CN110719192A - Device and method for supporting various heterogeneous management data models by embedded gateway equipment - Google Patents

Abstract

The invention discloses a device and a method for supporting various heterogeneous management data models by embedded gateway equipment, relating to the field of embedded gateway equipment and comprising a manufacturer unified model management module, a manufacturer unified model management module and an initialization module, wherein the manufacturer unified model management module is used for loading a manufacturer unified model and generating an initialized model view; after the operation of the local interface is processed, the model view module is informed to update the view; the model view module is used for translating the operator model of the TR069 client into a manufacturer unified model and taking effect; when a model view switching request is received, the request is forwarded to a multi-model view switching module; and the multi-model view switching module is used for generating the model view to be switched according to the manufacturer unified model and switching the current working view into the model view to be switched when receiving the model view switching request of the user. The device and the method of the invention enable the same software version to dynamically support various operator heterogeneous management data models when running, and realize smooth upgrading and downgrading of switching among various heterogeneous models.

Description

Device and method for supporting various heterogeneous management data models by embedded gateway equipment

Technical Field

The invention relates to the field of embedded gateway equipment, in particular to a device and a method for supporting various heterogeneous management data models by the embedded gateway equipment.

Background

The remote management data model defines a set of standard management models suitable for gateway devices, and is used for an Auto-configuration Server (ACS) to remotely manage terminal devices with wide management distribution areas, complex device types, non-uniform standards and various service types, and a series of technical specifications including TR098, TR181 and the like are developed by a DSL Forum (Digital subscriber line Forum) organization in the early stage of the model, and along with the continuous development of terminal device forms/services, the evolution of the specifications cannot meet the requirements of operators, so the operators have developed customized data models of themselves. In practical application, various customized data models have the characteristic of high customization of operators, namely, one operator adopts a set of independent data models.

In practical situations, to meet the customization requirements of different operators, multiple software versions need to be developed, which has the following problems: firstly, due to the high customization of the operator requirements, in order to adapt to various operation conditions, multiple sets of adaptation software are often required to be developed for one set of management model of one operator, and developed functions in related adaptation software cannot be effectively reused; secondly, because the relevant configuration is directly stored by adopting the operator model, the existing network smoothness of the low-version model to the high-version heterogeneous model is difficult to upgrade. For example, when a model based on TR098 is upgraded to a model based on TR181, because the configuration is stored based on TR098, when the existing network is upgraded to the model based on TR181, the smooth upgrade of the service configuration is difficult; finally, because the management model supported by the equipment is solidified in the software version, the same software version cannot dynamically switch and support multiple models.

In summary, there is an urgent need for a mechanism that can dynamically support multiple operator management data models during runtime, so as to reduce the branch of customized versions and promote the rapid online of services.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a device and a method for supporting multiple heterogeneous management data models by an embedded gateway device, so that the same software version dynamically supports multiple operator heterogeneous management data models when running, and the smooth upgrading and downgrading of switching among the multiple heterogeneous models are realized.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

an apparatus for supporting multiple heterogeneous management data models by an embedded gateway device, comprising:

the manufacturer unified model management module is used for configuring and storing a manufacturer unified model, loading the manufacturer unified model and generating an initialized model view according to the manufacturer unified model; after the operation of the local interface is processed, requesting the model view module to update the corresponding view;

the model view module is used for mapping and configuring an operator model from the TR069 client into a manufacturer unified model and taking effect; when receiving the model view switching request, forwarding the request to a multi-model view switching module;

and the multi-model view switching module is used for generating the model view to be switched according to the manufacturer unified model and switching the current working view into the model view to be switched when receiving the model view switching request of the user.

On the basis of the technical scheme, the model view module is further used for performing 1:1, 1: N, N:1 or N: M mapping adaptation operation on nodes corresponding to various types of service data according to the node service data of the internal and external models and converting the nodes into the manufacturer unified model when the mapping adaptation of the operator model view to the manufacturer unified model view is implemented according to the types of the node service data.

On the basis of the above technical solution, the multi-model view switching module is further configured to switch the current working view into a TR098 model view, a TR181 model view, a TR098+ TR181 model view, or an automatic detection mode model view.

On the basis of the technical scheme, the manufacturer unified model management module is used for processing the operation of the user on the gateway model configuration through a WEB/CLI/OMCI/OAM interface.

On the basis of the technical scheme, the multi-model view switching module is further used for switching the current working view into the model view to be switched in the running state of the current working view.

The invention also provides a method for supporting various heterogeneous management data models by the embedded gateway equipment, which comprises the following steps:

configuring and storing a manufacturer unified model, and loading the manufacturer unified model to generate an initialized model view; when the TR069 client side carries out model configuration operation, mapping and adapting an external operator model from the TR069 client side to the manufacturer unified model, and generating a corresponding model view; and when the configuration interface performs gateway model configuration, updating data in the manufacturer unified model by adopting the configured data, and generating a corresponding model view.

On the basis of the technical scheme, when the TR069 client performs model configuration operation, the nodes corresponding to various types of service data are subjected to mapping adaptation operation of 1:1, 1: N, N:1 or N: M according to the types of the service data of the nodes, and an external operator model is converted into a manufacturer unified model.

On the basis of the technical scheme, the method further comprises the following steps: and after receiving a model switching request of a user, generating a model view needing to be switched by the manufacturer unified model.

On the basis of the technical scheme, the step of generating the model view needing to be switched by the manufacturer unified model comprises the following steps:

pure TR098 mode: the mode presents a TR098 model view and only comprises model nodes defined in the TR098 specification; pure TR181 mode: the mode presents a TR181 model view and only comprises model nodes defined in the TR181 specification; TR098+ TR181 promiscuous mode: the schema presents a TR098+ TR181 model view containing model nodes defined in the TR181 and TR098 specifications; operator customization mode: the mode presents an operator customized model view and comprises model nodes customized by the operator; automatic detection mode: the mode automatically detects the model capability supported by the automatic configuration server and switches the corresponding model view.

On the basis of the technical scheme, in the step of using the configuration interface to configure the gateway model, the user operates the gateway model configuration through WEB/CLI/OMCI/OAM.

Compared with the prior art, the invention has the advantages that:

(1) the device for supporting various heterogeneous management data models of the embedded gateway equipment generates the external operator view according to the manufacturer unified model arranged in the embedded equipment, can solve the technical problem of smooth upgrading and downgrading for dynamically supporting various heterogeneous management data models of operators and switching among various heterogeneous models when the same software version runs, is convenient for the equipment to adopt a set of general software to support the customization requirement of the data models of the operators, reduces the branches of customized versions and promotes the rapid online of services.

(2) The device for supporting various heterogeneous management data models of the embedded gateway equipment can support the real-time switching of operator views in the operation process by arranging the multi-model view switching module, reduces the influence on the operation process and meets the actual working requirement.

(3) In the method for supporting various heterogeneous management data models by the embedded gateway equipment, various heterogeneous management information models are abstracted into a set of manufacturer unified model and are configured and stored uniformly, the model is based on a TR098 standard model and added to complete the manufacturer customization extension function, and a plurality of views (including TR098 views, TR181 views and operator views) accessible by ACS are generated according to the uniformly stored manufacturer unified model, so that the external model customization requirement is met.

Drawings

FIG. 1 is a block diagram of an apparatus framework supporting multiple heterogeneous management data models in an embodiment of the present invention;

FIG. 2 is a basic flowchart of a method for supporting multiple heterogeneous management data models by an embedded gateway device according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating an exemplary implementation of a TR181 model view in an embodiment of the present invention;

fig. 4 is an exemplary diagram of an operator model view implementation in an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Referring to fig. 1, an embodiment of the present invention provides an apparatus for supporting multiple heterogeneous management data models by an embedded gateway device, where the apparatus receives configuration of a TR069 client and other user configuration interfaces for the heterogeneous management data models. The device includes: the manufacturer unified model management module is used for loading a manufacturer unified model and generating an initialized model view according to the manufacturer unified model; and after the operation of the local interface is processed, informing the model view module to update the corresponding view, and finally providing the model view for the APP (or WAN, LAN, Router, Voice or WIFI) to use. A model view module for translating and validating an operator model from a TR069 client into a vendor unified model; and forwarding the request to the multi-model view switching module when the model view switching request is received. And the multi-model view switching module is used for generating the model view to be switched according to the manufacturer unified model and switching the current working view into the model view to be switched when receiving the model view switching request of the user.

In an embodiment, the model view module is further configured to, according to the types of the internal and external models, perform mapping adaptation operations on data in a ratio of 1:1, 1: N, N:1, or N: M according to the types of service data of each node when performing mapping adaptation of an external operator model to an internal vendor view, and convert the data into a vendor uniform model.

In another embodiment, the multiple model view switching module is further configured to switch the current working view to a TR098 model view, a TR181 model view, a TR098+ TR181 model view, or an auto-detection mode model view.

In the embodiment of the invention, the manufacturer unified model management module is used for processing the operation of a user on gateway model configuration through configuration interfaces such as WEB/CLI/OMCI/OAM and the like. The multi-model view switching module is further configured to switch the current working view to the model view to be switched in the current working view running state.

Referring to fig. 2, an embodiment of the present invention further provides a method for enabling an embedded gateway device to support multiple heterogeneous management data models, where the method includes the following steps:

configuring and storing a manufacturer unified model, and loading the manufacturer unified model to generate an initialized model view; the uniform manufacturer model is a set of customized model similar to TR098 and capable of displaying manufacturer views, is formed by abstracting and merging related functions of various heterogeneous management information models by a person skilled in the art in advance, is usually formed by expanding a self-defined additional model of a manufacturer on the basis of the TR098, and is configured and uniformly stored before the implementation of the method. Specifically, when constructing the manufacturer unified model, a technician usually implements the following procedures: dividing a plurality of related heterogeneous management information models according to the composition nodes of the management information models; mapping nodes corresponding to the TR098 model in the relative nodes; for the customized part which is not realized in the TR098 model, technicians divide the functions into two types of object nodes and leaf nodes, respectively program and arrange the object nodes and the leaf nodes according to the logic statement model of the manufacturer unified model, compile related functions into node files with the same format as the mapping nodes of the TR098 model, and store the node files into the manufacturer unified model.

When the TR069 client side carries out model configuration operation, mapping and adapting an external operator model from the TR069 client side to the manufacturer unified model, and generating a corresponding model view;

and when the configuration interface performs gateway model configuration, updating data in the manufacturer unified model by adopting the configured data, and generating a corresponding model view.

In one embodiment, when the TR069 client performs model configuration operation, according to the type of service data of each node, the node corresponding to each type of service data is subjected to 1:1, 1: N, N:1 or N: M mapping adaptation operation, and the external operator model is converted into a manufacturer unified model.

The specific classification criteria and specific translation operations are as follows:

when a TR069 client side performs model configuration operation, a model view module performs particle segmentation on an external operator model from the TR069 client side and a pre-stored manufacturer unified model by taking a node as a basic unit, and then inquires the type and the quantity of service data of each node; and finally, mapping and corresponding the nodes containing the same type of service data in the two models, and respectively performing mapping adaptation operation of 1:1, 1: N, N:1 or N: M according to the number of the nodes containing the type of service data in the external operator model and the manufacturer unified model. Preferably, a mapping table is established for commonly used nodes which are known to perform 1:1 mapping and is stored in a manufacturer unified model management module, and the table is directly called during mapping adaptation operation, and the mapping adaptation operation is performed according to the recorded content of the table.

1:1 mapping, wherein an external operator model view node is uniquely mapped to a manufacturer uniform model node inside the embedded network management equipment. In the mapping mode, after receiving the node operation of the TR069 client, the model view module directly translates the node operation into a unique corresponding content node for effectiveness;

1: n mapping: and one external operator model view node is mapped to the nodes on the manufacturer unified model in the plurality of embedded network management devices. In the mapping mode, after receiving the node operation of the TR069 client, the model view module maps one external view node into a plurality of internal nodes to be effective;

n:1 mapping: and mapping a plurality of external operator model view nodes to a manufacturer unified model node in the embedded network management equipment. In the mapping mode, after receiving the node operation of the TR069 client, the model view module needs to collect a plurality of complete external view nodes, and then maps the external view nodes to the unique corresponding internal manufacturer unified model nodes for taking effect;

n, M mapping: and mapping the plurality of external operator view nodes to manufacturer unified model nodes in the plurality of embedded network management devices. In the mapping mode, after receiving the node operation of the TR069 client, the model view module needs to collect a plurality of complete external view nodes, and then maps a plurality of nodes of the manufacturer unified model in the embedded network management equipment to take effect.

In a preferred embodiment, after receiving a model switching request from a user, the manufacturer unified model generates a model view to be switched.

In the above process, the generated model view to be switched includes:

pure TR098 mode: the mode presents a TR098 model view and only comprises model nodes defined in the TR098 specification;

pure TR181 mode: the mode presents a TR181 model view and only comprises model nodes defined in the TR181 specification;

TR098+ TR181 promiscuous mode: the schema presents a TR098+ TR181 model view containing model nodes defined in the TR181 and TR098 specifications;

operator customization mode: the mode presents an operator customized model view and comprises model nodes customized by the operator;

automatic detection mode: in the mode, model nodes supported by the automatic configuration server and the realization functions of each node are automatically detected, and the corresponding model views are switched.

In the above process, after the multi-model view switching module receives the model switching request of the user, all the processes of generating the model view to be switched according to the manufacturer unified model are kept to be performed when the existing model view is operated.

The implementation and operating principle of the invention are explained below with respect to two specific examples:

as shown in fig. 3, in the specific embodiment with the initial view of the TR181 model, the operation process of the method of the present invention is as follows:

1) a user communicates with the multi-model view switching module through interface configuration such as WEB/CLI/OMCI/OAM, and the like, and the configuration view mode is a pure TR181 mode;

2) the device generates a T181 model view example as an initial initialized model view according to a manufacturer unified model;

3) the multi-model view module switches the current working view into a TR181 model view;

4) the TR069 client module analyzes the message transmitted by the automatic configuration server and operates the TR181 model view;

5) the TR181 model view performs operations such as 1:1, 1: N, N:1 or N: M mapping adaptation on the data, converts the data into a manufacturer unified model and takes effect;

6) the user operates gateway model configuration through WEB/CLI/OMCI/OAM and the like;

7) the manufacturer unified model management module informs the TR181 of the changed configuration data to update the relevant view data of the model view, and then switches the current working view into the model view needing to be switched.

As shown in fig. 4, in the specific embodiment where the initial view is the operator model view, the operation process of the method of the present invention is as follows:

1) the user switches the multi-model view switching mode to configure the view mode as an operator customization mode;

2) dynamically generating an operator model view example according to a manufacturer unified model;

3) the multi-model view module switches the current working view into an operator model view;

4) the TR069 client module analyzes the message of the automatic configuration server and operates the model view of the operator;

5) the operator model view performs 1:1 mapping adaptation operation on the data, converts the data into a manufacturer unified model and takes effect;

6) the user operates gateway model configuration through WEB/CLI/OMCI/OAM and the like;

7) and the manufacturer unified model module informs the view data related to the operator model of the changed configuration data, and then switches the current working view into the model view needing to be switched.

The present invention is not limited to the above-described embodiments, and it will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the principle of the present invention, and such modifications and improvements are also considered to be within the scope of the present invention. Those not described in detail in this specification are within the skill of the art.

Claims (10)

1. An apparatus for supporting multiple heterogeneous management data models by an embedded gateway device, comprising:

the manufacturer unified model management module is used for configuring and storing a manufacturer unified model, loading the manufacturer unified model and generating an initialized model view according to the manufacturer unified model; after the operation of the local interface is processed, requesting the model view module to update the corresponding view;

the model view module is used for mapping and configuring an operator model from the TR069 client into a manufacturer unified model and taking effect; when receiving the model view switching request, forwarding the request to a multi-model view switching module;

and the multi-model view switching module is used for generating the model view to be switched according to the manufacturer unified model and switching the current working view into the model view to be switched when receiving the model view switching request of the user.

2. The apparatus of claim 1, wherein the embedded gateway device supports multiple heterogeneous management data models: and the model view module is also used for carrying out 1:1, 1: N, N:1 or N: M mapping adaptation operation on nodes corresponding to various service data according to the node service data of the internal and external models and the types of the node service data when the mapping adaptation of the operator model view to the manufacturer unified model view is implemented, and converting the nodes into the manufacturer unified model.

3. The apparatus of claim 2, wherein the multiple model view switching module is further configured to switch the current working view to a TR098 model view, a TR181 model view, a TR098+ TR181 model view, or an auto-detection mode model view.

4. The apparatus of claim 3, wherein the embedded gateway device supports multiple heterogeneous management data models: and the manufacturer unified model management module is used for processing the operation of the user on the gateway model configuration through a WEB/CLI/OMCI/OAM interface.

5. The apparatus of claim 4, wherein the embedded gateway device supports multiple heterogeneous management data models: the multi-model view switching module is further configured to switch the current working view to the model view to be switched in the current working view running state.

6. A method for supporting various heterogeneous management data models by an embedded gateway device is characterized by comprising the following steps:

configuring and storing a manufacturer unified model, and loading the manufacturer unified model to generate an initialized model view;

when the TR069 client side carries out model configuration operation, mapping and adapting an external operator model from the TR069 client side to the manufacturer unified model, and generating a corresponding model view;

and when the configuration interface performs gateway model configuration, updating data in the manufacturer unified model by adopting the configured data, and generating a corresponding model view.

7. The method of claim 6, wherein the embedded gateway device supports multiple heterogeneous management data models: when the TR069 client side performs model configuration operation, according to the types of the service data of all the nodes, the nodes corresponding to all the service data are subjected to mapping adaptation operation of 1:1, 1: N, N:1 or N: M, and an external operator model is converted into a manufacturer unified model.

8. The method of claim 6, further comprising: and after receiving a model switching request of a user, generating a model view needing to be switched by the manufacturer unified model.

9. The method of claim 8, wherein the generating of the model view that needs to be switched by the vendor uniform model comprises:

pure TR098 mode: the mode presents a TR098 model view and only comprises model nodes defined in the TR098 specification;

pure TR181 mode: the mode presents a TR181 model view and only comprises model nodes defined in the TR181 specification;

TR098+ TR181 promiscuous mode: the schema presents a TR098+ TR181 model view containing model nodes defined in the TR181 and TR098 specifications;

operator customization mode: the mode presents an operator customized model view and comprises model nodes customized by the operator;

automatic detection mode: the mode automatically detects the model capability supported by the automatic configuration server and switches the corresponding model view.

10. The method of claim 6, wherein the embedded gateway device supports multiple heterogeneous management data models: and in the step of using the configuration interface to configure the gateway model, the user operates the gateway model configuration through WEB/CLI/OMCI/OAM.

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