KR20000043474A - Overlapped data matching method when dividing hard disk of communications system switch - Google Patents

Abstract

PURPOSE: An overlapped data matching method is provided to load processor loading data(PLD) into local memories of each processor, by selectively matching PLD overlapped data existing in an active side disk or a standby side disk, or active/standby disks, when hard disks duplexed in an operation maintenance processor(OMP) of a communication system exchange are separated. CONSTITUTION: An overlapped data matching method comprises the steps of: separating hard disks duplexed in a system start_up and loader(SSL); selecting a disk for executing an overlapped data matching process; requesting an overlapped dta matching process of a disk selected to data base back up group(DBBG); if the requested disk is an active side disk, making the DBBG refer to a P_REP of the active side disk and copy the overlapped data stored in a P_OMP in overlapped data of a P_XXX; if the requested disk is a standby side disk, making the DBBG refer to a P_REP of the standby side disk and copy overlapped data stored in an P_OMP in overlapped data of a P_XXX; if the requested disk is the active side disk and the standby side disk, making the DBBG refer to each P_REP and copy the overlapped data stored in the P_OMPs in each of the overlapped data of the P_XXXs.

Description

How to Match Redundant Data When Removing the Hard Disk of the Communication System Exchange

The present invention relates to an OMP (Operation Maintenance Processor) provided in an exchange of a communication system, in which an active side disk or a standby side is separated when a hard disk configured as redundancy in an OMP is separated. This paper relates to a method of matching duplicate data when a hard disk is separated by a communication system switch which enables to selectively match duplicate data.

Typically, Digital Cellular System (DCS), Personal Communication System (PCS), Code Division Multiple Access (CDMA) communication system, Public Switched Telephone Network (PSTN) The exchanger of the communication system such as) is equipped with an OMP, which is a processor that performs the operation and maintenance function of the exchanger.

As shown in FIG. 1, the OMP includes a main processor 10 that supports multitasking, a redundancy control device 20 that matches a state, a memory, an auxiliary memory device, and the like of each redundant device, and an auxiliary memory device. It consists of an auxiliary memory device connecting device 30 for controlling the, and a hard disk 40, which is an auxiliary memory device, wherein each component block is duplicated for the stability of the system (10-1, 20-2, 30-1) 40-1).

In the redundant OMP as described above, the disks 40 and 40-1, which are conventionally duplicated by the SSL (System Start_up & Loader), are separated, and then a new package such as a magnetic tape device MT is placed on the standby side. When applying or requesting verification of a new package, i.e., requesting duplicate data matching to DBBG (Data Base Backup Group), a block of DBMS (Data Base Management System) during standby loading, Are loaded by matching the PLD of the active side from the disk of the disk.

That is, as shown in FIG. 2, when a request for duplicate data matching is performed from the SSL 50 to the DBBG 60, the DBBG 60 refers to P_REP 42 of the active-side hard disk 0 40, and P_OMP ( The duplicated data stored in 41) is copied to the duplicated data of P_XXX43.

Here, SSL 50 and DBBG 60 are the building blocks that are loaded into OMP.

The active hard disk 0 (40) and the standby hard disk 1 (40-1) are P_OMP (41,41-1), P_REP (42,42-1) and P_XXX (43,43-), respectively. 1) consists of.

The P_OMP (41, 41-1) is a PLD name to be loaded into the OMP, there are all databases for the duplicate data, P_REP (42, 42-1) is a processor that is loaded with information about the duplicate data, that is, duplicate data, There are a number of processors of duplicate data, an identification number of a relation, and the like, P_XXX (43,43-1) is a PLD name of a processor into which duplicate data is loaded.

As shown in FIG. 3, the P_XXX (43, 43-1) is located at the beginning of the PLD, and includes PLD itself information, the number of tuples used, and addresses of various database data. DB (Data Base) header (a), GDIR (Global Directory) (b) including type, location information and corresponding destination information for all relations, and user data of PLD RDIR (Relation Directory) (c) containing relations and the address of the RDIC (d), RDIC (d) and several tables and data (e).

In more detail, a conventional method of matching duplicate data will be described with reference to FIG. 4.

First, the redundant hard disks 40, 40-1 are separated from the SSL 50 (S1), and then the DBBG 60 requests the PLD redundant data matching of the active disk 0 (40) (S2). The DBBG 60 finds the RDIR address of the P_OMP 41 by referring to the P_REP 42 of the active-side disk 0 40, that is, the RDIR address of the P_REP 42 (S3).

Subsequently, the RDIR address of the P_XXX 43 is found by referring to the RDIR address of the P_REP 42 of the active disk 0 40 (S4).

Thereafter, the duplicated data loaded in the P_XXX 43 of the active disk 0 40 in the DBBG 60 is copied from the P_OMP 41 of the active disk 0 40 (S5).

However, in the conventional redundant data matching method as described above, the PLD on the standby side cannot guarantee the coincidence of the redundant data as only the PLD redundant data of the active side is loaded and loaded during standby loading after removing the hard disk. There was a problem.

In addition, when the consistency of duplicate data cannot be guaranteed, the system may be abnormally operated due to the inconsistency of the data.

The present invention has been made to solve the above problems, the object of which is to duplicate the PLD in the active disk or standby disk, or both disks when separating the hard disk consisting of redundancy in the OMP of the communication system switch The purpose of the present invention is to provide a method of matching duplicate data when a hard disk is separated by a communication system switch that can be loaded into local memory of each processor by selectively matching data.

1 is a diagram illustrating a redundant configuration of an OMP in an exchange in a mobile communication system;

2 is a view showing a method of matching duplicate data in a conventional redundant hard disk;

3 is a view showing the structure of a PLD,

4 is an operation flowchart showing a method of matching duplicate data when a hard disk is disconnected in a conventional communication system switch;

5 is a view showing a method of matching duplicate data in a redundant hard disk according to the present invention;

6 is a flowchart illustrating a method of matching duplicate data when a hard disk is disconnected in a communication system exchange according to the present invention.

<Description of the symbols for the main parts of the drawings>

40,40-1: Hard Disk 41,41-1: P_OMP

42,42-1: P_REP 43,43-1: P_XXX

50: SSL 60: DBBG

In order to achieve the above object, the method of matching the duplicated data at the time of detaching the hard disk of the communication system switch of the present invention is to select a disk for performing the duplicate data matching after detaching the duplicated hard disk in SSL, and selecting DBBG. When the requested disk is the active disk, DBBG refers to P_REP of the active disk to copy the redundant data stored in P_OMP to the redundant data of P_XXX. If one disk is a standby disk, DBBG refers to P_REP of the standby disk to copy the redundant data stored in P_OMP to the redundant data of P_XXX. If the requested disk is both the active disk and the standby disk, In the DBBG, each of the active and standby disks With reference to P_REP, duplicate data stored in P_OMP is copied to duplicate data of each P_XXX.

Hereinafter, with reference to the accompanying drawings will be described in detail the method of matching duplicate data when the hard disk of the communication system switch according to the present invention.

FIG. 5 is a diagram illustrating a method of matching duplicate data in a redundant hard disk according to the present invention. When standby loading is performed, a request for duplicate data matching from the SSL 50 to the DBBG 60 is performed by the DBBG 60. With reference to P_REP 42-1 of the side hard disk 1 40-1, the duplicated data stored in the P_OMP 41-1 is copied to the duplicated data of the P_XXX 43-1.

That is, in the present invention, after the disk is disconnected during the standby loading, a new package is dumped to the standby side, and then a signal for requesting the matching of duplicate data is transmitted from the SSL 50 to the DBBG 60. In this case, the DBBG In (60), each relation is retrieved from P_OMP 41-1 by referring to P_REP 42-1 of standby disk 1 40-1, and the retrieved duplicate data is copied to P_XXX 43-1. This allows you to match duplicate data.

A method of matching duplicate data in a redundant hard disk according to the present invention operated as described above will be described in more detail with reference to FIG. 6.

First, the hard disks 0, 1 (40, 40-1), which are duplicated in the SSL 50, are separated (S11), and then, the disk for performing duplicate data matching is selected, and the PLD of the disk selected by the DBBG 60 is selected. Request for duplicate data matching (S12).

If the disk requested in step S12 is the active disk 0 40 (S13), the DBBG 60 instructs the P_REP 42 of the active disk 0 40, that is, the RDIR address of the P_REP 42. The RDIR address of the P_OMP 41 is found by referring to (S14).

Subsequently, the RDIR address of the P_XXX 43 is found by referring to the RDIR address of the P_REP 42 of the active disk 0 40 (S15).

Thereafter, the duplicated data loaded in the P_XXX 43 of the active disk 0 40 in the DBBG 60 is copied from the P_OMP 41 of the active disk 0 40 (S16).

If the disk requested in the step S12 is the standby side disk 1 40-1 (S17), the DBBG 60 sets the P_REP 42-1 of the standby side disk 1 40-1. That is, the RDIR address of the P_OMP 41-1 is found by referring to the RDIR address of the P_REP 42-1 (S18).

Subsequently, the RDIR address of the P_XXX 43-1 is found by referring to the RDIR address of the P_REP 42-1 of the standby side disk 1 40-1 (S19).

Subsequently, duplicate data loaded in the P_XXX 43-1 of the standby side disk 1 40-1 in the DBBG 60 is copied from the P_OMP 41-1 of the standby side disk 1 40-1. S20).

On the other hand, if the disk requested in the step S12 through the steps S13 and S17 is both the active side disk 0 40 and the standby side disk 1 40-1, then the DBBG 60 activates the active side. RDIR of P_OMP (41,41-1) with reference to R_addresses of P_REP (42,42-1) of disk 0 (40) and standby-side disk 1 (40-1), that is, P_REP (42,42-1) The address is found (S21).

Subsequently, the RDIR addresses of the P_XXX (43, 43-1) are found by referring to the RDIR addresses of the P_REPs 42 and 42-1 of the active disk 0 40 and the standby disk 1 40-1 (S22). .

Subsequently, the redundant data loaded on the P_XXX (43, 43-1) of the active side disk 0 (40) and the standby side disk 1 (40-1) by the DBBG 60 is stored in the active side disk 0 (40) and the standby side disk. Copies are made from the P_OMPs 41 and 41-1 of 1 (40-1) (S23).

As described above, according to the present invention, the PLDs present in the active disk, the PLDs present in the standby disk, or the PLDs present in both the active and standby disks are selectively selected from among the redundant hard disks. Duplicate data can be matched.

As described above, according to the present invention, when the redundant hard disk in the OMP is separated and the data in the standby disk is backed up or dumped by magnetic tape, the present invention does not match duplicate data existing in the active disk as in the prior art. By matching the redundant data in the standby disk, the load is reduced much and the consistency of the redundant data distributed among multiple processors can be ensured, thereby preventing the abnormal state of the system due to the data inconsistency. It is effective to be.

Claims (1)

In the method of matching duplicate data in the hard disks 40 and 40-1 constituted by redundancy in the OMP of the communication system switch, After detaching the redundant hard disks 0,1 (40,40-1) from the SSL 50, select the disk to perform the redundant data matching and request the PLD redundant data matching of the disk selected by the DBBG 60. If the disk requested in the first step is the active disk 0 (40), the DBBG (60) refers to the RDIR address of the P_REP (42) of the active disk 0 (40). A second step of finding the RDIR address of 41), and after performing the second step, the DBBG 60 refers to the RDIR address of the P_REP 42 of the active disk 0 40 to determine the RDIR address of the P_XXX 43. In the third step of searching and after performing the third step, duplicate data loaded in the P_XXX 43 of the active disk 0 40 in the DBBG 60 is copied from the P_OMP 41 of the active disk 0 40. A fourth step of making it; If the disk requested in the first step is the standby side disk 1 (40-1), the DBBG 60 refers to the RDIR address of the P_REP 42-1 of the standby side disk 1 (40-1) P_OMP ( A fifth step of finding the RDIR address of 41-1), and after performing the fifth step, the DBBG 60 refers to the RDIR address of the P_REP 42-1 of the disk 1 40-1 of the standby side, and the P_XXX ( A sixth step of finding the RDIR address of 43-1), and after performing the sixth step, the redundant data is loaded from the DBBG 60 into the P_XXX 43-1 of the disk 1 40-1 of the standby side. A seventh step of copying from the P_OMP 41-1 of the disk 1 40-1; If the disk requested in the first step is both the active disk 0 40 and the standby disk 1 40-1, the DBBG 60 determines that the active disk 0 40 and the standby disk 1 40-40 are the same. An eighth step of finding the RDIR address of the P_OMP (41, 41-1) by referring to the RDIR addresses of the P_REP (42, 42-1) of 1), and after performing the eighth step, the active-side disk in the DBBG (60). A ninth step of finding the RDIR address of the P_XXX (43, 43-1) by referring to the 0 (40) and the RDIR addresses of the P_REP (42, 42-1) of the standby-side disk 1 (40-1); After the execution of the step, the redundant data loaded into the P_XXX (43, 43-1) of the active disk 0 (40) and the standby disk 1 (40-1) in the DBBG 60 is standby with the active disk 0 (40). And a tenth step of copying from each P_OMP (41, 41-1) of the side disk 1 (40-1).