JPS6074041A - Multiple volume trouble processing system - Google Patents

Abstract

PURPOSE:To improve the reliability of a volume in a single-lung state when trouble occurs in both systems by collecting trouble statistics information previously and automatically, and selecting and disconnecting a more stable volume on the basis of the trouble statistics information in case of both-system trouble occurrence. CONSTITUTION:A trouble monitoring part 5 gathers statistics of temporary input/output trouble occurrence with respect to individual physical volumes. A disconnected volume selection part 6 when informed of the trouble of the physical volumes of the whole system with respect to a logical from a multiple volume control part 2 refers to the statistics information stored in a trouble statistics information storage part 11 to select physical volumes except the physical volume having the lowest frequency of trouble occurrence as objects of disconnection. Consequently, a volume disconnecting part 3 updates the contents of a multiple volume control table 8 and disconnects the informed physical volumes from the logical volume.

Description

DETAILED DESCRIPTION OF THE INVENTION (5) Technical Field of the Invention The present invention relates to a multiplexed volume IJ, a system for handling system failures, particularly in a system having a function of duplicating and managing information stored in an external storage device, for example. When both systems of individual physical devices of a zx volume fail.

The present invention relates to a multiplexed volume failure processing method that determines a separated volume based on failure statistical information and improves the reliability of a duplicated volume in a single-lung state after a failure occurs in both systems.

(B> Prior art and problems In recent years, information processing devices are often used in advanced ways (
Improving its reliability has become an important issue. Especially when dealing with input/output failures of external storage devices such as magnetic disk drives.

To ensure that all information held by a device that encounters a failure is not lost.

Zaport, a so-called multiplexed volume control function, is used in the operating systems of medium-sized and large-sized machines.
Proposed.

In this multiplexed poly-me system, one virtual logical poly-me is associated with, for example, two physical volumes, and this correspondence is managed internally.

The user is made aware of the logical volumes, and in response to a write request, the same content is written to each of the two physical volumes.

The same information is duplicated and retained. In the event of a failure on one side, it is now possible to access the normal volume on the other side and immediately restore information if necessary, or to continue operations using only the normal physical policy. There is. When managing such multiplexed volumes,
It is important to control the contents of each physical volume corresponding to one logical volume so that there is no inconsistency.

By the way, 9 For example, in a duplex volume.

Assume that an input/output failure occurs on both systems simultaneously. 2 like this
Although a serious failure is not uncommon, if it occurs, one physical volume should be separated and the other physical volume should be So-called one-lung operation is performed using physical volume. Conventional.

When deciding which physical volume to detach at this time,
'The physical volumes had a master-slave relationship in advance, so that in the event of a failure in one or both systems, the slave poly-system would be selected. However, if you do it this way, the main board ]) = -
- Because the volume is not necessarily reliable, the more stable slave volume may be detached.

Therefore, there is a problem in that the reliability of the duplex volume in the two-lung condition may be significantly reduced.

Operator appropriately after 9 system failures occur.

One possibility is to select a separate volume.

In general, the operator is often unable to directly recognize the occurrence of a temporary input/output failure that can be recovered by retrying, making it difficult to select a stable volume, and requiring operator intervention. If this is required, there is a problem that automatic disconnection processing will not be possible.

(q. Purpose and Structure of the Invention The present invention aims to solve the above problems, and automatically collects failure statistical information in advance when a failure occurs in both systems.

The purpose of this study is to select and isolate more unstable volumes based on failure statistical information, thereby improving the reliability of volumes in single-lung conditions after the occurrence of failure in both systems. Therefore, the multiplexed volume failure handling method of the present invention allows one logical volume to be connected to multiple physical volumes.
In a system that performs multiplex volume control such that each physical volume corresponding to the same logical volume has the same information, each of the physical volumes 17. - a failure statistics information storage unit that stores failure statistics information of each of the physical volumes; a failure monitoring unit that monitors failures of each of the physical volumes and manages the failure statistics information stored in the failure statistics information storage unit; The present invention is characterized in that it includes a volume separation section that refers to the storage information in the failure statistics information storage section, selects a physical volume that has a high number of failures, and disconnects the physical volume from its corresponding logical volume when multiple failures occur. Embodiments will be described below with reference to the drawings.

(To) Embodiment of the Invention FIG. 1 shows the configuration of an embodiment of the invention, and FIG. 2 is an explanatory diagram of processing of the monitoring unit of the apparatus shown in FIG.

In the figure, 1 is a logical volume IJ, a system access section, 2 is a multiplexed volume control section, 3 is a volume separation section, 4 is a device monitoring section, 5 is a fault monitoring section, 6 is a separation volume selection section, 7 8 is a console display, 8 is a multiplexed volume management table, 9 is a logical volume, 10-1 and 10-2 are physical, fIJ names, and 11 is a failure statistics information storage unit.

The logical volume access unit 1 manipulates, for example, a user program, writes data to the logical volume 9, reads data from the logical volume 9, and executes data processing. When accessing the logical volume 9, the logical volume 9 is regarded as one real storage medium, and the physical volume I
I am not aware of O-1, 10-2, etc. The multiplexed polycomb control section 2 is.

The multiplexed volume management table 8 allows logical volumes to be
It manages the correspondence between the volume 9 and the physical volumes 10-1, 10-2, and processes access requests from the logical volume IJ and volume access unit 1.

Logical volume 9 and physical volume 10-1.10-2
For example, an operator can instruct a change in the correspondence relationship using a system configuration command. The volume isolation unit 3 is configured to detect when each physical volume IJ, - associated with one logical volume becomes an obstacle to one access to the logical volume IJ, -. , those other than the physical volume with the least frequency of failures are separated from the logical volume.

The device monitoring unit 4 manages input/output devices such as physical volumes and monitors processing results of input/output requests to the physical volumes. It has a failure monitoring section 5 and a separation volume selection section 6. The failure monitoring unit 5 manages the failure statistical information storage unit 1.

The input/output failure statistical information of the physical volume is sent to each physical point IJ,
- Record each person. Generally, even if an input/output failure occurs, if the nine-person output process is successfully completed after retrying,
It is operated as it is incorporated into the multiplexed system configuration. The failure monitoring unit 5 monitors the occurrence of such temporary input/output failures.

Statistics are taken for each physical polymer.

When the detached volume selection unit 6 is notified from the multiplexed volume control unit 2 that a failure has occurred in the entire physical volume of the logical volume.

Failure statistical information storage unit 1 Also refers to the stored statistical information, checks the number of failures that have occurred up to that point for all physical volumes of the logical volume that caused the failure, and selects the physical policy 1 with the least number of failures. - Select a physical volume other than a person as a separation target. Then, the selected volume information is notified to the volume separation unit 3. Thereby, the volume separation unit 3 updates the multiplexed volume management table 8 and separates the notified physical volume from the logical volume. Additionally, information about the separated physical volume is displayed on the console display 7 to notify the operator of the separation.

The multiplexed volume management table 8 contains the logical volume 9
and the physical volumes 10-1 and 10-2. In this example, logical volume rAJ is associated with physical volume "X" and physical volume rYJ.

Therefore, physical volume rXJ and physical volume rYJ
is managed so that it always has the same information.

When physical volume rXJ and physical volume rYJ become obstacles at the same time, do as described above.

The failed volume is detached. Thus, by leaving a more stable physical volume.

In particular, when there is a difference in the frequency of failure, the reliability of identifying the two-lung condition increases.

The failure statistical information storage unit 11 is provided in an external storage device other than the input/output device to which the physical volume IJ, - is allocated, for example, the main storage device or the physical volume IJ. The number of failure occurrences is stored and retained for each J-filled volume.

FIG. 1 shows an outline of the processing of the device monitoring section 4, for example, as shown in FIG. First, in the process 20 shown in FIG. 2, a failure notification from the multiplexed volume control unit 2 or the input/output management unit (not shown) is waited for. If there is a failure notification, process 21 is performed.

For example, when the physical polymer is duplicated.

Determine whether it is a bisystemic disorder. If it is not a double-system failure, the statistical information in the failure statistical information storage unit 11 is updated in process 22.

If there is a failure in both systems, control is transferred to process 23, where it is determined whether all retries of input/output processing for both systems have failed. If the retry is successful, process 22
Return control to. If all retries have failed, the process 24 refers to the failure statistics information storage unit 11, selects the physical volume with the highest number of failures, and the process 25 causes the volume detachment unit to detach the selected physical volume. Notify 3.

(G) As described in detail, according to the present invention, when an input/output failure occurs on both systems in a duplex volume, for example, a more stable physical volume is left.

Since single-lung operation can be continued, reliability can be improved.

[Brief explanation of drawings]

FIG. 1 shows the configuration of an embodiment of the present invention, and FIG. 2 shows a process explanatory diagram of the monitoring unit of the apparatus shown in FIG. In the figure, ■ is a logical volume access section, 2 is a multiplexed volume control section, 3 is a volume separation section, 4 is a device monitoring section, 5 is a fault monitoring section, 6 is a separation volume selection section, and 7 is a console display. , 8 represents a multiplexed volume management table, 9 represents a logical volume, 10 = 1 and 10-2 represent a physical volume, and 11 represents a failure statistics information storage unit 0 Patent applicant Fujitsu Ltd. Representative Patent Attorney Mori 1) Hiroshi (1 other person)

Claims (1)

[Claims] One logical volume corresponds to multiple physical volumes, and each physical volume IJ corresponding to the same logical volume is
In a system that performs multiplex volume control so that each physical volume has the same information,
7. - a failure statistics information storage unit that stores failure statistics information of each physical volume, a failure monitoring unit that monitors failures of each of the physical volumes and manages the failure statistics information stored in the failure statistics information storage unit; , a volume separation unit that refers to the storage information in the failure statistics information storage unit, selects a physical volume with frequent failures, and disconnects the physical volume from its corresponding logical volume when multiple failures occur in the system. A multiplexed volume IJ,-system fault handling method characterized by: