JP6759641B2 - Information processing equipment, information processing equipment management system, information processing equipment management processing method, information processing equipment management processing program and storage medium - Google Patents

Description

The present invention relates to an information processing device, an information processing device management system, an information processing device management processing method, an information processing device management processing program, and a storage medium.

Today, for example, a multifunction device (MFP: Multifunction Peripheral) or a laser printer device having various functions such as a copy function, a scanner function, a facsimile function, and a printer function, or a device having the above-mentioned various functions alone (for example, a scanner device, a facsimile device, etc.) ) And other image forming devices are known. A card reader device can be connected to the main body of an information processing device represented by an image forming device.

In such information processing equipment, firmware is used for the purpose of solving problems, changing functions, and adding functions of the card reader device, and solving problems, changing functions, and adding functions of the multifunction device connected to the card reader device. Work is done to update.

Such an image forming apparatus generally includes an energy saving mode (hereinafter, referred to as an energy saving mode) that reduces power consumption when not in use. When updating the firmware while the image forming apparatus is in the energy saving mode, it is necessary to cancel the energy saving mode and put the image forming apparatus at least in a power supply state capable of updating the firmware. It took time and effort to operate.

For example, the conventional image forming apparatus (information processing device) shifts to the engine off mode, which further reduces the power consumption, when the non-operation state continues for a predetermined time or more after shifting to the energy saving mode. During the engine off mode, the power supply from the information processing device main body to the card reader device is also stopped. Therefore, even if the IC card is brought close to the card reader device, non-contact wireless communication is not performed, so that the information processing device main body cannot be returned from the engine off mode. Therefore, when performing the firmware update process, it is necessary to return the information processing device main body from the engine off mode, which takes time and effort for operation.

The present invention has been made in view of the above, and is capable of reliably updating the firmware of an IC card reader regardless of the energy saving state of the information processing device, information processing device and information processing device management. An object of the present invention is to provide a system, an information processing device management processing method, an information processing device management processing program, and a storage medium.

In order to solve the above-mentioned problems and achieve the object, the present invention includes a first unit that provides a predetermined function and a second unit connected to the first unit, and the first unit is provided. The second unit acquires the authentication information from the authentication medium, and uses the acquired authentication information to enable the function of the first unit, the second unit, and the second unit. The firmware update request and the firmware are received from the communication unit that establishes communication between the firmware update request and the firmware distribution means that distributes the firmware to the unit, and the firmware distribution means, and the firmware is received. When the firmware update control unit that performs the firmware update process for the acquisition unit and the firmware update control unit receive the firmware update request, the power usage of the first unit and the second unit is used. The state is characterized by having at least a power management unit for changing the state to a state in which the firmware update control unit can execute the firmware update process for the acquisition unit.

According to the present invention, when a firmware update request is received in various energy-saving states of an information processing device, the firmware can be reliably updated without hassle by transitioning to an appropriate energy-saving state.

FIG. 1 is a hardware configuration diagram of the information processing device management system of the embodiment. FIG. 2 is a software configuration diagram of the MFP. FIG. 3 is a functional block diagram of the information processing device management system. FIG. 4 is a diagram illustrating a card ID stored in the IC card used in the embodiment. FIG. 5 is a diagram illustrating an energy saving mode in the MFP of the embodiment. FIG. 6 is a flowchart showing a flow of firmware update processing executed by the information processing device management system of the embodiment. FIG. 7 is a flowchart showing the flow of the energy saving mode release process. FIG. 8 is a flowchart showing the flow of the energy saving mode transition process at the time of update. FIG. 9 is a flowchart showing the flow of the firmware update process.

Hereinafter, embodiments to which the present invention is applied will be described with reference to the accompanying drawings.

(Embodiment)
FIG. 1 is a hardware configuration diagram of a firmware update system 2 according to an embodiment to which the present invention is applied. The firmware update system 2 is an example of an information processing device management system. The firmware update system 2 includes a multifunction device (MFP: Multifunction Peripheral) 1 and a firmware distribution server device 70. MFP1 is an example of an information processing device. As shown in FIG. 1, the MFP 1 relates to a main body 10 having various functions such as a copy function, a scanner function, a facsimile function, and a printer function, an operation unit 20 that receives an input according to a user's operation, and an MFP 1. The card reader 6 is provided with a card reader 6 that performs non-contact wireless communication with the IC card 5 held by the user at the time of login operation and reads authentication information such as a card ID and user information stored in the IC card 5. .. Further, the card reader 6 can change the function and add the function by updating the firmware implemented by the card reader 6 to the firmware received from the firmware distribution server device 70. The main body 10 is an example of the first unit, and the operation unit 20 is an example of the second unit. The card reader 6 is an example of an acquisition unit. The IC card 5 is an example of an authentication medium.

The firmware distribution server device 70 distributes firmware that needs to be updated to the MFP1 to the card reader 6 and the MFP1 in order to change the function and add the function. The firmware is software for causing the card reader 6 and the MFP 1 to perform desired operations. The firmware distribution server device 70 is an example of firmware distribution means.

The main body 10 of the MFP 1 and the operation unit 20 are connected to each other so as to be able to communicate with each other via a dedicated communication path 30. As the communication path 30, for example, a USB (Universal Serial Bus) standard can be used, but any standard may be used regardless of whether it is wired or wireless. Further, the main body 10 may have one function among image generation functions such as a copy function, a scanner function, a facsimile function, and a printer function, or may have a plurality of functions.

As the operation unit 20, an electronic device capable of executing information processing completed independently can be used. As an example, as the operation unit 20, an information processing terminal such as a smartphone or a tablet type terminal can be used. In this case, the information processing terminal functions as the operation unit 20 of the MFP 1.

More specifically, the information processing terminal used as the operation unit 20 is detachably connected to the MFP 1 instead of the operation panel which is conventionally fixed and installed as the operation unit dedicated to the MFP 1. That is, the information processing terminal used as the operation unit 20 is detachably (separable) at a predetermined position such as a position where the operation panel of the MFP 1 is arranged, but is installed integrally with the MFP 1. Therefore, the information processing terminal and the MFP 1 used as the operation unit 20 may be grasped as one device. When the information processing terminal, which is the operation unit 20, is removed from the MFP 1, it performs wireless communication with the MFP 1, such as Bluetooth (registered trademark) or infrared communication, and functions as an operation unit of the MFP 1.

The main body 10 operates according to the input received by the operation unit 20. Further, the main body 10 can also communicate with an external device such as a client PC (personal computer), and also performs an operation according to an instruction received from the external device.

The operation unit 20 of the MFP 1 is connected to the firmware distribution server device 70 via a network 40 such as the Internet.

(Explanation of the hardware configuration of the main unit)
Next, the hardware configuration of the main body 10 will be described with reference to FIG. As shown in FIG. 1, the main body 10 includes a CPU 11, a ROM 12, a RAM 13, and an HDD (hard disk drive) 14. Further, the main body 10 includes a communication I / F (interface) 15, a connection I / F 16, an engine 17, and a facsimile modem (FAX modem) 19. The CPUs 11 to 17 and the FAX modem 19 are connected to each other via the system bus 18.

The CPU 11 comprehensively controls the operation of the main body 10. The CPU 11 controls the operation of the entire main body 10 by executing a program stored in the ROM 12 or the HDD 14 or the like using the RAM 13 as a work area (work area), and has the above-mentioned copy function, scanner function, facsimile function, printer function, etc. Realize various functions of.

The communication I / F 15 is an interface for communicating with an external device such as a client PC (personal computer), a Web server device, or an authentication server device on the network 40. The connection I / F 16 is an interface for communicating with the operation unit 20 via the communication path 30. Although the communication path 30 is shown in a wired manner in FIG. 1, the operation unit 20 can be attached to and detached from the main body 10 of the MFP 1 as described above. Therefore, when the operation unit 20 is attached to the MFP 1, the communication path 30 functions as a wired communication path, and when the operation unit 20 is removed from the MFP 1, the communication path 30 functions as a wireless communication path.

The engine 17 is hardware that performs general-purpose information processing and processing other than communication in order to realize a copy function, a scanner function, a facsimile function, a printer function, and the like. The engine 17 includes, for example, a scanner that scans and reads an image of a document, a plotter that prints on a sheet material such as paper, and a facsimile communication unit that performs facsimile communication. Further, it may be provided with specific options such as a finisher for sorting the printed sheet material and an ADF (automatic document feeder) for automatically feeding the original.

The HDD 14 is provided with an address book, login success history information, and operation mode information storage areas, respectively. The master generated by associating the user identification information (user ID) of the user who permits the use of the MFP 1 and the card ID and password of the IC card 5 lent (issued) to the user in the storage area of the address book. Information is stored for each user.

Further, the storage area of the login success history information is associated with the date and time when the operation of the MFP 1 is permitted by the login operation, the card ID of the IC card 5 used for the login operation, the user ID of the user corresponding to the card ID, and the like. It will be remembered. The master information and the like may be stored in a storage medium such as an SD card (registered trademark) or a USB memory (USB: Universal Serial Bus).

Further, in the operation mode information storage area, operation mode information indicating an operation mode for shifting the main body 10 and the operation unit 20 at the time of transition to the energy saving mode is stored.

Although the explanation is given by taking user authentication using the IC card 5 as an example, various information terminals such as smartphones and mobile phones equipped with functions used for user authentication (or applications are installed) are authenticated. As a device, it is possible to realize the same function as when the IC card 5 is used. Further, in the embodiment, the description will proceed assuming that the IC card 5 is used for user authentication. However, any storage medium that can store user information can be used. Therefore, the present invention can be applied to any of the different names of the IC card, the ID card, and the like, and the present invention is not limited to the IC card, the ID card, and the like. Similarly, any card reader can be used as long as the user information can be read from the above-mentioned storage medium.

(Explanation of the hardware configuration of the operation unit)
Next, the hardware configuration of the operation unit 20 will be described. As shown in FIG. 1, the operation unit 20 includes a CPU 21, a ROM 22, a RAM 23, a flash memory 24, a communication I / F 25, a connection I / F 26, an operation panel 27, and an IC card I / F 29. These are interconnected via a system bus 28.

The CPU 21 comprehensively controls the operation of the operation unit 20. The CPU 21 controls the operation of the entire operation unit 20 by executing a program stored in the ROM 22 or the like using the RAM 23 as a work area (work area). Further, as described later, the CPU 21 realizes the user authentication operation described later by executing the user authentication program stored in the ROM 22 or the like. The communication I / F 25 is an interface for communicating with the firmware distribution server device 70 connected on the network 40, for example. The connection I / F 26 is an interface for communicating with the main body 10 via the communication path 30.

The IC card I / F29 is connected to the card reader 6 via, for example, a USB cable or the like. In the example of the embodiment, the card reader 6 and the operation unit 20 will be described as having physically different devices connected to each other via a USB cable or the like, but the card reader 6 will be connected to the operation unit 20. May be built-in. That is, the operation unit 20 and the card reader 6 may be integrally formed (may be formed as one device).

The RAM 23 (or another storage unit such as the flash memory 24) is provided with an address book storage area, a login success history storage area, a priority user list storage area, and an operation mode storage area. In the storage area of the address book of the RAM 23, the master information of the address book acquired from the HDD 14 of the main body 10 is stored. The master information acquired from the main body 10 may be stored in a storage medium such as an SD card (registered trademark) or a USB memory. The login success history acquired from the HDD 14 of the main body 10 is stored in the login success history storage area of the RAM 23.

Further, in the storage area of the priority user list of the RAM 23, a predetermined number of login success history information including the user ID, the card ID and the login date and time among the login success history acquired from the HDD 14 is stored in the order of the login date and time. The priority user list is a list indicating the target user for user authentication.

The priority user is a user corresponding to the login success history acquired from the HDD 14 of the main body 10. That is, as will be described later, the MFP 1 of the embodiment acquires the login success history for a predetermined number of people, which is new in time, out of the login success history stored in the HDD 14 of the main body 10. Each user corresponding to the login success history for the predetermined number of people completes the user authentication just by holding the IC card 5, and the function of the MFP 1 can be used. In this way, the user corresponding to the login success history acquired from the HDD 14 can preferentially use the function of the MFP1, and therefore, in the MFP1 of the embodiment, it is referred to as a "priority user".

Further, in the storage area of the operation mode of the RAM 23, operation mode information indicating the operation mode for returning the operation unit 20 when returning from the energy saving mode is stored.

The CPU 21 of the operation unit 20 authenticates the user as a legitimate user when the card ID read from the IC card 5 at the time of login operation is registered in the priority user list, and the function of the MFP 1 according to the user authority. Allow the use of. As a result, the user authentication can be completed within a few msec after the IC card 5 is held by the login operation, and the MFP 1 can be used.

The operation panel 27 is composed of a liquid crystal display (LCD) provided with a touch panel. The operation panel 27 accepts various inputs according to the user's operation, and displays various information such as information according to the received input, information indicating the operating status of the MFP 1, and information indicating the setting state. The operation panel 27 may be configured by an organic EL display device provided with a touch panel. Further, in addition to or in place of this, an operation unit such as a hardware key or a display unit such as a light emitting unit may be provided.

(Explanation of hardware configuration of firmware distribution server device)
The firmware distribution server device 70 is formed by connecting the CPU 71, the ROM 72, the RAM 73, the HDD 74, and the communication I / F 75 to each other via the bus line 76.

The ROM 72 stores a program for executing the firmware distribution process that operates on the firmware distribution server device 70. By operating according to the program built in the ROM 72, the CPU 71 functions as a firmware distribution means for distributing a firmware update request and firmware to the MFP 1.

The RAM 73 stores history information including version information of the firmware distributed in the past with respect to the MFP 1 connected to the firmware distribution server device 70 via the network 40. The HDD 74 stores the firmware to be distributed to the MFP 1. The firmware stored in the HDD 74 is sequentially updated as needed.

(Explanation of MFP software configuration)
Next, the software configuration of the MFP 1 will be described with reference to FIG. FIG. 2 is a diagram showing an example of the software configuration of the MFP 1. As shown in FIG. 2, the main body 10 has an application layer 101, a service layer 102, and an OS layer 103. The substance of the application layer 101, the service layer 102, and the OS layer 103 is various software stored in the ROM 12 or the HDD 14. Various functions are provided by the CPU 11 executing these software.

The software of the application layer 101 is application software for operating hardware resources to provide a predetermined function (in the following description, it may be simply referred to as an "application"). For example, examples of the application include a copy application for providing a copy function, a scanner application for providing a scanner function, a facsimile application for providing a facsimile function, a printer application for providing a printer function, and the like.

The software of the service layer 102 is software that intervenes between the application layer 101 and the OS layer 103 and provides the application with an interface for using the hardware resources included in the main body 10. Specifically, it is software for providing a function of accepting an operation request for a hardware resource and arbitrating the operation request. The operation request received by the service layer 102 includes a request such as reading by a scanner and printing by a plotter.

The interface function by the service layer 102 is provided not only to the application layer 101 of the main body 10 but also to the application layer 201 of the operation unit 20. That is, the application layer 201 (app) of the operation unit 20 can also realize a function using the hardware resources (for example, the engine 17) of the main body 10 through the interface function of the service layer 102.

The software of the OS layer 103 is basic software (operating system) for providing basic functions for controlling the hardware included in the main body 10. The software of the service layer 102 converts the usage request of the hardware resource from various applications into a command that can be interpreted by the OS layer 103 and passes it to the OS layer 103. Then, when the command is executed by the software of the OS layer 103, the hardware resource operates according to the request of the application.

Similarly, the operation unit 20 has an application layer 201, a service layer 202, and an OS layer 203. The application layer 201, the service layer 202, and the OS layer 203 included in the operation unit 20 also have the same hierarchical structure as that of the main body 10. However, the functions provided by the application of the application layer 201 and the types of operation requests that the service layer 202 can accept are different from those of the main body 10. The application of the application layer 201 is software for operating the hardware resource included in the operation unit 20 to provide a predetermined function. The software is mainly for providing UI (user interface) functions for performing operations and displays related to the functions (copy function, scanner function, facsimile function, printer function) included in the main body 10.

In the example of the embodiment, the software of the OS layer 103 on the main body 10 side and the software of the OS layer 203 on the operation unit 20 side are different from each other in order to maintain the independence of the functions. That is, the main body 10 and the operation unit 20 operate independently of each other in different operating systems. For example, it is possible to use Linux (registered trademark) as the software of the OS layer 103 on the main body 10 side and Android (registered trademark) as the software of the OS layer 203 on the operation unit 20 side.

By operating the main body 10 and the operation unit 20 on different operating systems, the communication between the main body 10 and the operation unit 20 is performed not as interprocess communication in a common device but as communication between different devices. .. This includes an operation (command communication) of transmitting the input (instruction content from the user) received by the operation unit 20 to the main body 10 and an operation of the main body 10 notifying the operation unit 20 of an event. Here, the function of the main body 10 can be used by the operation unit 20 performing command communication to the main body 10. In addition, the events notified from the main body 10 to the operation unit 20 include the execution status of the operation in the main body 10, the contents set on the main body 10 side, and the like.

Further, in the example of the embodiment, since the power supply to the operation unit 20 is performed from the main body 10 via the communication path 30, the power control of the operation unit 20 is separated from the power control of the main body 10 ( Can be done (independently).

In the example of the embodiment, the main body 10 and the operation unit 20 are electrically and physically connected via the communication path 30, but the operation unit 20 can be removed from the main body 10 as described above. .. In this case, the main body 10 and the operation unit 20 are provided with short-range wireless communication units such as an infrared communication unit, an RF (Radio Frequency) communication unit, and a Bluetooth (registered trademark) communication unit. Alternatively, the main body 10 and the operation unit 20 are provided with a wireless LAN communication function such as Wi-Fi (registered trademark), and as shown in FIG. 2, a wireless LAN (Local Area Network) access point (wireless LAN AP) 41 and a network 40 It may be possible to communicate with each other via. When the operation unit 20 can be removed from the main body 10, the operation unit 20 stores the electric power supplied from the main body 10 through the communication path 30 in the secondary battery, and when it is removed from the main body 10, the operation unit 20 stores the electric power. It operates with the electric power stored in the secondary battery and communicates with the main body 10.

(Explanation of the function of the operation unit)
Next, FIG. 3 shows a functional block diagram of the main body 10 and the operation unit 20 of the MFP 1. In FIG. 3, the operation unit 20 includes a first authentication unit 53, a priority user management unit 54, an IC card control unit 55, a first power management unit 56, a firmware update control unit 57, and a communication control unit 58. .. Each of these units is operated by a process in which one or more programs installed in the operation unit 20 are executed by the CPU 21 of FIG. The operation unit 20 also stores the user authentication program 51a, the firmware update program 51b, the address book 60b, the login success history 61b, the priority user list 52, and the operation mode information 66a. This information is stored in each storage unit of ROM 22, RAM 23, etc. (or other storage unit such as HDD, flash memory, etc.) in FIG. Note that these information may be stored in, for example, an auxiliary storage device of the operation unit 20, a storage device that can be connected to the operation unit 20 via a network, or the like.

The user authentication program 51a performs user authentication processing and enables energization control of each part of MFP 1 at the time of user authentication. The firmware update program 51b receives the firmware distributed from the firmware distribution server device 70 and updates the firmware mounted on the MFP1.

The address book 60b is a duplicate of the address book 60a stored in the main body 10. The login success history 61b is a duplicate of the login success history 61a stored in the main body 10. The priority user list 52 is a list of priority user information generated from the login success history 61b. The operation mode information 66a is information indicating an operation mode for returning the main body 10 and the operation unit 20 when returning from the energy saving mode.

The first authentication unit 53 is an example of the authentication unit, and collates the card ID read from the user's IC card 5 at the time of login with the address book 60b. When the card ID is stored in the address book 60b, the first authentication unit 53 performs the user authentication process. Further, when the card ID is not stored in the address book 60b, the first authentication unit 53 recognizes the unregistered IC card 5 used by the user who has already authenticated the user, and registers a new IC card 5. Perform processing.

The priority user management unit 54 controls acquisition and update of the address book 60a and the login success history 61a from the main body 10. In addition, the priority user management unit 54 controls the generation and update of the priority user list 52.

It should be noted that the user can manually register the target user for user authentication in the priority user list 52. When manually registering the target user for user authentication, the priority user management unit 54 stores the card ID, user ID, and password of the user to be authenticated manually entered in the address book 60a of the main body 10. Further, the priority user management unit 54 registers the card ID, the user ID, and the input date and time of the authentication target user manually input in the priority user list 52 as login success date and time information.

The IC card control unit 55 controls non-contact wireless communication with the IC card 5 performed via the IC card I / F29. Further, the IC card control unit 55 performs a firmware update process for updating the firmware of the card reader 6 by the firmware received via the IC card I / F29.

The first power management unit 56 is an example of the power management unit, and reads out the operation mode information 66a indicating the operation mode preset by the user or the like, and controls the power supply to the operation unit 20 and saves energy at the time of transition to the energy saving mode. The power supply control to the operation unit 20 at the time of returning to the mode is performed.

The firmware update control unit 57 manages the version information and the like of the firmware mounted on the MFP 1, and when receiving the firmware update request from the firmware distribution server device 70, determines whether or not the firmware can be updated and proceeds with the firmware update process. Check the situation.

The communication control unit 58 is an example of the communication unit. The communication control unit 58 controls the operation of the communication I / F 25 to establish communication between the firmware distribution server device 70 and the operation unit 20.

In the example of the embodiment, the first authentication unit 53 to the communication control unit 58 will be described as being realized by software by the user authentication program 51a and the firmware update program 51b. However, a part or all of the first authentication unit 53 to the communication control unit 58 may be realized by hardware such as an IC (Integrated Circuit).

Further, the user authentication program 51a and the firmware update program 51b are provided by recording files in an installable format or an executable format on a recording medium readable by a computer device such as a CD-ROM or a flexible disk (FD). You may. Further, it may be recorded and provided on a recording medium readable by a computer device such as a CD-R, a DVD, a Blu-ray disc (registered trademark), or a semiconductor memory. DVD is an abbreviation for "Digital Versatile Disc". Further, the user authentication program 51a and the firmware update program 51b may be provided in the form of being installed via a network such as the Internet. Further, the user authentication program 51a and the firmware update program 51b may be provided by being incorporated in advance in a storage device such as a ROM 22 included in the operation unit 20.

(Explanation of the functions of the main unit)
Next, in FIG. 3, the main body 10 has a second authentication unit 62, a user management unit 63, and a second power management unit 64. Each of these units is operated by a process in which one or more programs installed in the operation unit 20 are executed by the CPU 21 of FIG. Each of these parts is operated by a process in which one or more programs installed in the main body 10 are executed by the CPU 11 of FIG. The main body 10 also stores various application programs such as a copy application 80, a fax application 81, a scanner application 82, and a printer application 83. Further, the main body 10 stores the address book 60a, the login success history 61a, and the operation mode information 66b. These application programs and information are stored in each storage unit of ROM 12, RAM 23, etc. (or other storage units such as HDD and flash memory) in FIG. Note that these information may be stored in, for example, an auxiliary storage device of the main body 10, a storage device that can be connected to the main body 10 via a network, or the like.

The copy application 80 is an application program for controlling the scanner engine and the plotter engine of the engine 17 to realize the copy function. The FAX application 81 is an application program for controlling the FAX modem 19 to realize a facsimile function. The scanner application 82 is an application program for controlling the scanner engine of the engine 17 to realize the scanner function. The printer application 83 is an application program for printing desired images, characters, and the like on paper.

The address book 60a provides master information generated by associating the user identification information (user ID) of the user who permits the use of the MFP 1, the card ID and password of the IC card 5 lent (issued) to the user, and the like. Store for each user. The login success history 61a stores the date and time when the operation of the MFP 1 is permitted by the login operation, the card ID of the IC card 5 used for the login operation, the user ID of the user corresponding to the card ID, and the like in association with each other. The operation mode information 66b stores the operation mode information indicating the operation mode for returning the main body 10 when returning from the energy saving mode.

The second authentication unit 62 performs a user authentication process for a user who cannot be authenticated on the operation unit 20 side based on the master information stored in the address book 60a. The user management unit 63 controls writing and reading of master information to the address book 60a. Further, the user management unit 63 controls writing and reading of login success history information for the login success history 61a. Further, the user management unit 63 controls the transfer of the address book 60a and the login success history 61a to the operation unit 20.

The second power management unit 64 is an example of the power management unit, reads the operation mode information 66b indicating the operation mode preset by the user or the like, and controls the power supply to the main body 10 and returns to the energy saving mode when the energy saving mode is shifted. Power supply control for the main body 10 at the time is performed.

In the example of the embodiment, the second authentication unit 62 to the second power management unit 64 will be described as being realized by software by the user authentication program on the main body 10 side. However, a part or all of the second authentication unit 62 to the second power management unit 64 may be realized by hardware such as an IC.

Further, the user authentication program on the main body 10 side may be provided by recording a file in an installable format or an executable format on a recording medium readable by a computer device such as a CD-ROM or a flexible disk. Further, it may be recorded and provided on a recording medium readable by a computer device such as a CD-R, a DVD, a Blu-ray disc (registered trademark), or a semiconductor memory. Further, the user authentication program on the main body 10 side may be provided in the form of being installed via a network such as the Internet. Further, the user authentication program on the main body 10 side may be provided by being incorporated in advance in a storage device such as a ROM 12 provided in the main body 10.

(Explanation of the function of the firmware distribution server device)
Next, in FIG. 3, the firmware distribution server device 70 includes a firmware update determination unit 85, a firmware update request unit 86, and a firmware storage unit 87.

The firmware update determination unit 85 compares the history information including the version information of the firmware delivered to the MFP1 with the latest firmware version information stored in the firmware storage unit 87 described later, and the latest firmware is the MFP1. Determine if it has been delivered to. Then, when the latest firmware has not been distributed to the MFP 1, it is determined that the firmware needs to be updated.

The firmware update determination unit 85 may be configured to communicate with the MFP1 to acquire version information of the firmware mounted on the MFP1 and determine whether or not the firmware needs to be updated. Specifically, it is determined whether or not the latest firmware is mounted on the MFP 1 by comparing the firmware version information acquired from the MFP 1 with the latest firmware version information stored in the firmware storage unit 87. Can be done.

The firmware update request unit 86 transmits a firmware update request to the MFP 1 when the firmware update determination unit 85 determines that the firmware of the MFP 1 needs to be updated.

The firmware storage unit 87 is composed of, for example, the HDD 74 of FIG. 1 and stores the latest firmware. The firmware stored in the firmware storage unit 87 is updated as needed.

(Explanation of user authentication process)
Next, the user authentication process in the MFP 1 of the embodiment will be described. The priority user management unit 54 of the operation unit 20 acquires, for example, the address book 60a and the login success history 61a stored in the main body 10 at the time of starting the MFP 1, immediately before shifting to the power saving mode, or at predetermined time intervals. The address book 60b is a copy of the address book 60a stored in the main body 10. Similarly, the login success history 61b is also a duplicate of the login success history 61a stored in the main body 10. Further, the priority user management unit 54 acquires the login success history information of each user for a predetermined number of users from the user with the latest login date and time from the login success history 61b, and sets the priority user list of the RAM 23 as the authentication target user information. Store in 52. As a result, the user authentication process can be executed.

Next, the card ID stored in the IC card 5 possessed by the user of the MFP 1 will be described with reference to FIG. As shown in FIG. 4, for example, the IC card 5 stores unique identification information (card ID) as authentication information. FIG. 4 shows an example in which the card ID of “01010310DA09D027” is stored. The IC card control unit 55 controls the card reader 6 so as to read the card ID stored in the IC card 5 when non-contact wireless communication with the IC card 5 becomes possible.

In addition to the card ID, the IC card 5 also stores other authentication information such as a user ID. Therefore, the IC card control unit 55 may read out other authentication information such as the user ID as well as the card ID and use it for user authentication.

The outline of the flow of the user authentication process will be described below. A user who wishes to use the function of the MFP 1 brings his / her IC card 5 close to the card reader 6 up to a distance where non-contact wireless communication is possible. As a result, non-contact wireless communication is started between the IC card 5 and the card reader 6.

The IC card control unit 55 monitors whether or not non-contact wireless communication is started between the IC card 5 and the card reader 6. When the IC card control unit 55 detects that non-contact wireless communication has started between the IC card 5 and the card reader 6, it determines that the IC card 5 has been detected by the card reader 6.

The IC card control unit 55 controls the card reader 6 so as to read the card ID described with reference to FIG. 4 when non-contact wireless communication with the IC card 5 becomes possible. Then, the first authentication unit 53 collates the read card ID with each master information of the duplicated address book 60b. Then, the first authentication unit 53 determines whether the read card ID is registered in the address book 60b.

The fact that the card ID read from the IC card 5 is registered in the address book 60b means that the IC card 5 used by the user is the IC card 5 registered in the address book 60a and the address book 60b. means. In this case, the first authentication unit 53 determines that the IC card 5 has already been registered, and executes the user authentication process described later.

On the other hand, the fact that the card ID read from the IC card 5 is not registered in the address book 60b means that the IC card 5 used by the user is a new one that is not registered in the address book 60a and the address book 60b. It means that it is an IC card 5. In this case, the first authentication unit 53 determines that the IC card 5 is an unregistered card. Then, the first authentication unit 53 executes a registration process for registering as a new IC card 5.

The detailed description of the registration process will be omitted, and only the outline will be described. The first authentication unit 53 prompts the user who uses the unregistered IC card 5 to input the user ID and password, and when the card ID and user ID registered in the past are input, it is normal. It is determined that the user has used the new IC card 5, and new master information associated with the card ID of the new IC card 5 and the user ID and password entered by the user is registered in the address book 60b.

If the user ID and password entered by the user are not registered in the address book 60b, it is determined that the user is an unauthorized user or that the user ID or password is entered incorrectly. Then, the first authentication unit 53 requests the user to re-enter the user ID and password. When the authentication fails a predetermined number of times, for example, three times in a row, it is determined that the user is an unauthorized user, and the first authentication unit 53 registers the card ID of the IC card 5 as an unauthorized IC card 5. .. On the other hand, when the authentication is successful, as described above, new master information associated with the user ID and password entered by the user is registered in the address book 60b.

When the authentication is successful, the priority user management unit 54 further transfers the new master information to the user management unit 63 of the main body 10. Then, the user management unit 63 of the main body 10 registers new master information in the address book 60a.

When the card ID read from the IC card 5 is registered in the address book 60b, the first authentication unit 53 collates the card ID read from the IC card 5 with the priority user list 52. Then, the first authentication unit 53 determines whether the login success history information corresponding to the card ID is registered in the priority user list 52. The priority user list 52 is a user list of users who have recently successfully logged in (for example, within 1 hour or 2 days).

When the login success history information corresponding to the card ID cannot be detected from the priority user list 52, the priority user management unit 54 logs in indicating the card ID read from the IC card 5, the user ID corresponding to the card ID, and the current date and time. A new login success history information is generated by associating the success date and time information, and is registered in the login success history 61b. Further, the priority user management unit 54 transfers the generated new login success history information to the user management unit 63 of the main body 10. The user management unit 63 of the main body 10 updates the login success history 61a with the transferred new login success history information.

Further, the priority user management unit 54 determines whether the number of registered login success history information registered in the priority user list 52 has reached the upper limit. When the number of registrations has reached the upper limit, the priority user management unit 54 deletes a predetermined number of login success history information. Then, the priority user management unit 54 registers new login success history information in the priority user list 52. After that, the main body 10 controls the engine 17 so as to provide a function according to the user authority. The main body 10 provides a predetermined function according to the user authority until the user's logout operation or timeout is detected.

On the other hand, when the login success history information corresponding to the card ID is detected from the priority user list 52, the priority user management unit 54 successfully logs in the login success history information corresponding to the card ID detected from the priority user list 52. Update the date and time information to the current date and time.

As a result, the login success history information of the IC card 5 currently used by the user is registered in the priority user list 52 as the latest login success history information. When the priority user management unit 54 updates the priority user list 52, the priority user management unit 54 updates the login success history 61b with the latest login success history information, and updates the latest login success history information with the user on the main body 10 side. Transfer to the management unit 63. The user management unit 63 updates the login success history 61a with the latest transferred login success history information. After that, the main body 10 controls the engine 17 so as to provide a function according to the user authority. The main body 10 provides a predetermined function according to the user authority until the user's logout operation or timeout is detected.

(Explanation of power supply control)
Next, the power supply control for controlling the power consumption of the MFP 1 will be described with reference to FIG. FIG. 5 shows an energy saving mode of the main body 10, an energy saving mode of the operation unit 20, and an operation mode of the card reader 6. The energy saving mode is a mode in which power consumption is reduced by stopping the power supply to a predetermined hardware resource. The main body 10 and the operation unit 20 each have a plurality of energy saving modes.

As an example, as an energy saving mode, the main body 10 has "standby mode (standby state)", "low power mode (low power state)", "quiet mode (quiet state)", and "engine off mode" in descending order of power consumption. (Engine OFF) ”and“ STR (Suspend To RAM) mode ”. The power consumption in the "standby mode (standby state)" is the highest, and the power consumption in the STR mode is the lowest. The STR mode is a mode in which the current state is saved in the memory (RAM 13) and the power supply to most devices such as the CPU 11 and the HDD 14 is stopped.

Further, as an example, the operation unit 20 has "LCD ON mode" in which the LCD of the operation panel 27 is turned on and "LCD" in which the LCD of the operation panel 27 is turned off as the energy saving mode. It has an "off mode (LCD OFF)" and a "sleep mode (SLEEP)" in which the LCD is turned off and the energization of most hardware resources is stopped.

Further, the card reader 6 has a "reader on mode" which is an energized state and a "reader off mode (reader OFF)" which is a power stop state. In the reader-on mode, non-contact wireless communication with the IC card 5 is possible. On the other hand, in the reader-off mode, non-contact wireless communication with the IC card 5 becomes impossible.

In order for the card reader 6 to perform the firmware update process, it is necessary that the card reader 6 can receive the firmware update request from the firmware distribution server device 70 and that the card reader 6 can receive the firmware from the firmware distribution server device 70. is there. That is, the card reader 6 can perform the firmware update process as long as power is supplied to at least the communication I / F25, the IC card I / F29, and the card reader 6.

Here, in the MFP 1 of the embodiment, since the card reader 6 is connected to the operation unit 20, the power supply state to the card reader 6 does not depend on the power supply state to the main body 10. Therefore, when the card reader 6 performs the firmware update process, the second power management unit 64 of the main body 10 may shift the energy saving mode of the main body 10 to the engine off mode.

On the other hand, in the operation unit 20, when the operation panel 27 is in the LCD on mode or the LCD off mode, the first power management unit 56 of the operation unit 20 supplies power to the card reader 6. Therefore, when the card reader 6 performs the firmware update process, the first power management unit 56 of the operation unit 20 may shift the energy saving mode of the operation panel 27 of the operation unit 20 to the LCD off mode.

In the MFP 1 of the embodiment, since the card reader 6 is connected to the operation unit 20, user authentication can be performed using the IC card 5 without returning the main body 10 from the energy saving mode. In other words, the user authentication process can be performed only by the operation unit 20 without depending on the main body 10.

(Explanation of processing flow in the embodiment)
Next, the flow of processing in the embodiment will be described with reference to FIGS. 6 to 9. FIG. 6 is a flowchart showing a flow of firmware update processing executed by the firmware update system 2 of the embodiment. First, the flow of the main routine of FIG. 6 will be described step by step.

By communicating with the CPU 11 of the main body 10 and the CPU 21 of the operation unit 20, the MFP 1 (main body 10, operation unit 20, card reader 6) is used for a predetermined time (for example, a preset time such as 5 minutes). It is determined whether or not there is (step S10). When it has not been used for a predetermined time (step S10; Yes), the process proceeds to step S12, and when it is not used (step S10; No), the process proceeds to step S28.

When it is determined in step S10 that the MFP 1 has not been used for a predetermined time, the CPU 11 of the main body 10 and the CPU 21 of the operation unit 20 communicate with each other to start the energy saving mode transition process of shifting to the energy saving mode. (Step S12). At this time, the CPU 21 of the operation unit 20 functions as the first power management unit 56 based on the user authentication program 51a stored in the ROM 22, and refers to the operation mode information 66a stored in the RAM 23.

The firmware update control unit 57 determines whether the operation unit 20 has received the firmware update request from the firmware distribution server device 70 through the communication between the firmware distribution server device 70 and the operation unit 20 established by the communication control unit 58. Confirm (step S14; update request receiving step). When there is a firmware update request (step S14; Yes), the process proceeds to step S16, and at other times (step S14; No), the process proceeds to step S40. Then, in step S40, the first power management unit 56 and the second power management unit 64 determine whether the energy saving mode transition process for shifting to the energy saving mode is completed. When the energy saving mode transition process is completed (step S40; Yes), the process of FIG. 6 is completed, and at other times (step S40; No), the process returns to step S14.

When there is a firmware update request in step S14, the firmware update control unit 57 determines whether the firmware update request is valid (step S16). When it is a legitimate request (step S16; Yes), the process proceeds to step S18, and when it is not (step S16; No), the process proceeds to step S42. Then, in step S42, the firmware update control unit 57 notifies that an update error has occurred, for example, by displaying it on the operation panel 27. After that, the process proceeds to step S40 described above.

The first power management unit 56 and the second power management unit 64 determine whether or not the energy saving mode transition process for shifting to the energy saving mode is completed (step S18). When the energy saving mode transition process is completed (step S18; Yes), the process proceeds to step S20, and at other times (step S18; No), the process proceeds to step S44.

When it is determined in step S18 that the energy saving mode transition process is completed, the first power management unit 56 and the second power management unit 64 perform the energy saving mode release process for canceling the energy saving mode (step S20). .. Details of the process performed in step S20 will be described later (see FIG. 7).

When it is determined in step S18 that the energy saving mode transition process has not been completed, the first power management unit 56 and the second power management unit 64 are updated to shift to the energy saving mode when performing the firmware update process. The energy saving mode transition process is performed (step S44). Details of the process performed in step S44 will be described later (see FIG. 8).

The firmware update control unit 57 performs a reception process of receiving the firmware distributed from the firmware distribution server device 70 through the communication between the firmware distribution server device 70 and the operation unit 20 established by the communication control unit 58 (step S22). ).

The firmware update control unit 57 reads the firmware update program 51b from the ROM 22 and executes it. Then, a firmware update process for updating the firmware is performed (step S24). The firmware update process performed in step S24 is a process performed by canceling the energy saving mode. Details of the specific processing will be described later (see FIG. 9).

After the firmware update process is completed, the first power management unit 56 and the second power management unit 64 should originally migrate the MFP1 (main unit 10, operation unit 20, card reader 6) in step S12. The mode is shifted to the existing energy saving mode (step S26). After that, the process of FIG. 6 is completed.

When it is determined in step S10 that the unused time of the MFP 1 has not reached the predetermined time, the firmware update control unit 57 between the firmware distribution server device 70 established by the communication control unit 58 and the operation unit 20. Through communication, the operation unit 20 confirms whether or not the firmware update request from the firmware distribution server device 70 has been received (step S28). When there is a firmware update request (step S28; Yes), the process proceeds to step S30, and at other times (step S28; No), the process returns to step S10.

When there is a firmware update request in step S28, the firmware update control unit 57 determines whether the firmware update request is valid (step S30). When it is a legitimate request (step S30; Yes), the process proceeds to step S32, and when it is not (step S30; No), the process proceeds to step S38. Then, in step S38, the firmware update control unit 57 notifies that an update error has occurred, for example, by displaying it on the operation panel 27. After that, the process returns to step S10 described above.

The firmware update control unit 57 performs a reception process of receiving the firmware distributed from the firmware distribution server device 70 through the communication between the firmware distribution server device 70 and the operation unit 20 established by the communication control unit 58 (step S32). ).

The firmware update control unit 57 reads and executes the firmware update program 51b. Then, a firmware update process for updating the firmware is performed (step S34). The firmware update process performed in step S34 is different from the firmware update process performed in step S24 in that it is performed without shifting to the energy saving mode.

The firmware update control unit 57 determines whether the firmware update process is completed (step S36). When the firmware update process is completed (step S36; Yes), the process of FIG. 6 ends. At other times (step S36; No), step S36 is repeated.

(Explanation of the flow of energy saving mode release processing)
Next, the flow of the energy saving mode release process performed in step S20 of the flowchart of FIG. 6 will be described with reference to FIG. 7. FIG. 7 is a flowchart showing the flow of the energy saving mode release process.

First, the first power management unit 56 and the second power management unit 64 store the current energy saving mode state (energy saving mode state in which the transition is completed) (step S60).

The first power management unit 56 and the second power management unit 64 release the energy saving mode to a level at which the firmware update process can be executed (step S62). Specifically, since the firmware update process can be executed if the card reader 6 can be supplied with power, the second power management unit 64 does not release the energy saving mode on the main body 10 side. Further, the first power management unit 56 releases the energy saving mode in which the LCD off mode is set when the operation panel 27 of the operation unit 20 is in the sleep mode.

The first power management unit 56 and the second power management unit 64 determine whether or not the mode can be further shifted to the energy saving mode (step S64). When it is determined that the state can be shifted to the further energy saving mode state (step S64; Yes), the process proceeds to step S66, and at other times (step S64; No), the process returns to the main routine (FIG. 6). It should be noted that whether or not the state can be further shifted to the energy saving mode may be determined in consideration of whether or not the firmware update request can be transmitted and received and the firmware can be transmitted and received, and whether or not the power supply to the card reader 6 is stopped.

The first power management unit 56 and the second power management unit 64 shift the MFP 1 (main unit 10, operation unit 20, card reader 6) to a further energy saving mode state (step S66). After that, the process returns to the main routine (FIG. 6).

(Explanation of flow of energy saving mode transition process at update)
Next, with reference to FIG. 8, the flow of the energy saving mode transition process at the time of update performed in step S44 of the flowchart of FIG. 6 will be described. FIG. 8 is a flowchart showing the flow of the energy saving mode transition process at the time of update.

When a firmware update request is received during the transition process to the energy saving mode, the first power management unit 56 and the second power management unit 64 interrupt the transition process to the energy saving mode (step S70).

The first power management unit 56 and the second power management unit 64 store the energy saving mode state in which the MFP1 (main unit 10, operation unit 20, card reader 6) is shifting due to the processing interrupted in step S70 (step). S72).

The first power management unit 56 and the second power management unit 64 shift the MFP1 (main unit 10, operation unit 20, card reader 6) to the energy saving mode in which the firmware update process can be executed (step S74; power usage state). Change step). Specifically, it is in a state where power can be supplied to at least the card reader 6.

The first power management unit 56 and the second power management unit 64 determine whether or not the mode can be further shifted to the energy saving mode (step S76). When it is determined that the state can be shifted to the further energy saving mode state (step S76; Yes), the process proceeds to step S78, and at other times (step S76; No), the process returns to the main routine (FIG. 6). Whether or not the state can be shifted to the further energy saving mode state is determined in the same manner as in step S64 described above.

The first power management unit 56 and the second power management unit 64 shift the MFP 1 (main unit 10, operation unit 20, card reader 6) to a further energy saving mode state (step S78). After that, the process returns to the main routine (FIG. 6).

(Explanation of the flow of firmware update process)
Next, the flow of the firmware update process performed in step S24 of the flowchart of FIG. 6 will be described with reference to FIG. FIG. 9 is a flowchart showing the flow of the firmware update process.

First, the first power management unit 56 and the second power management unit 64 detect whether there is an energy saving mode release request (energy saving recovery request) while the firmware update control unit 57 is performing the firmware update process. (Step S80). When there is a request to release the energy saving mode (step S80; Yes), the process proceeds to step S82, and at other times (step S80; No), the process proceeds to step S90.

The first power management unit 56 of the operation unit 20 determines whether or not the IC card 5 has been detected (step S82). When the IC card 5 is detected (step S82; Yes), the process proceeds to step S84, and at other times (step S82; No), the process proceeds to step S86.

The firmware update control unit 57 notifies the user that the IC card 5 cannot be used during the firmware update process by using the operation panel 27 or the like (step S84).

The first power management unit 56 and the second power management unit 64 determine whether there is another factor for canceling the energy saving mode (step S86). When there is another release factor (step S86; Yes), the process proceeds to step S88, and when there is no other release factor (step S86; No), the process proceeds to step S90. Other release factors include, for example, detecting a touch of the operation unit 20 on the operation panel 27, detecting a document set on the main body 10, and the like.

The first power management unit 56 and the second power management unit 64 release the energy saving mode to a level at which processing unrelated to the firmware update can be used (step S88). Specifically, the copy function, facsimile function, scanner function, printer function, etc. that can be used by manually logging in are released from the energy saving mode so that they can be used.

The firmware update control unit 57 determines whether the firmware update process is completed (step S90). When it is determined that the firmware update process is completed (step S90; Yes), the process returns to the main routine (FIG. 6), and at other times (step S90; No), the process returns to step S80.

(Effect of embodiment)
As described above, in the MFP 1 (information processing device) of the embodiment, the first power management unit 56 and the second power management unit 64 (power management unit) have the main body 10 (first unit) and the operation unit 20. The power usage state of (second unit) is changed to a state in which at least the firmware update control unit 57 can execute the firmware update process. Further, the communication control unit 58 (communication unit) of the operation unit 20 establishes communication between the firmware distribution server device 70 (firmware distribution means) and the operation unit 20. Then, when the firmware update control unit 57 receives a firmware update request from the firmware distribution server device 70 to the card reader 6 (acquisition unit), the firmware update control unit 57 performs the received firmware update process. Therefore, when the MFP 1 receives the firmware update request, the MFP 1 transitions to an energy-saving state in which the firmware update process for the card reader 6 can be executed, so that the firmware of the card reader 6 can be reliably updated.

Further, in the MFP 1 (information processing device) of the embodiment, the first power management unit 56 and the second power management unit 64 (power management unit) have the firmware update control unit 57, and the firmware update control unit 57 has the firmware distribution server device 70 (firmware distribution). When the firmware update request is received from the means), the main body 10 (first unit) or the operation unit 20 (second unit) stops the power supply to the predetermined hardware resources to reduce the power consumption. When in the energy saving mode, the power usage state of the main body 10 or the operation unit 20 is changed to a state in which at least the firmware update control unit 57 can execute the firmware update process. Therefore, the firmware can be reliably updated even when the MFP1 is in the energy saving mode.

Then, in the MFP 1 (information processing device) of the embodiment, when the firmware update control unit 57 receives a firmware update request from the firmware distribution server device 70 (firmware distribution means), the first power management unit 56 and the first power management unit 56 The power management unit 64 (power management unit) of 2 can shift the power usage state of the main body 10 (first unit) and the operation unit 20 (second unit) to an energy saving mode with lower power consumption. Under the condition of, the power usage state of the main body 10 and the operation unit 20 is changed to the energy saving mode in which the power consumption is further reduced. Therefore, the power consumption at the time of updating the firmware can be further reduced.

Further, in the MFP 1 (information processing device) of the embodiment, the first power management unit 56 and the second power management unit 64 (power management) before the firmware update control unit 57 finishes the firmware update process. When the unit) receives a request to return from the energy saving mode (for example, touch detection of the operation panel 27, detection of a set of documents, etc.), the first power management unit 56 and the second power management unit 64 , Change the power usage status of the main unit 10 and the operation unit 20 so that the functions of the main unit 10 (first unit) and the operation unit 20 (second unit) unrelated to the firmware update process can be used. .. Therefore, only the functions unrelated to the firmware update process can be used as usual, so that the operability of the MFP 1 can be improved.

Further, since the MFP 1 (information processing device) of the embodiment connects the card reader 6 to the operation unit 20, the firmware distributed from the firmware distribution server device 70 (firmware distribution means) is transmitted to the communication I / F 25 (communication unit). It can be received by the card reader 6 via. Therefore, the firmware can be updated without removing the card reader 6 from the operation unit 20. That is, the firmware can be easily updated.

Further, the firmware update system 2 (information processing device management system) of the embodiment is appropriate when receiving a firmware update request from the firmware distribution server device 70 (firmware distribution means) in various energy-saving states of the MFP1. It is possible to transition to the energy saving state and update the firmware reliably.

It should be noted that the above-described embodiment is presented as an example, and is not intended to limit the scope of the present invention. This novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the gist of the invention.

For example, in the above description of the embodiment, the present invention is applied to the MFP 1 (information processing device) to which the operation unit 20 can be removed and attached from the main body 10, but the operation unit is fixed to the main body. Even with an information processing device such as the above, the same effect as described above can be obtained.

Further, in the description of the embodiment, the firmware is configured to be distributed from the firmware distribution server device 70 (firmware distribution means), but the firmware distribution means is not limited to the server device. That is, if the computer is connected to the network 40, it can be used as the firmware distribution means by mounting the same function as the firmware distribution server device 70 on the computer.

Further, although the MFP1 (information processing device) in the embodiment has been described as having a copy function, a scanner function, a facsimile function, and a printer function, any information processing device having at least one or more of these functions is used. It can be applied in the same manner as in the embodiment.

1 MFP (information processing equipment)
2 Firmware update system (information processing device management system)
5 IC card (authentication medium)
6 Card reader (acquisition section)
10 Main body (first unit)
20 Operation unit (second unit)
56 First Power Management Department (Power Management Department)
57 Firmware update control unit 58 Communication control unit (communication unit)
64 Second Power Management Department (Power Management Department)
70 Firmware distribution server device (firmware distribution means)

Japanese Patent No. 5031862

Claims (8)

A first unit that provides a given function and
A second unit connected to the first unit is provided.
The second unit is
An acquisition unit that acquires authentication information from an authentication medium and makes it possible to use the function of the first unit by using the acquired authentication information.
A communication unit that establishes communication between the second unit and a firmware distribution means that distributes a firmware update request and firmware to the second unit.
A firmware update control unit that receives the firmware update request and the firmware from the firmware distribution means and performs the firmware update process to the acquisition unit.
When the firmware update control unit receives the firmware update request, at least the firmware update control unit notifies the acquisition unit of the power usage state of the first unit and the second unit. The power management unit that changes the firmware update process to an executable state,
An information processing device characterized by having. When the firmware update control unit receives the firmware update request, the power management unit consumes the first unit or the second unit by stopping the power supply to a predetermined hardware resource. When in the energy saving mode for reducing power consumption, the power usage state of the first unit and the second unit is changed to a state in which at least the firmware update control unit can execute the firmware update process. The information processing device according to claim 1. When the firmware update control unit receives the firmware update request, the power management unit can shift the power usage state of the first unit and the second unit to an energy saving mode with lower power consumption. The first or second unit is characterized in that the power usage state of the first unit and the second unit is changed to the energy saving mode having a lower power consumption, provided that the above is a condition. Information processing equipment. When the power management unit receives a request to return from the energy saving mode before the firmware update control unit finishes the firmware update process,
The power management unit uses the power of the first unit and the second unit so that the functions of the first unit and the second unit, which are unrelated to the firmware update process, can be used. The information processing apparatus according to claim 2 or 3, wherein the state is changed. A first unit that provides a given function and
A second unit connected to the first unit is provided.
The second unit is
An acquisition unit that acquires authentication information from an authentication medium and makes it possible to use the function of the first unit by using the acquired authentication information.
A communication unit that establishes communication between the second unit and a firmware distribution means that distributes a firmware update request and firmware to the second unit.
A firmware update control unit that receives the firmware update request and the firmware from the firmware distribution means and performs the firmware update process to the acquisition unit.
When the firmware update control unit receives the firmware update request, at least the firmware update control unit notifies the acquisition unit of the power usage state of the first unit and the second unit. The power management unit that changes the firmware update process to an executable state,
An information processing equipment management system characterized by having. An information processing device management processing method in an information processing device management system including a first unit that provides a predetermined function and a second unit connected to the first unit.
The second unit is
A step in which the communication unit establishes communication between the second unit and a firmware distribution means for delivering a firmware update request and firmware to the second unit.
The firmware update control unit receives the firmware update request and the firmware from the firmware distribution means, acquires the authentication information from the authentication medium, and uses the acquired authentication information to obtain the firmware of the first unit. The step of updating the firmware for the acquisition unit that enables the function, and
When the power management unit receives the firmware update request, the firmware update control unit acquires at least the power usage status of the first unit and the second unit. The step of changing the firmware update process to a state in which the unit can be executed, and
An information processing device management processing method characterized by having. An information processing device management processing program in an information processing device management system including a first unit that provides a predetermined function and a second unit connected to the first unit.
The computer of the second unit,
An acquisition unit that acquires authentication information from an authentication medium and makes it possible to use the function of the first unit by using the acquired authentication information.
A communication unit that establishes communication between the second unit and a firmware distribution means that distributes a firmware update request and firmware to the second unit, and the firmware update from the firmware distribution means. A firmware update control unit that receives a request and the firmware and performs a firmware update process for the acquisition unit.
When the firmware update control unit receives the firmware update request, at least the firmware update control unit notifies the acquisition unit of the power usage state of the first unit and the second unit. An information processing device management processing program characterized by functioning as a power management unit that changes the firmware update process to an executable state. A storage medium that can be read by a computer that stores the information processing device management processing program according to claim 7.

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