JP2020095731A - System including management device and information processing device, information processing device, control method of the same, and program - Google Patents

Abstract

To provide a system in which an information processing device completes initialization processing including even a specific item to be set by itself according to an instruction manual in which an automatic setting procedure is described.SOLUTION: An automatic setting system in which a management device and an information processing device communicate with each other is configured to: acquire a setting information file set to another information processing device; edit the setting information file allowing the information processing device to designate a specific item to be set by the information processing device itself; create an instruction manual in which an automatic setting procedure to be executed by the information processing device is described; in accordance with execution of the instruction manual by the information processing device, replay the setting information file to be identified by an acquisition request to be received from the information processing device; detect the specific item from the setting information file to be acquired by the information processing device; and individually set device information to be managed by itself to the detected specific item.SELECTED DRAWING: Figure 10

Description

The present invention relates to an automatic installation system, a management device, an information processing device, a management device control method, an information processing device control method, and a program.

Generally, when a device represented by a multi-function peripheral, which is an information processing device, is newly introduced, an initial installation work according to a customer environment is required.

The initial installation of the device takes a lot of time and effort. Therefore, when performing the same initial installation work for multiple devices, prepare installation data (consisting of firmware and setting information and work instructions describing the procedure for applying them to the devices) in advance. Keep it. An initial installation system has been proposed in which a worker can efficiently perform initial installation work by automatically processing the device according to a work instruction.

Here, the setting information set in the system is not only newly created by the operator during the initial installation work, but also the setting information file acquired from the device (reference device) already installed in the customer environment. Often created based on.

Then, when the setting information file is applied to the device (target device) that is the information processing device targeted for initial installation, the device controls the setting information to be reflected according to the import level determined based on the model and serial number. (For example, see Patent Document 1). With this, the target device safely inherits the setting information of the reference device.

JP 2012-226662 A

However, the setting information to be set in the initial installation work also has setting items depending on the model and serial number. For example, the location of the device, the device name, or various network settings. In the technique described in Patent Document 1, it is not possible to capture such a specific item to be individually set by the information processing apparatus. Therefore, after completing the setting process that applies the setting information file acquired from the management device, the operator must check the settings of the target device, and in some cases correct it manually, which hinders the efficiency of the initial installation work. Was there.

The present invention has been made to solve the above problems, and an object of the present invention is to perform an initialization process including a specific item to be set by an information processing apparatus according to an instruction sheet describing an automatic setting procedure. It is to provide a mechanism that can be completed.

An automatic installation system of the present invention that achieves the above object has the following configuration.
An automatic installation system in which a management device and an information processing device communicate with each other, wherein the management device acquires a setting information file set in another information processing device and a specific item set by the information processing device itself. Editing means for editing a setting information file capable of designating the setting information, creating means for creating an instruction sheet describing an automatic setting procedure executed by the information processing device from the setting information file edited by the editing means, and the information A response unit that responds to the setting information file specified by the acquisition request received from the information processing device in response to the processing device executing the instruction sheet, and the information processing device acquires from the management device. Execution unit that analyzes the instruction sheet and executes the automatic installation process, acquisition unit that acquires the setting information file specified by the instruction sheet analyzed by the execution unit from the management device, and acquisition unit that acquires the setting information file. Detecting means for detecting a specific item from the setting information file, setting means for individually setting device information managed by itself to the specific item detected by the detecting means, and the executing means ends the automatic installation process. Notifying means for notifying the management device of this fact, and the executing means executes the automatic installation process according to the setting information file using the device information set by the setting means.

According to the present invention, the information processing apparatus can complete the initialization process including the specific items to be set by itself in accordance with the instruction sheet describing the automatic setting procedure.

It is a figure which shows the structure of an automatic installation system. It is a block diagram which shows the hardware constitutions of an automatic installation system. It is a block diagram explaining the software composition of a management device. It is a figure showing an example of software composition of an information processor. It is a figure which shows an example of the table managed. It is a figure which shows an example of the table managed by the installation data management apparatus. It is a figure explaining the process of the firmware to install. It is a figure explaining a setting information file (script). It is a figure which shows the UI screen example which a UI control part provides. It is a flow chart explaining the control method of a management device. It is a flow chart explaining the control method of a management device. It is a flow chart explaining a control method of an information processor. It is a figure explaining the installation data creation process in a management apparatus. It is a flow chart explaining the control method of a management device. It is a figure explaining the setting data management process in a management apparatus. It is a figure explaining the edit screen which a management apparatus displays. It is a flow chart explaining the control method of a management device. It is a flow chart explaining the control method of a management device.

Next, the best mode for carrying out the present invention will be described with reference to the drawings.
<Description of system configuration>
[First Embodiment]
FIG. 1 is a diagram showing a configuration of an automatic installation system showing the present embodiment. This system is an example of an automatic installation system in which a management device and an information processing device communicate with each other.
In FIG. 1, 101 is an installation data management device. The worker creates and manages installation data including setting information on the installation data management device 101. In the present embodiment, a set of “setting item” and “setting value” may be referred to as “setting information”. A content management device 102 manages content such as firmware. In the present embodiment, the installation data management device 101 and the content management device 102, which are management devices, are realized by different devices, but they may be realized by the same management device. 103 is a LAN, to which the installation data management device 101 and the content management device 102 are connected.

Reference numeral 105 is a reference device. The reference device 105, which is an information processing apparatus, is a device whose initial installation work has been completed. A target device 106 is an information processing device. The target device 106 is a device to be initially installed. In the present embodiment, as an example of these devices, a multi-function peripheral which is an information processing apparatus having a print function, a scan function, a network communication function, and the like is assumed, but the present invention is not limited to this. All these devices are connected to the network by the LAN 107. The LAN 103 and the LAN 107 are connected to the Internet 104 and can communicate with each other.

In the present embodiment, the installation data management apparatus 101 and the content management apparatus 102 have been connected to the Internet 104 via the LAN 103, but these devices may be directly connected to the Internet 104. It may be. Similarly, the reference device 105 and the target device 106 may be directly connected to the Internet 104.

FIG. 2 is a block diagram showing a hardware configuration of the automatic installation system shown in FIG. FIG. 2A shows a hardware configuration of an information device in which a program that functions as the installation data management device 101 and the content management device 102 is executed.
In FIG. 2A, a hard disk (HDD) 212 stores programs of an installation data management program and a content management program according to the present embodiment, which are the main operating subjects in all the description below. Reference numeral 201 denotes a CPU, which is a main execution unit on hardware in all the following description unless otherwise specified. On the other hand, the main body of control on software is the installation data management program and the content management program stored in the hard disk (HDD) 212.

A ROM 202 stores a BIOS and a boot program. A RAM 203 functions as a main memory and a work area of the CPU 201. A keyboard controller (KBC) 205 controls instruction input from the keyboard (KB) 209, pointing device (PD) 210, and the like. A display controller (DSPC) 206 controls display on the display (DSP) 211.
A disk controller (DKC) 207 controls access to storage devices such as a hard disk (HDD) 212 and a CD-ROM (CD) 213. A hard disk (HDD) 212, a CD-ROM (CD) 213, etc. store a boot program, an operating system, a database, an installation data management program, a content management program, its data, and the like. An interface controller (IFC) 208 transmits/receives information to/from other network devices via a LAN. Each of these components is arranged on the system bus 204.

The installation data management program and the content management program according to this embodiment may be supplied in a form stored in a storage medium such as a CD-ROM. In that case, the program is read from the storage medium by the CD-ROM (CD) 213 shown in FIG. 2A and installed in the hard disk (HDD) 212.

FIG. 2B is an example of the internal configuration of the reference device 105 and the target device 106, which are information processing apparatuses.
In FIG. 2B, 251 is a CPU that controls the entire multifunction peripheral, and 252 is a ROM that stores device information such as serial numbers that should be individually set. 253 is a work area of the CPU 251, a reception buffer, and a RAM used for image drawing. A hard disk (HDD) 254 records firmware, expansion programs, font data, and the like. Here, the device information includes a device name and a device number.
An operation unit 255 includes various switches and buttons, and a liquid crystal display unit for displaying a message. Reference numeral 256 denotes a network interface for connecting to a network, which transmits and receives information to and from other network devices via the LAN. Reference numeral 257 is a print engine for printing on recording paper, 258 is a scanner for reading an original, and 259 is a facsimile communication unit for transmitting and receiving a facsimile. Each of these components is arranged on the system bus 260.

FIG. 3 is a block diagram illustrating the software configuration of the management device according to the present embodiment. In particular, FIG. 3A is an example of the functional configuration of the installation data management program 300 that operates in the installation data management device 101 shown in FIG. Each function is realized by the CPU 201 executing this program.
In FIG. 3A, the UI control unit 301 provides a graphical user interface for an operator to operate this program. The graphical user interface uses HTTP (HyperText Transfer Protocol) and is configured as a Web page that can be displayed on another PC. Alternatively, it may be configured to be displayed on the display 211 installed in the installation data management device 101. The control unit 302 instructs each function in the installation data management program 300 to perform various processes to be described later according to an instruction from the UI control unit 301 or a request received by the communication unit 305. The installation data creation unit 303 generates installation data including setting information according to an instruction from the control unit 302 based on the input information from the UI control unit 301.

The script creation unit 304 is a script for installation work that can be analyzed by the automatic installation program 450 described in FIG. 4C based on the installation data created by the installation data creation unit 303 according to an instruction from the control unit 302. To generate. Here, the script is an instruction sheet that describes an automatic setting procedure and is acquired by the information processing device, and the automatic installation program 450 analyzes the instruction sheet and executes an initial setting process.

The communication unit 305 receives the request from the target device 106 and transmits the request content to the control unit 302. Further, the communication unit 305 receives the processing result for the request from the control unit 302, creates response data for the request, and transmits the response to the request transmission source. In addition, the communication unit 305 controls HTTP communication, and transmits the Web page received from the UI control unit 301 to another PC as necessary.
The installation data management unit 306 instructs the installation data storage unit 307 to store, delete, update, and acquire installation data according to an instruction from the control unit 302. The installation data storage unit 307 is a database that holds installation data. According to the instruction from the control unit 302, the specification management unit 308 instructs the specification storage unit 309 to store, delete, update, and acquire specification information described below. The specification storage unit 309 is a database that holds the specification information of the device.

FIG. 3B is an example of a functional configuration of the content management program 350 operating in the content management apparatus 102 shown in FIG. Each function described below is realized by the CPU 201 executing a program.
In FIG. 3B, the UI control unit 351 provides a graphical user interface for an operator to operate this program. The graphical user interface uses HTTP (HyperText Transfer Protocol) and is configured as a Web page that can be displayed on another PC. Alternatively, it may be configured to be displayed on the display 211 provided in the content management apparatus 102. The control unit 352 instructs various functions in the content management program 350 to perform various processes described below in accordance with an instruction from the UI control unit 351 and a request received by the communication unit 354. The input/output unit 353 receives the input/output of the content according to the instruction of the control unit 302.

The communication unit 354 receives the request from the target device 106 and transmits the request content to the control unit 352. Further, the communication unit 354 receives the processing result for the request from the control unit 352, creates response data for the request, and transmits the response to the request transmission source. The communication unit 354 controls HTTP communication, and transmits the Web page received from the UI control unit 351 to another PC as necessary.

According to the instruction from the control unit 352, the content management unit 355 instructs the content information storage unit 356 to store, delete, update, and acquire the content. The content information storage unit 356 is a database that operates in the content management apparatus 102.

Each function of the installation data management device 101 and the content management device 102 is realized by the CPU 201 of the installation data management device 101 and the content management device 102 executing the program. The contents of data managed by the installation data storage unit 307, the specification storage unit 309, and the content information storage unit 356 will be described with reference to FIGS. 6 and 7.

FIG. 4 is a diagram showing an example of the software configuration of the information processing apparatus showing the present embodiment.
In the multi-function peripheral software 400 of the multi-function peripheral shown in FIG. 4A, a native program 401, which is a control program originally provided for a printer, a FAX, a scanner, etc. is operating on the OS 410. The extended program execution platform 402, which is the extended program execution platform, is also operating. Furthermore, a firmware update service 403, a function validation service 404, and a setting management service 405 operate on the native program 401. An extension program system service 406 and an extension program 407 run on the extension program execution platform 402.

The firmware update service 403 is a service that provides various functions for updating firmware. For example, the firmware update service 403 refers to the firmware designated by the operator and determines whether the firmware of the device needs to be updated. In addition, the firmware is updated via the native program 401.

The function validation service 404 is a service for validating a function that is incorporated in the native program 401 in advance. The function validation service 404 identifies and validates the function specified by the function license file designated by the operator.

The setting management service 405 is a service for managing various setting information such as printers and scanners. The setting management service 405 has a UI, and an operator can instruct the setting change via the operation unit 255 of the multifunction peripheral. The setting management service 405 also provides a function of rewriting the setting information of the native program 401 when the operator specifies a setting information file in a format described later. Further, the setting management service 405 converts the setting information into a data file and provides it as a setting information file in response to a request from the extension program 407. A request from the extension program 407 to the setting management service 405 is executed via the extension program system service 406.

The extension program system service 406 is a utility library commonly used for extension programs, and is provided from the system. By calling the function of the extension program system service 406 from the extension program 407, it is possible to save the trouble of developing the extension program.

The extension program 407 can access each module of the multifunction peripheral such as another extension program 407 only through the extension program execution platform 402 or the extension program system service 406. Further, the expansion program 407 having a UI can display an icon on the main menu screen displayed on the operation unit 255 of the multifunction peripheral. When the operator selects this icon, the operation unit 255 sends a message to that effect to the CPU 251. After that, the CPU 251 displays the UI of the extension program selected by the operator on the operation unit 255.

It should be noted that this software configuration only describes the basic parts, and other services may be included depending on the implementation environment. In addition, unnecessary services may be omitted for reasons such as limiting settings.

4B shows an example of the functional configuration of the setting management service 405 shown in FIG.
In FIG. 4B, a designated data analysis unit 421 analyzes the setting information file received by the setting management service 405. Specifically, the serial number, which is the information uniquely identifying the device included in the setting information file, the model name, and the setting information are extracted and temporarily stored in the RAM 253 or the HDD 254.

Reference numeral 422 is a reflection policy determination unit, which uses the serial number and model name of the setting information file extracted by the designated data analysis unit 421 and the serial number and model name of the multifunction peripheral itself to combine each setting information of the setting information file. Judge whether it can be reflected in the machine.
A reflection policy storage unit 423 manages the import condition table 500 and the setting specification management table 510 shown in FIGS. 5A and 5B. Reference numeral 424 is a reflection unit. The setting information determined by the reflection policy determination unit 422 to be reflected is written in the native program 401.

FIG. 4C is an example of the functional configuration of the automatic installation program that operates in the multifunction peripheral. In the present embodiment, the automatic installation program 450 is assumed to be installed as one of the extension programs 407 of the multifunction machine, but may be installed as one of the native programs 401, for example. The automatic installation program 450 analyzes the instruction sheet acquired from the installation data management device 101 and executes the automatic installation process.
In FIG. 4C, each function is realized by the CPU 251 executing a program corresponding to each function. The UI control unit 451 provides a UI for operating the automatic installation program 450 to the worker through the operation unit 255, and receives the operation of the worker.

The communication unit 452 acquires various data from the installation data management device 101 and the content management device 102 via the extended program system service 406 and the network I/F 256. The acquired data includes installation data and various contents applied to the multi-function peripheral. Similarly, the communication unit 452 transmits various data to the installation data management device 101 and the content management device 102. The process execution unit 453 performs various processes according to instructions from the UI control unit 451 and the script analysis unit 454. The script analysis unit 454 analyzes the script included in the installation data acquired by the communication unit 452, and determines the process and the sequence to be executed by the process execution unit 453.

FIG. 4D is an example of a UI screen held by the UI control unit 451 of the automatic installation program 450.
In FIG. 4D, the UI screen 470 is a screen that is first displayed after the worker activates the automatic installation program 450 on the device and executes the authentication process as necessary.
On the UI screen 470, 471 is an input area of an installation data ID described later. The value of the installation data ID input area 471 is used by the installation data management apparatus 101 to uniquely identify the installation data applied to the device.

472 is an OK button. When this button is pressed, the automatic installation program 450 transmits the value of the installation data ID input area 471 to the installation data management device 101. Details of this operation will be described with reference to FIG. 473 is a cancel button. When this button is pressed, the UI screen 470 ends.

FIG. 5 is a diagram showing an example of a table managed by the reflection policy storage unit 423 shown in FIG. The table configuration of FIG. 5 is an example, and a table configuration different from this example may be used.
FIG. 5A shows a capture condition table 500, which includes columns 501 and 502. A column 501 is a condition ID, which is an identifier for uniquely identifying the condition 502.
A column 502 is a condition, which is a condition for the reflection policy determination unit 422 to determine whether to import the setting information. Here, “serial number match”, “model name match”, and “no condition” are illustrated as conditions, but there may be conditions other than these.

FIG. 5B is a setting specification management table 510, which includes columns 511 to 517. In this example, one record represents one setting information.
In FIG. 5B, a column 511 is a setting item ID, which is an identifier for uniquely identifying the setting item of the device. A column 512 is a setting item name, which is a name used when displaying this setting item on the operation unit 255. The column 513 is a type, which is the data type of the setting item.

A column 514 is a value range, and is a range of values that the setting item can take. For example, when the type of the column 513 is an enumeration type, discrete numerical values and predefined constants are stored in the value range of the column 514. When the type of the column 513 is the character string type, the character string length is stored in the value range of the column 514.

The column 515 is a value display name, and when the value range of the column 514 is an enumeration type, the name displayed on the operation unit 255 for each enumerated value is stored. For example, in the first record, “1”, “5”, and “10” are stored as the value range of the column 514, and the display names of each are “1 minute”, “5 minutes”, and “10 minutes”. Will be A column 516 is an initial value, which is an initial value of the setting item. A column 517 is a condition ID, in which a condition for importing setting items is stored. The stored value is one of the values of each record of the condition ID 501 in the acquisition condition table 500.
When the setting information is reflected in the multi-function peripheral, the reflection policy determination unit 422 acquires the condition corresponding to the value of the condition ID 517 from the condition 502 of the acquisition condition table 500, and determines whether or not each setting information is reflected.

FIG. 6 is a diagram showing an example of a table managed by the installation data management device 101 shown in FIG. 6A and 6B are examples of tables managed by the installation data storage unit 307. The table configuration of FIG. 6 is an example, and a table configuration different from this example may be used.

FIG. 6A shows an installation data management table 600, which includes columns 601 to 607. This table is a table that stores an outline of installation data. One record represents one installation data.

In FIG. 6A, the column 601 is the installation data ID. The installation data ID is an identifier given to the installation data when the installation data is generated by the installation data management program 300, and is a unique value for all installation data. In this example, a simple value such as “1” is described for easy understanding, but it is desirable to use, for example, GUID (Global Unique Identifier).
A column 602 is an installation data name and represents the name of installation data. A column 603 is a model name and represents the model name of the device to which the installation data is applied. A column 604 is a firmware version, which represents the version of firmware applied to the device. A column 605 is a setting information ID, which is an identifier for uniquely identifying setting information described later.

In the present embodiment, one installation data is configured to include only one type of model. Therefore, when a plurality of models of devices are installed in the customer environment, the operator creates a plurality of installation data for each model.

The column 606 is a script, and the script created by the installation data management apparatus 101 is stored. In the present embodiment, it is assumed that the script entity is stored in the column 606, but the column 606 may store only the path to the script entity. In this case, the entity of the script will be placed as a file in another location.
A column 607 shows a processing result, and a result obtained by the target device 106 processing the script stored in the column 606 is stored. A file of the processing result may be stored.

FIG. 6B is a setting information management table 610, which includes columns 611 to 617. In this example, one record represents the setting information for one installation data.
In FIG. 6B, a column 611 is a setting information ID, which is an identifier for uniquely identifying the setting information. The value of any record in this column is stored in the setting information ID 605 described above. A column 612 is a flag, which is for determining whether or not the target device 106 applies all the setting information when the setting information of each record is applied to the target device 106. The possible value of the flag (column 612) is assumed to be “true” or “false”, but is not limited to this and may be a numerical value such as “1” or “0”. Columns 613 to 617 list examples of setting information (sleep transition time, IP address, installation place, initial value of paper size, cassette margin adjustment). The setting information is not limited to the one illustrated here.

Although the setting items are assigned to columns after the column 613 of the table here, it is configured to store the substance of the setting information file created in the format shown in FIG. It may be. Also, instead of storing the entity, the path to the entity may be stored. In this case, the entity is placed as a file in another location.

6C to 6E are examples of tables managed by the specification storage unit 309.
6C shows a capture condition table 620, which is the same as the capture condition table 500 of FIG. 6D is a model identification table 630, which includes columns 631 to 633 (model ID, model name, firmware version).
In FIG. 6D, a column 631 is a model ID, which is an identifier for uniquely identifying a combination of a model name and a firmware version. The column 632 is the model name, and the column 633 is the firmware version. By combining the model name (column 632) and the firmware version (column 633), the entity of the firmware can be uniquely identified.
FIG. 6E is an all-settings specification management table 650, which includes columns 651 to 658. In this example, one record represents one setting information.
In FIG. 6E, a column 651 is a model ID, and the value of any record of the model ID 631 is stored. Columns 652 to 658 are the same as columns 511 to 517 of the setting specification management table 510 of FIG.

In the present embodiment, the specification management unit 308 decomposes the specification information into records for each setting information and stores the records in this table, but the substance of the specification information may be stored as it is. Further, only the path to the substance of the specification information may be stored. In this case, the substance of the specification information is placed as a file in another location.

FIG. 7 is a diagram illustrating a process of firmware installed in the information processing apparatus according to the present embodiment.
FIG. 7A is an example of a table managed by the content information storage unit 356. The table configuration of FIG. 7A is an example, and a table configuration different from this example may be used.
In FIG. 7A, a firmware management table 700 is a table that stores information about firmware, and includes columns 701 to 704. One record represents one piece of firmware information.
Column 701 represents the model name. In this column, the model to which the firmware registered in the firmware management table 700 can be applied is designated.
Column 702 represents the firmware version. The version information of the firmware registered in the column 703 is stored. Column 703 represents the firmware. The substance of the firmware registered in the content management apparatus 102 is stored in this column.
A column 704 represents specification information. The substance of the specification information registered in the content management apparatus 102 is stored in this column. The specification information is a file that manages the specifications of all the setting items included in the firmware, and the configuration thereof is a file of the setting specification management table 510 of FIG. 5B.

In this embodiment, it is assumed that each entity of firmware and specification information is stored in the columns 703 and 704, but each column may store only the path to each entity. In this case, each entity will be placed as a file in another location.

7B and 7C are examples of UI screens that the UI control unit 351 of the content management program 350 has.

In the firmware list screen 720 of FIG. 7B, 721 is a model name and 722 is a firmware version. The values in the columns 701 and 702 of the firmware management table 700 are displayed in these fields. Reference numeral 723 is an add button. When the operator presses this button, an additional screen 740 is displayed. Reference numeral 724 is a delete button. When the operator selects any row in the firmware list and presses this button, the data of the corresponding record in the firmware management table 700 is deleted. 725 is an end button. When this button is pressed, the UI control unit 351 ends the firmware list screen 720.

In the additional screen 740 of FIG. 7C, 741 is a firmware file designation area. The operator inputs the file path of the firmware entity to be added to the content management apparatus 102 in this area.
A file reference dialog display button (not shown) may be provided to facilitate input. In the present embodiment, the firmware specified in the firmware file specification area 741 is assumed to include the specification information, but the firmware may be different. In that case, an area for inputting the file path of the specification information is provided on the additional screen 740.

742 is an OK button. When this button is pressed, the content management program 350 adds the firmware specified by 741 to the firmware management table 700. At that time, the model name and the firmware version of the firmware are specified from the attribute information of the firmware and set in columns 701 and 702. Further, the firmware is registered in the column 703, and the specification information included in the firmware is extracted and registered in the column 704. Then, the addition screen 740 is terminated. 743 is a cancel button. When this button is pressed, the edit result of the addition screen 740 is discarded and the addition screen 740 is terminated.

FIG. 8A is a diagram illustrating a setting information file (script) that is an instruction sheet for setting the information processing apparatus according to the present exemplary embodiment. The setting information file 800 shown in this example is an example described in XML format.
In FIG. 8A, reference numeral 801 is a control information area, and in this figure, a model name (<Model> tag), a firmware version (<FWV> tag), and a serial number (<SN> tag) are shown as examples. It has been described. A setting information area 802 lists setting information to be set in the device. In this embodiment, each tag name of the setting information is set to be the same as the value of the setting item IDs 511 and 652. Further, in the present embodiment, the data file is expressed in the XML (Extensible Markup Language) format, but may be expressed in, for example, the JSON (Java (registered trademark) Script Object Notification) format.

FIG. 8B is an example of a script describing an installation procedure for automatically executing the installation process of the target device 106.
In FIG. 8B, the script 820 is acquired by the communication unit 452 of the automatic installation program 450 and analyzed by the script analysis unit 454 via the process execution unit 453.
The script 820 analyzed by the script analysis unit 454 is then subjected to the described process by the process execution unit 453. The script 820 is described in the XML format, and includes an installation data identification unit 821, a model identification unit 822, and a process description unit 830.
Although the script is expressed in the XML format in this figure, the invention is not limited to this, and may be written in a shell script or the like.

The installation data identification unit 821 includes a <setupId> tag, and describes an installation data ID for identifying installation data. The same value as the installation data ID (column 601) of the installation data management table 600 is described. The model identification unit 822 is composed of a <Model> tag, and describes a model name for identifying the model of the target device 106 to be installed. The value of the model name (column 603) of the installation data management table 600 is described.

In the process description section 830, a process group necessary for the installation process is described. The process description unit 830 includes a firmware update processing unit 831, a setting information processing unit 832, and a restart processing unit 833. An order attribute is included in the tag indicating each process. The order attribute specifies the order of processing.

The firmware update processing unit 831 is a process of updating firmware via the firmware update service 403. The processing unit defines the processing by describing the <updateFirmwareCommand> tag, and the <path> tag specifies the path to the server in which the entity of the firmware exists. Further, the firmware version is specified in the <firmwareVersion> tag.

The setting information processing unit 832 is a process of changing the setting information of the device via the setting management service 405. The processing unit defines the processing by describing the <deviceConfigCommand> tag, and specifies the value of the setting information ID 605 of the setting information file applied to the target device 106 by the <confFileId> tag.

The restart processing unit 833 is configured by only a <rebootCommand> tag, and is a process for restarting the device after the completion of the installation process to reflect the setting information in the device. Note that the script description shown in this figure does not limit the processing required for device installation, and the processing may be duplicated or increased or decreased as necessary.

FIG. 9 is a diagram showing an example of a UI screen provided by the UI control unit 301 of the installation data management program 300.

In the list screen 900 shown in FIG. 9A, 901 is an installation data ID, 902 is an installation data name, 903 is a model name, and 904 is a firmware version. The values of the column 601, the column 602, the column 603, and the column 604 of the installation data management table 600 are displayed respectively.

Reference numeral 905 is a new creation button. When the operator presses this button, the edit screen 920 is displayed. Reference numeral 906 is an edit button. When the operator selects an arbitrary line in the installation data list (list including 901 to 904) and presses this button, an edit screen 920 regarding the corresponding installation data is displayed.

Reference numeral 907 is a delete button. When the operator selects any row in the installation data list and presses this button, the record associated with the installation data ID is displayed from the installation data management table 600 and the setting information management table 610 of the installation data storage unit 307. To be deleted. Reference numeral 908 is an end button. When this button is pressed, the UI control unit 301 ends the list screen 900.

In the edit screen 920 shown in FIG. 9B, 921 is an installation data name, 922 is a model name, and 923 is a firmware version input area. When both the model name 922 and the firmware version 923 are input, the items 924 to 929 are validated.

Reference numeral 924 is a new creation button. This button can be pressed when "none" is displayed in the area 927 below. When this button is pressed, the setting information edit screen 940 is displayed. At this time, the initial value of each setting item displayed on the setting information edit screen 940 is determined by referring to each table of the specification storage unit 309. Details will be described later.

Reference numeral 925 is a file designation area. The operator inputs the file path of the substance of the setting information file acquired from the reference device 105 into this area. There may be a file reference dialog display button (not shown) for easy input. Reference numeral 926 is a read button. When this button is pressed, the setting information file designated in the file designation area 925 is read and temporarily stored in the installation data storage unit 307.

Reference numeral 927 is an area for displaying the presence/absence of a setting information file. When the setting information file is read and temporarily stored in the installation data storage unit 307, “present” is displayed in this area. In other cases, "None" is displayed.

Reference numeral 928 is an edit button. This button can be pressed only when “present” is displayed in the area 927. When the operator presses this button, the setting information edit screen 940 is displayed. At this time, as the initial value of each setting item displayed on the setting information edit screen 940, the setting value of the setting information file temporarily stored in the installation data storage unit 307 is applied. Details will be described later.
Reference numeral 929 is a delete button. When this button is pressed, the setting information file temporarily stored in the installation data storage unit 307 is deleted, and “none” is displayed in the area 927.

930 is an OK button. When this button is pressed, the installation data management program 300 generates a script that can be analyzed by the automatic installation program 450, and stores it in each table of the installation data storage unit 307 together with the edited result. Details of this operation will be described with reference to FIG. Then, the edit screen 920 is ended. 931 is a cancel button. When this button is pressed, the edit result of the edit screen 920 is discarded and the edit screen 920 is terminated.

In the setting information edit screen 940 shown in FIG. 9C, 941 is a sleep transition time, 942 is an IP address, 943 is an installation location, 944 is an initial value of paper size, and 945 is an input area for cassette margin adjustment. A check box is added to the head of each setting item, and the operator can select the setting item to be applied to the target device 106. Details of these UI controls will be described later.
946 is an OK button. When this button is pressed, the installation data management program 300 temporarily holds the edited result in the installation data storage unit 307. Then, the setting information edit screen 940 is ended. 947 is a cancel button. When this button is pressed, the editing result of the setting information edit screen 940 is discarded and the setting information edit screen 940 is terminated.

Now, when an operator activates the installation data management program 300 in order to create installation data and register it in the installation data management apparatus 101, a list screen 900 is displayed. When the new creation button 905 or the edit button 906 is pressed on this screen, the installation data management device 101 executes the flowchart of FIG.

FIG. 10 is a flowchart illustrating the control method of the management device according to the present embodiment. This example is an example of installation data creation processing by the installation data management device 101. Note that each step is realized by the CPU 201 of the installation data management apparatus 101 executing the stored control program (including the UI control unit 301).
In step S1001, the UI control unit 301 displays the edit screen 920 on the DSP 211. In the list screen 900 shown in FIG. 9A, when the new creation button 905 is pressed, the initial value defined by the UI control unit 301 is used for display.
On the other hand, when the edit button 906 is pressed, the UI control unit 301 acquires the value of the installation data to be edited from the various tables in FIG. 7 and displays it as the initial value. If the installation data to be edited includes setting information, the setting data is read out, converted into a file in the format as shown in FIG. 8A, and an arbitrary file name is given to the installation data storage unit 307. Hold temporarily.

In step S1002, the UI control unit 301 determines whether the administrator has input values for the model name 922 and the firmware version 923 on the UI screen shown in FIG. 9B. If the UI control unit 301 determines that values have been input to the model name 922 and the firmware version 923, the process advances to step S1004. On the other hand, if the UI control unit 301 determines that the model name 922 and the firmware version 923 are not input, the process advances to step S1003.
In step S1003, the UI control unit 301 receives input of values for the model name 922 and the firmware version 923, and the process advances to step S1004.
In step S1004, the UI control unit 301 determines whether or not the temporarily stored setting information file exists. Here, when the UI control unit 301 determines that the temporarily stored setting information file exists, the process advances to step S1009. On the other hand, if the UI control unit 301 determines that the temporarily stored setting information file does not exist, the process advances to step S1005.

In step S1005, the UI control unit 301 determines whether the setting information file is designated in the file designation area 925 and the read button 926 is pressed. If the UI control unit 301 determines that the read button 926 has been pressed, the process advances to step S1007. On the other hand, if the UI control unit 301 determines that the read button 926 has not been pressed, the process advances to step S1006.
In step S1006, the UI control unit 301 determines whether the new creation button 924 has been pressed. If the UI control unit 301 determines that the new creation button 924 has been pressed, the process advances to step S1010. On the other hand, if the UI control unit 301 determines that the new creation button 924 has not been pressed, the process advances to step S1014.

In step S1007, the UI control unit 301 temporarily holds the setting information file specified in the file specifying area 925 in the installation data storage unit 307. At this time, the value of the area 927 is set to “present” and the edit button 928 is activated. In step S1008, the UI control unit 301 temporarily holds the value of the flag in the installation data storage unit 307 as “false”. In step S1009, the UI control unit 301 determines whether the edit button 928 has been pressed. If the UI control unit 301 determines that the edit button 928 has been pressed, the process advances to step S1010. On the other hand, if the UI control unit 301 determines that the edit button 928 has not been pressed, the process advances to step S1012. In step S1010, in response to the request from the UI control unit 301, the installation data creation unit 303 executes the editing process of the setting information file. Details of this processing will be described in detail with reference to FIG.

In step S1011, the UI control unit 301 temporarily holds the value of the flag in the installation data storage unit 307 as “true”. By setting this flag to “true”, it becomes possible to apply all the setting information in the setting information file to the target device 106. In step S1012, the UI control unit 301 determines whether the delete button 929 has been pressed. If the UI control unit 301 determines that the delete button 929 has been pressed, the process advances to step S1013. On the other hand, if the UI control unit 301 determines that the delete button 929 has not been pressed, the process advances to step S1014.
In step S1013, the UI control unit 301 deletes the setting information file temporarily stored in the installation data storage unit 307. Then, the process returns to S1004. In step S1014, the UI control unit 301 determines whether the OK button 930 has been pressed. If the UI control unit 301 determines that the OK button 930 has been pressed, the process advances to step S1016. On the other hand, if the UI control unit 301 determines that the OK button 930 has not been pressed, the process advances to step S1015.
In step S1015, the UI control unit 301 determines whether the cancel button 931 is pressed. Here, when the UI control unit 301 determines that the cancel button 931 is pressed, the UI control unit 301 discards the editing result of the editing screen 920 and ends the editing screen 920. On the other hand, when the UI control unit 301 determines that the cancel button 931 is not pressed, the process returns to S1004 and the editing work on the editing screen 920 is continued.

In step S1016, the installation data creation unit 303 registers the information input by the worker on the edit screen 920 in the installation data management table 600 and the setting information management table 610 via the installation data management unit 306.

In step S1017, the UI control unit 301 transfers the information input by the worker to the editing screen 920 to the script creating unit 304, and requests the script creating unit 304 to create the script illustrated in FIG. 8B. Here, in particular, a method of creating the <deviceConfigCommand> tag of the setting information processing unit 832 will be described.

The script creating unit 304 acquires the value of the flag of the setting information registered in S1016 and the setting information ID. In the <deviceConfigCommand> tag, the value of the flag (“true” or “false”) is set as the flag attribute. Further, the value of the setting information ID is described in the <confFileId> tag. After that, the installation data creation unit 303 receives the script from the script creation unit 304 and registers it in the column 606. This is the end of the description of the flowchart. In the present embodiment, the value of the flag is set to “true” as the flag attribute, so that the setting information file set in another information processing apparatus (reference device 105) is acquired and the information processing apparatus (target device) is acquired. 106) is configured to be able to edit a setting information file that can specify a specific item set by itself.

FIG. 11 is a flowchart illustrating the control method of the management device according to the present embodiment. In particular, FIG. 11A is a detailed example of the editing process shown in S1010 by the installation data management apparatus 101. 11B is a detailed example of the UI generation process shown in FIG. Each step is realized by the CPU executing the stored control program. Each step is realized by the CPU 201 of the installation data management device 101 executing a stored control program (including the UI control unit 301 and the installation data creation unit 303).

In S1101 of FIG. 11A, the installation data creation unit 303 temporarily holds the combination of the model name 922 and the firmware version 923 in the installation data storage unit 307 as tgtDev information. In step S1102, the installation data creation unit 303 determines whether or not the setting information file temporarily stored in the installation data storage unit 307 exists.
When the main editing process S1010 is executed subsequent to S1006 in the flowchart of FIG. 10, the setting information file does not exist. On the other hand, if it is executed subsequent to S1009, the setting information file exists. If the installation data creation unit 303 determines that the temporarily stored setting information file exists, the process proceeds to S1103. On the other hand, when the installation data creation unit 303 determines that the temporarily stored setting information file does not exist, the process proceeds to S1104.

In step S1103, the installation data creation unit 303 acquires the model name and the firmware version from the setting information file, and temporarily stores the model name and the firmware version in the installation data storage unit 307 as refDev information. For example, in the setting information file 800, refDev information having a model name “model 1” and a firmware version “1.00” can be acquired.
In S1104, the installation data creation unit 303 also holds the tgtDev information held in S1101 as refDev information. In step S1105, the installation data creation unit 303 executes UI generation processing. Details of this processing will be described in detail with reference to FIG.
In S1121 shown in FIG. 11B, the installation data creation unit 303 determines whether the refDev information and the tgtDev information are registered in the model identification table 630. If the installation data creation unit 303 determines that the refDev information and the tgtDev information are registered in the model identification table 630, the process advances to step S1123. On the other hand, when the installation data creation unit 303 determines that the refDev information and the tgtDev information are not registered in the model identification table 630, the process proceeds to S1122.

In step S1122, the installation data creation unit 303 acquires the specification information of the refDev information and the tgtDev information from the content management apparatus 102. Specifically, the installation data creation unit 303 transmits a specification information acquisition request to the communication unit 354 of the content management apparatus 102 via the communication unit 305. The control unit 352 receives the request via the communication unit 354, and acquires the specification information from the content information storage unit 356 via the content management unit 355. After that, the control unit 352 returns the specification information to the communication unit 305 via the communication unit 354. When the installation data creation unit 303 receives the specification information via the communication unit 305, it passes the specification information to the specification management unit 308. The specification management unit 308 registers the model name and the firmware version in the model identification table 630 of the specification storage unit 309, and then registers the specification information in the all setting specification management table 650 using the value of the allocated model ID 631.

In step S1123, the UI control unit 301 creates the setting information edit screen 940 using the specification information of the tgtDev information. Specifically, the UI control unit 301 acquires the value of the model ID 631 of the tgtDev information from the model identification table 630 and extracts a record having the value as the value of the model ID 651 from the all setting specification management table 650. Next, each setting information is displayed on the setting information edit screen 940 using the values of the setting item name 653, type 654, and value range 655 in the record.
For example, the setting item name 653 is used to display the item name of the setting information. The type 654 is used to verify whether the setting value input by the operator matches the type of setting information. The value range 655 is used to verify whether the setting value input by the operator is within the range that the setting information can take.
In S1124, the installation data creation unit 303 determines whether or not there is a setting information file temporarily stored in the installation data storage unit 307. Here, when the installation data creation unit 303 determines that the temporarily stored setting information file exists, the process proceeds to S1125. On the other hand, if the installation data creation unit 303 determines that the temporarily stored setting information file does not exist, the process advances to step S1128.

At 1125, the installation data creation unit 303 reads the setting information from the setting information file. Taking the setting information file 800 as an example, the setting information is each tag in the <Data> tag and its value (such as the <SleepTime> tag and its value “10”).

In 1126, the UI control unit 301 uses the specification information of the refDev information to generate a setting value for UI display from the setting information in the setting information file 800. The <SleepTime> tag of the setting information file 800 and its value “10” are taken as an example. First, the UI control unit 301 acquires the value of the model ID 631 of the refDev information from the model identification table 630.
Further, a record having that value as the value of the model ID 651 and having the setting item ID matching the tag name “SleepTime” is extracted from the all-setting-specification management table 650. Next, using the value of the value range 845 and the value display name 656 in the record, “10 minutes”, which is the value of the setting information for UI display, is generated from the value “10” of the <SleepTime> tag.

In step S1127, the UI controller 301 changes the UI display setting value generated in step S1126 to the UI display initial value of the tgtDev information. A specific description will be given using the setting items and setting values for UI display of the refDev information generated in S1126. First, the UI control unit 301 acquires the value of the model ID 631 of the tgtDev information from the model identification table 630.
Further, a record having that value as the value of the model ID 651 and having the setting item ID matching “SleepTime” is extracted from the all-setting-specification management table 650. Next, it is confirmed whether or not the setting value “10 minutes” generated in S1126 exists in the value display name 656 of the record. If present, this set value "10 minutes" is adopted as the initial value for displaying the UI of the tgtDev information. If it does not exist, the value of the initial value 657 of the record is taken out, and the initial value for UI display is determined from the value range 655 and the value display name 656.
Further, if a record whose setting item ID matches "SleepTime" does not exist in the all setting specification management table 650, this setting item does not exist in the device of tgtDev information. It is not displayed on the screen 940.

In step S1128, the UI control unit 301 reads the initial value from the specification information of the tgtDev information. The UI control unit 301 acquires the value of the model ID 631 of the tgtDev information from the model identification table 630. Next, a record having that value as the value of the model ID 651 is extracted from the all setting specification management table 650. Finally, using the values of each record of the setting item name 653, the type 654, the value range 655, the value display name 656, and the initial value 657, an initial value for UI display of the tgtDev information is generated.

In S1129, the UI control unit 301 sets the initial value generated in S1127 or S1128 as the value of each setting item on the setting information edit screen 940 created in S1123. When the UI control unit 301 sets the initial values generated in S1127, the initial values of the setting items displayed on the setting information edit screen 940 may not be generated. For example, the number of setting information items in the setting information file is smaller than the number of setting items included in the target device 106. In this case, the UI control unit 301 generates the initial value of the setting item that has not been generated by the same means as in S1828, and sets it as the value of each setting item on the setting information edit screen 940. This is the end of the description of the flowchart.
Now, returning to FIG. 11A, the description will be continued.
Subsequent to the UI generation processing of S1105, the UI control unit 301 receives the editing by the operator on the setting information editing screen 940 in S1106. In step S1107, the UI control unit 301 determines whether the OK button 946 has been pressed. If the UI control unit 301 determines that the OK button 946 has been pressed, the process advances to step S1109. On the other hand, when the UI control unit 301 determines that the OK button 946 is not pressed, the process proceeds to S1108.
In step S1108, the UI control unit 301 determines whether the cancel button 947 has been pressed. Here, when the UI control unit 301 determines that the cancel button 947 has been pressed, the UI control unit 301 discards the editing result of the setting information edit screen 940 and ends the setting information edit screen 940. On the other hand, when the UI control unit 301 determines that the cancel button 947 is not pressed, the process returns to S1106, and the editing work on the setting information edit screen 940 is continued.

In step S1109, the UI control unit 301 acquires the setting information input to the setting information edit screen 940 by the worker. Specifically, the setting item name and setting value of the setting information whose check box is selected are acquired.

In step S1110, the installation data creation unit 303 receives the setting information acquired in step S1109 from the UI control unit 301. After that, a setting information file such as the setting information file 800 is created using the specification information of the tgtDev information.
Specifically, the installation data creation unit 303 acquires the value of the model ID 631 of the tgtDev information from the model identification table 630. Next, a record having that value as the value of the model ID 651 is extracted from the all setting specification management table 650. For the record in which the value of the setting item name 653 of the record matches the setting item name of the setting information acquired in S1109, the setting value to be written in the setting information file is derived from the value range 655 and the value display name 656. Further, the value of the setting item ID 652 is acquired and the tag name to be described in the setting information file is determined.
Furthermore, the values of the model name and the firmware version are acquired from the tgtDev information and set as the values of the <Model> tag and the <FWV> tag. The created setting information file is temporarily stored in the installation data storage unit 307. This is the end of the description of the flowchart.

Now, when the initial installation of the target device 106 is performed using the installation data created by executing the flowcharts of FIGS. 10 and 11, the target device 106 executes the flowchart of FIG. 12.

FIG. 12 is a flowchart illustrating the control method of the information processing apparatus according to the present exemplary embodiment. This example is an example of initial setting processing in the information processing apparatus. Each step is realized by the CPU 251 executing the stored control program (automatic installation program 450).
When the automatic installation program 450 is started on the target device 106 which is an information processing device, a UI screen 470 is displayed. When the OK button 472 is pressed while the installation data ID is input in the installation data ID input area 471 on this screen, S1201 is executed.

In step S1201, the process execution unit 453 transmits a script acquisition request to the installation data management device 101 via the communication unit 452 together with the value of the installation data ID. Further, the communication unit 452 receives the script returned from the installation data management device 101 and passes it to the script analysis unit 454.

In step S1202, the script analysis unit 454 analyzes the script and transfers it to the process execution unit 453. For example, the initial installation processing described in the script 820 is (1) firmware update processing, (2) setting information processing, and (3) restart processing. Looking at the order attribute of each process, it can be seen that the processing order is (1), (2), (3). Further, in (2) setting information processing, the value of the flag attribute is “true” and the value of the setting information ID is “S001”.
In step S1203, the process execution unit 453 determines whether the script analysis result of step S1202 includes setting information processing. Here, when the process execution unit 453 determines that the setting information processing is included, the process proceeds to S1204. On the other hand, when the process execution unit 453 determines that the setting information processing is not included, the process proceeds to S1207.

In step S1204, the process execution unit 453 transmits a setting information acquisition request to the installation data management apparatus 101 via the communication unit 452 together with the installation data ID value and the setting information ID value. The installation data management device 101 identifies the setting information from the setting information ID, converts it into a file, and sends it back. The communication unit 452 receives the setting information returned from the installation data management device 101, and temporarily holds the setting information in the RAM 253 or the HDD 254.
In step S1205, the process execution unit 453 determines whether the value of the flag attribute of the setting information processing is “true” from the script analysis result of step S1202. When the process execution unit 453 determines that the value of the flag attribute is “true”, the process proceeds to S1206. On the other hand, when the process execution unit 453 determines that the value of the flag attribute is not “true”, the process proceeds to S1207.

In step S1206, the process execution unit 453 acquires the serial number stored in the ROM 252 via the extended program system service 406. Then, the serial number is set in the <SN> tag of the setting information file acquired in S1204.

By executing this step, the process execution unit 453 can match the serial number of the setting information with the serial number of the target device 106. Therefore, the processing execution unit 453 can reflect all the setting information edited on the setting information editing screen 940 in S1207 on the target device 106.
In step S1207, the process execution unit 453 executes various processes using the script analysis result of step S1202. In this embodiment, three processes of (1) firmware update process, (2) setting information process, and (3) reboot process are executed.

In the firmware update process, the process execution unit 453 acquires the model name described in the <Model> tag and the firmware version value described in the <firmwareVersion> tag.
After that, a firmware acquisition request is transmitted to the content management apparatus 102 via the communication unit 452 together with these values. Further, the communication unit 452 receives the firmware returned from the content management apparatus 102 and holds it in the RAM 253 or the HDD 254. After that, the process execution unit 453 calls the firmware update service 403 to update the firmware.

In the setting information processing, the process execution unit 453 passes the setting information file to the setting management service 405 via the extension program system service 406. The setting management service 405 rewrites the setting information of the native program 401 according to the procedure described in FIG.
The process of rewriting the setting information by the setting management service 405 will be specifically described by taking the <IPAddress> tag of the setting information file 800 as an example.

First, as described in the description of FIG. 4B, the designated data analysis unit 421 of the setting management service 405 analyzes the setting information file and extracts the serial number and model name. Also, the <IPAddress> tag is extracted as an example of the setting information.

The reflection policy determination unit 422 acquires the serial number and model name of the target device 106 via the native program 401 and compares the serial number and model name with the serial number and model name. The result of the comparison includes one or more of “serial number match”, “model name match”, and “no condition”. For example, when the serial number and the model name match, the comparison results are all "serial number match", "model name match", and "no condition".
If the serial numbers do not match and the model names match, the comparison results are two, “model name match” and “no condition”. Assuming that the serial number and the model name match in the present embodiment, it can be seen from the import condition table 500 that the value of the condition ID 501 is “1”, “2”, and “3”. This indicates that the reflecting unit 424 can reflect the setting information in which the condition ID 517 of the setting specification management table 510 is “1”, “2”, and “3”.

On the other hand, in the present embodiment, since each tag name in the setting information file 800 is the same as the value of the setting item ID 511, the reflecting unit 424 can search the setting specification management table 510 using the tag name “IPAddress” as a key. Is.
When the record having the setting item ID 511 of “IPAddress” is searched, the reflecting unit 424 detects the second record. The value of the condition ID 517 of this record is “1”. In this embodiment, the setting information in which the value of the condition ID 517 is “1” is written in the native program 401. That is, the value “1.2.3.4” set in the <IPAddress> tag of the setting information file 800 is written in the native program 401.
Finally, the process execution unit 453 executes the restart process to reflect the changed various settings on the target device 106.
Next, in S1208, the processing result of S1207 is transmitted to the installation data management apparatus 101. The installation data management device 101 stores the received processing result in the processing result (column 607).

In the present embodiment, the flag value is expressed by providing the flag attribute in the <deviceConfigCommand> tag of the script 820. Other than this, it may be expressed by providing a <flag> tag in the control information area 801 of the setting information file 800.

In that case, the process execution unit 453 does not execute S1205 based on the script analysis result of S1202, but executes S1205 based on the analysis result of the control information area 801 of the setting information file acquired in S1204. Furthermore, in the present embodiment, the target device 106 executes the processing of S1206, but the installation data management apparatus 101 may execute it. In that case, in S1201, when the process execution unit 453 transmits the script acquisition request to the installation data management apparatus 101, the serial number of the target device 106 may be notified together with the installation data ID.

The installation data management device 101 searches for the target installation data from the received installation data ID, and when the value of the flag (column 612) is “true”, uses the received serial number to set the target installation information. The serial number will be set in the <SN> tag of the file. This is the end of the description of the present embodiment.

[Second Embodiment]
Generally, when a device is newly installed in the customer environment, two types of installation patterns are assumed.
The first is a pattern in which the reference device 105 in the customer environment is replaced with the target device 106. The reference device 105 and the target device 106 do not coexist in the customer environment. Since the target device 106 operates as a successor to the reference device 105, it is required that the setting information between the devices be inherited.

The second is a pattern of adding the target device 106 to the customer environment. The reference device 105 and the target device 106 coexist in the customer environment. Therefore, if the setting information unique to each individual is taken over by the target device 106, a problem occurs in the customer environment. A typical example of such setting information is an IP address.

In the example described in the first embodiment, when the worker edits the setting information file, the setting information unique to the individual can be reflected in the target device. Therefore, it is possible to deal with the first pattern, but it is not possible to deal with the second pattern.
In the present embodiment, an example will be described in which the setting information can be reflected without causing a problem in the customer environment even with the second pattern. Hereinafter, the description will be focused on the parts different from the first embodiment.
FIG. 13 is a diagram for explaining the installation data creation process in the management device according to the present embodiment. FIG. 13A is an example of the installation data management table 600 in this embodiment. The difference from the first embodiment is that a column 1301 is added to the installation data management table 600.
In FIG. 13A, columns 601 to 607 are the same as those in the first embodiment, and therefore the description thereof will be omitted.
A column 1301 is an installation mode and represents the installation mode of the device to which the main installation data is applied. Possible values are either "add" or "replace".

In the present embodiment, only one installation mode that can be specified in one installation data is included. Therefore, when installing a device having a different installation mode in the customer environment, the worker creates a plurality of installation data for each installation mode. Alternatively, a table for managing the target device may be separately prepared, and the installation mode may be managed in the table.

FIG. 13B is a diagram showing an example of the edit screen 920 displayed by the management apparatus according to the present embodiment. The difference from the edit screen 920 in the first embodiment is that an installation mode 1302 is added.
In FIG. 13B, since 921 to 931 are the same as those in the first embodiment, description thereof will be omitted.
1302 is an installation mode. Possible values for the installation mode 1302 are “add” or “replace”. When the target device 106 replaces the reference device 105 in the customer environment, “replacement” is selected as the value of the installation mode 1302. When the target device 106 is added to the customer environment, “addition” is selected as the value of the installation mode 1302.
As in the first embodiment, when the new creation button 905 or the edit button 906 is pressed on the list screen 900, the installation data management device 101 executes the flowchart of FIG.

FIG. 14 is a flowchart illustrating the control method of the management device according to the present embodiment. This example is an example of installation data creation processing by the installation data management device 101. Note that each step is realized by the CPU 201 of the installation data management apparatus 101 executing the stored control program (including the UI control unit 301).
In S1401, the UI control unit 301 displays the installation mode 1302 in addition to the processing in S1001 of the first embodiment. When the new creation button 905 is pressed, the installation mode 1302 displays the initial value set by the UI control unit 301. In the example of the edit screen 920 of FIG. 13B, "addition" is displayed as the initial value, but the present invention is not limited to this and "replacement" may be displayed. On the other hand, when the edit button 906 is pressed, the UI control unit 301 acquires the value of the installation mode (column 1301) of the installation data to be edited from the installation data management table 600 and displays it as the initial value.
In S1402, the UI control unit 301 determines whether or not the value of the installation mode 1302 is input, in addition to the processing of S1002 of the first embodiment. If the UI control unit 301 determines that the respective values have been input, the process advances to step S1004. On the other hand, if the UI control unit 301 determines that the respective values have not been input, the process advances to step S1403.
In S1403, the UI control unit 301 accepts the input of a value to the installation mode 1302 in addition to the process of S1003 of the first embodiment, and the process proceeds to S1004. Note that steps S1004 to S1010 are the same as those in the first embodiment, and thus description thereof will be omitted.
In S1404, which is executed subsequent to S1010, the UI control unit 301 determines whether the value of the installation mode 1302 is “replace”. Here, when the UI control unit 301 determines that the value of the installation mode 1302 is “replacement”, that is, the replacement mode, the process proceeds to step S1011. If the UI control unit 301 determines that the value of the installation mode 1302 is not “replacement”, that is, the value of the installation mode 1302 is “addition”, the process proceeds to S1405. Note that S1011 is the same processing as that of the first embodiment, and therefore description thereof is omitted. In the present embodiment, the case where the value of the installation mode 1302 is “addition” is referred to as the addition mode.
In step S1405, the UI control unit 301 temporarily holds the value of the flag in the installation data storage unit 307 as “false”. Then, it progresses to S1014. It should be noted that steps S1012 to S1017 are the same as those in the first embodiment, and therefore the description thereof is omitted. This is the end of the description of the flowchart.

As described above, by operating the value of the installation mode 1302 on the edit screen 920, the operator can control whether or not to reflect all the setting information of the setting information file on the target device 106. .. As a result, even when the target device 106 is added to the customer environment, it is possible to prevent the setting information unique to the individual from being reflected redundantly with the reference device 105. This is the end of the description of the present embodiment.

[Third Embodiment]
Generally, the initial installation work is performed by the following procedures (1) to (3). These are (1) hardware installation, (2) software installation, and (3) final check.
The hardware installation work of (1) is performed prior to the software installation work of (2). In (1), the setting information of the device may be changed in accordance with the hardware adjustment work, but if the setting information is applied in the work of (2), the adjusted setting information is rewritten. In such a case, the worker must redo the work of (1).

In the present embodiment, an example will be described in which it is possible to prevent the setting information that has been adjusted in advance from being rewritten in the initial installation work that is executed in the above procedure. Hereinafter, the description will be focused on the parts different from the first embodiment.
Further, the hardware to be assembled in the initial installation work may be called an option.

FIG. 15 is a diagram illustrating a setting data management process in the management device according to the present embodiment. This example is an example of a table managed by the installation data management apparatus 101.
FIG. 15A is an example of the setting specification management table 510 according to this embodiment. The difference from the setting specification management table 510 shown in FIG. 5B shown in the first embodiment is that a column 1501 is added. Since columns 511 to 517 are the same as those in the first embodiment, the description thereof will be omitted.
A column 1501 is a related option name, and the name of the option related to each record is stored.

FIG. 15B is an example of the installation data management table 600 in this embodiment. The difference from the installation data management table 600 shown in the first embodiment is that a column 1502 is added. Since the columns 601 to 607 are the same as those in the first embodiment, description thereof will be omitted.
A column 1502 is an option and lists the options installed in the device to which the main installation data is applied.

In the present embodiment, only one combination of options that can be specified for one installation data is included. Therefore, when installing devices with different options in the customer environment, the worker creates a plurality of installation data for each combination of options. Alternatively, a table for managing target devices may be separately prepared, and options may be managed in the table.

FIG. 15C is an example of the all-settings specification management table 650 in this embodiment. The difference from the all setting specification management table 650 shown in the first embodiment is that a column 1503 is added. Since columns 651 to 658 are the same as those in the first embodiment, the description thereof will be omitted. The column 1503 is similar to the column 1501 in FIG.

FIG. 15D is an option table 1540, which includes columns 1541 to 1542. A column 1541 is a model ID, which is the same as the model ID 631 described in the first embodiment.
A column 1542 is an option name and lists the option names that can be added to the model identified by the model ID.

FIG. 16 is a diagram illustrating an edit screen displayed by the management device according to the present embodiment. In particular, FIG. 16A is an example of the edit screen 920 in this embodiment. The difference from the edit screen 920 shown in the first embodiment is that an option selection 1601 for designating a specific device function as an option is added. Since 921 to 931 are the same as those in the first embodiment, description thereof will be omitted.
In FIG. 16A, 1601 is an option selection. The UI control unit 301 uses the values of the model name 922 and the firmware version 923 to determine the model ID from the model identification table 630. Next, option names that match the model ID are extracted from the option table 1540 and listed in the option selection 1601 together with the check boxes.

FIG. 16B is an example of the setting information edit screen 940 in this embodiment. Since 941 to 944 and 946 to 947 are the same as those in the first embodiment, description thereof will be omitted.
In FIG. 16B, 1602 is an input area for cassette margin adjustment. The display state of this setting information is grayed out. Details of the control of the display state of the setting information will be described later.
As in the first embodiment, when the new creation button 905 or the edit button 906 is pressed on the list screen 900, the installation data management device 101 executes the flowchart of FIG.

FIG. 17 is a flowchart illustrating the control method of the management device according to the present embodiment. This example is a procedure for creating installation data in the installation data management device 101. Note that each step is realized by the CPU 201 of the installation data management device 101 executing the stored control program.

In S1701, in addition to the processing in S1001 of the first embodiment, the UI control unit 301 displays the option selection 1601 according to the procedure described in FIG. When the UI control unit 301 determines that the new creation button 905 has been pressed, each check box of the option selection 1601 is displayed in a state determined by the UI control unit 301. Normally, each check box is displayed in a non-selected state.
On the other hand, when the UI control unit 301 determines that the edit button 906 has been pressed, the UI control unit 301 acquires the value of the option (column 1502) of the installation data to be edited from the installation data management table 600 of the present embodiment, Items that match the option selection 1601 are displayed in a selected state.

In S1702, the UI control unit 301 determines whether or not the value of the option selection 1601 is input, in addition to the processing of S1002 of the first embodiment. If the UI control unit 301 determines that the respective values have been input, the process advances to step S1004. If the UI control unit 301 determines that the respective values have not been input, the process advances to step S1703.
In S1703, the UI control unit 301 accepts the input of a value to the option selection 1601 in addition to the process of S1003 of the first embodiment, and returns to S1702. Note that steps S1004 to S1017 are the same as those in the first embodiment, and thus description thereof will be omitted. This is the end of the description of the flowchart.

Next, details of S1105, which is the UI generation processing in this embodiment, will be described with reference to FIG.
FIG. 18 is a flowchart illustrating the control method of the management device according to the present embodiment. This example is a UI generation processing procedure in the installation data management device 101. Note that each step is realized by the CPU 201 of the installation data management device 101 executing the stored control program. Note that steps S1121 to S1122 and steps S1124 to S1129 are the same as the processing in the first embodiment, so description thereof is omitted.

In S1801, in addition to the processing of S1123 of the first embodiment, the UI control unit 301 also creates the setting information edit screen 940 using the value of the option selection 1601 input by the operator on the edit screen 920.

Specifically, the UI control unit 301 identifies the record of the all-settings specification management table 650 in the same procedure as S1123. Next, the UI control unit 301 changes the display state of the setting information when the value of the related option (column 1503) matches the option designated by the option selection 1601. That is, the UI control unit 301 is display-controlled so as not to accept the editing instruction for the option designation on the UI screen shown in FIG.
Although the display state is grayed out in the present embodiment, it may be used for controlling display/non-display. Further, it may be configured such that a column for separately designating a control method is newly provided. This is the end of the description of the flowchart.

After that, as described in S1109 and S1110 of the first embodiment, the setting information file including the selected setting information is created. In the present embodiment, different parts have been described using the first embodiment, but the same description can be made using the second embodiment.

As described above, by controlling the value of the option selection 1601 on the edit screen 920, the display state of each setting item on the setting information edit screen 940 can be controlled.
Further, it becomes possible to control the setting information stored in the setting information file. As a result, even if the worker applies the setting information file to the target device 106 after the hardware adjustment, it is possible to prevent the adjusted setting information from being rewritten.
According to the present embodiment, after applying the setting information file, the operator does not need to check the settings of the target device and manually correct the settings, so that the initial installation work can be made efficient.

The present invention supplies a program that realizes one or more functions of the above-described embodiments to a system or apparatus via a network or a storage medium, and one or more processors in a computer of the system or apparatus read and execute the program. It can also be realized by the processing. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.

101 Installation Data Management Device 102 Content Management Device 105 Reference Device 106 Target Device

The present invention is a system including a management device and an information processing device, wherein the management device creates a setting information file including setting information used for installation processing in the information processing device; A transmission unit for transmitting a setting information file, wherein the information processing apparatus executes the installation process by using the transmitted setting information file, and each setting item of the setting information file is A storage unit that stores a condition for setting to the information processing apparatus, and the information for setting each setting item of the setting information file to the information processing apparatus is the setting information. When included in the file, each setting item of the setting information file is set in the information processing apparatus regardless of the conditions.

Claims (11)

An automatic installation system in which a management device and an information processing device communicate with each other,
The management device is
An editing unit that acquires a setting information file set in another information processing apparatus and edits the setting information file capable of designating specific items set by the information processing apparatus by itself.
Creating means for creating an instruction sheet describing an automatic setting procedure executed by the information processing device from the setting information file edited by the editing means;
Response means for responding to the setting information file specified by the acquisition request received from the information processing device in response to the information processing device executing the instruction sheet,
The information processing device,
Execution means for analyzing the instruction sheet acquired from the management device and executing an automatic installation process,
An acquisition unit that acquires from the management device the setting information file specified by the instruction sheet analyzed by the execution unit;
Detection means for detecting a specific item from the setting information file acquired by the acquisition means,
Setting means for individually setting device information managed by itself to a specific item detected by the detecting means,
Notification means for notifying the management device that the execution means has completed the automatic installation processing,
The automatic installation system, wherein the execution unit executes an automatic installation process according to the setting information file using the device information set by the setting unit. The management device is
A first determining means for determining whether the installation mode to which the instruction is applied is the replacement mode or the addition mode,
When it is determined that the installation mode is the replacement mode, the editing means edits the setting information file so that the information processing apparatus does not include a specific item set by itself, and the installation mode is the addition mode. The automatic installation system according to claim 1, wherein when the determination is made, the editing means edits the setting information file so as to include a specific item which the information processing apparatus sets by itself. Display means for displaying an edit screen for editing the setting information file,
Second judging means for judging whether or not a specific device function is designated as an option on the editing screen,
When it is determined that the specific device function is designated as an option, display control means for controlling the display means so as not to accept an editing instruction for the option designation displayed on the editing screen,
The automatic installation system according to claim 1, further comprising: The automatic installation system according to claim 1, wherein the device information managed by itself includes a device name and a device number. The information processing device,
A storage means for storing a device name and a device number for identifying the information processing device,
The automatic setting system according to claim 1, wherein the setting unit sets the device name and the device number read from the storage unit to a specific item detected by the detection unit. A management device that communicates with an information processing device,
An editing unit that acquires a setting information file set in another information processing apparatus and edits the setting information file capable of designating specific items set by the information processing apparatus by itself.
Creating means for creating an instruction sheet describing an automatic setting procedure executed by the information processing device from the setting information file edited by the editing means;
A management device comprising: a response unit that responds to the setting information file specified by the acquisition request received from the information processing device in response to the information processing device executing the instruction. An information processing device that communicates with a management device,
An executing unit that analyzes an instruction sheet acquired from the management device and executes an automatic installation process;
An acquisition unit that acquires from the management device the setting information file specified by the instruction sheet analyzed by the execution unit;
Detection means for detecting a specific item from the setting information file acquired by the acquisition means,
Setting means for individually setting device information managed by itself to a specific item detected by the detecting means,
Notification means for notifying the management device that the execution means has completed the automatic installation processing,
The information processing apparatus, wherein the execution unit executes an automatic installation process according to the setting information file using the device information set by the setting unit. A method for controlling a management device that communicates with an information processing device, comprising:
An editing step of obtaining a setting information file set in another information processing apparatus, and editing the setting information file capable of designating specific items set by the information processing apparatus itself;
A creating step of creating an instruction sheet describing an automatic setting procedure executed by the information processing device from the setting information file edited by the editing step;
And a response step of responding to the setting information file specified by the acquisition request received from the information processing apparatus in response to the information processing apparatus executing the instruction sheet, the control method of the management apparatus. .. A method for controlling an information processing device communicating with a management device, comprising:
An execution step of analyzing an instruction sheet acquired from the management device and executing an automatic installation process;
An acquisition step of acquiring a setting information file specified by the instruction sheet analyzed in the execution step from the management device;
A detection step of detecting a specific item from the setting information file acquired in the acquisition step,
A setting step of individually setting device information managed by itself to a specific item detected in the detection step,
A notification step of notifying the management device that the execution step has completed the automatic installation processing,
The control method of an information processing apparatus, wherein the execution step executes an automatic installation process according to the setting information file using the device information set in the setting step. A program that causes a computer to execute the control method of the management device according to claim 8. A program for causing a computer to execute the method for controlling the information processing device according to claim 9.

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