CN105791018A - NFV network element configuration method and system - Google Patents

Abstract

The invention provides a network-function-virtualization (NFV) network element configuration method and system. A corresponding relation between meta information and super meta information of base station types under various core network elements is established; correspondence between meta information and super meta information of various manufactures and base stations with different types is carried out; when a core network element is generated in a virtualized mode, the correspondence relation is queried according to the type of the core network element and a base station type of a to-be-configured base station, so that meta information of the to-be-configured base station is obtained; and thus a configuration file that can be identified by the to-be-configured base station is generated and is sent to the to-be-configured base station, so that automatic configuration of the base station is realized. Therefore, a configuration server can generate a configuration file of a to-be-configured base station with a needed type automatically without hand-operated configuration by the technical staff of the corresponding manufacturer, so that the labor cost is saved, the access capability of the base station equipment is improved, and the automatic demand of elastic capability expansion of the NFV system is satisfied.

Description

A kind of NFV network element configuration method and system

Technical field

The present invention relates to communication technical field, be specifically related to a kind of NFV network element configuration method and system.

Background technology

Along with the maturation gradually of network virtualization technology, based on NFV (NetworkFunctionVirtualization, network function virtualizes) technology, traditional Telecommunication Network Element is virtualized into as important development trend.

As shown in Figure 1, existing 4G (forth generation mobile communication technology) core net includes MME (MobilityManagementEntity, mobile management entity), PGW (PDNGateWay, PDN Gateway), SGW (ServingGateWay, gateway), HSS (HomeSubscriberServer, home signature user server) etc. network element, by NFV system, MME, PGW, SGW virtual can both turn to virtualization network element, and can on-demand generation and destruction.UE (UserEquipment, subscriber equipment), such as mobile phone etc., online needs to first pass through wireless communication link and accesses eNB (base station) equipment, again through SGW and the MME network element of eNB equipment access of virtual.NFV system tenability resilient expansion based on cloud computing, namely when virtual SGW and the MME performance based on cloud cannot meet demand, more SGW and MME dummy node can be generated, SGW and the MME dummy node that these are new can be accessed in some eNB base stations, make more user have access to network, do not affect the experience of accessed user simultaneously.

But, in order to realize the elastic telescopic of core net ability, when eNB core network access, configure firstly the need of to the eNB accessed, configuration work is under normal circumstances by being accomplished manually, owing to eNB cannot realize automatic configuration, it is difficult to ensure that subscriber equipment is correct, access the Virtual NE such as newly-generated MME, SGW, PGW in time, more mobile subscriber also just cannot be received to access.Therefore, even if achieve the elastic telescopic of core network element based on NFV system, if the allocation problem of eNB cannot effectively be solved, then the ability servicing user still cannot promote, thus automatization's demand of system capability elastic telescopic cannot be met.

Therefore, a kind of NFV network element configuration scheme is needed badly, to solve above-mentioned technical problem.

Summary of the invention

The present invention is directed to above shortcomings in prior art, it is provided that a kind of NFV network element configuration method and system, in order to solve the problem that in NFV system, base station cannot automatically configure.

The present invention solves above-mentioned technical problem, adopt the following technical scheme that

The present invention provides a kind of NFV network element configuration method, is applied to include in the NFV network element configuration system of configuration service device, and in described system, storage has the metamessage of the base station model under all types of core network element and the corresponding relation of super metamessage, and described method includes:

When virtualization generates core network element, configuration service device obtains the base station model of base station to be configured and the type of virtualization core network element；

Type according to described core network element, the base station model of base station to be configured and described corresponding relation, it is determined that the metamessage of the base station to be configured under described core network element type；

Generate the configuration file of described base station to be configured according to described metamessage, and described configuration file is sent to described base station to be configured, so that described base station to be configured configures described configuration file.

The present invention provides a kind of NFV network element configuration system, and in described system, storage has the metamessage of the base station model under all types of core network element and the corresponding relation of super metamessage, and described system includes configuration service device；

Configuration service device is used for, and when virtualization generates core network element, configuration service device obtains the base station model of base station to be configured and the type of virtualization core network element；Type according to described core network element, the base station model of base station to be configured and described corresponding relation, it is determined that the metamessage of the base station to be configured under described core network element type；Generate the configuration file of described base station to be configured according to described metamessage, and described configuration file is sent to described base station to be configured, so that described base station to be configured configures described configuration file.

nullThe corresponding relation of present invention metamessage with super metamessage by setting up the base station model under all types of core network element，By different each production firm、The metamessage of the base station of each model is corresponding with super metamessage，When virtualization generates core network element，Type according to this core network element、The base station model of base station to be configured inquires about described corresponding relation，The metamessage of base station to be configured can be obtained，Thus generating the configuration file that base station to be configured is capable of identify that，And this configuration file is sent to described base station to be configured，Realize automatically configuring of base station，The corresponding relation of metamessage Yu super metamessage by setting up and improve the base station model under all types of core network element，The configuration file of the base station to be configured of required model can be automatically generated by configuration service device，Technical staff's manual configuration without corresponding manufacturer，Save cost of labor，Improve the access capability of base station equipment，Meet automatization's demand of NFV system capability elastic telescopic.

Accompanying drawing explanation

Fig. 1 is the network architecture schematic diagram of existing 4G core net；

The NFV network element configuration system architecture diagram that Fig. 2 provides for the embodiment of the present invention；

The NFV network element configuration schematic flow sheet that Fig. 3 provides for the embodiment of the present invention；

Test that Fig. 4 provides for the embodiment of the present invention and repair schematic flow sheet.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the present invention, the technical scheme in the present invention is carried out clear, complete description, it is clear that described embodiment is a part of embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under the premise not making creative work, broadly fall into the scope of protection of the invention.

Inventors herein have recognized that, owing to base station equipment model is numerous, configuration item is numerous and diverse and names widely different, if the simple mode performed by script carries out automatic configuration error-prone, if by the base station core network access of configuration error, being likely to result in immeasurable loss.In order to solve to automatically configure the contradiction with accuracy, the present invention proposes a kind of NFV network element configuration scheme, the corresponding relation of metamessage Yu super metamessage by setting up the base station model under all types of core network element, by corresponding with super metamessage for the metamessage of different each production firm, the base station of each model, when virtualization generates core network element, utilize this corresponding relation can obtain the metamessage of base station to be configured, and generate the configuration file that base station to be configured is capable of identify that, thus realize automatically configuring of base station equipment prosthetic intervention.

Referring to Fig. 2, for the NFV network element configuration system architecture diagram that the embodiment of the present invention provides.As in figure 2 it is shown, this NFV network element configuration system includes configuration service device, super metadatabase, it is also possible to include testing service device and remediation server.

Super metadatabase is for storing the metamessage of the base station configuration file of all models, and the corresponding relation of the metamessage of the base station model under all types of core network element and super metamessage.Different vendor, different model base station the variable naming of same item information is likely to inconsistent, therefore, when generating configuration file, it is necessary to on-demand change.Metamessage refers to each manufacturer, the distinctive variable naming information in each model base station.Super metamessage is the metamessage of metamessage, by the same variable Uniform Name of each manufacturer, each model base station obtains the super metamessage of this variable.Super metamessage can represent with XMLSchema form, and the metamessage of all types of base station equipments is all the subset of this super metamessage.

The metamessage of the base station model under all types of core network elements and the corresponding relation of super metamessage can be stored by list structure, and this list structure is as shown in table 1:

Table 1

With the first behavior example in table 1, in Huawei's eNB equipment, the reference address of MME is represented by variable MME_URL, in in emerging eNB equipment the reference address of MME represented by variable MME_Add, in Ericsson's eNB equipment, the reference address of MME is represented by variable MME_EntryPoint, and in super metamessage, being represented by MME_AP, table 1 can flexible expansion

By big data system, based on the information model of the base station configuration file being manually entered, super metadatabase can build the semantic database of configuration information, when base station equipment in new type adds excess of imports metadatabase, the corresponding relation of the metamessage of super metamessage and this base station equipment can automatically generate based on this semantic database.

As core network element (such as MME, SGW, PGW) that the on-demand generation of NFV system is new, configuration service device can generate corresponding configuration file according to the model of base station to be configured, and be handed down to this base station to be configured, and notify that testing service device runs predefined functional test scheme.

Testing service device internal memory contains the functional test use-case that each model base station equipment provides in advance, and after configuration file has configured, base station can be carried out functional test by testing service device,

Remediation server for repairing after base station equipment functional test failure.

Below in conjunction with Fig. 2 and Fig. 3, the NFV network element configuration method of the present invention is described in detail.As it is shown on figure 3, the method comprises the following steps:

Step 301, when virtualization generates core network element, configuration service device obtains the base station model of base station to be configured and the type of virtualization core network element.

Concrete, configuration service device obtains the specific implementation of the base station model of base station to be configured and the type of virtualization core network element and belongs to prior art, does not repeat them here.

Step 302, according to the type of described core network element, the base station model of base station to be configured and described corresponding relation, it is determined that the metamessage of the base station to be configured under described core network element type.

Concrete, the type of the configuration service device concrete model for base station to be configured and core network element, in super metadatabase, retrieve table 1, obtain the metamessage (i.e. the value of configuration item) of this base station to be configured of correspondence.

Step 303, generates the configuration file of described base station to be configured, and described configuration file is sent to described base station to be configured according to described metamessage, so that described base station to be configured configures described configuration file.

Concrete, the value of the configuration item got is inserted in the configuration file of this base station to be configured by configuration service device.Obtain the value of each configuration item of base station to be configured in the manner described above respectively, and configuration items all in configuration file are all filled in complete, thus generating the configuration file that this base station equipment to be configured is capable of identify that.

Described configuration file is sent to described base station to be configured by configuration service device, so that described base station to be configured configures described configuration file, thus realizing automatically configuring of base station equipment.

nullBe can be seen that by step 301-303，The corresponding relation of present invention metamessage with super metamessage by setting up the base station model under all types of core network element，By different each production firm、The metamessage of the base station of each model is corresponding with super metamessage，When virtualization generates core network element，Type according to this core network element、The base station model of base station to be configured inquires about described corresponding relation，The metamessage of base station to be configured can be obtained，Thus generating the configuration file that base station to be configured is capable of identify that，And this configuration file is sent to described base station to be configured，Realize automatically configuring of base station，The corresponding relation of metamessage Yu super metamessage by setting up and improve the base station model under all types of core network element，The configuration file of the base station to be configured of required model can be automatically generated by configuration service device，Technical staff's manual configuration without corresponding manufacturer，Save cost of labor，Improve the access capability of base station equipment，Meet automatization's demand of NFV system capability elastic telescopic.

Further, for the accuracy configured, after base station to be configured configures described configuration file, it is also possible to this base station to be configured is carried out functional test, to verify that whether configuration file is correct, and when functional test failure, do further reparation.

Describing this test in detail below in conjunction with Fig. 4 and repair flow process, as shown in Figure 4, described flow process comprises the following steps:

Step 401, configuration service device sends test request to testing service device.

Wherein, described test request carries the address of base station to be configured, the address of base station to be configured is when virtualization generates core network element, configuration service device obtains, that is, when virtualization generates core network element, configuration service device not only obtains the base station model of base station to be configured and the type of virtualization core network element, also obtains the address of base station to be configured.

The address of base station to be configured is carried in test request by configuration service device, and test request is sent to testing service device, so that corresponding base station is carried out functional test by testing service device.

Step 402-403, described base station to be configured is carried out functional test according to the address of base station to be configured by testing service device, if the functional test failure of base station to be configured, then performs step 404, and otherwise, process ends, reaches the standard grade in base station to be configured.

Concrete, if the functional test failure of base station to be configured, illustrate that the configuration file of base station to be configured is incorrect, it is necessary to carry out repairing (namely performing step 404).If the test function success of base station to be configured, illustrate that the configuration file of base station to be configured is correct, it is possible to be formally loaded on base station to be configured by this configuration file, complete the configuration of base station, and make this base station core network access, thus providing mobile broadband access service.

Step 404, testing service device sends, to remediation server, the request of reparation.

Concrete, when the functional test failure of base station to be configured, testing service device obtains the failure identification for representing fault type, and sends, to remediation server, the request of reparation, this failure identification is carried, so that this test failure is repaired by remediation server in this reparation is asked.

Step 405-406, remediation server inquires about repair data storehouse according to failure identification, if inquiring corresponding reparation script or manually repairing Operation Log, then performs step 407, otherwise, performs step 408.

Concrete, remediation server internal memory contains repair data storehouse, repair data storehouse internal memory contains reparation script corresponding to test failure type (i.e. failure identification) or manually repairs Operation Log, for same type of test failure, can there is multiple reparation script in repair data storehouse or manually repair Operation Log.Repairing the historical record that the remediation server that script is the type fault is repaired automatically, artificial reparation Operation Log is the reparation record manually of the type fault.

Corresponding repair script if remediation server inquires according to failure identification or manually repair Operation Log, then to this reparation script of described base station applies to be configured or manually repair Operation Log (namely performing step 407).

If remediation server does not inquire corresponding reparation script according to failure identification or manually repairs Operation Log, then illustrate that the historical record automatically do not repaired in history reparation record is also without the artificial historical record repaired, that is, do not occur before the fault of the type, then ask base station to be configured described in artificial manual configuration (namely performing step 408).

Step 407, applies described reparation script or artificial Operation Log of repairing to repair on described base station to be configured.

Concrete, when base station to be configured has been repaired by remediation server, remediation server sends reparation to testing service device and completes response, so that described base station to be configured is carried out functional test by remediation server.

If it should be noted that reparation script or artificial Operation Log of repairing are multiple, then on described base station to be configured, apply described reparation script or artificial Operation Log of repairing one by one to repair.Often complete once to repair, remediation server sends reparation to testing service device and completes response, so that described base station to be configured is carried out functional test according to the address of base station to be configured by testing service device, namely after execution of step 407, continue executing with step 402 and subsequent step thereof.

Step 408, base station to be configured described in remediation server request manual configuration.

Concrete, when not inquiring corresponding reparation script or artificial reparation Operation Log in repair data storehouse, trigger and repair manually.

When there is multiple reparation script or artificial reparation Operation Log, if carrying out functional test failure after applying a reparation script or artificial reparation Operation Log reparation, then the application next one is repaired script or manually repairs Operation Log, when neither one repairs script or artificial reparation Operation Log can apply, is rolled off the production line in base station, and ask artificial reparation and configuration, and returning error code, this automatically configures procedure failure.

Be can be seen that by above-mentioned steps 401-408, before the configuration file of base station to be configured is formally loaded on base station to be configured, first carried out functional test by testing service device, only functional test is by afterwards, just formally load this configuration file, when functional test failure and find corresponding repair script or artificial repair Operation Log time, one by one base station to be configured is run and repair script or manually repair Operation Log, and then carry out functional test, if functional test is passed through, then base station to be configured is accessed, only when whole reparation scripts or artificial reparation Operation Log all cannot repair this fault, just can trigger and manually repair application.In this manner it is ensured that the function of base station that automatic configuration is successfully reached the standard grade is all correct, greatly reduces the workload of artificial reparation, reduce the average completion time of many base stations configuration.

Based on identical technology design, the embodiment of the present invention also provides for a kind of content delivering system, as it is shown in figure 1, storage has the metamessage of the base station model under all types of core network element and the corresponding relation of super metamessage in described system, described system includes configuration service device.

Configuration service device is used for, and when virtualization generates core network element, configuration service device obtains the base station model of base station to be configured and the type of virtualization core network element；Type according to described core network element, the base station model of base station to be configured and described corresponding relation, it is determined that the metamessage of the base station to be configured under described core network element type；Generate the configuration file of described base station to be configured according to described metamessage, and described configuration file is sent to described base station to be configured, so that described base station to be configured configures described configuration file.

Further, described NFV network element configuration system also includes testing service device；

Described configuration service device is additionally operable to, after described configuration file is sent to described base station to be configured, send the test request of the address carrying base station to be configured to testing service device, wherein, the address of base station to be configured obtains when virtualization generates core network element.

Described testing service device is used for, the address according to the base station to be configured carried in the test request that described configuration service device sends, and described base station to be configured is carried out functional test.

Further, described NFV network element configuration system also includes remediation server.

Described testing service device is additionally operable to, and when the functional test failure of described base station to be configured, sends, to remediation server, the request of reparation, and described reparation in request carries the failure identification for representing fault type.

Described remediation server is used for, according to sending the failure identification query history reparation record carried in the request of reparation and/or repairing Operation Log, when inquiring corresponding reparation script or artificial reparation Operation Log, described base station to be configured is applied described reparation script or artificial Operation Log of repairing to repair；And, when base station to be configured has been repaired, send reparation to testing service device and complete response, so that described base station to be configured is carried out functional test by remediation server.

Preferably, described remediation server specifically for, when repair script or artificial repair Operation Log be multiple time, on described base station to be configured, apply described reparation script or artificial Operation Log of repairing one by one to repair, often complete once to repair, send reparation to testing service device and complete response.

Further, described remediation server is additionally operable to, when not inquiring corresponding reparation script or artificial reparation Operation Log, or, after on described base station to be configured, script or artificial reparation Operation Log are all repaired in application, when the functional test of described base station to be configured is still failed, base station to be configured described in request manual configuration.

It is understood that the principle that is intended to be merely illustrative of the present of embodiment of above and the illustrative embodiments that adopts, but the invention is not limited in this.For those skilled in the art, without departing from the spirit and substance in the present invention, it is possible to make various modification and improvement, these modification and improvement are also considered as protection scope of the present invention.

Claims (10)

1. a NFV network element configuration method, it is characterized in that, being applied to include in the NFV network element configuration system of configuration service device, in described system, storage has the metamessage of the base station model under all types of core network element and the corresponding relation of super metamessage, and described method includes:

When virtualization generates core network element, configuration service device obtains the base station model of base station to be configured and the type of virtualization core network element；

Type according to described core network element, the base station model of base station to be configured and described corresponding relation, it is determined that the metamessage of the base station to be configured under described core network element type；

Generate the configuration file of described base station to be configured according to described metamessage, and described configuration file is sent to described base station to be configured, so that described base station to be configured configures described configuration file.

2. the method for claim 1, it is characterised in that described NFV network element configuration system also includes testing service device；

After described configuration file is sent to described base station to be configured, described method also includes:

Configuration service device sends the test request of the address carrying base station to be configured to testing service device, so that described base station to be configured is carried out functional test according to the address of base station to be configured by testing service device；Wherein, the address of base station to be configured is that configuration service device obtains when virtualization generates core network element.

3. method as claimed in claim 2, it is characterised in that described NFV network element configuration system also includes remediation server；

If the functional test failure of described base station to be configured, then described method also includes:

Testing service device sends, to remediation server, the request of reparation, and described reparation in request carries the failure identification for representing fault type；

Remediation server inquires about repair data storehouse according to failure identification, if inquiring corresponding reparation script or manually repairing Operation Log, on described base station to be configured, then apply described reparation script or artificial Operation Log of repairing to repair, when base station to be configured has been repaired, send reparation to testing service device and complete response, so that described base station to be configured is carried out functional test by remediation server.

4. method as claimed in claim 3, it is characterised in that if reparation script or artificial Operation Log of repairing are multiple, then apply described reparation script or artificial Operation Log of repairing one by one to repair on described base station to be configured；

Often complete once to repair, send reparation to testing service device and complete response, so that described base station to be configured is carried out functional test according to the address of base station to be configured by testing service device.

5. method as claimed in claim 4, it is characterized in that, described method also includes: if not inquiring corresponding reparation script or manually repairing Operation Log, or, after on described base station to be configured, script or artificial reparation Operation Log are all repaired in application, the functional test of described base station to be configured is still failed, then base station to be configured described in request manual configuration.

6. a NFV network element configuration system, it is characterised in that in described system, storage has the metamessage of the base station model under all types of core network element and the corresponding relation of super metamessage, and described system includes configuration service device；

Configuration service device is used for, and when virtualization generates core network element, configuration service device obtains the base station model of base station to be configured and the type of virtualization core network element；Type according to described core network element, the base station model of base station to be configured and described corresponding relation, it is determined that the metamessage of the base station to be configured under described core network element type；Generate the configuration file of described base station to be configured according to described metamessage, and described configuration file is sent to described base station to be configured, so that described base station to be configured configures described configuration file.

7. system as claimed in claim 6, it is characterised in that described NFV network element configuration system also includes testing service device；

Described configuration service device is additionally operable to, after described configuration file is sent to described base station to be configured, send the test request of the address carrying base station to be configured to testing service device, wherein, the address of base station to be configured obtains when virtualization generates core network element；

Described testing service device is used for, the address according to the base station to be configured carried in the test request that described configuration service device sends, and described base station to be configured is carried out functional test.

8. system as claimed in claim 7, it is characterised in that described NFV network element configuration system also includes remediation server；

Described testing service device is additionally operable to, and when the functional test failure of described base station to be configured, sends, to remediation server, the request of reparation, and described reparation in request carries the failure identification for representing fault type；

Described remediation server is used for, according to sending the failure identification query history reparation record carried in the request of reparation and/or repairing Operation Log, when inquiring corresponding reparation script or artificial reparation Operation Log, described base station to be configured is applied described reparation script or artificial Operation Log of repairing to repair；And, when base station to be configured has been repaired, send reparation to testing service device and complete response, so that described base station to be configured is carried out functional test by remediation server.

9. system as claimed in claim 8, it is characterized in that, described remediation server specifically for, when repairing script or artificial reparation Operation Log is multiple, described reparation script or artificial Operation Log of repairing is applied one by one to repair on described base station to be configured, often complete once to repair, send reparation to testing service device and complete response.

10. system as claimed in claim 9, it is characterized in that, described remediation server is additionally operable to, when not inquiring corresponding reparation script or artificial reparation Operation Log, or, on described base station to be configured application all repair script or artificial repair Operation Log after, when the functional test of described base station to be configured is still failed, base station to be configured described in request manual configuration.