JP2005267326A - Storage device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a storage device capable of reducing the cost in manufacturing (initial configuration setting and initiating works). <P>SOLUTION: The storage device 135 comprises a plurality of disk drives constituting an RAID and a memory 135 storing configuration information of the disk drives. A combination of configuration information selected from preliminarily determined combinations of configuration information is stored in the memory 135 by a maintenance terminal device 131 connected to the storage device, and the disk drives are configured based on the selected combination of configuration information. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a RAID-type storage apparatus, and more particularly to a storage apparatus that enables cost reduction during manufacturing (initial configuration setting and startup work).

  In a general RAID type storage device (storage device), the configuration of a physical device (disk drive: HDD) is set from a maintenance dedicated terminal device (service processor) connected to the storage device. In the service processor, the application program for initial setting is started and all information necessary for setting the capacity, logical device emulation, the number of logical devices, and the like are input. In the storage device, the device configuration is set according to the input information. Then, the service processor starts up an application program for logical formatting, and formats the physical device with the configuration set into a logical block that can be accessed by the host.

In order to perform such initial setting, an information processing apparatus that requires setting at the time of shipment has an initial value table in which initial values are set in advance, is started by an initialization activation factor, and the initial value table is stored in a nonvolatile memory. An information processing apparatus to be set is known (for example, see Patent Document 1).
Japanese Patent Laid-Open No. 10-312270

  In recent years, with an increase in storage capacity required for storage devices, configuration settings for logical devices and the like have become more complicated. In addition, the logical format of the physical device requires time corresponding to the capacity of the physical device. For this reason, it is necessary to input individual setting items for each device configuration, logical format of the physical device, etc. from ordering to shipment of the storage device, and a great deal of time and labor is spent on setting the device configuration. There is a problem that. The above-described prior art disclosed in Patent Document 1 automatically determines an initial setting model from an activation factor (parameter) for initial setting, and is effective for creating a large number of models having the same setting. is there. However, it is not possible to set a configuration that does not always result in the same setting model even with the same parameters, such as a complicated configuration of a storage device.

  The present invention has been made in view of such problems, and an object of the present invention is to provide a storage apparatus that can reduce the time and labor required from ordering to shipment of the apparatus.

  The present invention is a storage device comprising a plurality of disk drives constituting a RAID and a storage device for storing configuration information of the plurality of disk drives, and is preliminarily provided by a maintenance terminal device connected to the storage device. Among the predetermined combinations of predetermined configuration information, a combination of selected configuration information is stored in the storage device, and the plurality of disk drives have a configuration based on the selected combination of configuration information. Features.

  According to the present invention, since the setting item input operation conventionally performed individually for each different configuration can be set only by selecting the standard model, the operation is simplified and the setting time is shortened.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of a storage apparatus manufacturing system according to the embodiment of this invention.

  The storage apparatus manufacturing system of this embodiment is roughly divided into a user 101, a storage manufacturer 102, and a disk drive (HDD) manufacturer 103. Each of the user 101, the storage manufacturer 102, and the HDD manufacturer 103 is provided with a computer device for ordering and ordering.

  On the user 101 side, a host 122 is provided, and the manufactured RAID storage device 132 is connected to the host 122 and used.

  On the storage manufacturer 102 side, a service processor (maintenance terminal device) 131 and a RAID storage device manufacturing line are provided, and configuration information of the RAID storage device manufactured by the service processor 131 is provided in the RAID storage device 132. Write to.

  Based on an order from the storage manufacturer 102, the HDD manufacturer 103 configures RAID1 or RAID5, for example, with a plurality of disk drives, and performs logical formatting of the disk drives according to the RAID level. Then, the disk drive whose logical format is completed is delivered to the storage manufacturer 102.

  Next, the processing flow of this storage device manufacturing system will be described.

  The computer device of the user 101 presents a request 111 including a necessary condition 121 to the RAID storage device (storage device) used by connecting to the host 122 to the computer device of the storage manufacturer 102, and the storage manufacturer An order 112 is made to 102. The condition 121 includes information necessary for configuring the RAID storage device, such as storage capacity, RAID level, emulation type, and the like.

  When the computer device of the storage manufacturer 102 receives the order 112 from the computer device of the user 101, the computer device refers to the condition 121 included in the order 112, and the conditions (storage capacity, RAID level, emulation type) required for ordering the disk drive. And the like, and an order 113 of the HDD is made to the computer device of the HDD manufacturer 103.

  Upon receiving the HDD order 113, the computer device of the HDD manufacturer 103 delivers the logically formatted disk drive 141 that meets the conditions (storage capacity, RAID level, emulation type, etc.) included in the HDD order 113 to the storage manufacturer 102. To do.

  This logically formatted disk drive 141 is one that has been logically formatted in advance by the HDD manufacturer in accordance with the standard model shown by the storage manufacturer 102. The logically formatted disk drive 141 is logically formatted with a plurality of disk drives as one set in order to have a RAID configuration, and delivered to the storage manufacturer as one set.

  The formatted disk drive 141 delivered from the HDD manufacturer 103 is incorporated in the mounting drive 136 in the RAID storage device 132.

  On the other hand, the computer device of the storage manufacturer 102 uses the condition 121 included in the request 111 presented by the user 101 as the setting 114 and sends this setting 114 to the service processor 131.

  The service processor 131 is provided with an initial setting application program (hereinafter referred to as “AP”) 133 for setting the RAID storage device. First, the AP 133 is activated. Then, the AP 133 compares the input setting 114 with the standard setting pattern (standard model) that is used as a standard and is composed of combinations of preset conditions, and selects a standard model that matches the conditions. To do. The selected standard model is converted into configuration information 134 in a format that can be stored in the RAID storage device 132. The converted configuration information 134 is sent to the RAID storage device 132 and stored in the memory 135. If some of the conditions do not match, the standard model close to the setting 114 is changed and the configuration information is set.

  The RAID storage device 132 can be shipped when the formatted disk drive 141 is incorporated in the mounting drive 136 and the configuration information 134 is stored in the memory 135. At this time, the control device provided in the RAID storage device 132 compares the configuration information 134 stored in the memory 135 with the configuration of the formatted disk drive 141 incorporated in the mounting drive 136, Determine whether you are doing it. If the configuration information 134 does not match the configuration of the formatted disk drive 141, an error is notified. On the other hand, if the configuration information 134 matches the configuration of the formatted disk drive 141, the storage manufacturer 102 ships 116 to the user 101.

  Even if the configuration of the formatted disk drive 141 is stored in the disk drive 141 in advance, the configuration of the formatted disk drive 141 may be acquired when the controller of the RAID storage device 132 accesses the disk drive 141.

  On the user 101 side, when the RAID storage device 132 connected to the host 122 is activated in a state where the configuration information 134 is stored in the memory 135 and the formatted disk drive 141 is incorporated in the mounting drive 136, It functions as a RAID storage device (storage device) according to the configuration information 134.

  Note that either the incorporation of the logically formatted disk drive 141 into the mounting drive 136 or the storage of the configuration information in the memory 135 may be executed first. That is, it becomes possible to function as a RAID storage device (storage device) when both the incorporation of the logically formatted disk drive 141 into the mounting drive 136 and the storage of the configuration information in the memory 135 are completed. .

  Next, the standard model described above will be described.

  FIG. 2 is an explanatory diagram illustrating an example of a standard model.

  FIG. 2A shows the classification of the condition 121 necessary for the configuration information of the RAID storage device. Classification # 1 is the storage capacity, classification # 2 is the RAID level, classification # 3 is the drive type, classification # 4 is the logical device emulation type, and classification # 5 is the number of logical devices. Each category can be selected by the user 101, and the user 101 determines the details of each category and places an order with the storage manufacturer 102.

  FIG. 2B shows an example of a standard model based on a combination of configuration information preset by the storage manufacturer 102. For example, in the standard model A, the storage capacity of classification # 1 is 1 Tbyte, the RAID level of classification # 2 is RAID1, the drive type of classification # 3 is 48 GB, the logical device emulation type of classification # 4 is OPEN-3, classification # 5 The number of logical devices is set to 10.

  The storage manufacturer 102 presents the preset standard model to the user 101. The user 101 selects one that matches the request from the presented standard models, and orders a disk drive to be mounted on the RAID storage device. When there is no standard model that matches the condition requested by the user 101, the standard model with the closest condition is selected, and the standard model and the changed part from the standard model are presented and ordered.

  Next, the operation of the application program 133 for initial setting of the service processor 131 will be described.

  FIG. 3 is a functional block diagram showing processing centering on the initial setting application program (AP) 133 of the service processor 131.

  The service processor 131 is configured by a computer such as a personal computer, and includes a display 312 as a display device and a keyboard 313 as an input device. It is convenient that the keyboard 313 includes a pointing device such as a mouse. The storage device 311 includes, for example, a disk drive, and stores configuration information related to a preset standard model. The memory 314 stores an initial setting application program 133, and the CPU 133 (not shown) executes the program 133 to realize an initial setting process.

  When the AP 133 is activated in the service processor 131, the AP 133 first reads standard model information from the storage device 311. Then, information for displaying the read standard model information on the display 312 is created, and the created information is displayed on the display 312.

  When the service processor 131 receives the condition 121 included in the request 111 presented from the user 101 as the setting 114 from the computer device of the storage manufacturer 102, the AP 133 selects the selected standard model or the selected standard model from the selected standard model. Configuration information in a format suitable for storage in the memory 135 of the RAID storage device 132 is created. Then, the created configuration information 134 is sent to the RAID storage device 132 being manufactured and stored in the memory 135. Note that when the standard model is changed, the logical formatting of the disk drive mounted on the RAID storage device 132 being manufactured may be performed again.

  Note that the operator may select one of the displayed standard models that matches the RAID storage device 132 being manufactured from the displayed standard model by an input operation on the keyboard 313. If the RAID storage device 132 being manufactured does not match the standard model, the standard model presented as the closest standard model is selected as described above, and the change from the standard model is selected from the keyboard 313. It can also be changed by an input operation.

  Through this series of processes, the configuration information 134 is stored in the RAID storage device 132.

  FIG. 4 is an explanatory diagram showing an example of standard model information displayed on the display 312 of the service processor 131.

  The displayed standard model information is almost the same as that shown in FIG. The operator selects one from the standard model information displayed on the display 312 by operating the keyboard (or mouse) 313. Then, one standard model is selected by operating the “confirm” button.

  It is also possible to change the contents displayed on the display 312. For example, when changing the information of the standard model A, first, the value of each classification of the standard model can be corrected by operating the “change” button 420 with the keyboard (or mouse) 313. Here, for example, “RAID 1” of classification # 2 is selected and the content is changed to “RAID 5”. When the change of necessary items is completed, by operating the “confirm” button 421 with the keyboard (or mouse) 313, the RAID storage device 132 creates configuration information that can function as RAID5.

  In this way, the contents of the standard model configuration information can be changed by the service processor 131.

  In particular, when the condition 121 included in the request 112 from the user 101 is different from the standard model, the logically formatted disk drive 141 is incorporated into the mounted drive 136 with the standard model closest to the condition. At this time, the number of mounted disk drives (the number of logical devices) can be increased or decreased. Then, the configuration information obtained by changing the standard model is stored in the memory 135. When the configuration information is changed, each disk drive mounted on the RAID storage device is subjected to a logical format that matches the configuration information in accordance with an instruction from the service processor 131 or the like.

  Next, the production of the logically formatted disk drive 141 in the HDD manufacturer 103 will be described.

  FIG. 5 is an explanatory diagram showing creation of a logically formatted disk drive 141 centered on the HDD manufacturer 103.

  First, the storage manufacturer 102 provides a set of logically formatted disk drives 141 used in a standard model RAID storage device to the HDD manufacturer 103 as base data 411 in advance. The HDD manufacturer 103 creates a copy of the base data 411 provided. For example, in the base data 411a, RAID1 is constituted by four disk drives, and a copy thereof, that is, a set of disk drives constituting RAID1 by four disk drives is defined as a logically formatted disk drive 141a. , Delivered to storage manufacturers.

  As described above, the HDD manufacturer 103 can perform the work required for the logical formatting of the disk drive, which has been individually performed in the storage manufacturer 102, thereby reducing the time for manufacturing the RAID storage device.

  In the storage apparatus manufacturing system according to the embodiment of the present invention configured as described above, the storage manufacturer 102 sets an initial setting pattern (standard model) that is used as a standard in advance, and sets the storage apparatus configuration. By selecting a standard model from the service processor, an order for a RAID storage device based on the standard model, delivery of a logically formatted disk drive, storage of configuration information, etc. are performed, thus simplifying the work in manufacturing the RAID storage device The setting time can be shortened. In addition, by using a disk drive that has been logically formatted according to the standard model, the physical format that has been implemented after setting the configuration becomes unnecessary, and the time required for the physical format can be reduced. As a result, the time required for the initial setting in the storage device can be greatly reduced.

  In addition, in the case of a configuration that does not correspond to the standard model, it is possible to edit to a similar model, so that the RAID storage device can be configured in various configurations while simplifying the work.

  The following are typical examples of aspects of the present invention other than those described in the claims.

A method of manufacturing a storage device comprising a plurality of disk drives constituting a RAID and a storage device for storing configuration information of the plurality of disk drives,
Depending on the maintenance terminal device connected to the storage device, a predetermined combination of predetermined configuration information (including at least two of storage capacity, RAID method, disk drive type, logical device emulation method, and number of logical devices) ) To select one from
Storing the selected combination of configuration information in the storage device;
A procedure for mounting a disk drive logically formatted based on the selected combination of configuration information on a storage device;
Determining whether the configuration of the plurality of disk drives and the combination of the stored configuration information match; and
A storage apparatus manufacturing method including a procedure for informing the determination result.

It is a block diagram which shows the storage apparatus manufacturing system of embodiment of this invention. It is explanatory drawing which shows an example of the standard model of embodiment of this invention. It is explanatory drawing which shows the process centering on the application program for initial setting 133 of embodiment of this invention. It is a functional block diagram which shows an example of the standard model information displayed on the display 312 of embodiment of this invention. It is explanatory drawing of production of the disk drive 141 by which the logical format was carried out centering on the HDD manufacturer 103 of embodiment of this invention.

Explanation of symbols

101 User 102 Storage manufacturer 103 HDD manufacturer 122 Host 131 Service processor 132 RAID storage device (storage device)
133 Initial setting application program 134 Configuration information 135 Memory 141 Formatted disk drive

Claims (4)

A storage device comprising a plurality of disk drives constituting a RAID and a storage device for storing configuration information of the plurality of disk drives,
Of the predetermined combinations of predetermined configuration information, the combination of the selected configuration information is stored in the storage device by the maintenance terminal device connected to the storage device,
The plurality of disk drives have a configuration based on a combination of the selected configuration information.   The storage apparatus according to claim 1, wherein the combination of the predetermined configuration information includes at least two of a storage capacity, a RAID system, a disk drive type, a logical device emulation system, and the number of logical devices. .   The storage apparatus according to claim 1, wherein the disk drive is logically formatted based on the selected combination of configuration information. 2. The storage apparatus according to claim 1, wherein the combination of the selected configuration information can be changed by the maintenance terminal apparatus even after the disk drive is mounted.

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