KR20050066861A - Method for duplicate routing entry information for router duplication - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a routing entry information duplication method and a method for realizing router duplication.

2. The technical problem to be solved by the invention

In the present invention, since routing entry information received from a routing protocol (router) located in an adjacent node is not stored in the routing entry table (FIB), the routing information change message is transmitted to the backup router through the COVA interface. The purpose of the present invention is to provide a routing information duplication method for router duplication to duplicate routing entry information.

3. Summary of Solution to Invention

According to an aspect of the present invention, there is provided a routing entry information duplication method for realizing router duplication, comprising: a setting step of receiving a cooperative reference value from a backup system and setting a COBA-based standard specification; A transmission step of receiving a routing entry information change message from a routing protocol located in an adjacent node; An extraction step of extracting routing entry information from the received routing entry information change message; An updating step of updating routing entry information of an active system with the extracted routing entry information; And a forwarding step of transferring the extracted routing entry information to the backup system using a cobar to update routing entry information of the backup system.

4. Important uses of the invention

The present invention is used in a redundant system (router) and the like.

Description

Method for duplicate routing entry information for router duplication}

The present invention relates to a routing entry information duplication method for realizing router duplication. More particularly, when a backup router is switched to an active router in a duplicated router, it is necessary to use CORBA to back up necessary data of a necessary routing engine. The present invention relates to a routing entry information duplication method capable of duplication of data (routing entry information) of a routing engine by backing up using middleware in the same distributed environment.

With the rapid development of network technology, the current computing environment is shifting from the existing large server-centric client / server computing to a distributed computing environment using various platforms connected to an open communication network. In an open network architecture, an application system consists of a collection of objects distributed across multiple computing nodes.

In such a distributed environment, object group management and communication techniques are needed to reduce the complexity of development and management of complex distributed software and to efficiently manage distributed objects while providing real-time services of the objects. In other words, middleware is needed to combine independent distributed objects in a distributed environment to perform a language-independent interface of distributed objects. As a representative study on such middleware, a common object request broker architecture (CORBA), which is a middleware that can interoperate in different system environments, has been proposed.

Here, the CORBA will be described in more detail as follows.

CORBA is based on object-oriented techniques designed by the Object Management Group (OMG) as a standard for distributed object technology, and is a standard that can interoperate between disparate and heterogeneous systems regardless of a specific platform or technology.

CORBA also provides an Interface Definition Language (IDL) to separate the interface and implementation of distributed objects. In this way, even objects developed in different languages can be easily accessed.

CORBA also provides an Object Request Broker (ORB) to allow distributed objects to interconnect.

In addition, CORBA uses most of the object-oriented technology as it is, and greatly increases software productivity due to the excellent reusability of object-oriented concepts and the ability to model real-world problems.

In addition, CORBA defines the Common Object Service, a basic service required for distributed computing, and the Common Facility, a variety of application development frameworks that will be required directly for application development.

In summary, CORBA is a standard for heterogeneous distributed object computing that serves as an intermediary (ORB) between an object that provides a service and a client that wants to receive the service, and the client requests a request for the desired service. ), Which the ORB passes to the Object Request Broker.

There are two ways to generate a request: a static method using a client stub generated from an IDL compiler and a dynamic method using an interface repository. At this time, the interface store used contains the interface definition information of the object.

In addition, CORBA is a software bus with object technology that acts as middleware in a dual environment and allows objects to be integrated into one application across address spaces, hardware, operating systems, and implementation languages. Benefits include platform independence, programming language independence, location transparency, code reusage, portability, interoperability, and more.

In addition, CORBA Distributed Objects can exist anywhere on the network, can be accessed by remote clients, and because the language and compiler that created the Distributed Server object are completely independent of the client, the client is a distributed object. You can link to any object through the ORB without having to know where is and what operating system it is running on.

In general, routers are devices that connect separate networks using the same transport protocol, and their utility is gradually increasing.

As a result, router redundancy has been proposed to secure router reliability. The key to router redundancy depends on how efficiently an active router can transfer information to a backup router.

Herein, in the conventional routing entry information duplication method, when the active router (the currently operating router) stops operation and the backup router starts operation, the process is synchronized through a specific hardware device and the router's memory information is executed. In addition, duplication of routing entry information is realized by duplicating information required for router operation such as configuration information.

However, this conventional routing entry information duplication method has a problem in that it is difficult to duplicate routing entry information through a hardware device in view of the current trend in which the processing speed of a processor is rapidly developing.

In addition, the conventional method is a time taken to refresh the routing entry information stored in the backup router with the routing entry information stored in the active router when the router is switched (the active router stops operating and the backup router operates). Due to this, there was a problem that continuous packet routing was not possible.

The present invention has been proposed to solve the above problems, using a middleware in a distributed environment such as CORBA to back up the necessary data of the necessary routing engine when the backup router is switched from the redundant router to the active router It is an object of the present invention to provide a routing entry information duplication method capable of duplication of data (routing entry information) of a routing engine by backing up.

According to an aspect of the present invention, there is provided a routing entry information duplication method for realizing router duplication, comprising: a setting step of receiving a cooperative reference value from a backup system and setting a COBA-based standard specification; A transmission step of receiving a routing entry information change message from a routing protocol located in an adjacent node; An extraction step of extracting routing entry information from the received routing entry information change message; An updating step of updating routing entry information of an active system with the extracted routing entry information; And transmitting the extracted routing entry information to the backup system by using a cobar to update the routing entry information of the backup system.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an embodiment of a redundant router to which the present invention is applied.

As shown in FIG. 1, a redundant router to which the present invention is applied is replaced by a backup router and an active router for performing routing when an abnormality occurs in an active system (router) and the active system (router) currently operating. Includes a COVA to handle the interface between routers.

In more detail, COVA is defined in an interface definition language (IDL) compiler 11 for compiling a file defining a COVA interface for interfacing routing entry information between an active system and a backup system. A stub code 12 for compiling and binding to the routing protocol engine 15 of the active system for processing an interface with the backup system, compiled at the interface definition language compiler 11 and bound to the routing protocol engine of the backup system Skeleton code 13 for handling the interface with the system.

In addition, the active system receives routing entry information from a routing entry database (RIB) 14 for storing routing entry information under the control of the kernel (operating system) and routing protocols located in adjacent nodes. Routing protocol engine for storing the routing entry information in the entry table (FIB), requesting the kernel to store routing entry information, and storing it in the routing entry database (RIB) 14, and passing the routing entry information to the backup system via the COVA platform. And (15).

In addition, the backup system communicates with the routing entry database 16 for storing the routing entry information received from the routing protocol engine 15 of the active system, the duplication manager, and especially for processing the switching request signal from the duplication manager. The management module 17 stores the routing entry information received from the active system through the COVA platform in its own routing entry table (FIB) and requests the kernel to change the routing entry information to update the routing entry database (RIB). Routing protocol engine 18 of the backup system.

Here, the active system and the backup system store the same static routing information. This static routing information refers to information input by a user.

2 is a hardware configuration diagram of a redundant router to which the present invention is applied.

As shown in Fig. 2, the hardware of a redundant router to which the present invention is applied includes: redundant interface cards 23 and 24 for processing an interface of routing entry information between the active system 21 and the backup system 22; Communication interface cards 25 and 26 for processing Inter Processor Communication Channel (IPC) communication between the active system 21 and the backup system 22, and a redundancy status register 27 for storing redundancy status information of each system. 28).

3 is a flowchart illustrating a routing entry information duplication method for realizing router duplication according to the present invention.

First, the routing protocol engine 38 of the backup system transmits an interworking reference value to the routing protocol engine 32 of the active system, so that the routing protocol engine 15 of the active system can request a COVA service (301). .

Subsequently, the routing protocol 31 located in the neighbor node requests the routing protocol engine 32 of the active system to change the routing entry information (302). That is, the routing entry information change message is transmitted.

Then, the routing protocol engine 32 of the active system extracts routing entry information from the received routing entry information change message (303).

Then, it is determined whether the routing entry information is stored in the routing entry table (FIB) of the active system (304).

The determination result 304, if stored, the transition to the message receiving state (305).

On the other hand, the determination result 304, if not stored, updates its routing entry table (FIB) (306), and passes the routing entry information to the kernel (operating system) to route entry database (RIB) 34 To be updated (307, 308).

The stub 35 of the active system then transfers the routing entry information to the skeleton 36 of the backup system using the COVA interface primitive service (309, 310). Skeleton 36 of backup system then requests routing protocol database 38 to update the routing entry database (311).

Then, the routing protocol engine 38 of the backup system updates its routing entry table (FIB) using the received routing entry information, transfers the routing entry information to the kernel (operating system), and sends the routing entry database (RIB). (34) to update (312).

Through the above process, the routing entry information between the active system and the backup system is duplicated.

In addition, when an error occurs in the active system, the redundant manager of the backup system requests the backup system to be switched over. Then, the backup system receiving the transfer request from the replication manager operates as an active system by setting the routing protocol to the redo mode.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above has the effect of allowing the routing entry information to be duplicated without a special hardware device between the backup system and the active system.

In addition, the present invention is to ensure that the backup system and the active system always stores the synchronized routing entry information, so that even if a switchover occurs, the routing protocol is re-executed within the allowable time so that the routing protocol of the neighbor node cannot recognize whether to re-execute the routing protocol. In other words, the packet routing can be processed continuously.

1 is a diagram illustrating an embodiment of a redundant router to which the present invention is applied.

2 is a hardware configuration diagram of a redundant router to which the present invention is applied.

3 is a flowchart illustrating a routing entry information duplication method for realizing router duplication according to the present invention;

* Explanation of symbols for the main parts of the drawings

11: interface definition language compiler 12: stub code

13: skeleton code 14, 16: routing entry database

15, 18: routing protocol engine 17: operation management module

Claims (3)

In the routing entry information duplication method for realizing router duplication, A setting step of receiving a cooperative reference value from a backup system and setting a standard specification based on COVA; A transmission step of receiving a routing entry information change message from a routing protocol located in an adjacent node; An extraction step of extracting routing entry information from the received routing entry information change message; An updating step of updating routing entry information of an active system with the extracted routing entry information; And A forwarding step of transferring the extracted routing entry information to the backup system using a cobar to update routing entry information of the backup system; Routing entry information duplication method for realizing router duplication comprising a. The method of claim 1, The update step Confirming that the routing entry information is stored in a routing entry table (FIB) of an active system; Transitioning to a new routing entry information change message reception state if the check result is stored; If it is not determined, updating its own routing entry table (FIB) and forwarding the routing entry information to its kernel (operating system) to update the routing entry database (RIB); Routing entry information duplication method for realizing router duplication comprising a. The method of claim 1, The delivery step, The stub of the active system transfers the routing entry information to the skeleton of the backup system using a COVA interface primitive service.