JP2015230709A - Management system and method of the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the problem that an appropriate mechanism for preventing errors in application of firmware (FW) due to a service engineer during initial installation of a network apparatus is not provided conventionally.SOLUTION: When a distribution system receives a down load request related to firmware, if it is determined that an apparatus sending the request is not a network apparatus but a client terminal, the distribution system authenticates the client terminal by using authentication information included as a parameter of the request, then, identifies the firmware for the network apparatus corresponding to the network apparatus as an object of distribution of the firmware, and transmits information related to the firmware to the client terminal as a response to the down load request.

Description

  The present invention relates to a system for updating device firmware (hereinafter, “FW”). In particular, the present invention relates to a management system for downloading FW from a distribution system including a distribution server via a network such as the Internet and updating the FW of a network device (multifunction device or the like).

  A multifunction peripheral (hereinafter, “MFP”), which is an example of a network device, includes an embedded application that downloads a FW from a distribution server and updates its own FW. The embedded application transmits a request for FW update confirmation to the distribution server, and receives applicable FW information as a response. Based on this information, the embedded application controls the FW update.

  Among the list of applicable FWs that the distribution server informs the embedded application is the latest version of the FW that is generally available, as well as special FWs that are customized for negotiations. Since it is necessary for the service engineer to select the optimum FW according to the customer and the installation status, a skill for determining which FW should be selected is required. However, the number of experienced service engineers who have many kinds and combinations of FW selection judgment skills varies from country to country and from region to region. Therefore, there is a demand for a system that enables even an inexperienced service engineer to reliably update the MFP FW using a distribution server.

  Therefore, Patent Document 1 as a conventional technique discloses a method for preventing an application error of a service engineer in FW update using a distribution server. According to Patent Document 1, when a service engineer uses a distribution server to update the FW of an MFP, the distribution server generates a list of FWs applicable to the MFP in consideration of the type of FW, and the embedded application Return to. Therefore, it is possible to prevent an application error in which an inexperienced service engineer erroneously applies a normal FW for non-negotiation to an MFP to which a special FW for negotiation is applied.

JP 2014-049084 A

  However, Patent Document 1 does not assume a mechanism for preventing a FW application error by a service engineer at the time of initial installation of a network device such as an MFP. A network device is installed in a customer's office or the like and is used by a user after various settings are made. At the time of initial installation of such a network device, a special FW for negotiations according to a customer may be applied to an MFP having a normal FW shipped from a factory. At that time, it is necessary to select from the list of applicable FWs received from the distribution server which FW for negotiations is to be applied. If the service engineer makes a mistake in selecting the FW, the operation of the MFP at the customer starts with the FW application error occurring.

  Therefore, an object of the present invention is to provide a mechanism for suppressing FW application mistakes during initial installation.

In order to solve the above problems, the present invention is a management system including a distribution system for managing firmware for network devices,
When the distribution system receives a download request related to firmware, the distribution system performs the download request with a determination unit that determines a device that has performed the download request according to authentication identification information included as a parameter of the download request. When the device is determined to be a client terminal, an authentication unit that performs authentication processing using the identification information for authentication included as a parameter of the download request, and if the authentication processing is successful, the device is a firmware distribution target. According to the specific information of the network device, a specifying means for specifying the firmware for the network device corresponding to the specific information,
Response means for transmitting information relating to the identified firmware to the client terminal as a response to the download request;
The client terminal allows the first request means for making a download request for firmware to the distribution system and the information about the firmware included in the response to the download request as a configuration file used for initial installation of the network device. Writing means for writing to portable memory,
The network device includes an application unit that applies firmware according to information related to firmware of the connected configuration file at the time of initial installation.

  ADVANTAGE OF THE INVENTION According to this invention, the mechanism for suppressing the application mistake of FW at the time of initial installation can be provided.

It is a figure which shows the whole structure of the FW update system of this invention. It is a hardware block diagram of the server computer and client terminal of this invention. It is a hardware block diagram of MFP of this invention. It is a structural example of the setting screen of FW structure of the application for initial setting which operate | moves with a client terminal. FIG. 2 is a block diagram showing a software module configuration related to FW update of an MFP. 10 is a flowchart for explaining processing when receiving an FW update instruction by a user operation of an updater of the MFP. 6 is a flowchart for explaining processing of FW initial configuration by an MFP configuration application. 10 is a flowchart for explaining a process when an FW update instruction is received by an updater configuration application of the MFP. It is a block diagram which shows the structure of the software module of a delivery server. It is a schematic diagram which shows the data structure of the FW information holding area | region of a delivery server. It is a schematic diagram which shows the data structure of the device merchandise information holding area | region of a delivery server. It is a flowchart for demonstrating the process at the time of the batch download request reception of a delivery server.

  Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

(Example 1)
[System overall configuration]
FIG. 1 is a schematic diagram showing an overall configuration of a management system for controlling FW update and the like of a network device.

  In FIG. 1, reference numeral 101 denotes a distribution system including a distribution server and a storage service server of FW. Reference numeral 111 denotes a multifunction peripheral (MFP) which is an example of a network device. 121 and 122 are client terminals. 131 to 133 are networks. In the figure, it is assumed that a plurality of MFPs 111 and client terminals 121 and 122 are connected to networks 131 to 134.

  The distribution system 101 includes a server computer as a distribution server. The distribution system 101 performs FW version management for network devices, distribution instructions, and the like. The MFP 111 is a Multifunction Printer. The MFP 111 is installed in a customer's office or the like.

  The client terminals 121 and 122 are, for example, a desktop personal computer or a notebook personal computer, and have an environment for executing a Web browser. A client terminal 121 is a client terminal in the device management department of the manufacturer of the MFP, and is a terminal for registering a new FW in the distribution system 101. A client terminal 122 is a client terminal used by an operator belonging to an MFP sales company, and has an MFP initial installation application built therein.

  The networks 131 to 134 are any one of a LAN such as the Internet, a WAN, a telephone line, a dedicated digital line, an ATM, a frame relay line, a cable TV line, and a data broadcasting wireless line. It is a so-called communication network realized by a combination of these.

[Hardware configuration of server computer and client terminal]
FIG. 2 shows a hardware configuration example of the distribution server and the client terminals 121 and 122 in the distribution system 101 according to the embodiment of the present invention. The server computer and the client terminal of the present embodiment can apply a general computer hardware configuration as shown in FIG.

  FIG. 2 is a hardware configuration diagram of a general computer. The CPU 201 executes programs such as an OS and applications loaded in the memory (ROM 203 and RAM 202). Here, the OS is an abbreviation for an operating system running on a computer. The processing of each flowchart to be described later is realized by a program executed by the CPU 201. That is, the program causes the computer to function as each processing unit that executes each process of the flowchart described below. A RAM 202 is a main memory of the CPU 201 and functions as a work area. The keyboard controller 204 controls key input and point input from a keyboard 208 and a pointing device such as a mouse (not shown). The display controller 205 controls display on the display 209 that is a display device. The disk controller 206 controls data access to a hard disk (HD) 210 that is an external storage device that stores various data. The NIC 207 is a network interface (hereinafter, the interface is abbreviated as “IF”), and executes communication control processing with other devices connected via the networks 131, 133, and 134. The hard disk (HD) 210 stores an OS, applications, service group programs, and the like, and a file system is constructed by the OS, and various files are stored under the management of the OS. 211 is an interconnection bus, and the CPU 201 mediates communication between each block.

[Hardware configuration of MFP]
FIG. 3 is a hardware configuration example of the MFP 111.

  The MFP 111 includes a controller 310, a printer 301, a scanner 302, and an operation unit 303. The controller 310 includes a CPU 311, RAM 312, HDD 313, network IF 314, printer IF 315, scanner IF 316, FAX IF 319, operation unit IF 317, and extended IF 318. The CPU 311 can exchange data with the RAM 312, HDD 313, network IF 314, printer IF 315, scanner IF 316, FAX IF 319, operation unit IF 317, and extended IF 318. In addition, the CPU 311 expands the MFP FW program read from the HDD 313 in the RAM 312 and executes the program stored in the expanded RAM 312.

  The HDD 313 can store an MFP FW program that can be executed by the CPU 311, setting values used in the device, data related to processing requested by the user, and the like. The RAM 312 can expand the FW program of the MFP stored in the HDD 313 and read it from the CPU 311, and can store various data necessary for executing the program.

  The network interface 314 is an interface (hereinafter referred to as IF) for performing network communication with the MFP through the network 132. The fact that the data has been received is transmitted to the CPU 311, and data on the RAM 312 is transmitted to the network 132 based on an instruction from the CPU 311. The printer IF 315 is an IF that transmits image data transmitted from the CPU 311 to the printer 301. Also, the printer status received from the printer 301 is transmitted to the CPU 311. The scanner IF 316 is an IF that transmits an image reading instruction transmitted from the CPU 311 to the scanner 302. In addition, the CPU 311 is notified of the image data received from the scanner 302. The FAXIF 319 is an IF that transmits the image data transmitted from the CPU 311 to the FAX 304 together with information on a FAX transmission destination such as a telephone number. Also, the image data received from the FAX 304 is transmitted to the CPU 311 together with information of the FAX transmission source such as a telephone number. The operation unit IF 317 is an IF that transmits a user instruction input from the operation unit 303 to the CPU 311. In addition, screen information for the user to operate is transmitted to the operation unit 303.

  The printer 301 prints the image data received from the printer IF 315 on paper. Also, the printer status is transmitted to the printer IF 315. In accordance with the image reading instruction received from the scanner IF 316, the scanner 302 reads the paper placed on the scanner and converts it into digital data, which is transmitted to the scanner IF 316. In addition, the scanner status is transmitted to the scanner IF 316. The FAX 304 is connected to a telephone communication network or a FAX communication network (not shown). The FAX 304 transmits the image data received from the FAXIF 319 by FAX based on the received FAX transmission destination information. Also, the image data received by FAX is transmitted to the FAXIF 319 together with the information of the transmission source. Further, the FAX state is transmitted to the FAXIF 319. The operation unit 303 allows the user to operate the MFP 111. For example, it includes a liquid crystal screen having a touch panel, provides an operation screen to the user, and accepts an operation from the user. The extended IF 318 is an IF that enables an external device to be connected to the image forming apparatus 101. For example, a USB (Universal Serial Bus) type IF is provided, and a portable external storage device such as a USB memory can be connected to read and write data.

[Initial setting application FW configuration setting user interface]
FIG. 4 is an example of a user interface (hereinafter referred to as UI) for setting the FW configuration of the initial setting application that runs on the client terminal 122 of the present invention.

  The initial setting application is an application that outputs various parameters necessary for the initial installation of the MFP to a configuration file for initial installation based on setting values designated by the operator. The output configuration file for initial installation is stored in an external storage device such as a USB memory. The initial setting application is loaded into the RAM 202 and executed by the CPU 201. The operator of the initial setting application is a service engineer who performs initial setting of the MFP, or a back office member who specializes in initial setting. The operator inputs setting parameters according to the customer of the installation destination through the UI of the initial setting application. The setting parameters are described in a parameter sheet prepared in advance, and the operator inputs based on the description. Pre-creation of parameter sheets tailored to the customer of the installation destination is carefully performed by the person in charge of the preparation so as not to cause an installation error.

  The FW configuration setting UI is a UI for inputting setting parameters for the FW configuration. In the FW configuration setting UI 401, the operator designates the FW to be set in the MFP, and selects whether to download the FW in advance or at the time of installation. In order to specify the FW to be set in the MFP, the operator needs to have an account on the distribution server.

  Reference numerals 412 to 415 denote UIs for specifying FW groups registered in the distribution server. The FW group is a set of FW components that constitute the FW of the MFP. One content file exists for each FW component. A unique FW group is registered in the distribution server for each MFP model and FW version. By specifying either the device product name or device serial number and specifying the firmware group, the FW group downloaded from the distribution server can be uniquely identified. In addition, by designating the sales region code, it is possible to determine whether or not the corresponding FW group is a FW group open to the sales region and can be downloaded.

  Reference numeral 411 denotes a group box for designating an account for logging in to the distribution server. The group box 411 has an edit box 421 for inputting a login ID, an edit box 422 for inputting a login password, and a login button 423. When the login button 423 is pressed, the initial setting application sets the ID and password input in the login ID edit box 421 and the login password edit box 422 as request parameters, and transmits an authentication request to the distribution system 101. To do. The distribution system 101 authenticates the user account based on the ID and password set in the request parameters of the received authentication request. If the authentication is successful, an authentication ID and a sales region code assigned to the corresponding user account are returned as a response. The initial setting application holds the authentication ID and the sales region code received as a response from the distribution system 101 and displays the value of the received sales region code in the 412 sales region code text box.

  Reference numeral 412 denotes a text box that displays a sales region code received as a response from the distribution system 101. The sales region code received as a response from the distribution system 101 is a sales region code assigned to the user account. The sales region code assigned to the user account is the region code of the sales region to which the user account belongs. The FW group that is open to public differs for each sales region.

  Reference numerals 413 and 414 denote radio buttons for designating either a device product name or a device serial number. When the device product name radio button 413 is selected, the character string of the device product name input in the edit box 424 is used for specifying the FW group in the distribution system 101. The device product name is directly input into the edit box 424 or selected from the result of searching in the device product name search box that is displayed separately when the search button 426 is pressed. The search in the device product name search box is executed by the distribution system 101 based on the user account information. When the device application name search request is transmitted to the distribution system 101, the initial setting application transmits an authentication ID together. Based on the authentication ID, the distribution system 101 returns a list of device product names that can be referred to by the corresponding user account to the initial setting application as a device product name search response. The device product name is registered in the distribution system 101 in association with the device serial number as device product registration separately from the FW group.

  When the device serial number radio button 414 is selected, the character string of the device serial number input in the edit box 425 is used for specifying the FW group in the distribution system 101. The device serial number is directly entered in the edit box 425.

  Reference numeral 415 denotes an edit box for designating the version of the FW group. The version of the FW group is directly input or selected from the result of searching in the FW group version search box that is displayed separately when the search button 427 is pressed. The search in the FW group version search box is executed by the FW distribution system 101 based on the user account information. The distribution system 101 returns, as a response, a list of FW group versions that can be downloaded by the user account assigned to the authentication ID received together with the FW group version search request from the initial setting application.

  Reference numeral 416 denotes a radio button for selecting the FW download timing. As the download timing of FW, either pre-download or download at installation can be selected. In advance download, an FW group is downloaded from the distribution system 101 using an initial setting application. In the installation download, the FW group is downloaded from the distribution system 101 by the MFP 111 when the MFP 111 is initially installed in the customer's office environment or the like.

  When the pre-download 428 is selected, when the next button 432 is pressed, the initial setting application sets the value specified in 413 to 415 and the authentication ID in the request parameter, and the distribution system 101 A batch download request for the FW group and the FW management file is made. Processing in the distribution system 101 at this time will be described later with reference to FIG. The FW group file downloaded from the distribution system 101 is a file obtained by archiving a file of each FW component constituting the FW group in a ZIP format or the like. The FW management file that is collectively downloaded is a file that describes information of each FW component that constitutes the FW group. This file is described by a FW registrant in accordance with a prescribed format at the time of FW registration and is registered together with the FW group. Furthermore, FW component information is information unique to each FW component, such as type name, version, and component file name. The type name of the FW component is an abbreviation that identifies the FW component, and is unique information within the FW group.

  On the other hand, when the installation download 429 is selected, when the next button 432 is pressed, the initial setting application sets the value specified in 413 to 415 and the authentication ID as request parameters, and the distribution system. A request to confirm the existence of the FW group is made to 101. In the distribution system 101 that has received the request for confirming the existence of the FW group, the FW group corresponding to the value specified in 413 to 415 exists, and the corresponding FW group is linked to the user account of the corresponding authentication ID. Judge whether it is possible to download from the region of the sales region code. The determination result is returned as an OK / NG response.

  Reference numeral 431 denotes a return button, which transits to an initial installation setting screen before the FW configuration setting UI of the initial setting application. For example, a transition is made to an updater setting UI for setting an updater schedule of the MFP.

Reference numeral 432 denotes a next button. When pre-download 428 is selected, the FW group archive file and FW management file received as a response of the distribution system 101 are written to the USB memory. Also, the FW group archive file and the path on the USB memory of the FW management file are written in the configuration file for initial installation. For example, the initial setting application writes the information of the following FW initial configuration section in the configuration file.
[FW_INITIAL_CONFIGURATION]
FW_AUTO_CONFIGURATION = YES
FW_PRIOR_DOWNLOAD = YES
FW_ARCHIVE_FILE = {path of archive file of FW group on USB memory}
FW_MANAGEMENT_FILE = {path of FW management file on USB memory}
On the other hand, when the installation download 429 is selected, if the result of the FW group existence confirmation request received from the distribution system 101 is OK, the version information of the FW group set in 415 is written to the configuration file. . For example, the initial setting application writes the information of the following FW initial configuration section in the configuration file.
[FW_INITIAL_CONFIGURATION]
FW_AUTO_CONFIGURATION = YES
FW_PRIOR_DOWNLOAD = NO
FW_GROUP_VERSION = 2.0
If the result of the request to confirm the presence of the FW group is NG, the initial setting application displays an error and stays on the screen of the FW configuration setting UI 401.

Reference numeral 433 denotes a skip button, which proceeds to the next initial installation setting screen of the initial setting application without setting the FW configuration with the FW configuration setting UI. For example, the process transits to an embedded application setting U for setting an embedded application to be enabled in the MFP. When skipping the FW configuration setting, the initial setting application writes the following FW initial configuration section information in the configuration file.
[FW_INITIAL_CONFIGURATION]
FW_AUTO_CONFIGURATION = NO
[FW update software configuration of MFP]
FIG. 5 is a block diagram showing a software module configuration related to FW update of the MFP 111 of the present invention.

  In FIG. 5, 501 is an updater, and 551 is a configuration application. The updater 501 is a software module that updates the FW of the MFP 111. The configuration application 551 is a software module that updates the FW of the MFP 111 based on the configuration file.

  Reference numeral 591 denotes a device information holding area. A device information holding area 591 holds basic device information of the MFP 111. The basic device information is device-specific information such as a device serial number and a device region code. The device region code is a region code that is uniquely set for each sales region of the MFP 111. The same identifier as the sales region code of the sales region to which the user account of the distribution system 101 belongs, such as “JP” and “US” is used. Reference numeral 592 denotes a temporary work area. This is an area used by each module of the MFP 111 such as the updater 501 and the configuration application 551 as a temporary work area. The device information holding area 591 and the temporary work area 592 are areas for storing common data of the MFP 111 secured on the hard disk 313 of the MFP 111. The device information holding area 591 is constructed on the hard disk 313 as a DB table, and the temporary work area 592 is constructed on the hard disk 313 as a file system directory.

  In the updater 501, 502 is a main control unit. The main control unit 502 is a central processing unit in the updater of the MFP 111. Various processes related to FW update are executed in cooperation with other updater-related software modules shown in FIG.

  Reference numeral 503 denotes a communication unit. The communication unit 503 performs HTTP communication with the distribution system 101 via the NIC 207. Reference numeral 504 denotes a UI unit. An FW update UI is displayed on the operation unit 303, and a FW update request from a service engineer or an end user is received via the operation unit IF 317. Alternatively, it receives a request for setting a schedule to periodically execute FW automatic update. Reference numeral 511 denotes an update unit that executes FW update for each module of the MFP 111. Reference numeral 513 denotes an IF unit. An update unit 511 controlled by the main control unit 502 performs FW update of each module of the MFP 111 via the IF unit 513. Further, the IF unit 513 receives a request for FW update from a configuration application 551 described later, and transmits the request to the main control unit 502. Further, access is made to common data areas of the MFP 111 such as the device information holding area 591 and the temporary work area 592.

  Reference numeral 521 denotes a current FW information holding area. The configuration information of the FW component of the MFP 111 is collectively held as information on the current FW group. The main control unit 502 acquires the configuration information of the FW component of the MFP 111 and collectively stores the information as information on the current FW group. The main control unit 502 also updates the information in the current FW information holding area 521 when the update unit 511 updates the FW to a new FW. That is, after the main control unit 502 updates to a new FW by the updating unit 511, the latest configuration information of the FW component is re-acquired from each module of the MFP 111 via the IF unit 513, and based on the information, the current FW The information in the information holding area 521 is reset.

  The configuration information of each FW component stored in the current FW information holding area 521 includes the type name, version, and component file name of the FW component. This is similar to a value stored in the FW component information table 802 of the distribution system 101 described later. That is, the current FW information holding area 521 of the MFP 111 includes a table similar to the FW component information table 802 of the distribution system 101.

  Reference numeral 522 denotes an updated FW information holding area. The main control unit 502 temporarily holds the FW component information of the updated FW received from the distribution system 101 via the communication unit 503. Both the current FW information holding area 521 and the updated FW information holding area 522 are constructed on the hard disk 313 as a DB table.

  Next, the configuration application 551 will be described. In the configuration application 551, 551 is a main control unit. The main control unit 552 is a central processing unit in the configuration application of the MFP 111. Various setting processes including FW update are executed in cooperation with other initial configuration related software modules shown in FIG.

  Reference numeral 553 denotes a communication unit. The communication unit 553 performs HTTP communication with the distribution system 101 via the NIC 207. Reference numeral 554 denotes a UI unit. A UI for initial configuration is displayed on the operation unit 303, and a request from a service engineer is received via the operation unit IF 317. In addition, the progress of the initial configuration is displayed on the UI.

  Reference numeral 555 denotes a configuration file reading unit. The configuration file stored in the USB memory connected to the extended IF 318 is read, and the data is transmitted to the main control unit 552. Reference numeral 561 denotes an initial configuration unit that interprets the data of the configuration file and executes the initial configuration of each module of the MFP 111 based on the interpreted setting value. An initial configuration unit 561 controlled by the main control unit 552 performs an initial configuration of each module of the MFP 111 via the IF unit 563 based on the setting value of the configuration file. When the initial configuration of the FW is performed, the IF unit 513 of the updater 501 is called via the IF unit 563, and the main control unit 502 is requested to update the FW. Also, the update result of the FW is received from the updater 501. Furthermore, access is made to common data areas of the MFP 111 such as the device information holding area 591 and the temporary work area 592.

Reference numeral 571 denotes a setting result holding area. The execution result of the initial configuration is saved. When the initial configuration of each module of the MFP 111 is performed under the control of the main control unit 552, the initial configuration unit 561 stores the result in the setting result holding area 571. The initial setting success, failure, setting contents, error contents, etc. are saved.
The setting result holding area 571 is constructed on the hard disk 313 as a DB table.

[Update processing of FW according to operation to updater of MFP]
FIG. 6 is a flowchart showing an operation when receiving an FW update instruction by a user operation by the updater 501 of the MFP 111. This process indicates a FW update process by the updater 501 that is executed by an operation of an end user or a service engineer performed when the MFP is operated in a customer environment after the initial installation of the MFP.

  This process is a process realized by executing the updater 501 that is an application program by the CPU 311. Here, the updater 501 will be described as the main subject of processing.

The FW update by the updater 501 of the MFP 111 of the present invention is performed in the following three steps.
1. 1. Confirmation of FW applicable to distribution server 2. Download FW from distribution server Download FW Application Hereinafter, the FW update steps 1 to 3 will be described in order.

  FIG. 6A is a flowchart showing an operation according to Step 1 of FW update.

  In step S <b> 601, when the main control unit 502 of the updater 501 of the MFP 111 detects a FW update request by a user operation via the UI unit 504, the following is performed.

  In step S <b> 602, the main control unit 502 identifies the operator category that has requested the FW update. The identification of the operator classification is to identify whether the user who performed the operation is an end user or a service engineer. The operator classification is determined based on whether the UI displayed on the operation unit 303 by the UI unit 504 is a UI for an end user or a UI for a service engineer. The main control unit 502 determines that the operator is an end user when a FW update request is made using the UI for the end user. Similarly, when a FW update request is made on the service engineer UI, the operator determines that the service engineer is used.

  In step S <b> 603, the main control unit 502 acquires the device serial number information of the MFP 111 from the device information holding area 591 via the IF unit 513. In step S <b> 604, the main control unit 502 acquires current FW group information from the current FW information holding area 521. The current configuration information of the FW component of the MFP 111 is acquired as the current FW group information. The configuration information of the FW component is information on the type name, version, and component file name.

  In step S <b> 605, the main control unit 502 transmits an applicable FW request to the distribution system 101 via the communication unit 503. As request parameters of an applicable FW request, operator classification, device serial number, and information on the current FW group are set. In step S606, the main control unit 502 waits for a response from the distribution system 101 to the applicable FW request. When the response of the distribution system 101 to the applicable FW request is received in S606, the main control unit 502 proceeds to the process of S607.

  In step S <b> 607, the main control unit 502 confirms whether or not one or more applicable FW group version information exists in the response parameter of the distribution system 101. If there is one or more applicable FW group version information in the response parameter of the distribution system 101, the main control unit 502 proceeds to the process of S608. In step S <b> 608, the main control unit 502 displays, on the operation unit 303, the UI that allows the user to select the FW group version to be applied from the applicable FW group version received from the distribution system 101 via the UI unit 504.

  On the other hand, if there is no applicable FW group version information in the response parameter of the distribution system 101 in S607, the main control unit 502 proceeds to the process of S609. In step S <b> 609, the main control unit 502 generates an error message based on the error code included in the response parameter of the distribution system 101 and displays an error message on the operation unit 303 via the UI unit 504.

  FIG. 6B is a flowchart showing the operation according to steps 2 and 3 of the FW update.

  The main control unit 502 of the updater 501 of the MFP 111 selects an FW group version by a user operation in the applicable FW group version selection UI displayed on the operation unit 303 in the flowchart S608 of FIG. 6A. When you do this:

  In S611 of FIG. 6B, the main control unit 502 detects an operation for selecting an applicable FW group version via the UI unit 504.

  In S612, the main control unit 502 makes a FW information acquisition request for the FW group to the distribution system 101 based on the selected FW group version. The device serial number and the FW group version are set in the request parameters of the FW information acquisition request. In step S <b> 613, the main control unit 502 waits for a response to the FW information acquisition request from the distribution system 101. When receiving a response from the distribution system 101 in S613, the main control unit 502 proceeds to S614. In step S <b> 614, the main control unit 502 stores the FW component information of the FW group received as a response to the FW information acquisition request and the download information of each FW component in the updated FW information holding area 522. As described above, the FW component information includes the type name, version, and component file name. The FW component download information is URL information for downloading the FW component file. In step S615, the main control unit 502 matches the information on the FW component stored in the updated FW information holding area 522 with the information on the current FW group stored in the current FW information holding area 521, and determines the current FW to be updated. Specify the FW component.

The FW component to be updated is specified by the main control unit 502 as follows.
1. It is confirmed whether or not a type name that matches the type name of the FW component stored in the updated FW information holding area 522 currently exists in the FW information holding area 521.
2. If a matching type name currently exists in the FW information holding area 521, the version information of the corresponding FW component is matched.
3. When the version of the FW component stored in the updated FW information holding area 522 is higher than the version of the FW component currently existing in the FW information holding area 521, the corresponding type name is determined as the FW component to be updated.
4). Regarding the information of all FW components stored in the updated FW information holding area 522, the above 1 to 3 are performed, and the type name of the FW component of the current FW to be updated is specified.

  In step S <b> 616, the main control unit 502 transmits a content download request to the distribution system 101 regarding the FW component specified as the update target. The FW download request by the main control unit 502 is made according to the download information of each FW component stored in the updated FW information holding area 522. In step S617, the main control unit 502 waits for a response to the FW download request from the distribution system 101. When the response from the distribution system 101 is received in S617, the main control unit 502 proceeds to S618. In step S618, the main control unit 502 converts the content of each FW component received as a response to the FW download request into a file, and stores the file in the temporary work area 592.

  In step S <b> 619, the main control unit 502 performs FW update processing for each module of the MFP 111. The main control unit 502 performs an FW update process for each module of the MFP 111 by instructing the update unit 511 to update the FW. The main control unit 502 displays a list of FW component type names to be updated in the update unit 511, information on each FW component stored in the update FW information holding area 522, and information on each FW component stored in the temporary work area 592. Pass the file information as a parameter for the update instruction.

Upon receiving the FW update instruction, the update unit 511 performs FW update of each module of the MFP 111 as follows.
1. Information on the file name of the type name of the FW component to be updated is acquired from the update FW information holding area 522.
2. A file with the acquired file name is acquired from the temporary work area 592.
3. The FW component of each module of the MFP 111 is replaced with the download file acquired from the temporary work area 592.
4). The main control unit 502 is notified in units of individual FW components that the update of the FW by the file replacement of the FW component has ended normally or ended in error.
5). Steps 1 to 4 described above are performed for all the type names on the list of type names passed as update instruction parameters.

  In step S620, the main control unit 502 transmits the success / failure of the FW update processing result and the information of the updated current FW group to the distribution system 101 as the FW update result notification request together with the device serial number information. Note that if even one file replacement of the FW component of the MFP 111 by the update unit 511 fails, the main control unit 502 considers that the result of the FW update process has failed. In step S621, the main control unit 502 waits for a response to the FW update result notification request from the distribution system 101, and ends the process.

  The above is the FW update process by the updater 501 executed by the operation of the end user or service engineer performed when the MFP is operated in the customer environment after the initial installation of the MFP.

[Processing at the time of initial configuration of MFP FW]
Next, FW update processing by the configuration application 551 when the MFP is initially installed will be described.

  FIG. 7 is a flowchart showing the operation of the initial configuration of the FW by the configuration application 551 of the MFP 111. The configuration application 551 is executed and activated by the CPU 311 when a USB memory is connected to the expansion I / F 318.

  Here, FIG. 7A will be described with the activated configuration application 551 (the main control unit 552) as the subject of processing.

  In step S <b> 701, the main control unit 552 of the configuration application 551 reads the file information of the connected USB memory via the configuration file reading unit 555. Then, it is confirmed whether or not a configuration file for initial installation is stored in the USB memory. If the main control unit 552 determines in step S702 that the configuration file is not stored in the USB memory, the process ends. Similarly, in S702, when the main control unit 552 determines that the configuration file is stored in the USB memory, the process proceeds to S703. In step S <b> 703, the main control unit 552 reads the configuration file data from the USB memory via the configuration file reading unit 555.

  In step S <b> 704, the main control unit 552 sequentially passes the read configuration file data to the initial configuration unit 561, and performs the initial configuration of each module of the MFP 111 based on the setting value of the configuration file.

Specifically, the main control unit 552 performs the initial configuration of each module of the MFP 111 as follows.
(7A-1) The main control unit 552 sequentially transfers the read configuration file data to the initial configuration unit 561.
(7A-2) The initial configuration unit 561 interprets the set value based on the data of the configuration file passed from the main control unit 552.
(7A-3) The initial configuration unit 561 performs the initial configuration of each module of the MFP 111 via the IF unit 563 of the configuration application 551 based on the set value thus interpreted.
(7A-4) The initial configuration unit 561 sequentially stores the execution results of the initial configuration of each module of the MFP 111 performed via the IF unit 563 of the configuration application 551 in the setting result holding area 571.

  After completing the initial configuration of each module of the MFP 111 based on the setting value of the configuration file, the main control unit 552 proceeds to S705. In step S <b> 705, the main control unit 552 acquires the execution result of the initial configuration of each module of the MFP 111 from the setting result holding area 571, writes it as a log file to the USB memory via the extended IF 318, and ends the processing.

  FIG. 7B is a flowchart showing the FW update operation by the configuration application 551 of the MFP 111 of the present invention.

  Specifically, this is a flowchart illustrating an operation when the initial configuration unit 561 performs the initial configuration of the FW of the MFP 111 based on the FW configuration setting data in the configuration file in (7A-3) of S704. More specifically, in the example of the configuration file described above, this is a flowchart when the initial configuration of the MFP 111 is performed by interpreting the data of the FW initial configuration section ([FW_INITIAL_CONFIGURATION]).

In step S751, the initial configuration unit 561 branches the process based on the setting value of the FW automatic configuration in the configuration file. Specifically, in S751, when there is a setting indicating execution of FW automatic configuration in the FW initial configuration section, the process proceeds to S752. In the above configuration file example, if the following entry is in the FW initial configuration section, the process proceeds to S752.
・ FW_AUTO_CONFIGURATION = YES
Similarly, in S751, if there is a setting indicating that FW automatic configuration is not executed in the FW initial configuration section, the process proceeds to S771. In the above configuration file example, if the following entry is in the FW initial configuration section, the process proceeds to S771.
・ FW_AUTO_CONFIGURATION = NO
In step S752, the initial configuration unit 561 further branches the processing based on the setting value of the FW pre-download of the configuration file. Specifically, in S752, if there is a setting indicating that FW pre-downloading has been executed in the FW initial configuration section, the process proceeds to S753. In the above configuration file example, if the following entry is in the FW initial configuration section, the process proceeds to S753.
・ FW_PRIOR_DOWNLOAD = YES
Similarly, in S752, if there is an installation download setting in the FW initial configuration section, the initial configuration unit 561 proceeds to S761. In the above configuration file example, if the following entry is in the FW initial configuration section, the process proceeds to S761.
・ FW_PRIOR_DOWNLOAD = NO
In S753, the initial configuration unit 561 reads the FW group archive file and the path of the FW management file on the USB memory from the FW initial configuration section. In the above configuration file example, the corresponding value is read from the following entry in the FW initial configuration section.
FW_ARCHIVE_FILE = {path of archive file of FW group on USB memory}
FW_MANAGEMENT_FILE = {FW management file path on USB memory}
In step S754, the initial configuration unit 561 reads the FW group archive file from the USB memory via the configuration file reading unit 555 based on the path information of the FW group archive file read from the FW initial configuration section. In step S755, the initial configuration unit 561 expands the archive data of the FW group read from the USB memory and creates a file for each content of each FW component. The initial configuration unit 561 stores the filed FW component in the temporary work area 592 via the IF unit 563. In step S756, the initial configuration unit 561 reads the FW management file from the USB memory based on the path information of the FW management file read from the FW initial configuration section, and copies it to the temporary work area 592.

  In step S757, the initial configuration unit 561 calls the IF unit 513 of the updater 501, specifies the path information of the FW management file stored in the temporary work area 592 as a parameter, and requests FW update.

  In step S758, the initial configuration unit 561 waits for notification of the FW update result from the updater 501. When the initial configuration unit 561 receives a notification of the FW update result from the updater 501 via the IF unit 563 of the configuration application 551, the initial configuration unit 561 ends the process of the flowchart of the initial configuration of the FW of the MFP 111. After the processing is completed, the initial configuration unit 561 executes (7A-4). That is, the execution result of the FW initial configuration is stored in the setting result holding area 571.

In step S761, the initial configuration unit 561 reads the version of the FW group from the FW initial configuration section. In the above configuration file example, the corresponding value is read from the following entry in the FW initial configuration section.
・ FW_GROUP_VERSION = 2.0
In step S <b> 762, the initial configuration unit 561 acquires the device serial number and the device region code value from the device information holding area 591 of the MFP 111 via the IF unit. In step S763, the initial configuration unit 561 makes a batch download request for the FW group and the FW management file to the distribution system 101. The request parameter is set by setting the version of the FW group read from the configuration file, the device serial number of the MFP acquired from the device information holding area 591, and the value of the device region code of the MFP.

  In step S764, the initial configuration unit 561 waits for a response from the distribution system 101 to the FW batch download request. Upon receiving a response to the FW batch download request from the distribution system 101, the initial configuration unit 561 proceeds to S765. In step S <b> 765, the initial configuration unit 561 stores the FW group archive file and the FW management file received as a response to the FW batch download request from the distribution system 101 in the temporary work area 592. In step S <b> 766, the initial configuration unit 561 expands the archive data for the FW group archive data, converts the archive data into a file for each content of the FW component, and stores the file in the temporary work area 592. After executing S766, the initial configuration unit 561 proceeds to the process of S757.

  In step S <b> 771, the initial configuration unit 561 displays an inquiry as to whether or not to perform FW update by MFP updater on the operation unit 303 of the MFP 111 via the UI unit 554. In step S <b> 772, the initial configuration unit 561 waits for input from the operation unit 303 of the MFP 111. In S772, when the initial configuration unit 561 receives an input from the operation unit 303 via the UI unit 554, if the input result is an instruction to update the FW by the updater of the MFP, the process proceeds to S773. On the other hand, in S772, if the input result on the operation unit 303 is an instruction not to perform FW update by the updater of the MFP, the initial configuration unit 561 ends the process of the flowchart of the initial configuration of the FW of the MFP 111. After the processing is completed, the initial configuration unit 561 executes (7A-4).

  In step S773, the initial configuration unit 561 calls the IF unit 513 of the updater 501, and requests FW update without specifying parameters in the FW management file. After executing S773, the initial configuration unit 561 proceeds to the process of S758.

  The above is a flowchart showing the FW update operation by the configuration application 551 of the MFP 111 of the present invention in FIG.

[Processing of updater when receiving FW update instruction by configuration application]
Next, FW update processing by the updater 501 in response to a call from the configuration application 551 in the MFP 111 will be described.

  FIG. 8 is a flowchart showing an operation when the updater 501 of the MFP 111 receives a request for FW update via the IF unit 513. When the main control unit 502 of the updater 501 receives a FW update request via the IF unit 513, the main control unit 502 performs the following processing.

  In step S <b> 801, the main control unit 502 determines whether the FW management file path information is specified in the FW update request parameter received via the IF unit 513. If the FW management file path information is specified in the FW update request parameter in S801, the main control unit 502 advances to S802.

  In step S <b> 802, the main control unit 502 reads the FW management file from the temporary work area 592 based on the FW management file path information specified by the FW update request parameter. In step S <b> 803, the main control unit 502 updates the FW of each module of the MFP 111 without version conditions based on the information of the read FW management file. The main control unit 502 updates the FW of each module of the MFP 111 without a version condition by instructing the update unit 511 to update the FW without the version condition. The main control unit 502 passes the read FW management file information to the update unit 511 as a parameter for FW update processing without version conditions.

The update unit 511 that has received the FW update instruction without the version condition together with the information of the FW management file updates the FW of each module of the MFP 111 as follows.
1. The current configuration information of the FW component of the MFP 111 is acquired from the current FW information holding area 521.
2. The FW component of the current FW having the type name that matches the type name of the FW component information in the FW management file is listed as an update target.
3. Information on the file name of the FW component listed as the update target is acquired from the FW management file.
4). The file entity of the acquired file name is acquired from the temporary work area 592. The substance of the file is stored in the temporary work area 592 by the process of flowchart S755 or S766 by the configuration application 551 in FIG.
5). The FW component of each module of the MFP 111 is replaced with the file acquired from the temporary work area 592. Note that when the FW component file is replaced, no comparison is made regarding the current version information of the FW component.
6). The main control unit 502 is notified in units of individual FW components that the update of the FW by the file replacement of the FW component has ended normally or ended in error.

  After execution of S803, this process ends.

  On the other hand, if the path information of the FW management file is not specified in the request parameter for FW update in S801, the main control unit 502 starts the process from S603 in FIG.

  As described above, when the FW initial configuration section has a setting indicating that the FW automatic configuration is performed, the FW update of the updater 501 called by the configuration application 551 is performed by a very simple process. That is, frequent requests and responses with the distribution server are not required, and there is no need for troublesome UI operations on the operation unit 303 by a service engineer or the like. Therefore, even if the service engineer's competence is low, FW can be appropriately updated at the time of initial installation. In addition, it is possible to suppress FW application mistakes during initial installation by a service engineer.

  In addition, even at the time of initial installation, the FW can be appropriately selected and applied from the list of applicable FW received from the distribution server. For this reason, considering the competence to the service engineer, it is possible to perform the initial installation work after omitting the advance setting indicating that the FW automatic configuration is executed.

[Software configuration of distribution system]
FIG. 9 is a block diagram showing the configuration of software modules of the distribution system 101 of the present invention.

  In FIG. 9, a main control unit 902 is a module on the distribution server of the distribution system 101 and is a central processing unit in the distribution system 101. Various processes related to FW registration and FW distribution are executed in cooperation with other software modules shown in FIG. Each holding area shown in FIG. 9 is provided by either a distribution server in the distribution system 101 or another storage server.

  For example, the following requests from the client terminal 122 and the MFP 111 are processed.

(1) Request from the application for initial setting of the client terminal 122, authentication request, device product name search request, FW group version search request, FW group and FW management file batch download request, FW group existence confirmation Request (2) Request from the updater 501 of the MFP 111, Applicable FW request, FW information acquisition request, FW download request, FW update result notification request (3) Request from the configuration application 551 of the MFP 111 FW group And FW management file batch download request The communication unit 903 via the NIC 207, the MFP device 111, the Web browser of the client terminal 121, the Beauty, performs communication by initial configuration application and the HTTP client terminal 122. A client UI generation unit 904 generates HTML data for UI display in response to a request from the Web browser of the client terminal 121. FW registration UI etc. are generated. When the main control unit 902 receives a request from the Web browser of the client terminal 121 via the communication unit 903, the main control unit 902 generates a UI using the client UI generation unit 904 according to the content of the request.

  Reference numeral 932 denotes an FW information holding area. The FW information holding area 932 holds FW type, FW group name, FW group version, device product name, update target version, and FW public area code information regarding the FW group registered by the FW registration UI.

  When the main control unit 902 receives a search request for the FW group name, the FW group version, the device product name, and the update target version from the Web browser of the client terminal 121 via the communication unit 903, the main control unit 902 holds the corresponding information as FW information. Search from area 932 and return to client terminal 121.

  When the main control unit 902 receives an FW registration request from the Web browser of the client terminal 121 via the communication unit 903, the FW type, FW group name, FW group version, and device product name set in the request parameter The update target version and FW public area code information are stored in the FW information holding area 932. Furthermore, the main control unit 902 decomposes the content of the FW management file included in the request parameter of the FW registration request, and stores the content in the FW information holding area 932 as FW component information.

  Reference numeral 934 denotes an FW entity holding area. In the FW entity holding area 934, the content of the FW component uploaded from the FW registration UI is held in units of files. When the main control unit 902 receives an FW registration request from the Web browser of the client terminal 121 via the communication unit 903, the content of each FW component included in the request parameter is filed and stored in the FW entity holding area 934. To do. When the FW component included in the request parameter is archive file data, the main control unit 902 expands the archive data, converts the archive data into the contents of each FW component, and stores the contents in the FW entity holding area 934.

  Reference numeral 931 denotes a device product information holding area. The device product information holding area 931 holds a device product name, a range of device serial numbers corresponding to the device product name (hereinafter referred to as “machine number data band”), and a device product type. When receiving the device product information registration request from the Web browser of the client terminal 121 via the communication unit 903, the main control unit 902 receives the device product type, device product information name, and model number data band set in the request parameter. Information is stored in the device product information holding area 931.

  Reference numeral 935 denotes an FW update result holding area. In the FW update result holding area 935, success / failure of the FW update processing result in the MFP 111 and information on the current FW group after the update are held in association with the device serial number. Information received by the FW update result notification request from the updater 501 of the MFP 111 is held.

  Reference numeral 933 denotes an account information holding area. In the account information holding area 933, information on user accounts that can use the distribution server is registered. The user account information is information on a user ID, a password, and a sales region code of a sales region to which the user belongs. When receiving the authentication request, the main control unit 902 authenticates the user account based on the information in the account information holding area 933. Reference numeral 936 denotes an authentication ID holding area. The authentication ID holding area 936 holds an authentication ID issued by the main control unit 902 when the user account is successfully authenticated. Information of a user account that has been successfully authenticated is associated with and stored in the authentication ID. The authentication ID is held by the main control unit 902 as information valid for a certain period.

  The device product information holding area 931, the FW information holding area 932, the account information holding area 933, the FW entity holding area 934, the FW update result holding area 935, and the authentication ID holding area 936 are secured on the hard disk 210 of the distribution system 101. This is an area for storing permanent data, and is managed by the main control unit 902. The device product information holding area 931, the FW information holding area 932, the account information holding area 933, the FW update result holding area 935, and the authentication ID holding area 936 are constructed as a DB table, and the FW entity holding area 934 is on the file system. Constructed as a directory.

[Data structure of distribution server FW information holding area]
FIG. 10 is a schematic diagram illustrating a data structure of the FW information holding area 932 of the distribution system 101. The FW information holding area 932 is composed of two tables as shown in FIG. Reference numeral 1001 in FIG. 10A denotes an FW group information table. Reference numeral 1002 in FIG. 10B denotes an FW component information table.

  In FIG. 10A, the FW group information table 1001 mainly holds information of FW type, FW group name, FW group version, device product name, and update target version.

  In the FW group information table 1001, 1011 is a column for storing the value of the FW group ID. The FW group ID stored in the FW group ID column 1011 is a value uniquely assigned to each FW group when the main control unit 902 registers a new FW group.

  Reference numeral 1012 denotes a column for storing the FW type. 1 or 2 is stored as a value. A value of 1 indicates that the FW type is MFP. A value of 2 indicates that the FW type is an accessory. Reference numeral 1013 denotes a column for storing the value of the FW group name. The FW group name is duplicated on the assumption that the FW group versions are different. A column 1014 stores the value of the FW group version.

  A combination of the FW group name column 1013 and the FW group version column 1014 is unique in the FW group information table and serves as a primary key of the FW group information table.

  Reference numeral 1015 denotes a column that stores values of device product names. Multiple device product name values are stored separated by commas. It has a data structure in which a plurality of device product names can be associated with one FW group.

  Reference numeral 1016 denotes a column that stores the value of the update target version. A plurality of FW groups to be updated are held by semicolon separation. In addition, for each FW group delimited by a semicolon, a plurality of update target versions are held separated by commas. For example, in the case of an FW group having the values “MFP ABC123 Series, 1.0, 1.1, 1.2, 1.3; MFP DEF456 Series, 1.0, 1.1” in the corresponding column, It becomes like this. Update is possible from versions “1.0”, “1.1”, “1.2”, and “1.3” of the FW group “MFP ABC123 Series”. Further, it is possible to update from the versions “1.0” and “1.1” of the FW group “MFP DEF456 Series”.

  Reference numeral 1017 denotes a column for storing the registration date value. The date and time when the main control unit 902 registers the FW group in the corresponding row is set.

  A column 1018 stores the value of the FW public area code. The FW public area code is a sales area code indicating the sales area of the MFP that publishes the corresponding FW group. The identifier of the sales area code determined in advance by the FW update system of the present invention such as “JP” and “US” is determined. The FW public area code column 1018 holds a plurality of sales area code values separated by commas.

  In FIG. 10B, the FW component information table 1002 holds FW component information mainly based on the data of the FW management file.

  In the FW component information table 1002, 1051 is a column that stores the value of the FW component ID. The FW component ID is a value uniquely assigned to each FW component when the main control unit 902 registers a new FW component. A column 1052 stores the value of the FW group ID. The FW group ID of the FW group to which the FW component belongs is stored. The same value as the value stored in the FW group ID column 1011 of the FW group information table 1001 is stored.

  Reference numeral 1053 denotes a column for storing the value of the FW type name. The type name is an abbreviation that identifies the FW component. The type name is unique within the FW group. When the main control unit 902 compares the version for each component between the FW groups, the main control unit 902 compares the version for each type name. Reference numeral 1054 denotes a column for storing the version value of the FW component. The version of the FW component is set by a numerical value so that the size can be compared.

  Reference numeral 1055 denotes a column for storing the file name value of the FW component. The FW component file that is the entity of the FW component is held in the FW entity holding area 934. The FW component file is given a unique name for each component and for each component version. Each FW component file is managed in the FW entity holding area 934 by the main control unit 902.

[Data structure of device product information holding area of distribution server]
FIG. 11 is a schematic diagram showing the data structure of the device product information holding area 931 of the distribution system 101. The device product information holding area 931 includes a device product information table 1101 as shown in FIG. The device product information table 1101 holds device product type, device product information name, and machine number data band information.

  In FIG. 11, 1111 is a column for storing the value of the device product ID. The device product ID stored in the device product ID column 1111 is a value uniquely assigned to each device product when the main control unit 902 registers a new device product. Reference numeral 1112 denotes a column that stores values of device product types. 1 or 2 is stored as a value. A value of 1 indicates that the device product type is MFP. A value of 2 indicates that the device product type is an accessory. Reference numeral 1113 denotes a column for storing the value of the device product information name. Reference numeral 1114 denotes a column for storing the machine number data band. Stores three values of model number data band type, start value, and end value separated by commas. For example, when the model is “MFPAAAA”, the start value is “00000”, and the end value is “49999”, the machine number data band is “MFPAAAA0000-MFPAAAA49999”. A device having a device serial number within the range of the machine number data band represents a device product of the corresponding device product information. Reference numeral 1115 denotes a column for storing the registration date value. The date and time when the main control unit 902 registers the device product in the corresponding row is set.

[Processing when the distribution system 101 receives a batch download request]
FIG. 12 is a flowchart showing the operation of the distribution system 101 when receiving a batch download request. The distribution system 101 receives a batch download request from the initial setting application of the client terminal 122 or the configuration application 551 of the MFP 111. When receiving the batch download request via the communication unit 903, the main control unit 902 of the distribution system 101 executes the following.

  In step S1201, the main control unit 902 determines whether an authentication ID that is identification information for authentication is included in the request parameter. In S1201, when the authentication ID is included, the process proceeds to S1202. On the other hand, if the authentication ID is not included in S1201, the process proceeds to S1252.

  In step S <b> 1202, the main control unit 902 determines that the request is a batch download request from the initial setting application of the client terminal 122 when the authentication ID is included in the request parameter. In step S1252, the main control unit 902 determines that the request is a batch download request from the configuration application 551 of the MFP 111 when the request parameter does not include an authentication ID. After determining in S1202 and S1252, the main control unit 902 proceeds to S1203 and S1253, respectively.

  In step S1203, the main control unit 902 determines whether the authentication ID included in the request parameter is an appropriate authentication ID as the authentication process. Whether or not the authentication ID is appropriate is determined by whether or not the corresponding authentication ID is held in the authentication ID holding area 936. If it is determined in S1203 that the authentication ID included in the request parameter is appropriate, the main control unit 902 proceeds to S1204 that the authentication is successful. If it is determined in S1203 that the authentication ID included in the request parameter is not an appropriate authentication ID, the main control unit 902 proceeds to S1221. In step S1221, the main control unit 902 returns an authentication error as a response to the batch download request and ends the process.

  In step S1204, the main control unit 902 specifies a sales region code from the authentication ID. For specifying the sales region code, information on the user account associated with the corresponding authentication ID is acquired from the authentication ID holding region 936, and information on the sales region code of the sales region to which the user account belongs is obtained from the account information holding region 933. Do by getting.

  In step S1205, the main control unit 902 determines whether the request parameter includes device serial number information. If it is determined in step S1205 that the request parameter includes device serial number information, the main control unit 902 proceeds to step S1206. In step S1206, the main control unit 902 identifies the device product name from the device serial number included in the request parameter. The device product name is specified by searching the device product information table 1101 in the device product information holding area 931 for a row including the device serial number in the device number data band range of the value of the device number data band column 1114. Do by. The value of the device product name column 1113 in the row including the corresponding device serial number is the device product name specified. On the other hand, if it is determined in S1205 that the device parameter information is not included in the request parameter, the main control unit 902 proceeds to S1231.

  In step S1231, the main control unit 902 determines whether the device parameter name information is included in the request parameter. When determining in step S1231 that the device parameter name information is included in the request parameter, the main control unit 902 proceeds to step S1207. On the other hand, in S1231, when it is determined that the device parameter name information is not included in the request parameter, the main control unit 902 proceeds to S1232.

  In step S1232, the main control unit 902 returns a parameter invalid error as a response to the batch download request, and ends the process.

  In step S <b> 1207, the main control unit 902 determines whether the request parameter includes FW group version information. If it is determined in S1207 that the request parameter includes FW group version information, the main control unit 902 proceeds to S1208.

  In S1208, the main control unit 902 specifies the FW group from the device product name specified in S1206 or S1231, the FW group version included in the request parameter, and the information of the sales region code specified in S1204 or S1254 described later. . The identification of the FW group is performed by specifying the device product name, the corresponding FW group version, and the corresponding information in the device product name column 1015, the FW group version column 1014, and the FW public region code column 1018 of the FW group information table 1001. This is done by searching for a line with each sales region code. The FW group is identified by the value of the FW group ID column 1011 in the row having the corresponding device product name, the corresponding FW group version, and the corresponding sales region code. On the other hand, if it is determined in S1207 that the FW group version information is not included in the request parameter, the main control unit 902 proceeds to S1241.

  In step S1241, when the request parameter does not include FW group version information, the main control unit 902 specifies the latest FW group that can be applied to the device with the device product name specified in step S1206 or S1231. The latest FW group that can be applied to the device with the device product name is identified from the FW group information table 1001 by a line having the device product name specified in S1206 or S1231 and the sales region code specified in S1204 or S1254 described later. Do by searching. Among the rows having the device product name and the corresponding sales region code in the device product name column 1015 and the FW public region code column 1018 of the FW group information table 1001, the one having the highest value in the FW group version column 1014 The latest FW group. The value of the FW group ID column 1011 in the corresponding row is specified as the latest FW group applicable to the device having the device product name specified in S1206 or S1231. After executing S1241, the main control unit 902 proceeds to S1209.

  In step S1209, the main control unit 902 determines whether the FW group has been successfully identified. If a row corresponding to the necessary condition is not found in the FW group information table 1001, the FW group identification fails. If the identification of the FW group is successful in S1209, the main control unit 902 proceeds to S1210. If the identification of the FW group fails in S1209, the main control unit 902 proceeds to S1261. In S1261, the main control unit 902 returns an FW group non-detection error as a response to the batch download request, and ends the process. When a device area code is set in the request parameter, an FW group non-detection error occurs even if the device area code is invalid.

  In step S1210, the main control unit 902 lists information on the FW components constituting the FW group with respect to the FW group specified in step S1208 or S1241. Information on the FW components constituting the FW group is acquired from the FW component information table 1002 and listed. The main control unit 902 searches the FW component information table 1002 for a row having the FW group ID value specified in S1208 or S1241 in the FW group ID column 1052. The value of the FW component ID column 1051 of the row that has been hit by the search is information on the FW component that constitutes the FW group.

  In step S <b> 1211, the main control unit 902 archives the FW component files constituting the FW group, and creates an FW group archive file. The main control unit 902 creates an FW group archive file as follows. That is, with respect to the FW components constituting the FW group listed in S1210, the value of the FW component file name column 1055 of the FW component information table 1002 is referred to. The FW component file that matches the file name is collected from the FW entity holding area 934. The collected FW component file is archived as one FW group file.

  In step S1212, the main control unit 902 generates an FW management file for the FW group. As described above, the FW management file is a file specified by the request parameter when the FW registration request is made. At the time of FW registration, the information is divided into the FW group information table 1001 and the FW component information table 1002 and held by the distribution system 101. The main control unit 902 reproduces the FW management file received at the time of FW registration of the FW group by reconfiguring the information regarding the corresponding FW group.

  In step S1213, the main control unit 902 sets the archive file created in step S1211 and the FW management file created in step S1212 as response parameters, and returns a response to the request destination. Thereafter, the distribution system 101 ends the process. As described above, in this processing, information such as the FW management file responded to the initial setting application is written as a configuration file for initial installation on the USB memory.

  In step S1253, the main control unit 902 determines whether or not the request parameter includes device region code information and device serial number information. In S1253, when it is determined that the request parameter includes device area code information and device serial number information, the main control unit 902 proceeds to S1254. In step S1254, the main control unit 902 specifies the value of the device region code included in the request parameter as the device sales region code. Thereafter, the main control unit 902 proceeds to S1206. On the other hand, if it is determined in S1253 that the request parameter does not include device region code information or device serial number information, the main control unit 902 proceeds to S1232. That is, a parameter invalid error is returned as a response, and the process ends.

  As described above, the main control unit 902 of the distribution system 101 determines whether the request source is the client terminal and the network device (MFP) to which the FW is applied, depending on whether or not the authentication ID is included in the request parameter of the batch download request. ). The main control unit 902 of the distribution system 101 outputs the determination result to report information as a request destination of a batch download request, for example, or writes it to an execution log file. The report information is used, for example, for summarizing the client type of the batch download request. In addition, the execution log file is used for analyzing the failure status when a trouble occurs on the server or the client side due to batch download, for example.

(Other examples)
The present invention includes an apparatus or system configured by appropriately combining the above-described embodiments and a method thereof.

  Here, the present invention is an apparatus or system that is a main body that executes one or more software (programs) that realize the functions of the above-described embodiments. Further, a method for realizing the above-described embodiment executed by the apparatus or system is also one aspect of the present invention. The program is supplied to the system or apparatus via a network or various storage media, and the program is read and executed by one or more computers (CPU, MPU, etc.) of the system or apparatus. That is, as one aspect of the present invention, the program itself or various storage media readable by a computer storing the program are included. The present invention can also be realized by a circuit (for example, ASIC) that realizes the functions of the above-described embodiments.

101 Distribution system 111 MFP
122 Client terminal 501 Updater 551 Configuration application

Claims (6)

A management system including a distribution system for managing firmware for network devices,
The distribution system includes:
A determination means for determining a device that has made the download request in accordance with identification information for authentication included as a parameter of the download request when a download request related to the firmware is received;
An authentication unit that performs an authentication process using identification information for authentication included as a parameter of the download request when the device that has made the download request is determined to be a client terminal;
When the authentication process is successful, according to the identification information of the network device that is the distribution target of the firmware, identification means for identifying the firmware for the network device corresponding to the identification information;
Response means for transmitting information relating to the identified firmware to the client terminal as a response to the download request;
The client terminal is
First request means for making a download request for firmware to the distribution system;
Writing means for writing information about the firmware included in the response to the download request into a portable memory as a configuration file used for initial installation of the network device;
The network device is:
A management system comprising application means for applying firmware in accordance with information on firmware of the connected configuration file at the time of initial installation. The network device further includes second request means for making a download request for firmware in order to update the currently applied firmware,
In the distribution system, further,
When the device that has made the download request is determined to be the network device, the specifying unit is applied to the network device that includes the specific information of the network device that has made the download request and the parameters of the download request. According to the version information of the firmware that is being identified, identifying the firmware for the network device,
The response means transmits information on the identified firmware to the network device as a response to the download request,
The management system according to claim 1, wherein the application unit of the network device updates firmware according to information on firmware included in the response.   The management system according to claim 1, wherein the application unit downloads firmware to be applied from the distribution system in accordance with information about the firmware.   The management system according to any one of claims 1 to 3, wherein the specific information of the network device indicates a serial number or a product name.   The management system according to claim 1, wherein the network device is a multifunction device. A method in a management system including a distribution system for managing firmware for network devices, comprising:
The distribution system includes:
A determination step of determining a device that has made the download request in accordance with identification information for authentication included as a parameter of the download request when a download request related to firmware is received;
An authentication step of performing an authentication process using authentication identification information included as a parameter of the download request when the device that has made the download request is determined to be a client terminal;
If the authentication process is successful, according to the identification information of the network device for which the firmware is to be distributed, the identification step of identifying the firmware for the network device corresponding to the identification information;
A response step of transmitting information relating to the identified firmware to a client terminal as a response to the download request;
The client terminal is
A first request step for making a download request for firmware to the distribution system;
A writing step of writing information about the firmware included in the response to the download request into a portable memory as a configuration file used for initial installation of the network device;
The network device is:
A method comprising an application step of applying firmware according to information on firmware of the connected configuration file at the time of initial installation.

Images