JP2024006308A - Raid configure management device, raid configure management method and raid configure management program - Google Patents

Abstract

To provide a RAID configure management device capable of recognizing multiple physical drives as a single physical drive when the same is connected to an information processor and configured with multiple physical drives in a RAID environment consisting of RAID-dedicated hardware, a RAID configure management method, and a RAID configure management program.SOLUTION: The RAID configure management device is a RAID configure management device for managing a RAID (Redundant Array of Independent Disk) configuration built with multiple physical drives. The RAID configure management device includes: a determination unit that determines whether or not the multiple physical drives form the RAID configuration; and a drive connection unit that connects the multiple physical drives based on the determination result determined by the determination unit.SELECTED DRAWING: Figure 5

Description

Embodiments of the present invention relate to a RAID configuration management device, a RAID configuration management method, and a RAID configuration management program.

Conventionally, for RAID (Redundant Array of Independent Disks), which is configured for the purpose of responding to unexpected data crashes in information processing equipment and improving the performance of information processing equipment, methods have been used to configure a pseudo RAID using software. ing. In addition, there is a method of configuring RAID by using hardware dedicated to RAID and externally connecting it to the main body of an information processing apparatus (for example, Patent Document 1).

JP 2015-82313 Publication

The above software-based RAID configuration configures a pseudo RAID using software using a hardware configuration that is not dedicated to RAID and is already installed in an information processing device. While the drive configuration within the information processing device can be operated in the same way as in a normal non-RAID environment, in order to configure a more advanced RAID, a RAID environment consisting of dedicated hardware is required. .

On the other hand, in the case of RAID equipped with dedicated hardware, a self-diagnosis immediately after the information processing device starts up will check the performance of multiple storage devices (for example, HDDs (Hard Disk Drives) and SSDs (Solid State Drives)) connected to the dedicated hardware itself. Even if the drive is a virtual drive, it is recognized as one logical drive by being made into a pseudo drive, so the installed drive cannot be individually identified as a physical drive.

For this reason, for example, when it is necessary to individually identify physical drives such as when updating the firmware of the physical drive itself, after canceling the RAID configuration from the hardware level (for example, by removing dedicated hardware from the RAID configuration), After reconfiguring each drive into an environment where it is recognized as a physical drive (logical drive), it is necessary to update the firmware of the physical drive itself, so there is room for further improvement.

Therefore, an example of the problem to be solved by the present invention is when connecting to an information processing device and configuring multiple physical drives in a RAID environment configured with RAID-dedicated hardware, multiple physical drives can be connected to a single RAID environment. An object of the present invention is to provide a RAID configuration management device, a RAID configuration management method, and a RAID configuration management program that can be recognized as a physical drive.

A first aspect of the present invention is a RAID configuration management device that manages a RAID (Redundant Array of Independent Disk) configuration constructed by a plurality of physical drives, the device comprising: a RAID configuration management device that manages a RAID (Redundant Array of Independent Disk) configuration constructed by a plurality of physical drives; The RAID configuration management device includes: a determination unit that determines whether the physical drives are the same; and a drive connection unit that connects the plurality of physical drives based on the determination result determined by the determination unit.

Further, when the determination unit determines that the plurality of physical drives construct the RAID configuration, the drive connection unit connects the plurality of physical drives via a RAID card that constructs the RAID. good.

Furthermore, when the determination unit determines that the plurality of physical drives do not construct the RAID configuration, the drive connection unit may connect the plurality of physical drives so that they are each recognized as a single unit.

Further, the RAID configuration management device may include an access right setting unit that sets access rights regarding access to data stored in the plurality of physical drives.

Further, a second aspect of the present invention is a RAID configuration management method comprising a RAID configuration management device that manages a RAID configuration constructed by a plurality of physical drives, the plurality of physical drives constructing the RAID configuration. This RAID configuration management method includes: a determination step of determining whether or not to perform a RAID configuration; and a drive connection step of connecting the plurality of physical drives based on a determination result determined by the determination step.

Furthermore, a third aspect of the present invention is a RAID configuration management program for controlling, by a computer, a RAID configuration management device that manages a RAID configuration constructed by a plurality of physical drives, A RAID configuration in which a drive functions as a determining means for determining whether or not to construct the RAID configuration, and a drive connecting means for connecting the plurality of physical drives based on a determination result determined by the determining means. It is a management program.

According to the present invention, when a plurality of physical drives are configured in a RAID environment configured with RAID-dedicated hardware, each can be recognized as a single physical drive.

FIG. 1 is a diagram illustrating an example of a schematic configuration of an information processing system according to an embodiment. FIG. 2 is a block diagram illustrating an example of the hardware configuration of the information processing device according to the embodiment. FIG. 3 is a block diagram showing an example of the hardware configuration of the controller according to the embodiment. FIG. 4 is a block diagram illustrating an example of the functional configuration of the information processing device according to the embodiment. FIG. 5 is a block diagram showing an example of the functional configuration of the controller according to the embodiment. FIG. 6 is a flowchart illustrating an example of processing executed by the information processing apparatus according to the embodiment. FIG. 7 is a flowchart illustrating an example of processing executed by the controller according to the embodiment.

Embodiments of the present invention will be described below based on the drawings. The configuration of the embodiment described below and the effects and effects brought about by the configuration are merely examples, and are not limited to the contents described below.

FIG. 1 is a diagram illustrating an example of a schematic configuration of an information processing system 10 according to an embodiment. The information processing system 10 according to the present embodiment is a system configured with a plurality of physical drives 4 in a RAID environment configured with RAID (Redundant Array of Independent Disks) dedicated hardware (hereinafter also referred to as controller 2). . The information processing system 10 configures a plurality of physical drives 4 into a RAID configuration by connecting the information processing device 1 and the controller 2.

The information processing system 10 includes an information processing device 1, a controller 2 connected to the information processing device 1 via a connection I/F 3, and a plurality of physical drives 4 connected to the controller 2 via a drive I/F 5. . Note that the plurality of physical drives 4 is at least two or more.

The information processing device 1 is a device that uses a plurality of physical drives 4 as a RAID configuration by controlling a controller 2 . The controller 2 is an example of a RAID configuration management device. The controller 2 is a device that configures a RAID environment for a plurality of physical drives 4. The controller 2 includes a RAID card (not shown) for configuring a RAID environment for the information processing device 1 . The plurality of physical drives 4 are auxiliary storage devices, and include, for example, HDDs (Hard Disc Drives), SSDs (Solid State Drives), and the like.

FIG. 2 is a block diagram showing an example of the hardware configuration of the information processing device 1 according to the embodiment. The information processing device 1 illustrated here has a configuration similar to that of a general-purpose computer, and includes a CPU (Central Processing Unit) 11, a RAM (Random Access Memory) 12, a ROM (Read Only Memory) 13, an auxiliary storage device 14, and a user An I/F (Interface) 15, a communication I/F 16, and a connection I/F 17 are interconnected by a bus 18.

The CPU 11 performs predetermined arithmetic processing using the RAM 12 as a working area according to programs stored in the ROM 13 and the auxiliary storage device 14. The auxiliary storage device 14 is a nonvolatile memory and stores various data necessary for processing by the CPU 11. The auxiliary storage device 14 is composed of, for example, an HDD or an SSD. The user I/F 15 is a device that enables information to be sent and received between the user and the information processing device 1, and may be, for example, a liquid crystal display, a keyboard, or the like.

The communication I/F 16 is, for example, a device for establishing communication with an external device via a network in accordance with a predetermined standard. The connection I/F 17 is a device for connecting with the controller 2, and may be, for example, PCI Express (Peripheral Component Interconnect-Express). Note that the configuration of the information processing device 1 is not limited to the above.

FIG. 3 is a block diagram showing an example of the hardware configuration of the controller 2 according to the embodiment. The controller 2 illustrated here has a configuration similar to that of a general-purpose computer, and includes a CPU 21, a RAM 22, a ROM 23, a drive I/F 24, and a connection I/F 25 that are interconnected by a bus 26.

The CPU 21 performs predetermined arithmetic processing using the RAM 22 as a working area according to a program stored in the ROM 23. The drive I/F 24 is a device for connecting to the plurality of physical drives 4, and may be, for example, SATA (Serial Advanced Technology Attachment), USB (Universal Serial Bus), or the like. The connection I/F 25 is a device for connecting to the information processing apparatus 1, and may be, for example, PCI Express. Note that the configuration of the controller 2 is not limited to the above.

FIG. 4 is a block diagram showing an example of the functional configuration of the information processing device 1 according to the embodiment. The information processing device 1 according to this embodiment includes an acquisition section 111, an extended BIOS processing section 112, a controller switching section 113, a RAID card setting section 114, and a controller control section 115. These functional components 111 to 115 are implemented, for example, in cooperation with hardware elements and software elements (such as programs stored in the ROM 13 and the auxiliary storage device 14) of the information processing device 1 as illustrated in FIG. can be configured. Note that the functional configuration of the information processing device 1 is not limited to the above.

The acquisition unit 111 acquires the connection state of the drive. Specifically, the acquisition unit 111 acquires the states of the plurality of physical drives 4 connected to the controller 2 from the controller 2 .

The extended BIOS processing unit 112 determines whether to execute extended BIOS (Basic Input Output System) processing. For example, the extended BIOS processing unit 112 cooperates with the user I/F 15 to determine whether the extended BIOS menu is input by the user.

Furthermore, when the expansion BIOS processing unit 112 determines to execute expansion BIOS processing, it outputs an expansion BIOS menu. Specifically, when the extended BIOS processing unit 112 determines that the extended BIOS menu has been input by the user, the extended BIOS processing unit 112 cooperates with the user I/F 15 to output the extended BIOS menu to a display device such as a liquid crystal display.

The controller switching unit 113 switches the mode of the controller 2. For example, when the controller switching unit 113 is operated by the user to switch the mode of the controller 2 from the RAID mode to the maintenance mode in the extended BIOS menu, the controller switching unit 113 switches from the RAID mode to the maintenance mode.

Further, for example, when the controller switching unit 113 is operated by the user to switch the mode of the controller 2 from the maintenance mode to the RAID mode in the extended BIOS menu, the controller switching unit 113 switches from the maintenance mode to the RAID mode.

Here, the RAID mode and maintenance mode will be explained. The RAID mode is a mode in which a RAID configuration is constructed for a plurality of physical drives 4 connected to the controller 2, and the plurality of physical drives 4 can be operated in RAID. The maintenance mode is a mode in which a single physical drive 4 can be connected to a plurality of physical drives 4 connected to the controller 2. The maintenance mode is used, for example, when rewriting firmware on the main body of the physical drive 4.

The RAID card setting unit 114 determines whether or not to set up a RAID card. Specifically, the RAID card setting unit 114 determines that the RAID card is not set when the controller switching unit 113 switches from the RAID mode to the maintenance mode. Then, the RAID card setting unit 114 makes the RAID card included in the controller 2 unset.

Further, the RAID card setting unit 114 determines to set the RAID card when the controller switching unit 113 switches from the maintenance mode to the RAID mode. Then, the RAID card setting unit 114 sets the RAID card included in the controller 2.

The controller control unit 115 controls the controller 2. Specifically, when the controller switching unit 113 switches from the maintenance mode to the RAID mode and the RAID card setting unit 114 sets the RAID card, the controller control unit 115 instructs the controller 2 in the RAID mode. Control is performed to execute processing based on the mode.

Further, when the controller switching unit 113 switches from the RAID mode to the maintenance mode, and the RAID card setting unit 114 makes the RAID card unset, the controller control unit 115 sets the controller 2 to the maintenance mode. control to execute processing based on

FIG. 5 is a block diagram showing an example of the functional configuration of the controller 2 according to the embodiment. The controller 2 according to this embodiment includes a determination section 211, a RAID controller setting section 212, a drive connection section 213, a drive initialization section 214, a RAID validating section 215, a drive validating section 216, an access right setting section 217, and a transmitting section 218. Be prepared. These functional components 211 to 218 can be configured, for example, by cooperation between hardware elements and software elements (such as a program stored in the ROM 23) of the controller 2 as illustrated in FIG. Note that the functional configuration of the controller 2 is not limited to the above.

The determination unit 211 determines whether the plurality of physical drives 4 construct a RAID configuration. Here, constructing a RAID configuration corresponds to, for example, a RAID mode. Furthermore, not constructing a RAID configuration corresponds to maintenance mode. Specifically, the determination unit 211 determines whether the mode of the controller 2 is the RAID mode. For example, the determination unit 211 determines whether the controller control unit 115 is controlling to execute processing based on the RAID mode.

The RAID controller setting unit 212 sets a RAID controller. Specifically, when the determining unit 211 determines that the mode of the controller 2 is the RAID mode, the RAID controller setting unit 212 enables the RAID controller (RAID card). Furthermore, when the determining unit 211 determines that the mode of the controller 2 is maintenance mode, the RAID controller setting unit 212 disables the RAID controller (RAID card).

The drive connection unit 213 connects a plurality of physical drives 4. Specifically, the drive connection unit 213 connects the plurality of physical drives 4 in cooperation with the drive I/F 24. When the determination unit 211 determines that the plurality of physical drives 4 will construct a RAID configuration, the drive connection unit 213 connects the plurality of physical drives 4 via the RAID card that constructs the RAID. Further, when the determination unit 211 determines that the plurality of physical drives 4 do not construct a RAID configuration, the drive connection unit 213 connects the plurality of physical drives 4 so that they are each recognized as a single unit.

The drive initialization unit 214 initializes the plurality of physical drives 4. Specifically, the drive initialization unit 214 initializes the plurality of physical drives 4 when connected to the plurality of physical drives 4 by the drive connection unit 213.

The RAID enabling unit 215 constructs a RAID configuration for the plurality of physical drives 4 (enables RAID). Note that the RAID configuration that the RAID effective unit 215 performs for the plurality of physical drives 4 is constructed using a known method.

The drive effective unit 216 is configured to be connected to a plurality of physical drives 4 as a single physical drive 4 in order to recognize each as a single unit (that is, to construct a RAID configuration for a plurality of physical drives 4). Build it so that it doesn't.

The access right setting unit 217 sets access rights regarding access to data stored in the plurality of physical drives 4. Specifically, when the RAID validating section 215 constructs a RAID configuration for the plurality of physical drives 4, the access right setting section 217 sets the Set access rights so that data can be updated (including writing) to the stored data.

In addition, if the access right setting unit 217 is configured to connect to a plurality of physical drives 4 as a single physical drive 4 by the drive enabling unit 216, the access right setting unit 217 , access rights are set for the data stored in the plurality of physical drives 4 so that data cannot be updated. The access rights setting unit 217 sets the access rights for the plurality of physical drives 4 using a known method.

The access right setting unit 217 sets access rights to the plurality of physical drives 4 so that data update (including writing) to data stored in the plurality of physical drives 4 is enabled/disabled. The controller 2 utilizes data for a plurality of physical drives 4 during RAID operation, but cannot utilize data when connected as a single physical drive 4. In other words, by including the access right setting unit 217, the controller 2 can provide data tampering protection for data stored in the plurality of physical drives 4.

The transmitter 218 transmits the connection states of the plurality of physical drives 4 to the information processing apparatus 1 . Specifically, the transmitter 218 cooperates with the connection I/F 25 to transmit the connection states of the plurality of physical drives 4 to the information processing apparatus 1 . For example, when the plurality of physical drives 4 are configured to form a RAID configuration by the RAID validating unit 215, the transmitter 218 informs the information processing apparatus 1 that the connection state of the plurality of physical drives 4 is the RAID configuration. Send.

Further, for example, if the transmitting unit 218 is constructed such that a plurality of physical drives 4 are connected as a single physical drive 4 by the drive validating unit 216, the transmitting unit 218 transmits a plurality of physical drives to the information processing device 1. The connection status of the drive 4 is transmitted as a configuration in which it is connected as a single physical drive 4.

Next, the process executed by the information processing device 1 according to this embodiment will be described using FIG. 6. FIG. 6 is a flowchart illustrating an example of processing in the information processing device 1 according to the present embodiment. Here, the information processing device 1 is in a state where the user has started the information processing device 1 and has started initializing the information processing device 1 main body.

The acquisition unit 111 acquires the connection state of the drive (step S61). Subsequently, the extended BIOS processing unit 112 determines whether to execute extended BIOS processing (step S62). Here, if the extended BIOS processing unit 112 determines that the extended BIOS processing is not to be executed (step S62: No), this processing ends. On the other hand, when the extended BIOS processing unit 112 determines to execute extended BIOS processing (step S62: Yes), the process proceeds to step S63.

Further, when the extended BIOS processing unit 112 determines to execute extended BIOS processing, it outputs an extended BIOS menu (step S63). Subsequently, the controller switching unit 113 switches the mode of the controller 2 (step S64).

The RAID card setting unit 114 determines whether to set a RAID card (step S65). Here, when the RAID card setting section 114 determines that the RAID card is not set when the controller switching section 113 switches from the RAID mode to the maintenance mode (step S65: No), this process ends.

On the other hand, if the RAID card setting unit 114 determines that a RAID card is to be set when the controller switching unit 113 switches from the maintenance mode to the RAID mode (step S65: Yes), the RAID card setting unit 114 sets the RAID card included in the controller 2. The controller control unit 115 then controls the controller 2. Thereafter, the process proceeds to the next process (A). Furthermore, after the next process (A) is finished, the process advances to step S61 and continues until the process ends.

Next, the process executed by the controller 2 according to this embodiment will be described using FIG. 7. FIG. 7 is a flowchart showing an example of processing in the controller 2 according to the present embodiment. Here, the controller 2 is controlled by the information processing device 1. That is, the controller 2 is in a state where the process starts from step S65 and subsequent steps shown in FIG.

The determination unit 211 determines whether the mode of the controller 2 is the RAID mode (step S71). Here, if the determining unit 211 determines that the mode of the controller 2 is not the RAID mode (step S71: No), the process proceeds to step S76. On the other hand, if the determining unit 211 determines that the mode of the controller 2 is the RAID mode (step S71: Yes), the process proceeds to step S72.

The RAID controller setting unit 212 enables the RAID controller (step S72). Subsequently, the drive connection unit 213 connects the plurality of physical drives 4 (step 73). Subsequently, the drive initialization unit 214 initializes the plurality of physical drives 4 (step S74). Subsequently, the RAID enabling unit 215 constructs a RAID configuration (enables RAID) for the plurality of physical drives 4 (step S75).

Further, the RAID controller setting unit 212 disables the RAID controller (step S76). Subsequently, the drive connection unit 213 connects the plurality of physical drives 4 (step 77). Subsequently, the drive initialization unit 214 initializes the plurality of physical drives 4 (step S78). Next, the drive effective unit 216 is configured to connect to the plurality of physical drives 4 as a single physical drive 4 (that is, not to construct a RAID configuration for the plurality of physical drives 4). (Step S79).

The transmitter 218 transmits the connection states of the plurality of physical drives 4 to the information processing apparatus 1 (step S80). When the process of step S80 is completed, the process proceeds to step S61 shown in FIG. 6.

As described above, the RAID configuration management device according to one aspect of the present invention is a RAID configuration management device that manages a RAID configuration constructed by a plurality of physical drives 4, and is a RAID configuration management device that manages a RAID configuration constructed by a plurality of physical drives 4. Determine whether to construct or not. Further, the RAID configuration management device connects the plurality of physical drives 4 based on the determined determination result.

As a result, according to the present embodiment, it is possible to determine whether or not the plurality of physical drives 4 construct a RAID configuration, and to connect the plurality of physical drives 4 based on the determined result. Even when the management device is configured with a plurality of physical drives in a RAID environment, the management device can recognize the plurality of physical drives 4 as a single physical drive.

By recognizing multiple physical drives 4 as a single physical drive, the RAID configuration management device can perform hardware-based It is possible to update the firmware of the physical drive itself without canceling the RAID configuration (for example, removing dedicated hardware from the RAID configuration).

Therefore, the user can update the firmware on the physical drive without removing the physical drive from the information processing apparatus 1, and thus the number of man-hours for maintenance work such as firmware update can be significantly reduced.

Further, in the embodiment described above, when the RAID configuration management device determines that the plurality of physical drives 4 will construct a RAID configuration, the RAID configuration management device connects the plurality of physical drives 4 via the RAID card that constructs the RAID. Further, when the RAID configuration management device determines that the plurality of physical drives 4 do not construct a RAID configuration, the RAID configuration management device connects the plurality of physical drives 4 so that they are recognized as each individual unit. Thereby, the RAID configuration management device can recognize the plurality of physical drives 4 as a RAID configuration, or can recognize the plurality of physical drives 4 as a single unit.

Furthermore, in the embodiment described above, access rights regarding access to data stored in a plurality of physical drives 4 are set. As a result, the RAID configuration management device utilizes data for a plurality of physical drives 4 during RAID operation, but cannot utilize data when connected to a single drive. In other words, the RAID configuration management device can provide data tampering protection for data stored in the plurality of physical drives 4.

A program that implements the above functions may be provided, for example, in a state where it is stored in advance in a storage element mounted on the CPU 21, but the program is not limited thereto. The program may be provided, for example, stored in a suitable storage medium such as a CD-ROM, or may be provided via a computer network such as the Internet.

Note that the embodiments described above can be modified and implemented as appropriate by changing a part of the configuration of the device described above. Therefore, some modified examples of the above-described embodiment will be described below as other embodiments. Note that, below, points that are different from the embodiments described above will be mainly explained, and detailed explanations of points that are common to those already explained will be omitted. Further, the modified examples described below may be implemented individually or in appropriate combinations.

(Modification 1)
In the above-described embodiment, the mode of the controller 2 is switched by the controller switching unit 113 as a function of the information processing device 1, but the present invention is not limited to this. For example, in the above-described embodiment, the controller switching unit 113 is realized by software, but in a modified example, the information processing device 1 is provided with a jumper switch, and the user can change the mode of the controller 2 by operating the jumper switch. You may switch.

(Modification 2)
In the above-described embodiment, the functional components 211 to 218 are realized by a single processor in FIG. 5, but the present invention is not limited to this. For example, the functional components 211 to 218 may be configured by combining a plurality of independent processors, and functions may be realized by each processor executing a program.

(Modification 3)
In the above-described embodiment, the controller 2 has been described as being controlled by the information processing device 1, but the present invention is not limited to this. For example, the processing performed by the controller 2 may be performed in parallel with the processing performed by the information processing device 1. That is, the process performed by the controller 2 may be performed from a state where the user has started the information processing device 1 and has started initializing the information processing device 1 main body.

The embodiments and modifications of the present invention have been described above, but the embodiments and modifications are presented as examples and are not intended to limit the scope of the invention. These novel embodiments and modifications can be implemented in various other forms, and various omissions, substitutions, and changes can be made without departing from the gist of the invention. These embodiments and their modifications are included within the scope and gist of the invention, as well as within the scope of the invention described in the claims and its equivalents.

1... Information processing device, 2... Controller, 4... Physical drive,
111... Acquisition unit, 112... Expansion BIOS processing unit, 113... Controller switching unit,
114...RAID card setting section, 115...controller control section, 211...judgment section,
212...RAID controller setting section, 213...drive connection section,
214... Drive initialization section, 215... RAID effective section, 216... Drive effective section,
217... Access right setting section, 218... Transmission section

A first aspect of the present invention is a RAID configuration management device that includes a controller including a RAID card that constructs a RAID (Redundant Array of Independent Disk) configuration for a plurality of physical drives, and manages the RAID configuration. , an acquisition unit that acquires the status of the plurality of physical drives connected to the controller; a controller switching unit that switches a mode of the controller when an extended BIOS menu is input; and a controller switching unit that executes processing based on the mode. A RAID configuration management device includes a controller control unit.

Further, when the controller switching unit switches the mode from maintenance mode to RAID mode, the controller control unit sets the RAID card for the controller and executes processing based on the RAID mode, The controller may include a first drive connection section that connects the plurality of physical drives to a controller in which the RAID card is set, and a first RAID effective section that constructs the RAID configuration for the plurality of physical drives. .

Furthermore, when the controller switching unit switches the mode from RAID mode to maintenance mode, the controller control unit executes processing based on the maintenance mode without setting the RAID card for the controller. , a second drive connection section that connects the plurality of physical drives to a controller to which the RAID card is not set so that each of the plurality of physical drives is recognized as a single unit, and a second RAID effective section that does not construct the RAID configuration for the plurality of physical drives. and may also be provided .

In a second aspect of the present invention, the RAID controller includes a controller including a RAID card that constructs a RAID configuration for a plurality of physical drives, and includes an acquisition unit, a controller switching unit, and a controller control unit. A RAID configuration management method comprising a RAID configuration management device that manages a configuration , the acquisition step in which the acquisition unit acquires the status of the plurality of physical drives connected to the controller, and the controller switching unit , a RAID configuration management method comprising: a controller switching process for switching the mode of the controller when an extended BIOS menu is input; and a controller control process in which the controller control unit executes processing based on the mode. .

Furthermore, a third aspect of the present invention includes a controller including a RAID card that constructs a RAID configuration for a plurality of physical drives, and a computer of a RAID configuration management device that manages the RAID configuration is connected to the controller. an acquisition process that acquires the status of the plurality of physical drives that are displayed; a controller switching process that switches the mode of the controller when an extended BIOS menu is input; and a controller control process that executes a process based on the mode; This is a RAID configuration management program that executes the RAID configuration management program.

A first aspect of the present invention is a RAID configuration management device that includes a controller including a RAID card that constructs a RAID (Redundant Array of Independent Disk) configuration for a plurality of physical drives, and manages the RAID configuration. , an acquisition unit that acquires the status of the plurality of physical drives connected to the controller; a determination unit that determines whether the plurality of physical drives construct the RAID configuration; and a determination made by the determination unit. Based on the results, the drive connection unit that connects the plurality of physical drives to the controller and the determination unit determine that the RAID configuration is to be constructed, and if the extended BIOS menu is input, the mode of the controller is determined. RAID configuration management, comprising: a controller switching section for switching; a controller control section for executing processing based on the mode ; and an access right setting section for setting access rights regarding access to data stored in the plurality of physical drives. It is a device.

Further, when the controller switching unit switches the mode from maintenance mode to RAID mode, the controller control unit sets the RAID card for the controller and executes processing based on the RAID mode, The drive connection unit may include a first RAID effective unit that connects the plurality of physical drives to a controller in which the RAID card is set and constructs the RAID configuration for the plurality of physical drives. .

Furthermore, when the controller switching unit switches the mode from RAID mode to maintenance mode, the controller control unit executes processing based on the maintenance mode without setting the RAID card for the controller. , the drive connection unit connects the plurality of physical drives to a controller to which the RAID card is not set so that each of the plurality of physical drives is recognized as a single unit, and a second RAID effective unit that does not construct the RAID configuration for the plurality of physical drives. and may also be provided.

Further, a second aspect of the present invention includes a controller including a RAID card that constructs a RAID configuration for a plurality of physical drives, and includes an acquisition unit, a determination unit, a controller switching unit, a controller control unit, A RAID configuration management method comprising a RAID configuration management device that manages the RAID configuration, the acquisition unit acquiring the status of the plurality of physical drives connected to the controller. a determination step in which the determination unit determines whether or not the plurality of physical drives construct the RAID configuration; and a determination step in which the controller switching unit determines that the determination unit constructs the RAID configuration. and an extended BIOS menu has been input, a controller switching step in which the mode of the controller is changed, a controller control step in which the controller control section executes processing based on the mode, and an access right setting section in which the access right setting section The present invention is a RAID configuration management method comprising: an access right setting step for setting access rights regarding access to data stored in a plurality of physical drives .

Furthermore, a third aspect of the present invention includes a controller including a RAID card that constructs a RAID configuration for a plurality of physical drives, and a computer of a RAID configuration management device that manages the RAID configuration is connected to the controller. an acquisition process that acquires the status of the plurality of physical drives to be configured; a determination process that determines whether the plurality of physical drives construct the RAID configuration; and a determination that the RAID configuration is to be constructed by the determination process. and an extended BIOS menu has been input, controller switching processing for switching the mode of the controller, controller control processing for executing processing based on the mode, and access to data stored in the plurality of physical drives. This is a RAID configuration management program that executes an access right setting process for setting access rights .

Claims (6)

A RAID configuration management device that manages a RAID (Redundant Array of Independent Disk) configuration constructed by a plurality of physical drives,
a determination unit that determines whether the plurality of physical drives construct the RAID configuration;
a drive connection unit that connects the plurality of physical drives based on a determination result determined by the determination unit;
A RAID configuration management device. When the determination unit determines that the plurality of physical drives construct the RAID configuration,
The drive connection unit connects the plurality of physical drives via a RAID card that constructs the RAID.
The RAID configuration management device according to claim 1. When the determination unit determines that the plurality of physical drives do not construct the RAID configuration,
The drive connection unit connects the plurality of physical drives so that each of the physical drives is recognized as a single unit.
The RAID configuration management device according to claim 1. an access right setting unit that sets access rights regarding access to data stored in the plurality of physical drives;
The RAID configuration management device according to any one of claims 1 to 3, comprising: A RAID configuration management method comprising a RAID configuration management device that manages a RAID configuration constructed by a plurality of physical drives, the method comprising:
a determination step of determining whether the plurality of physical drives construct the RAID configuration;
a drive connection step of connecting the plurality of physical drives based on the determination result determined by the determination step;
A RAID configuration management method comprising: A RAID configuration management program for controlling, by computer, a RAID configuration management device that manages a RAID configuration constructed by a plurality of physical drives,
The computer,
determining means for determining whether or not the plurality of physical drives construct the RAID configuration;
Drive connection means for connecting the plurality of physical drives based on the determination result determined by the determination means;
A RAID configuration management program that functions as

Images