KR100208247B1 - Method for automatically constituting operating system in full electronic switching system - Google Patents

Abstract

The present invention relates to a method for automatically configuring an operating system in an electronic switch, which is suitable for initializing between a kernel and a drive. The conventional operating system of an electronic switch in the conventional electronic switch is implemented in hardware-dependent manner without being fully modularized. This makes it difficult to manage the package because it requires as many operating systems as the type of processor.In the event of any problems with the internal drive functions installed inside the running processor, it is necessary to supplement the package and reload the entire processor. In the development, there was a drawback that almost all parts of the operating system had to be re-developed, but in the present invention, the automatic configuration of the operating system and the online service are automatically performed when new hardware is added, and in the process of application when a problem occurs by the operating system. Since the online service can be prevented from being lost, the aforementioned shortcomings can be improved.

Description

How to configure operating system automatically in electronic exchange

1 is an operating system structure diagram that can be applied to the operating system automatic configuration method in the electronic switch according to the present invention.

2 is a flowchart illustrating an initialization process between a kernel and a drive as a step-by-step diagram showing an embodiment of an operating system automatic configuration method in an electronic switch according to the present invention.

* Explanation of symbols for main parts of the drawings

10: application 20: operating system

30: kernel 40: MMC communication driver

50: processor communication driver 60: auxiliary storage communication driver

70: X.25 communication driver 80: LAN communication driver

90: additional driver 100: the first hardware

110: second hardware 120: third hardware

130: fourth hardware 140: fifth hardware

150: additional hardware

The present invention relates to a method for automatically configuring an operating system in an electronic switchboard, and more particularly, to a method for automatically configuring an operating system in an electronic switchboard suitable for initializing between a kernel and a drive.

In this regard, the conventional operating system inside the electronic switchboard is a package management because the operating system is not completely modularized and is implemented as hardware dependent so that the operating system is required as many kinds of processors. It is difficult, and the internal drive functions installed inside the running processor should reload the entire processor by supplementing the package in case of any problems, and re-develop almost every part of the operating system when developing a new peripheral board. There is a flaw that must be done.

The present invention has been made to solve the above-mentioned drawbacks of the prior art, it is possible to apply online service (Online Service) by applying only a drive file (File) that performs the relevant function when the hardware configuration of the internal processor is changed, When a simple problem occurs when the processor inside the electronic exchange is on, the service is loaded by only driver files without reloading the entire processor to minimize online service loss due to an operating system failure. The purpose of the present invention is to provide a method for automatically configuring an operating system in an electronic exchange that can be efficiently managed.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention for achieving the above object is as follows.

Referring to FIG. 1, FIG. 1 is an operating system structure diagram to which an operating system automatic configuration method can be applied in an electronic switching system according to the present invention, and reference numeral 10 denotes an application operated by the operating system 20. And reference numeral 20 is an operating system for operating each application, reference numeral 30 is a kernel providing a communication path with the corresponding application, and reference numeral 40 is a kernel 30 which provides its corresponding driver service to the corresponding application. The MMC communication driver to be provided, reference numeral 50 is a processor communication driver to provide its corresponding driver service to the corresponding application through the kernel 30, and reference numeral 60 indicates its corresponding driver service to the corresponding application through the kernel 30. A secondary memory communication driver to provide a, reference numeral 70 is a corresponding application through the kernel 30 X.25 communication driver to provide the corresponding driver service to the application, and the drawing number 80 is the LAN communication driver to provide the corresponding driver service to the corresponding application through the kernel 30, and the reference number 90 is an additional driver and the drawing Reference numeral 100 denotes first hardware operating according to the connected driver, reference numeral 110 denotes second hardware operating according to the connected driver, reference numeral 120 denotes third hardware operating according to the connected driver, and reference numeral 130 Fourth hardware operating in accordance with the connected driver and reference numeral 140 is fifth hardware operating in accordance with the connected driver, and reference numeral 150 is additional hardware.

The present invention thus made will be described with reference to FIG.

First, one kernel 30 exists in the operating system 20 and external input / output functions exist as a plurality of driver files, and a normal interface between the kernel 30 and each driver uses a special matching method. By doing this, normal online service is executed.

On the other hand, in such a structure, if a problem occurs with a drive file, only by reloading the drive file, the problem can be quickly applied, and the loss of online service can be eliminated. It has the advantage of easy management.

2 is a flowchart illustrating an initialization process between a kernel 30 and a drive, according to an embodiment of the method of automatically configuring an operating system in an electronic switch according to the present invention.

First, when a specific processor comes to life by power, MMC and reset, the board internal functions are initialized and all processors are loaded with the kernel 30 (200, 210).

Next, when the loading of the above-described steps 200 and 210 is completed, the kernel 30 is basically run in the booting process, and the kernel 30 internally completes the basic initialization process, and various kinds of files are loaded in order to load the corresponding drive file. Test the drive chip (220,230).

Subsequently, after checking various chips mounted on the board in the above-mentioned step 230 (detecting additional parts when additional hardware is mounted), the maintenance processor requests loading of the corresponding drive file (240).

If the loading file of various drive files detected by the driver is not normally loaded, the maintenance processor continuously requests the loading of the drive file, and if the loading is completed qualitatively, initialization is performed for each drive (250, 260).

Thereafter, if all of the various drives are normally initialized, the process proceeds to the next step, and if the initialization is not completed, continues to request reinitialization (270).

In addition, when the initialization is completed in step 270 described above, in order to normally perform the interface between the kernel 30 and the drive file, basic data is set, and then the original function is performed (280 and 290).

The present invention can be used under an electronic switchboard, a multi-distributed system architecture, and will be useful for developers and software package managers who develop real operating systems, and for operators who operate the systems.

As described above, in the present invention, when the new hardware is further developed, the automatic configuration of the operating system and the online service are automatically performed, and when the problem caused by the operating system occurs, it is possible to prevent the loss of the online service in the application process.

Claims (1)

Initializing internal board functions when a specific processor comes to life and loading all of the processors into the kernel 30 (200, 210); When the loading of the steps 200 and 210 is completed, the kernel 30 is run in the booting process and the initialization process is completed internally in the kernel 30, and various drive chips are tested to obtain the corresponding drive file (220 and 230). ; Identifying a plurality of branch chips mounted in the board in step 230 and requesting a maintenance processor to load a corresponding drive file (240); (250, 260) requesting the maintenance processor to continue loading if the loading files of the various drive files detected by the drive file are not normally loaded and requesting initialization for each drive when the loading is completed normally; If all of the various drives are normally initialized, the process proceeds to the next step, and if the initialization is not completed, continuously requesting reinitialization (270); When the initialization is completed in step 270, in order to perform the interface between the kernel 30 and the drive file normally set the basic data and then perform the original function of the processor (280, 290) How to automatically configure the operating system.