WO2011092967A1

WO2011092967A1 - Storage device sharing system, management device, processing device, storage device sharing method, management method, access method and program

Info

Publication number: WO2011092967A1
Application number: PCT/JP2010/072775
Authority: WO
Inventors: 裕史大津; 純大畑; 浩明長野; 真澄一圓; 純明榮
Original assignee: 日本電気株式会社; Ｎｅｃビッグローブ株式会社; Ｎｅｃソフトウェア東北株式会社
Priority date: 2010-01-26
Filing date: 2010-12-17
Publication date: 2011-08-04
Also published as: JP5754778B2; JPWO2011092967A1

Abstract

Provided are a storage device sharing system, management device, processing device, storage device sharing method, management method, and access method capable of controlling access by each processing device to storage devices while preventing load from concentrating on a specific apparatus, and also wherein, even if a management device fails, each processing device can suitably access the storage devices. The storage device sharing system includes M (M is an integer greater than or equal to 2) processing devices sharing N (N is an integer greater than or equal to 2) storage devices, and a management device for controlling access to the storage devices by the processing devices; wherein the management device includes a store means for storing priority order information indicating a priority order of each storage device, and a management means for transmitting the priority order information to each processing device; and the processing devices include a communication means for receiving the priority order information, a storage means for storing the priority order information, and a control means for controlling access to the storage devices on the basis of the priority order information within the storage means.

Description

Storage device sharing system, management device, processing device, storage device sharing method, management method, access method, and program

The present invention relates to a storage device sharing system, a management device, a processing device, a storage device sharing method, a management method, an access method, and a program.

A storage device sharing system in which a plurality of processing devices share a plurality of storage devices is known. In the storage device sharing system, it is necessary to control access to the storage device by each processing device so that each processing device can appropriately share a plurality of storage devices.

Patent Document 1 discloses a computer having a plurality of servers (processing devices), a plurality of storage devices shared by the plurality of servers, and a switch placed between the plurality of servers and the plurality of storage devices. A system (storage device sharing system) is described.

FIG. 1 is a block diagram showing an outline of a computer system described in Patent Document 1.

In FIG. 1, the switch 101 is connected to the storage unit 101a. The storage unit 101a stores a conversion table indicating the correspondence between virtual storage positions and actual storage positions in the storage devices 102 to 102.

When the switch 101 receives an access request to the virtual storage location from the server 103 that is a WEB server or an application server, the switch 101 refers to the conversion table and converts the access request to the virtual storage location into an access request to the real storage location. Convert and access the real memory location after conversion.

Therefore, in the computer system described in Patent Document 1, each server 103 can access an appropriate storage device 102 by using a virtual storage location. Further, even when any of the storage devices 102 is replaced, if the correspondence relationship between the virtual storage position and the real storage position in the conversion table in the storage unit 101a is changed, each server 103 is stored in the storage device 102. It is not necessary to change the virtual storage position with the replacement.

JP 2007-48323 A

In the computer system described in Patent Document 1, each server always uses a switch to access a storage device. Therefore, there is a problem that the load is concentrated on the switch.

Further, only the switch in the computer system described in Patent Document 1 has a conversion table indicating the correspondence between the virtual storage position and the real storage position. For this reason, when the switch fails, there is a problem that each server cannot access the storage device.

An object of the present invention is to provide a storage device sharing system, a management device, a processing device, a storage device sharing method, a management method, an access method, and a program that can solve the above-described problems.

The storage device sharing system according to the present invention includes M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices, and access to the storage device by the processing device. A storage device shared system that controls the storage device, wherein the management device stores priority information indicating priority of each of the storage devices, and priority information in the storage device Management means for transmitting to the M processing devices, wherein the processing device receives the priority information transmitted from the management means, and the priority order received by the communication means. Storage means for storing information, and control means for controlling access to the storage device based on priority information in the storage means.

The management device of the present invention is a management device that controls access to the storage device by M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices. Storage means for storing priority information indicating the respective priorities of the storage devices, and management means for transmitting the priority information in the storage means to the M processing devices.

The processing device of the present invention is a processing device that shares N (N is an integer of 2 or more) storage devices with other processing devices and can communicate with the management device. Based on the priority information in the storage means, the communication means for receiving the priority information indicating the priority, the storage means for storing the priority information received by the communication means, to the storage device Control means for controlling the access of the device.

The storage device sharing method of the present invention includes M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices, and access to the storage device by the processing device. A storage device sharing method in a storage device sharing system, wherein the management device stores priority information indicating each priority of the storage devices in a storage means, and the management device A device transmits priority information in the storage means to the M processing devices, the processing device receives priority information transmitted from the management device, and the processing device receives the priority information. Information is stored in a storage unit, and the processing device controls access to the storage device based on priority information in the storage unit.

The management method of the present invention is a management apparatus for controlling access to the storage device by M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices. In the management method, priority information indicating the priority of each storage device is stored in storage means, and the priority information in the storage means is transmitted to the M processing devices.

An access method of the present invention is an access method in a processing device that shares N (N is an integer of 2 or more) storage devices with other processing devices and can communicate with the management device. Priority information indicating the priority of each storage device is received, the priority information is stored in storage means, and access to the storage device is controlled based on priority information in the storage means.

The program of the present invention is stored in a computer that controls access to the storage device by M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices. A storage procedure for storing priority information indicating the priority of each device in the storage means and a transmission procedure for transmitting the priority information in the storage means to the M processing devices are executed.

The program of the present invention shares N (N is an integer of 2 or more) storage devices with other computers, and assigns each storage device priority from the management device to a computer that can communicate with the management device. A receiving procedure for receiving the priority order information, a storage procedure for storing the priority order information in the storage means, and a control procedure for controlling access to the storage device based on the priority order information in the storage means; Is executed.

According to the present invention, it is possible to prevent a load from being concentrated on a specific device while controlling access to the storage device by each processing device. Appropriate access to the device becomes possible.

2 is a block diagram showing an outline of a computer system described in Patent Document 1. FIG. 1 is a block diagram illustrating a storage device sharing system according to an embodiment of the present invention. It is the figure which showed an example of the priority order table. It is a figure for demonstrating operation | movement of a processing apparatus. It is a figure for demonstrating operation | movement of a processing apparatus.

Hereinafter, a storage device sharing system according to an embodiment of the present invention will be described.

FIG. 2 is a block diagram showing the storage device sharing system 1 according to the embodiment of the present invention.

2, the storage device sharing system 1 includes a management device 2 and M (M is an integer of 2 or more) processing devices 3 to 3. The management device 2 includes a storage unit 21 and a management unit 22. Each processing device 3 includes a server 31 and an access control unit 32. The access control unit 32 includes a communication unit 32a, a storage unit 32b, and a control unit 32c. Each processing device 3 shares N storage devices 4 to 4 (N is an integer of 2 or more). In FIG. 2,

storage devices

4P and 4Q are shown as the storage device 4.

First, the management device 2 will be described.

Management device 2 controls access to each storage device 4 by each processing device 3.

The storage unit 21 can generally be referred to as storage means. The storage unit 21 stores a priority order table indicating the priorities of the storage devices 4 to 4. The priority order table can be generally called priority order information.

FIG. 3 is a diagram showing an example of the priority order table.

In the priority order table 21a shown in FIG. 3, the priority “1” is assigned to the storage device 4P, and the priority “2” is assigned to the storage device 4Q. In the priority order table 21a of the present embodiment, the lower the numerical value of the priority order 21a1, the higher the priority order. Therefore, in the priority order table 21a, the highest priority is assigned to the storage device 4P, and the second highest priority is assigned to the storage device 4Q.

In the priority table 21a, a storage device identifier 21a2 is used as information for specifying each storage device 4. The storage device identifier 21a2 may be, for example, a storage device name or an IP (Internet Protocol) address of the storage device.

The priority order table 21a indicates, for example, the priority order of storage devices newly added as the storage device 4 shared by the processing devices 3 to 3 as the highest order.

Referring back to FIG. 2, the management unit 22 can be generally referred to as management means.

The management unit 22 transmits the priority order table 21 a in the storage unit 21 to each processing device 3. Further, the management unit 22 monitors the usage rate of each storage area of the storage device 4. The management unit 22 updates the priority order table 21a based on the monitoring result. The management unit 22 transmits the updated priority order table 21 a to each processing device 3.

Subsequently, each processing apparatus 3 will be described.

Each processing device 3 shares a file (data) in each storage device 4. Each processing device 3 performs distributed processing, for example.

The server 31 is, for example, a WEB server or an application server. The server 31 generates an access request to the storage device 4 in response to a request from a client (not shown). The access request to the storage device 4 is, for example, a write request or a read request. The server 31 provides an access request (write request or read request) to the storage device 4 to the access control unit 32 (specifically, the control unit 32c).

The access control unit 32 receives the priority table 21a transmitted from the management unit 22. In addition, when receiving an access request to the storage device 4, the access control unit 32 controls access to the storage device 4 based on the priority order table 21 a.

The communication unit 32a can be generally referred to as communication means. The communication unit 32a receives the priority order table 21a transmitted from the management unit 22.

The storage unit 32b can be generally referred to as storage means. The storage unit 32b stores the priority order table 21a received by the communication unit 32a.

Control unit 32c can be generally referred to as control means. The control unit 32c controls access to the storage device 4 based on the priority order table 21a received by the communication unit 32a.

For example, when the data of the name indicated in the write request is not stored in any of the N storage devices 4 to 4, the control unit 32c has priority among the N storage devices 4 to 4. The storage device with the highest priority shown in the order table 21a (hereinafter referred to as the “highest storage device”) is accessed, and the data of the name indicated in the write request is written into the highest storage device.

Further, for example, the control unit 32c makes an access request to a file with the same name in a situation where a file (data) with the same name is stored in a plurality of storage devices among the N storage devices 4 to 4. If there is, the storage device having the highest priority shown in the priority table 21a is accessed among the plurality of storage devices.

The management device 2 may be realized by a computer. In this case, the computer functions as the storage unit 21 and the management unit 22 by reading and executing a program recorded on a recording medium such as a CD-ROM (Compact Disk Read Only Memory) readable by the computer.

Each processing device may be realized by a computer. In this case, the computer functions as the server 31 by reading and executing the first program recorded on the first recording medium such as a CD-ROM that can be read by the computer, and also a CD that can be read by the computer. It functions as the access control unit 32 by reading and executing the second program recorded on the second recording medium such as ROM.

Note that the recording medium is not limited to a CD-ROM and can be changed as appropriate.

Next, the operation will be described.

For example, when the priority table 21a is stored in the storage unit 21 and when the priority table 21a in the storage unit 21 is updated, the management unit 22 in the management apparatus 2 has a priority order in the storage unit 21. Read the table 21a. The priority order table 21a may be updated in response to an input from the user, or may be updated by the management unit 22.

When the management unit 22 reads the priority table 21a, the management unit 22 transmits the priority table 21a to each processing device 3.

In each processing device 3, the communication unit 32a receives the priority order table 21a transmitted from the management unit 22. Upon receiving the priority table 21a, the communication unit 32a provides the priority table 21a to the control unit 32c.

When the control unit 32c receives the priority table 21a, the control unit 32c stores the priority table 21a in the storage unit 32b. When the priority table is already stored in the storage unit 32b when the control unit 32c receives the priority table 21a, the control unit 32c transmits the priority table in the storage unit 32b from the communication unit 32a. The received priority table 21a is updated.

The control unit 32c receives an access request (write request or read request) from the server 31 to the storage device 4 in a situation where the priority order table 21a is stored in the storage unit 32b (hereinafter referred to as a “specific situation”). ), The access to the storage device 4 is controlled based on the priority order table 21a in the storage unit 32b.

For example, when the control unit 32c receives a write request indicating a directory name and a file name in a specific situation, the control unit 32c operates as follows.

First, the control unit 32c determines whether the combination of the directory name and the file name indicated in the write request (hereinafter referred to as “first combination”) exists in the storage devices 4 to 4 indicated in the priority table 21a. Confirm.

In the present embodiment, the control unit 32c selects the storage devices 4 to 4 shown in the priority order table 21a in order of priority until the presence of the first combination is confirmed, and selects the storage device 4. Each time, the information in the selected storage device 4 is searched.

When the first combination is found in any of the storage devices 4 to 4 shown in the priority table 21a, the control unit 32c rewrites the file with the file name of the first combination in the storage device 4 according to the write request.

For this reason, even if there are a plurality of first combinations in the storage devices 4 to 4 shown in the priority table 21a, the control unit 32c does not store the file in the storage device 4 in which the first combination is first confirmed. A file with the name, that is, the file with the file name in the storage device 4 having the highest priority among the plurality of storage devices 4 to 4 storing the first combination is rewritten according to the write request.

On the other hand, if the first combination does not exist in the storage devices 4 to 4 shown in the priority table 21a, the control unit 32c accesses the highest storage device 4 and stores the file in the highest storage device 4. Write file with name.

Note that the control unit 32c does not write a file corresponding to the write request to the highest level storage device 4, for example, when the free storage area of the highest level storage device 4 is smaller than the threshold value. When the file corresponding to the write request cannot be written to the highest level storage device 4, the control unit 32 c accesses the storage device 4 having the next highest priority after the highest level storage device 4, and stores the storage device 4 in the storage unit 4. Write a file with that file name. The threshold value is stored in advance in the storage unit 32b.

In FIG. 4, the directory with the directory name “dir1” exists in the storage device 4P, the file with the file name “File3.txt” is stored in the directory with the directory name “dir1” in the storage device 4P, and the directory is stored in the storage device 4Q. There are directories with names “dir1” and “dir2”, a file with the file name “File1.txt” is stored in the directory with the directory name “dir1” in the storage device 4Q, and the directory name “dir2” in the storage device 4Q. In the situation where the file with the file name “File2.txt” is stored in the directory and the priority table 21a in the storage unit 32b indicates the information shown in FIG. 3, the first combination is “/ dir2 / It is a figure for demonstrating operation | movement in the case of "File4.txt".

In this case, since “/dir2/File4.txt” is not in either of the

storage devices

4P and 4Q, the control unit 32c accesses the highest-level storage device 4P and stores the directory name “dir2” in the highest-level storage device 4P. And the file with the file name “File4.txt” is stored in the directory with the directory name “dir2” in the uppermost storage device 4P.

Also, for example, when the read request indicating the directory name and the file name is received in a specific situation, the control unit 32c operates as follows.

The control unit 32c confirms whether the combination of the directory name and the file name indicated in the read request (hereinafter referred to as “second combination”) exists in the storage devices 4 to 4 indicated in the priority table 21a. To do.

In the present embodiment, the control unit 32c selects the storage devices 4 to 4 shown in the priority order table 21a in order of priority until the presence of the second combination is confirmed, and selects the storage device 4. Each time, the information in the selected storage device 4 is searched.

When the second combination is found in any of the storage devices 4 to 4 shown in the priority table 21a, the control unit 32c reads the file with the file name of the second combination in the storage device 4.

For this reason, even if there are a plurality of second combinations in the storage devices 4 to 4 shown in the priority table 21a, the control unit 32c does not store the file in the storage device 4 in which the second combination is first confirmed. A file with a name, that is, a file with that file name in the storage device 4 having the highest priority among the plurality of storage devices 4 to 4 storing the second combination is read.

On the other hand, if the second combination does not exist in the storage devices 4 to 4 shown in the priority order table 21a, the control unit 32c returns error information to the server 31.

Next, the update of the priority order table 21a will be described.

When the priority table 21a in the storage unit 21 is updated, the management unit 22 in the management device 2 reads the priority table 21a in the storage unit 21 and transmits the priority table 21a to each processing device 3. .

Examples of updating the priority table 21a include a case where the priority of the storage device shown in the priority table 21a is changed, and a case where a new storage device (storage device identifier) is added to the priority table 21a. The priority order of storage devices may be changed.

By describing the identifier of the new storage device in the priority order table 21a, the control unit 3c in each processing device 3 recognizes the new storage device.

FIG. 5 is a diagram showing an example in which the storage device 4R is newly added as a storage device shared by the processing devices 3 to 3.

In FIG. 5, the identifier “storage device 4R” of the storage device 4R is added to the priority order table 21a in the storage unit 21, the priority of the storage device 4R is set to the highest order, and the other storage devices 4-4 Is lowered one by one.

The priority table 21a is updated by the management unit 22, for example.

For example, the management unit 22 monitors the usage rate of each storage area of the storage device 4, and when the usage rate of the storage area of the highest level storage device 4 exceeds a predetermined threshold, the management unit 22 sets the priority of the highest level storage device 4. The lowest priority is given to each of the other storage devices. For example, the predetermined threshold value is stored in the storage unit 21 in advance.

Further, when an unused storage device is prepared separately and the usage rate of the storage area of the highest level storage device 4 exceeds a predetermined threshold, the management unit 22 stores the highest level storage device 4 in the priority order table 21a. The priority order and the priority order of other storage devices may be lowered one by one, and an unused storage device may be incorporated in the priority order table as the highest priority order.

In this embodiment, the control unit 32c transmits response information from the communication unit 32a to the management device 2 when the communication unit 32a receives the priority table 21a. The management unit 22 in the management apparatus 2 is a control unit (hereinafter referred to as “specific control unit”) 32c that does not transmit response information within a predetermined time (for example, 5 seconds) after the priority table 21a is transmitted. In the case where there is, the specific control unit 32c prohibits the use of the N storage devices 4 to 4.

As a technique for prohibiting the specific control unit 32c from using the N storage devices 4 to 4, for example, a process for prohibiting the specific control unit 32c from accessing the N storage devices 4 to 4 is used. In addition, a process of setting the N storage devices 4 to 4 so that the N storage devices 4 to 4 reject the packet using the IP address of the specific control unit 32c may be used. May be.

Moreover, the predetermined time is not limited to 5 seconds and can be changed as appropriate.

Note that the management unit 22 may match the timings at which the priority table is stored in the storage unit 32b in each of the processing devices 3. For example, the management unit 22 uses a distributed commit algorithm (also referred to as “distributed algorithm”) such as a two-phase commit, a three-phase commit, or a paxos algorithm to update the priority table performed in each processing device 3. All the processing apparatuses 3 to 3 may be performed simultaneously.

Next, the effect of this embodiment will be described.

According to the present embodiment, in the management device 2, the management unit 22 transmits the priority order table 21a in the storage unit 21 to each processing device 3. In each processing device 3, the control unit 32c stores the priority table 21a received by the communication unit 32a in the storage unit 32b, and accesses the storage devices 4 to 4 based on the priority table 21a in the storage unit 32b. To control.

Therefore, the management device 2 controls the access to each storage device 4 by each processing device 3 by transmitting the priority order table 21a to each processing device 3. Further, the management device 2 does not need to accept an access request from each processing device 3, and it is possible to prevent the load from being concentrated on the management device 2.

Even if a failure occurs in the management device 2, each processing device 3 stores the priority table 21a in each processing device 3, so that each processing device 3 stores the memory while the management device 2 is replaced with a new management device. Information processing using the apparatuses 4 to 4 can be continued.

In the present embodiment, the control unit 32c accesses the highest-level storage device 4 when the file (data) having the name indicated in the write request is not stored in any of the N storage devices 4 to 4. Then, the file (data) having the name indicated in the write request is written into the uppermost storage device 4.

In this case, by using the priority order table 21a, it becomes possible to specify a storage device in which a new file is written. Therefore, for example, if the priority of a storage device with a large storage capacity is set high, a storage device with a large storage capacity can be preferentially used for file writing.

In the present embodiment, the priority order table 21a indicates the priority order of storage devices newly added as the storage device 4 shared by the processing devices 3 to 3 as the highest order. In this case, a newly added storage device, that is, a storage device with a large unused storage area can be preferentially used for file writing.

In the present embodiment, when the file (data) having the name indicated in the access request is stored in a plurality of storage devices among the N storage devices 4 to 4, the control unit 32c The storage device having the highest priority shown in the priority table 21a is accessed.

In this case, for example, when data in the storage device 4Q is transferred to the storage device 4P, if the priority of the storage device 4P is set higher than the priority of the storage device 4Q in the priority table 2a, The data migration destination storage device 4P is preferentially used over the data migration source storage device 4Q, and it is possible to reduce the probability of data inconsistency during data migration.

In this embodiment, the management unit 22 monitors the usage rate of each storage area of the storage devices 4 to 4, and updates the priority table 21a based on the monitoring result.

In this case, for example, it becomes possible for the management unit 22 to lower the priority of the storage device in which the usage rate of the storage area is high, that is, the priority of the storage device having a small unused storage area. The probability that a new file is written to a small storage device can be lowered.

In the present embodiment, the management unit 22 includes the specific control unit 32c that does not transmit response information within a predetermined time after the priority table 21a is transmitted in the control unit 32c. The specific control unit 32c is prohibited from using the N storage devices 4 to 4.

In this case, the specific control unit 32c, that is, the control unit 32c in the processing device 3 that is highly likely not to receive the new priority table 21a uses the old priority table 21a to transfer to the storage devices 4 to 4. Controlling access can be prevented.

Note that the management unit 22 may match the timings at which the priority table is stored in the storage unit 32b in each of the processing devices 3. In this case, since all the processing devices 3 update the priority order table at the same timing, it is possible to make the consistency of access to each storage device 4 by each processing device 3 extremely high.

Also, the trigger for updating the priority table 21a is not limited to when the usage rate of the storage area of the highest level storage device 4 exceeds a predetermined threshold. For example, it may be at the time of any failure of the storage device 4, at the time of reporting the status of the storage device 4 (for example, monitoring the occurrence rate of the read error), or at the timing according to the maintenance plan of the storage device 4.

The present invention has been described above with reference to the embodiments, but the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

This application claims priority based on Japanese Patent Application No. 2010-014239 filed on January 26, 2010, the entire disclosure of which is incorporated herein.

DESCRIPTION OF SYMBOLS 1 Storage device shared system 2 Management device 21 Storage unit 22 Management unit 3 Processing device 31 Server 32 Access control unit

32a Communication unit

32b Storage unit 32c Control unit 4 Storage device

Claims

Including M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices, and a management device that controls access to the storage devices by the processing devices. A storage device sharing system,
The management device
Storage means for storing priority information indicating the priority of each of the storage devices;
Management means for transmitting priority information in the storage means to the M processing devices,
The processor is
Communication means for receiving priority information transmitted from the management means;
Storage means for storing priority information received by the communication means;
A storage device sharing system comprising: control means for controlling access to the storage device based on priority information in the storage means.
The control means, when the data of the name indicated in the write request is not stored in any of the N storage devices, the priority order indicated by the priority order information in the N storage devices The storage device sharing system according to claim 1, wherein the storage device with the highest access is accessed and the data is written to the storage device.
The control means, when the data of the name indicated in the access request is stored in a plurality of storage devices among the N storage devices, the priority order information among the plurality of storage devices. The storage device sharing system according to claim 1, wherein the storage device having the highest priority indicated by is accessed.
The storage according to any one of claims 1 to 3, wherein the priority order information indicates, as a highest order, a priority order of a storage device newly added as a storage device shared by the processing device. Device sharing system.
The management means monitors the usage rate of each storage area of the storage device, updates the priority information in the storage means based on the result of the monitoring, and updates the priority information after each update The storage device sharing system according to any one of claims 1 to 4, wherein the storage device sharing system is transmitted to a processing device.
When the communication unit receives the priority information, the control unit transmits response information from the communication unit to the management device,
The management means includes the N control means when there is a specific control means that does not transmit the response information within a predetermined time after the priority information is transmitted. The storage device sharing system according to any one of claims 1 to 5, wherein use of the storage device is prohibited.
The storage device sharing system according to any one of claims 1 to 5, wherein the management unit matches the timing at which the priority information is stored in the storage unit with each of the processing devices.
A management device that controls access to the storage device by M (M is an integer of 2 or more) processing devices that share N (N is an integer of 2 or more) storage devices,
Storage means for storing priority information indicating the priority of each of the storage devices;
A management unit that transmits priority order information in the storage unit to the M processing devices.
9. The management apparatus according to claim 8, wherein the priority order information indicates the priority order of a storage device newly added as a storage device shared by the processing device as the highest order.
A processing device that can share N (N is an integer of 2 or more) storage devices with other processing devices and can communicate with the management device,
Communication means for receiving priority information indicating the priority of each of the storage devices from the management device;
Storage means for storing priority information received by the communication means;
And a control unit that controls access to the storage device based on priority information in the storage unit.
The control means, when the data of the name indicated in the write request is not stored in any of the N storage devices, the priority order indicated by the priority order information in the N storage devices The processing device according to claim 10, wherein the storage device having the highest access is accessed and the data is written to the storage device.
Including M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices, and a management device that controls access to the storage devices by the processing devices. A storage device sharing method in a storage device sharing system, comprising:
The management device stores priority information indicating each priority of the storage device in a storage means,
The management device transmits priority order information in the storage means to the M processing devices,
The processing device receives priority information transmitted from the management device;
The processing device stores the priority information in a storage means;
A storage device sharing method in which the processing device controls access to the storage device based on priority information in the storage means.
The control means that the priority indicated by the priority information in the N storage devices when the data of the name indicated in the write request is not stored in any of the N storage devices. The storage device sharing method according to claim 12, comprising accessing a storage device having the highest rank and writing the data to the storage device.
A management method in a management device for controlling access to the storage device by M (M is an integer of 2 or more) processing devices sharing N (N is an integer of 2 or more) storage devices,
Storing priority information indicating the priority of each of the storage devices in a storage means;
A management method for transmitting priority order information in the storage means to the M processing devices.
15. The management method according to claim 14, wherein the priority order information indicates a priority order of a storage device newly added as a storage device shared by the processing device as the highest order.
An access method in a processing device that shares N (N is an integer of 2 or more) storage devices with other processing devices and can communicate with the management device,
Receiving priority information indicating the priority of each of the storage devices from the management device;
Storing the priority information in a storage means;
An access method for controlling access to the storage device based on priority information in the storage means.
The control means that the priority indicated by the priority information in the N storage devices when the data of the name indicated in the write request is not stored in any of the N storage devices. The access method according to claim 16, comprising accessing a storage device having the highest rank and writing the data to the storage device.
A computer that controls access to the storage device by M (M is an integer of 2 or more) processing devices that share N (N is an integer of 2 or more) storage devices;
A storage procedure for storing priority information indicating the priority of each storage device in a storage means;
A computer-readable recording medium recording a program for executing a transmission procedure for transmitting priority order information in the storage means to the M processing devices.
19. The recording medium according to claim 18, wherein the priority order information indicates a priority order of a storage device newly added as a storage device shared by the processing device as a highest order.
A computer that shares N (N is an integer of 2 or more) storage devices with other computers and can communicate with the management device.
A receiving procedure for receiving priority information indicating the priority of each of the storage devices from the management device;
A storage procedure for storing the priority information in a storage means;
A computer-readable recording medium storing a program for executing a control procedure for controlling access to the storage device based on priority order information in the storage means.
In the control procedure, when the data of the name indicated in the write request is not stored in any of the N storage devices, the priority order indicated by the priority order information in the N storage devices The recording medium according to claim 20, wherein the storage device having the highest access is accessed and the data is written to the storage device.