JP2016092821A - Management device of network equipment and method in network equipment - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method in which management capable of dealing with duplication of equipment particular number can be performed, when data received from network equipment is associated with the equipment particular number of the equipment to manage them.SOLUTION: A management device 103 manages association with at least one of a MAC address and global IP address, to a serial number of network equipment 102 to be managed. In the management device 103, in accordance with a comparison result of combinations of equipment information and managed serial number included in receipt information from the network equipment 102 and MAC address and global IP address, control such as update of association and cancellation of receipt information in accordance with the device information of the receipt information is performed.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a technique for appropriately managing data received via a network in association with the device identification number of a network device even when the device identification number is duplicated.

  A network device management apparatus (hereinafter simply referred to as “management apparatus”) receives data from a network device such as an image forming apparatus located in a remote place via a computer network (for example, the Internet). The received data is stored in association with a related network device in the database of the management apparatus, and can be browsed as necessary. The management device manages data of the network device based on the serial number received from the network device. This serial number is a device identification number set for a network device at the time of factory shipment. In addition, there are MAC (Media Access Control) addresses and IP (Internet Protocol) addresses as information for identifying network devices. The MAC address is basically unique information, but the network card may be replaced when maintenance is performed on the network device. In this case, the MAC address may be changed. On the other hand, the global IP address is information uniquely determined on the Internet, but the assigned information may be updated. For this reason, identification information suitable for uniquely identifying and managing network devices is generally a serial number. A method for managing network device data by paying attention to the uniqueness of the serial number is known.

  Patent Document 1 discloses a method of managing a network device to be managed in association with a serial number, a MAC address, and a global IP address. By focusing attention on the uniqueness of the serial number, the device disclosed in Patent Document 1 can continue to be managed as the same network device even when the MAC address or the global IP address is changed.

JP 2010-200288 A

By the way, if a human error occurs during assembly at the factory, or if there is a problem with the controller of the network device for some reason, there are two or more network devices with duplicate device identification numbers such as serial numbers. This may happen. As described above, when the serial number is duplicated among a plurality of network devices, the management apparatus cannot correctly identify the network device. For example, when the management device receives information from a network device having the same serial number as the network device that is the original management target, there may be a problem that management of the network device cannot be performed correctly.
An object of the present invention is to provide a method capable of performing management that can cope with duplication of device identification numbers when managing data received from a network device in association with the device identification number of the device.

  The management apparatus according to the present invention includes a first management unit that manages a correspondence between at least one of the first address information and the second address information with respect to a device identification number for each network device to be managed. , Second management means for managing, as a first list, a set of network device identification numbers and first address information for which received data including operation information should be discarded, and the network device via the network When receiving means for receiving received data including a specific number, first address information, second address information, and operation information, and a device specifying number included in the received data are managed by the first managing means In addition, the first determination means for determining whether the device identification number is registered in the first list, and the first determination means When it is determined that the device identification number is not registered in the first list, the device identification number and the first address information included in the received data are managed in association with each other by the first management unit. A second determination unit that determines whether or not the device identification number and the first address information are associated and managed by the first management unit by the second determination unit; A third determination unit for determining whether or not the device identification number and the second address information included in the received data are managed in association with each other by the first management unit; and the device identification number by the second determination unit. And the first address information is determined to be managed in association with the first management unit, or the device identification number and the second address are determined by the third determination unit. When it is determined that information is managed in association with the first management means, storage means for controlling storage of operation information included in the received data, and the device identification number is determined by the first determination means. When it is determined that it is registered in the first list, or it is determined by the third determination means that the device identification number and second address information are not managed in association with the first management means And a discarding unit that discards the received data.

  According to the present invention, when managing data received from a network device in association with the device identification number of the device, management capable of dealing with duplication of the device identification number can be performed.

It is a network block diagram of the management apparatus of embodiment of this invention and each apparatus linked | related with this. It is a block diagram showing the hardware constitutions of the network apparatus of FIG. It is a block diagram showing the hardware constitutions of the management apparatus of FIG. 1, and a client apparatus. FIG. 2 is a functional block diagram of the management device, network device, and client device of FIG. 1. It is a figure which shows the network device information table which a device information management part hold | maintains. It is a figure which shows the information which a management apparatus receives from a network device. It is a figure which shows the communication schedule information set to a network device. It is a figure which shows the table information which a communication suppression data management part hold | maintains. It is a flowchart explaining the example of a process which a management apparatus performs with FIG. It is a flowchart explaining the example of a process which a management apparatus performs. It is a figure which illustrates the email which a management apparatus notifies to a user. It is a figure which shows the network device information table which a device information management part hold | maintains in the modification. It is a flowchart explaining the control at the time of the data reception from the network device in a modification. It is a flowchart which shows the process following FIG.

Embodiments of the present invention will be described below with reference to the drawings.
First, an apparatus that communicates with the management apparatus 103 and the network device 102 to be managed will be described with respect to a system example using the information processing apparatus according to the present embodiment. FIG. 1 is a network configuration diagram of each device that cooperates with the management device 103. The management apparatus 103 is connected to and communicates with a network device 102 that is a management target on the network 101 via the Internet 104. A client device 100 that requests acquisition of information is connected to a management device 103 via the Internet 104. In this embodiment, the network device 102 is an image forming apparatus. However, this is merely an example for explaining a typical embodiment of the present invention, and does not limit the scope of application of the present invention.

  The management apparatus 103 is a server that centrally manages the network devices 102 in the customer environment, and is provided on the Internet 104. The management apparatus 103 manages network devices 102 on a plurality of customer networks 101. The network device 102 is an image forming apparatus having, for example, a printer, a FAX (facsimile) apparatus, a copy function, and the like. The network device 102 can transmit management information to the management device 103. The management information is, for example, the number of printed sheets, the degree of wear of parts constituting the device, firmware version information, and the like.

  The client device 100 is a terminal device such as a personal computer for a person in charge of a sales company to operate the management device 103 via the network 101. As an operation performed by the user using the client device 100, for example, there is an operation of a management information acquisition request transmitted from each network device 102 to the management device 103. In addition, there is an operation of receiving an e-mail transmitted when the management apparatus 103 detects that an error or the like has occurred in each network device 102. In FIG. 1, a system composed of three devices is illustrated for ease of explanation, but the number of devices is not limited. For example, although the local network 101 and the network device 102 are singular in FIG. 1, there may be a plurality of them. Moreover, the management apparatus 103 may be comprised with several apparatus for every function. The client apparatus 100 is not limited to a personal computer but may be an information processing apparatus having the same function, such as a mobile terminal. Further, the network device 102 according to the present embodiment directly transmits its own management information to the management apparatus 103. The configuration is not limited to this, and an agent device that mediates communication may acquire management information from the network device 102 and transmit the management information to the management device 103. In this case, one agent device may be assigned to each network device 102 or may have a function capable of managing a plurality of network devices 102 on the local network.

  Next, with reference to FIG. 2, a hardware configuration of an apparatus that cooperates with the management apparatus 103 in FIG. 1 will be described. FIG. 2 is a block diagram illustrating a hardware configuration example of the network device 102. The network device 102 includes an image processing unit 200, a printing unit 206, and a reading unit 207. The image processing unit 200 includes a CPU (Central Processing Unit) 201, a main storage device 202, a secondary storage device 203, a user interface unit 204, and an external interface unit 205.

  The CPU 201 is a unit that interprets and executes a predetermined program and instructs various controls of the network device 102. The main storage device 202 is a work memory used when the CPU 201 executes a program, and is realized by a RAM (Random Access Memory) or the like. The secondary storage device 203 stores an application program, which is realized by an HDD (Hard Disk Drive) or an SSD (Solid State Drive). Various programs stored in the secondary storage device 203 are loaded into the main storage device 202 when the CPU 201 executes the programs. The user interface unit 204 is a unit having a function of accepting a user operation input, and is realized by using a panel or operation keys that can be touched. The external interface unit 205 is used when receiving data from an external device or transmitting data to the external device. Various management information of the network device 102 stored in the secondary storage device 203 can be provided to the outside via a protocol such as HTTP or SNMP. HTTP is an abbreviation for “Hypertext Transfer Protocol”, and SNMP is an abbreviation for “Simple Network Management Protocol”. For example, the external device includes an external storage device such as an external HDD or a USB (Universal Serial Bus) memory, a computer connected via a network, and other network devices. In the present embodiment, it is assumed that the network device 102 communicates with the management apparatus 103 in order to transmit and receive information.

  Next, the hardware configuration of the client apparatus 100 and the management apparatus 103 as information processing apparatuses according to the present embodiment will be described with reference to FIG. FIG. 3 is a block diagram illustrating an internal structure of the information processing apparatus, illustrating a basic configuration common to the client apparatus 100 and the management apparatus 103. The information processing apparatus includes a CPU 300, a main storage device 301, a secondary storage device 302, a user interface unit 303, and an external interface unit 304. Since the CPU 300 and the main storage device 301 are the same as those of the network device 102 shown in FIG. 2, their detailed description will be omitted and the differences will be mainly described.

  The secondary storage device 302 stores various programs including an application program and an OS (Operating System) program. In the case of the management device 103, the secondary storage device 302 stores print history information, setting value information of the network device 102, firmware information of the network device 102, and the like. The user interface unit 303 that receives a user operation input receives a signal corresponding to an operation performed by the user using, for example, a keyboard or a pointing device. The external interface unit 304 is connected to the Internet 104 and used for communication with other devices.

  Next, with reference to FIG. 4, the software configuration of each device linked to the management device 103 in FIG. 1 will be described. FIG. 4 is a functional block diagram showing the client device 100, the network device 102, and the management device 103, and shows the functions of the components of the software resource as blocks.

  The network device 102 includes an information processing unit 421, a usage status management unit 422, a device information management unit 423, and an input / output processing unit 424. The information processing unit 421 communicates with the management apparatus 103 via the Internet 104. The information processing unit 421 transmits information about the network device 102 itself to the management apparatus 103 and receives a communication schedule described later. The usage status management unit 422 manages print processing execution history information in the network device 102, error information such as a paper jam, alarm information, and information on the degree of wear of each component. In addition, the usage status management unit 422 holds the number of printed sheets in the network device 102 as a counter value (count value), and updates the counter value when print processing is executed. The counter value is counter information in which the values are accumulated based on the operation of the network device, and can hold a plurality of types of count values. For example, there is a count value by a total counter that counts regardless of the type of printing, and a count value by a color counter that counts only during color printing. The device information management unit 423 manages device information of the network device 102. The device information is network setting information such as a serial number, MAC address, global IP address (hereinafter referred to as GIP address), and firmware version information. The input / output processing unit 424 is in charge of input processing and output processing. In the input process, the input / output processing unit 424 receives an input operation by a user or a maintenance person via the user interface unit 303 installed in the network device 102. In the output process, the input / output processing unit 424 performs a process of displaying information on a display panel or the like via the external interface unit 304 mounted on the network device 102.

  The client device 100 includes an information processing unit 411 and an input / output processing unit 412. The information processing unit 411 has a function of transmitting / receiving information to / from the management apparatus 103 via the Internet 104. The input / output processing unit 412 receives user operation input and performs processing for presenting information to the user through display control or the like. For example, when a personal computer is used for the client device 100, the input / output processing unit 412 is realized using a general browser (browsing software). Of course, the implementation form of the input / output processing unit in the present invention is not limited to the above.

  The management apparatus 103 includes a device information management unit 401, a communication suppression data management unit 402, and an information processing unit 403. The device information management unit 401 manages information of each network device 102 to be managed by the management apparatus 103 in a database (DB). Information on the network device 102 to be managed will be described later. The communication suppression data management unit 402 manages a list of network devices 102 that need to suppress communication in a database. A method for suppressing communication and information on devices to be managed will be described later. The information processing unit 403 communicates with the client device 100 and the network device 102 through a connection via the Internet 104, receives information, and accepts a request for information.

  FIG. 5 illustrates a network device information table (hereinafter referred to as a device information table) 504 that is a first table held by the device information management unit 401. This table holds a list of network devices 102 managed by the management apparatus 103 and related information of each network device 102. The device information management unit 401 updates the device information table 504 as needed based on information received from the network device 102. The serial number 500 is a device identification number indicating a value uniquely assigned to the device when the network device 102 is shipped from the factory. The serial number means, for example, a manufacturing number for uniquely identifying a product set by a vendor that manufactures an image forming apparatus or the like. The MAC address 501 of the network device 102 is first address information indicating a value uniquely assigned to a network card or the like. The GIP address 502 is second address information assigned for the network device 102 to connect to the Internet. The MAC address 501 and the GIP address 502 can be identification information that can identify a network device depending on conditions. The final reception counter value 503 is a counter value acquired by the device information management unit 401 when it is last received from the network device 102.

  Further, the user can register in advance the information of the serial number 500 of the network device 102 that is scheduled to be installed in the device information table 504 in advance. In this way, when the management apparatus 103 receives information from the network device 102 having the same serial number installed later, the device can be managed based on the registered information.

  FIG. 6 shows a communication information table 605 that is a second table as an example of information that the management apparatus 103 receives from the network device 102 via the Internet 104. This table is held by the information processing unit 421 of the network device 102. The information processing unit 421 generates communication information based on information held by the usage status management unit 422 and the device information management unit 423. The communication type 600 indicates an identifier for determining what the network device 102 has performed communication with. As the communication type 600, for example, there is a “first communication test” executed after the installation of the network device 102. The “initial communication test” is an example of a communication test performed between the network device 102 and the management apparatus 103. In addition, there is “counter value transmission” for sending a counter value such as the number of printed sheets in the network device 102. The serial number 601 indicates a device identification number received by the management apparatus 103 from the network device 102. The MAC address 602 indicates the MAC address information received by the management apparatus 103 from the network device 102. A GIP address 603 indicates GIP address information of the network device 102. The other incidental information 604 has various types and the number of information depending on the purpose of communication, and the stored contents differ depending on the type of communication 600. For example, when the communication type 600 is “counter value transmission”, the combination of the counter type and its numerical value is stored in the memory as other accompanying information 604. FIG. 6 exemplifies that a total counter and a color counter indicating the types of counters and the respective count values are stored.

  FIG. 7 shows an example of the communication schedule table 703 set in the network device 102. Regarding the communication schedule, each network device 102 can have a setting, and the communication suppression data management unit 402 holds the communication schedule. A communication schedule table 703, which is a third table, includes information on a communication type 700, a communication interval 701, and a validity flag 702. It is assumed that the valid flag 702 is set to “invalid” for all communication types 700 when the network device 102 is shipped. The network device 102 installed in the user's environment transmits a communication schedule acquisition request to the management apparatus 103 when performing an initial communication test. The management apparatus 103 transmits a communication schedule corresponding to the requesting network device 102 as a response to the acquisition request. As a result, the network device 102 can periodically transmit information to the management apparatus 103.

  Referring to each item shown in FIG. 7, the communication type 700 is information for setting communication contents such as “counter value transmission”, “alarm transmission”, and “hardware information transmission”. The communication interval 701 is information indicating the waiting time until the next communication is performed after the network device 102 performs communication once for each communication type 700. The valid flag 702 is information for setting whether or not to execute the communication for each communication type 700 (valid or invalid).

  FIG. 8A shows an example of a device list table 802 (first list) that is a fourth table held by the communication suppression data management unit 402 and in which device information to be discarded of received data is registered. ing. In this table, network devices 102 whose serial numbers overlap with other network devices for some reason are registered. The device information management unit 401 of the management apparatus 103 discards received data even if communication is performed from the network device 102 registered in this table and operation data is received. The serial number 800 indicates serial number information of the network device 102, and the MAC address 801 indicates MAC address information of the network device 102. The discard of the data received from the network device 102 is determined by comparing the first set of information with the second set of information. The first set of information is a set of serial number and MAC address on the device list table 802. The second set of information is a set of serial number and MAC address of the network device 102 included in the data received by the management apparatus 103.

  FIG. 8B illustrates an example of a schedule stop device list table 902 that is a fifth table held by the communication suppression data management unit 402. This table is a table for registering the network device 102 for which the communication schedule is to be stopped. The serial number of the network device 102 is registered as the serial number 900, and the GIP address of the network device 102 is registered as the GIP address 901. Therefore, when a communication schedule request is made from the network device 102 registered in this table to the management apparatus 103, processing for transmitting a schedule for stopping communication to the network device 102 is executed. Specifically, the value of the valid flag 702 in the communication schedule table 703 shown in FIG. 7 is set to “invalid”, and the schedule transmission is performed. The network device 102 that has received the schedule transmission data stops executing the communication schedule.

  Next, with reference to the flowcharts of FIG. 9 and FIG. 10, control at the time of data reception from the network device 102 performed by the management apparatus 103 of this embodiment will be described. FIG. 9 and FIG. 10 illustrate processing when determining whether received data is data from a network device registered in advance in the management device 103 when the management device 103 receives communication information from the network device. To do. This control operation is realized by the CPU 300 of the management apparatus 103 reading and executing the control program stored in the secondary storage device 302. Further, as a precondition, before the network device 102 to be managed by the management apparatus 103 is installed in the customer environment or the like and performs initial communication with the management apparatus 103, the serial number of the network apparatus is stored in the device information table 504. It shall be registered in advance.

  First, in S1000 of FIG. 9, the management apparatus 103 receives operation data such as information for identifying the device and counter information from the network device 102. In step S <b> 1001, the device information management unit 401 acquires a serial number included in data received from the network device 102, and checks whether this serial number is registered in the device information table 504. If it is confirmed that the serial number included in the received data is registered, the process proceeds to S1003. If it is confirmed that the serial number is not registered, the process proceeds to S1002. In step S1002, the device information management unit 401 regards the network device determined to have no serial number registered as a management target, discards the operation data received in step S1000, and ends this processing.

  On the other hand, in step S <b> 1003, the communication suppression data management unit 402 determines whether the serial number included in the data received from the network device 102 is registered in the device list table 802. As a result of the determination, if it is confirmed that the serial number included in the data received from the network device 102 is registered, the process proceeds to S1004, and it is confirmed that the serial number is not registered. Transits to S1005. In step S1004, the information processing unit 403 outputs the received information on the network device 102 to the log as history data so that the fact that the communication from the network device 102 has been accepted can be confirmed later. The network device information includes a serial number, a MAC address, and a GIP address. The operation data received in S1000 is discarded, and this process ends.

  In step S <b> 1005, the device information management unit 401 determines whether or not a MAC address is registered in the device information table 504 for the network device 102 that has been registered with the serial number and is confirmed in the processing of step S <b> 1001. As a result of the determination, if it is confirmed that the MAC address of the network device 102 is registered, the process proceeds to S1007. If it is confirmed that the MAC address is not registered, the process proceeds to S1006. In S1006, the device information management unit 401 newly manages the MAC address included in the data received from the network device 102 in association with the serial number by registering it in the device information table 504, and the process proceeds to S1008. In step S <b> 1007, the device information management unit 401 determines whether the received MAC address included in the data received from the network device 102 matches the registered MAC address registered in the device information table 504. As a result of the determination, if it is confirmed that the received MAC address information matches the registered MAC address information, the process proceeds to S1008, and if it is confirmed that the two information do not match, FIG. It changes to S1009 of 10.

  In S1008 in FIG. 9, the device information management unit 401 refers to the device information table 504 and checks whether the GIP address is registered for the network device that has been registered with the serial number and confirmed in the processing of S1001. Determine whether or not. As a result of the determination, when it is confirmed that the GIP address is registered for the target network device, the process proceeds to S1010. When it is confirmed that the GIP address is not registered, the process proceeds to S1011. . In step S1011, the device information management unit 401 newly manages the GIP address included in the data received from the network device 102 in association with the serial number by registering it in the device information table 504, and the process proceeds to step S1018. In step S <b> 1010, the device information management unit 401 determines whether the received GIP address included in the data received from the network device 102 matches the registered GIP address registered in the device information table 504. As a result of the determination, if it is confirmed that the information on the received GIP address matches the information on the registered GIP address, the process proceeds to S1018, and if it is confirmed that the information does not match, the process proceeds to S1012. .

  In step S <b> 1012, the device information management unit 401 updates the registered GIP address with the reception GIP address included in the reception data from the network device 102. That is, the registered GIP address is updated and managed so as to be associated with the serial number and the MAC address by the received GIP address, and the process proceeds to S1018. In step S1018, the information processing unit 403 processes received data from the network device 102 as regular data, stores operation information, updates the operation information, and the like, and then ends a series of processing.

  In step S1009 of FIG. 10, the device information management unit 401 determines whether a GIP address is registered in the device information table 504 for the network device 102 that has been registered with the serial number, which is confirmed in step S1001. As a result of the determination, if it is confirmed that the GIP address is registered, the process proceeds to S1013. If it is confirmed that the GIP address is not registered, the process proceeds to S1011 in FIG. In step S <b> 1013, the device information management unit 401 determines whether the received GIP address information included in the data received from the network device 102 matches the registered GIP address information registered in the device information table 504. As a result of the determination, if it is confirmed that the received GIP address information matches the registered GIP address information, the process proceeds to S1014. If it is confirmed that the both information do not match, the process proceeds to S1015.

In step S1014, the device information management unit 401 updates the registered MAC address registered in the device information table 504 with the received MAC address included in the received data from the network device. That is, the registered MAC address is updated and managed by the received MAC address so as to be associated with the serial number and the GIP address, and the process proceeds to S1016. In next step S1016, the device information management unit 401 performs determination processing for the following two conditions.
(I) The counter value is received in the operation data included in the received data from the network device.
(II) The counter value included in the reception data from the network device is smaller than the final reception counter value registered in the device information table 504.
If it is confirmed that the conditions (I) and (II) are satisfied, it means that the counter value has been reversed, and the flow shifts to S1017. On the other hand, if it is confirmed that the condition (I) or (II) is not satisfied, the process proceeds to S1018 in FIG.

  In step S1017, the information processing unit 403 outputs the network device information (serial number, MAC address, GIP address) included in the received data received in step S1000 to the log as history information, notifies the user by e-mail, and transitions to step S1018. To do. This notification is made to inform the user that the counter value has been reversed. Details of the mail notified to the user in S1017 will be described later. In S1017, processing for registering the network device 102 that has received the reception information in S1000 in the device list table 802 shown in FIG. 8A is executed. In S1017, after the user confirms the device information of the network device 102 output as a log, the user information may be registered in the device list table 802 by a manual operation.

  In step S1015, the information processing unit 403 determines whether the type of communication received in step S1000 is “initial communication test”. If it is confirmed that the communication type is “initial communication test”, the process proceeds to S1020. If it is confirmed that the communication type is not “initial communication test”, the process proceeds to S1019. In step S1019, the communication suppression data management unit 402 registers the network device information (serial number and GIP address) in the schedule stop device list table 902. That is, the serial number and GIP address included in the received data are registered as management information for managing the network device whose communication schedule should be stopped, and the process proceeds to S1021. As described above, the network device registered in the table 902 is responded to a subsequent communication schedule request with a schedule for stopping communication in order to invalidate the data transmission function of the network device. It will be. In step S1020, the information processing unit 403 responds to the network device 102 with NG data indicating test failure as a response to the initial communication test. Here, since the network device to which NG data is responded from the management apparatus 103 is identified as an unregistered device that is not a management target, the data transmission function is disabled so that subsequent communication is not performed. Will be. In step S1021, the information processing unit 403 outputs information (serial number, MAC address, and GIP address) of the network device 102 included in the received data received in step S1000 to the log as history information. For example, log information may be output together with the date and time of data transmission / reception as information on a network device in which the data transmission function is disabled. In step S1022, the information processing unit 403 discards the operation data of the network device 102 received in step S1000 and ends this processing.

  If the information processing unit 403 determines in step S1018 in FIG. 9 that the communication is normal from the network device 102, the information processing unit 403 transmits a communication schedule to the network device and enables communication such as “counter value transmission”. Set to. On the other hand, in each process of S1002, S1004, and S1022, the communication is not validated when the operation data received from the network device 102 is discarded. The processing shown in FIGS. 9 and 10 can cope with a case where a network device different from the network device 102 registered in advance in the management apparatus 103 performs communication using the same serial number. That is, in this case, since it is determined that the target network device is not a registered network device to be managed, the received operation data can be discarded.

  With reference to FIG. 11, an example of an e-mail 1102 that the management apparatus 103 notifies the user in the process of S1017 of FIG. 10 will be described. FIG. 11 illustrates an e-mail notified to the user when the management apparatus 103 determines that the information received from the network device is inconsistent. The user who receives the notification by the e-mail 1102 uses the management apparatus 103 to manage the network device. Specifically, for example, a staff of a sales company that sells network devices is assumed. Of course, any user who can confirm the installation status of the network device 102 by receiving an e-mail notification may receive it. The e-mail title 1100 is a title written to prompt the notification destination user to confirm the MAC address of the network device to be managed. The body 1101 of the e-mail includes the serial number of the network device in which the problem occurs in the displayed content. In this embodiment, an example of notification by e-mail has been shown, but it is not necessarily e-mail. For example, the status may be notified when a user accesses a corresponding URL (Uniform Resource Locator) with a browser by a WEB (World Wide Web) application.

  In this embodiment, by performing management using the device list table (first list), when a plurality of network devices communicate with duplicate serial numbers, network devices that are not registered in the management apparatus 103 in advance are used. The received operation information is discarded. Therefore, it is possible to prevent the registration information registered in the management apparatus 103 such as the counter value of the network device from being rewritten by inappropriate network device information. According to the present embodiment, the management information is detected as an inappropriate value by detecting the reception of the operation information from another network device having the same serial number as the network device to be managed and discarding the operation information. Can be prevented from being updated. Furthermore, it is possible to cope with the case where the MAC address is updated due to the replacement of the network card during maintenance or the GIP address is updated. In such a case, it is determined that the MAC address and the GIP address are updated in the same device, and the registration information is updated. Therefore, communication from the same network device can be correctly managed.

(Modification)
In the above-described embodiment, it is assumed that the GIP address of the network device is maintained without being updated for a relatively long period, for example, half a year. However, in some environments where network devices are used, the GIP address may change every time communication is performed. As an example, this corresponds to a case where there are a plurality of proxy servers through which network devices in the local network connect to the Internet. In such an environment, there is a possibility that the timing at which the MAC address changes due to the NIC exchange and the timing at which the GIP address changes. Therefore, according to the above-described embodiment, when NIC exchange is performed on a network device to be managed, it is possible that the received operation information is discarded. Therefore, a management unit using a management apparatus that can appropriately determine a network device to be managed even in an environment where the GIP address is switched every time communication is performed will be described as a modification of the above-described embodiment. 1, 2, 3, 4, 6, 7, 10, and 11 in this embodiment are the same as those in the above-described embodiment, and thus the description thereof is omitted.

  FIG. 12 illustrates a network device information table (hereinafter referred to as a device information table) 504, which is a first table held by the device information management unit 401 in the present embodiment. This table holds a list of network devices 102 managed by the management apparatus 103 and related information of each network device 102. The device information management unit 401 updates the device information table 504 as needed based on information received from the network device 102. The serial number 500, MAC address 501, and final reception counter value 503 are the same as those in the device information table of FIG. The GIP address list 1200 holds a plurality of GIP addresses for each network device 102. As described above, the GIP address list 1200 holds a plurality of GIP addresses, so that the case where the GIP address of the same network device changes can be dealt with.

  Next, with reference to the flowcharts of FIG. 13 and FIG. 14, control at the time of data reception from the network device 102 performed by the management apparatus 103 of this embodiment will be described. FIG. 13 and FIG. 14 illustrate processing when determining whether received data is data from a network device registered in advance in the management device 103 when the management device 103 receives communication information from the network device. To do. Note that the processing contents shown in FIGS. 13 and 14 will be described only in the difference from the present embodiment with respect to the processing shown in FIGS. 9 and 10 in the above-described embodiment.

  In S1301 of FIG. 13, the device information management unit 401 refers to and collates the device information table 504. As a result, the device information management unit 401 determines whether one or more GIP addresses are registered in the GIP address list 1200 for the network device that has been registered with the serial number, which is confirmed in the processing of S1001. As a result of the determination, if it is confirmed that the GIP address is registered for the target network device, the process proceeds to S1302, and if it is confirmed that the GIP address is not registered, the process proceeds to S1303. .

  In step S <b> 1303, the device information management unit 401 registers the GIP address included in the data received from the network device 102 in the GIP address list 1200 of the device information table 504. The device information management unit 401 manages the GIP address included in the data received from the network device 102 as a GIP address candidate corresponding to the serial number, and the process proceeds to S1018. In step S <b> 1302, the device information management unit 401 determines whether the received GIP address included in the received data from the network device 102 matches the GIP address registered in the GIP address list 1200. That is, the device information management unit 401 determines whether or not there is a matching GIP address registered in the GIP address list 1200 in the device information table 504 for the received GIP address. As a result of the determination, when it is confirmed that the information of the received GIP address exists in the GIP address list 1200, the process proceeds to S1018, and when it is confirmed that the information does not exist, the process proceeds to S1304.

  In step S <b> 1304, the device information management unit 401 adds the reception GIP address included in the reception data from the network device 102 to the GIP address list 1200. That is, in the GIP address list 1200, the received GIP address is managed as one of the GIP addresses corresponding to the serial number and the MAC address, and the process proceeds to S1018.

  If it is confirmed in S1007 in FIG. 13 that the received MAC address information does not match the registered MAC address information, the process proceeds to S1305 in FIG. In step S <b> 1305, the device information management unit 401 confirms whether or not one or more GIP addresses are registered in the GIP address list 1200 of the device information table 504 for the network device 102 registered with the serial number confirmed in the processing of step S <b> 1001. Determine. As a result of the determination, if it is confirmed that the GIP address is registered, the process proceeds to S1306. If it is confirmed that the GIP address is not registered, the process proceeds to S1303 in FIG. In step S <b> 1306, the device information management unit 401 determines whether the received GIP address information included in the data received from the network device 102 matches the GIP address registered in the GIP address list 1200. That is, the device information management unit 401 determines whether or not there is a matching GIP address registered in the GIP address list 1200 in the device information table 504 for the received GIP address information. As a result of the determination, if it is confirmed that the information of the received GIP address exists in the GIP address list 1200, the process proceeds to S1014. If it is confirmed that the information does not exist, the process proceeds to S1015.

  In step S1014, the device information management unit 401 updates the registered MAC address registered in the device information table 504 with the received MAC address included in the received data from the network device. That is, the registered MAC address is updated and managed by the received MAC address so as to be associated with the serial number and the GIP address list, and the process proceeds to S1016. S1016, S1017, and S1018 indicate a series of flows in which the information processing unit 403 processes received data from the network device 102 as regular data. These are the same as the contents shown in FIG. 9 and FIG. The processing of S1015, S1019, S1020, S1021, and S1022 shows a series of flows in which the information processing unit 403 discards the received data from the network device 102. Since these are the same as the contents shown in FIG. The processing shown in FIGS. 13 and 14 can cope with the case where the reception GIP address transmitted from the network device 102 registered in advance in the management apparatus 103 is changed every time communication is performed. The changed GIP address can be added to the GIP address list 1200 as a candidate for identification information. As a result, it is possible to cope with the case where the timing at which the MAC address received from the network device 102 is switched matches the timing at which the GIP address is switched, which cannot be correctly determined in the above-described embodiment. That is, in this case, since the target network device is determined to be a registered management target network device, the received operation data can be processed normally. Furthermore, by updating the MAC address with the received information, the corresponding network device can be continuously managed thereafter.

  In the present embodiment, in the device information table 504, management using a GIP address list 1200 is performed for a plurality of GIP addresses corresponding to serial numbers and MAC addresses of network devices. Thus, even when the GIP address is switched every time communication is performed, by registering the changed GIP address as a candidate in the GIP address list 1200, a plurality of GIP addresses corresponding to the serial number and the MAC address can be managed. According to the present embodiment, the management information is detected as an inappropriate value by detecting the reception of the operation information from another network device having the same serial number as the network device to be managed and discarding the operation information. Can be prevented from being updated. Furthermore, in an environment where the GIP address is switched every time communication is performed, it is possible to cope with the case where the MAC address is updated due to the replacement of the network card during maintenance. In such a case, since it is determined that the MAC address is updated in the same device and the registration information is updated, it can be correctly managed as communication from the same network device.

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

Claims (14)

First management means for managing the correspondence between at least one of the first address information and the second address information with respect to the device identification number for each network device to be managed;
Second management means for managing, as a first list, a set of device identification numbers and first address information of network devices whose received data including operation information should be discarded;
Receiving means for receiving received data including a device identification number of the network device, first address information, second address information, and operation information via the network;
First determination means for determining whether or not the device identification number is registered in the first list when the device identification number included in the received data is managed by the first management device;
When the first determination unit determines that the device identification number is not registered in the first list, the device identification number and the first address information included in the received data are the first management unit. Second determination means for determining whether or not they are managed in association with each other;
When the second determination unit determines that the device identification number and the first address information are not managed in association with the first management unit, the device identification number and the second address included in the received data Third determination means for determining whether address information is managed in association with the first management means;
When the second determination unit determines that the device identification number and the first address information are managed in association with each other by the first management unit, or the third determination unit determines the device identification number and the first address information. Storage means for controlling storage of operation information included in the received data when it is determined that the address information of 2 is managed in association with the first management means;
When the first determination unit determines that the device identification number is registered in the first list, or the third determination unit stores the device identification number and second address information in the first management. Discarding means for discarding the received data when it is determined that the received data is not managed in association with the means;
A management apparatus comprising:   The first determination means determines that the device identification number is not registered in the first list, and the first management means associates the first address information and the second address with the device identification number. When at least one of the address information is not managed, the first management means uses the device identification number by using at least one of the first address information and the second address information included in the received data. The management apparatus according to claim 1, wherein the management apparatus is newly managed in association with each other.   When the third determination unit determines that the device identification number and the second address information are managed in association with each other by the first management unit, the first management unit is included in the received data The management apparatus according to claim 1 or 2, wherein the first address information is updated and managed so as to be associated with the device identification number and the second address information.   When the second determination unit determines that the device identification number and the first address information are managed in association with each other by the first management unit, the first management unit is included in the received data The management apparatus according to any one of claims 1 to 3, wherein the second address information is used to update and manage the correspondence between the device identification number and the first address information.   When the third determination unit determines that the device identification number and the second address information are not managed in association with each other by the first management unit, the device identification number included in the received data, the first 5. The management apparatus according to claim 1, further comprising a first processing unit that outputs the address information and the second address information as history information. 6.   When the third determination unit determines that the device identification number and the second address information are not managed in association with each other by the first management unit, the type of communication related to the received data is a communication test. The management apparatus according to claim 1, further comprising a fourth determination unit that determines whether or not.   When the fourth determination means determines that the type of communication related to the received data is a communication test, the fourth determination means further includes response means for making a response indicating failure to the communication test. Item 7. The management device according to Item 6.   If the fourth determination means determines that the type of communication related to the received data is not a communication test, the device identification number and the second address information included in the received data indicate that the communication schedule should be stopped The management apparatus according to claim 6, wherein the management apparatus is registered in management information for managing a device.   9. The management apparatus according to claim 1, wherein the operation information included in the received data is counter information in which values are accumulated based on the operation of the network device.   When the third determination unit determines that the device identification number and the second address information are managed in association with each other by the first management unit, the network device identified by the device identification number is If the value of the counter information included in the received data is smaller than the value of the counter information stored in the storage means, the device identification number, the first address information, and the second address included in the received data The management apparatus according to claim 9, further comprising second processing means for outputting information as history information.   The first management means manages a serial number as the device identification number, a MAC address as the first address information, and a global IP address as the second address information. The management apparatus according to any one of 10.   12. The first list according to claim 1, wherein the second management unit manages the first list including a set of a serial number that is the device identification number and a MAC address that is the first address information. The management apparatus of any one.   The management apparatus according to any one of claims 1 to 12, wherein the first management unit manages association of the second address information with a list in which one or more addresses can be registered. A method in a management device,
For each network device to be managed by the first management unit, the association with at least one of the first address information and the second address information for the device identification number is managed, and the operation information is managed by the second management unit A management step of managing, as a first list, a set of device identification numbers and first address information of network devices whose received data should be discarded,
A reception step of receiving reception data including a device identification number of the network device, first address information, second address information, and operation information via the network;
A first determination step of determining whether or not the device identification number is registered in the first list when the device identification number included in the received data is managed by the first management unit;
When it is determined that the device identification number is not registered in the first list, the device identification number and the first address information included in the received data are managed in association with each other by the first management unit. A second determination step of determining whether or not
When it is determined that the device identification number and the first address information are not managed in association with the first management unit, the device identification number and the second address information included in the received data are A third determination step for determining whether or not the information is managed in association with one management unit;
When it is determined in the second determination step that the device identification number and the first address information are managed in association with each other by the first management unit, or in the third determination step, the device identification number and the first address information A storage step of controlling storage of operation information included in the received data when it is determined that the address information of 2 is managed in association with the first management unit;
When it is determined that the device identification number is registered in the first list, or in the third determination step, the device identification number and second address information are managed in association with each other by the first management unit. A discarding step of discarding the received data when it is determined that the received data is not;
A method characterized by comprising:

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