JPH0926901A - Distributed storage device management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To maintain the user process processing of a work station for which the free capacity of a storage device becomes a little. SOLUTION: The work stations 1-1 to 1-n are constituted accessibly by a network 2. In the respective work stations, permanent systems 3-1 to 3-n managed by an OS capable of multiple tasks for managing and operating the free capacity of the storage device and the information of the storage file are present. When the free capacity of the storage device becomes less than prescribed capacity in an optional work station, an unopened file 4 whose updating date is older present on the storage device is recognized, the storage device of the free capacity more than the prescribed capacity in the other work station is retrieved, the file 4 is saved and thus, the interruption of the processing of a user process is evaded.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distributed storage device management system, and more particularly to a workstation operating using an OS (operating system) capable of transmitting and receiving data through a plurality of networks and capable of multitasking. , Which is managed and operated by the OS,
The present invention relates to a system for operating the capacity of a writable storage device.

[0002]

2. Description of the Related Art In a conventional OS (operating system) capable of multitasking, for example, a workstation managed by UNIX, a management system of a storage device and a file is called a file system, which is a fixed storage device of the workstation. Mounts a block-type special file that divides the disk into units called partitions and a directory specified by the user, and manages and operates the files created under the mounted directory for each partition. ing.

For this reason, each partition represents the divided disk capacity by the number of blocks, and a file can be created under the directory mounted with the partition only up to the number of blocks designated by each partition.

[0004]

A conventional multitasking OS (operating system), for example, UNI
In the storage management form of the file system managed by X, when the free space of each partition of the file system becomes small while executing the process of the user process, or there is no free block in the file system. In this case, the user process had to be interrupted once to recover the free space in the partition.

As a method of recovering the free space of a partition, unnecessary files may be deleted, files may be backed up and then deleted, or files may be moved to another partition. It was necessary to interrupt the processing of and perform manual operation.

[0006]

In order to solve the above problems, the distributed storage device management system of the present invention is operated by a plurality of OSs capable of transmitting / receiving data via a network and capable of multitasking. In a distributed storage device management system composed of workstations, at least some of the workstations have a resident monitoring process for observing the free space of a writable and readable storage device managed by the OS of the workstation, When the free space at a specific workstation under the monitoring process becomes a predetermined value or less, when there is another workstation under the monitoring process that communicates with another monitoring process and has a free space of a predetermined amount or more, A predetermined file in the storage device of the specific workstation is stored in the storage device of the other workstation. Characterized in that it moves. More specifically, for all of a plurality of workstations operating using an OS (operating system) capable of transmitting and receiving data via a network and capable of multitasking, the OS of that workstation constantly manages them. The free space of the writable and readable storage device and the file information existing on the storage device are monitored, and when the free space of the storage device becomes less than or equal to a predetermined amount while executing the process of the user process, it is opened. Among the files that have not been updated, the oldest files are searched for, and the other workstations connected to the data network have a free space in the storage device that is equal to or greater than this predetermined amount, that is, a work that has sufficient storage space. If a station is present, open files that are not in use without stopping the user process, such as opening them. Characterized in that to ensure the empty capacity of the storage device as a whole a plurality of workstations to non file saved in the storage device of a work station with spare empty capacity of the storage device.

The distributed storage device management system of the present invention is characterized by including at least one of the following items. That is, (1) the predetermined file is moved by prioritizing a file whose update date is old and has not been opened. (2) In the specific workstation, when the free space of the storage device recovers the sufficient capacity to store the predetermined file, the predetermined file moved to the other workstation is returned to its own storage device. Is characterized by. (2) When the predetermined file is moved to a storage device of another workstation, information about the predetermined file is stored in the quantitative work station or one of the workstations.

[0008]

Embodiments of the present invention will now be described with reference to the drawings. 1 and 2 show an embodiment of the present invention, which is a diagrammatic representation of a system configuration in which the process steps of the monitoring process are simplified.

FIG. 1 shows a system for moving files. In the system shown in the figure, the network (2)
OSes of these workstations are always formed for a plurality of workstations that are operating using an OS (operating system) that forms a network and can send and receive data through the network and is capable of multitasking.
The process [monitoring process] that monitors the free capacity of the writable and readable storage device managed by is running.

A storage device [storage device (5-1)], for example, a hard disk or other free space is being used while a user process [process (6)] is being executed (stroke) on a specific workstation (1-1). Is less than a predetermined amount, the monitoring process (3-1) of the workstation (1-1) indicates that an unopened and unused saveable file stored in the storage device (5-1). Search for [file (4)] (for example, one with an old update date and time), measure the size of the file, and communicate with the monitoring process [(3-2) to (3-n)] on another workstation. The workstation (1-1) searches for a workstation whose free space is equal to or larger than the capacity of the file (4) to be saved (step). However, when there is no unopened file or when there is no file itself, the OS management method is followed.

The procedure for searching for a workstation that can save the file (4) is as follows: the monitoring process (3-1) uses the network (2) to monitor the file capacity information of the file (4) through the monitoring process (3-2). ~ (3-n),
The processes (3-2) to (3-n) store the file (4) by collating with the free capacity of the storage devices [storage devices (5-2) to (5-n)] managed by itself. If there is free space in the storage device, the system (3-
The method of notifying 1) is used (step). However, even when there is no free space in the storage device that can be saved, the non-existence notification is sent to the monitoring process (3-1) via the network (2), and the workstation (1-2) to
When all the monitoring processes (3-2) to (3-n) of (1-n) notify the monitoring process (3-1) of non-existence, the management method of the OS is followed.

When the monitoring process (3-1) receives a notification that there is free space in the storage device that can save the file (4), the workstation that first sent the notification that there is free space in the storage device. Against file (4)
Is saved. The monitoring process (3-1) saves the file (4) in the storage device designated by the monitoring process of the workstation that saves the file (4).
In the save procedure, first, the file (4) is copied to the storage device defined by the workstation to be saved, and then the file (4) on the originally existing storage device (5-1) is deleted from the storage device. Use the method.

While being saved, the file (4) is linked from the workstation (1-1) by the system (3-1) so that it can be managed and operated. Also, the operation of the file (4) from other than the workstation (1-1) during this period is prohibited (process).

FIG. 2 shows a system relating to file recovery. After the process (6) is completed (step), the storage device (5-) of the workstation (1-1).
When the free capacity of 1) has sufficient capacity to store the file (4) (step), the monitoring process (3-1) searches the operating status of the saved file (4), As a result, if the file (4) is not operated, the link from the workstation (1-1) of the file (4) is released and the file (4) is stored on the storage device (5-1) that originally managed it. Return (stroke). As a procedure for returning, first the storage device (5-1) in which the file (4) originally existed
After copying to the top, a method of deleting the saved file (4) on the storage device is used.

The storage device (5- for storing the above-mentioned file (4)
In connection with saving to 1), the amount of data in the save file, etc.
If information about the file (4) is recorded in a predetermined location on one or both of the save source (B) and save destination (A) workstations, not only is it effective for system management and operation, but more It enables the deployment of advanced systems. For example, with such a system configuration, after the evacuation is completed using the above information, it becomes possible to obtain the history of operation of the system, statistical data, etc. when necessary, and the workstation in the evacuation process It is possible to realize various uses such as smooth restarting after interruption.

Further, when the monitoring process is executing the saving operation, it is possible to display the status so that the operator can know the status of the various saving operations.

[0017]

As described above, the present invention is a storage device capable of reading and writing the processing of a user process on a workstation operating using an OS (operating system) capable of multitasking while it is running. If the free space of the storage device becomes low, the files that can be saved are automatically saved to the storage devices of other workstations forming the network to recover the free space of the storage device. With this, it is possible to maintain the processing of the running user process without interruption of the processing of the user process or system failure in extreme cases.
The reliability of the entire system can be greatly improved.

[Brief description of drawings]

FIG. 1 shows an embodiment of moving a file according to the present invention.

FIG. 2 is a block diagram showing an embodiment of file recovery according to the present invention.

[Explanation of symbols]

(1-1), (1-2), ..., (1-n) Workstation (2) Network (mainly LAN and gateway) (3-1), (3-2), ..., (3-n ) Monitoring process (sub-process of distributed storage device management system) (4) Created file (5-1), (5-2), ..., (5-n) Storage device (readable and writable) (6) User process

Claims (4)

[Claims] 1. A distributed storage device management system comprising a plurality of workstations operating by an OS capable of transmitting / receiving data via a network and capable of multitasking, at least some of the workstations. When a monitor process for monitoring the free capacity of a writable and readable storage device managed by the OS of the workstation is made resident, and the free capacity falls below a predetermined value at a specific workstation under the monitoring process. ,
When there is another workstation under the monitoring process that communicates with another monitoring process and has an empty capacity of a predetermined amount or more, a predetermined file in the storage device of the specific workstation is stored in the storage device of the other workstation. A distributed storage device management system characterized by moving. 2. The distributed storage device management system according to claim 1, wherein when moving the predetermined file, a file whose update date is old and which has not been opened has priority. 3. In the specific workstation,
2. The predetermined file moved to the other workstation is returned to its own storage device when the free space of the storage device has recovered to a sufficient capacity for storing the predetermined file. 2. The distributed storage device management system according to 2. 4. When the predetermined file is moved to the storage device of another workstation, information regarding the predetermined file is recorded in both workstations or one workstation. 2. The distributed storage device management system according to 2 or 3.