KR100359640B1 - A Dynamic class loading system and operation method thereof - Google Patents

Abstract

The present invention relates to a dynamic class loading system and a method of operating the same. In particular, a class that enables dynamic addition of all classes automatically with a single command not only in a local area system but also in a remote system through a network. A dynamic addition system and its operation method.

In the conventional network management system, the dynamic class addition operation requires the developer to directly execute the operation of storing the shared library and meta file of the newly created class, and registering the name and OID of the class. In case of, it is inconvenient to transfer the library and meta files to the system where the agent is located and move them to DCL storage. Also, when the dynamic addition of a class is made by several developers, the class dynamic addition command is executed sequentially. There is a problem in that it is difficult to manage the system of class dynamic addition because it cannot handle it.

The present invention does not need to directly store or register a corresponding file or information by a developer by receiving a standard input from a developer through a socket communication module, which is an interface for communicating, and also allows a new class by various developers in a remote system. Even in the case of dynamically adding, the DCL addition request command inputted through the socket communication module can be sequentially received and processed to facilitate DCL system management.

Description

A dynamic class loading system and operation method

The present invention relates to a dynamic class loading system and a method of operating the same. In particular, a class capable of dynamically adding all classes automatically with a single command not only in a local area system but also in a remote system through a network. A dynamic addition system and its operation method.

In general, a network management scheme based on a Telecommunication Management Network (TMN) models a network element to be managed by definition of Guidelines for the Definition of Manage Objects (GDMO) and expresses it as a management object class. In addition, for representing management information related to network elements, management information syntaxes are defined using Abstract Syntax Notation.1 (ASN.1) notation. They are described in GDMO documents and ASN.1 documents, respectively, and are used for agent development.

The GDMO document and the ASN.1 document are compiled and output as source code (eg, C or C ++) for agent development through the GDMO compiler and the ASN.1 compiler, respectively. The source code is linked with various internal libraries provided by the Network Manage Platform to be generated as a complete agent software. In particular, the source code output from the GDMO compiler and the ASN.1 compiler includes developer code for interaction with network elements. As such, in most network management system development, not only the internal library provided by the platform but also the managed object class library created by the developer are statically linked together.

According to the conventional method of dynamically adding a managed object class related to the above, when a new class is added, runtime addition and modification of the class can be performed without interruption of the network management system. In particular, the network management system must be maintained and maintained without interruption. It is very useful in this case.

Then, referring to the conventional network management system, the configuration of the network management system core 15 to support the dynamic addition function of a new management object through the dynamic class loading (DCL) routine 50 as shown in FIG. And a managed object portion of a shared library type that resides in the memory of the network management system core 15 (not shown in the drawing for convenience of description) during the execution of an operation, that is, a MODL (managed). Object Dynamic Library) 16.

In order to support the DCL routine 50, the network management system core 15 performs a communication module 11 in charge of the communication function with a developer, and processes a management operation request received from the developer and adds a management object at the same time. Kernel 12 that supports dynamic addition of managed objects through DCL routine 50, the include tree 13, which is a structure that implements the containment relationship between managed objects, and managed objects that do not contain actual managed objects. It includes a Management Object Framework (14) that contains only routines and data structures that support the dynamic addition of.

The MODL 16 is not present when the network management system core 15 configured in the agent (not shown in the drawings for convenience of description) is driven and the network management system core 15 is operated while the network management system core 15 is performing an operation. Is added to In addition, the network management system core 15 includes a DCL routine 50. In order to support the DCL routine 50, all managed objects are inherited from the same base class.

In the network management system having the above-described configuration, an operation for adding a dynamic class is performed as shown in FIG. 2. First, a GDMO document or an ASN.1 document (20) described by one developer in a local area system is described. ) To define the administered object class to add. At this time, the GDMO document or ASN.1 document 20 should be described and inputted by one developer in the system of the local area. Applicable GDMO document or ASN. 1 The document 20 includes a source code 22 in C or C ++ form, a make file 23 for compiling the source code 22, and a meta file 24 through a GDMO compiler or an ASN.1 compiler 21. ) Is output. The output source code 22 is compiled by the source code compiler 25 using the output make file 23 together with the developer code and generated as a MODL 26 in the form of a shared library.

Then, one developer stores the MODL 26 generated by the source code compiler 25 in the file system, that is, the DCL repository 27. In addition, one developer stores the meta file 24 output by the GDMO compiler or the ASN.1 compiler 21 in the DCL storage unit 27 directly in the local area system. Here, the meta file 24 includes skeleton information on the newly created management object class.

A management object identifier (Object Identifier) of a class for expressing a name of a class to be added and a unique ID of the management object to inform an agent that will perform dynamic addition of the management object class. Hereinafter, the developer registers the " OID " directly in the DCL class list file 28.

Meanwhile, the network management system core 15 executes the network management system core program to initialize the communication module 11, the kernel 12, the inclusion tree 13, and the management object framework 14 to a standby state. The network management system core 15 remains in a standby state until it receives a management operation request or a management object dynamic addition instruction from the developer.

At this time, when the network management system core 15 receives a dynamic addition instruction from the developer, it drives the DCL routine 50 to perform the initialization of the class information table according to the metafile 24 and the addition process of the management object. do.

After notifying completion of the execution of the DCL routine 50, the network management system core 15 returns to the standby state again.

In other words, the meta file 24 stored in the DCL storage unit 27 is opened to initialize the class information table according to the meta file 24, and the managed object name and the MODL file name described in the meta file 24 are initialized. The MODL 26 generated by the source code compiler 25 is resident in the memory of the network management system core 15 according to the read name. Accordingly, the MODL 26 stored in the DCL storage unit 27 is executed in the network management system core 15 to generate a managed object in the MODL 26 by the managed object name described in the meta file 24. Find the address of the routine. The address of the found management object creation routine is registered in the class information table, and thus the management object is generated using the management object creation routine address stored in the class information table.

As described above, the operation for adding a dynamic class in the conventional network management system requires the developer to directly execute the operation of storing the shared library and meta file of the newly created class and registering the name of the class and the OID. In addition, when a new class addition operation was performed on a remote system, it was inconvenient to transfer a file to a DCL storage unit by transferring a file to a system with an agent.

In addition, when the dynamic addition of a class is made by several developers, it is difficult to manage the class dynamic addition system because the class dynamic addition command cannot be sequentially processed.

The present invention is to solve the inconveniences and problems described above, a class dynamic addition system and operation method that can easily perform the dynamic addition of a new class automatically with a single command in the remote system as well as the local area system The purpose is to provide.

Another object of the present invention is to facilitate the management of the DCL system by improving the convenience of the DCL system by sequentially accepting and processing the class dynamic addition command input by multiple developers at the same time when adding a new class by multiple developers It is to provide class dynamic addition system and operation method.

1 is a block diagram showing a class dynamic addition system according to the prior art.

2 is a block diagram illustrating a class dynamic addition procedure in a class dynamic addition system according to the related art.

3 is a block diagram illustrating a class dynamic addition system according to a preferred embodiment of the present invention.

4 is a flowchart illustrating a class dynamic addition method according to a preferred embodiment of the present invention.

FIG. 5 is a flowchart for describing a process of requesting dynamic addition of a class in FIG. 4.

FIG. 6 is a flowchart for describing a process of instructing dynamic addition of a class in FIG. 4.

FIG. 7 is a flowchart for describing a process of performing dynamic addition of a class and notifying the result of FIG. 4.

Explanation of symbols on the main parts of the drawings

11, 31: communication module 12, 32: kernel

13, 33: Include Tree 14, 34: Managed Object Framework

15, 35: network management system core 16, 26: MODL

20: GDMO Document or ASN.1 Document 22: Source Code

23: Makefile 24: Metafile

25: source code compiler 27, 38: DCL storage

28, 39: DCL class list file 36: DCL Invoker

37: DCL Trigger 40: Agent

50, 100: DCL routine

The class dynamic addition system according to the present invention includes a DCL invoker for receiving a class dynamic addition request and outputting information and files necessary for class dynamic addition; And receiving a class dynamic addition request from the DCL invoker, storing or registering the information and file, and giving a class dynamic addition command to an agent to perform a class dynamic addition operation.

The class dynamic addition method of the present invention includes the steps of: transmitting a file and information required for class dynamic addition and making a class dynamic addition request; Issuing a class dynamic add command based on the input file and information; And generating a new management class based on the file and information to perform a dynamic addition operation of the class.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described.

As shown in FIG. 3, the class dynamic addition system according to the present invention comprises a DCL Invoker 36, a DCL Trigger 37, and an Agent 40.

The DCL Invoker 36 is a processing module for processing information input by a developer using standard input and controlling information transmission / reception operation for the DCL trigger 37 and a DCL trigger 37 according to the control of the processing module. It consists of a socket communication module that transmits and receives information about the class, and receives the necessary information for class dynamic addition from the developer and requests the dynamic addition of the class to the DCL trigger 37. And I / O points that collect class information) and TCP / IP port (lower communication stack) that processes class sequentially and receives class dynamic add request to DCL trigger 37 when several developers receive class dynamic add command at the same time. Has a point.

The DCL trigger 37 is a processing module for processing the information to be transmitted and received, and controls the information transmission and reception operation, a socket communication module for performing information transmission and reception for the DCL invoker 36 under the control of the processing module, the control of the processing module In accordance with the CMIP (Common Management Information Protocol (hereinafter referred to as "CMIP") communication module for communicating with the agent 40) for the agent 40 is made, and receives a dynamic addition request of the class from the DCL Invoker 36 In order to dynamically add the class to the agent 40, the DCL Invoker 36 receives information and files necessary for the dynamic addition of the class through an input / output point, or the result of the dynamic addition of the class is the DCL Invoker 36. And a dynamic addition command of the corresponding class through the CMIP connection point for communication with the agent 40.

The agent 40 is composed of a network management system core 35, a DCL storage unit 38, and a DCL class list file 39. The network management system core 35 is newly managed through the DCL routine 100. Supporting the dynamic addition of objects, DCL storage unit 38 stores the MODL of the class to be added and the meta file related to the class dynamic addition, DCL class list file 39 is the name and OID of the class to be added dynamically It is equipped with a file recorded.

In addition, the network management system core 35 includes a communication module 31 in charge of a communication function with a developer, a kernel 32 for processing a management operation request received from the developer, and a structure implementing an inclusion relationship between management objects. An inclusive tree 33 and a managed object framework 34 for providing data and code related to the managed objects.

The dynamic addition operation of a class in the class dynamic addition system as described above is performed as shown in FIG.

First, the DCL Invoker 36, the DCL Trigger 37, and the Agent 40 are initialized and placed in a standby state, and are kept in a standby state until a class dynamic add request or a class dynamic add command is received. .

While waiting, the developer can use the standard input to specify the name of the class to be added, the OID of the class, the location of the metafile, the file location of the compiled library's shared library, and the location of the metafile. Input to DCL Invoker 36. The DCL Invoker 36 checks whether the shared library and metafile exist using the input parameters, collects the name and OID of the class to be dynamically added, and prepares to transmit the shared library and metafile of the class to the socket communication module. . Then, the file and information are transmitted to the DCL trigger 37, and a dynamic addition request of the class is made (step T1).

In response to the request for class dynamic addition, the DCL trigger 37 stores the class library and the meta file in the DCL storage unit 38, and registers the name and the OID of the class to be dynamically added in the DCL class list file 39. 40), class dynamic addition instruction is given (step T2).

The agent 40 receiving the class dynamic addition command performs the class dynamic addition operation, and transmits the result to the DCL invoker 36 through the DCL trigger 37 to output the result (step T3).

The process of making the dynamic addition request of the class (step T1), the process of making the dynamic addition instruction of the class (step T2), and the process of performing the dynamic addition operation of the class (step T3) will be described in detail. Is performed as:

First, the process of making a dynamic addition request of a class (step T1) is performed after initializing the interior of the DCL invoker 36, the DCL trigger 37, and the agent 40 as shown in FIG. 5 (step E1). The DCL invoker 36 connects the socket communication module, which is an interface for communication (step E2). The developer receives the name of the class to be added, the OID of the class, the MODL of the compiled class, and the location of the metafile as parameters (step E3). The metafile contains a skeleton for the newly created managed object class. ) Information, and also includes package, attribute, action, and event notification necessary for class composition. The skeleton information includes basic information for agent development. Included. Then, it checks whether the MODL and the meta file exist using the input parameters and prepares to transmit to the DCL trigger 37 through the socket communication module (step E4). If information and files required for class dynamic addition are authorized from various developers, the DCL Invoker 36 processes the information and files sequentially and transmits the information and files to the DCL trigger 37 through the socket communication module (step E5). ).

The process of performing the dynamic addition instruction of the class (step T2) is performed as shown in FIG. 6. First, the DCL trigger 37 which is kept in the standby state receives a request for the class dynamic addition operation from the DCL invoker 36. If detected (step P1), information and files of the class to be added dynamically are transmitted through the socket communication module (step P2). Among the information and files of the class, the MODL and meta files of the class are stored in the DCL storage unit 38 inside the agent 40 (step P3), and newly added to the agent 40 to perform the dynamic addition operation of the class. To inform what the managed object class is, the name and OID of the class to be dynamically added are registered in the DCL class list file 39 (step P4). In addition, the DCL trigger 37 performs class dynamic addition by requesting M_Action (Management Action) of the Common Management Information Service (CMIS), that is, a management operation, of a network management service using a network management protocol to dynamically add a class. The M_Action Network Management Protocol (CMIP) message is generated to request the agent 40 to perform the M_Action management operation to issue a class dynamic addition command (step P5).

Then, the process of performing the dynamic addition operation of the class (step T3) is performed as shown in FIG. That is, when receiving a class dynamic addition command using the M_Action from the DCL trigger 37 (step ST1), the meta file stored in the DCL storage unit 38 is opened to initialize the internal class information table according to the meta file ( Step ST2), the memory of the network management system core 35 (not shown) generated by the source code compiler according to the name read by reading the managed object name described in the meta file and the MODL file name of the class to be added. Resident at

Accordingly, the MODL stored in the DCL storage unit 38 is executed in the network management system core 35 to find the address of the management object generation routine in the MODL by the management object name described in the meta file (step ST3). The address of the found management object creation routine is registered in the class information table (step ST4).

Accordingly, the management object is created by using the management object creation routine address stored in the class information table. At this time, the result of the class dynamic addition operation is transmitted to the DCL trigger 37 as an M_ActionRes (Management Action Reponse) message, which is a management action response message, to terminate the class dynamic addition operation (step ST5).

As described above, the present invention does not need to directly store or register a corresponding file or information by the developer through a socket communication module, which is an interface for receiving standard input from a developer for communication. Even in the case of dynamically adding a new class, DCL addition request commands input through the corresponding socket communication module can be received and processed in order to facilitate DCL system management.

Claims (7)

A DCL invoker that receives information and files necessary for class dynamic addition and outputs a class, and makes a class dynamic addition request; And a DCL trigger configured to receive a class dynamic add request from the DCL invoker, store or register the information and file, and issue a class dynamic add command to an agent to perform a class dynamic add operation. The method of claim 1 wherein the DCL Invoker And a communication point, which is a TCP / IP port for making a class dynamic addition request to the DCL trigger. The method of claim 1, wherein the DCL trigger is Input and output points for receiving the information and files necessary for dynamic addition of the DCL Invoker and the class, and delivering the dynamic addition result of the corresponding class, and Common Management Information Protocol (CMIP) linkage point for issuing a class dynamic addition command to the agent. Class dynamic addition system, characterized in that having a. Making a dynamic addition request for the class while transmitting files and information necessary for the dynamic addition of the class; Delivering the input file and information and issuing a class dynamic addition command by the file and information; And generating a new management class based on the file and information to perform a dynamic addition operation of the class. The method of claim 4, wherein the request for adding the dynamic class comprises: Initializing an internal to connect a socket communication module, and receiving, from a developer, a managed object dynamic library (MODL), a meta file, a name of a class and a managed object identifier (OID) required for dynamic addition of a class; And transmitting the MODL and the meta file of the class and the name and the OID of the class to the DCL trigger through the socket communication module. The method of claim 4, wherein the class dynamic addition command is performed. Performing internal initialization to collect data and files necessary for class dynamic addition by a class dynamic addition request included in the socket communication module when the socket communication module is connected; Storing the MODL and meta files of the class in a DCL storage based on the data and files; Registering the class name and the OID in the DCL class list file based on the data and file; And performing a class dynamic addition command to the agent based on the data and the file. The method of claim 4, wherein the performing of the class dynamic addition operation comprises: Receiving the class dynamic add command from a DCL trigger; Initializing a class information table according to a meta file stored in a DCL storage unit by the class dynamic addition command; Finding an address of a management object creation routine to be registered in the class information table; Registering an address of the management object creation routine in the class information table; Sending a result of class dynamic addition terminated by registration of a new managed object class to the DCL invoker via the DCL trigger; And outputting the class dynamic addition result received from the DCL invoker.