CN106484381A - A kind of data center model, information processing method and device - Google Patents

Abstract

The embodiment of the invention discloses a kind of information processing method, the data center model of present invention offer is provided, data center model includes the first object instance and the second object instance, first object instance and the second object instance have dependence, and the functional realiey of the second object instance depends on the functional realiey of the first object instance；Method includes：Obtain the information of the first object instance, determine the state of the first object instance according to the information of the first object instance；According to the state of the first object instance, and the dependence between the first object instance and the second object instance determines the logic state of the second object instance；Store the logic state of the second object instance.The present invention plays the effect of the state updating and supplementing object instance, thus improve the accuracy rate that system or manager are analyzed according to object instance state.

Description

A kind of data center model, information processing method and device

Technical field

The present invention relates to computer realm, more particularly to a kind of data center model, a kind of information processing Method and apparatus.

Background technology

Large number quipments are usually contained, different equipment is in difference in data center (Data Center, DC) Aspect on different functions are provided.In conventional technology, data center administrator needs using different Management software in different aspects, the equipment of data center is managed, for example the network management software use In management network connection, virtual management software is used for managing virtual equipment, and operational control software is used for Management application program.Because data center administrator management equipment needs to be grasped multiple management softwares, therefore Put to no little inconvenience to manager.

In order to solve this technical problem, the unified management software for data center arises at the historic moment, described Unified management software can compatible management software at all levels, and management software at all levels is provided Convergence get up to be analyzed to process, thus realizing mesh that the equipment in different aspects is managed 's.In order to realize the purpose that the equipment of data center is managed collectively, described unified management software needs By the management object of the management system of different aspects is carried out unified Modeling, and how to be based in data The heart is modeled, and is the difficult point of unified management software design.

The Different Logic function that prior art shows in system heterogeneous networks topological layer according to physical equipment Carry out layered modeling, the feature of this model is that physical equipment is different to having in different network topology layer Object instance.For example, with reference to Fig. 1, the first switch of physical layer is in double layer network to should have the first friendship Change planes server, to should have gateway server in three-layer network；The switch ports themselves A of physical layer is two To Lan (LAN) the port A that should have the first pbx server, the thing of described physical layer in layer network Reason port A is in three-layer network also to should have IP (Internet Protocol) port.The mould that layering is set up Type not only includes object instance, also includes the membership relation between object instance or annexation.For example, In Fig. 1, physical layer includes the first switch, physical port A, second switch, physical port B, each right As the relation between example is：Described physical port A belongs to described first switch, described physical port B belongs to described second switch, and described physical port A is connected with described physical port B.Therefore, lead to Cross model management person and can grasp each object example and each object instance of each layer subordinate each other Relation or annexation.

Under normal circumstances, each level has corresponding Hierarchy management software that the object instance of this layer is carried out Monitoring, and the information monitoring is sent to unified management software, unified management software is according to monitoring The state of information updating object instance corresponding with described information.But in actual applications, due to some Reason, the information of object instance all lacks, and leads to the state of this object instance cannot be updated in time, Or, the message part disappearance of object instance, although leading to the state of this object instance to obtain timely updates, But not comprehensive, therefore system or manager, may when the state according to object instance is analyzed Lead to analyze inaccurate, or even the consequence of analysis mistake.

For example, prior art, with the state of object instance for input, analyzes system by fault estimator Unite the basic reason that breaks down, if the state of object instance do not upgraded in time or updated after shape State is not comprehensive, then the result analyzing out may be just inaccurate.

Assume that the physical port A in Fig. 1 breaks down due to damaging, because physical port A fault can be led Cause Lan port access fault, so in the ideal case, system should receive " physical port A event Barrier " and the warning information of " Lan port A access fault ", and should be according to " physical port A event The warning information of barrier " determines that the state of described physical port A is fault, according to " Lan port A accesses The warning information of fault " determines that the state of described Lan port A is fault.But in fact, unified pipe Reason software is not received by any warning information with regard to Lan port A, or, unified management software connects Receive the warning information with regard to Lan port A, but warning information is that " Lan port A packet loss exceeds Preset value ", is not " Lan port A access fault ".So analyzing event using fault estimator Barrier root because when, can according to physical port A fault and Lan port A access normal, or, physics end Mouthful A fault and Lan port A packet loss is analyzed beyond preset value, eventually results in wrong analysis Result.

Above-mentioned example, illustrates information all disappearance or the excalations in object instance taking warning information as a example In the case of, the analysis result of unified management software information it may happen that inaccurate or even wrong situation, And the information of object instance not only includes warning information, also include other non-warning information, information analysiss Purpose also not only only determines fault rootstock it is also possible to there be other analysis purposes.Therefore, how right When completely or partially lacking as the information of example, unified management software is still accurate to the analysis result of information It is prior art problem demanding prompt solution.

Content of the invention

In order to solve above-mentioned technical problem, embodiments provide a kind of data center model, information Treating method and apparatus, play the effect of the state updating and supplementing object instance, thus improve system Or the accuracy rate that manager is analyzed according to object instance state.

In a first aspect, embodiments providing a kind of data center model, described model includes physics Layer and at least one network topology layer, described physical layer includes physical object example and described physical object is real Annexation between example；Described network topology layer is included according to described physical object example in described network The object logic example that the logic function that topological layer shows is set up, and between described object logic example Annexation；Described physical object example and described object logic example are referred to as object instance；

Described model also includes the dependence between described object instance, and described dependence refers to one The functional realiey of object instance depends on the functional realiey of another object instance.

In the first possible implementation of first aspect, described dependence include membership relation and Mapping relations, wherein, described membership relation refers to that in addition an object instance is subordinated in functional structure One object instance with layer, the object instance of subordinate depends on by the object of subordinate in fact on functional realiey The functional realiey of example；

Described mapping relations refer to that an object instance of low-level is shown in high-level with this object instance The object instance set up of logic function between relation, the functional realiey of high-level object instance depends on The functional realiey of low-level object instance.

Second aspect, embodiments provides a kind of information processing method, and methods described is applied to On the one hand data center model provided in an embodiment of the present invention, described data center model includes the first object Example and the second object instance, described first object instance and described second object instance have described dependence Relation, and the functional realiey of described second object instance depends on the functional realiey of described first object instance；

Methods described includes：

Obtain the information of the first object instance, determine described first according to the information of described first object instance The state of object instance；

According to the state of described first object instance, and described first object instance and described second object Dependence between example determines the logic state of described second object instance；

Store the logic state of described second object instance.

In the first possible implementation of second aspect, methods described also includes：

Obtain the information of described second object instance, and institute is determined according to the information of described second object instance State the virtual condition of the second object instance；

If described virtual condition is identical with described logic state, described store the patrolling of described second object instance The state of collecting is specially：

Store the virtual condition of described second object instance or described logic state.

In the possible implementation of the second of second aspect, methods described also includes：Described second is right As the corresponding fault level of the logic state of example is logic fault grade；The reality of described second object instance State corresponding fault level in border is physical fault grade；

If described virtual condition is differed with described logic state, described second object instance of described storage Logic state includes：

If described physical fault grade is higher than described logic fault grade, store described second object instance Virtual condition；

If described logic fault grade is higher than described physical fault grade, store described second object instance Logic state；

If described physical fault grade is equal to described logic fault grade, store described second object instance Logic state and/or described virtual condition.

The possible implementation of the first or second in conjunction with second aspect or second aspect, the 3rd In kind possible implementation, the information of described first object instance includes the of described first object instance One information and the second information of described first object instance；

The described information according to described first object instance determines that the state of described first object instance includes：

Determine the first state of described first object instance according to the first information of described first object instance；

Determine the second state of described first object instance according to the second information of described first object instance；

If described first state is identical with described second state, by described first state or described second shape State is as the state of described first object instance.

In conjunction with the third possible implementation of second aspect, in the 4th kind of possible implementation, The corresponding fault level of described first state is Fisrt fault grade, corresponding fault of described second state etc. Level is the second fault level；

If described first state is different from described second state, and described Fisrt fault grade is higher than described the Two fault levels, then using described first state as described first object instance state；

If described first state is different from described second state, and described second fault level is higher than described the One fault level, then using described second state as described first object instance state；

If described first state is different from described second state, and described Fisrt fault grade is equal to described the Two fault levels, then using described first state and/or described second state as described first object instance State.

In the 5th kind of possible implementation of second aspect, described data center model also includes the 3rd Object instance, described 3rd object instance and described second object instance have described dependence, described The functional realiey of the 3rd object instance depends on the functional realiey of described second object instance；

After storing the logic state of described second object instance, methods described also includes：

According to the state of described second object instance, and described second object instance and described 3rd object Dependence between example determines the logic state of described 3rd object instance；

Store the logic state of described 3rd object instance.

In the 6th kind of possible implementation of second aspect, described data center model also includes the 4th Object instance, described 4th object instance and described second object instance have described dependence, described The functional realiey of the 4th object instance depends on the functional realiey of described second object instance；

After storing the logic state of described second object instance, methods described also includes：

According to the dependence between described first object instance and described second object instance and described Dependence between 4th object instance and described second object instance, obtains described first object instance Dependence and described 4th object instance between；

According to the state of described first object instance, and described first object instance and described 4th object Dependence between example determines the logic state of described 4th object instance；

Store the logic state of described 4th object instance.

The third aspect, embodiments provides a kind of information processor, and described device is applied to On the one hand data center model provided in an embodiment of the present invention, described data center model includes the first object Example and the second object instance, described first object instance and described second object instance have described dependence Relation, and the functional realiey of described second object instance depends on the functional realiey of described first object instance；

Described device includes：First acquisition unit, the first determining unit, logic state determining unit and One memory element, described first acquisition unit is connected with described first determining unit, and described first determines list First and described logic state determining unit is connected, and described logic state determining unit is single with described first storage Unit connects；

Described first acquisition unit, for obtaining the information of the first object instance；

According to the information of described first object instance, described first determining unit, for determining that described first is right State as example；Described logic state determining unit, for the state according to described first object instance, And the dependence between described first object instance and described second object instance determines that described second is right Logic state as example；

Described first memory element, for storing the logic state of described second object instance.

In the first possible implementation of the third aspect, described device also includes：Second obtains list Unit and the second determining unit, described second acquisition unit is connected with described second determining unit, and described second Determining unit is connected with described first memory element；

Described second acquisition unit, for obtaining the information of described second object instance；

According to the information of described second object instance, described second determining unit, for determining that described second is right Virtual condition as example；

Described first memory element includes：First storing sub-units；

Described first storing sub-units, if identical with described logic state for described virtual condition, storage The virtual condition of described second object instance or logic state.

In conjunction with the first possible implementation of the third aspect, in the possible implementation of second, Described device also includes：

The corresponding fault level of logic state of described second object instance is logic fault grade；Described The corresponding fault level of virtual condition of two object instances is physical fault grade；

Described first memory element includes：Second storing sub-units, the 3rd storing sub-units or the 4th storage Subelement；

Described second storing sub-units, if differing with described logic state for described virtual condition, and Described physical fault grade is higher than described logic fault grade, stores the actual shape of described second object instance State；

Described 3rd storing sub-units, if differing with described logic state for described virtual condition, and Described logic fault grade is higher than described physical fault grade, stores the logic shape of described second object instance State；

Described 4th storing sub-units, if being equal to described logic fault grade for described physical fault grade, Store the logic state of described second object instance and/or described virtual condition.

The possible implementation of the first or second in conjunction with the third aspect or first aspect, the 3rd In kind possible implementation, the information of described first object instance includes the of described first object instance One information and the second information of described first object instance；

According to the information of described first object instance, described first determining unit, for determining that described first is right State as example includes：

Described first determining unit, for determining described according to the first information of described first object instance The first state of one object instance；Determine that described first is right according to the second information of described first object instance The second state as example；If described first state is identical with described second state, by described first shape State or described second state are as the state of described first object instance.

In conjunction with the third possible implementation of the third aspect, in the 4th kind of possible implementation, The corresponding fault level of described first state is Fisrt fault grade, corresponding fault of described second state etc. Level is the second fault level；

Described first determining unit, is additionally operable to：

If described first state is different from described second state, and described Fisrt fault grade is higher than described the Two fault levels, then using described first state as described first object instance state；

If described first state is different from described second state, and described second fault level is higher than described the One fault level, then using described second state as described first object instance state；

If described first state is different from described second state, and described Fisrt fault grade is equal to described the Two fault levels, then using described first state and/or described second state as described first object instance State.

In the 5th kind of possible implementation of the third aspect, described data center model also includes the 3rd Object instance, described 3rd object instance and described second object instance have described dependence, described The functional realiey of the 3rd object instance depends on the functional realiey of described second object instance；

Described device also includes：3rd determining unit and the second memory element；Described first memory element with Described 3rd determining unit connects, and described 3rd determining unit is connected with described second memory element；

Described 3rd determining unit, for the state according to described second object instance, and described second Dependence between object instance and described 3rd object instance determines the logic of described 3rd object instance State；

Described second memory element, for storing the logic state of described 3rd object instance.

In the 6th kind of possible implementation of the third aspect, described data center model also includes the 4th Object instance, described 4th object instance and described second object instance have described dependence, described The functional realiey of the 4th object instance depends on the functional realiey of described second object instance；

Described device also includes：Dependence computing unit, the 4th determining unit and the 3rd memory element； Described first memory element is connected with described dependence computing unit, described dependence computing unit with Described 4th determining unit connects, and described 4th determining unit is connected with described 3rd memory element；

Dependence computing unit, for according to described first object instance and described second object instance it Between dependence, and the dependence between described 4th object instance and described second object instance, Obtain the dependence between described first object instance and described 4th object instance；

Described 4th determining unit, for the state according to described first object instance, and described first Dependence between object instance and described 4th object instance determines the logic of described 4th object instance State；

Described 3rd memory element, for storing the logic state of described 4th object instance.

The invention provides a kind of data center model different from prior art, described model includes physics Layer and at least one network topology layer, described physical layer includes physical object example and described physical object is real Annexation between example；Described network topology layer is included according to described physical object example in described network The object logic example that the logic function that topological layer shows is set up, and between described object logic example Annexation；Described physical object example and described object logic example are referred to as object instance.Described Data center model includes the first object instance and the second object instance, described first object instance with described Second object instance has described dependence, and the functional realiey of described second object instance depends on institute State the functional realiey of the first object instance.Because the data center model that the present invention provides possesses described second Dependence between object instance and described first object instance, when according to described first object instance After information determines the state of described first object instance, can according to the state of described first object instance, And the dependence between described first object instance and described second object instance is inferred to described second The logic state of object instance, even if the loss of learning of described second object instance is it is also possible to pass through institute State the state as described second object instance for the logic state of the second object instance, to play renewal and to mend Fill the effect of the state of described second object instance, thus improve system or manager according to described second The accuracy rate that object instance state is analyzed.

Brief description

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to reality The accompanying drawing applying required use in example or description of the prior art be briefly described it should be apparent that, below Accompanying drawing in description is only some embodiments of the present invention, for those of ordinary skill in the art, Without having to pay creative labor, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the data center model schematic diagram of prior art；

Fig. 2 is data center model schematic diagram provided in an embodiment of the present invention；

A kind of flow chart of information processing method embodiment one that Fig. 3 provides for the present invention；

A kind of flow chart of information processing method embodiment two that Fig. 4 provides for the present invention；

A kind of flow chart of information processing method embodiment three that Fig. 5 provides for the present invention；

A kind of flow chart of information processing method example IV that Fig. 6 provides for the present invention；

A kind of flow chart of information processing method embodiment five that Fig. 7 provides for the present invention；

A kind of structured flowchart of information processor embodiment one that Fig. 8 provides for the present invention；

A kind of structured flowchart of information processor embodiment two that Fig. 9 provides for the present invention；

A kind of structured flowchart of information processor embodiment three that Figure 10 provides for the present invention；

A kind of structured flowchart of information processor example IV that Figure 11 provides for the present invention.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out Clear, complete describes it is clear that described embodiment is only a part of embodiment of the present invention, and It is not all, of embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art are not doing The every other embodiment being obtained under the premise of going out creative work, broadly falls into the scope of protection of the invention.

Prior art is in system heterogeneous networks topology according to physical equipment based on the model that data center sets up The model that the different logic function layering showing on layer is set up, the feature of this model is physical equipment In different network topology layer to there being different object instances, press between each object example of same layer It is attached according to logical relation, described logical relation includes membership relation and annexation.In practical application In, due to some reasons, the information of object instance all lacks, and the state leading to this object instance cannot It is updated in time, or, the message part disappearance of object instance, although lead to the state of this object instance Obtain timely updates, but not comprehensive, therefore carried out according to the state of object instance in unified management software During analysis, may analyze inaccurate, or even obtain the analysis result of mistake.

In order to overcome above-mentioned technical problem, the present invention provides a kind of data center model, and described model includes Physical layer and at least one network topology layer, described physical layer includes physical object example and described physics pair As the annexation between example；Described network topology layer is included according to described physical object example described The object logic example that the logic function that network topology layer shows is set up, and described object logic example Between annexation；Described physical object example and described object logic example are referred to as object instance. The present invention provide data center model most important with the data center model of prior art distinguish be in In：The data center model that the present invention provides also has dependence on functional realiey for the described object instance and closes System, that is, the functional realiey of an object instance depends on the functional realiey of another object instance.

Described dependence includes described membership relation and mapping relations.Described membership relation refer to one right As example is subordinated to the object instance with layer for the another one in functional structure, the object instance of subordinate is in work( Enable to depend on by the functional realiey of the object instance of subordinate.For example, see Fig. 2, the physics of physical layer Port A is subordinated to the first switch；In network topology layer, two layers of Lan port A is subordinated to the first exchange Machine server；In network topology layer, three layers of IP port is subordinated to gateway server.

Described mapping relations refer to that an object instance of low-level is shown in high-level with this object instance The object instance set up of logic function between relation, the functional realiey of high-level object instance depends on The functional realiey of low-level object instance.For example, see Fig. 2, two layers of Lan port A in network topology layer Functional realiey depend on the physical port A of physical layer；The function of three layers of IP port in network topology layer Realize depending on two layers of Lan port A.Certainly, the functional realiey of three layers of IP port also relies on thing The physical port A of reason layer.

Described low-level is for high-level, can include two kinds of situations in actual applications：Its One, described low-level be physical layer, described high-level be network topology layer, such as two in Fig. 2 layer or Three layers；Second, described low-level and described high-level are network topology layer, such as low-level in Fig. 2 For two layers, high-level is three layers.

It should be noted that the dependence between two object instances is all generally unidirectional, if that is, Object instance A depends on object instance B, then described object instance B cannot depend on described object Example A.

Can be come to each using CIM (Common Information Model) model in actual applications Dependence between object instance and object instance is set up, or it is also possible to according to TCP/IP The work(of every level in (Transmission Control Protocol/Internet Protocol) multi-layer structure model Can abstract modeling.Because above two modeling means are the modeling means that those skilled in the art commonly use, because This present invention does not repeat to specific modeling procedure and method.

Embodiment of the method one

Based on data center model proposed by the present invention, the present invention provides a kind of information processing method embodiment One, wherein, the first object instance in described information processing method and described second object instance are described The two of which object instance of data center model, and the functional realiey of described second object instance depends on The functional realiey of described first object instance.

Referring to Fig. 3, the information processing method that the present embodiment provides comprises the steps：

Step S101：Obtain the information of the first object instance, true according to the information of described first object instance The state of fixed described first object instance.

In the present embodiment, described unified management software is by obtaining the information of described first object instance Lai really The state of fixed described first object instance.Described information includes warning information and non-warning information, described announcement Alarming information refers to the information that the object instance of Hierarchy management software monitoring is under abnormality, such as main frame Temperature is higher than default maximum temperature, and described non-warning information refers to the object instance of Hierarchy management software monitoring It is in the information under normal condition, such as main frame temperature is less than default maximum temperature.The mode of acquisition information Have multiple, for example described unified management software active, the periodic or each layered cylinderses of irregular collection The information that reason software produces, or, described Hierarchy management software active, periodic or irregular Push information of object embodiment of respective layer etc. to described unified management software.Either which kind of mode, Described first object instance all cannot directly with described unified management software interactive, therefore, in described information Typically all carry the information positioning described first object instance.For example, it is assumed that described information is " Lan The information of port access fault ", carries the corresponding physics of described first object instance and sets in described information Standby mark it is assumed that described physical equipment be designated 1234, true by described physical equipment mark 1234 Fixed described physical equipment is the physical port of switch X.Additionally, it is permissible according to the description in described information The place layer deducing described first object instance is two layers, therefore, is knowing described first object instance It is possible in described data in the case of corresponding physical equipment and described first object instance place layer Described first object instance is positioned, described first object instance is the physics end of switch X in center model Mouth corresponding Lan port in double layer network.

In this embodiment, after getting the information of the first object instance, according to described first object instance Information determine the state of described first object instance.

In the present embodiment, the difference according to described first object instance information category, described the of determination The type of the state of one object instance is also different.If the information of described first object instance is non-alarm letter Breath, then the state of described first object instance is normal condition.For example, if described first object instance Information access for IP normal, then the state of described first object instance can be " IP accesses normal ". If the information of described first object instance is warning information, then the state of described first object instance is Malfunction.If the information of for example described first object instance is IP access fault, then described first is right As the state of example can be " IP access fault ".Described " fault " refers to sensu lato appearance exception Situation, such as exception of network traffic, CPU heavy duty (for example occupancy reaches 90%), server are delayed machine etc., But do not include the situation of lost contact.Described lost contact refers to that Hierarchy management software cannot be supervised within a period of time Control the object instance of its management, lose, with described object instance, the state contacting.When described first object It is impossible to judge that the state of described first object instance is normal or fault during example lost contact, because This also cannot deduce the state of the second object instance depending on described first object instance.But if The state of described second object instance is lost contact, then can extrapolate described second object according to step S102 The logic state of example, and using the logic state of described second object instance as described second object instance State.

In actual applications, the content of described first object instance state might not all with the letter getting The content of breath is identical.For example, it is possible to some non-warning information unifications of object instance " are just defined as According to classification, often state ", it is also possible to the warning information of object instance is classified, determines that described object is real The state of example.Again for example, in actual applications, because different physical equipments may be carried by different manufacturers For different network topology layer may be provided, therefore, different manufacturers or operation by different operators The description of the same situation to same object instance for the business may have difference.For example when IP access fault, The information that Huawei provides is " IP access fault ", and the information that Ericsson provides is " IP is unreachable ", this The meaning of two information representations is identical, in order that manager and system are easy to manage, can be by Both information is converted to the state that unified management software can identify, such as by this two information systems One is defined as IP port is in access fault state.So, how the present invention is to according to described first object The information of example determines that the state obtaining described first object instance is established rules really, is not defined, ability Field technique personnel can designed, designed according to actual needs.

In addition, in actual applications, the state of described first object instance determining can be filled in institute State in the state record table of the first object instance, so that manager checks or is analyzed for system.Remove Beyond this, an information record table, described information log can also be respectively provided with for each object instance For recording the information that corresponding object instance receives, it is easy to manager and checks when needing.

Step S102：According to the state of described first object instance, and described first object instance and institute State the logic state that the dependence between the second object instance determines described second object instance.

Because described second object instance depends on the function of described first object instance real on functional realiey Existing, the state of therefore described second object instance is closely bound up with the state of described first object instance, especially It is when described first object instance breaks down it is possible to influence whether described second object instance State.In the present embodiment however, it is determined that the state of described first object instance, then according to described first Dependence between the state of object instance, and described first object instance and described second object instance is closed System determines the logic state of described second object instance, and the logic state of described second object instance is described The state that second object instance should show in theory.If the state of described first object instance is just Often state, then the logic state of described second object instance is also normal condition；If described first object The state of example is malfunction, then the state of described second object instance is probably malfunction, also may be used It can be normal condition.

If unified management software does not receive the information of described second object instance, store described second The logic state of object instance, and using the logic state of described second object instance as described second object The state of example, plays the purpose of the state updating described second object instance, improves system or management The accuracy rate that member is analyzed according to the state of described second object instance.Or, even if described unified pipe Reason software have received the information of described second object instance, but described second object being determined by information The logic state of the virtual condition of example and described second object instance simultaneously differs, then illustrate with described The corresponding information of logic state of the second object instance probably there occurs loss, and the present embodiment passes through to deposit Store up the logic state of described second object instance, and using the logic state of described second object instance as institute State one of state of the second object instance, realize updating and supplement the purpose of described second object instance state, Equally also improve system or manager according to the state of described second object instance be analyzed accurate Rate.

Certainly, if the reality of described second object instance determining according to the information of described second object instance State is identical with the logic state of described second object instance, then letter corresponding with described logic state is described Breath does not lack, and at this moment can only retain one of state.In this sense, determine What the logic state of described second object instance played in fact is an effect looking into scarce mending-leakage.

Step S103：Store the logic state of described second object instance.

The present embodiment passes through to obtain the information of described first object instance, according to described first object instance Information determines the state of described first object instance it is ensured that the state of described first object instance is updated, Then on this basis, according to the state of described first object instance, and described first object instance with Dependence between described second object instance determines the logic state of described second object instance, and deposits Store up the logic state of described second object instance.When the loss of learning of described second object instance, this reality The method applying example offer can be realized updating and supplement the purpose of described second object instance state, improves The accuracy rate that system or manager are analyzed according to described second object instance state.

Embodiment of the method two

Referring to Fig. 4, this figure is a kind of flow chart of information processing method embodiment two that the present invention provides.

The information processing method that the present embodiment provides comprises the steps:

Step S201：Obtain the information of the first object instance, true according to the information of described first object instance The state of fixed described first object instance.

Step S202：According to the state of described first object instance, and described first object instance and institute State the logic state that the dependence between the second object instance determines described second object instance, described The corresponding fault level of logic state of two object instances is logic fault grade.

Step S203：Obtain the information of the second object instance, and the information according to described second object instance Determine the virtual condition of described second object instance, the corresponding event of virtual condition of described second object instance Barrier grade is physical fault grade.

Step S204：Judge whether described virtual condition is identical with described logic state, if it is, holding Row step S205；If it is not, then execution step S206；

Step S205：Store virtual condition or the logic state of described second object instance, flow process terminates.

Step S206：Judge whether described physical fault grade is higher than described logic fault grade, if it is, Then execution step S207；If it is not, then execution step S208.

Step S207：Store the virtual condition of described second object instance, flow process terminates.

Step S208：Judge whether described logic fault grade is equal to described physical fault grade, if it is, Then execution step S209；If it is not, then execution step S210.

Step S209：Store the virtual condition of described second object instance and/or described logic state, flow process Terminate.

Step S210：Store the logic state of described second object instance, flow process terminates.

In methods described embodiment one, regardless of whether getting the information of described second object instance, all Using the logic state of described second object instance as one of the state of described second object instance, play more Effect that is new and supplementing described second object instance state.But in actual applications, if receiving described , in fact it could happen that two kinds of situations, the first is according to described second object instance for the information of the second object instance The virtual condition of described second object instance that information determines is identical with described logic state, in order to not produce Redundancy, causes unnecessary burden to system, and the present embodiment is from described virtual condition or described logic In state, both take one to be filled in the status list of described second object instance.As to how alternative, Can be any to select it is also possible to according to the priority in the status list being stored in described second object instance Order is selected, and the present invention is not specifically limited.

Second, the logic state of the virtual condition of described second object instance and described second object instance is not With.If it is the case, then explanation is lacked with the corresponding information of logic state of described second object instance Lose, described logic state and described virtual condition all can be remained in actual applications, for being System or manager are analyzed.But if fault root cause analysis will be carried out, in order to reduce economic loss, The time of processing system fault is more short better, so should first process relatively on the sequencing of handling failure Serious fault, then reprocesses less serious fault.The information producing yet with whole system is past Toward thousands of, how to find the root of more serious fault in the short period of time because most important, because This needs to find which object instance there occurs more serious fault first.In the present embodiment, if institute Virtual condition and the described logic state of stating the second object instance are inconsistent, then from described virtual condition and institute State and select a more serious state recording in logic state in described status list, so that manager Or system quickly finds the state of described second object instance most serious from described state recording and carries out Fault root cause analysis.As to how selecting more serious from described virtual condition and described logic state State, corresponding for described virtual condition fault level is referred to as physical fault grade by the present embodiment, will be described The corresponding fault level of logic state is referred to as logic fault grade, and fault level is higher to represent failure condition more Seriously, the Status Type of described logic state and described virtual condition includes normal condition and malfunction, The fault level of normal condition is minimum, and for example, the fault level of normal condition could be arranged to 0 grade, that The fault level of malfunction is above 0 grade.If described physical fault grade is higher than described logic event Barrier grade, then using described virtual condition as the state of described second object instance, and be stored in described the In the status list of two object instances；If described physical fault grade is less than described logic fault grade, Using described logic state as the state of described second object instance, and it is stored in described second object instance Status list in；If described physical fault grade is equal to described logic fault grade, can be by described reality Border state and/or logic state, as the state of described second object instance, are stored in described second object real In the status list of example.Filter out the more serious state of described second object instance using fault level, Decrease fault estimator calculating time, improve fault root because analysis efficiency.

In addition, described step S201 to the sequencing of step S210 that the present embodiment provides is not constituted Limitation of the invention, in actual applications, described step S203 might not be after step S202 Occur, as long as occurring before the execution of step S204.

Embodiment of the method three

Referring to Fig. 5, this figure is a kind of flow chart of information processing method embodiment three that the present invention provides.

The information processing method that the present embodiment provides comprises the steps:

Step S301：Obtain the information of the first object instance, the information of described first object instance includes institute State the first information of the first object instance and the second information of described first object instance.Step S302：Root Determine the first state of described first object instance according to the first information of described first object instance, described The corresponding fault level of one state is Fisrt fault grade.

Step S303：Described first object instance is determined according to the second information of described first object instance Second state, the corresponding fault level of described second state is the second fault level.

Step S304：Judge whether described first state is identical with described second state, if it is, holding Row step S305；If it is not, then execution step S306.

Step S305：Using described first state or described second state as described first object instance shape State.

Step S306：Judge whether described Fisrt fault grade is higher than described second fault level, if it is, Then execution step S307；If it is not, then execution step S308.

Step S307：Using described first state as the state of described first object instance, then execute step Rapid S310.

Step S308：Judge whether described Fisrt fault grade is equal to described second fault level, if not, Then execution step S309；If it is, execution step S310.

Step S309：Using described second state as the state of described first object instance, then execute step Rapid S311.

Step S310：Using described first state and/or described second state as described first object instance State, then execution step S311.

Step S311：According to the state of described first object instance, and described first object instance and institute State the logic state that the dependence between the second object instance determines described second object instance.

Step S312：Store the logic state of described second object instance, flow process terminates.

May there is the situation that described first object instance receives multiple information in actual applications, In this case, the state of described first object instance being determined respectively according to this multiple information may be identical, It is likely to difference.The present embodiment is real as described first object using the described first information and described second information Example receives the representative of multiple information, when described first object instance being determined according to the described first information First state, when identical with the second state of described first object instance being determined according to described second information, In order to avoid information redundancy, only retain wherein to a state.In embodiment of the method two, in order to Can find within a short period of time the root of more serious fault because, when described second object instance receives information, and When being differed with calculated logic state according to the virtual condition that described information determines, from described reality More serious state is selected as the state of described second object instance in state and described logic state. The present embodiment emphasis is directed to another scene, that is, when described first object instance receives multiple information, How to improve fault root because of search efficiency.The present embodiment using the described first information and described second information as The representative of multiple information, determines the first state of described first object instance, institute according to the described first information The corresponding fault level of first state stating the first object instance is Fisrt fault grade；According to described second Information determines the second state of described first object instance, and the corresponding fault level of described second state is the Two fault levels.Fault level is higher to represent that failure condition is more serious, described first state and described second The Status Type of state includes normal condition and malfunction, and the fault level of normal condition is minimum.

On the premise of described first state and described second state differ, if described Fisrt fault grade Higher than described second fault level, then using described first state as described first object instance state； If described Fisrt fault grade is less than described second fault level, using described second state as described the The state of one object instance；If described Fisrt fault grade is equal to described second fault level, will be described First state and/or described second state are as the state of described first object instance.Carried by the present embodiment For information processing method, only retain the more serious state of described first object instance, and thus Decrease the quantity of the logic state of described second object instance, effectively increase manager or system searching Fault root because efficiency.

Although it is understood that the scene of methods described embodiment two and methods described are implemented by the present invention The scene of example three makes a distinction as single two scenes, but in actual applications, both scenes May occur simultaneously, therefore in another embodiment, can be by described step S201 to described step Rapid S210, and described step S301 to described step S312 permeates a method flow, due to length Limited, be will not be described here.

Embodiment of the method four

Referring to Fig. 6, this figure is a kind of flow chart of information processing method example IV that the present invention provides.

The information processing method that the present embodiment provides comprises the steps:

Step S401：Obtain the information of the first object instance, true according to the information of described first object instance The state of fixed described first object instance.

Step S402：According to the state of described first object instance, and described first object instance and institute State the logic state that the dependence between the second object instance determines described second object instance.

Step S403：Store the logic state of described second object instance.

Step S404：According to the state of described second object instance, and described second object instance and institute State the logic state that the dependence between the 3rd object instance determines described 3rd object instance.

Step S405：Store the logic state of described 3rd object instance.

Methods described embodiment one all has the right of dependence mainly for two to methods described embodiment three As example, and the first object instance being relied on has information, and the information of the second object instance relying on How the situation of disappearance, update and supplement the state of described second object instance.In actual applications, and It is not the object instance of each missing information, the object instance that it directly relies on all has information, then In this case the state of the object instance how side information lacks？In order to solve this technical problem, The present embodiment, on the basis of described first object instance and described second object instance, is provided with the 3rd right As example, the functional realiey of described 3rd object instance depends on the functional realiey of described second object instance, And the information of described 3rd object instance also lacks.The present embodiment is first according to the institute with information The state stating the first object instance extrapolates the logic state of described second object instance, right by described second As example logic state as described second object instance state, then, right further according to described second As the state of example, and described second object instance is calculated with the dependence of described 3rd object instance Go out the logic state of described 3rd object instance, and using the logic state of described 3rd object instance as institute State the state of the 3rd object instance.So, even if the loss of learning of described 3rd object instance, described The state of three object instances is also can be updated and supplement.

For example, in Fig. 2, the functional realiey of IP port depends on the functional realiey of Lan port A, institute The functional realiey stating Lan port A depends on the functional realiey of described physical port A, if physical port A fault then can lead to Lan port A access fault, and Lan port A access fault can lead to IP end Mouth access fault, therefore in the ideal case, system should receive " physical port A fault ", " Lan Port A access fault " and " IP port access fault " three information, and according to " physical port A The information of fault " determines that the state of described physical port A is fault, according to " Lan port A accesses event The information of barrier " determines that the state of Lan port A is access fault, according to " IP port access fault " Information determines that the state of IP port is access fault.But the information that actually system receives is " physics Port A fault " and " IP packet loss exceeds threshold value ", it is not received by " Lan port A access fault " The information of " IP port access fault ", then, the information processing method being provided using the present embodiment, State according to physical port A fault and described Lan port A depend on described physical port A according to Bad relation, can determine that the state of described Lan port A is Lan port A access fault；According to Lan Port A access fault and described IP port depend on the dependence of described Lan port A, can be true The state of fixed described IP port is IP port access fault.Therefore, the state of described Lan port A obtains Arrive renewal, the state of described IP port has obtained supplement.When system utilizes fault estimator to analyze, Can be according to physical port A fault, Lan port A access fault, IP port access fault and IP packet loss Rate exceeds threshold value to determine the basic reason that fault produces, and improves the accuracy rate of fault root cause analysis.

Embodiment of the method five

Referring to Fig. 7, this figure is a kind of flow chart of information processing method embodiment five that the present invention provides.

The information processing method that the present embodiment provides comprises the steps:

Step S401：Obtain the information of the first object instance, true according to the information of described first object instance The state of fixed described first object instance.

Step S402：According to the state of described first object instance, and described first object instance and institute State the logic state that the dependence between the second object instance determines described second object instance.

Step S403：Store the logic state of described second object instance.

Step S404：According to the dependence between described first object instance and described second object instance, And the dependence between described 4th object instance and described second object instance, obtain described first Dependence between object instance and described 4th object instance.

Step S405：According to the state of described first object instance, and described first object instance and institute State the logic state that the dependence between the 4th object instance determines described 4th object instance.

Step S406：Store the logic state of described 4th object instance.

Embodiment of the method four is extrapolated to be not directly dependent on by the way of successively calculating has the first of information The logic state of the 3rd object instance of object instance, and in the present embodiment, for being not directly dependent on 4th object instance of described first object instance, can pass through described first object instance and described second Dependence between object instance, and described second object instance and described 4th object instance according to Bad relation, obtains the dependence between described first object instance and described 4th object instance, in conjunction with The state of described first object instance, extrapolates the logic state of described 4th object instance, by described The logic state of four object instances is as the state of described 4th object instance.Both approaches can obtain To the state of other object instances indirectly depending on described first object instance with information, realize it The renewal of the state of his object instance.

Device embodiment one

Referring to Fig. 8, this figure is a kind of structured flowchart of information processor embodiment one that the present invention provides.

The information processor that the present embodiment provides is applied to the described data center model of present invention offer, Wherein, described data center model includes the first object instance and the second object instance, described first object Example and described second object instance have described dependence, and the function of described second object instance is real Now depend on the functional realiey of described first object instance.

Described device includes：First acquisition unit 11, the first determining unit 12, logic state determining unit 13 and first memory element 14, described first acquisition unit 11 is connected with described first determining unit 12, Described first determining unit 12 is connected with described logic state determining unit 13, and described logic state determines Unit 13 is connected with described first memory element 14；

Described first acquisition unit 11, for obtaining the information of the first object instance；

Described first determining unit 12, for determining described first according to the information of described first object instance The state of object instance；

Described logic state determining unit 13, for the state according to described first object instance, Yi Jisuo State the dependence between the first object instance and described second object instance and determine described second object instance Logic state；

Described first memory element 14, for storing the logic state of described second object instance.

The present embodiment passes through to obtain the information of described first object instance, according to described first object instance Information determines the state of described first object instance it is ensured that the state of described first object instance is updated, Then on this basis, according to the state of described first object instance, and described first object instance with Dependence between described second object instance determines the logic state of described second object instance, and deposits Store up the logic state of described second object instance.When the loss of learning of described second object instance, this reality The method applying example offer can be realized updating and supplement the purpose of described second object instance state, improves The accuracy rate that system or manager are analyzed according to described second object instance state.

Device embodiment two

Referring to Fig. 9, this figure is a kind of structured flowchart of information processor embodiment two that the present invention provides.

On the basis of described device embodiment one, described device also includes：Second acquisition unit 15 and Two determining units 16, described second acquisition unit 15 is connected with described second determining unit 16, and described Two determining units 16 are connected with described first memory element 14.

Described second acquisition unit 15, for obtaining the information of described second object instance.

Described second determining unit 16, for determining described second according to the information of described second object instance The virtual condition of object instance.

Described first memory element 14 includes：First storing sub-units 141, the second storing sub-units 142, 3rd storing sub-units 143 or the 4th storing sub-units 144.

Described first storing sub-units 141, if identical with described logic state for described virtual condition, deposit Store up virtual condition or the logic state of described second object instance.

Described second storing sub-units 142, if differing with described logic state for described virtual condition, And described physical fault grade is higher than described logic fault grade, stores the reality of described second object instance State.

Described 3rd storing sub-units 143, if differing with described logic state for described virtual condition, And described logic fault grade is higher than described physical fault grade, stores the logic of described second object instance State.

Described 4th storing sub-units 144, if be equal to described logic fault etc. for described physical fault grade Level, stores the logic state of described second object instance and/or described virtual condition.

Wherein, the corresponding fault level of logic state of described second object instance is logic fault grade； The corresponding fault level of virtual condition of described second object instance is physical fault grade.

The present embodiment filters out the more serious state of described second object instance using fault level, subtracts Lacked fault estimator calculating time, improve fault root because analysis efficiency.Additionally, in this reality Shi Zhong, the information of described first object instance includes the first information and described of described first object instance Second information of one object instance.

Described first determining unit 12, for determining described first according to the information of described first object instance The state of object instance includes：

Described first determining unit 12, for described in the first information determination according to described first object instance The first state of the first object instance；Determine described first according to the second information of described first object instance Second state of object instance；Wherein, the corresponding fault level of described first state is Fisrt fault grade, The corresponding fault level of described second state is the second fault level；

If described first state is identical with described second state, by described first state or described second shape State is as the state of described first object instance；

If described first state is different from described second state, and described Fisrt fault grade is higher than described the Two fault levels, then using described first state as described first object instance state；

If described first state is different from described second state, and described second fault level is higher than described the One fault level, then using described second state as described first object instance state；

If described first state is different from described second state, and described Fisrt fault grade is equal to described the Two fault levels, then using described first state and/or described second state as described first object instance State.

In this embodiment, when described first object instance has more than one state, only retain described The more serious state of one object instance, and thus also reduce the logic shape of described second object instance The quantity of state, effectively increase manager or system searching fault root because efficiency.

Device embodiment three

Referring to Figure 10, this figure is a kind of structured flowchart of information processor embodiment three that the present invention provides.

In the present embodiment, described data center model also includes the 3rd object instance, described 3rd object Example and described second object instance have described dependence, the functional realiey of described 3rd object instance Depend on the functional realiey of described second object instance.

Described device embodiment one or in described device embodiment two (in described device not shown in Figure 10 Situation on the basis of embodiment two) on the basis of, described device also includes：3rd determining unit 17 and Two memory element 18；Described first memory element 14 is connected with described 3rd determining unit 17, and described Three determining units 17 are connected with described second memory element 18；

Described 3rd determining unit 17, for the state according to described second object instance, and described Dependence between two object instances and described 3rd object instance determines patrolling of described 3rd object instance The state of collecting；

Described second memory element 18, for storing the logic state of described 3rd object instance.

The present embodiment is extrapolated by the way of successively calculating and is not directly dependent on first object with information The logic state of the 3rd object instance of example, realizes the renewal of the state of the 3rd object instance.

Device embodiment four

Referring to Figure 11, this figure is a kind of structured flowchart of information processor example IV that the present invention provides.

Described data center model also includes the 4th object instance, described 4th object instance and described second Object instance has described dependence, and the functional realiey of described 4th object instance depends on described second The functional realiey of object instance；

Described device embodiment one or in described device embodiment two (in described device not shown in Figure 11 Situation on the basis of embodiment two) on the basis of, described device also includes：Dependence computing unit 19, 4th determining unit 20 and the 3rd memory element 21；Described first memory element 14 and described dependence Computing unit 19 connects, and described dependence computing unit 19 is connected with described 4th determining unit 20, Described 4th determining unit 20 is connected with described 3rd memory element 21；

Dependence computing unit 19, for according to described first object instance and described second object instance Between dependence, and dependence between described 4th object instance and described second object instance closes System, obtains the dependence between described first object instance and described 4th object instance；

Described 4th determining unit 20, for the state according to described first object instance, and described Dependence between one object instance and described 4th object instance determines patrolling of described 4th object instance The state of collecting；

Described 3rd memory element 21, for storing the logic state of described 4th object instance.

The present embodiment passes through to close according to the dependence between described first object instance and described second object instance System, and the dependence between described 4th object instance and described second object instance, obtain described Dependence between first object instance and described 4th object instance, and real according to described first object The state of example, and the dependence reckoning between described first object instance and described 4th object instance Go out the logic state of the 4th object instance being not directly dependent on first object instance with information, realize The renewal of the state of the 4th object instance.

" first " of the first object instance mentioned in the embodiment of the present invention is used only to do name mark, Do not represent first sequentially.This rule is equally applicable to " second ".

One of ordinary skill in the art will appreciate that：Realize all or part of step of said method embodiment Can be completed by the related hardware of programmed instruction, foregoing routine can be stored in an embodied on computer readable In storage medium, this program upon execution, executes the step including said method embodiment；And it is aforesaid Storage medium can be at least one in following media：Read only memory (English：read-only Memory, abbreviation：ROM), RAM, magnetic disc or CD etc. are various can be with Jie of store program codes Matter.

It should be noted that each embodiment in this specification is all described by the way of going forward one by one, each Between embodiment identical similar partly mutually referring to what each embodiment stressed is and it The difference of his embodiment.For equipment and system embodiment, due to its basic simlarity In embodiment of the method, so describing fairly simple, referring to the part explanation of embodiment of the method in place of correlation ?.Equipment described above and system embodiment are only schematically, wherein as separating component The unit illustrating can be or may not be physically separate, the part showing as unit is permissible It is or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On NE.Some or all of module therein can be selected according to the actual needs to realize this reality Apply the purpose of a scheme.Those of ordinary skill in the art are not in the case of paying creative work, you can To understand and to implement.

The above, the only present invention preferably specific embodiment, but protection scope of the present invention is not Be confined to this, any those familiar with the art the invention discloses technical scope in, can The change or replacement readily occurring in, all should be included within the scope of the present invention.Therefore, the present invention Protection domain should be defined by scope of the claims.

Claims (16)

1. a kind of data center model it is characterised in that described model include physical layer and at least one Network topology layer, described physical layer includes the connection between physical object example and described physical object example Relation；Described network topology layer includes being shown in described network topology layer according to described physical object example The object logic example set up of logic function, and the annexation between described object logic example； Described physical object example and described object logic example are referred to as object instance；

Described model also includes the dependence between described object instance, and described dependence refers to one The functional realiey of object instance depends on the functional realiey of another object instance.

2. model according to claim 1 is it is characterised in that described dependence includes subordinate Relation and mapping relations, wherein, described membership relation refers to object instance subordinate in functional structure In another one object instance, the object instance of subordinate depends on by the object of subordinate in fact on functional realiey The functional realiey of example；

Described mapping relations refer to that an object instance of low-level and this object instance show in high-level Relation between the object instance that the logic function going out is set up.

3. a kind of information processing method is it is characterised in that methods described is applied to described claim 1 Or the data center model described in 2, described data center model includes the first object instance and the second object Example, described first object instance and described second object instance have described dependence, and described the The functional realiey of two object instances depends on the functional realiey of described first object instance；

Methods described includes：

Obtain the information of the first object instance, determine described first according to the information of described first object instance The state of object instance；

According to the state of described first object instance, and described first object instance and described second object Dependence between example determines the logic state of described second object instance；

Store the logic state of described second object instance.

4. method according to claim 3 is it is characterised in that methods described also includes：

Obtain the information of described second object instance, and institute is determined according to the information of described second object instance State the virtual condition of the second object instance；

If described virtual condition is identical with described logic state, described store the patrolling of described second object instance The state of collecting is specially：

Store the virtual condition of described second object instance or described logic state.

5. method according to claim 4 is it is characterised in that the logic of described second object instance The corresponding fault level of state is logic fault grade；The virtual condition of described second object instance is corresponding Fault level is physical fault grade；

If described virtual condition is differed with described logic state, described second object instance of described storage Logic state includes：

If described physical fault grade is higher than described logic fault grade, store described second object instance Virtual condition；

If described logic fault grade is higher than described physical fault grade, store described second object instance Logic state；

If described physical fault grade is equal to described logic fault grade, store described second object instance Logic state and/or described virtual condition.

6. the method according to claim 3 to 5 any one is it is characterised in that described first is right As the information of example includes the first information of described first object instance and the second of described first object instance Information；

The described information according to described first object instance determines that the state of described first object instance includes：

Determine the first state of described first object instance according to the first information of described first object instance；

Determine the second state of described first object instance according to the second information of described first object instance；

If described first state is identical with described second state, by described first state or described second shape State is as the state of described first object instance.

7. method according to claim 6 is it is characterised in that the corresponding fault of described first state Grade is Fisrt fault grade, and the corresponding fault level of described second state is the second fault level；

If described first state is different from described second state, and described Fisrt fault grade is higher than described the Two fault levels, then using described first state as described first object instance state；

If described first state is different from described second state, and described second fault level is higher than described the One fault level, then using described second state as described first object instance state；

If described first state is different from described second state, and described Fisrt fault grade is equal to described the Two fault levels, then using described first state and/or described second state as described first object instance State.

8. method according to claim 3 is it is characterised in that described data center model also includes 3rd object instance, described 3rd object instance and described second object instance have described dependence, The functional realiey of described 3rd object instance depends on the functional realiey of described second object instance；

After storing the logic state of described second object instance, methods described also includes：

According to the state of described second object instance, and described second object instance and described 3rd object Dependence between example determines the logic state of described 3rd object instance；

Store the logic state of described 3rd object instance.

9. method according to claim 3 is it is characterised in that described data center model also includes 4th object instance, described 4th object instance and described second object instance have described dependence, The functional realiey of described 4th object instance depends on the functional realiey of described second object instance；

After storing the logic state of described second object instance, methods described also includes：

According to the dependence between described first object instance and described second object instance and described Dependence between 4th object instance and described second object instance, obtains described first object instance Dependence and described 4th object instance between；

According to the state of described first object instance, and described first object instance and described 4th object Dependence between example determines the logic state of described 4th object instance；

Store the logic state of described 4th object instance.

10. a kind of information processor is it is characterised in that described device is applied to described claim 1 Or the data center model described in 2, described data center model includes the first object instance and the second object Example, described first object instance and described second object instance have described dependence, and described the The functional realiey of two object instances depends on the functional realiey of described first object instance；

Described device includes：First acquisition unit, the first determining unit, logic state determining unit and One memory element, described first acquisition unit is connected with described first determining unit, and described first determines list First and described logic state determining unit is connected, and described logic state determining unit is single with described first storage Unit connects；

Described first acquisition unit, for obtaining the information of the first object instance；

According to the information of described first object instance, described first determining unit, for determining that described first is right State as example；Described logic state determining unit, for the state according to described first object instance, And the dependence between described first object instance and described second object instance determines that described second is right Logic state as example；

Described first memory element, for storing the logic state of described second object instance.

11. devices according to claim 10 are it is characterised in that described device also includes：Second Acquiring unit and the second determining unit, described second acquisition unit is connected with described second determining unit, institute State the second determining unit to be connected with described first memory element；

Described second acquisition unit, for obtaining the information of described second object instance；

According to the information of described second object instance, described second determining unit, for determining that described second is right Virtual condition as example；

Described first memory element includes：First storing sub-units；

Described first storing sub-units, if identical with described logic state for described virtual condition, storage The virtual condition of described second object instance or logic state.

12. devices according to claim 11 are it is characterised in that described device also includes：

The corresponding fault level of logic state of described second object instance is logic fault grade；Described The corresponding fault level of virtual condition of two object instances is physical fault grade；

Described first memory element includes：Second storing sub-units, the 3rd storing sub-units or the 4th storage Subelement；

Described second storing sub-units, if differing with described logic state for described virtual condition, and Described physical fault grade is higher than described logic fault grade, stores the actual shape of described second object instance State；

Described 3rd storing sub-units, if differing with described logic state for described virtual condition, and Described logic fault grade is higher than described physical fault grade, stores the logic shape of described second object instance State；

Described 4th storing sub-units, if being equal to described logic fault grade for described physical fault grade, Store the logic state of described second object instance and/or described virtual condition.

13. devices according to claim 10 to 12 any one are it is characterised in that described The information of one object instance includes the first information of described first object instance and described first object instance Second information；

According to the information of described first object instance, described first determining unit, for determining that described first is right State as example includes：

Described first determining unit, for determining described according to the first information of described first object instance The first state of one object instance；Determine that described first is right according to the second information of described first object instance The second state as example；If described first state is identical with described second state, by described first shape State or described second state are as the state of described first object instance.

14. devices according to claim 13 are it is characterised in that described first state is corresponding former Barrier grade is Fisrt fault grade, and the corresponding fault level of described second state is the second fault level；

Described first determining unit, is additionally operable to：

If described first state is different from described second state, and described Fisrt fault grade is higher than described the Two fault levels, then using described first state as described first object instance state；

If described first state is different from described second state, and described second fault level is higher than described the One fault level, then using described second state as described first object instance state；

If described first state is different from described second state, and described Fisrt fault grade is equal to described the Two fault levels, then using described first state and/or described second state as described first object instance State.

15. devices according to claim 10 are it is characterised in that described data center model also wraps Include the 3rd object instance, described 3rd object instance and described second object instance have described dependence, The functional realiey of described 3rd object instance depends on the functional realiey of described second object instance；

Described device also includes：3rd determining unit and the second memory element；Described first memory element with Described 3rd determining unit connects, and described 3rd determining unit is connected with described second memory element；

Described 3rd determining unit, for the state according to described second object instance, and described second Dependence between object instance and described 3rd object instance determines the logic of described 3rd object instance State；

Described second memory element, for storing the logic state of described 3rd object instance.

16. devices according to claim 10 are it is characterised in that described data center model also wraps Include the 4th object instance, described 4th object instance and described second object instance have described dependence, The functional realiey of described 4th object instance depends on the functional realiey of described second object instance；

Described device also includes：Dependence computing unit, the 4th determining unit and the 3rd memory element； Described first memory element is connected with described dependence computing unit, described dependence computing unit with Described 4th determining unit connects, and described 4th determining unit is connected with described 3rd memory element；

Dependence computing unit, for according to described first object instance and described second object instance it Between dependence, and the dependence between described 4th object instance and described second object instance, Obtain the dependence between described first object instance and described 4th object instance；

Described 4th determining unit, for the state according to described first object instance, and described first Dependence between object instance and described 4th object instance determines the logic of described 4th object instance State；

Described 3rd memory element, for storing the logic state of described 4th object instance.