JPH0333949A - File memory device - Google Patents

Abstract

PURPOSE:To attain the unitary pick-up of a backup file by reading out a readout effective plane and a write plane at every updating of data setting them as a pair, and making the management of the backup file into autonomy by inverting the effective plane. CONSTITUTION:As a backup file memory device 2, for example, a magnetic disk device is assumed. In a backup file storage area, part of the magnetic disk device is allocated fixedly, and it is set as a dedicated area for the backup file. And the backup file storage area is comprised in a pair of two planes as shown in figure to guarantee the content of the data, and one plane out of two planes is set as the readout effective plane 211, and the other plane as a readout ineffective plane(write plane) 212. When it is required to read out the content, the data on the readout effective plane 211 is read out, and when it is required to update the content of the data, write is performed on the write plane 212. Thereby, the data on the readout plane 211 can be protected even in performing the write. The function of the write plane is switched to that of the readout plane at a time when the update of the data is completed.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a backup file storage device that allows a device that continuously processes data to quickly resume processing when the system goes down.

[Conventional technology]

Conventionally, in systems that process data continuously, such as online processing equipment, temporary operation files (-programs that can be Data, etc.) was prepared as a backup file, and the backup file was updated periodically or as needed.For backup file storage devices, for example, see "Information Center 711 Handbook" published in 1976. Published by Oichimusha, December 20th, pp, +2
-13 to +2-16 contain three listings for the online banking system Buffer Sopsystem. that(
According to this, backup in the event of failure can be considered in three aspects: hardware, software, and administrative procedures.
Both are normally used for batch work. Every effort has been made in terms of administrative procedures, such as returning unfilled transaction details to each branch each morning before the start of business.

[Problems to be Solved by the Invention] In conventional devices, external storage devices having only read/write functions have been used to store backup files. For example, as an online processing device, a magnetic tape storage device is connected as a backup file to a processing system device of an exchange.

In that case, the storage area of the backup file is fixed to only one side, and the process of determining whether the data stored in the backup file is valid or invalid had to be performed on the online processing V iiT side.

However, in the case where the storage area is fixed to only one side, if a problem occurs during analysis of the backup file! ?
is an unknown IJ ability to be rescued. That is, if a failure occurs while updating the fixed content, the update process is interrupted, and new content cannot be immediately read out when ppv is lost.

In addition, if the online processing device side performs data IF/jQIB effect determination processing, re-q-
When restarting, it takes time to restart because it has to determine which is the latest version of the file before restarting. In addition, in this case, the handover of the judgment data may not be carried out smoothly, so there were many problems with this.

The purpose of the present invention is to solve such conventional problems and provide a backup file storage device that can autonomously determine the validity/invalidity of backup file data and can guarantee backup even while the backup file is being updated. It's about doing.

[Means to solve the problem]

In order to achieve the above object, the file storage device of the present invention provides (a) a file storage device for storing continuous data, which has two sides, a read-only and a write-only side, for storing 1ii- or a plurality of continuous data; A backup file consisting of at least one set of storage areas and a management information area that stores management information including validity/invalidity information of data on two sides of the storage area, and reading data by accessing the backup file. The present invention is characterized in that it has a backup file storage control means that executes writing and updates management information. (b) For one set of storage areas of a backup file, one side is used as the readable side and the other side is used as the writeable side, and when reading the memory contents, the data on the readable side is read and the data is When updating the contents, write on the writing surface, and when the data update is completed, data in the management information < f 'J' for efficacy information!
There is also something special about saying yes.

[Function] In the present invention, a file storage device capable of storing continuous data is provided with a set of two data storage areas (C1 side and 02 side) capable of storing continuous data such as a series of program files. , set one or more sets as
Among them, one side (for example, CI+lH) is managed for reading, and the other side (C2 side) is managed for writing, and both functions are switched for each update process. That is, when a series of program files or the like is held as a backup in a file storage device, it is held using two data recording pages and one or more sets of areas. First, one of these data storage areas (CI) is managed for reading and the other (C2 side) is managed for reading, and when it is necessary to read the data contents, , If it is necessary to read the data on the readout side (C1 side) and update the data contents, write to the writing side (C2 side), so that the data on the readout side (01 side) can be updated even during 1 change. can be protected. Next, when all data updates are completed, the functional assignments of the writing surface and the reading surface are switched. In other words, when the data update is completed on the writing surface (C2 surface), that surface becomes the reading surface (02 surface), and the C1 surface, which was previously the reading surface, is used as the 3-writing surface (Side 02) for the next data update. Page 01). As a result, the online processing device can (a) centrally retrieve backup files, and (b)
Even when the backup file is being updated, the backup can be guaranteed, and (c) even when backup file collection fails, the previous backup file can be guaranteed.

[Example 1 Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is a schematic configuration diagram of a file storage device showing an embodiment of the present invention.

In FIG. 1, reference numeral 1 denotes an online processing device, which operates continuously without stopping the system even during maintenance work, and processes data that is manually input one by one. The online processing device 1 may be, for example, a processing system of an exchange.

Reference numeral 2 denotes a backup file storage device, which stores a backup file of the continuous operation state of the online processing device 1 when the online processing device 1 is activated. In this case, the backup file is applied to a system that is updated regularly or as needed.

For example, in the case of a switch, this would be a magnetic tape storage device. Here, a backup file is a temporary operating file that is collected periodically or as needed in order to quickly restart processing in the event of a system failure for a system that processes data continuously. . For example, this includes programs and data, including system files that have confirmed the 240-hour operation, service status updated up to the time of backup file collection, fee information, and the like.

The backup file storage device 2 is provided with a control section 21 and a storage file 22. Control part 2 of these
1 controls the backup file 22 according to commands from the online processing device 1, reads/writes it,
The contents of the file 22 are managed. Also, file 22
is composed of memory planes A and B as a pair...
The file 22 includes at least one set. One of these storage surfaces A and B is a reading storage surface, and the other is a writing storage surface. Each time the writing storage surface is updated, the roles of both storage surfaces are exchanged according to an instruction from the control unit 21.

In this way, in this embodiment, in order to quickly restart processing when the system goes down, backup files are collected,
For a system that needs to be updated, the backup file storage device 2 autonomously manages backup files, simultaneously has information on whether data is valid or invalid, and autonomously determines this information. As a result, unlike in the past, there is no need for the online processing device to determine whether data is valid or invalid, so even when the processing device pulls up a backup file when restarting processing, it can centrally collect valid data determined by the file itself. can be raised by 6. In addition, since two sides are used as one set, even if a failure occurs during writing, the data on the read side can be protected, and even if data collection fails, at least the previous data can be retained. can.

FIG. 2 is a detailed explanatory diagram showing storage areas and communication contents in FIG. 1.

As the backup file storage device 2, consider, for example, a magnetic disk storage device. The backup file storage area is a part of the magnetic disk storage device that is fixedly allocated and is used exclusively for backup files. In order to guarantee the contents of the backup file, the backup file storage area is configured with a one-to-two surface as shown in FIG.
1. The other surface is set as a reading invalid surface (writing surface) 212. If it is necessary to read the contents, the current valid area of the readout file storage area is determined (step 333), and the stored data is read and transferred to the online processing device l (step 334). The process is completed by the end of reading (
step 335). The online processing device 1 receives and receives the transferred data (step 322), and ends the process by receiving a reading completion notification (step 323). In this way, the read request does not update the backup file, so the operation ends when the read data is transferred to the online processing device l.

〔Effect of the invention〕

As explained above, according to the present invention, the backup file storage area is read from two sides, the effective side and the write side.
As a group, the effective read side is reversed every time the data is updated, thereby autonomously managing the backup file, so the online processing device can centrally retrieve the backup file, and the backup file Backup can be guaranteed even during update, and furthermore, even when backup file collection fails, it is possible to guarantee backup files 1] 1+ times.

[Brief explanation of drawings]

Fig. 1 is an overall configuration diagram of a backup file storage device showing an embodiment of the present invention, Fig. 2 is an explanatory diagram showing the storage area and communication contents in Fig. 1, and Fig. 3 is an online processing device in Fig. 2. 3 is an operation flowchart of the backup file storage control unit. 1. Online processing device, 2: Backup file storage device, 21: Backup file 3 Self-storage control unit, 2
2: Backup file storage area, 201: Data destination determination unit, 202: Data buffer, 203: Management information update unit, 211. Read current and active plane, 212: Write. (a) Figure (Part 1) (+)) (c) Figure (Part 2) (d)

Claims (2)

[Claims] (1) In a file storage device that stores continuous data, at least one set of storage areas each consisting of two read-only and write-only areas for storing single or multiple pieces of continuous data; A backup file consisting of a management information area for storing management information including validity/invalidity information of data on two sides of the area, and accessing the backup file to read and write data, and update the management information. A file storage device characterized by having a backup file storage control means for performing backup file storage. (2) For one set of storage areas of the above-mentioned backup file, one side is used as the read-effective side and the other side is used as the write-in side, and when reading the stored contents, the data on the above-mentioned read-effective side is read and the data When updating the contents, write on the writing surface, and when the data update is completed, update the data validity/invalidity information in the management information so that the functional division between the writing surface and the reading valid surface is switched. The file storage device according to claim 1, characterized in that: