JP2021047882A - Client device, server device, and server selection method - Google Patents

Abstract

To select a server device that manages a plurality of client devices in a centralized manner and becomes a communication object of each client device.SOLUTION: A selection processing unit 130 selects a server device that manages a plurality of client devices 100 in a centralized manner and becomes a communication object of each client device 100 from a plurality of server devices 200.SELECTED DRAWING: Figure 5

Description

The present invention relates to the selection of an operation server device that centrally manages a plurality of client devices.

Patent Document 1 discloses a technique for each client device to select a server device suitable for the client device from a plurality of server devices (hereinafter, also referred to as "related technology A").

Japanese Unexamined Patent Publication No. 2011-146878

In a network system, there is a system in which one server device centrally manages a plurality of client devices (hereinafter, also referred to as "centralized management system"). In the following, a server device that centrally manages a plurality of client devices is also referred to as an “operational server device”. The centralized management system includes an operation server device.

With the diversification of centralized management systems in recent years, there is also a configuration in which the centralized management system includes a plurality of server devices. In this configuration, it is required to select a server device (operational server device) that centrally manages a plurality of client devices and a communication target of each client device from the plurality of server devices. There are times. It should be noted that the related technology A cannot satisfy this requirement.

The present invention has been made to solve such a problem, is a server device that centrally manages a plurality of client devices, and can select a server device to be communicated with each client device. The purpose is to provide various client devices and the like.

In order to achieve the above object, the client device according to one aspect of the present invention receives server state information including a time related to the state of the server device transmitted by each of the plurality of server devices. The client device is a server device that centrally manages a plurality of client devices including the client device from the plurality of server devices based on the time included in the server status information, and each of the client devices. It is provided with a selection processing unit that selects a target operation system server device that is a server device to be communicated with, and a data management unit that collects data held by the server device for the selected server device.

According to the present invention, the selection processing unit selects a server device that centrally manages a plurality of client devices from the plurality of server devices and is a communication target of each of the client devices.

As a result, it is possible to select a server device that is a server device that centrally manages a plurality of client devices and is a communication target of each client device.

It is a figure which shows the structure of the network system which concerns on Embodiment 1 of this invention. It is a block diagram which shows the structure of the server apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the server state information which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the server state information which concerns on Embodiment 1 of this invention. It is a block diagram which shows the structure of the client apparatus which concerns on Embodiment 1 of this invention. It is a figure which shows an example of the server state information table which concerns on Embodiment 1 of this invention. It is a sequence diagram of the communication control processing which concerns on Embodiment 1 of this invention. It is a sequence diagram of the communication control process A which concerns on Embodiment 2 of this invention. It is a figure which shows an example of the server state information which concerns on Embodiment 3 of this invention. It is a figure which shows an example of the server state information which concerns on Embodiment 3 of this invention. It is a figure which shows an example of the server state information table which concerns on Embodiment 3 of this invention. It is a sequence diagram of the communication control process B which concerns on Embodiment 3 of this invention. It is a block diagram which shows the characteristic functional structure of a client device. It is a hardware configuration diagram of a client device.

In the above-mentioned centralized management system, a plurality of client devices are connected to the active server device. The operation server device is a device that provides various services. In the following, among a plurality of server devices, a server device other than the active server device is also referred to as a “standby server device”.

In the centralized management system, the active server device performs data synchronization processing on the standby server device at a predetermined timing. As a result, it is possible to reduce the overhead related to the data synchronization process between the server devices that occurs when the data is updated.

However, in the following situation Stn, there may be a plurality of operational server devices in the centralized management system. The situation Stn is, for example, a situation in which there is a failure in the line connecting the active server device and the standby server device. Further, the situation Stn is a situation in which the standby server device is temporarily operated as the operation server device.

Therefore, in the centralized management system, it is required to select an appropriate server device. In the following embodiment, a configuration that satisfies this requirement will be described.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the drawings below, the same components are designated by the same reference numerals. The names and functions of the components with the same reference numerals are the same. Therefore, detailed description of a part of each component having the same reference numeral may be omitted.

<Embodiment 1>
(System configuration)
FIG. 1 is a diagram showing a configuration of a network system 1000 according to a first embodiment of the present invention. The network system 1000 is a centralized management system.

With reference to FIG. 1, the network system 1000 includes a plurality of server devices 200 and a plurality of client devices 100. In FIG. 1, four server devices 200 are shown as an example.

The number of server devices 200 included in the network system 1000 is not limited to 4, and may be 2, 3 or 5 or more. Further, the number of client devices 100 included in the network system 1000 may be 1.

Each of the plurality of client devices 100 has the same configuration. Further, each of the plurality of server devices 200 has the same configuration. Each of the plurality of server devices 200 is configured to be able to communicate with the plurality of client devices 100. Each of the plurality of server devices 200 is connected to the plurality of client devices 100 by, for example, a network.

The plurality of server devices 200 are configured to be able to communicate with each other. The plurality of server devices 200 are connected to each other by, for example, a network. The plurality of server devices 200 may not be configured so as to be able to communicate with each other.

Of the plurality of server devices 200, at least one server device 200 is an operational server device. The operation system server device is a server device that centrally manages a plurality of client devices 100. The operation server device is a device that provides various services. Of the plurality of server devices 200, the server device 200 other than the active server device is a standby server device.

The active server device periodically performs a process for synchronizing backup data with the standby server device with which the active server device can communicate.

As described above, the network system 1000 is a centralized management system. Therefore, the server device 200 that each client device 100 can access at the same time is only an operation server device that provides various services. The service is, for example, a service that manages an encryption key commonly used by each client device 100.

Each client device 100 manages, for example, a history of operations on the client device 100. Further, each client device 100 manages logs such as a communication failure status and a traffic status between the client device 100 and a terminal device under the client device 100, for example. Each client device 100 periodically transmits management information indicating a log or the like to the operation server device.

As described above, at least one server device 200 out of the plurality of server devices 200 is an active server device. The operation server device provides a service to each client device 100 and processes a request from each client device 100, for example.

(Server device)
FIG. 2 is a block diagram showing a configuration of the server device 200 according to the first embodiment of the present invention. In the following, the server device 200 corresponding to each component shown in FIG. 2 is also referred to as a “own server device”. The home server device is one of the plurality of server devices 200 shown in FIG. Further, in the following, among the plurality of server devices 200 shown in FIG. 1, the server device 200 other than the own server device is also referred to as “another server device”.

Further, in the following, the operating state of the server device 200 is also referred to as a “system state”. The system state of the server device 200 is set to either the active system or the standby system. The "operation system" is a state for centrally managing a plurality of client devices 100. The server device 200 whose system state is the active system is an active server device.

The “standby system” is, for example, a state in which the server device 200 does not perform high-load processing. The server device 200 whose system state is the standby system is a standby system server device.

With reference to FIG. 2, the server device 200 includes a storage unit 210, a data management unit 220, a management unit 230, a control unit 250, an input unit 270, and a communication unit 280.

The communication unit 280 has a function of communicating with each of the client device 100 and the other server device. Specifically, the communication unit 280 includes a client communication unit 281 and a server communication unit 282. The client communication unit 281 has a function of communicating with the client device 100. The server communication unit 282 has a function of communicating with another server device. The server communication unit 282 has a function of detecting a communication abnormality when communication with another server device cannot be performed normally. The communication abnormality occurs, for example, when there is a failure in the line connecting the local server device and the other server device.

The storage unit 210 has a function of storing data and the like. The data stored in the storage unit 210 is, for example, data generated by the own server device, data received by the communication unit 280 from the other server device or the client device 100, and the like. The data received by the communication unit 280 from the client device 100 is, for example, data necessary for providing a service.

The data management unit 220 has a function of performing data communication with the client device 100 via the communication unit 280 (client communication unit 281). Further, the data management unit 220 has a function of performing data communication with another server device via the communication unit 280 (server communication unit 282). The data management unit 220 has a function of storing the data received via the communication unit 280 in the storage unit 210 together with the update time of the data.

The input unit 270 is, for example, an interface that receives an operation by an operator. The input unit 270 is, for example, a keyboard, a mouse, or the like. In the following, the operation performed by the operator on the input unit 270 is also referred to as "operation M".

The control unit 250 periodically performs a system status transmission process for transmitting system status information to another server device via the communication unit 280 (server communication unit 282). The system status information is information indicating the system status of the local server device. The system status information is also referred to as alive monitoring information.

Each of the plurality of server devices 200 periodically performs system status transmission processing, so that each server device 200 grasps the system status of its own server device and other server devices.

The control unit 250 includes a system setting unit 251. The system setting unit 251 has a function of setting the system state of the own server device to the active system or the standby system. When the system setting operation for setting the system state is performed, the system setting unit 251 sets the system state of the own server device to the active system or the standby system according to the system setting operation. The system setting operation is, for example, an operation M for setting the system state in the operating system. Further, the system setting operation is, for example, an operation M for setting the system state to the standby system.

When the system state is set, the system setting unit 251 transmits the system state information to the management unit 230. The system status information indicates the system status (active system or standby system) after setting.

The management unit 230 has a function of receiving system status information from the system setting unit 251. In addition, the management unit 230 has a function of managing server status information. The server status information is information related to the status of the server device. In the following, the server status information is also referred to as “server status information SVSt” or “SVSt”. The server status information SVSt includes the server status information SVSta and SVStb as an example.

In addition, the management unit 230 includes a time management unit 231. The time management unit 231 constantly manages the latest date and time (time). The management unit 230 constantly acquires the latest date and time (time) from the time management unit 231. When the management unit 230 receives the system status information, the management unit 230 generates or updates the server status information SVSta indicating the system status indicated by the system status information and the date and time (time) when the system status information is received. The system state indicated by the system state information is an active system or a standby system.

FIG. 3 is a diagram showing an example of the server state information SVSta according to the first embodiment of the present invention. With reference to FIG. 3, the server status information SVSta indicates the system status and the server set time. The "server set time" is a date and time (time) when the system state of the server device 200 is set to the active system or the standby system. That is, the "server set time" is a date and time (time) related to the state of the server device 200.

FIG. 4 is a diagram showing an example of the server state information SVStb according to the first embodiment of the present invention. With reference to FIG. 4, the server status information SVStb indicates a data identification number and a data update time. The "data identification number" is a number for identifying data. The "data update time" is the date and time (time) when the data held by the server device 200 is updated, which is specified (identified) by the data identification number. That is, the "data update time" is a date and time (time) related to the state of the server device 200.

When the system state of the server device 200 is the operating system, the management unit 230 has a function of periodically transmitting the server state information SVSt to the client device 100 via the communication unit 280. The server status information SVSt indicates a server identification number. The server identification number is a number for identifying the server device 200 that has transmitted the server status information SVSt indicating the server identification number.

(Client device)
FIG. 5 is a block diagram showing the configuration of the client device 100 according to the first embodiment of the present invention. With reference to FIG. 5, the client device 100 includes a storage unit 110, a selection processing unit 130, a data management unit 120, and a communication unit 180.

The storage unit 110 has a function of storing data and the like.

The communication unit 180 has a function of communicating with each of the server device 200 and the lower device (terminal device). Specifically, the communication unit 180 includes a server communication unit 181 and a lower device communication unit 182. The server communication unit 181 has a function of communicating with the server device 200. The lower device communication unit 182 has a function of communicating with a terminal device (not shown) which is a lower device.

The selection processing unit 130 has a function of managing server status information. Specifically, the selection processing unit 130 stores the server status information table SVTL. The server status information table SVTL shows the server identification number and the server status information SVSta and SVStb included in the server status information SVSt in association with each other. The server status information table SVTL does not show the system status.

The selection processing unit 130 has a function of receiving the server status information SVSt transmitted by the server device 200 via the communication unit 180 (server communication unit 181). Each time the selection processing unit 130 receives the server status information SVSt, the selection processing unit 130 associates the server identification number indicated by the server status information SVSt with the server status information SVSta and SVStb included in the server status information SVSt, and associates the server status information with the server status information SVSt. Add to table SVTL.

FIG. 6 is a diagram showing an example of the server state information table SVTL according to the first embodiment of the present invention.

Further, when the selection processing unit 130 receives a plurality of server status information SVSts from the plurality of server devices 200, the selection processing unit 130 selects an operation server device to be communicated with by the client device 100 based on the plurality of server status information SVSts. Has the function of

The data management unit 120 has a function of performing data collection processing. In the data collection process, the data management unit 120 acquires the data held by the server device 200 selected by the selection process unit 130 from the server device 200. The data management unit 120 stores the acquired data in the storage unit 110.

Further, the data management unit 120 stores the data received from the lower device (terminal device) via the lower device communication unit 182 in the storage unit 110. Further, the data management unit 120 has a function of transmitting the data received from the lower device to the server device 200 via the communication unit 180 (server communication unit 181).

(Processing in network system)
Next, the processing performed in the network system 1000 (hereinafter, also referred to as “communication control processing”) will be described. In the following, each of the plurality of server devices 200 of the network system 1000 will also be collectively referred to as "server device SV". Further, in the following, the two server devices SV included in the plurality of server devices 200 are also referred to as server devices SVa and SVb, respectively. Further, in the following, the server devices SVa and SVb are also referred to as “SVa” and “SVb”, respectively.

Further, in the following, each of the plurality of client devices 100 of the network system 1000 is also collectively referred to as “client device CL”. Further, in the following, the two client devices 100 included in the plurality of client devices 100 are also referred to as client devices CLa and CLb, respectively. Further, in the following, the client devices CLa and CLb are also referred to as “CLa” and “CLb”, respectively.

In the communication control process of the present embodiment, in order to make the explanation easy to understand, the processes performed by the server devices SVa and SVb and the client devices CLa and CLb will be described as an example.

FIG. 7 is a sequence diagram of the communication control process according to the first embodiment of the present invention. Here, the following premise Pm1 is considered. In the premise Pm1, the system state of the server device SVa is set in the operating system in advance. That is, the server device SVa is an operation system server device. Further, in the premise Pm1, for example, a system setting operation for setting the system state to the operating system is performed in advance for the server device SVa. The system setting operation is an operation performed by using the input unit 270.

Further, in the premise Pm1, the system state of the server device SVb is set in advance in the operating system. That is, the server device SVb is an operation system server device.

In the communication control process in the premise Pm1, the power of the server device SVa is turned on in step S501A. As a result, the management unit 230 of the server device SVa performs the operation system processing.

In the operation system processing in the server device SVa, in steps S502a and S503a, the management unit 230 of the server device SVa periodically transmits the server status information SVSt to the client devices CLa and CLb. As a result, each of the client devices CLa and CLb receives the server status information SVSt.

Further, in step S501b, the power of the server device SVb is turned on. As a result, the management unit 230 of the server device SVb performs the operation system processing.

In the operation system processing in the server device SVb, in steps S502b and S503b, the management unit 230 of the server device SVb periodically transmits the server status information SVSt to the client devices CLa and CLb. As a result, each of the client devices CLa and CLb receives the server status information SVSt.

In the following, the conditions for performing the operation system processing are also referred to as "operation conditions". The operating conditions are not limited to the condition that the power of the server device is turned on. The operating condition may be, for example, a condition that a system setting operation for setting (changing) the system state to the operating system has been performed on the standby system server device SV.

Further, the operating condition may be a condition that the server communication unit 282 of the standby server device has detected a communication abnormality. When the server communication unit 282 detects a communication abnormality, the server communication unit 282 determines that an operation failure has occurred in the active server device. In this case, the system status of the standby server device is set to the active system in order to continue providing the service to the client device. As a result, the standby server device becomes an operation server device, and the operation server device performs operation processing.

In the communication control process, each of the client devices CLa and CLb performs the same process. Here, as an example, processing in the client device CLa will be described. Note that FIG. 7 does not show the processing in the client device CLb for the sake of simplification of the figure.

In step S710, the storage process is performed. In the storage process, the selection processing unit 130 of the client device CL associates the server identification number indicated by the server status information SVSt with the server status information SVSta and SVStb included in the server status information SVSt, and associates the server status information table with the above-mentioned server status information table. Add to SVTL.

In step S720, the selection processing unit 130 determines whether or not the client device CL has received the plurality of server status information SVSt. If YES in step S720, the process proceeds to step S730. That is, when the client device CL receives a plurality of server status information SVSt, the selection process described later is performed. On the other hand, if NO in step S720, the process in the client device CL ends, and the selection process described later is not performed.

In the communication control process in the premise Pm1, the client device CLa receives at least two server state information SVSts from the server devices SVa and SVb. Therefore, it is determined as YES in step S720, and the process proceeds to step S730.

In the following, the condition for selecting the active server device from the plurality of server devices 200 is also referred to as “selection condition Cd”. The selection condition Cd is a predetermined condition. Further, in the following, the operation system server device to be communicated with each client device CL is also referred to as "target operation system server device".

In step S730, the selection process is performed. In the selection process, the selection process unit 130 selects the target operation system server device from the plurality of server device SVs based on the date and time (time) in the selection condition Cd.

The selection condition Cd is, for example, a condition that the server device SV corresponding to the server identification number corresponding to the latest server setting time is selected from the plurality of server setting times indicated by the server status information table SVTL. Each of the plurality of server setting times indicated by the server status information table SVTL is a server setting time included in the server status information SVSta included in the server status information SVSt received by the client device CL.

Further, the selection condition Cd is, for example, a condition that the server device SV corresponding to the server identification number corresponding to the latest data update time is selected from the plurality of data update times indicated by the server status information table SVTL. Each of the plurality of data update times indicated by the server status information table SVTL is a data update time included in the server status information SVSt included in the server status information SVSt received by the client device CL.

Here, the selection condition Cd in the premise Pm1 is, as an example, the target operation of the server device SV corresponding to the server identification number corresponding to the latest server setting time among the plurality of server setting times indicated by the server status information table SVTL. It is a condition to select as a system server device.

Further, the server state information table SVTL used in the selection process in the premise Pm1 is, for example, the server state information table SVTL of FIG. In the premise Pm1, the server identification number of the server device SVa is "1001" as an example.

Specifically, in the selection process in the premise Pm1, the selection process unit 130 receives the server identification number "corresponding to the latest server set time among the plurality of server set times from the plurality of server devices SVs according to the selection condition Cd." Select the server device SVa (target operation system server device) corresponding to "1001".

In step S740, the selection processing unit 130 transmits the connection request CRq to the selected server device SVa. As a result, the server device SVa can communicate with the client device CL that has transmitted the connection request CRq in response to the reception of the connection request CRq.

In step S750, the data collection process is performed. In the data collection process, the data management unit 120 collects the data held by the server device SV for the selected server device SV. In the data collection process in the premise Pm1, the data management unit 120 collects the data held by the server device SVa for the selected server device SVa.

As described above, according to the present embodiment, the selection processing unit 130 is a server device that centrally manages a plurality of client device CLs from a plurality of server devices SVs, and communicates with each client device CL. Select the target server device (target operation system server device).

As a result, it is possible to select a server device (target operation system server device) that is a server device that centrally manages a plurality of client device CLs and is a communication target of each client device.

Further, according to the configuration of the present embodiment, an appropriate server device can be selected in the network system 1000 which is a centralized management system.

As described above, in the situation Stn, there may be a plurality of operation server devices in the centralized management system. The situation Stn is, for example, a situation in which there is a failure in the line connecting the active server device and the standby server device. Further, the situation Stn is a situation in which the standby server device is temporarily operated as the operation server device.

Even in such a situation Stn, according to the present embodiment, each client device CL can select a common operation server device (centralized management server device). Therefore, even in the situation Stn, each client device CL can access a common data resource.

<Embodiment 2>
In the first embodiment, even if the server device to which the connection request CRq is transmitted is not the active server device, the data collection process can be performed on the server device. Therefore, the server device SVb that is not selected in the selection process continues to operate as the active server device. Therefore, the power consumption of the network system 1000 is wasted by the amount of power required for the server device SVb to operate. In the present embodiment, a configuration for solving such a problem will be described.

(Processing in network system)
The configurations of the network system 1000, the server device 200 (SV), and the client device 100 (CL) of the present embodiment are the same as those of the first embodiment. Hereinafter, the points different from those of the first embodiment will be mainly described. In the present embodiment, the communication control process A is performed in the network system 1000.

FIG. 8 is a sequence diagram of the communication control process A according to the second embodiment of the present invention. In FIG. 8, the process of the same step number as the step number of FIG. 7 is the same as the process described in the first embodiment, so that the detailed description will not be repeated. In the communication control process A, each of the client devices CLa and CLb performs the same process. Here, as an example, processing in the client device CLa will be described. Note that FIG. 8 does not show the processing in the client device CLb for the sake of simplification of the figure.

In the present embodiment, the processing when the communication control processing A is performed under the above-mentioned premise Pm1 will be described. Hereinafter, the points different from those of the first embodiment will be mainly described.

By the process of step S740 described above, the connection request CRq is transmitted to the server device SVa. The system setting unit 251 of the server device SVa receives the connection request CRq via the communication unit 280 (client communication unit 281). As a result, in step S520, the system setting unit 251 sets the system state of the own server device to the operating system. Then, the management unit 230 updates the server state information SVSta based on the setting contents of the system state.

Then, the management unit 230 reads the data specified by the connection request CRq from the storage unit 210. Then, the management unit 230 transmits a response to the client device CLa that has transmitted the connection request CRq via the communication unit 280.

The client device CLa performs the data collection process in the same manner as in the first embodiment in response to the reception of the response.

In the following, the server device SV selected in the selection process of step S730 is also referred to as a “selection server device”. The selection server device is the target operation system server device described above. Further, in the following, among the plurality of server device SVs in the network system 1000, the server device SV other than the selected server device is also referred to as a “non-selected device”.

In step S760, the selection processing unit 130 of the client device CLa determines whether or not the server status information SVSt has been received from the non-selection device. Specifically, the selection processing unit 130 determines whether or not the server status information SVSt has been received from the non-selection device during the period Tm1. The period Tm1 is, for example, a period from the receipt of the above-mentioned response to the elapse of a predetermined time, and the predetermined time is, for example, a time in the range of 5 seconds to 20 seconds.

If YES in step S760, the process proceeds to step S761. On the other hand, if NO in step S760, the process in the client device CLa ends.

In the premise Pm1 of the present embodiment, as an example, the client device CLa receives the server state information SVSt from the server device SVb, which is a non-selection device, during the period Tm1. Therefore, it is determined as YES in step S760, and the process proceeds to step S761.

In step S761, the selection processing unit 130 performs a process for preventing the non-selection device from operating as an operating server device. Specifically, the selection processing unit 130 transmits a connection refusal request to the non-selection device. The connection refusal request indicates an instruction for setting the system state of the non-selected device to the standby system.

In step S761 in the premise Pm1, the selection processing unit 130 transmits a connection refusal request to the server device SVb which is a non-selection device. As a result, the server device SVb receives the connection refusal request.

In step S570, the system setting unit 251 of the server device SVb sets the system state of the own server device to the standby system in accordance with the connection refusal request. Then, the management unit 230 updates the server state information SVSta based on the setting contents of the system state. As a result, the server device SVb becomes a standby server device. Then, the management unit 230 transmits a response to the client device CL that has transmitted the connection refusal request via the communication unit 280.

In step S571, the management unit 230 of the server device SVb ends the operation system processing. That is, the management unit 230 ends the process of periodically transmitting the server status information SVSt. When the server device SVb, which has become the standby server device, receives the connection request CRq from the client device CL, it transmits a rejection response to the client device CL.

As described above, according to the present embodiment, the selection processing unit 130 of the client device CL performs a process for preventing the non-selection device from operating as an operation server device. Specifically, the selection processing unit 130 performs a process for setting the system state of the non-selection device to the standby system. As a result, the server device SVb, which is a non-selection device, becomes a standby server device. As a result, the data collection process can be performed only on the operation server device which is the target operation server device. As described above, the power consumption in the network system 1000 (standby server device) can be reduced.

<Embodiment 3>
In the second embodiment, the system state of the server device SV is set in step S520. In the communication control process A of the second embodiment, the time (server set time) included in each of the plurality of server status information SVSts received by each client device CL is the same.

Therefore, in the second embodiment, in the selection process, a situation (selection error) may occur in which the server device selected by the specific client device CL is different from the server device selected by another client device CL. That is, there is a problem that each client device CL may not be able to select a common server device SV. In this embodiment, a configuration for solving this problem will be described.

(Processing in network system)
The configurations of the network system 1000, the server device 200 (SV), and the client device 100 (CL) of the present embodiment are the same as those of the first and second embodiments. Hereinafter, the points different from the second embodiment will be mainly described. In the present embodiment, the communication control process B is performed in the network system 1000.

The management unit 230 of each server device SV of the present embodiment has a function of managing the server status information SVStX. Specifically, the management unit 230 stores the server status information SVStX. The server status information SVStX indicates a server identification number. The server identification number is a number for identifying the server device 200 that has transmitted the server status information SVStX indicating the server identification number. Further, the server status information SVStX includes the server status information SVStaX and SVStbX as an example.

FIG. 9 is a diagram showing an example of the server state information SVStaX according to the third embodiment of the present invention. With reference to FIG. 9, the server status information SVStaX is different from the server status information SVSta of FIG. 3 in that it further indicates a “session number”. Since the other information of the server status information SVStaX is the same as that of the server status information SVSta, detailed description will not be repeated.

The "session number" is a number for uniquely managing the data to be processed in a certain period in the network system 1000. Therefore, the session number is a number commonly defined in all the server devices SV. For example, in each server device SV, the session number is used so that the value obtained by adding 1 is obtained every time a predetermined time elapses.

FIG. 10 is a diagram showing an example of the server state information SVStbX according to the third embodiment of the present invention. With reference to FIG. 10, the server state information SVStbX is different from the server state information SVStb of FIG. 4 in that it further indicates a “session number”. Since the other information of the server status information SVStb is the same as that of the server status information SVStb, the detailed description will not be repeated.

Further, the selection processing unit 130 of each client device CL of the present embodiment has a function of managing the server status information SVTLX. Specifically, the selection processing unit 130 stores the server status information table SVTLX.

FIG. 11 is a diagram showing an example of the server state information table SVTLX according to the third embodiment of the present invention. With reference to FIG. 11, the server status information table SVTLX is different from the server status information table SVTL of FIG. 6 in that it further indicates a “session number”. Since the other information of the server status information table SVTLX is the same as that of the server status information table SVTL, detailed description will not be repeated.

FIG. 12 is a sequence diagram of the communication control process B according to the third embodiment of the present invention. In FIG. 12, the process of the same step number as the step number of FIG. 8 is the same as the process described in the second embodiment, so that the detailed description will not be repeated. In the communication control process B, each of the client devices CLa and CLb performs the same process. Here, as an example, processing in the client device CLa will be described. Note that FIG. 12 does not show the processing in the client device CLb for the sake of simplification of the figure.

In the present embodiment, the processing when the communication control processing B is performed under the above-mentioned premise Pm1 will be described. Hereinafter, the points different from those of the second embodiment will be mainly described.

In steps S501A and S501B, the same processing as in the first embodiment is performed.

In steps S502aB and S503aB, the management unit 230 of the server device SVa periodically transmits the server status information SVStX to the client devices CLa and CLb. Further, in steps S502bB and S503bB, the management unit 230 of the server device SVb periodically transmits the server status information SVStX to the client devices CLa and CLb.

In step S710B, the storage process B is performed. In the storage process B, the selection processing unit 130 of the client device CL associates the server identification number indicated by the server status information SVStX with the server status information SVStaX and SVStbX included in the server status information SVStX, and causes the above-mentioned server status information. Add to table SVTLX.

In step S720B, the selection processing unit 130 determines whether or not the client device CL has received the plurality of server status information SVStX. If YES in step S720B, the process proceeds to step S730B. On the other hand, if NO in step S720B, the processing in the client device CL ends, and the selection processing B described later is not performed.

In the communication control process B in the premise Pm1, the client device CLa receives at least two server state information SVStX from the server devices SVa and SVb. Therefore, it is determined as YES in step S720B, and the process proceeds to step S730B.

In step S730B in the premise Pm1, the selection process B is performed. In the selection process B, the selection process unit 130 selects the target operation system server device from the plurality of server device CLs based on the date and time (time) in the selection condition Cd.

The selection condition Cd selects, for example, the server device SV corresponding to the server identification number corresponding to the latest server setting time among a plurality of server setting times indicated by the server status information table SVTLX corresponding to the same session number. It is a condition. Each of the plurality of server setting times indicated by the server status information table SVTLX is a server setting time included in the server status information SVStaX included in the server status information SVStX received by the client device CL.

Further, the selection condition Cd is, for example, a server device SV corresponding to the server identification number corresponding to the latest data update time among a plurality of data update times indicated by the server status information table SVTLX corresponding to the same session number. It is a condition to select. Each of the plurality of data update times indicated by the server status information table SVTLX is a data update time included in the server status information SVStX included in the server status information SVStX received by the client device CL.

Here, the selection condition Cd in the premise Pm1 of the present embodiment corresponds to the latest server setting time among a plurality of server setting times indicated by the server status information table SVTLX corresponding to the same session number as an example. The condition is that the server device SV corresponding to the server identification number is selected as the target operation system server device.

Further, the server state information table SVTLX used in the selection process B in the premise Pm1 is, for example, the server state information table SVTLX of FIG. In the premise Pm1, the server identification number of the server device SVa is "1001" as an example. Further, in the premise Pm1, the server identification number of the server device SVb is "1002". Further, in the premise Pm1, the same session number described above in the selection condition Cd is “1” as an example.

Specifically, in the selection process B in the premise Pm1, the selection process unit 130 performs the latest server among the plurality of server set times corresponding to the session number “1” from the plurality of server devices SV according to the selection condition Cd. Select the server device SVa (target operation system server device) corresponding to the server identification number "1001" corresponding to the set time.

In step S740B in the premise Pm1, the selection processing unit 130 transmits the connection request CRq to the selected server device SVa. The connection request CRq includes the session number “1” used in the selection process B in the premise Pm1.

In step S510 in the premise Pm1, the management unit 230 of the server device SVa determines whether or not the server device SV has received the connection request CRq from all the client devices CL to which the server state information SVStX has been transmitted in the predetermined period TmB. Will be done.

Further, the predetermined period TmB is, for example, a period from when the server device SVa transmits the server status information SVStX to when 20 seconds have elapsed. The management unit 230 waits in TMB for a predetermined period until it receives a connection request CRq including the same session number from all the client device CLs.

If YES in step S510, the process proceeds to step S520. On the other hand, if NO in step S510, the process proceeds to step S502aB.

When the process shifts to step S502aB, the management unit 230 of the server device SVa performs a reselection sequence. In the reselection sequence, the server setting time of the server status information SVStX and the session number for identifying the reselection process are reset. After that, the process of step S502aB is performed again. The client device CL that has received the new session number ends the response standby for the connection request of the old session number.

In the premise Pm1 of the present embodiment, the server device SVa receives the connection request CRq from all the client devices CL. Therefore, it is determined as YES in step S510, and the process of step S520 is performed.

In step S520, as in the second embodiment, the system setting unit 251 sets the system state of the own server device to the operating system. Subsequent processing is the same as in the second embodiment.

In the above-mentioned communication control process B in the premise Pm1, a plurality of client devices CL perform step S740B. As a result, the plurality of client devices CL transmit a plurality of connection request CRqs including the same session number to the server device SVa. Then, YES is determined in step S510, and step S520 is performed, so that the server device SVa operates as the operation system server device. That is, the selection processing unit 130 of the client device CLa cooperates with another client device CL to perform processing (transmission of the connection request CRq) for operating the selected server device SVa as an operation server device.

As described above, according to the present embodiment, the process of selecting the target operation system server device is performed using the session number. Thereby, the above-mentioned problem caused by the same time (server setting time) included in each of the plurality of server state information received by each client device CL can be solved.

That is, it is possible to prevent a situation in which the server device selected by the specific client device CL is different from that of the server device selected by another client device CL (selection error). In other words, even if the time (server setting time) included in each of the plurality of server status information received by each client device CL is the same, each client device CL reliably selects a common server device SV. be able to.

(Functional block diagram)
FIG. 13 is a block diagram showing a characteristic functional configuration of the client device BL10. The client device BL10 corresponds to the client device 100. That is, FIG. 13 is a block diagram showing the main functions related to the present invention among the functions of the client device BL10.

The client device BL10 receives the server state information including the time related to the state of the server device transmitted by each of the plurality of server devices.

The client device BL10 functionally includes a selection processing unit BL1 and a data management unit BL2.

The selection processing unit BL1 is a server device that centrally manages a plurality of client devices including the client device from the plurality of server devices based on the time included in the server status information, and each of the clients. Select the target operation server device that is the server device with which the device communicates. The selection processing unit BL1 corresponds to the selection processing unit 130.

The data management unit BL2 collects the data held by the server device for the selected server device. The data management unit BL2 corresponds to the data management unit 120.

(Other variants)
Although the printing system according to the present invention has been described above based on the respective embodiments, the present invention is not limited to the respective embodiments. The present invention also includes modifications to each embodiment that can be conceived by those skilled in the art without departing from the gist of the present invention. That is, in the present invention, each embodiment can be freely combined, and each embodiment can be appropriately modified or omitted within the scope of the invention.

Further, the client device 100 does not have to include all the components shown in the figure. That is, the client device 100 may include only the minimum components that can realize the effects of the present invention.

Further, each function of the selection processing unit 130 and the data management unit 120 included in the client device 100 may be realized by a processing circuit.

The processing circuit is a server device that centrally manages a plurality of client devices including the client device from the plurality of server devices based on the time included in the server status information, and each of the client devices. It is a circuit for selecting a target operation system server device which is a server device to be communicated with.

The processing circuit is also a circuit for collecting data held by the server device for the selected server device.

The processing circuit may be dedicated hardware. Further, the processing circuit may be a processor that executes a program stored in the memory. The processor is, for example, a CPU (Central Processing Unit), a central processing unit, an arithmetic unit, a microprocessor, a microcomputer, a DSP (Digital Signal Processor), or the like.

In the following, a configuration in which the processing circuit is dedicated hardware is also referred to as “configuration Cs1”. Further, in the following, the configuration in which the processing circuit is a processor is also referred to as “configuration Cs2”. Further, in the following, a configuration in which each function of the selection processing unit 130 and the data management unit 120 is realized by a combination of hardware and software is also referred to as “configuration Cs3”.

In configuration Cs1, the processing circuit is, for example, a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), or a combination thereof. Applicable. The functions of the selection processing unit 130 and the data management unit 120 may be realized by two processing circuits, respectively. Further, all the functions of the selection processing unit 130 and the data management unit 120 may be realized by one processing circuit.

The configuration in which all or a part of each component included in the client device 100 is shown in hardware is as follows, for example. In the following, a client device in which all or a part of each component included in the client device 100 is shown in hardware is also referred to as “client device hd10”.

FIG. 14 is a hardware configuration diagram of the client device hd10. With reference to FIG. 14, the client device hd10 includes a processor hd1 and a memory hd2. The memory hd2 is a non-volatile or volatile semiconductor memory such as a RAM (Random Access Memory), a ROM (Read Only Memory), a flash memory, an EPROM, or an EEPROM. Further, for example, the memory hd2 is a magnetic disk, a flexible disk, an optical disk, a compact disk, a mini disk, a DVD, or the like.

In configuration Cs2, the processing circuit is processor hd1. In the configuration Cs2, each function of the selection processing unit 130 and the data management unit 120 is realized by software, firmware, or a combination of software and firmware. The software or firmware is described as a program and stored in the memory hd2.

Further, in the configuration Cs2, the processing circuit (processor hd1) reads the program stored in the memory hd2 and executes the program, so that each function of the selection processing unit 130 and the data management unit 120 is realized. .. That is, the memory hd2 stores the following programs.

The program is a server device that centrally manages a plurality of client devices including the client device from the plurality of server devices based on the time included in the server status information, and is a server device of each of the client devices. A process circuit (processor hd1) is provided with a step of selecting a target operation server device, which is a server device to be communicated, and a step of collecting data held by the server device for the selected server device. It is a program to be executed.

Further, the program also causes a computer to execute a procedure of processing performed by each of the selection processing unit 130 and the data management unit 120, a method of executing the processing, and the like.

In the configuration Cs3, some functions of the selection processing unit 130 and the data management unit 120 are realized by dedicated hardware. Further, in the configuration Cs3, another part of the functions of the selection processing unit 130 and the data management unit 120 is realized by software or firmware.

For example, the function of the selection processing unit 130 is realized by the processing circuit reading and executing the program stored in the memory. Further, for example, the function of the data management unit 120 is realized by a processing circuit as dedicated hardware.

Like the above configurations Cs1, configuration Cs2, and configuration Cs3, the processing circuit can realize each of the above-mentioned functions by hardware, software, firmware, or a combination thereof.

Further, the present invention may be realized as a server selection method in which the operation of a characteristic component included in the client device 100 is a step. Further, the present invention may be realized as a program for causing a computer to execute each step included in such a server selection method. Further, the present invention may be realized as a computer-readable recording medium for storing such a program. Further, the program may be distributed via a transmission medium such as the Internet.

Further, the server selection method according to the present invention corresponds to any one of the communication control process of FIG. 7, the communication control process A of FIG. 8, and the communication control process B of FIG.

All the numerical values used in the above-described embodiment are numerical values of an example for concretely explaining the present invention. That is, the present invention is not limited to each numerical value used in the above embodiment.

In the present invention, each embodiment can be freely combined, and each embodiment can be appropriately modified or omitted within the scope of the invention.

100, BL10, CL, CLa, CLb, hd10 client device, 120, 220, BL2 data management unit, 130, BL1 selection processing unit, 200, SV, SVa, SVb server device, 230 management unit, 1000 network system.

Claims (5)

A client device that receives server status information related to the status of the server device transmitted by each of the plurality of server devices.
A target that is a server device that centrally manages a plurality of client devices including the client device from the plurality of server devices based on the server status information, and is a server device that is a communication target of each of the client devices. A selection processing unit that selects the active server device,
A client device including a data management unit that collects data held by the server device for the selected server device. The selection processing unit performs processing for preventing a server device other than the selected server device from among the plurality of server devices from operating as an operation server device that centrally manages the plurality of client devices. The client device according to claim 1. The first aspect of claim 1, wherein the selection processing unit performs a process for operating the selected server device as an operation server device that centrally manages the plurality of client devices in cooperation with another client device. Client device. A server device that centrally manages a plurality of client devices including the client device according to any one of claims 1 to 3. This is a server selection method performed by a client device that receives server status information regarding the status of the server device, which is transmitted by each of a plurality of server devices.
A target that is a server device that centrally manages a plurality of client devices including the client device from the plurality of server devices based on the server status information, and is a server device that is a communication target of each of the client devices. Steps to select an active server device and
A server selection method including a step of collecting data held by the server device for the selected server device.

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