JP2013157926A - Network system, backup method of network apparatus, information processor, and control method and program thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To incorporate a network apparatus, recovered from a failure, in a network system without requiring a complicated operation.SOLUTION: In a network system where communication is performed via a plurality of network apparatuses, backup data of the plurality of network apparatuses is acquired and held, and occurrence of a failure in at least any one network apparatus is detected based on a survival signal originated from the network apparatus. The fact that the network apparatus, in which a failure occurred, has recovered from the failure is detected based on a signal originated from the network apparatus thus recovered, and the backup data thus held of the network apparatus, in which a failure occurred, is set in the network apparatus recovered from a failure.

Description

  The present invention relates to a backup technology for a network device connected to a network system.

  In the above technical field, Patent Document 1 monitors hard beat communication between relay stations, determines that the other relay station is stopped, saves routing information, and receives notification of restarting operation of the other relay station. A technique for deleting information is disclosed.

Japanese Patent Laid-Open No. 10-023057

  However, in the technique described in the above document, the routing change is automatically performed. However, manual setting is necessary for setting the parameters for the relay station that resumes operation after a failure occurs.

  The objective of this invention is providing the technique which solves the above-mentioned subject.

In order to achieve the above object, a system according to the present invention provides:
A network system for performing communication via a plurality of network devices,
Backup data holding means for acquiring and holding backup data of the plurality of network devices;
A failure occurrence detecting means for detecting a failure occurrence of at least one of the plurality of network devices based on a survival signal transmitted from the network device;
A failure recovery detecting means for detecting that the failure of the network device in which the failure has occurred has been recovered based on a signal transmitted from the network device that has recovered from the failure;
In response to detection by the failure recovery detection means, backup data setting means for setting backup data of the failed network device held in the backup data holding means in the network device recovered from the failure,
It is characterized by providing.

In order to achieve the above object, the method according to the present invention comprises:
A network device backup method in a network system that performs communication via a plurality of network devices,
A backup data holding step of acquiring backup data of the plurality of network devices and holding the backup data in a backup data holding means;
A failure occurrence detecting step of detecting a failure occurrence of at least one of the plurality of network devices based on a survival signal transmitted from the network device;
A failure recovery detection step of detecting that the failure of the network device in which the failure has occurred is recovered based on a signal transmitted from the network device that has recovered from the failure;
In response to detection in the failure recovery detection step, backup data setting step of setting backup data of the failed network device held in the backup data holding means in the network device recovered from the failure,
It is characterized by including.

In order to achieve the above object, an apparatus according to the present invention provides:
An information processing device in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices, and performing communication via the plurality of network devices,
Backup data holding means for holding backup data received from each of the plurality of network devices corresponding to the plurality of network devices;
A failure occurrence notification means for notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the failed network device;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission means for transmitting to the device;
It is characterized by providing.

In order to achieve the above object, the method according to the present invention comprises:
A control method for an information processing apparatus in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices, and performing communication via the plurality of network devices,
A backup data holding step of holding backup data received from each of the plurality of network devices in a backup data holding unit corresponding to the plurality of network devices;
A failure occurrence notification step of notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the network device where the failure has occurred;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission step to be transmitted to the device;
It is characterized by including.

In order to achieve the above object, a program according to the present invention provides:
A control program for an information processing device in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices and performing communication via the plurality of network devices,
A backup data holding step of holding backup data received from each of the plurality of network devices in a backup data holding unit corresponding to the plurality of network devices;
A failure occurrence notification step of notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the network device where the failure has occurred;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission step to be transmitted to the device;
Is executed by a computer.

  According to the present invention, a network device that has recovered from a failure can be incorporated into a network system without complicated operations.

It is a block diagram which shows the structure of the network system which concerns on 1st Embodiment of this invention. It is a block diagram which shows the structure of the network system at the time of the failure generation which concerns on 2nd Embodiment of this invention. It is a sequence diagram which shows the operation | movement procedure of the network system at the time of the failure generation which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the structure of the network system at the time of the failure recovery which concerns on 2nd Embodiment of this invention. It is a sequence diagram which shows the operation | movement procedure of the network system at the time of the failure recovery which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the function structure of the management server which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the software structure of the management server which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the function structure of the network device which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the software structure of the network device which concerns on 2nd Embodiment of this invention. It is a figure explaining the backup processing of the network system which concerns on 2nd Embodiment of this invention. It is a figure explaining the failure generation process of the network system which concerns on 2nd Embodiment of this invention. It is a figure explaining the failure recovery processing of the network system which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the management server which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the process sequence of the management server which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the hardware constitutions of the network device which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the process sequence of the network device which concerns on 2nd Embodiment of this invention. It is a flowchart which shows the process sequence of the exchange setting process which concerns on 2nd Embodiment of this invention. It is a block diagram which shows the structure of the network system at the time of the failure generation which concerns on 3rd Embodiment of this invention. It is a block diagram which shows the structure of the network system at the time of the failure recovery which concerns on 3rd Embodiment of this invention.

  Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings. However, the constituent elements described in the following embodiments are merely examples, and are not intended to limit the technical scope of the present invention only to them.

[First Embodiment]
A network system 100 as a first embodiment of the present invention will be described with reference to FIG. The network system 100 is a system that performs communication via a plurality of network devices.

  As shown in FIG. 1, the network system 100 includes a backup data holding unit 110, a failure occurrence detection unit 120, a failure recovery detection unit 130, and a backup data setting unit 140. The backup data holding unit 110 acquires and holds backup data of the plurality of network devices 101 to 104. The failure occurrence detection unit 120 detects and notifies the failure occurrence of at least one of the plurality of network devices 101 to 104 based on the survival signal 103 a transmitted from the network device 103. The failure recovery detection unit 130 detects that the failure of the network device 103 in which the failure has occurred has been recovered based on the signal 105 a transmitted from the network device 105 that has recovered from the failure. In response to the detection by the failure recovery detection unit 130, the backup data setting unit 140 sets the backup data of the network device 103 in which the failure has occurred, held in the backup data holding unit 110, in the network device 105 that has recovered from the failure.

  According to the present embodiment, a network device that has recovered from a failure without complicated operations can be incorporated into the network system.

[Second Embodiment]
Next, a network system according to the second embodiment of the present invention will be described. The network system according to the present embodiment includes a plurality of network devices such as routers and a management server that manages the plurality of network devices. The setting information of all network devices is backed up to the management server. Adjacent network devices monitor each other's signal reception and detect the occurrence of a failure of the other party. When the management server receives notification that all adjacent network devices have detected the occurrence of a failure, the management server determines that the failure has occurred in the network device and notifies the administrator. On the other hand, the management server determines the recovery by the recovery or replacement of the failed network by the notification of the MAC address reception by all adjacent network devices. Then, the setting information of the backed-up network device in which the failure has occurred is restored to the recovered or replaced network device, and the network recovery is notified to the administrator.

  According to the present embodiment, the setting information is automatically set when the network device in which the failure has occurred is restored or replaced, so that the network can be restored without any complicated operation.

<< Network system in case of failure >>
FIG. 2 is a block diagram illustrating a configuration of the network system 200 when a failure occurs according to the present embodiment.

  The network system 200 includes an information processing apparatus that functions as the management server 210, network devices 202 to 205 that configure the network 201, and a user terminal 230. The management server 210 grasps the status of each of the network devices 202 to 205, performs periodic backup data acquisition, and automatic restoration after device replacement. For example, even if a specific network device 204 fails, the management server 210 has a plurality of paths in order to communicate from all the network devices 202, 203, 205 other than the failed network device 204, and has a single point of failure. Management is performed so as to configure a redundant network 201 having no network. The network 201 may be a local area network (LAN).

  In addition, the network system 200 includes a mail server 220 in order to notify the administrator terminal 240 outside the network 201 of the occurrence or failure of the failure.

(Operation procedure when a failure occurs)
FIG. 3 is a sequence diagram showing an operation procedure 300 of the network system 200 when a failure occurs according to the present embodiment. In FIG. 3, as shown in FIG. 2, the operation procedure will be described using a case where a failure has occurred in the network device 204 as an example.

  First, the network device 204 communicates with the adjacent network devices 202 and 205 and the user terminal 230, and regularly acquires MAC addresses (S301). Broadcast (FF: FF: FF: FF: FF: FF) is used for periodic acquisition of MAC addresses, and communication is performed with all neighboring devices. Periodic acquisition of the MAC address is set according to the traffic state of the network 201 to be used, such as once per hour. In addition, the management server 210 acquires regular backup data from the network device 204 (S303). The backup data is setting information of the network device 204 including the MAC address of the adjacent device acquired in step S301. The backup is set according to the traffic state of the network 201 to be used, for example, once a day. Next, the network device 204 sends a broadcast signal as a survival signal to the adjacent network devices 202 and 205 to recognize its own existence (S305, S307, S309). The network device 204 also receives a survival signal from the adjacent network devices 202 and 205 and confirms the survival of each other. The existence confirmation is set according to the traffic state of the network 201 to be used, such as once per minute. The above operations are continuously performed during normal times.

  Hereinafter, an operation after the failure of the network device 204 will be described (S311). As described above, all the network devices 202 to 205 transmit a signal for recognizing their own existence to the adjacent network device at regular intervals. When the network device 204 fails, the survival signal for recognizing the survival sent to the adjacent network devices 202 and 205 stops. Neighboring network devices 202 and 205 measure the time with a timer, and detect a time-out if a periodic survival signal cannot be received. Thereafter, the network devices 202 and 205 send a survival confirmation signal to the network device 204 to confirm that communication is impossible, and detect a response (S313, S319). Neighboring network devices 202 and 205 determine that communication with the network device 204 is impossible when there is no response to the existence confirmation signal from the network device 204. Then, the network devices 202 and 205 notify the management server 210 that there is a failure in communication with the network device 204 (S315, S321).

  The management server 210 receives a notification indicating that the network device 204 cannot respond from the network devices 202 and 205, and recognizes that there is a failure in communication between the network device 204 and the network devices 202 and 205 (S317, S323). ). The management server 210 can confirm from the backup data of the setting information of the network device 204 that the network device 204 is connected to the network device 202 and the network device 205. For this reason, the management server 210 confirms the communication failure of the network device 204 by receiving the notification of the inability to respond to the network device 204 from all the network devices 202 and 205 adjacent to the network device 204 (S325).

  The management server 210 instructs that a failure that prevents communication from occurring in the network device 204 is transmitted as a failure occurrence mail from the mail address set as the transmission mail address to the mail address set as the administrator mail address. (S327). That is, the mail server 220 that has received the instruction transmits a failure occurrence mail with the administrator terminal 240 as the mail destination (S329).

<< Network system for failure recovery >>
FIG. 4 is a block diagram showing the configuration of the network system 400 at the time of failure recovery according to the present embodiment. In FIG. 4, the same functional components as those in FIG.

  In FIG. 4, the failed network device 204 is replaced with a communicable network device 404. In FIG. 4, the failed network device 204 is replaced with a network device 404. However, when there is no network device 404 or when the failure of the network device 204 can be easily repaired, the network device 204 may be repaired and restarted. Even in such a case, the reset setting information is automatically restored to realize network recovery.

  Hereinafter, an operation procedure in which the replaced network device 404 automatically restores the same setting information as that of the failed network device 204 will be described.

(Operation procedure for failure recovery)
FIG. 5 is a sequence diagram showing an operation procedure 500 of the network system 400 at the time of failure recovery according to the present embodiment.

  The failed network device 204 is replaced with a new network device 404 (S501). The exchanged network device 404 transmits its own MAC address as a broadcast signal in order to notify that it is a network device newly connected to the connected network (S503). All adjacent network devices 202 and 205 receive the transmitted MAC address of the newly connected device and compare it with the MAC address of the adjacent device stored in the setting information. When it is confirmed that the MAC address does not exist so far, it is recognized that a device with a new MAC address is connected (S505, S509). The adjacent network devices 202 and 205 transmit the received new MAC address to the management server 210 to indicate that there is a newly connected network device (S507, S511).

  The management server 210 determines that a new network device 404 has been connected based on notifications from all the network devices 202 and 205 adjacent to the network device 204 where the failure has occurred (S515). Then, it is confirmed whether the MAC address received from the network device 202 and the MAC address received from the network device 205 are the same. If the confirmed MAC addresses are the same, it is determined that the network device 202 and the network device 404 connected to the network device 205 are the same.

  In order to specify that the network device 404 is a network device exchanged with the failed network device 204, the management server 210 is newly connected with the MAC address of the adjacent device acquired from the backup data of the failed network device 204. To the network device 404 (S517, S519). However, since the newly connected network device 404 has no network setting, it cannot receive direct communication from the management server 210. Therefore, the management server 210 transmits backup data to the adjacent network device 202 (S517). The network device 202 transmits the received information from the management server 210 to the newly connected network device 404 by the function of transmitting to the adjacent network device (S519).

  The network device 404 after replacement collects the MAC address of the adjacent device by the MAC address collection function of the adjacent device. Then, it is compared with the MAC address of the neighboring device that is the backup data of the network device 204 received from the network device 202. In this way, it is confirmed that the MAC address of the adjacent device is the same as the MAC address of the device adjacent to the failed network device 204 (S521).

  If the network device 404 after the replacement can confirm that the MAC addresses of the adjacent devices are the same, the network device 404 after the replacement makes a request for restoring the backup data of the failed network device 204 to the management server 210. (S523, S525). Since the network device 404 after the replacement and the management server 210 cannot communicate directly, a restore request is sent to the network device 202 (S523). The network device 202 that has received the restore request transmits the received signal to the management server 210 (S525). The management server 210 transmits backup data of the failed network device 204 to the replaced network device 404 via the network device 202 (S527, S529).

  When the restoration is completed, the network device 404 after replacement transmits the restoration completion notice to the management server 210 because the network is set (S531). Upon receiving the restoration completion notification from the network device 404 after replacement, the management server 210 has failed from the email address set as the sending email address that the failure has been recovered to the email address set as the administrator email address. An instruction to send a recovery mail is given (S533). That is, the mail server 220 that has received the instruction transmits a failure occurrence mail with the administrator terminal 240 as the mail destination (S329).

<< Functional configuration of the management server >>
FIG. 6A is a block diagram illustrating a functional configuration of the management server 210 according to the present embodiment.

  The management server 210 includes a communication control unit 610 that communicates with the network devices 202 to 205 and 404 or the mail server 220.

  The network device backup data collection unit 620 collects backup data of setting information from the network devices constituting the network, and stores and holds the backup data in the backup data storage unit 630 of the network device in correspondence with the network device.

  If the failure occurrence determination unit 640 recognizes that the failure occurrence notification of the adjacent device received from the network device is transmitted from all the network devices adjacent to a certain network device, the failure occurrence determination unit 640 determines that a failure has occurred in the network device. The failure occurrence notification unit 650 sends a mail to the administrator terminal 240 from the mail server 220 in order to notify the administrator of the network device that the failure occurrence determination unit 640 has determined to have occurred. The address of the mail server 220 and the address of the administrator terminal 240 are held in the notification destination address 690a of the status notification control unit 690.

  If the failure recovery determination unit 660 recognizes that the reception notification of the new MAC address from the adjacent device received from the network device is transmitted from all the network devices adjacent to the certain network device, the failure of the network device has been recovered. Is determined. In the present embodiment, the failure recovery may be repair of a failed network device or replacement with a new network device. The network device backup data setting unit 670 sets the backup data of the failed network device stored in the backup data storage unit 630 of the network device to the network device that has recovered from the failure. The failure recovery notification unit 680 notifies the administrator that the network device has been restored by setting backup data in the network device that the failure recovery determination unit 660 has determined to recover from the failure. Send an email to Similar to the occurrence of a failure, the address of the mail server 220 and the address of the administrator terminal 240 are held in the notification destination address 690a of the status notification control unit 690.

(Software configuration)
FIG. 6B is a block diagram illustrating a software configuration of the management server 210 according to the present embodiment. In addition, in each data and function part of FIG. 6B, the 10th digit of the reference number equal to the 10th digit of the reference number of each functional component part of FIG. 6A is included in each functional component part of FIG.

  The management server 210 is a normal server, and includes a backup data storage unit 630 of the network device and a control program storage unit 600 of the management server, and grasps and manages the state of the network.

  The backup data storage unit 630 of the network device is a part that stores setting information backups 631, 636, 637,. The backup data of each network device 202 to 205 includes a network device MAC address 632, a network setting 633 such as an IP address and routing, an adjacent device MAC address 634, and a backup acquisition time 635. The

  A control program storage unit 600 of the management server stores a setting information backup collection function unit 621 of the network device. In addition, the control program storage unit 600 of the management server stores a failure reception function unit 641 of the network device and a specific function unit 642 of the failure device. Further, the control program storage unit 600 of the management server stores a newly connected device MAC address reception function unit 661 and a faulty device replacement specification function unit 662. In addition, the control program storage unit 600 of the management server stores a backup data transmission function unit 671 of the network device. The control program storage unit 600 of the management server stores a transmission mail address setting unit 691, an administrator mail address setting unit 692, and a mail notification function unit 693 to the administrator. The control program storage unit 600 of the management server stores a failure occurrence notification function unit 651. Further, the control program storage unit 600 of the management server stores a failure recovery notification function unit 681. Hereinafter, functions of the respective functional units will be described.

  The network device setting information backup collection function unit 621 has a function of periodically collecting backup data from all network devices in the network system.

  The failure reception function unit 641 of the network device has a function for receiving a signal indicating that a failure has occurred when a failure occurs in the network device. The faulty device identification function unit 642 has a function for the management server 210 that has received the fault information by the fault reception function unit 641 of the network device to identify the faulty device.

  The newly connected device MAC address reception function unit 661 has a function for receiving, collecting, and managing MAC addresses of network devices newly connected to the network 201 managed by the management server 210. As the MAC address of the newly connected network device, the MAC address transmitted by the MAC address transmission function unit of the network device 404 after replacement, which will be described later, is received via the network 201. The faulty device replacement specifying function unit 662 determines, based on the information received by the newly connected device MAC address receiving function unit 661, that the newly connected network device is a network device replaced with a failed network device. Have

  The backup data transmission function unit 671 of the network device transmits the backup data of the failed network device 204 to the network device 404 after replacement by the replacement specification function unit 662 of the failed device.

  The transmission mail address setting unit 691 has a function of setting a mail address of the mail server 220 on the system side and setting a mail address used for mail transmission from the management server 210. The administrator e-mail address setting unit 692 has a function of setting an e-mail address to be used as a notification destination when e-mail notification is sent from the management server 210 to the administrator. The mail notification function unit 693 to the administrator has a function of transmitting mail to the mail address set in the administrator mail address setting unit 692 using the mail address set in the transmission mail address setting unit 691.

  The failure notification function unit 651 is a function that uses the email notification function unit 693 to the administrator and performs email notification to the administrator when a failure occurs in the network system.

  The failure recovery notification function unit 681 is a function that uses the mail notification function unit 693 to the administrator to notify the administrator when a failure that has occurred in the network system is recovered and the operation returns to normal.

<Functional configuration of network device>
FIG. 7A is a block diagram illustrating a functional configuration of the network devices 202 to 205 and 404 according to the present embodiment. In the following description, all network devices have the same configuration, and the reference numbers of the network devices are omitted.

  The network device includes a communication control unit 710 that communicates with the adjacent network device, the management server 210, and the user terminal 230. In FIG. 7, one communication terminal is illustrated as communicating with the adjacent network device, management server 210, and user terminal 230, but a communication control unit for the user terminal 230 may be provided separately.

  The backup data transmission unit 720 periodically transmits the setting information stored in the setting information storage unit 730 to the management server 210 as backup data. The setting information storage unit 730 stores setting information including the MAC address and network setting of the network device and the MAC address of the adjacent network device.

  The restore processing unit 740 restores backup data transferred from an adjacent network device when the network device is a network device that has been recovered or replaced. On the other hand, when the network device adjacent to this network device is a network device that has been recovered or replaced, the restore processing unit 740 transfers the backup data from the management server 210 to the adjacent network. The adjacent device information collection unit 750 periodically collects MAC addresses of adjacent network devices and stores them as setting information storage unit 730 as current configuration information of the network 201.

  The own device information transmitting unit 760 periodically transmits the existence signal of the own device and the MAC address of the own device read from the setting information storage unit 730 to the adjacent network device.

  The failure information control unit 770 includes an adjacent device failure detection unit, a timer, and a failure information transmission unit. The adjacent device failure detection unit periodically monitors the survival signal transmitted by the adjacent network device, and determines that there is a failure in the adjacent network device if the survival signal is not detected even if the timer times out. Then, the adjacent device failure detection unit transmits a survival confirmation signal to the network device determined to have a failure to detect a response, and if there is no response, confirms that there is a failure. If the adjacent device failure detection unit confirms that there is a failure, the failure information transmission unit notifies the management server 210 of the failure together with the MAC address of the adjacent network device.

  The recovery information control unit 780 includes an adjacent device recovery detection unit and a recovery information transmission unit. The adjacent device recovery detection unit monitors the MAC address transmitted by the adjacent network device, and determines that the adjacent network device has recovered or replaced if a new MAC address is received. When the adjacent device recovery detection unit determines that there is a failure recovery or replacement, the recovery information transmission unit notifies the management server 210 of the failure recovery together with the MAC address of the adjacent network device.

(Software configuration)
FIG. 7B is a block diagram illustrating a software configuration of the network devices 202 to 205 and 404 according to the present embodiment. In each data and function part in FIG. 7B, the 10 digit of the reference number is equal to the 10 digit of the reference number of each function part in FIG. 7A is included in each function part in FIG. 7A. In the following description, all network devices have the same configuration, and the reference numbers of the network devices are omitted.

  The network device is a network device to which a function is added according to the present embodiment, and includes a setting information storage unit 730 and a control program storage unit 700 for the network device.

  The setting information storage unit 730 is information on network devices to be backed up by the management server 210, and is necessary for this embodiment, and is adjacent to its own MAC address 731 and network settings 732 such as IP address and routing. Device MAC address 733. The adjacent device indicates a device existing in the broadcast domain to which each interface of the network device is connected.

  The MAC address 731 of the network device is included in the setting information backed up by the management server 210. When a network device fails, the network device after replacement is used to determine that the network device has not been connected to the network until now. The network settings 732 such as IP address and routing are included in the setting information backed up by the management server 210, and are restored to the replaced network device when the network device is replaced. The MAC address 733 of the adjacent device is included in the setting information backed up by the management server 210, and stores the MAC addresses of all devices connected to the network device. Used when a network device is newly connected to confirm that the network device has been replaced with a failed network device.

  The network device control program storage unit 700 stores a setting information backup function unit 721. Further, the control program storage unit 700 of the network device is a function of transmitting information received from the management server to the adjacent network device, the collation function unit 741 of the adjacent device with the device before replacement, the restore completion notification function unit 742, and the management server. Part 743 is stored. Further, the control program storage unit 700 of the network device stores a MAC address collection function unit 751 of the adjacent device. The network device control program storage unit 700 includes a survival signal transmission function unit 761, a broadcast (FF: FF: FF: FF: FF: FF) transmission function unit 762, and a MAC address transmission function unit 763. Remember. The network device control program storage unit 700 stores an adjacent device survival confirmation signal transmission function unit 771 and an adjacent device failure transmission function unit 772. Further, the network device control program storage unit 700 stores a MAC address reception function unit 781 of the newly connected device and a MAC address transmission function unit 782 of the newly connected device. It also has a timer function including the timer of FIG. 7A. Hereinafter, functions of the respective functional units will be described.

  The setting information backup function unit 721 is a function for transmitting setting information to the management server 210 as backup data.

  When the network device is a network device after replacement, the matching function unit 741 of the adjacent device with the device before replacement obtains the MAC address of the adjacent device included in the setting information from the management server 210 when the network device is replaced. Receive. This is a function for investigating a difference from the MAC address of the currently connected device collected by the MAC address collection function unit 751 of the adjacent device. This function confirms that the MAC address of the neighboring device is the same as that of the device before replacement. The restore completion notification function unit 742 is a function for notifying the management server 210 that automatic restoration from the management server 210 has been completed. This notification indicates that the network device after replacement has become possible to perform network communication with the management server 210. The function unit 743 that transmits information received from the management server to an adjacent network device is a network device in which a newly connected network is not set when the adjacent network device is a network device after replacement. This is a function for mediating communication with the management server 210. It has a function for transmitting information transmitted to its own IP address toward a specific MAC address. The restoration from the management server 210 to the network device after replacement is transmitted by this function.

  The MAC address collection function unit 751 of the adjacent device is a function for collecting the MAC addresses of adjacent devices included in the setting information. The broadcast (FF: FF: FF: FF: FF: FF: FF) transmission function unit 762 has a function of collecting MAC addresses of devices existing in the broadcast domain to which the network device is connected.

  In order to confirm that the adjacent network devices can communicate with each other, the live signal transmission function unit 761 periodically performs the broadcast (FF: FF: FF: FF: FF: FF: FF) transmission function unit 762. It has the function to transmit a signal automatically. The broadcast (FF: FF: FF: FF: FF: FF: FF) transmission function unit 762 is a function for performing simultaneous transmission to each device in the broadcast domain to which each interface of the network device is connected. . A device in a range where a broadcast transmission reaches is used as an adjacent device, and is used for communication to the adjacent device. The MAC address transmission function unit 763 has a function of receiving a signal from the MAC address collection function unit 751 of the adjacent device and transmitting its own MAC address to the adjacent network device. In addition, when a new network device is connected to the network due to replacement with a failed network device or the like, this function transmits its own MAC address. It is also used as a function for notifying that a new network device is connected to an adjacent network device.

  The adjacent device survival confirmation signal transmission function unit 771 is a function for transmitting a confirmation signal to an adjacent network device that has not received a periodic survival signal. This is a function for determining that adjacent network devices that do not respond to this signal have become unable to communicate. The failure transmission function unit 772 of the adjacent device is a function for transmitting to the management server 210 that a failure has occurred in the adjacent network device that has not responded to the transmission of the survival confirmation signal transmission function unit 771 of the adjacent device. .

  When the MAC address reception function unit 781 of the newly connected device receives the MAC address transmitted by the adjacent network device by the MAC address transmission function, it collates with the MAC address of the adjacent device included in its own setting information. This is a function for determining the MAC address of a newly connected network device when the MAC address does not exist. The MAC address transmission function unit 782 of the newly connected device is a function for transmitting to the management server 210 the MAC address determined as the MAC address of the network device newly connected by the MAC address receiving function unit 781 of the newly connected device. .

  The timer function is used for periodic communication and monitoring of the survival signal transmission function unit 761 and the like.

《Network system processing explanation》
Hereinafter, in the network system 200 including the management server 210 and the network devices 202 to 205, the processing of each device when a failure occurs in the network device 204 and the network device 404 is replaced will be described.

(Backup process)
FIG. 8 is a diagram for explaining the backup processing 800 of the network system according to the present embodiment. In FIG. 8, only the network devices 202 and 204 are shown, and other network devices are omitted. In addition, the description of the function units in each device is only related to the present embodiment, and the function units related to network communication are omitted.

  The network device 204 holds the MAC address 811 of its own device, the network setting 812 such as the IP address and routing, and the MAC address 813 of the adjacent device in the setting information storage unit 730. In the network system 200 shown in FIG. 2, the MAC addresses 813 of adjacent devices store the MAC addresses of the network devices 202 and 205. The setting information is periodically transmitted to the management server 210 as backup data and collected. Therefore, in the network device 204, the MAC address collection function unit 751 and the setting information backup function unit 721 of the adjacent device operate periodically. The network device 202 holds the same setting information in the setting information storage unit 820, and the other network devices are the same except that the adjacent network devices are different.

  The network device backup data storage unit 630 of the management server 210 holds the setting information backup 631 of the network device 202 and the setting information backup 637 of the network device 204 as backup data. The setting information backup 637 of the network device 204 holds a MAC address 811, a network setting 812 such as an IP address and routing, and a MAC address 813 of an adjacent device, similar to the setting information storage unit 730 of the network device 204. Is done. Further, the backup information acquisition time 814 is stored in the setting information backup 637 of the network device 204. In the management server 210, the network device setting information backup collection function unit 621 periodically collects network device backup data.

(Failure occurrence processing)
FIG. 9 is a diagram for explaining a failure occurrence process 900 of the network system according to the present embodiment. FIG. 9 assumes that a failure has occurred in the network device 204. Therefore, the network device 203 that is not directly related to the processing is deleted. Hubs / switches 940 and 950 set a route between each network device or user terminal.

  If the network device 204 is normal, the MAC address collection function unit 751 of the adjacent device collects the MAC addresses of the adjacent device and the user terminal 230. In this example, the MAC address 912 of the adjacent network device 202, the MAC address 911 of the network device 205, and the MAC address 913 of the user terminal 230 are collected. The survival signal is transmitted to the adjacent network devices 202 and 205 by the survival signal transmission function unit 761 and the broadcast (FF: FF: FF: FF: FF: FF: FF) transmission function unit 762.

  However, when a failure occurs in the network device 204, the transmission of the survival signal is stopped. In the adjacent network devices 202 and 205, when a time-out occurs without receiving the survival signal from the network device 204, the occurrence of a failure is detected. Then, in order to confirm that a failure has occurred in the network device 204 instead of a temporary survival signal reception error, a survival confirmation signal is transmitted to the network device 204 by the survival confirmation signal transmission function unit 771 of the adjacent device. When there is no response to the survival confirmation signal from the network device 204, the network devices 202 and 205 confirm the failure of the network device 204. Then, the failure transmission function unit 772 of the adjacent device notifies the management server 210 of the failure of the network device 204.

  In the management server 210, the failure reception function unit 641 of the network device receives the failure notification of the adjacent device from each network device. When the faulty device specifying function unit 642 determines that all adjacent network devices have sent the fault notification, the faulty device is specified as the faulty device.

  Although not shown, the management server 210 notifies the administrator terminal 240 of the occurrence of a failure by the failure occurrence notification function unit 651.

(Disaster recovery processing)
FIG. 10 is a diagram for explaining the failure recovery processing 1000 of the network system according to the present embodiment. FIG. 10 assumes that the failed network device 204 has been replaced with a new network device 404. Therefore, the network device 203 that is not directly related to the processing is deleted. Hubs / switches 940 and 950 set a route between each network device or user terminal.

  First, the network device 404 after conversion uses the MAC address transmission function unit 763 and the broadcast (FF: FF: FF: FF: FF: FF: FF) transmission function unit 762 to connect the initial MAC address to the adjacent network. Make a call to the device.

  The adjacent network devices 202 and 205 receive the MAC address from the converted network device by the MAC address reception function unit 781 of the newly connected device. It is determined that the device is a newly connected device because its MAC address is different from the previous one. Then, the MAC address transmission function unit 782 of the newly connected device notifies the management server 210 of the MAC address.

  The management server 210 receives the MAC address of the newly connected device notified from each network device by the newly connected device MAC address receiving function unit 661. When the MAC address of the same new connection is received from all adjacent network devices, the faulty device replacement specifying function unit 662 specifies that the network device is a network device that has replaced the faulty device. In the case of this example, when it is notified from both the network devices 202 and 205 that the network device 404 is connected as an adjacent device, it is determined that the failed device has been replaced.

  The backup data transmission function unit 671 of the network device of the management server 210 reads the MAC address of the adjacent device from the setting information of the failed network device 204 being backed up and transmits it to the network device 404. However, since the network device 404 after replacement does not yet have network settings in the network 201, transmission of the MAC address of the adjacent device to the network device 404 is executed via the adjacent network device. In this example, this is performed via the network device 202 by the function unit 743 that transmits the reception information from the management server to the adjacent network device in the network device 202. It may be performed via the network device 205 by the function unit 743 that transmits the received information to the adjacent network device.

  The network device 404 that has received the MAC address of the neighboring device of the failed network device 202 via the network device 202 checks the environment of the own device. That is, first, the MAC address of the neighboring device is collected by the MAC address collection function unit 751 of the neighboring device. In this example, the MAC addresses 911 to 913 of the network devices 202 and 205 and the user terminal 230 are collected. Then, the matching function unit 741 of the neighboring device with the device before replacement verifies whether the MAC address of the neighboring device included in the setting information transmitted from the management server 210 matches the collected MAC address of the neighboring device. . If they match, the network device 404 confirms that the device has been replaced with the failed network device 204, and requests the management server 210 to restore the backup data via the network device 202.

  Upon receiving the backup data restoration request, the management server 210 transmits the backup data of the failed network device 204 to the network device 404 via the network device 202 by the backup data transmission function unit 671 of the network device. To do. When the setting information of the network device 204 that has been backed up is restored to the network device 404, the network device 404 has the same setting information as the network device 204 before the failure. Therefore, the restoration completion notification function unit 742 directly notifies the management server 210 of the restoration completion from the network device 404 using the network setting in the network 201. That is, thereafter, communication between the network device 404 and the management server 210 is performed without going through the network devices 202 and 205.

  Although not shown, the management server 210 notifies the administrator terminal 240 of failure recovery by the failure recovery notification function unit 681.

<< Hardware configuration of management server >>
FIG. 11 is a block diagram illustrating a hardware configuration of the management server 210 according to the present embodiment.

  In FIG. 11, a CPU 1110 is an arithmetic control processor, and implements each functional component of the management server 210 of FIG. 6A by executing a program. The ROM 1120 stores fixed data and programs such as initial data and programs. The communication control unit 610 is a communication control unit, and communicates with the network devices 202 to 205 and 404 and the mail server 220 in this embodiment. Note that the CPU 1110 is not limited to one, and may be a plurality of CPUs or may include a graphics processing unit (GPU) for image processing.

  The RAM 1140 is a random access memory used by the CPU 1110 as a work area for temporary storage. The RAM 1140 has an area for storing data necessary for realizing the present embodiment. The collected backup data 1141 indicates backup data that is setting information received from each network device, and is stored in the backup data storage unit 630 of the network device. The backup data 1142 to be set indicates backup data that is read from the backup data storage unit 630 of the network device and transmitted to the newly connected network device and set. Failure occurrence reception information / transmission source 1143 indicates failure occurrence reception information whose transmission source is a network device. The failure occurrence determination flag 1144 indicates a flag when a failure occurrence report is received from all adjacent network devices and a failure occurrence of the network device is determined. Failure recovery reception information / transmission source 1145 indicates failure recovery reception information whose transmission source is a network device. The failure recovery determination flag 1146 indicates a flag when the failure recovery report from all adjacent network devices is received and the failure recovery of the network device is determined. The failure occurrence / recovery notification information 1147 indicates information for notifying the administrator terminal 240 of the occurrence of a failure when the failure occurrence is confirmed and the failure occurrence determination flag 1144 is turned on. Also, information for notifying the administrator terminal 240 of failure recovery when failure recovery is confirmed and the failure recovery determination flag 1146 is turned on and a backup data restoration completion notification is received is shown. Transmission / reception data 1148 indicates transmission / reception data transmitted / received via the communication control unit 610.

  The storage 1150 stores a database, various parameters, or the following data or programs necessary for realizing the present embodiment. The network device backup data storage unit 630 is a storage unit that stores the backup data of the network device with the configuration shown in FIG. 6B.

  The storage 1150 stores the following programs. The management server control program 1151 is a management server control program that controls the entire management server 210. The backup collection module 1152 is a backup collection module that collects and holds backup data from network devices in the management server control program 1151. The failure occurrence control module 1153 is a failure occurrence control module that determines a failure occurrence of a network device based on a failure occurrence notification notified from an adjacent network device. Then, the failure occurrence control module 1153 uses the mail server 220 to notify the administrator terminal 240 of the failure occurrence by e-mail. The failure recovery control module 1154 indicates a failure recovery control module that determines failure recovery of a network device based on a failure recovery notification notified from an adjacent network device. The failure recovery control module identifies the network device that has recovered from the failure based on the network device that has notified the failure recovery, and transmits the MAC address of the adjacent device of the network device via the adjacent network device. When the backup data restoration request is received from the network device that has recovered from the failure, the backup data is transmitted. When the restoration completion report is received from the network device that has recovered from the failure, the failure recovery is notified to the administrator terminal 240 by e-mail using the mail server 220.

  Note that FIG. 11 shows only data and programs essential to the present embodiment, and data and programs not related to the present embodiment are not shown.

<< Processing procedure of the management server >>
FIG. 12 is a flowchart showing a processing procedure of the management server 210 according to this embodiment. This flowchart is executed by the CPU 1110 of FIG. 11 using the RAM 1140, and implements the functional component of FIG. 6A.

  First, in step S1211, it is determined whether backup data has been received from each network device. In step S1221, it is determined whether or not a notification of failure occurrence of an adjacent network device has been received. In step S1231, it is determined whether a failure recovery notification of an adjacent network device has been received. In step S1241, it is determined whether or not a restore request has been received from a network device that has been recovered or replaced. If it is neither, other processing is executed in step S1251.

  If the backup data is received, the process advances to step S1213 to identify the network device that is the source of the backup data. In step S1215, the specified network device setting information backup is updated, and the backup acquisition time is set.

  When the failure notification of the adjacent network device is received, the process proceeds to step S1223, and the failure notification is stored together with the notification source network device. In step S1225, it is determined whether or not a specific condition for the faulty network device is satisfied. Here, the specific condition of the faulty network device is a condition that all network devices adjacent to the network device have notified the adjacent device fault. That is, this specific condition prevents a transient problem from being erroneously recognized as a failure of the network device. The specific condition is not limited to failure detection by all adjacent network devices. For example, failure detection by an adjacent network device having a predetermined threshold value or more may be performed. If the specific condition is not satisfied, the process is terminated as it is. If the specific condition is satisfied, the process proceeds to step S1227 to store the specified faulty network device. In step S1229, the mail server 220 is instructed to send a failure notification mail addressed to the administrator (administrator terminal 240).

  When the failure recovery notification of the adjacent network device is received, the process proceeds to step S1233, and the failure recovery notification is stored together with the notification source network device. In step S1235, it is determined whether or not a specific condition for the recovery network device is satisfied. Here, the specific condition of the recovery network device is a condition that all network devices adjacent to the network device have notified the MAC address of the same adjacent device. The specific condition is not limited to failure recovery notification by all adjacent network devices. If the specific condition is not satisfied, the process is terminated as it is. If the specific condition is satisfied, the process proceeds to step S1237, and the MAC address of the adjacent device is read from the backup data of the failed network device for the specified recovery network device, and the MAC address is transmitted to the failed network device via the adjacent network device. Send it.

  If it is a restore request from the recovery network device, the process proceeds to step S1243, and the backup data of the failed network device is transmitted to the recovery network device via the adjacent network device. In step S1245, reception of a restore completion notification from the recovery network device is awaited. When the restoration completion notification is received, the process advances to step S1247 to instruct the mail server 220 to send a recovery notification mail addressed to the administrator (administrator terminal 240).

<< Hardware configuration of network devices >>
FIG. 13 is a block diagram illustrating a hardware configuration of the network devices 202 to 205 and 404 according to the present embodiment.

  In FIG. 13, a CPU 1310 is a processor for arithmetic control, and implements each functional component of the network devices 202 to 205 and 404 in FIG. 7A by executing a program. The ROM 1320 stores fixed data and programs such as initial data and programs. In addition, the communication control unit 710 is a communication control unit, and in this embodiment, communicates with the management server 210, the adjacent network device, and the user terminal 230. Note that the number of CPUs 1310 is not limited to one, and may be a plurality of CPUs or may include a GPU for image processing.

  The RAM 1340 is a random access memory that the CPU 1310 uses as a work area for temporary storage. The RAM 1340 has an area for storing data necessary for realizing the present embodiment. The backup data 1341 indicates backup data that is periodically transmitted to the management server 210. The adjacent device MAC address 1342 indicates a MAC address received from an adjacent device including an adjacent network device. The transmission survival signal 1343 indicates a survival signal for periodically notifying the adjacent network device of the presence of the own device. The reception survival signal / transmission source 1344 indicates a reception survival signal / transmission source that stores the survival signal transmitted from the adjacent network device together with the transmission source. A failure occurrence notification / failure device 1345 indicates a failure occurrence notification / failure device that is transmitted to the management server 210 together with failure device information when it is determined that a failure has occurred in an adjacent network device. The failure recovery notification / recovery device 1346 indicates a failure recovery notification / recovery device that is transmitted to the management server 210 together with recovery device information when it is determined that the adjacent network device has recovered from a failure. The transfer information 1347 to the adjacent network device indicates transfer information that mediates data transmission between the management server 210 and the recovery network device when there is no network setting when the adjacent network device is the recovery network device. Transmission / reception data 1348 indicates transmission / reception data transmitted / received via the communication control unit 610.

  The storage 1350 stores a database, various parameters, or the following data or programs necessary for realizing the present embodiment. The setting information storage unit 730 indicates a storage unit that stores setting information of the network device with the configuration illustrated in FIG. 7B. This setting information is periodically transmitted to the management server 210 as backup data.

  The storage 1350 stores the following programs. The network device control program 1351 indicates a network device control program that controls the entire network device. The backup data transmission module 1352 indicates a backup data transmission module that transmits the setting information of its own device to the management server 210 as backup data in the network device control program 1351. The survival signal transmission module 1353 transmits a survival signal that conveys the existence and normal operation of the own device to the adjacent network device. The survival signal transmission module is shown. The adjacent network device check module 1354 indicates a check module that transmits a survival confirmation signal to an adjacent network device that has not received a survival signal and confirms the occurrence of a failure based on the presence or absence of a response. The failure occurrence detection module 1355 indicates a failure occurrence detection module that detects occurrence of a failure in an adjacent network device and notifies the management server 210 of the failure occurrence. The failure recovery detection module 1356 is a failure recovery detection module that detects failure recovery of an adjacent network device and notifies the management server 210 of the failure recovery. The information transfer module 1357 to the adjacent network device indicates an information transfer module that transfers the MAC information of the adjacent device transmitted from the management server 210 and the setting information to be restored to the adjacent recovery network device.

  Note that FIG. 13 shows only data and programs essential to the present embodiment, and data and programs not related to the present embodiment are not shown.

《Network device processing procedure》
FIG. 14 is a flowchart illustrating a processing procedure of the network devices 202 to 205 and 404 according to the present embodiment. This flowchart is executed by the CPU 1310 of FIG. 13 using the RAM 1340, and implements the functional component of FIG. 7A.

  First, in step S1411, it is determined whether or not this device is the initial startup after replacement. In step S1421, it is determined whether backup data transmission to the management server 210 is performed. In step S1431, it is determined whether or not a survival signal is received from an adjacent network device. In step S1441, it is determined whether an instruction to transfer information from the management server 210 to the adjacent network is received. If it is neither, other processing is executed in step S1451.

  If it is the initial activation, the process proceeds to step S1413, and exchange setting processing for restoring the setting information of the failed network device to the present device is executed (see FIG. 15). If it is transmission of backup data, it will progress to step S1423 and will acquire setting information as backup data. In step S1425, the acquired backup data is transmitted to the management server 210.

  If no time-out signal has been received from the adjacent network device and a time-out has occurred, the process proceeds to step S1433 to transmit a life confirmation signal to the adjacent network device and check the response. Subsequently, the process branches in step S1435 depending on whether or not there is a response. If there is a response, the process is terminated without processing as a transient survival signal detection error. On the other hand, if there is no response to the survival confirmation signal, the process advances to step S1437 to notify the management server 210 of the occurrence of a failure in the adjacent network device.

  If it is an instruction to transfer information to an adjacent network device, the process advances to step S1443 to receive transfer information from the management server 210. In step S1445, the transfer information received from the management server 210 is transmitted to the adjacent network device.

(Exchange setting process)
FIG. 15 is a flowchart showing a processing procedure of the exchange setting processing S1413 according to the present embodiment.

  First, in step S1501, a signal that is a new network device (in this example, an initially set MAC address) is transmitted to an adjacent network device. In step S1503, the management server 210 waits for reception of the MAC address of the adjacent device based on the backup data. As described above, since the network is not set up and cannot be received directly from the management server 210, it is received via an adjacent network device. The adjacent devices may include user terminals as well as network devices.

  If the MAC address is received from the management server 210, the process advances to step S1505 to directly acquire the MAC address from the adjacent device currently connected. In step S1507, the MAC address received from the management server 210 is compared with the MAC address acquired from the directly connected neighboring device to determine whether or not they match. If they do not match, the process advances to step S1517 to notify that the position on the network to which the new network device is currently connected does not match the position of the failed network device on the network, and the process is terminated.

  If the MAC addresses of the adjacent devices match, the process advances to step S1509 to request the management server 210 to restore the setting information via the adjacent network device. In step S1511, the control waits until backup data that is backed up setting information is received from the management server 210 via the adjacent network device. If the backup data is received, the process advances to step S1513 to execute a backup data restore process. When the restoration process is completed, the network setting has already been completed, and thus a restoration completion notification is transmitted directly to the management server 210 in step S1515.

[Third Embodiment]
Next, a network system according to the third embodiment of the present invention will be described. The network system according to the present embodiment is different from the second embodiment in that a spare network device is connected in advance and network control is automatically shifted to the spare network device when a failure occurs. Since other configurations and operations are the same as those of the second embodiment, the same configurations and operations are denoted by the same reference numerals, and detailed description thereof is omitted.

  According to the present embodiment, the setting information is automatically set when the failed network device is transferred to the spare network device, so that the network can be restored without a complicated operation.

<Network system configuration>
Hereinafter, a network system at the time of failure occurrence and a network system at the time of failure recovery in the present embodiment are shown. By this description, the difference from the second embodiment becomes clear, and at the same time, the processing procedure of the present embodiment can be easily understood from the second embodiment.

(When a failure occurs)
FIG. 16 is a block diagram showing the configuration of the network system 1600 when a failure occurs according to this embodiment. In addition, the same reference number is attached | subjected to the component similar to FIG. 2 of 2nd Embodiment, and description is abbreviate | omitted. In this example, it is assumed that a failure has occurred in the network device 204.

  16 differs from FIG. 2 in that a network device 1606 is connected to the network 1601 as a spare for the network device 204. That is, the neighboring device of the network device 1606 is the same as the neighboring device of the network device 204. In this example, both the network devices 202 and 205 and the user terminal 230 are connected as adjacent devices. In FIG. 16, the connection of the network device 204 in operation with the adjacent device is indicated by a thick solid line, and the connection of the spare network device 1606 with the adjacent device is indicated by a thin broken line.

  Further, the management server 1610 has a function of automatically switching and controlling connection between network devices or between a network device and a user terminal.

  FIG. 16 shows an example in which a network device 1606 is connected as a spare for the network device 204 in order to avoid complexity. However, it is desirable for effective use of resources that the spare network device is connected to all the operating network devices 202 to 205 in an exchangeable manner. Further, instead of specifying the network device 1606 as a spare, it is possible to realize a network configuration in which one network device becomes a spare in order while changing the combination used by the five network devices.

(When recovering from a failure)
FIG. 17 is a block diagram showing a configuration of the network system 1700 at the time of failure recovery according to the present embodiment.

  In FIG. 17, the failed network device 204 is disconnected from the network 1701 and the spare network device 1606 is operating on the network 1701. In FIG. 17, the connection between the faulty network device 204 and the adjacent device is indicated by a thin broken line, and the connection between the active network device 1606 and the adjacent device is indicated by a thick solid line.

  Between the occurrence of the failure in FIG. 16 and the recovery from the failure in FIG. 17, the network configuration is incomplete only during the automatic switching of the connection from the network device 204 to the network device 1606. Therefore, if the switching is performed by the hub / switch shown in FIGS. 9 and 10, preferably a soft switch, the network system can provide service without interruption.

[Other Embodiments]
Although the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention. In addition, a system or an apparatus in which different features included in each embodiment are combined in any way is also included in the scope of the present invention.

  In addition, the present invention may be applied to a system composed of a plurality of devices, or may be applied to a single device. Furthermore, the present invention can also be applied to a case where a control program that realizes the functions of the embodiments is supplied directly or remotely to a system or apparatus. Therefore, in order to realize the functions of the present invention on a computer, a control program installed in the computer, a medium storing the control program, and a WWW (World Wide Web) server that downloads the control program are also included in the scope of the present invention. include.

[Other expressions of embodiment]
A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.
(Appendix 1)
A network system for performing communication via a plurality of network devices,
Backup data holding means for acquiring and holding backup data of the plurality of network devices;
A failure occurrence detecting means for detecting a failure occurrence of at least one of the plurality of network devices based on a survival signal transmitted from the network device;
A failure recovery detecting means for detecting that the failure of the network device in which the failure has occurred has been recovered based on a signal transmitted from the network device that has recovered from the failure;
In response to detection by the failure recovery detection means, backup data setting means for setting backup data of the failed network device held in the backup data holding means in the network device recovered from the failure,
A network system comprising:
(Appendix 2)
The network system according to appendix 1, wherein the backup data includes at least a MAC address of the network device, a network setting including an IP address and routing, and a MAC address of an adjacent device.
(Appendix 3)
The failure occurrence detecting means is
A response detecting means for detecting a response to a survival confirmation signal performed by the network device adjacent to the failed network device on the failed network device;
A failure occurrence determining means for determining that a failure has occurred in the failed network device when all the network devices adjacent to the failed network device have not responded from the failed network device;
The network system according to appendix 1 or 2, characterized by comprising:
(Appendix 4)
The failure recovery detection means includes
A signal receiving means for receiving a survival signal transmitted from the failed network device by a network device adjacent to the failed network device;
Failure recovery determination means for determining failure recovery of the failed network device when all network devices adjacent to the failed network device have received a survival signal of the failed network device;
The network system according to any one of appendices 1 to 3, characterized by comprising:
(Appendix 5)
5. The network system according to any one of appendices 1 to 4, wherein the failure recovery detected by the failure recovery detection unit includes replacement of the failed network device with a network device having no failure.
(Appendix 6)
The backup data setting means has a MAC address transmission means for transmitting the MAC address of an adjacent network device to the network device in which the failure recovery detection means has detected failure recovery,
The backup data is set in the fault-recovered network device when the MAC address acquired from the network device adjacent to the fault-recovered network device matches the MAC address transmitted by the MAC address transmitting means. The network system according to any one of appendices 1 to 5.
(Appendix 7)
A network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices, and performing communication via the plurality of network devices,
Each of the plurality of network devices is
Backup data transmitting means for transmitting backup data of the network device to the information processing apparatus;
A failure occurrence notifying means for detecting a failure occurrence of an adjacent network device based on a survival signal transmitted from the network device and notifying the information processing device;
Fault recovery notification means for detecting fault recovery of the faulty network device based on a signal transmitted from the adjacent network device and notifying the information processing apparatus;
Backup data receiving means for receiving and setting backup data of the failed network device transmitted from the information processing device when the network device is the network device recovered from the failure;
Have
The information processing apparatus is
Backup data holding means for holding backup data received from each of the plurality of network devices corresponding to the plurality of network devices;
A failure occurrence notification means for notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the failed network device;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission means for transmitting to the device;
A network system comprising:
(Appendix 8)
A network device backup method in a network system that performs communication via a plurality of network devices,
A backup data holding step of acquiring backup data of the plurality of network devices and holding the backup data in a backup data holding means;
A failure occurrence detecting step of detecting a failure occurrence of at least one of the plurality of network devices based on a survival signal transmitted from the network device;
A failure recovery detection step of detecting that the failure of the network device in which the failure has occurred is recovered based on a signal transmitted from the network device that has recovered from the failure;
In response to detection in the failure recovery detection step, backup data setting step of setting backup data of the failed network device held in the backup data holding means in the network device recovered from the failure,
A backup method for network equipment, comprising:
(Appendix 9)
A network device in a network system that includes a plurality of network devices and an information processing device that manages the plurality of network devices, and performs communication via the plurality of network devices,
Backup data transmitting means for transmitting backup data of the network device to the information processing apparatus;
A failure occurrence notifying means for detecting a failure occurrence of an adjacent network device based on a survival signal transmitted from the network device and notifying the information processing device;
Fault recovery notification means for detecting fault recovery of the faulty network device based on a signal transmitted from the adjacent network device and notifying the information processing apparatus;
Backup data receiving means for receiving and setting backup data of the failed network device transmitted from the information processing device when the network device is the network device recovered from the failure;
A network device comprising:
(Appendix 10)
A network device control method in a network system that includes a plurality of network devices and an information processing apparatus that manages the plurality of network devices, and performs communication via the plurality of network devices,
Backup data transmission step of transmitting backup data of the network device to the information processing apparatus;
A failure occurrence notification step of detecting a failure occurrence of an adjacent network device based on a survival signal transmitted from the network device and notifying the information processing device;
A failure recovery notification step of detecting failure recovery of the failed network device based on a signal transmitted from the adjacent network device and notifying the information processing device;
When the network device is the network device that has recovered from the failure, a backup data receiving step for receiving and setting backup data of the network device in which the failure has occurred transmitted from the information processing apparatus;
A method for controlling a network device, comprising:
(Appendix 11)
A network device control program in a network system that includes a plurality of network devices and an information processing device that manages the plurality of network devices, and performs communication via the plurality of network devices,
Backup data transmission step of transmitting backup data of the network device to the information processing apparatus;
A failure occurrence notification step of detecting a failure occurrence of an adjacent network device based on a survival signal transmitted from the network device and notifying the information processing device;
A failure recovery notification step of detecting failure recovery of the failed network device based on a signal transmitted from the adjacent network device and notifying the information processing device;
In the case where the network device is the network device that has recovered from the failure, a backup data receiving step for receiving and setting backup data of the network device in which the failure has occurred transmitted from the information processing device;
A control program for causing a computer to execute.
(Appendix 12)
An information processing device in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices, and performing communication via the plurality of network devices,
Backup data holding means for holding backup data received from each of the plurality of network devices corresponding to the plurality of network devices;
A failure occurrence notification means for notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the failed network device;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission means for transmitting to the device;
An information processing apparatus comprising:
(Appendix 13)
A control method for an information processing apparatus in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices, and performing communication via the plurality of network devices,
A backup data holding step of holding backup data received from each of the plurality of network devices in a backup data holding unit corresponding to the plurality of network devices;
A failure occurrence notification step of notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the network device where the failure has occurred;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission step to be transmitted to the device;
A method for controlling an information processing apparatus, comprising:
(Appendix 14)
A control program for an information processing device in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices and performing communication via the plurality of network devices,
A backup data holding step of holding backup data received from each of the plurality of network devices in a backup data holding unit corresponding to the plurality of network devices;
A failure occurrence notification step of notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the network device where the failure has occurred;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission step to be transmitted to the device;
A control program for causing a computer to execute.

Claims (10)

A network system for performing communication via a plurality of network devices,
Backup data holding means for acquiring and holding backup data of the plurality of network devices;
A failure occurrence detecting means for detecting a failure occurrence of at least one of the plurality of network devices based on a survival signal transmitted from the network device;
A failure recovery detecting means for detecting that the failure of the network device in which the failure has occurred has been recovered based on a signal transmitted from the network device that has recovered from the failure;
In response to detection by the failure recovery detection means, backup data setting means for setting backup data of the failed network device held in the backup data holding means in the network device recovered from the failure,
A network system comprising:   The network system according to claim 1, wherein the backup data includes at least a MAC address of the network device, a network setting including an IP address and routing, and a MAC address of an adjacent device. The failure occurrence detecting means is
A response detecting means for detecting a response to a survival confirmation signal performed by the network device adjacent to the failed network device on the failed network device;
A failure occurrence determining means for determining that a failure has occurred in the failed network device when all the network devices adjacent to the failed network device have not responded from the failed network device;
The network system according to claim 1 or 2, characterized by comprising: The failure recovery detection means includes
A signal receiving means for receiving a survival signal transmitted from the failed network device by a network device adjacent to the failed network device;
Failure recovery determination means for determining failure recovery of the failed network device when all network devices adjacent to the failed network device have received a survival signal of the failed network device;
The network system according to claim 1, wherein the network system includes:   5. The network system according to claim 1, wherein the failure recovery detected by the failure recovery detection unit includes replacement of the failed network device with a network device having no failure. The backup data setting means has a MAC address transmission means for transmitting the MAC address of an adjacent network device to the network device in which the failure recovery detection means has detected failure recovery,
The backup data is set in the fault-recovered network device when the MAC address acquired from the network device adjacent to the fault-recovered network device matches the MAC address transmitted by the MAC address transmitting means. The network system according to any one of claims 1 to 5. A network device backup method in a network system that performs communication via a plurality of network devices,
A backup data holding step of acquiring backup data of the plurality of network devices and holding the backup data in a backup data holding means;
A failure occurrence detecting step of detecting a failure occurrence of at least one of the plurality of network devices based on a survival signal transmitted from the network device;
A failure recovery detection step of detecting that the failure of the network device in which the failure has occurred is recovered based on a signal transmitted from the network device that has recovered from the failure;
In response to detection in the failure recovery detection step, backup data setting step of setting backup data of the failed network device held in the backup data holding means in the network device recovered from the failure,
A backup method for network equipment, comprising: An information processing device in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices, and performing communication via the plurality of network devices,
Backup data holding means for holding backup data received from each of the plurality of network devices corresponding to the plurality of network devices;
A failure occurrence notification means for notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the failed network device;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission means for transmitting to the device;
An information processing apparatus comprising: A control method for an information processing apparatus in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices, and performing communication via the plurality of network devices,
A backup data holding step of holding backup data received from each of the plurality of network devices in a backup data holding unit corresponding to the plurality of network devices;
A failure occurrence notification step of notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the network device where the failure has occurred;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission step to be transmitted to the device;
A method for controlling an information processing apparatus, comprising: A control program for an information processing device in a network system comprising a plurality of network devices and an information processing device for managing the plurality of network devices and performing communication via the plurality of network devices,
A backup data holding step of holding backup data received from each of the plurality of network devices in a backup data holding unit corresponding to the plurality of network devices;
A failure occurrence notification step of notifying the occurrence of a failure when a failure occurrence notification is received from all network devices adjacent to the network device where the failure has occurred;
When the failure recovery notification is received from all the network devices adjacent to the failed network device, the backup data of the failed network device held by the backup data holding unit is recovered from the network. Backup data transmission step to be transmitted to the device;
A control program for causing a computer to execute.

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