JPH0713830A - Redundant disk control method - Google Patents

Abstract

PURPOSE:To change partitions without inhibiting data from being written in and read out of a disk device by providing a management table wherein information on the partitions and information on virtual partitions are managed as different pieces of information while made to correspond to each other. CONSTITUTION:A central processor is equipped with a means which sets virtual partitions V1 and V2 differing in size from partitions P1 and P2 of two disk devices to the two disk devices, which are equipped with management tables T1 and T2 that manage the information on the partitions P1 and P2 as constitution units and the information on the virtual partitions V1 and V2 as different pieces of information while making them correspond to each other. Thus, change processing is performed by using the two disk devices having the partitions of different size and even while the partitions are changed in size, data can be written in or read out of one of the devices, so that maintenance operation can be performed without stopping service.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is used in a disk device used as an auxiliary storage device of an electronic computer and a program control device. The present invention relates to control of a redundant disk that holds the same data in two disk devices. The present invention relates to changing a partition of a disk device.

Here, a “partition” (partition) means a storage area set as a usable structural unit in a physical storage area of a disk device.

[0003]

2. Description of the Related Art A duplicated disk device is used as a system even when the same data is always recorded in two disk devices and the operation of one disk device cannot be continued due to an abnormality. Is configured so that the other one does not stop its operation by covering it.

Regarding the control of such a duplicated disk device according to the prior art, Japanese Patent Laid-Open No. 1-191821.
JP-A-64-33770, JP-A-63-
There is one disclosed in Japanese Patent No. 103381 and the like. These conventional techniques disclose a control method that does not stop the operation of the system even when various failures and maintenance are performed.

Partitions are set as constituent units of usable storage areas in each of the two duplicated disk devices connected to one system. However, if the partition size is changed for some reason, However, it was absolutely necessary to prohibit writing and reading to and from the disk device, and the operation of the system had to be substantially stopped.

[0006]

That is, in the conventional dual disk control system, the partition of the disk device is a unit forming the dual disk.
The size of each partition of the two disk devices that make up the redundant disk must be the same, so while changing the partition size of the disk, writing to both of the redundant disk devices. Also, there is a problem that reading is prohibited and the throughput of the entire system is lowered.

According to the present invention, the size of a partition of a disk device in which data is double-written and can be used as a dual disk (hereinafter referred to as the substantial disk partition size), and the individual disks forming the dual disk. Disk partition size (below,
In order to manage the information of virtual partition size) as different information, a dual disk is configured by using two disk devices with different partition sizes, and writing to and reading from the disk device is prohibited. It is an object of the present invention to provide a dual disk control method capable of changing the size of a partition without doing so.

[0008]

The first aspect of the present invention is to provide a central processing unit (C) and two disk units (D1, D2).
And two disk control devices (C1 and C2) for controlling the two disk devices in accordance with the instructions of the central processing unit. Each of the two disk devices is a redundant disk configuration unit. In the duplicated disk control system in which partitions (P1, P2) of the same size are set, and the same data is written in each partition of the two disk devices, in the central processing unit, the size of the partition Means for setting different virtual partitions (V1, V2) in the two disk devices, and each of the two disk devices has a partition (P
1, P2) information and the virtual partition (V1,
It is characterized in that it is provided with a management table (T1, T2) that manages the information of V2) as information different from each other.

The two disk devices (D1, D2) have the same physical storage capacity, and the partitions (P1, P2) as the constituent units are physically corresponding cylinders and tracks of the same number. It is desirable to be set.

The second aspect of the present invention is that the same data is written in the partitions (P1, P2) of the same size respectively set in the two disk devices (D1, D2) connected to one system. In the control method for changing the partition size of the redundant disk,
A virtual partition (V1, V2) corresponding to the size of the partition to be changed is set in each of the two disk devices, and a management table (T1, T2) for virtual partition information is set in each disk device. And the step of disconnecting one disk device (D2) from the system once, and the partition (P2) as a constituent unit of the one disk device (D2) is made to match the set virtual partition (V2). A step of setting a new partition and the disk device (D
2) is connected to the system again, and the data recorded in the other disk device (D1) is transferred to the one disk device (D2) and the other disk device (D1).
1) Copying from the virtual partition (V1) to the new partition using conversion using the table, and the other disk device (D1)
Is separated from the system once, and a new partition is set by matching the partition (P1) as the constituent unit of the other disk device (D1) with the set virtual partition (V1). Reconnecting the other disk device (D1) to the system, and copying the data recorded in the new partition of the one disk device (D2) to the new partition of the other disk device (D1). And a step of performing.

[0011]

The partition size of the duplicated disk in which the same data is written in the partitions (P1, P2) of the same size set in the two disk devices (D1, D2) connected to one system. When changing, change the virtual partition (V1, V2) corresponding to the size of the partition to be changed to 2
Each disk device and a management table (T1, T2) for virtual partition information in each disk device, one disk device (D2) is temporarily disconnected from the system, and the other disk device is set. The partition (P2) as a structural unit of (D2) is made to match the set virtual partition (V2), and a new partition is set. Then, one disk device (D2) is connected to the system again, and the data recorded in the other disk device (D1) is transferred to the one disk device (D2) in the virtual partition () of the other disk device (D1). Copy from V1) to a new partition using conversion using a table. Further, the other disk device (D1) is once disconnected from the system, and the partition (P1) as a constituent unit of the other disk device (D1).
To match the set virtual partition (V1) and set a new partition. The other disk device (D1) is connected to the system again, and the data recorded in the new partition of the one disk device (D2) is copied to the new partition of the other disk device (D1).

By performing the changing process using the two disk devices having different partition sizes in this way, data can be written or read to either one of the devices even while the partition size is being changed. It can be performed and maintenance work can be performed without stopping the service.

[0013]

Embodiments of the present invention will now be described with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the embodiment of the present invention.

In the embodiment of the present invention, the central processing unit C, the two disk devices D1 and D2, and the two disk devices D1 and D2 for controlling the two disk devices D1 and D2 respectively according to the command of the central processing unit C are provided. The two disk devices C1 and C2 are provided with the control devices C1 and C2, and partitions P1 and P2 of the same size are set in each of the two disk devices C1 and C2 as constituent units of the redundant disk.
The same data is written in each partition of C2. Further, the central processing unit C has a partition P
Virtual partition V of different size from 1 and P2
1 and V2 are provided in the two disk devices D1 and D2, and the two disk devices D1 and D2 are provided with information on the partitions P1 and P2 as the structural units and the virtual partitions V1 and V2, respectively. Management tables T1 and T2 that manage information in association with other information
Equipped with.

The two disk devices D1 and D2 have the same physical storage capacity, and the partitions P1 and P2 as the structural units are set to the physically corresponding cylinders and tracks of the same number.

Next, the operation of the embodiment of the present invention thus constructed will be described.

Double writing and dual control on the disk devices D1 and D2 are performed by a program on the central processing unit C based on the above-mentioned management information. The management information is updated when a command is issued by the operator to change the configuration.

Generally, in the dual disk system, one disk device (for example, D1) is defined as a master disk and the other disk device (for example, D2) is defined as a slave disk when the system is constructed. After starting the system, both disk units D
Writing to the same cylinder and the same track of D1 and D2, comparing the time information of the contents of the master disk and the slave disk, the disk device D1 having the newer contents
Alternatively, the two-system synchronous operation of reading from D2 is started. When the contents of the master disk and slave disk are different, the time when the data was written by the copy process running in the background is compared, and the newer data is overwritten by the older data to maintain synchronization. .

When changing the sizes of the partitions P1 and P2 of the disk devices D1 and D2, first, the size of the virtual partition V1 of the disk device D1 is changed. At this time, the substantial partition P1 is not changed, and writing to the duplicated disk devices D1 and D2 is based on the substantial partition sizes P1 and P2, and the same cylinders of the two disk devices 5 and 6, It is done for the same track. Next, the disk device D2 is disconnected from the system, and one-sided operation of only the disk device D1 is temporarily performed, and the substantial partition size P1 and the virtual partition size V2 of the disk device D2 disconnected from the system are set to the virtual disk device D1 The partition size is changed to the same partition size V1. The data writing during the one-sided operation by only the disk device D1 is performed based on the substantial partition size P1.

Disk device D separated from the system
When the change of the substantial partition size P2 of 2 and the virtual partition size V2 is completed, the disk device D2 is incorporated into the system and duplicated with the disk device D1. At this time, the disks are duplicated based on the virtual partition sizes V1 and V2 of the disk devices D1 and D2.

After the duplication of the disk is completed, the copy process which operates in the background starts copying the data from the disk device D1 to the disk device D2. Data is read only from the disk device D1 while the data is being copied by the copy process. On the other hand, while the data is being copied by the copy process, the data writing is performed to the same cylinder and the same track of the disk devices D1 and D2.

When the data copy from the disk device D1 to the disk device D2 is completed and the data consistency between the duplicated disk devices D1 and D2 is achieved, the disk device D1 is disconnected from the system and temporarily transferred to the disk. Substantial partition size P1 of the disk device D1 separated from the system by entering single-sided operation of only device D2
The virtual partition size V1 of the disk device D1
Change to the same size as. Similar to the case of the one-sided operation by the disk device D1 only, the data writing during the one-sided operation by the disk device D2 is performed based on the substantial partition size P2.

Disk device D separated from the system
When the change of the substantial partition size P1 of 1 is completed, the disk device D1 is incorporated into the system to be duplicated with the disk device D2. At this time, the disk device D
Disk duplication is performed based on virtual partition sizes V1 and V2 of 1 and D2.

After the duplication of the disk is completed, the copy process which operates in the background starts copying the data from the disk device D2 to the disk device D1. Data is read only from the disk device D2 while data is being copied by the copy process. On the other hand, while the data is being copied by the copy process, the data writing is performed to the same cylinder and the same track of the disk devices D1 and D2.

When the data copy from the disk device D2 to the disk device D1 is completed and the data consistency between the duplicated disk devices D1 and D2 is achieved, the process of changing the size of the disk partition is completed, Both systems of the redundant disk are restarted.

[0026]

As described above, according to the present invention, since a duplicated disk can be configured by two disk devices having different partition sizes, the partition size of the disk device is changed. Even during the period, it is possible to write or read data to either one of the disk devices constituting the duplicated disk, and it is possible to perform maintenance work by the administrator without stopping the system service.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

[Explanation of symbols]

 C Central processing unit C1, C2 Disk control device D1, D2 Disk device P1, P2 Virtual partition size V1, V2 Virtual partition size T1, T2 Management table TP Virtual partition size storage area TV Virtual partition size storage area

Claims (3)

[Claims] 1. A central processing unit (C), two disk units (D1, D2), and two disk control units (2) for controlling these two disk units according to the instructions of the central processing unit (C). C1 and C2), partitions (P1, P2) of the same size are set in each of the two disk devices as a constituent unit of the redundant disk, and the same data is stored in each partition of the two disk devices. In the dual disk control method in which the partition is written, virtual partitions (V1, V2) different in size from the partition are provided in the central processing unit.
A unit for setting the number of disk units, and each of the two disk units separately stores information of the partition (P1, P2) as the structural unit and information of the virtual partition (V1, V2). A redundant disk control method, which is provided with a management table (T1, T2) that is managed in association with each other. 2. The two disk devices (D1, D2)
Have the same physical storage capacity as each other, and the partitions (P1, P2) as the constitutional units are set in the cylinders and tracks of the same numbers that physically correspond to each other. 3. A partition of a duplicated disk in which the same data is written in partitions (P1, P2) of the same size respectively set in two disk devices (D1, D2) connected to one system. In the control method for changing the size, the virtual partition (V1, V2) corresponding to the size of the partition to be changed is set in each of the two disk devices, and the virtual partition information is set in each disk device. Setting the management table (T1, T2), the step of disconnecting one disk device (D2) from the system once, and the one disk device (D2).
2) matching a partition (P2) as a constituent unit with a set virtual partition (V2) and setting a new partition; and rejoining the one disk device (D2) to the system. , The data recorded in the other disk device (D1) is transferred to the one disk device (D2) from the virtual partition (V1) of the other disk device (D1) by using the conversion using the table. Copying to a new partition, disconnecting the other disk device (D1) from the system once, and a virtual partition in which the partition (P1) as a constituent unit of the other disk device (D1) is set Set a new partition to match (V1) And-up, and the other of the disk device (D1) and again step of connecting to the system, the other disk device recording data in the rough such partitions said one disc unit (D2) (D
1) A step of copying to a new partition, which is a control method.