CN105141684A - Cloud calculation operation system and deployment architecture thereof - Google Patents

Abstract

The invention discloses a cloud calculation operation system and a deployment architecture thereof. The cloud calculation operation system comprises a delivery layer, a control layer and a micro kernel layer, wherein the delivery layer is used for receiving an access request of an application program through a delivery interface, performing data operation according to the access request by using a resource management interface provided by the control layer, and returning the operation result back to the application program through the resource management interface; the control layer is used for receiving a calling request of the delivery layer through the resource management interface, calling a virtual interface provided by the micro kernel layer, performing data operation on the calling request by a mode of parallel computation and distribution computation, and returning the operation result back to the delivery layer through the resource management interface; and the micro kernel layer is used for virtualizing a hardware device into a resource pool, receiving the calling request of the control layer through the virtual interface, performing data operation on the calling request, and returning the operation result back to the control layer through the resource management interface. By the cloud calculation operation system, the stability and the safety of the cloud calculation operation system are improved.

Description

A kind of cloud computing operating system and deployment framework thereof

Technical field

The present invention relates to field of cloud computer technology, particularly relate to a kind of cloud computing operating system and dispose framework.

Background technology

Cloud computing (CloudComputing) is the development of Distributed Calculation, parallel computation and network calculations, and its general principle is performed to multiple stage computer by network allocation by calculation task, and every platform computer is called a node of system for cloud computing.

Cloud computing operating system, also known as cloud OS, cloud computing operating system, cloud computing center operating system, using cloud computing, cloud memory technology as the operating system supported, the holistic management operation system of cloud computing background data center, it refer to framework on the basic hardware resources such as server, storage, network and single-set operation system, middleware, database basic software, the management underlying hardware of magnanimity, the cloud platform total management system of software resource.

In prior art, the component count in cloud computing operating system is too much, causes system stability performance to decline, and therefore, is badly in need of the cloud computing operating system that a set of component count is reasonable, the stability of a system is higher, safety is controlled at present.

Summary of the invention

The object of this invention is to provide a kind of cloud computing operating system, by cloud computing operating system being divided into the relatively independent service processes of micro-kernel layer, key-course, payment layer, management level and safe floor 5 according to the function of service processes, thus improve stability and the fail safe of cloud computing operating system.

According to an aspect of the present invention, a kind of cloud computing operating system, comprises

Pay layer, for the access request to pay interface application program, and call the resource management interface that key-course provides, carry out data manipulation according to described access request, operating result is returned to application program by resource management interface;

Key-course, for paying the call request of layer with resource management interface, and call the virtualize interfaces that micro-kernel layer provides, by the mode of parallel computation and Distributed Calculation, data manipulation is carried out to call request, operating result is returned to payment layer by resource management interface;

Micro-kernel layer, for hardware device is virtual, forms resource pool, receives the call request of key-course, and carry out data manipulation to described call request, operating result is returned to key-course by virtualize interfaces with virtualize interfaces.

According to another aspect of the present invention, a kind of deployment framework of cloud computing operating system, comprising:.

Master server, for configuring key-course in said system, paying layer, management level and safe floor, each layer runs one or more example on described master server;

One or more is from server, and for configuring the micro-kernel layer in system described in any one of claim 1-6, every platform runs the example of a micro-kernel layer from server;

Described master server and described one or more pass through the interface client of master server or the access request of browser from server.

According to another aspect of the invention, a kind of deployment framework of cloud computing operating system.Comprise:

Multiple servers, server described in every platform is configured with an example of the micro-kernel layer in above-mentioned cloud computing operating system, for receiving the access request of client or browser; And

A layer in key-course, payment layer, management level and safe floor or an example of multiple layers.

As mentioned above, cloud computing operating system is divided into the mode of the relatively independent service processes of micro-kernel layer, key-course, payment layer, management level and safe floor 5 by the present invention's employing according to the function of service processes, improve stability and the fail safe of cloud computing operating system.

Accompanying drawing explanation

Fig. 1 is according to cloud computing operating system structural representation of the present invention;

Fig. 2 disposes configuration diagram according to first of cloud computing operating system of the present invention;

Fig. 3 disposes configuration diagram according to second of cloud computing operating system of the present invention.

Embodiment

For making the object, technical solutions and advantages of the present invention clearly understand, below in conjunction with embodiment also with reference to accompanying drawing, the present invention is described in more detail.Should be appreciated that, these describe just exemplary, and do not really want to limit the scope of the invention.In addition, in the following description, the description to known features and technology is eliminated, to avoid unnecessarily obscuring concept of the present invention.

Fig. 1 is according to cloud computing operating system structural representation of the present invention.

As shown in Figure 1, in one embodiment of the present of invention, cloud computing operating system comprises

Be arranged at the payment layer on key-course, for the access request to pay interface application program, and call the resource management interface that key-course provides, carry out data manipulation according to described access request, operating result is returned to application program by resource management interface.It should be noted: the interface that cloud is paid not in payment layer, but is placed in management level.

To be arranged under described payment layer and key-course on micro-kernel layer, for paying the call request of layer with resource management interface, and call the virtualize interfaces that micro-kernel layer provides, by the mode of parallel computation and Distributed Calculation, data manipulation is carried out to call request, operating result is returned to payment layer by resource management interface.

Be arranged at the micro-kernel layer under described key-course, for hardware device is virtual, form resource pool, receive the call request of key-course with virtualize interfaces, and data manipulation is carried out to described call request, operating result is returned to key-course by virtualize interfaces.

Micro-kernel is the most I running unit of whole cloud computing operating system, cloud computing operating system adopts microkernel designs, reduce the assembly of operating system, run in kernel mode within leaving necessary assembly, even if extension element goes wrong, also can not have influence on the operation of micro-kernel, thus guarantee the high stability of key foundation.Micro-kernel Rotating fields of the present invention uses for reference computer Mach design concept in system robustness, and single representative necessarily operates in kernel state.

Hardware device comprises X86 server, Ethernet switch, fire compartment wall, disk array (Ethernet is shared and stored and distributed storage) and communication network.Resource pool comprises computational resource pond, Internet resources pond, memory resource pool and secure resources pond, comprises distributing resource pool, dispatching the management of resource pool.

In another embodiment of the present invention, cloud computing operating system also comprises:

Management level, across payment layer and key-course, pay layer, key-course and safe floor for calling respectively by payment interface, resource management interface and safe interface, infrastructure operation management, the management of cloud service support system and cloud service interface management are carried out to payment layer, key-course and safe floor.

Infrastructure operation management mainly comprises: asset monitoring, malfunction elimination, workform management and enforcement management.The management of cloud service support system comprises: service definition, charging, financial management and customer service.Cloud service interface management comprises: exchange with forum from service interface, customer service application.

Safe floor, across payment layer, key-course and micro-kernel layer, pay layer, key-course and micro-kernel layer for calling respectively by payment interface, resource management interface and virtualize interfaces, and detection and control is carried out to the internal data exception occurred in payment layer, key-course and micro-kernel layer and external network attack.

Safe floor provides security guarantee to the cloud environment related in micro-kernel, key-course, payment layer, cloud data, cloud operation and its own system, thus guarantees controlled, reliable, the credible and safety of cloud computing operating system.

Cloud computing operating system is divided into the large assembly of micro-kernel layer, key-course, payment layer, management level and safe floor 5 according to the function of service processes by the present invention, and each layer is an independently service processes.Wherein, micro-kernel layer is core component, and key-course, payment layer, management level and safe floor are extension element.Micro-kernel layer, key-course, payment layer, between management level and safe floor, adopt semi-order hierarchical structure.Each layer provides API, for other layers.Be in security consideration, corresponding invokes authentication, mandate and audit can be designed to API.

In the operating system of hierarchy, operating system is made up of several levels, and every one deck is all structured on its lower one deck.The bottom is exactly hardware bare machine, top, is application program.

When designing the operating system nucleus of hierarchy, what the structure of every one deck adopted is the method for designing being similar to abstract data type.Contain some data and operation in every one deck, the operation in the data in all levels and part level is sightless to other layer, and also namely other layer can not conduct interviews to these data and operation.Every one deck all discloses certain operation-interface and calls for other layer, and these interfaces are also the unique approach of outer access this layer.Call relation between layers strictly observes calling rule.Every one deck is merely able to be positioned at by interface accessing the service that its lower floor provides, and the service utilizing its lower floor to provide is to realize the function of this layer and to provide service for the layer on it, and every one deck can not be accessed position and be given the service that the level on it provides.Desirable hierarchical architecture not only between be unidirectional dependence, and be also separate between every one deck, namely they only call modules at lower layers, do not have call relation between each module, and this structure is called total order structure.But realize particularly in cloud computing operating system in reality, it is very difficult for building up total order level, cannot eliminate recursive call phenomenon completely.Therefore the call relation between this different levels is unidirectional dependence, and each level only calls lower one deck of current level, and the module call relation in same level is, has the operating system hierarchical structure of recursive call relation to be called half sequence structure between disparate modules.

Micro-kernel layer comprises calculating virtualization modules, network virtualization module, Storage Virtualization module and safety virtualization module.Wherein, calculate virtualization modules, for the segmentation to CPU, internal memory, calculating I/O, scheduling and management, provide computational resource pond by virtualize interfaces to call request.Network virtualization module, for the segmentation to network I/O, the network bandwidth, network function, network delay, scheduling and management, provides Internet resources pond by virtualize interfaces to call request.Storage Virtualization module, for the segmentation to storage I/O, memory block equipment, storage object, storage file, scheduling and management, provides memory resource pool by virtualize interfaces to call request; Storage Virtualization mainly comprises and stores I/O virtual, block Storage Virtualization, object Storage Virtualization and File System Virtual.Safety virtualization module, for the segmentation to security strategy, function of safety protection, scheduling and management, provides secure resources pond by virtualize interfaces to call request.Safety virtualization of the present invention refers to that information security is virtual, mainly comprises that security strategy is virtual, security configuration is virtual, safety function is virtual.

Key-course comprises computational resource control module, Internet resources control module, storage resources control module and secure resources control module.Wherein, computational resource control module, for controlling the operation of computational resource, described computational resource comprises server, empty machine, container and desktop.Internet resources control module, for controlling the operation of Internet resources, described Internet resources comprise network I/O, virtual network and network route.Storage resources control module, for controlling the operation of storage resources, described storage resources comprises logical volume, stores I/O.Secure resources control module, for controlling the operation of secure resources, described secure resources comprises security strategy, security configuration and security protection service.

Pay in layer, the service externally provided to pay interface comprises infrastructure and namely serves (IaaS, InfrastructureasaService), namely platform serves (PaaS, PlatformasaService), namely software serve (SaaS, SoftwareasaService) and safely namely (SECaaS, Securityasaservice) is served.IaaS is specially, the hardware device (such as server, network, storage and other infrastructure) of bottom is abstracted into all kinds of resource pool by micro-kernel by cloud computing operating system, and the process of layer is paid by cloud key-course and cloud, provide IaaS to serve with forms such as empty machine, desktop, hard disks to cloud consumer.PaaS is specially, and cloud computing operating system controls to pay layer with cloud for developer by micro-kernel, cloud and provides a development platform, the stack space such as required for software real time execution, database and other middlewares.SaaS is specially, and cloud computing operating system is responsible for deployment, configuration, safeguards, is upgraded the software application operated on cloud.

Fig. 2 is the first deployment way schematic diagram according to cloud computing operating system of the present invention.

As shown in Figure 2, the deployment framework of cloud computing operating system, comprises

Master server, for configuring key-course in above-mentioned cloud computing operating system, paying layer, management level and safe floor, each layer runs one or more example on described master server.One or more is from server, and for configuring the micro-kernel layer in said system, every platform runs the example of a micro-kernel layer from server.Master server and one or more from server by the interface client of master server or the access request of browser.

The implication of example refers to: in Object-oriented Programming Design, and " class " is called one " example " after instantiation." class " is static, does not account for proceeding internal memory, and " example " has Dram.

Micro-kernel layer, key-course, payment layer, being communicated by network or computer-internal bus between management level and safe floor.Server with adopts X86 server from server, hardware device comprises Ethernet switch, fire compartment wall, disk array (Ethernet share with storage and distributed storage) and communication network.

Fig. 3 is the second deployment way schematic diagram according to cloud computing operating system of the present invention.

The deployment framework of cloud computing operating system, comprises

Multiple servers, server described in every platform is configured with an example of the micro-kernel layer in above-mentioned cloud computing operating system, for receiving the access request of client or browser; And

A layer in key-course, payment layer, management level and safe floor or an example of multiple layers.

In key-course, payment layer, management level and safe floor, every layer has Multi-instance, and Multi-instance is configured on described server in a distributed way.

So-called distributed way, namely the Multi-instance of each layer is deployed in multiple server, namely an example of every station server deploy layer.

The Multi-instance of key-course, payment layer, management level, safe floor adopts polling mode to receive the access request of client or browser.

So-called polling mode, namely when access request arrives, the Multi-instance of each layer receives access request in order successively, and when each example of a layer receives same number access request, one has taken turns.When having access request to arrive again, then again receive access request by the example receiving access request at first, until the Servers-all of current layer all receives the access request of same number.So move in circles, be polling mode.

As shown in Figure 3, when key-course, payment layer, management level, safe floor preferably have 3 examples, namely key-course has example 1, example 2, example 3; Pay layer and have example 1, example 2, example 3, management level have example 1, example 2, example 3; Safe floor has example 1, example 2, example 3.

Below with when arriving the access request of key-course, the non-polling case of the example 1 of key-course, example 2 and example 3 is example, and polling mode is described:

When arriving the access request first time of key-course, by this access request to the example 1 of key-course,

When arriving the access request second time of key-course, by this access request to the example 2 of key-course,

When arriving the access request third time of key-course, by this access request to the example 3 of key-course,

When arriving for the 4th time the access request of key-course, by this access request to the example 1 of key-course,

When arriving for the 5th time the access request of key-course, by this access request to the example 2 of key-course,

When arriving for the 6th time the access request of key-course, by this access request to the example 3 of key-course,

……

So move in circles, achieve the example 1 of key-course, example 2 and example 3 poll and receive access request.

Should be understood that, above-mentioned embodiment of the present invention only for exemplary illustration or explain principle of the present invention, and is not construed as limiting the invention.Therefore, any amendment made when without departing from the spirit and scope of the present invention, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.In addition, claims of the present invention be intended to contain fall into claims scope and border or this scope and border equivalents in whole change and modification.

Claims (11)

1. a cloud computing operating system, is characterized in that: comprise

Pay layer, for the access request to pay interface application program, and call the resource management interface that key-course provides, carry out data manipulation according to described access request, operating result is returned to application program by resource management interface;

Key-course, for paying the call request of layer with resource management interface, and call the virtualize interfaces that micro-kernel layer provides, by the mode of parallel computation and Distributed Calculation, data manipulation is carried out to call request, operating result is returned to payment layer by resource management interface;

Micro-kernel layer, for hardware device is virtual, forms resource pool, receives the call request of key-course, and carry out data manipulation to described call request, operating result is returned to key-course by virtualize interfaces with virtualize interfaces.

2. system according to claim 1, is characterized in that, also comprises

Safe floor, pay layer, key-course and micro-kernel layer for calling respectively by payment interface, resource management interface and virtualize interfaces, and detection and control is carried out to the internal data exception occurred in payment layer, key-course and micro-kernel layer and external network attack;

Management level, pay layer, key-course and safe floor for calling respectively by payment interface, resource management interface and safe interface, infrastructure operation management, the management of cloud service support system and cloud service interface management are carried out to payment layer, key-course and safe floor.

3. system according to claim 2, is characterized in that: described micro-kernel layer, key-course, payment layer, management level and safe floor are respectively 5 relatively independent processes.

4. system according to claim 2, is characterized in that:

Described micro-kernel layer, key-course, payment layer, between management level and safe floor, adopt semi-order hierarchical structure;

Described semi-order hierarchical structure is: the call relation between different levels is unidirectional dependence, and each level only calls lower one deck of current level, and the module call relation in same level is have recursive call relation between disparate modules.

5. the system according to any one of claim 1-4, is characterized in that, described micro-kernel layer comprises:

Calculate virtualization modules, for the segmentation to CPU, internal memory, calculating I/O, scheduling and management, provide computational resource pond by virtualize interfaces to call request;

Network virtualization module, for the segmentation to network I/O, the network bandwidth, network function, network delay, scheduling and management, provides Internet resources pond by virtualize interfaces to call request;

Storage Virtualization module, for the segmentation to storage I/O, memory block equipment, storage object, storage file, scheduling and management, provides memory resource pool by virtualize interfaces to call request;

Safety virtualization module, for the segmentation to security strategy, function of safety protection, scheduling and management, provides secure resources pond by virtualize interfaces to call request.

6. the system according to any one of claim 1-4, is characterized in that: described hardware device comprises server, Ethernet switch, fire compartment wall, disk array and communication network.

7. a deployment framework for cloud computing operating system, is characterized in that: comprise

Master server, for configuring key-course in system described in any one of claim 1-6, paying layer, management level and safe floor, each layer runs one or more example on described master server;

One or more is from server, and for configuring the micro-kernel layer in system described in any one of claim 1-6, every platform runs the example of a micro-kernel layer from server;

Described master server and described one or more pass through the interface client of master server or the access request of browser from server.

8. deployment framework according to claim 7, is characterized in that: described micro-kernel layer, key-course, payment layer, being communicated by network or computer-internal bus between management level and safe floor.

9. deployment framework according to claim 7, is characterized in that: described master server with adopt X86 server from server, described hardware device comprises Ethernet switch, fire compartment wall, disk array and communication network.

10. a deployment framework for cloud computing operating system, is characterized in that, comprising:

Multiple servers, server described in every platform is configured with an example of the micro-kernel layer in above-mentioned cloud computing operating system, for receiving the access request of client or browser; And

A layer in key-course, payment layer, management level and safe floor or an example of multiple layers.

11. deployment frameworks according to claim 10, is characterized in that,

In described key-course, payment layer, management level and safe floor, every layer has Multi-instance, and Multi-instance is configured on described server in a distributed way; The Multi-instance of every layer adopts polling mode to receive the access request of client or browser.