JPS6341925A - Controlling system for disk space - Google Patents

Abstract

PURPOSE:To disperse the load of input-output to a disk volume by giving optional attribute to individual disk volume by a user and combining and dividing disk volumes. CONSTITUTION:A user of a computer system defines optional attribute to each disk volume using a logical attribute defining section 10 of the disk volume and stores in a logical attribute information section 20 of the disk volume. A job group 30 put in by the user of the computer system calls a selecting section 40 of the disk volume to obtain a disk space that becomes necessary. The selecting section 40 refers to the logical attribute information section 20 of the disk volume for called job group 30 and selects a disk volume from a disk volume group 50 based on the attribute information, and ensures a disk space, and informs to the job group 30. The job group 30 forwards processing using the informed disk space.

Description

[Detailed Description of the Invention] <Industrial Application Field> The present invention relates to a disk space management method, and more specifically, arbitrary logical attributes specified by the user are stored in the logic section 111, and defined logical information is The present invention relates to a disk space management method for securing disk space required by a group of jobs submitted to a system from a group of disk volumes based on \ゝ$-λ.

<Prior art> Conventionally, disk space management methods have been either for the user to specify a disk volume and reserve disk space, or for the system program to allocate disk volume using some algorithm regardless of the user's intention. The method was to secure disk space by selecting .

<Problems to be Solved by the Invention> The conventional disk space management method described above has the following problems. In other words, in the former method in which the user specifies the disk volume, it is necessary to understand the disk space usage status of the entire system and optimize it, which makes the work complicated and difficult. The problem is that the system is
The method of securing progress has a problem in that it is not necessarily optimized due to changes in the system environment, such as the amount of transactions and the number of submitted jobs.

The present invention solves the above-mentioned conventional problems and provides a disk space management method that can configure a disk polyneme in response to changes in the environment within the system without requiring much effort.

Means for Solving the Problems> The present invention solves the above conventional problems in a disk space management method of a system in which disk space usage is managed on an individual disk volume basis. , any logical attributes to be assigned to the disk volume are stored in the logical attribute information section using the logical attribute definition section during system startup or operation, and the disk space required by the job group submitted to the system is saved. The present invention is characterized by logically combining and dividing disk volumes from a group of disk volumes based on the defined logical attribute information. By logically combining and dividing volumes, it is possible to configure disk volumes that respond to changes in the environment within the system, and it is possible to distribute the input/output load of the disk volumes.

<Example> Next, an embodiment of the present invention to which the above means is applied will be described.

FIG. 1 shows a conceptual diagram of one embodiment, in which numeral 10 is an attribute definition section that defines the logical attributes of a disk volume, and the logical attributes of the disk volume defined in the definition section 10 are logical attribute information. It is stored in section 20. Further, 30 is a job group to be input into the computer system, and 40 is a disk volume selection function based on the logical attributes of each disk volume stored in the logical attribute information section 20 and the type of the job group 30. 50 is a disk volume group to be selected.

In the above configuration, the user of the computer system
An arbitrary attribute is defined for each disk volume using the logical attribute definition section 10 of Polyneem, and is stored in the logical attribute information section 20 of the disk volume. At this time,
The disk volume logical attribute definition unit 10 temporarily assigns disk attributes to the disk volume selection unit 40.
It is notified not to refer to the logical attribute information section 20 of the volume.

Further, the job group 30 submitted by the user of the computer system calls the disk volume selection unit 40 in order to obtain the required disk space.

This selection unit 40 refers to the disk volume logical attribute information unit 20 for the called job group 30, selects one disk volume from the disk volume group 50 based on the attribute information, and selects one disk volume from the disk volume group 50 to save disk space. and notifies the job group 30 of this. Zip group 30 is configured to proceed while using the notified disk space.

I will explain in detail.

The user of the computer system uses the disk polyneme logical attribute definition process 11 to define the disk volume via an input medium such as a card 12, tape 13, or floppy disk 14 on which logical attribute information of the disk volume is written. In the logical attribute information section 20, there is an attribute information section 21. Attribute information section 22 regarding TSS session process group. Stores attribute information section 23 regarding online real-time process groups. In this embodiment, the attribute information section 21 regarding the batch job group includes disk volumes 51, 52.
53 and disk volumes 53 and 54 are used as the attribute information section 22 for the TSS seno-sition process group.
It is defined to use volume 55.

Thereafter, for example, when the batch job group 31 is inserted into the system, the batch job group 31 calls the job identification unit 42 in the disk space selection unit 40 in order to obtain the required disk space. The job identification unit 42 notifies the job identification information to the attribute information determination unit 41, and the attribute information determination unit 41 selects the attribute information section 21 related to the batch job group from the logical attribute information section 20 of the disk volume. disk volume 51
．． Know that disk space should be reserved from one of the disk volumes 52.53. The attribute information determination unit 41 determines one disk volume by a round-tropin method or a linear method, secures a disk space, and notifies the bunch job group 31 of the determined disk volume. The hatch job group 31 uses the notified disk space and proceeds with the process while securing newly required disk space in the same manner.

Even when the TSS session process group 32 and the online real-time process group 33 are introduced into the system, all (with the same procedure) as the batch job group 31 described above,
1,000 mask spaces will be reserved.

Also, depending on the system operating time, batch job group 3
If the disk input/output loads of the LTSS session process group 32 and the online real-time process group 33 are different, the disk volume logical attribute definition process 11 can be used to define the logical attributes of the disk volume without stopping the system. I-type tR reporting unit 21 regarding batch jobs in the information unit 20. Attribute information section 22 regarding the TSS self-processing process group and attribute information section 23 regarding the online real-time process group
By redefining each of these, the disk I/O load can be distributed.

When redefining the above, the disk volume logical attribute definition process 11 notifies the attribute information determination unit 41 that it must not refer to the attribute information in the disk volume logical attribute information section 20 before assembling the attribute information, In addition, by notifying the user that the attribute information may be referenced after assembling the attribute information, control is provided to prevent incorrect attribute information from being referenced.

An overview of the erecting operation will be explained.

The disk volume logical attribute definition process 11 reads logical attribute information from the card 12, tape 13, or floppy disk 14 designated by the user in step S1.Next, in step S++ it is determined whether the data is finished or not. If it is the end, the process ends, and if it is not the end, the process proceeds to step SI2, where the validity of the logical attribute information read by the disk volume logical attribute definition process 11 is checked. As a result of the check, if there is no error, the process proceeds to step 313, where the logical attribute information section is prohibited from being referenced, and the process proceeds to the next step S14.
A logical attribute information section is assembled in the logical attribute information section 20 of the disk volume. That is, processing for adding, changing, and deleting logical attribute information is performed here. Thereafter, the process proceeds to step SI5, where the prohibition of reference to the logical attribute information section is canceled.

By repeating the above operations, all the specified logical attribute information is assembled in the logical attribute information section 20 of the disk volume.

Next, an outline of the operation for securing disk space will be explained using the flow shown in FIG.

First, in step S2°, the user inputs a group of jobs into the system. This job is batch job group 31.
TSS session process group 32 or online
It may be a real-time process group 33. Then, the submitted job group calls the disk volume selection section 40 to secure disk space.Next, the process proceeds to step SZ+, where the called disk volume selection section 40 identifies the job. Next, in step S0, it is checked whether or not the logical attribute information section 20 can be referenced. If it is possible, the process proceeds to step SZ4. If not, it waits for several seconds in step St3, and returns to step S2□ again to check the logical attribute information. Check whether the information section 20 can be referenced.

Next, in step Sta, the disk volume selection section 4
0 obtains the attribute information of the corresponding job from the logical attribute information section 20 and obtains the disk and A volume group that match the corresponding job. Next, in step 325, one disk volume is selected from the group of disk volumes that cannot be obtained, and the process further proceeds to step St& to obtain disk space from the selected disk volume. Thereafter, the job is notified of the disk space obtained in step sit.

By repeating the above operations, the disk space required by the job group 30 submitted to the system is secured as needed.

<Effects of the Invention> As described above, the present invention provides an arbitrary attribute specified by the user to each disk volume, and combines and divides the disk polynym into two parts, thereby eliminating the need for a large amount of effort as in the past. It is possible to reconfigure disk volumes in response to changes in the environment within the system, to configure disk volumes according to the characteristics of each job group, and to achieve negative distribution of input and output to disk polynemes. It is.

FIG. 1 is a block diagram showing the concept of an embodiment of the present invention;
The figure is a block diagram of an embodiment of the present invention, and FIGS. 3 and 4 are schematic explanatory flows showing an outline of the operation.

10 is a disk volume logical attribute definition section, 11 is a disk volume logical attribute definition process, 12 is a card medium, 13 is a tape medium, 14 is a floppy disk medium, 20 is a disk volume logical attribute information section, 21 is an attribute information section regarding batch job groups; 22
is the attribute information section regarding the TSS session process group, 2
3 is an attribute information section regarding an online real-time process group, 30 is a job group, 31 is a batch job group, 3
2 is the TSS session process group, 33 is the online
Real-time process group, 40 is a disk volume selection unit, 41 is an attribute information determination unit, 42 is a job identification unit, 50 is a disk volume group, 51.52.5
3.54.55 is a disc polyneme.

Claims (1)

[Claims] In a disk space management method for a system in which disk space usage is managed by individual disk volumes, any logical attributes specified for the disk volumes can be specified in the logical attribute definition section during system startup or operation. The disk space required by the job group submitted to the system is stored in the logical attribute information section using the logical attribute information defined above.
A disk space management method characterized by securing disk space by logically combining and dividing disk volumes from a volume group.