JP2007072886A - Data relay device, data management system and data management method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a data relay device, a data management system and a data management method that facilitate a recovery process inexpensively. <P>SOLUTION: The data relay device 20, which relays data from a plurality of lower terminals 30 to a upper apparatus 10, comprises a storage means for temporarily storing data transmitted from the plurality of lower terminals at least until transmission to the upper apparatus, and a recovery means for, when the storage means is to be recovered, recovering the storage means by transmitting the data from the plurality of lower terminals. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a data relay apparatus that automatically recovers data when a storage device such as a hard disk is replaced due to an abnormality.

  In a data relay device for relaying data, data is stored as a backup in preparation for a failure of a storage medium or the like. That is, in order to automatically recover data, a means for storing data in an external storage medium or a duplicated storage medium by a data relay device alone, taking over the data from those storage media at the time of replacement, and recovering the data is taken. When the storage medium is replaced due to a storage medium failure or the like, the operation is resumed by replacing the storage medium with no data to be processed. In this case, the data retained until the replacement of the storage medium is created as recovery data from the backup data, and is registered in the host system at a later date. In this way, in the data relay device, in order to improve data integrity, the data relay device is equipped with an expensive external storage device or duplex storage device, so the data relay device becomes expensive.

  For example, with regard to data backup / recovery, as described in Patent Document 1, a data backup / recovery processing program is automatically started at the end of processing such as menu termination, and the disk Data is automatically saved to a mirroring-configured hard disk. When a failure such as data corruption occurs, data recovery up to the point immediately before the failure occurrence point is enabled by rollback processing based on the saved data and journal data (data access record).

However, in the data relay device as described above, when the storage medium is replaced, recovery data cannot be created at the time of the replacement, and therefore registration to the host device (center server) will be performed at a later date. Lack.
In addition, when a state in which the entire data relay apparatus has to be replaced occurs or when a storage medium holding backup data has a failure, the data is lost.
JP 2003-022208 A

  An object of the present invention is to provide a data relay device, a data management system, and a data management method that are easy to recover and inexpensive.

  The present invention does not recover by a data relay device alone, but acquires desired data and information from a host device or a lower terminal, and realizes recovery of the data relay device based on the information. Specifically, it is as follows.

  The invention according to an aspect of the present invention provides a data relay apparatus that performs relay for transmitting data from a plurality of lower terminals to a higher-level device, and transmits data transmitted from the plurality of lower-level terminals to at least the higher-level device. Storage means for temporarily storing data, and recovery means for recovering the storage means by transmitting data from the plurality of lower-order terminals during recovery of the storage means . Here, it is preferable that the recovery unit obtains, from the lower terminal, information indicating whether the data stored in the storage unit has been transmitted to the upper device at the time of recovery. Note that the present invention is not limited to the invention of the data relay device, and is established as an invention of a system to which the data relay device is applied and a method realized by the data relay device.

  According to the present invention, the recovery of the data relay device is performed using data and information of other devices (higher device and lower terminal) on the system, so that quick recovery can be realized and performed at a later date. No backward processing is required. Furthermore, since the recovery is not performed by the data relay device alone, an expensive secondary storage device or duplex storage medium is not required, and the cost can be suppressed.

Embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram showing a schematic configuration of a data management system including a data relay device according to an embodiment of the present invention.

  As shown in FIG. 1, a data management system to which a data relay device according to an embodiment of the present invention is applied includes an upper center server 10, a data relay device 20, and a lower terminal 30. For example, they are connected to a network and can communicate with each other (that is, transfer data). That is, the data relay device 20 and the lower terminal 30, the center server 10 and the data relay so that communication is possible between the data relay device 20 and the lower terminal 30, and between the center server 10 and the data relay device 20. The device 20 has a similar interface. The data relay device 20 according to the present invention is substantially the same as the conventional data relay device and is not shown in the figure. However, as will be described in detail later, necessary information can be acquired from the center server 10 or the lower terminal 30. It is like that.

  A plurality of data relay devices 20 are connected to the center server 10, and a plurality of lower-level terminals 30 are connected to each data relay device 20. The data of the lower terminal 30 is transmitted to the data relay device 20, and the data of the data relay device 20 is transmitted to the center server 10 and collected by the data relay device 20 and the center server 10, respectively. Specifically, the lower order terminal 30 generates fixed format data (detailed data 40) for each process. The data relay device 20 collects and stores detailed data 40 from a plurality of terminals. The center server 10 collects detailed data 40 from the plurality of data relay devices 20 and stores it. The detail data 40 has a common format. For example, as shown in FIG. 2, the detail data 40 includes, in addition to the actual data 46, the lower-level terminal 30 that is the data generation source. A sequence number 42 for numbering and a device ID 44 for identifying a terminal are defined.

A specific processing flow will be described with reference to FIG. FIG. 3 is a diagram showing a flow of conventional processing. 3A shows a state of communication between a higher-level device (hereinafter referred to as “higher-level device”) and a lower-level device (hereinafter referred to as “lower-level device”). (B) is a flowchart showing a flow of data transfer.
When the detailed data 40 is generated (step S11), the lower terminal 30 sequentially stores the data in a storage device (not shown). 2A, when a collection request is issued from the data relay device 20 to the lower terminal 30 or from the center server 10 to the data relay device 20, the collected data is transmitted from the lower device to the upper device ( Step S12). When the transmission of the collected data is completed (step S13), the collection data reception completion notification is sent from the higher-level device to the lower-level device, and the status of the detailed data is updated to “transmitted”.

Through the above procedure, the detailed data 40 created by the lower terminal 30 is finally stored in the center server 10. When the data relay device 20 aggregates data of a plurality of lower-level terminals 30, if a transmission request for the aggregation result is issued from the center server 10, the aggregation result is similarly sent to the center server 10. Send.
However, in the processing flow as described above, there is a lack of real-time property with respect to creation of recovery data, and in the worst case, there is a possibility that data is lost.

  Therefore, in the first embodiment of the present invention, in the data table managed by the data relay device 20 as shown in FIG. 4 (hereinafter referred to as “data relay device data table”), the data in FIG. , An item relating to status is added, and data indicating whether data stored in the data relay device 20 has been transmitted to the center server 10 or not yet transmitted is described in the status column. . For example, in the example illustrated in FIG. 4, the data from the lower terminal 30 with the device ID “0101” has been transmitted from “0001” to “0003”, and “0004” and “0005” have not been transmitted. Is shown.

  FIG. 5 shows a flow of recovery processing when the hard disk is replaced in the data relay apparatus having the data relay apparatus data table as described above. FIG. 5 is a flowchart showing the flow of recovery processing of the data relay apparatus according to the first embodiment of the present invention. In the present embodiment, recovery processing is performed on the interface between the center server 10 and the data relay device 20, on the interface between the data relay device 20 and the lower terminal 30, (1) from the data relay device 20 to the center server 10 This is realized by adding an interface for inquiring which sequence number has been received and (2) an interface for transmitting all the detailed data held in the lower terminal 30 to the data relay device 20. Specifically, it is as follows.

  First, since data is not recorded on the hard disk when the hard disk is replaced, all the detailed data 40 is transmitted from the lower terminal 30 to the data relay apparatus 20 and collected in the data relay apparatus 20 (step S21). When all the detailed data 40 are transmitted to the data relay device 20, the data relay device 20 creates a data relay device data table (step S22). Next, the center server 10 is inquired about the last sequence number received for each device ID (step S23). Then, based on the detailed data 40 transmitted from the lower terminal 30 and the received final sequence number for each device ID obtained from the center server 10, a status is added to the data relay device data table created in step S22. The data relay device data table is updated (step S24).

  In the first embodiment described above, whether or not the transmission of the detailed data 40 from the data relay device 20 to the center server 10 is completed is because the storage device of the data relay device 20 is replaced due to a failure or the like. When the necessity of the above has arisen, there is a possibility that the detailed data 40 that has been transmitted from the lower terminal 30 to the data relay device 20 is deleted and the detailed data 40 does not remain. In this case, when the detailed data 40 deleted in the lower terminal 30 is not transmitted from the data relay device 20 to the center server 10, the data relay device 20 needs to be replaced when the storage device needs to be replaced. The unsent details data 40 from the relay device 20 to the center server 10 is lost. Therefore, when the lower terminal 30 deletes the detail data 40, the detail data 40 to be deleted needs to be already transmitted from the data relay device 20 to the center server 10. As an embodiment in such a case, a second embodiment in which recovery processing at the time of hard disk replacement is realized only between the data relay device 20 and the lower terminal 30 will be described. Here, as in the first embodiment, the data relay device 20 manages data for each device ID with a status of “transmitted / not transmitted”. The lower terminal 30 has a data table (hereinafter referred to as a “lower terminal data table”) for managing data with a status of “transmitted / not transmitted / center transmitted”. An example of the lower terminal data table is shown in FIG. In this case, the data relay device 20 receives a response from the center server 10 and notifies the lower-level terminal 30 that it has become “transmitted”.

  A specific processing flow will be described with reference to FIG. FIG. 7 is a diagram showing a flow of status update in the lower terminal data table. FIG. 7A shows a state of communication between the center server 10 and the data relay device 20 and between the data relay device 20 and the lower terminal 30, and FIG. 7B is a flowchart showing a flow of data transfer. is there.

  Each time the detailed data 40 is generated in the lower terminal 30, the detailed data 40 is registered in the lower terminal data table (step S31). When there is a collection request from the data relay device 20, detailed data 40 is transmitted to the data relay device 20 (step S32), and detailed data is sent to the data relay device 20 until reception of data by the data relay device 20 is completed. 40 is transmitted (step S33). When the lower terminal 30 receives a notification of the completion of the receipt of the detailed data 40 from the data relay device 20 (Yes in step S33), the status of the lower terminal data table is updated to “transmitted” (step S34).

  The data recorded in the data relay device 20 transmits the detailed data 40 to the center server 10 when there is a request for collecting the detailed data 40 from the center server 10, until the center server 10 completes reception of the data. The detailed data 40 is transmitted to the server 10 (step S35). When the data relay device 20 receives a notification of completion of receipt of the detailed data 40 from the center server 10 (Yes in step S35), the status of the data relay device data table is updated to “sent” and the detailed information is sent to the lower terminal 30. Notify that the data 40 has been transmitted to the center server. As a result, the lower terminal 30 updates the status of the lower terminal data table to “centered” (step S36). At this point, since the lower terminal 30 knows that the detailed data 40 has been transmitted to the center server 10, the detailed data 40 may be deleted.

With reference to FIG. 8, the recovery process in 2nd Embodiment is demonstrated. FIG. 8 is a flowchart showing the flow of the recovery process of the data relay device according to the second embodiment of the present invention.
Since no data is recorded on the hard disk when the hard disk is replaced, all the detailed data 40 and the status related to the detailed data 40 are transmitted from the lower terminal 30 to the data relay device 20 (step S41). In this case, since it is possible to confirm whether or not the detailed data 40 has been transmitted to the center server based on the status of the lower terminal data table, the data relay device 20 uses the data relay device data based on the status transmitted from the lower terminal 30. A table is created for recovery (step S42).
As described above, in this embodiment, recovery can be performed only by collecting the detailed data 40 from the lower-level terminal 30 and collecting the status.

  The present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention at the stage of implementation. Further, the above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements.

  In addition, for example, even if some structural requirements are deleted from all the structural requirements shown in each embodiment, the problem described in the column of the problem to be solved by the invention can be solved, and the effect described in the effect of the invention Can be obtained as an invention.

The figure which shows schematic structure of the data management system containing the data relay apparatus which concerns on one Embodiment of this invention. The figure which shows the format example of detailed data. The figure which shows the flow of the conventional process. The figure which shows the example of the data table in the 1st Embodiment of this invention. The figure which shows the flow of the recovery process at the time of the hard disk replacement | exchange in the data relay apparatus which has the data relay apparatus data table of FIG. The figure which shows the example of the data table in the 2nd Embodiment of this invention. The figure which shows the flow of a status update of a low-order terminal data table. The flowchart which shows the flow of the recovery process of the data relay apparatus concerning the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 ... Center server 20 ... Data relay apparatus 30 ... Subordinate terminal 40 ... Detail data

Claims (6)

In a data relay device that performs relay for transmitting data from a plurality of lower terminals to an upper device,
Storage means for temporarily storing data transmitted from the plurality of lower-order terminals until at least the data is transmitted to a higher-order device;
A data relay apparatus comprising: recovery means for performing recovery of the storage means by transmitting data from the plurality of lower-order terminals during recovery of the storage means. 2. The data relay device according to claim 1, wherein the recovery unit acquires a final sequence number of transmitted data for each lower terminal from the upper device. 2. The data relay device according to claim 1, wherein the recovery unit acquires, from the lower terminal, information indicating whether or not the data stored in the storage unit has been transmitted to the upper device at the time of recovery. Data relay device. The present invention is applied to a system that includes a plurality of lower-level terminals, a data relay device, and a higher-level device, and that transmits data from the plurality of lower-level terminals to the higher-level device via the data relay device. In a data management system for managing data for performing recovery when replacing a storage device,
The data relay system recovers the storage device by transmitting data from the plurality of lower terminals when the storage device is replaced. 5. The data management system according to claim 4, wherein each of the lower-level terminals includes information on whether the generated data is not transmitted, transmitted to the data relay device, or transmitted to the upper device, A data management system, wherein the information is transmitted to the data relay device at the time of recovery of the storage device. The present invention is applied to a system that includes a plurality of lower-level terminals, a data relay device, and a higher-level device, and that transmits data from the plurality of lower-level terminals to the higher-level device via the data relay device. In a data management method for managing data for performing recovery when replacing a storage device,
A data management method comprising: recovering the storage device by transmitting data from the plurality of lower-order terminals when the storage device of the data relay device is replaced.

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