JPH03171241A - Backup data control system - Google Patents

Abstract

PURPOSE:To reduce the backup data quantity of a data base by preserving data in a prescribed data unit, which includes an updating part, in a file as backup data at the time of executing a data base updating processing. CONSTITUTION:A backup file generation mechanism 17 generates the backup files 14-1 and 14-2 where data of a block including the updating part is stored as backup data before the updating processing by a data base updating mechanism 12 is terminated and data is outputted to the data base 11. At the same time, a backup control file 16 where the names of the backup files 14-1 and 14-2 and the names of the corresponding blocks are stored is generated. When two backup files of the same block, which are the present file and the file one generation before, a backup control mechanism 18 eliminates the backup file 13 which is one generation before. Since only data of the block including the updating part is stored in the backup fuel as backup data, the backup data quantity is reduced.

Description

[Detailed Description of the Invention] [Object of the Invention] (Field of Industrial Application) The present invention relates to a backup data management method suitable for backing up a database.

(Prior Art) Conventionally, when backing up a database, it has been common to write the entire database to a separate storage area and use this as backup data for the database. In this method, the amount of backup data ends up being equal to or larger than the database. Normal C A D (Col
In interactive processing systems such as putcr A1dad Dcs1gn), data changes do not cover the entire area of the database, so backing up all data as described above is wasteful in terms of capacity. . Furthermore, in the past, due to capacity limitations, backup data for only one generation could be stored in many cases, and there was also the problem that the backup data protection function was weak.

(Problems to be Solved by the Invention) As described above, in the past, all data in a database was saved as backup data, which caused the problem that the amount of backup data was enormous. Furthermore, since the amount of backup data is enormous, it is often the case that only one generation's worth of backup data can be kept, and there is also a problem in that the backup data is poorly maintained.

This invention has been made in view of the above circumstances, and its purpose is to provide a backup data management method that can reduce the amount of backup data of a database.

[Structure of the Invention] (Means for resolving the problem) This invention generates block data including a historical new part as a backup file during database update processing, and also creates a backup management file for managing the backup file. A backup file generation means for generating a backup file, and determining whether or not a backup file of the same block portion as the backup file currently generated by this backup file generation means already exists based on the backup management file, and making this determination. The present invention is characterized in that it includes a backup management means for deleting already existing backup files depending on the result.

(Operation) According to the above configuration, when a database is updated, a predetermined unit of data (block data) including the updated part is saved in a file (backup file) as backup data, so all data in the database The amount of backup data is smaller than the conventional method, which saves data as backup data. Also, by having backup files from the current state and one generation ago, the protection function of backup files will be strengthened.

Furthermore, if a backup file with the same block portion as the currently generated backup file exists in a backup file from one generation ago, this backup file from one generation ago will be deleted, further reducing the amount of backup data. .

(Embodiment) FIG. 1 is a block diagram showing an embodiment of the present invention. In the figure, 11 is a database, 12 is a database update mechanism that performs update processing of the database 11 on memory (main memory), and 11-1-13-8.14-1.
14-2 is a backup file in which a predetermined data unit of data (block data) including a changed portion of the database 1l is stored as backup data. Backup files l3-1 to l3-3 are, for example, backup files from one generation ago, backup file 14.
-1. 14-2 is the currently generated backup file. l5 is a backup management file for managing the backup files of one generation ago (here, backup files l3-1 to 13-3), and l6 is the currently generated backup file (here, backup files 14-1.14-2). ) is a backup management file for managing. Backup management file 15. 16 stores the file name of the backup file to be managed and the block name (in the database 11) of the block data stored in the file. The above database 11, backup file 13-1~! 3-3 and backup file 14-1. 14-2 is placed on an external storage medium such as a magnetic disk.

l7 is configured to create (backup files l3-1 to l
3-3) and a backup management file (such as backup management file 15) for managing the same file. This is a backup management mechanism that restores the database 11 based on the backup file and the corresponding backup management file.

When the backup management mechanism 18 finishes generating the current backup file (and backup management file), it performs a merge process with the backup file (and backup management file) of one generation before. In this merge process, the backup file of one generation before the same block portion as the current backup file is deleted.

FIG. 2 shows the backup files l3-1 to l3-3 of one generation ago by the backup management mechanism 18 and the currently generated backup file 14-1. 14-2 is a diagram for explaining a merge process with 14-2.

Next, the operation of the configuration shown in FIG. 1 will be explained with reference to FIG. 2.

Now, the contents of the database 11 stored in the external storage medium are loaded into a memory (not shown), and the data portions of the two blocks B and C in the database 11 are updated on the memory by the database update mechanism 12. It is assumed that The backup file generation mechanism 17 is
Before all the update processing on the memory by the database updater groove 12 is completed and output to the external storage medium (database 11), the data (block data) of blocks B and C including the updated part is saved as backup data. Stored backup file 14-1. 14-2 is generated. At the same time, the backup file generation mechanism 17 generates the backup file 14-1. 14-2 file name (here B2, C2) and corresponding block B
, C is created. Also, before this, database 1
The data portions of blocks A, C, and H of 1 are updated, and at that time, the blocks A, C, and H that include the updated portions are updated.
Backup file 13-1. data (block data) is stored as backup data. 13-
2. 13-3 and the same file 13-1. 13-2.
File name of 13-3 (here AI, Cl.El)
It is assumed that a backup management file 15 has been created in which the block names of the blocks A, C, and H are stored.

The backup management mechanism 18 uses the backup file generation mechanism 17 to create backup files 14-1.
14-2 and the backup management file 1B are generated, the backup file management described below is performed before the next backup file is generated. The basics of this backup file management is that if there are two backup files with the same block, the current one and the previous generation, delete the one generation previous backup file and create a new backup file.
It is to make it. In this embodiment, the currently created backup file l4-2 and the backup file 13-2 of one generation ago are both backup files of the same block C, as shown in FIG.
Backup management mechanism l8 is backup file l3
-2 is deleted. That is, the backup management mechanism 18 deletes the management information (file name C1, block name of block C) regarding the backup file 13-2 from the backup management file 15.

Here, a backup file from one generation ago that stores the same block data as the currently created backup file can be detected by checking the block names stored in the backup management files 15 and l6. be exposed.

After performing the above deletion process, the backup management mechanism 18 deletes the remaining backup file 13-1.
13-3 and the currently created backup file 14-1. 14-2 and create a backup file 13-1. 13-3. 14-1. 14-2
is treated as a backup file from the previous generation. The backup management mechanism 18 also merges the backup management file 15 and the backup management file 16, and merges the backup management file 13-1. 13-3. 14-1
．． Each management information of 14-2 (i.e. backup file 13-1.13-3.14-1.14-2 file names AI, B2, C2, El and block name A of block data stored in the same file) ,B,C,E)
A new backup management file 15 for the previous generation is created.

In this state, the database update mechanism 12 performs the remaining database update processing on the memory, and if a failure occurs at that time, the backup management mechanism 18 is activated. In this case, the backup management mechanism 18 stores backup files from one generation ago (here, backup files 13-1, 13-3, and 14 as shown in FIG. 2).
-1. 14-2) and backup management file l
5, the database 11 is restored on the memory and the database update process is continued. As is clear, the backup file of the previous generation (13-1.
II-3. 14-1. 14-2) is normal, so
You can strengthen the protection of backup files (enhance backup functionality). In addition, since only the data of the block including the updated part is stored in the backup file as backup data, instead of all the data in the database 11, the amount of backup data is reduced, and the above-mentioned backup file management saves unnecessary backup files. is deleted, making it possible to further reduce the amount of backup data.

Now, the database l by the database update mechanism 12
When all update processing for 1 in memory is completed normally, the contents of database 11 after being updated in memory are written to an external storage medium (database 11 above).

This completes the update of the database 11. Upon completion of this database update, the backup file generation mechanism 17 deletes the backup files and backup management files that have been generated up to that point.

In the above embodiment, backup data management using backup files (and backup management files) up to one generation ago was explained, but the present invention is not limited to this. For example, the current backup file (
and backup management file) and the previous generation's backup file (and backup management file), make a copy of the previous generation's backup file (and backup management file),
By managing this as a backup file (and backup management file) from two generations ago, it becomes possible to restore the file in the event that an error occurs during the above merging process, further strengthening the protection of the Ba Nokup file. I can figure it out.

[Effects of the Invention] As described in detail above, according to the present invention, the following effects can be achieved.

■Since only the block data containing the updated part of the database is saved as backup data in a file (backup file), the amount of backup data is smaller compared to the conventional method that saves all database data as backup data. .

■Since the configuration has backup files for the current and one generation ago, the protection function for backup files is also strengthened (and therefore the backup function is also strengthened).

■If a backup file with the same block portion as the currently generated backup file exists in a backup file from one generation ago, the backup file from one generation ago will be deleted, so the amount of backup data will be further reduced. It can be reduced.

[Brief explanation of the drawing]

FIG. 1 is a block configuration diagram showing an embodiment of the present invention, and FIG. 2 is a diagram showing the backup files ta-t to l3-3 of one generation ago and the currently generated backup file 14 by the backup management mechanism l8 of FIG. -1 and l4-2; FIG. 11... Database, l2... Database update mechanism, 13-1-18-3. 14-1. 14-2
...Backup file, 15. 18... Backup management file, 17... Backup file generation mechanism, l8... Backup management mechanism.

Claims (1)

[Claims] During database update processing, block data including the updated portion is generated as a backup file, and
A backup file generation means that generates a backup management file for managing the backup file; and a backup file generation means that determines whether or not a backup file with the same block portion as the backup file currently generated by the backup file generation means already exists. A backup management means for determining based on the file and deleting an already existing backup file according to the determination result, and performing failure recovery using the backup file when a database failure occurs. Backup data management method.