JPS5941070A - Method for switching filing device - Google Patents

Abstract

PURPOSE:To reduce the deterioration of the working ratio of a system, by providing a file controlling part with a file accessing part and a copy processing part and switching a filing device without stopping the use of the current filing device. CONSTITUTION:When a filing device switching command is generated, the copy processing part 7 copies the whole data to a disc device B4 by repeating the holding and releasing of the contents of a disc device A3 in each copying unit. The processing part 7 outputs the information of the completion of copying to a file accessing part 6. The accessing part 6 separates the device A3 and switches the current filing device A3 to the device B4. When writing operation from a processing part 1 to the device A3 is generated during the copying operation, the accessing part 6 writes the writing data in the device A3. The accessing part 6 checks whether the system is in copying or not, and if it is in copying, writes data also in the device B4. In case of no copying, the writing in the device B4 is skipped.

Description

DETAILED DESCRIPTION OF THE INVENTION Object of the Invention The present invention relates to a file device switching method in a computer system, particularly an online system.

Prior Art Conventionally, as a file device for a computer system,
A device that can exchange media, such as a removable disk device, or a device that can exchange media (generally used). Therefore, when performing maintenance on the current file device, temporarily stop using the file device, The medium of the file device (disk/
pack) to the backup file device. With this method, file data can be moved within a short period of time, and the period during which file data is stopped from being used due to switching of file devices can be shortened.

However, in conventional systems that use file devices that do not allow media exchange, such as large-capacity fixed disk devices, when switching the current file device to a spare file device for maintenance etc., the current file device cannot be used. The contents (files) of the current file device are copied to the backup file device. In the case of a large-capacity file device, the copy operation takes a long time,
During this time, it becomes impossible to execute processes that refer to the relevant files in the system, resulting in a problem of lowering the operating rate of the system.

OBJECTS OF THE INVENTION The main object of the present invention is to provide a new file device switching method that is particularly effective for computer systems using file devices in which media cannot be exchanged.

However, the present invention is equally applicable and effective to computer systems using file devices capable of media exchange. This is because the essential purpose of the present invention is to provide a file device switching method that makes it possible to switch file devices without stopping the use of the current file device. This is because interruptions in the use of the current file due to exchange can also be eliminated.

According to the present invention, in a computer system, without inhibiting access to an active file device,
Means is provided for controlling access to the standby file device. When a certain current file device needs to be switched for maintenance or the like, the current file device can be switched from the current file device under the control of the above means while the processing of the computer system using the current file device continues to be executed. A copy operation is executed to a certain backup file device. This copy operation is executed including updating the contents of the active file device that occurs during the copy operation. In other words, the latest contents of the active file device are copied to the backup file device. and,
Actual switching of file devices is performed when the above copy operation is completed.

Hereinafter, one embodiment of the present invention will be described in detail with reference to the drawings.

Embodiment of the Invention FIG. 1 is a block diagram schematically showing the hardware configuration of a computer system according to the invention.

As shown in the figure, the computer system of this example includes an online processing section 1, a file control section 2, and magnetic disk devices (A) 3 and a3) 4 as file devices. The file control unit 2 includes a file access unit 6, which mainly controls access from the online processing unit 1 to the active disk device (for example, 3), and a file access unit 6, which mainly controls access from the online processing unit 1 to the active disk device (for example, 3), and a backup disk device (for example, 4 ).

Although only two disk devices are shown, the number of disk devices is generally arbitrary. Further, the standby disk device does not necessarily need to be connected all the time, and may be connected whenever it is needed.

Next &C1 The file switching operation in this computer system will be explained.

Assume that disk device Q3 is currently being used as an active file device. The flow of information at this time is as shown in FIG. That is, the online processing section 1 executes online processing while accessing the disk device 3 under the intervention of the file access section 6.

In this state, for maintenance etc. of the disk device (A) 3,
Assume that it becomes necessary to switch file devices.

In this case, use the disk device [
F]) 4 is connected (of course, it is fine if it is always connected)
The system configuration and data flow are as shown in FIG. That is, the online processing section 1 executes online processing while accessing the disk device hole 3 through the file access section 6. On the other hand, under the control of the copy processing unit 7, the contents (files) of the disk device (5) 3 are sequentially copied to the disk device (B) 4 7. During this copy operation, the contents of the disk device (5) 3 , is updated, the contents of both disk drives #3.4 become inconsistent.

In order to prevent this, when writing is performed from the online processing section 1 to the disk device (g) 3, the written data is simultaneously transferred to the disk device 04, which is a backup file device, by the file access section 6. written.

When such a copy operation is completed, the Noah file access unit 2 logically disconnects the disk device (5) 3 and connects the disk device CB) 4 as a new active file device. FIG. 4 shows the system configuration and data flow after such file device switching. As shown in the figure, the online processing unit 1 executes online processing while accessing the disk device [F]) 4 via the file access unit 6 as necessary.

In this way, switching between the active and standby file devices can be performed while continuing online processing of the system. As a result, even when a file device incapable of media exchange is used, maintenance of the file device can be performed without reducing the operating rate of the system. Furthermore, even in systems that use, for example, a replaceable disk device as a file device, it is possible to avoid a decrease in the system operating rate that would otherwise occur due to replacement of a punctured disk.

FIG. 5 shows the operational flow of the file access unit 6 and the copy processing unit 7 after starting the copy operation described in mJ.

When a file device switching command occurs, the copy processing unit 7
In step 40), disk device (A) 3 holds both disk devices in order to synchronize them.
Step 41) reads out the contents of the file one copy at a time (for example, one track), and transfers the data to the disk device t[
F]) 4 and release the hold on both disk devices (step 43). By repeating this hold and release for each copy unit, the copy of all data is completed.
When it is determined (step 44), a switching notification is sent to the file access unit 6. Upon receiving this notification, the no-isle access unit 6 disconnects the disk device hole 3, switches the active file device to the disk device [F])4, and transfers it to the disk device [F])4.
When the process is completed, the copy processing section 7 is notified of this fact (step 35).

If a convolution (WRITE) operation occurs from the online processing unit 1 to the disk device (3) 3 during the above copy operation, the file access unit 6 holds both disk devices (step 30) and writes the included data. Write data to the disk device hole (step 31). Next, check whether copying is in progress (step 32). If copying is in progress, write the written data to disk device (E3) 4 (step 33), and then write the data to disk device (E3) 4 (step 33). (step 34).If copying is not in progress, step 33 is skipped.

Note that if a read operation from the online processing unit 1 to the disk device 3 occurs, -ea
Step 4 is executed for disk device (4) 3 (step 20).

Strictly speaking, while the copy processing section 7 is copying one copy at a time, access (WRITE) from the online processing section 1 to the disk device (A) 3 is interrupted. However, the deterioration in system performance due to this can be suppressed to a slight level, and does not impair the effects of the present invention.

Effects of the Invention 1 Trial As detailed above, according to the present invention, it is possible to significantly reduce the decrease in system operating rate due to file device switching than in the past, and the effect is extremely large.

[Brief explanation of drawings]

Each figure is a diagram for explaining one embodiment of the present invention. Figure 1 is a block diagram showing the configuration of a computer system. Figures 2 to 4 are block diagrams showing the configuration of the computer system. γ
Figure 5 is a schematic diagram showing the system configuration and data flow at the trough when switching the file device. be. 1... 9th part of the online store, 3, 11... Disk device (file device), 6... File access? )
:L, 7...Copy processing section. 11 Satoshi Patent Attorney Susuki 1) Toshiyuki;ノ+:'J”

Claims (1)

[Claims] +11 The computer system is equipped with means for controlling access to the standby file device without interfering with access to the 7-isle device, and when it becomes necessary to switch file devices, the current file device While continuing the processing of the computer system using the means, execute a copy operation of the contents of the current thread guar device to the backup file device under the control of the means, and perform the copy operation. Updates to the contents of the current file device that occur during this process are also executed for the backup file device, and when the copy operation is completed, the current file device is disconnected from the computer system and the backup file device is updated. A file device switching method characterized by making a system file device a new active file device.