KR19990031953A - Input command data generation method of electronic exchange - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of generating input command data of an electronic switching system for generating MMS data of a TDX-100 electronic switching device, that is, data necessary for a MMI (Man Machine Interface). In the case of MMI, the data required for MMI generation and function development environment requires a small amount of data, but the entire database is considerably large, so that the entire database is included. Although there is a drawback in that it takes a long time to generate an executable file for the present invention, in the present invention, it is necessary for MMI by generating data necessary for MMI in a SCOPE environment in which only the data required by a developer is accessed without accessing the entire database. For data generation and function development Since the executable file can be generated quickly, the above-mentioned drawbacks can be ameliorated.

Description

Input command data generation method of electronic exchange

The present invention relates to a method for generating input command data of an electronic switch, and more particularly, to generate MMS data (Man Machine Subsystem data) of a TDX-100 electronic switch, that is, data required for MMI (Man Machine Interface). The present invention relates to a method of generating input command data of an exchange.

In this regard, in the related art, developers access the entire data base (DB) in a generation and function development environment necessary for MMI and refer to necessary data.

However, in such a conventional technology, a small amount of data is required in the generation and function development environment necessary for MMI, but the entire database is considerably large, so that the entire database is included. The drawback was that it took a lot of time to generate an executable file for data generation and function development.

The present invention has been made to solve the above-mentioned shortcomings. The present invention provides a method for generating data necessary for MMI in a SCOPE (Software Component Oriented Process Environment) environment in which only the data required by a developer is accessed without accessing the entire database. It is an object of the present invention to provide a method for generating input command data of an electronic exchange.

SCOPE is the production and development environment for TDX-100 electronic exchange package. SCOPE is an environment that allows you to design software development environments from a data perspective. The development method through improvement of common file structure called software component divides the common data necessary for inter-block interaction into small pieces called components, and puts their design ahead of the algorithm design of the program. In addition, users who utilize them can be compiled and tested even when the total design of common data is not done, thereby minimizing the loss of development time.

In other words, it minimizes the dependency on information and packages commonly referred to by developers, and creates an environment that can independently produce common reference information between blocks, which is the minimum unit of each block compilation.

In addition, typical functions supported by SCOPE include SWC (SoftWare Component), multi-node structure, and VPATH (View PATH).

The TDX switch is a large distributed system that allows multiple processors to work together to achieve processor-specific functionality. Each processor is a distributed processing structure in which several software programs, called blocks, in which system requirements are distributed and implemented according to a design procedure, operate on an operating system of the processor and a data base management system (DBMS).

In this structure, each block rarely plays its own role, and functions are shared by each block or through information exchange with the operating system and DBMS. What is necessary for information exchange between these connection elements is called common information.

SWC is a common information divided into processing units or logical units, and there are many kinds of SWCs according to the nature and shape of the information.

Collect all SWCs built according to SWC types and introduce database concept to build database using Unix file system.

In SCOPE, a developer's workspace is called a work node, which maintains a directory structure designed when the development environment is first built. You can have multiple nodes with the same directory structure as the work node, and you can share roles for each node and become the parent of the developer's work node. The reason for having a multi-node structure is that the development process in each developer's work node and each developer need a separate node for managing a common file, and a separate node can be configured for package production management. Mainly, it can be divided into developer's work node and administrator's (package producer) node.

The advantage of multiple nodes is that block functional implementation tests have been performed since the original package was produced, enabling each developer to test their own block function implementation at the developer's working node, and ensure the concurrent development of developers.

VPATH is a definition that defines the file reference order to perform the necessary work by using the file of the location first found by referencing the file sequentially from the parent node of the same structure set based on the current working node. It is used as an external environment variable of shell).

1 is a block diagram schematically illustrating an all-electronic exchange using data generated by a method of generating input command data of the all-electronic exchange according to the present invention;

Figure 2 is a schematic diagram showing step by step an embodiment of a method of generating input command data of the electronic switch according to the present invention.

<Description of Symbols for Main Parts of Drawings>

10: ASS 12: INS

14: CCS

The above and other objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, an embodiment of the present invention for achieving the above object in detail.

1 is a block diagram schematically showing an electronic switch using data generated by the method for generating input command data of the electronic switch according to the present invention. The ASS (Access Switching Subsystem) 10 shows subscriber and relay line matching and time. It is equipped with a switch, various signaling devices, packet handlers, etc. to perform most call processing functions and self-operation maintenance functions, and thus has a horizontally distributed structure systematically, and a plurality of ASSs are interconnected with an INS (Interconnection Network Subsystem) (12). ) Can be connected. It is also equipped with ISDN digital subscriber interface, SS No.7 signaling device, packet processor function, network linkage device function, and so on.

In addition, the INS 12 is located at the center of the system and performs a function of connecting each ASS to each other or between each ASS and the Central Control Subsystem (CCS) 14. The switch network has a T-S-T switch structure, where a space switch is located in the INS 12 and a time switch is configured in each ASS. Among the call processing functions, it performs number translation, route control function, centralized functions such as space switch connection, etc., and is also responsible for generating and distributing a system clock by using a network device.

In addition, CCS 14 is responsible for centralized operation and maintenance functions.

At this time, the above-described MMS is located in the CCS 14 and defines the input and output type, the dialogue procedure, the interaction between the exchange and the operator and the like to provide a window and means of communication between the operator and the system.

Figure 2 is a schematic step-by-step diagram showing an embodiment of the input command data generation method of the electronic switch according to the present invention, after checking whether the VPATH is set as an environment variable to determine the path of the set node, the input command format and input Check for filename errors (20, 22).

The VPATH at this time describes a directory of multiple nodes and is an order of finding a file to be referred to. The above-described input file is "imd" which is a kind of SWC, or "imd." Having a list of "imd" as contents. infile ".

The working directory must belong to one of the nodes in the VPATH. If the input file does not exist on the current node, it will look for the file in the same directory on the parent node of the VPATH.

Next, an output file is initialized and generated according to an input option, and the output file is parsed and output as an MMS data structure generated by himc of a form to be generated (24, 26).

In addition, an output file according to an input option is generated (28).

That is, MMS data generated by himc generates "MMSCMD.DAT" and "MENU.DAT".

As described above, the present invention provides an executable file for generating data and developing a function necessary for MMI by generating data necessary for MMI in a SCOPE environment that accesses only data required by a developer without accessing the entire database. There is an effect that can be generated quickly.

Claims (1)

A first step (20, 22) of checking a path of a set node and checking an error of an input command format and an input file name; After performing the first steps 20 and 22, the output file is initialized and generated according to an input option, and the output file is generated as a MMS data (Man Machine Subsystem data) structure generated by himc in the form of parsing the input file. Second steps 24 and 26; And a third step (28) of generating an output file according to an input option after performing the second step (24, 26).