JPH02212949A - Reorganization processing system for data base in on-line operation - Google Patents

Abstract

PURPOSE:To attain reorganization processing of a data base on on-line operation by providing a reorganization processing means to change the storage state of a data record in the data base by a cluster unit, an address conversion area relocating means and a cluster locking means, and executing the reorganization processing of the data base by the cluster unit. CONSTITUTION:The reorganization processing means 1 changes the storage state of the data record in the data base 10 while it copies a data code in a certain range in the data base 10 to a the different range by the cluster unit. The address conversion area relocating means 2 relocates an address conversion area 11 in the data base 10 on the basis of the address of the copying destination of the cluster copied by the reorganization processing means 1, etc. Then, the cluster locking means 3 locks the cluster of a processed object during the processing of the reorganization processing means 1 and the address conversion area relocating means 2, and releases this lock after the relocation of the address conversion area by the address conversion area relocating means 2 is finished. Thus, the reorganization processing of the data base on the on-line operation becomes possible.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a database reorganization processing method, and particularly to an online database reorganization processing method in an online system.

[Conventional technology]

In the conventional database reorganization processing method, as shown in Figure 2, the data in the database is once transferred to an auxiliary storage medium such as magnetic tape (usually magnetic tape is used, so magnetic tape is shown as a representative example). ), and the data is stored in the database again, thereby performing database reorganization processing.

In other words, when storing the data mentioned above, if there is a shortage of database space, expand the space, and if the database storage situation deteriorates due to the presence of a large number of deleted records, the actual data (data records) in the database will be expanded. ), a database reorganization process was performed to improve the database storage situation.

[Problems to be Solved by the Invention] In the conventional database reorganization processing method described above, data in the database must be saved to a magnetic tape, etc., so updates by online processing occur during database reorganization processing. In this case, there is a drawback that the update of data already saved on a magnetic tape or the like is not reflected, and the data in the database after the reorganization process related to the update becomes invalid data.

Therefore, in the conventional database reorganization processing method,
There is a drawback that database reorganization processing cannot be performed while online (online processing is being executed) (the online system must be stopped to perform database reorganization processing).

In view of the above-mentioned points, an object of the present invention is to provide a database reorganization processing method while online, which is a database reorganization processing method that enables reorganization processing of a database while online.

[Means to solve the problem]

The online data reorganization processing method of the present invention includes a reorganization processing means that changes the storage status of data records in the database while copying data records in a certain range in the database to another range in cluster units. , address translation area replacement means for replacing the address translation area in the database based on the copy destination address of the cluster copied by the reorganization processing means; and the reorganization processing means and the address translation area attachment means. The cluster locking means locks the cluster to be processed during processing by the address conversion area changing means, and releases the lock after the address conversion area changing means finishes assigning the address conversion area.

[Effect]

In the online data reorganization processing method of the present invention, the reorganization processing means changes the storage status of data records in the database while copying data records in a certain range in the database to another range in cluster units, and The conversion area assignment means replaces the address translation area in the database based on the copy destination address of the cluster copied by the reorganization processing means, and the class clock means reassigns the address translation area to the reorganization processing means and the address translation area assignment means. The cluster to be processed is locked during processing by the changing means, and the lock is released after the changing of the address conversion area by the changing means is completed.

〔Example〕

Next, the present invention will be explained with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the online database reorganization processing method of the present invention. Kaesong was physically divided.

The smallest unit of file allocation) data records in a cluster (a set of chained data records, one parent record (the third
In the figure, it is only indicated as "parent".

The same applies to child records and grandchild records) and the storage status in the database 10 is changed (improved) while copying them to another range (consisting of child records and grandchild records subordinate to the parent record). As a result, reorganization processing of the database IO is realized in order to expand the area within the database 10 and achieve optimal access efficiency to the database 10). Address translation area replacement for replacing the address translation area 11 in the database 10 (converting the data address in address translation area 11 shown in FIG. 3) based on the address (data address) of the range to which the cluster is copied. During the processing of means 2, reorganization processing means 1 and address translation area replacement means 2, the cluster to be processed is locked (preventing other processing programs from accessing the cluster) and the address translation area is attached. The class clock unit 3 includes a class clock unit 3 that unlocks the address conversion area 11 after the conversion unit 2 completes the conversion of the address conversion area 11, and a database JO that is subject to reorganization processing.

The database 10 includes an address translation area 11 and several ranges 12 (consisting of a plurality of pages as shown in FIG. 3).

Referring to FIG. 3, the address conversion area 11 has a key part and a data address.

The data address is an address indicating a range number for identifying range 12 and an address within that range 12 (consisting of a page number for identifying a page and a line number for identifying a line within that page). Part (3rd
The address section in the figure shows only the page number).

When any data record in the database 10 is accessed by a processing program executed in an online system, there is usually a key for accessing that data record (each parent record (cluster), such as an account number in a banking system). (one key is set for each key), a portion of the address translation area 1.1 is searched, and based on this search, a data address is determined and access to the data record is performed.

Next, the operation of the online data heirth reorganization processing method of this embodiment configured as described above will be explained. Note that here, range 1 of range number rlJ shown in FIG.
．． 2 (range 12-1) is reorganized into range 1.2 (range 12-2) with range number "2" and the address translation area 11 is replaced.

When reorganization processing of the database 10 is performed, the reorganization processing means 1 corresponds to the range 12-1 to be reorganized in a free area of a magnetic disk or the like (not shown) on which the database 10 is stored. (This makes range 12-2 an area within database 10.)

Next, the reorganization processing means 1 stores certain dummy records for all pages in the allocated range 12-2 for each page. This is a process for securing a certain area in each page so that when child records, grandchild records, etc. are added to the cluster after the reorganization process, the data records can be stored in the same page as much as possible. Note that this dummy record will be deleted when each page is no longer the current page (when the reorganization process for that page is completed) (this deletion will cause the area where the dummy record was stored to become a free area, (can be used when adding data records as described above).

Further, the reorganization processing means 1 reads the address conversion area 11 in the database 10 from the first entry, acquires the data address of the parent record for each entry, and reads the data record in the range 12-1. Reading is performed in cluster units corresponding to each theory record, and the cluster size is calculated during this reading (it goes without saying that deleted records are not read).

At the same time, the cluster locking means 3 locks the cluster in order to prevent other processing programs from accessing the data records within the cluster.

Subsequently, the reorganization processing means 1 stores (copies) the read cluster unit data record into the allocated range 12-2. If the target cluster cannot be stored (it is determined whether it can be stored or not based on the cluster size calculated when reading the data record)
The cluster (data record in cluster unit) is controlled so that page spanning (one cluster is stored across two pages) does not occur.
is stored from the first line of the next page (at this time, the previous page is no longer the current page, so the dummy record in it is deleted).

When the copying of one cluster to the range 12-2 is completed, the address conversion area addition/loss means 2 sets the cluster to the range number "2" of the newly stored range 12-2 (copy destination range 12). Address (page number “1”
'', etc.) are written in the range number and address part of the data address for the key part corresponding to that cluster in the address conversion area 11 (replacing the address conversion area 11).

When the replacement of the address translation area 11 is completed, the cluster lock means 3 unlocks the cluster.

If the processing program accesses the data record for which the reorganization process has been completed after the reorganization process of the database IO is completed as described above, the data address in the address conversion area IO will be the range number after the reorganization process. and address part, it becomes possible to access data records that have undergone reorganization processing.

Note that if a processing program that creates a new cluster is executed while the reorganization process is being executed, the new raster will be stored in the last area of the old range (range 12-1). The process reorganizes this cluster into a new range (range 12-2).

In the reorganization process of the database 10 described above, when considered from the online terminal (not shown) side, there is only one cluster in an inaccessible state (waiting state) at a certain point in time, and that is also during the online period in this embodiment. The database reorganization processing method moves the cluster to a separate area (
After the data is stored in the range 12-2) and the address conversion area 11 associated with the storage is replaced, it can be accessed immediately.

(Effects of the Invention) As explained above, the present invention performs database reorganization processing in units of clusters (data in one range is copied to another range in units of clusters, and based on the copy, addresses in the address translation area are This makes it possible to reorganize databases while they are online, which was not possible with conventional technology, and greatly improves the operability of online systems containing databases (database reorganization). There is no need to stop the online system for organizing processing, and it is possible to realize a non-stop system that can operate the online system 24 hours a day.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention, FIG. 2 is a flowchart showing the processing of a conventional database reorganization processing method, and FIG. 3 is an online database of this embodiment shown in FIG. Database reorganization processing using the reorganization processing method! It is a figure showing an example of person a. In the figure, 1... Reorganization processing means, 2... Address translation area replacement means, 3... Cluster locking means, IO... Database, 11... Address translation area, 12, 12-1 .12-2... Range.

Claims (1)

[Scope of Claims] Reorganization processing means for changing the storage status of data records in a database while copying data records in a range in a database to another range in units of clusters; and address translation area replacement means for replacing an address translation area in the database based on the copy destination address of the cluster that has been copied; and 1. A database reorganization processing method while online, comprising: cluster locking means for locking a cluster of the address translation area and releasing the lock after the replacement of the address translation area by the address translation area replacement means has been completed.