JP2020095591A - Operating environment management device, operating environment management method, and operating environment management program - Google Patents

Abstract

To efficiently specify a problem related to the details of setting items included in setting information that represents settings related to an operating environment of an information processing apparatus.SOLUTION: An operating environment management device 30, when changing setting information 400 related to an operating environment of an information processing apparatus 40 from first details of settings 410 in which the information processing apparatus 40 has been actually started up to second details of settings 420 before starting up the information processing apparatus 40, comprises: a detection unit 31 that detects, of setting items in the setting information 400, a specific setting item 310 different in details between the first details of settings 410 and second details of settings 420; a calculation unit 32 that calculates combinations of details 320 that can be set to the specific setting item 310; a start-up control unit 33 that performs start-up of the information processing apparatus 40 using the setting information 400 for each of the combinations 320; and a determination unit 34 that determines whether the information processing apparatus 40 is normally started up for each of the combinations 320.SELECTED DRAWING: Figure 6

Description

The present invention relates to a technique of managing information representing settings related to an operating environment used when an information processing device is activated.

An information processing device such as a server device or a personal computer is usually activated by reading, for example, BIOS (Basic Input/Output System) setting information, which is information indicating settings related to the operating environment of the device itself. That is, if there is an inappropriate setting in the BIOS setting information, the information processing device cannot start normally. Therefore, there is a demand for a technique that prevents the BIOS setting information from being set improperly or promptly recovers from the failure when the BIOS setting information causes an improper setting.

As a technique related to such a technique, in Patent Document 1, even when a failure that cannot operate due to the BIOS occurs, the failure can be detected promptly and can be recovered from the failure. As described above, a BIOS recovery control device for changing the BIOS setting is disclosed. In this device, when the system event log of the control target contains information indicating a timeout in the watchdog timer and the status information storage area contains the status information, a failure occurs in which the control target cannot operate. To determine. This device changes the BIOS setting information so as to be able to recover from the failure, and when there is a BIOS change instruction, generates change history information based on the first and second setting information.

Further, in Patent Document 2, even when the OS (Operating System) installation fails due to improper BIOS setting and the system stops, the system is restored from the stopped state, the BIOS setting is changed, and the OS A BIOS update device that performs an installation is disclosed. If there is a difference between the BIOS setting list acquired from the database in which the BIOS setting list is stored and the BIOS setting information stored in advance, this device changes the BIOS setting information to the information of the acquired BIOS setting list. When there is no difference between the acquired BIOS setting list and the pre-stored BIOS setting information, this device restarts the controlled device based on the timeout of the watchdog timer when the OS installation fails. Give instructions.

JP, 2014-115928, A JP, 2016-114974, A

For example, when the information processing apparatus does not start up normally due to changing the contents of a plurality of setting items included in the BIOS setting information, it is necessary to analyze which of the changed setting items has a problem. There is. In this case, the number of setting items having a problem is not limited to one, and there may be a problem with a combination of a plurality of setting items. It is not realistic for the worker or the like to manually specify from the viewpoint of cost and the like. That is, the problem is to efficiently identify a defect related to the content of the setting item included in the BIOS setting information. The techniques disclosed in Patent Documents 1 and 2 cannot be said to be sufficient to solve such problems. A main object of the present invention is to provide an operating environment management device and the like that solve this problem.

An operating environment management apparatus according to an aspect of the present invention changes setting information representing settings related to an operating environment of an information processing apparatus from a first setting content that has a history of activation of the information processing apparatus to a second setting content. After the change, when starting the information processing apparatus, a specific setting having different contents between the first setting content and the second setting content among a plurality of setting items included in the setting information A detection unit that detects an item, a calculation unit that calculates a combination of contents that can be set for the specific setting item, and a startup that starts the information processing apparatus using the setting information for each of the combinations. The control means and the determination means for determining whether or not the information processing apparatus has normally started for each of the combinations.

In another aspect of achieving the above object, in an operating environment management method according to an aspect of the present invention, a second information processing device sets a setting information indicating a setting related to an operating environment of the first information processing device, In the case where the first information processing device is started up and then the first setting content is changed to the second setting content, and then the first information processing device is started, a plurality of settings included in the setting information Of the items, the specific setting items whose contents are different between the first setting contents and the second setting contents are detected, and a combination of settable contents for the specific setting items is calculated, For each of the combinations, the first information processing device is started using the setting information, and for each of the combinations, it is determined whether the first information processing device is normally started.

Further, in a further aspect of achieving the above object, an operating environment management program according to an aspect of the present invention has a history of setting information indicating settings related to an operating environment of an information processing apparatus, which has been started by the information processing apparatus. After changing from one setting content to the second setting content, when starting the information processing apparatus, among the plurality of setting items included in the setting information, the first setting content and the second setting content The detection process for detecting a specific setting item having different contents from the setting contents, the calculation process for calculating a combination of the settable contents for the specific setting item, and the setting information for each of the combinations. A computer is caused to execute a start control process for starting the information processing device using the above, and a determination process for determining whether or not the information processing device has normally started for each of the combinations.

Furthermore, the present invention can also be realized by a computer-readable, non-volatile recording medium in which the operating environment management program (computer program) is stored.

INDUSTRIAL APPLICABILITY The present invention makes it possible to efficiently identify a defect related to the content of a setting item included in the setting information indicating the setting related to the operating environment of the information processing device.

It is a block diagram which shows notionally the structure of the information processing system 1 which concerns on the 1st Embodiment of this invention. It is a figure which illustrates the result which the detection part 110 which concerns on the 1st Embodiment of this invention detected the item by which the setting was changed in the BIOS setting information 162. It is a figure which illustrates notionally the structure (1st example) of the combination management information 152 which concerns on the 1st Embodiment of this invention. 3 is a flowchart showing an operation of the operating environment management device 100 according to the first embodiment of the present invention. It is a figure which illustrates notionally the structure (2nd example) of the combination management information 152 which concerns on the 1st Embodiment of this invention. It is a block diagram which shows notionally the structure of the operating environment management apparatus 30 which concerns on the 2nd Embodiment of this invention. FIG. 1 is a block diagram showing a configuration of an information processing device 900 capable of executing an operating environment management device according to each embodiment of the present invention.

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

<First Embodiment>
FIG. 1 is a block diagram conceptually showing the structure of an information processing system 1 according to the first embodiment of the present invention. The information processing system 1 roughly includes an information processing device 10 and a management terminal device 20.

The information processing device 10 is, for example, a server device or the like, has the configuration shown in FIG. 7 described later, and is a device that can provide various services by executing various applications. The information processing device 10 includes an operating environment management device 100 and a BIOS memory 160.

A BIOS 161 and BIOS setting information 162 are stored in the BIOS memory 160. The BIOS 161 is firmware that controls the information processing apparatus 10 and has a function of executing a POST (Power On Self Test) when the information processing apparatus 10 starts up. When the information processing device 10 is started, the information processing device 10 reads the BIOS setting information 162 indicating the settings related to the operating environment of the information processing device 10 and executes POST.

The management terminal device 20 is, for example, a personal computer or the like, and is used when the user of the information processing device 10 operates the information processing device 10 or confirms the information output from the information processing device 10. Is. The management terminal device 20 is communicatively connected to the information processing device 10.

The operating environment management device 100 is a device that manages the operating environment of the information processing device 10, and has a function of managing a defect related to the setting content of the BIOS setting information 162. Therefore, the operating environment management apparatus 100 can refer to the BIOS memory 160. The operating environment management device 100 may not be included in the information processing device 10 and may be a device different from the information processing device 10.

The operating environment management device 100 includes a detection unit 110, a calculation unit 120, an activation control unit 130, a determination unit 140, and a storage unit 150. The storage unit 150 is a storage device such as a magnetic disk or an electronic memory, and can store BIOS setting management information 151 and combination management information 152 described later.

When the setting content of the BIOS setting information 162 is changed by the user performing an input operation via the management terminal device 20, the detecting unit 110 detects the specific setting item whose content is changed. That is, the detection unit 110 does not confirm whether the BIOS setting information 162 is normally activated from the setting content (first setting content) in which the information processing apparatus 10 has a history of normal activation. When changed to a certain setting content (second setting content), a specific setting item having different contents between the first setting content and the second setting content is detected.

However, the BIOS setting information 162 includes the setting content before the change and the setting content after the change. Therefore, the detection unit 110 can detect the specific setting item by obtaining the difference between the setting content before the change and the setting content after the change.

When the BIOS setting information 162 is changed to the setting content that is unconfirmed whether the information processing apparatus 10 normally starts up, the detecting unit 110 causes the information processing apparatus 10 to normally start up by the determination unit 140 described later. The specific setting item may be detected when it is determined that the setting is not performed. The detection unit 110, or when the information processing apparatus 10 is changed to a setting content that has not been confirmed to be normally started, regardless of whether the information processing apparatus 10 is normally started or not. You may make it detect a setting item.

FIG. 2 is a diagram exemplifying a result of the detection unit 110 according to the present embodiment detecting an item whose setting is changed in the BIOS setting information 162. In the example illustrated in FIG. 2, the setting values (setting contents) of the four setting items item1 to item4 included in the BIOS setting information 162 are changed.

The calculation unit 120 illustrated in FIG. 1 calculates a combination of settable contents detected by the detection unit 110 for a specific setting item whose setting value has been changed. In the present embodiment, the number of types of values that can be set for each setting item included in the BIOS setting information 162 and the settable values are, for example, the BIOS setting management information 151 stored in the storage unit 150 by the user. Shall be represented by

By referring to the BIOS setting management information 151, the calculation unit 120 acquires that the number of types of values that can be set for item1 to item4 is “2”, as illustrated in FIG. 2, for example. The calculation unit 120 generates combination management information 152 that represents combinations of contents that can be set for these setting items, based on the number of types of values that can be set for the specific setting items whose setting values have been changed. To do.

FIG. 3 is a diagram conceptually illustrating the configuration (first example) of the combination management information 152 according to the present embodiment. As illustrated in FIG. 2, when the number of types of values that can be set for item1 to item4 is “2”, the combination of the contents that can be set for those setting items is “2 to the fourth power”. Since there are (ie, “16”) combinations, the calculation unit 120 calculates 16 combinations as illustrated in FIG. However, in the combination management information 152 illustrated in FIG. 3, the combination number is an identifier that can identify each combination.

In addition, the number of types of values that can be set for item1 to item4 is not limited to "2". For example, when the number of types of values that can be set for item3 is “3” (that is, for item3, the value C can be set in addition to the value A and the value B), the item1 to item4 can be set. On the other hand, since there are 24 combinations of the contents that can be set by multiplying “2 to the power of 3” (that is, “8”) and “3”, in this case, the calculation unit 120 calculates 24 combinations. To do.

In the combination management information 152 illustrated in FIG. 3, the values that can be set for item1 to item4 are represented as "0" or "1". In this case, "0" represents a value after the setting is changed, and "1" represents a value before the setting is changed.

That is, for example, in a combination in which the combination number is "1" (hereinafter, in the present embodiment, it is referred to as a combination 1 and the same applies to combination numbers other than "1"), the values of item1 to item3 are " The value of item4 is “1”. In this case, according to the set values after and before the change of item1 to item4 illustrated in FIG. 2, the set values of item1 to item4 in the combination 1 illustrated in FIG. 3 are “Disable” and “Enable” in that order. , “Value B”, and “Enable”.

In the example illustrated in FIG. 3, the calculation unit 120 generates combination management information 152 including a combination number in which the value of item1 is MSB (Most Significant Bit) and the value of item4 is LSB (Least Significant Bit). That is, in the combination management information 152 illustrated in FIG. 3, the combination 0 represents the changed setting values for the items 1 to item 4, the combination 15 represents the setting values before the changes in the items 1 to item 4, and the combinations 1 to 14 , Item1 to item4 represent a changed set value. Note that the calculation unit 120 may generate the combination management information 152 having a specification different from that of FIG. 3, as illustrated in FIG. 5 described later, for example.

The activation control unit 130 illustrated in FIG. 1 activates the information processing apparatus 10 using the BIOS setting information 162 for each combination indicated by the combination management information 152 generated by the calculation unit 120 in the order of combination numbers. That is, the activation control unit 130 first activates the information processing apparatus 10 by setting the BIOS setting information 162 and executing POST as indicated by the combination 0, and then shuts down the information processing apparatus 10 (information processing apparatus 10 Is normally started) or is reset (when the information processing apparatus 10 is abnormally started). Next, the startup control unit 130 sets the BIOS setting information 162 as shown in combination 1 and executes POST to start the information processing apparatus 10, and then shuts down or resets the information processing apparatus 10. The activation control unit 130 repeats the above-described operation for the combination 14 until the information processing apparatus 10 is activated.

It should be noted that the combination 15 represents the setting values before the changes regarding the items 1 to item 4 as described above, and the information processing apparatus 10 is normally started up using the BIOS setting information 162 set as shown in the combination 15. This has been confirmed. Therefore, the activation control unit 130 does not have to activate the information processing device 10 for the combination 15.

The determination unit 140 illustrated in FIG. 1 determines whether or not the activation control unit 130 has normally activated the information processing apparatus 10 for each of the combinations 0 to 14. The determination unit 140 has, for example, a timer function such as a timer, and determines that the information processing device 10 does not start normally when the information processing device 10 does not start within a predetermined time after the start of the startup. .. Alternatively, the determination unit 140 may determine that the information processing device 10 does not start normally by a method different from this.

The determination unit 140 reflects the determination result in the combination management information 152. As illustrated in FIG. 3, for example, when the information processing device 10 is normally started (POST is normally completed), the determination unit 140 outputs “0x01” (however, “x” as the execution result of POST). Is a symbol representing a hexadecimal number) in the combination management information 152. Then, when the information processing device 10 is not normally started (POST ends abnormally), the determination unit 140 reflects “0xff” as the execution result of POST in the combination management information 152. However, "0x01" is a value that indicates that the information processing device 10 is activated normally (GOOD), and "0xff" is a value that indicates that the information processing device 10 is activated abnormally (BAD). There is.

According to the combination management information 152 illustrated in FIG. 3, in addition to the combination 15, which has already been confirmed to be normally started, the information processing apparatus 10 is started for the combinations 6, 7, and 14. Is normally performed, and with respect to other combinations, the startup of the information processing device 10 is abnormally terminated. That is, the combination management information 152 illustrated in FIG. 3 indicates that when at least one of the item 2 and the item 3 is changed, the information processing device 10 cannot be normally started.

The determination unit 140 displays the combination management information 152 (determination result information) representing the result of determining whether or not the information processing device 10 has normally started up, for example, on the display screen (display device) of the management terminal device 20. You may do it. By checking the combination management information 152 displayed on the display screen of the management terminal device 20, the user can efficiently understand a defect regarding the contents of the setting items included in the BIOS setting information 162.

Next, the operation (processing) of the operating environment management apparatus 100 according to this embodiment will be described in detail with reference to the flowchart in FIG.

The startup control unit 130 executes POST using the BIOS setting information 162 that has been changed by the user to the setting content that is unconfirmed as to whether the information processing apparatus 10 normally starts (step S101). The determination unit 140 determines whether POST has been normally executed (step S102).

If POST is executed normally (Yes in step S103), the entire process ends. When POST is not normally executed (No in step S103), the detection unit 110 detects a specific setting item whose content is changed in the BIOS setting information 162 (step S104).

The calculation unit 120 refers to the BIOS setting management information 151 to calculate the combination of contents that can be set for the specific setting item detected by the detection unit 110, and outputs the combination management information 152 indicating the calculation result. It is generated (step S105).

The activation control unit 130 selects a combination for which it is unconfirmed whether POST is normally executed from the combinations indicated by the combination management information 152, and sets the BIOS setting information 162 as indicated by the combination. , POST is executed (step S106).

The determination unit 140 determines whether POST has been normally executed, and reflects the determination result in the combination management information 152 (step S107).

If there is a combination in which it is unconfirmed whether POST is normally executed or not among the combinations indicated by the combination management information 152 (Yes in step S108), the activation control unit 130 shuts down or resets the information processing device 10. Then (step S109), the process returns to step S106.

If there is no combination among the combinations indicated by the combination management information 152 for which it is unconfirmed whether POST is normally executed (No in step S108), the entire process ends.

The operating environment management device 100 according to the present embodiment can efficiently identify a defect regarding the content of the setting item included in the setting information indicating the setting regarding the operating environment of the information processing device. The reason is that the operating environment management device 100 detects a specific setting item whose content is changed in the setting information indicating the setting related to the operating environment of the information processing device, and sets the content that can be set for the specific setting item. This is because the combination is calculated and whether or not the information processing device is normally activated is determined for each combination.

The effects realized by the operating environment management device 100 according to this embodiment will be described in detail below.

For example, when the information processing apparatus does not start up normally due to changing the contents of a plurality of setting items included in the BIOS setting information, it is necessary to analyze which of the changed setting items has a problem. There is. In this case, the number of setting items having a problem is not limited to one, and there may be a problem with a combination of a plurality of setting items. It is not realistic for the worker or the like to manually specify from the viewpoint of cost and the like. That is, the problem is to efficiently identify a defect related to the content of the setting item included in the BIOS setting information.

For such a problem, the operating environment management device 100 according to the present embodiment includes a detection unit 110, a calculation unit 120, an activation control unit 130, and a determination unit 140. Then, the operating environment management device 100 changes the BIOS setting information 162, which represents the setting related to the operating environment of the information processing device 10, from the first setting content, which has a history of starting the information processing device 10, to the second setting content. After that, when the information processing apparatus 10 is started, the operation is performed as described above with reference to FIGS. 1 to 4, for example. That is, the detection unit 110 detects a specific setting item having different contents between the first setting content and the second setting content among the plurality of setting items included in the BIOS setting information 162. The calculation unit 120 calculates a combination of contents that can be set for the specific setting item. The activation control unit 130 activates the information processing device 10 using the BIOS setting information 162 for each of the combinations. Then, the determination unit 140 determines whether or not the information processing device 10 has normally started for each of the combinations.

That is, the operating environment management device 100 according to the present embodiment executes the process of identifying a defect included in the BIOS setting information 162 without the intervention of a worker. Therefore, the operating environment management device 100 according to the present embodiment can efficiently identify a defect regarding the content of the setting items included in the BIOS setting information 162 that represents the operating environment of the information processing device 10.

Further, the above-described calculation unit 120 according to the present embodiment generates the combination management information 152 including the combination number in which the value of item1 is MSB and the value of item4 is LSB. Then, the activation control unit 130 activates the information processing device 10 after setting the BIOS setting information 162 in the order of the combination number indicated by the combination management information 152. The calculation unit 120 may generate the combination management information 152 having specifications different from this, and in this case, the activation control unit 130 outputs the BIOS setting information 162 in the order of the combination numbers indicated by the combination management information 152 having different specifications. After setting, the information processing device 10 is activated.

FIG. 5 is a diagram conceptually showing a second example of the configuration of the combination management information 152 according to this embodiment. In the combination management information 152 illustrated in FIG. 5, any one of the items 1 to 4 is “1” in the combinations 1 to 4, and any one of the items 1 to 4 is 2 in the combinations 5 to 10. 3 is “1”, and in combinations 11 to 14, any three of items 1 to 4 are “1”.

That is, in this case, the calculation unit 120 generates the combination management information 152 including the combination number indicating the order from the smaller difference between the changed setting content (second setting content) regarding the BIOS setting information 162. .. Then, the activation control unit 130 activates the information processing device 10 in order from the combination having the smallest difference from the changed setting content regarding the BIOS setting information 162 based on the combination management information 152 illustrated in FIG. 5.

That is, in this case, the operating environment management device 100 changes the setting content of the BIOS setting information 162 so that the difference from the changed setting content (second setting content) regarding the BIOS setting information 162 gradually increases. It is determined whether the information processing device 10 normally starts. As a result, the operating environment management apparatus 100 according to the present embodiment can efficiently identify the combination that allows the information processing apparatus 10 to normally start and has the smallest difference from the changed setting content regarding the BIOS setting information 162. You can

Further, according to the combination management information 152 illustrated in FIG. 5, the operating environment management apparatus 100 confirms that the information processing apparatus 10 can be normally started up for the first time in the combination 6, and then the combination 7 and later, The startup confirmation for the information processing device 10 has not been performed. In this case, the operating environment management apparatus 100 only needs to identify the combination that allows the information processing apparatus 10 to start normally and has the smallest difference from the changed setting content regarding the BIOS setting information 162. By omitting the start confirmation for the device 10, it is possible to efficiently manage the trouble related to the contents of the setting items included in the BIOS setting information.

Further, the calculation unit 120 may generate the combination management information 152 including the combination number indicating the order from the smaller difference in the content of the BIOS setting information 162 from the setting content before the change (first setting content). Good. Then, in this case, the activation control unit 130 activates the information processing device 10 based on the combination management information 152 in order from the combination having the smallest difference from the setting content before the change regarding the BIOS setting information 162.

That is, in this case, the operating environment management device 100 changes the setting content of the BIOS setting information 162 so that the difference from the setting content (first setting content) before the change regarding the BIOS setting information 162 gradually increases. It is determined whether the information processing device 10 normally starts. Thereby, the operating environment management apparatus 100 according to the present embodiment advances the evaluation of the operation of the information processing apparatus 10 while gradually changing the operating environment of the information processing apparatus 10 before shipment from the operating environment with the operation record. In such a case, it can assist in promoting the evaluation efficiently.

In addition, the detection unit 110 according to the present embodiment, when the BIOS setting information 162 is changed to the setting content (second setting content) that is unconfirmed whether the information processing apparatus 10 normally starts up, A specific setting item may be detected when the processing device 10 is determined not to start normally. When the information processing apparatus 10 is normally started up using the BIOS setting information 162 changed to the changed setting content, it is highly possible that there is no defect in the setting content of each combination described above. Therefore, the operating environment management apparatus 100 according to the present embodiment eliminates a problem regarding the content of the setting items included in the BIOS setting information by omitting the start confirmation of the information processing device 10 regarding the combination in which the problem is unlikely to exist. Can be managed efficiently.

The information managed by the operating environment management device 100 according to the present embodiment is not limited to the BIOS setting information. The information managed by the operating environment management apparatus 100 may be any information that represents the setting related to the operating environment used when the information processing apparatus is activated.

<Second Embodiment>
FIG. 6 is a block diagram conceptually showing the structure of the operating environment management device 30 according to the second embodiment of the present invention. The operating environment management device 30 has changed the setting information 400, which represents the setting related to the operating environment of the information processing device 40, from the first setting content 410, which has a history of activation of the information processing device 40, to the second setting content 420. After that, when the information processing device 40 is started, the device manages whether or not the information processing device 40 normally starts by associating with the setting content of the setting information 400.

The operating environment management device 30 according to this embodiment includes a detection unit 31, a calculation unit 32, an activation control unit 33, and a determination unit 34.

The detection unit 31 detects, among the plurality of setting items included in the setting information 400, a specific setting item 310 having different contents between the first setting content 410 and the second setting content 420.

The calculation unit 32 calculates a combination 320 of contents that can be set for a specific setting item 310.

The activation control unit 33 activates the information processing device 40 using the setting information 400 for each of the combinations 320.

The determination unit 34 determines whether or not the information processing device 40 has started up normally for each of the combinations 320.

The operating environment management device 30 according to the present embodiment can efficiently identify a defect related to the content of the setting item included in the setting information indicating the setting related to the operating environment of the information processing device. The reason is that the operating environment management device 30 detects a specific setting item whose content is changed in the setting information indicating the setting related to the operating environment of the information processing device, and sets the content that can be set for the specific setting item. This is because the combination is calculated and whether or not the information processing device is normally activated is determined for each combination.

<Hardware configuration example>
1 and 6 in each of the above-described embodiments can be realized by a dedicated HW (Hardware) (electronic circuit). Further, at least the following configuration in FIGS. 1 and 6 can be regarded as a function (processing) unit (software module) of the software program.
-Detection units 110 and 31,
-Calculation units 120 and 32,
-Startup control units 130 and 33,
-Judgment units 140 and 34,
A storage control function in the storage unit 150.

However, the division of each unit illustrated in these drawings is a configuration for convenience of description, and various configurations can be assumed in mounting. An example of the hardware environment in this case will be described with reference to FIG.

FIG. 7 is a diagram exemplarily illustrating the configuration of an information processing apparatus 900 (computer) capable of executing the operating environment management apparatus according to each embodiment of the present invention. That is, FIG. 7 shows a configuration of a computer (information processing device) capable of realizing the operating environment management device shown in FIGS. 1 and 6, and a hardware environment capable of realizing each function in the above-described embodiment. Represents.

The information processing apparatus 900 illustrated in FIG. 7 includes the following as constituent elements.
CPU (Central_Processing_Unit) 901,
-ROM (Read_Only_Memory) 902,
RAM (Random_Access_Memory) 903,
・Hard disk (storage device) 904,
・Communication interface 905,
・Bus 906 (communication line),
A reader/writer 908 capable of reading and writing data stored in a recording medium 907 such as a CD-ROM (Compact_Disc_Read_Only_Memory).
An input/output interface 909 such as a monitor, a speaker, and a keyboard.

That is, the information processing apparatus 900 including the above-described components is a general computer in which these configurations are connected via the bus 906. The information processing device 900 may include a plurality of CPUs 901 or may include a CPU 901 configured by a multi-core.

Then, the present invention described by taking the above-described embodiment as an example supplies a computer program capable of realizing the following functions to the information processing apparatus 900 illustrated in FIG. 7. The function is the above-mentioned configuration in the block configuration diagram (FIGS. 1 and 6) referred to in the description of the embodiment, or the function of the flowchart (FIG. 4). The invention of the present application is then achieved by reading the computer program into the CPU 901 of the hardware, interpreting it, and executing it. Further, the computer program supplied to the apparatus may be stored in a readable/writable volatile memory (RAM 903) or a nonvolatile storage device such as the ROM 902 or the hard disk 904.

Further, in the above case, as a method of supplying the computer program to the hardware, a general procedure can be adopted at present. The procedure includes, for example, a method of installing in the apparatus via various recording media 907 such as a CD-ROM and a method of downloading from the outside via a communication line such as the Internet. In such a case, the invention of the present application can be considered to be configured by the code configuring the computer program or the recording medium 907 storing the code.

The present invention has been described above with the above-described embodiment as an exemplary example. However, the present invention is not limited to the above embodiment. That is, the present invention can apply various modes that can be understood by those skilled in the art within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Information processing system 10 Information processing apparatus 100 Operating environment management apparatus 110 Detection part 120 Calculation part 130 Startup control part 140 Judgment part 150 Storage part 151 BIOS setting management information 152 Combination management information 160 BIOS memory 161 BIOS
162 BIOS setting information 20 Management terminal device 30 Operating environment management device 31 Detection unit 310 Specific setting item 32 Calculation unit 320 Combination 33 Startup control unit 34 Judgment unit 40 Information processing device 400 Setting information 410 First setting content 420 Second Setting contents 900 Information processing device 901 CPU
902 ROM
903 RAM
904 Hard disk (storage device)
905 communication interface 906 bus 907 recording medium 908 reader/writer 909 input/output interface

Claims (10)

In the case of starting the information processing apparatus after changing the setting information representing the setting related to the operating environment of the information processing apparatus from the first setting content that has a history of starting the information processing apparatus to the second setting content ,
Of a plurality of setting items included in the setting information, a detection unit that detects a specific setting item having different contents between the first setting content and the second setting content,
Calculation means for calculating a combination of contents that can be set for the specific setting item,
With respect to each of the combinations, a boot control unit that boots the information processing device using the setting information,
For each of the combinations, determination means for determining whether or not the information processing device has been normally started,
Operating environment management device. The activation control means activates the information processing device in order from the combination having the smallest difference in content with the combination regarding the second setting content among the combinations calculated by the calculation means,
The operating environment management device according to claim 1. The activation control means activates the information processing device in order from the combination having the smallest difference in content with the combination regarding the first setting content among the combinations calculated by the calculation means,
The operating environment management device according to claim 1. The detection unit detects the specific setting item when the startup of the information processing apparatus using the setting information indicating the second setting content is not normally performed,
The operating environment management device according to any one of claims 1 to 3. The activation control unit repeatedly activates the information processing device using the setting information while changing the combination until the determination unit confirms that the information processing device is normally activated.
The operating environment management device according to any one of claims 1 to 4. The determination means determines that the information processing device does not start normally when the startup is not completed within a predetermined time after the information processing device starts to start,
The operating environment management device according to any one of claims 1 to 5. The determination means generates determination result information indicating a result of determining whether or not the information processing device has normally started, and displays the generated determination result information on a display device,
The operating environment management device according to any one of claims 1 to 5. The setting information is information used by a BIOS (Basic Input Output System),
The operating environment management device according to any one of claims 1 to 7. By the second information processing device,
After changing the setting information indicating the setting related to the operating environment of the first information processing apparatus from the first setting content having a history of activation of the first information processing apparatus to the second setting content, the first setting information When starting the information processing device of
Among a plurality of setting items included in the setting information, a specific setting item whose content is different between the first setting content and the second setting content is detected,
Calculate the combination of contents that can be set for the specific setting item,
For each of the combinations, start the first information processing device using the setting information,
For each of the combinations, it is determined whether the first information processing device is normally started,
Operating environment management method. In the case of starting the information processing apparatus after changing the setting information representing the setting related to the operating environment of the information processing apparatus from the first setting content that has a history of starting the information processing apparatus to the second setting content ,
Of a plurality of setting items included in the setting information, a detection process of detecting a specific setting item having different contents between the first setting content and the second setting content,
A calculation process for calculating a combination of contents that can be set for the specific setting item,
For each of the combinations, a boot control process for booting the information processing device using the setting information,
With respect to each of the combinations, a determination process of determining whether or not the information processing device has normally started,
An operating environment management program that causes a computer to execute.

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