将其解析后提交给所述资源调度子单元; 所述资源探测子单元用于按照用户需求查找资源,从资源注册信息和资源监控信息中获得所有符合条件的可用的资源列表; 所述资源选择子单元用于从资源列表中根据资源调度策略选中最优资源,并将资源选择情况反馈给所述资源调度子单元; 所述资源调度子单元用于向其他单元发送命令 Distributed heterogeneous virtual resource integrated management system of claim 7 as claimed in claim 8, wherein the system resource scheduling request listening unit comprises a sub-unit, the detection sub-unit resource, the resource selection subunit, subunit resource scheduling; wherein the request listening unit connected to the sub-sub-unit resource scheduling, the sub-unit and the resource scheduling resource selecting sub-unit is connected, the resource scheduling sub-unit connected to the detection sub-unit resource, the resource selecting sub-unit and the resource detecting sub-unit; said request monitor unit configured to monitor sub-application resource request, which will be submitted to the parsed resource scheduling subunit; for the resource detection subunit according to user needs to find resource, a list of all the resources available to meet the conditions of the registration information from the resource information and the resource monitoring; sub-unit for selecting the resource from the resource list based on the selected optimal resource scheduling policy resources, and to the feedback resource selection said resource scheduling sub-unit; the resource scheduling command subunit for transmitting to the other units 接收反馈信息,并完成对资源的具体分配行为。 Receive feedback information, and complete the allocation of specific acts of resources.
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