JP2015156086A - access device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To reduce influence on a system stop period and system load in accompany with data migration.

SOLUTION: An access unit 11 records, when updating file data in a disk device 2A, information for the updated file data in a difference file list 13. Therefore, there is no need for creating the difference file list 13 after the system stop so that system stop time can be shortened, and a difference retrieval processing to extract migration object data during the system operation can be omitted so that system load during the system operation can be reduced.

COPYRIGHT: (C)2015,JPO&INPIT

Description

  The present invention relates to a technique for migrating data.

  When renewing a disk device, it is necessary to transfer data from the old disk device to the new disk device. However, since the data stored in the old disk device is updated during the system operation, it is difficult to completely migrate the data without stopping the system operation.

  On the other hand, as a method for backing up data, there is known a method called differential backup in which only files updated after the full backup are backed up after a full backup for backing up all data (Non-patent Document 1). ).

  It is considered that the system downtime can be shortened by using differential backup at the time of disk device renewal, migrating data during system operation, and migrating only the differential data updated during data migration when the system is stopped. .

“2-3. Differential backup with dump”, [online], Miracle Linux Co., Ltd. [Search January 24, 2014], Internet <URL: https://users.miraclelinux.com/technet/document /linux/training/2_3_2.html#training2_3_2_3>

  In order to extract the difference data to be transferred while the system is stopped, it is necessary to perform a difference search between the data of the old disk device and the new disk device. There was a problem that it took a long time to stop the system.

  Further, even when data is synchronized between old and new disk devices during system operation, it is necessary to perform a difference search, which causes a problem that a load is applied to the system being operated.

  The present invention has been made in view of the above, and an object of the present invention is to reduce the influence on the system stop period accompanying data migration and the reduction of system load.

  An access device according to the present invention is an access device in which a first storage device that stores data in use is connected to a second storage device in which data is synchronized between the first storage device, The difference file list describing the information of the data to be migrated that has a difference between the one storage device and the second storage device, and the data of the first storage device were updated and updated to the difference file list Access means for recording information of the data, and data transfer means for copying data to be transferred from the first storage device to the second storage device based on the data information described in the difference file list; It is characterized by having.

  According to the present invention, it is possible to reduce the influence on the system stop period accompanying the data migration and the reduction of the system load.

It is a functional block diagram which shows the structure of the access apparatus in this Embodiment. It is a graph which shows the difference data amount between old and new disk devices. It is a functional block diagram which shows the structure of the access apparatus of a comparative example.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a functional block diagram showing the configuration of the access device according to the present embodiment.

  The access device 1 is connected to an old disk device 2A and a new disk device 2B. After all the file data stored in the disk device 2A has been transferred to the disk device 2B, the disk device 2A is disconnected from the access device 1 and updated to the disk device 2B.

  The access device 1 includes an access unit 11, a data migration unit 12, and a difference file list 13. Each unit included in the access device 1 may be configured by a computer including an arithmetic processing device, a storage device, and the like, and the processing of each unit may be executed by a program. This program is stored in a storage device included in the access device 1, and can be recorded on a recording medium such as a magnetic disk, an optical disk, or a semiconductor memory, or provided through a network.

  The access unit 11 accesses the disk device 2A connected to the access device 1 to update the file data, and records the file name of the updated file data in the difference file list 13. The processing of the access unit 11 is executed by each process that operates on the access device 1 and accesses file data.

  The data migration unit 12 acquires the difference file list 13 and copies the file data recorded in the difference file list from the disk device 2A to the disk device 2B.

  The difference file list 13 holds file names of file data having different contents between the disk devices 2A and 2B. The difference file list 13 is stored in a storage area provided in the access device 1.

  Next, the operation of the access device 1 will be described.

  First, when a new disk device 2B is connected to the access device 1, the function of the data migration unit 12 is turned on, and all file data stored in the disk device 2A and its metadata are started to be copied to the disk device 2B. 11 turns on the function of recording the updated file data in the difference file list 13. At this time, the file data is copied during system operation.

  Since the system is in operation, the access unit 11 updates the file data stored in the disk device 2A while the file data is being copied to the disk device 2B (step S11), and the file name of the updated file data Is recorded in the difference file list 13 (step S12).

  When the data migration unit 12 finishes copying all the file data and its metadata stored in the disk device 2A, it acquires the differential file list 13 (step S13). The file name of the file data updated by the access unit 11 during the data copy is recorded in the differential file list 13 at this time.

  The data migration unit 12 copies the file data and its metadata recorded in the difference file list from the disk device 2A to the disk device 2B (step S14).

  During system operation, when the access unit 11 updates the file data, the file name of the updated file data is recorded in the difference file list 13 (steps S11 and S12), and the data migration unit 12 has the difference file list 13 at a predetermined timing. And copying the file data indicated by the file name recorded in the difference file list and its metadata from the disk device 2A to the disk device 2B is repeated (steps S13 and S14). The predetermined timing is, for example, after completion of copying of all file data and its metadata recorded in the difference file list 13 acquired by the data migration unit 12 last time. If the difference file list 13 is empty, the data migration unit 12 performs a polling operation until the difference file list 13 is updated.

  Then, when it is time to stop the system, the access unit 11 is stopped, the data migration unit 12 acquires the difference file list 13, and the file data and its metadata recorded in the difference file list are transferred from the disk device 2A to the disk device. Copy to 2B (steps S13 and S14). When this copying is completed, the data transfer from the disk device 2A to the disk device 2B is completed, so the disk device 2A is updated to the disk device 2B. Thereafter, after the system is activated, the access unit 11 accesses the disk device 2B.

  FIG. 2 is a graph showing the amount of difference data between the disk devices 2A and 2B. As shown in the figure, after data migration is started, file data that exists in the disk device 2A but does not exist in the disk device 2B is copied to the disk device 2B, so that the difference data amount decreases. After that, until the system is stopped, the access unit 11 updates the file data of the disk device 2A, so the amount of difference data does not become zero, and the data migration unit 12 updates the file data and its data at a predetermined timing. Since the metadata is copied to the disk device 2B, the amount of difference data does not continue to increase.

  When the system is stopped, the access unit 11 does not update the file data of the disk device 2A, and the data migration unit 12 copies the updated file data and its metadata to the disk device 2B, and the difference data amount becomes zero.

<Comparative example>
Next, a comparative access device that migrates data by another method will be described.

  FIG. 3 is a functional block diagram illustrating a configuration of the access device of the comparative example. Similar to the access device 1 in the present embodiment, the access device 3 of the comparative example shown in FIG. 2 connects the disk devices 2A and 2B, and stores the access unit 31, the data migration unit 32, and the difference file list 33. And a device for transferring data from the disk device 2A to the disk device 2B.

  In the comparative example, the difference file list 33 is created by comparing metadata between the disk devices 2A and 2B at a predetermined timing. The operation of the access device 3 of the comparative example will be briefly described below.

  During system operation, the access unit 31 updates file data stored in the disk device 2A (step S31).

  The metadata comparison (difference search) between the disk devices 2A and 2B is performed at a predetermined timing to generate the difference file list 33 (step S32).

  The data migration unit 32 acquires the difference file list, and copies the file data and its metadata recorded in the difference file list from the disk device 2A to the disk device 2B (steps S33 and S34).

  During the system operation, the synchronization processing of steps S32 to S34 is repeatedly executed.

  Then, when it is time to stop the system, the access unit 11 is stopped, the difference search is performed to generate the difference file list 33, the data migration unit 32 acquires the difference file list, and the file recorded in the difference file list Data and its metadata are copied from the disk device 2A to the disk device 2B.

  In the access device 3 of the comparative example, the cost for the differential search increases as the number of file data stored in the disk device 2A increases. Therefore, it takes a long time until data is completely transferred to the disk device 2B after the system is stopped. On the other hand, in the access device 1 according to the present embodiment, since the access unit 11 updates the differential file list 13 during system operation, there is no need to perform processing for generating the differential file list 13 after the system is stopped.

  Further, since the access device 3 of the comparative example performs a difference search even during system operation, a load is applied to the system being operated. On the other hand, since the access device 1 according to the present embodiment can omit the difference search process even during system operation, it is possible to reduce the load on the system under operation.

  As described above, according to the present embodiment, when the access unit 11 updates the file data of the disk device 2A, the updated file data is recorded in the differential file list 13 so that the differential file is stored after the system is stopped. Since it is not necessary to create the list 13, the system stop time can be shortened. In addition, since the difference search process for extracting data to be migrated can be omitted even during system operation, the load on the system being operated can be reduced.

DESCRIPTION OF SYMBOLS 1 ... Access apparatus 11 ... Access part 12 ... Data transfer part 13 ... Difference file list 2A, 2B ... Disk apparatus 3 ... Access apparatus 31 ... Access part 32 ... Data transfer part 33 ... Difference file list

Claims (1)

An access device that connects a first storage device that stores data in use and a second storage device that synchronizes data between the first storage device,
A difference file list describing information of data to be migrated that has a difference between the first storage device and the second storage device;
An access means for updating the data of the first storage device and recording information of the updated data in the difference file list;
Data migration means for copying data to be migrated from the first storage device to the second storage device based on the information of the data described in the difference file list;
An access device comprising:

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