JP6922601B2 - Monitoring data transfer system and management server - Google Patents

Description

The present invention relates to a monitoring data transfer system and a management server.

Patent Document 1 describes a communication device that communicates with a monitoring device in each of a plurality of domains, a storage device that stores a first table that describes the types of monitoring data managed by the monitoring device in each domain, and a predetermined analysis process. The first process of specifying the monitoring device of the analysis target domain based on the first table, which manages the type of monitoring data to be analyzed, and the monitoring data of the analysis target from the monitoring device of the specified analysis target domain. The execution domain of the analysis process, the execution domain of the analysis process, and others that acquire the attribute information and apply the attribute information to the predetermined algorithm to maximize the efficiency of monitoring data transfer between the analysis target domains. A monitoring data transfer system is disclosed, which comprises a calculation device for executing a transfer path of the monitoring data to be analyzed with the analysis target domain and a second process for determining the analysis target domain.

Japanese Unexamined Patent Publication No. 2015-109609

In the present invention, even when the management server is provided in the cloud environment and a plurality of monitoring servers are provided in the local environment, when an event occurs in the first monitoring server, the management server can perform related data related to the event. It is an object of the present invention to provide a monitoring data transfer system and a management server that can acquire the above from the second monitoring server.

In order to achieve the above object, the monitoring data transfer system of the invention according to claim 1 manages related data definition information in which related data related to an event that can occur in the monitoring server is defined when an event occurs. The related data definition information receiving unit received from the server and the request signal requesting to rewrite the data request flag corresponding to the related data related to the event defined in the related data definition information to the request state are transmitted to the management server. The first monitoring server provided in the local environment and the related data corresponding to the data request flag when the data request flag corresponding to the own server is in the request state. When the request signal is received from the second monitoring server provided in the local environment and the first monitoring server, which is provided with the related data transmission unit to be transmitted to the management server, the related data related to the event can be obtained. A rewriting unit that rewrites the corresponding data request flag to the request state, a storage unit that stores the related data definition information and a data request flag provided for each related data, and related data in which the data request flag is in the request state. A related data receiving unit for receiving the data from the second monitoring server, and a management server provided in a cloud environment.

In the invention according to claim 2, the storage unit stores server authority information regarding a monitoring server having access authority, the rewriting unit receives the request signal from the first monitoring server, and the server authority information. When it is determined that the first monitoring server has the access authority, the data request flag is rewritten to the request state.

In the invention according to claim 3, the storage unit stores server authority information regarding a monitoring server having access authority, the rewriting unit receives the request signal from the first monitoring server, and the server authority information. If it is determined that the first monitoring server does not have the access authority, the request from the first monitoring server is rejected.

In the invention according to claim 4, the rewriting unit rewrites the data request flag to a non-requested state after the related data is transmitted from the related data transmitting unit to the management server.

In the invention according to claim 5, the storage unit stores server authority information regarding a monitoring server having access authority, and the rewriting unit rewrites the data request flag from the second monitoring server to a non-requested state. When requested and it is determined from the server authority information that the second monitoring server has the access authority, the data request flag is rewritten to the non-requested state.

In the invention according to claim 6, the storage unit stores server authority information regarding a monitoring server having access authority, and the rewriting unit rewrites the data request flag from the second monitoring server to a non-requested state. When the request is made and it is determined from the server authority information that the second monitoring server does not have the access authority, the request from the second monitoring server is rejected.

The monitoring data transfer system of the invention according to claim 7 receives related data definition information from a management server in which related data related to an event that can occur in the monitoring server is defined when an event occurs. A first monitoring server provided in a local environment, including a receiving unit and a rewriting unit that rewrites a data request flag corresponding to the related data related to the event defined in the related data definition information to a request state. A second data transmission unit provided in the local environment is provided with a related data transmission unit that transmits the related data corresponding to the data request flag to the management server when the data request flag corresponding to the own server is in the request state. The monitoring server, the storage unit that stores the related data definition information and the data request flag provided for each related data, and the related data in which the data request flag is in the request state are received from the second monitoring server. It is equipped with a related data receiving unit and a management server provided in a cloud environment.

In the invention according to claim 8, the second monitoring server includes a confirmation unit that confirms the data request flag corresponding to the second monitoring server at predetermined intervals.

In the invention according to claim 9, the related data transmission unit transmits the related data to the management server for a period longer than the predetermined interval.

The management server of the invention according to claim 10 is a related data definition information receiving unit that receives from the management server related data definition information in which related data related to an event that may occur in the monitoring server is defined when an event occurs. And a request signal transmission unit that transmits a request signal requesting that the data request flag corresponding to the related data related to the event defined in the related data definition information be rewritten to the request state to the management server. When the request signal is received from the first monitoring server provided in the local environment, the rewriting unit that rewrites the data request flag corresponding to the related data related to the event to the request state, and the related data definition information. When the storage unit that stores the data request flag provided for each related data and the data request flag corresponding to the own server are in the request state, the related data corresponding to the data request flag is transmitted to the management server. A related data transmitting unit is provided, and a related data receiving unit that receives related data whose data request flag is in the request state from a second monitoring server provided in the local environment is provided in the cloud environment. There is.

According to the inventions of claims 1, 7 and 10, even when the management server is provided in the cloud environment and a plurality of monitoring servers are provided in the local environment, when an event occurs in the first monitoring server, The management server has an effect that the related data related to the event can be acquired from the second monitoring server.

According to the invention of claim 2, the data request flag is rewritten to the request state by the monitoring server having no access authority, as compared with the case where the data request flag is rewritten to the request state without considering the access authority. It has the effect of being able to prevent.

According to the invention of claim 3, it has an effect that the first monitoring server can be made to recognize that it does not have access authority.

According to the invention of claim 4, when the transmission of the related data to the management server fails as compared with the case where the data request flag is rewritten to the non-request state before the transmission of the related data to the management server is completed. However, it has the effect that the related data can be resent to the management server.

According to the invention of claim 5, the data request flag is rewritten to the non-requested state by the monitoring server having no access authority, as compared with the case where the data request flag is rewritten to the non-requested state without considering the access authority. It has the effect of being able to prevent it from being lost.

According to the invention of claim 6, it has an effect that the second monitoring server can be made to recognize that it does not have the access authority.

According to the invention of claim 8, as compared with the case where the data request flag is confirmed irregularly, the effect that the related data can be transmitted promptly when the data request flag is in the request state can be obtained. Have.

According to the invention of claim 9, the effect that the event that has occurred can be investigated in detail as compared with the case where the related data for a period shorter than the interval for confirming the data request flag is transmitted to the management server. Has.

It is a schematic block diagram of a monitoring data transfer system. It is a functional block diagram of the monitoring data transfer system which concerns on 1st Embodiment. It is a figure which shows an example of the related data definition information. It is a block diagram which shows the hardware configuration of the 1st monitoring server. It is a flowchart of the 1st monitoring process executed by the 1st monitoring server which concerns on 1st Embodiment. It is a flowchart of the 2nd monitoring process executed by the 2nd monitoring server which concerns on 1st Embodiment. It is a flowchart of the management process executed by the management server which concerns on 1st Embodiment. It is a functional block diagram of the monitoring data transfer system which concerns on the modification of 1st Embodiment. It is a functional block diagram of the monitoring data transfer system which concerns on 2nd Embodiment. It is a flowchart of the management process executed by the management server which concerns on 2nd Embodiment.

Hereinafter, an example of the embodiment of the disclosed technique will be described with reference to the drawings.

(First Embodiment)

FIG. 1 is a diagram showing a schematic configuration of a monitoring data transfer system 10 according to the present embodiment.

As shown in FIG. 1, the monitoring data transfer system 10 has a configuration in which a first monitoring server 12, a second monitoring server 14, and a management server 16 are connected via a network 18 such as the Internet. The management server 16 is provided in a cloud environment. Further, the first monitoring server 12 and the second monitoring server 14 are provided in the local environment.

Here, the cloud environment and the local environment refer to the following environments. That is, when the device provided in the cloud environment is accessed from the device provided in the local environment, data can be acquired from the device provided in the cloud environment, but due to restrictions such as a firewall, the data is provided in the cloud environment. An environment in which it may not be possible to acquire data from a device installed in the local environment even if the device is accessed from the device installed in the local environment.

Further, the first monitoring server 12 and the second monitoring server 14 are connected to the image forming apparatus 20 to monitor the operation of the image forming apparatus 20. The image forming apparatus 20 is an apparatus having an image forming function related to image forming such as a copy function, a print function, a scanning function, and a facsimile function as an example. The image forming apparatus 20 transmits operation information regarding the operation of the image forming apparatus 20 to the first monitoring server 12 or the second monitoring server 14 in charge of the image forming apparatus 20.

Further, the first monitoring server 12 is connected to a mobile terminal 22 such as a smartphone or a tablet terminal, and the function of the image forming apparatus 20 can be used from the mobile terminal 22 via the first monitoring server 12. In this case, for example, the first monitoring server 12 may function as a sub monitoring server (mobile server), and the second monitoring server 14 may function as a main monitoring server. In this form, the second monitoring server 14 provides various functions such as a license function and a user management function as the main monitoring server.

For example, when a user logs in from the mobile terminal 22 to the image forming apparatus 20 in charge of the first monitoring server 12, the user information is transmitted to the second monitoring server 14 via the first monitoring server 12, and the second The monitoring server 14 confirms whether or not there is a remaining license by the license function. Then, the second monitoring server 14 confirms the user information by the user management function, confirms whether or not the logged-in user has the access right, and transmits the confirmation result to the first monitoring server 14. The first monitoring server 14 permits the use of the image forming apparatus 20 when the logged-in user has the access right, and denies the use of the image forming apparatus 20 when the logged-in user does not have the access right.

Next, the configurations of the management server 16, the first monitoring server 12, and the second monitoring server 14 will be described.

As shown in FIG. 2, the first monitoring server 12 functionally includes a monitoring unit 24, a storage unit 26, a related data definition information receiving unit 28, and a request signal transmitting unit 30.

The monitoring unit 24 refers to the log information 32 of the image forming apparatus 20 stored in the storage unit 26 at predetermined intervals, and monitors whether or not a predetermined event has occurred. The log information 32 is updated every time operation information is transmitted from the image forming apparatus 20. Then, when an event occurs, the management server 16 is requested to transmit the related data definition information 34. The related data definition information 34 is stored in the storage unit 36 of the management server 16.

Here, an event is an event that occurs with respect to the use of a function provided to a user. For example, as described above, when a user tries to log in to the image forming apparatus 20, but some error occurs, such as when the login fails due to the license function, user management function, etc. of the second monitoring server 14. And so on. The types of events are not limited to this.

When an event occurs, the related data definition information receiving unit 28 receives the related data definition information 34 in which the related data related to the event that can occur in the monitoring server is defined from the management server 16.

The related data definition information 34 is, for example, as shown in FIG. 3, table data representing the correspondence between the event and the related data. The related data definition information 34 is updated with information indicating the correspondence between the event uploaded from each monitoring server and the related data. For example, it is updated when the monitoring server is added to or deleted from the monitoring data transfer system 10.

For example, as mentioned above, if the event that occurred is a login failure, the main monitoring server can be used to find out if the cause is licensing, user information confirmation, or access permission confirmation. It is necessary to confirm the log information of a second monitoring server 14. Therefore, when the event that occurs is a login failure, the related data corresponding to the event is the log information related to the license function and the user management function of the second monitoring server 14.

The request signal transmission unit 30 rewrites the data request flag 38 corresponding to the related data related to the generated event among the events defined in the related data definition information 34 received by the related data definition information receiving unit 28 to the request state. The request signal requesting the request is transmitted to the management server 16. The data request flag 38 is stored in the storage unit 36 of the management server 16. The data request flag 38 is stored for each related data.

The second monitoring server 14 functionally includes a related data storage unit 40, a confirmation unit 42, and a related data transmission unit 44.

The related data storage unit 40 stores the related data 46. The related data 46 includes, for example, log information regarding the operation of the image forming apparatus 20 in charge of the second monitoring server 14, but is not limited thereto.

The confirmation unit 42 confirms the data request flag 38 corresponding to the second monitoring server 14 at predetermined intervals. That is, it is confirmed by inquiring to the management server 16 whether or not the related data 46 in which the corresponding data request flag 38 is in the request state exists among the related data 46 stored in the related data storage unit 40. ..

When the data request flag 38 corresponding to the own server is in the request state, the related data transmission unit 44 reads the related data 46 corresponding to the data request flag 38 from the related data storage unit 40 and transmits the related data 46 to the management server 16. Further, the related data transmission unit 44 transmits the related data 46 to the management server 16 in a period longer than the interval at which the confirmation unit 42 confirms the data request flag 38.

The management server 16 functionally includes a storage unit 36, a transmission unit 48, a rewriting unit 50, and a related data reception unit 52.

The storage unit 36 stores the related data definition information 34 and the data request flag 38 provided for each related data 46.

When the transmission unit 48 is requested to transmit the related data definition information 34 from the first monitoring server 12, the transmission unit 48 reads the related data definition information 34 from the storage unit 36 and transmits the related data definition information 34 to the first monitoring server 12.

When the request signal is received from the first monitoring server 12, the rewriting unit 50 rewrites the data request flag 38 corresponding to the related data 46 related to the generated event to the request state. Further, the rewriting unit 50 rewrites the data request flag 38 to the non-requested state after the related data 46 is transmitted from the related data transmitting unit 44 of the second monitoring server 14 to the management server 16.

The related data receiving unit 52 receives the related data 46 in which the data request flag 38 is in the requested state from the second monitoring server 14.

Next, the hardware configuration of the first monitoring server 12 will be described.

As shown in FIG. 4, the first monitoring server 12 has a function as a computer, and has a CPU (Central Processing Unit) 12A, a ROM (Read Only Memory) 12B, a RAM (Random Access Memory) 12C, and a non-volatile memory. It has a 12D, a hard disk 12E, and a communication interface (I / F: Interface) unit 12F. The CPU 12A, ROM 12B, RAM 12C, non-volatile memory 12D, hard disk 12E, and communication interface unit 12F are connected to each other via the bus 12G.

The CPU 12A is a central arithmetic processing unit that executes various programs and controls each unit. At that time, the program is executed using the RAM 12C as a work area.

The non-volatile memory 12D is a memory in which the data contents are retained even when the power of the first monitoring server 12 is turned off.

The hard disk 12E stores, for example, a first monitoring program and log information 32, which will be described later.

The communication interface unit 12F communicates with other devices such as the management server 16, the image forming device 20, and the mobile terminal 22.

The hardware configuration of the second monitoring server 14 and the management server 16 is the same as the hardware configuration of the first monitoring server 12, and although not shown, the CPU, ROM, RAM, non-volatile memory, hard disk, and so on. And the communication interface is connected to each other via a bus.

The hard disk of the second monitoring server 14 stores a second monitoring program and related data 46, which will be described later.

The management program, related data definition information 34, data request flag 38, and the like, which will be described later, are stored in the hard disk of the management server 16.

Next, the first monitoring process executed by the first monitoring server 12 will be described with reference to the flowchart shown in FIG. The first monitoring process shown in FIG. 5 is executed by the CPU 12A reading the first monitoring program from the hard disk 12E.

In step S100, the log information 32 is referred to, and it is confirmed whether or not an error has occurred in a predetermined event, for example, the image forming apparatus 20. The list of events to be confirmed is stored in the storage unit 26 in advance, for example.

In step S102, it is determined whether or not an event has occurred, and if an event has occurred, the process proceeds to step S104, and if no event has occurred, the process returns to step S100. The log information 32 is referred to at predetermined intervals (for example, every 10 minutes).

In step S104, the management server 16 is requested to transmit the related data definition information 34.

In step S106, the related data definition information 34 is received from the management server 16.

In step S108, among the events defined in the related data definition information 34 received in step S106, the management server requests a request signal to rewrite the data request flag 38 corresponding to the related data related to the generated event to the request state. Send to 16.

Next, the second monitoring process executed by the second monitoring server 14 will be described with reference to the flowchart shown in FIG. The second monitoring process shown in FIG. 6 is executed by the CPU of the second monitoring server 14 reading the second monitoring program from the hard disk.

In step S200, the management server 16 is inquired whether or not the related data 46 in which the corresponding data request flag 38 is in the request state exists among the related data 46 stored in the related data storage unit 40. Check.

In step S202, it is determined whether or not the data request flag 38 in the request state exists. If the request state data request flag exists, the process proceeds to step S204, and if the request state data request flag does not exist, the process returns to step S200. The data request flag is confirmed at a predetermined interval (for example, 10 minutes).

In step S204, the related data 46 corresponding to the data request flag 38 in the request state is read from the related data storage unit 40 and transmitted to the management server 16. At this time, the related data 46 for a period longer than the interval for confirming the data request flag 38 in step S200 (for example, one day) is transmitted to the management server 16.

Next, the management process executed by the management server 16 will be described with reference to the flowchart shown in FIG. 7. The management process shown in FIG. 7 is executed by the CPU of the management server 16 reading the management program from the hard disk.

In step S300, it is determined whether or not the first monitoring server 12 has requested to transmit the related data definition information 34. If the first monitoring server 12 is requested to transmit the related data definition information 34, the process proceeds to step S302, and if the first monitoring server 12 is not requested to transmit the related data definition information 34, the step S302 is performed. Move to S304.

In step S302, the related data definition information 34 is read from the storage unit 36 and transmitted to the first monitoring server 12.

In step S304, it is determined whether or not there is a request for rewriting the data request flag from the first monitoring server 12, that is, whether or not a request signal requesting rewriting of the data request flag is received from the first monitoring server 12. judge.

Then, when the request signal is received from the first monitoring server 12, the process proceeds to step S306, and when the request signal is not received from the first monitoring server 12, the process returns to step S300.

In step S306, the data request flag corresponding to the request signal, that is, the data request flag 38 corresponding to the related data 46 related to the generated event is rewritten to the request state.

In step S308, it is determined whether or not the related data 46 corresponding to the data request flag 38 rewritten in step S306 has been received from the second monitoring server 14 from the second monitoring server 14.

Then, when the related data 46 is received, the process proceeds to step S310, and when the related data 46 is not received, the process waits until the related data 46 is received.

In step S310, the data request flag 38 rewritten to the requested state in step S306 is rewritten to the non-requested state.

In the present embodiment, when an event occurs, the case where the first monitoring server 12 transmits a request signal to the management server 16 and the rewriting unit 50 of the management server 16 rewrites the data request flag 38 has been described. , The first monitoring server 12 may directly rewrite the data request flag 38. That is, for example, as shown in FIG. 8, the first monitoring server 12 may be configured to include a rewriting unit 31 instead of the request signal transmitting unit 30, and the rewriting unit 31 may directly rewrite the data request flag 38.

(Second Embodiment)

Next, the second embodiment of the present invention will be described. The same parts as those in the first embodiment are designated by the same reference numerals, and detailed description thereof will be omitted.

FIG. 9 shows a functional block diagram of the monitoring data transfer system 10A according to the present embodiment. The monitoring data transfer system 10A differs from the monitoring data transfer system 10 of FIG. 2 in that the storage unit 36 of the management server 16 is provided with server authority information 35 regarding the monitoring server having access authority.

The server authority information 35 is a list of monitoring servers that are allowed to rewrite the data request flag 38.

FIG. 10 shows a flowchart of the management process executed by the management server 16. The management process of FIG. 10 is different from the flowchart shown in FIG. 7 in that the processes of steps S305, S309, and S311 are added.

In step S305, the server authority information 35 is read from the storage unit 36, and it is determined whether or not the first monitoring server 12 is a monitoring server that is permitted to rewrite the data request flag 38. Then, if the first monitoring server 12 is a monitoring server for which rewriting of the data request flag 38 is permitted, the process proceeds to step S306, and if the first monitoring server 12 is a monitoring server for which rewriting of the data request flag 38 is not permitted, the process proceeds to step S311.

In step S311, the first monitoring server 12 is notified that the rewriting of the data request flag 38 is refused.

Further, in step S309, the server authority information 35 is read from the storage unit 36, and it is determined whether or not the second monitoring server 14 is a monitoring server that is permitted to rewrite the data request flag 38. Then, if the second monitoring server 14 is a monitoring server for which rewriting of the data request flag 38 is permitted, the process proceeds to step S310, and if the second monitoring server 14 is a monitoring server for which rewriting of the data request flag 38 is not permitted, the process proceeds to step S311.

In step S311, the second monitoring server 14 is notified that the rewriting of the data request flag 38 is refused.

As described above, in the present embodiment, the rewriting of the data request flag 38 is refused to the monitoring server for which the rewriting of the data request flag 38 is not permitted.

Although the present invention has been described above using the embodiments, the present invention is not limited to the scope described in the embodiments. Various changes or improvements can be made to the embodiments without departing from the gist of the present invention, and the modified or improved forms are also included in the technical scope of the present invention.

For example, the first monitoring server 12 or the second monitoring server 14 can request the setting change of the related data definition information 34, the server authority information 35, and the data request flag 38 stored in the storage unit 36 of the management server 16. It may be configured as such.

In this case, the management server 16 uses the server permission information 35 to confirm whether or not the monitoring server is permitted to change the settings, and if the monitoring server is permitted to change the settings, the setting change is requested. Change the information settings, and reject the request to change the settings if the monitoring server is not allowed to change the settings.

In the present embodiment, the case where the first monitoring program, the second monitoring program, and the management program are pre-installed on the hard disk has been described, but the present invention is not limited to this. For example, the first monitoring program, the second monitoring program, and the management program are provided in a form stored in a storage medium such as a CD-ROM (Compact Disk Read Only Memory), or provided via a network. It may be in the form.

In addition, the configurations of the first monitoring server 12, the second monitoring server 14, and the management server 16 described in the present embodiment (see FIGS. 1, 8 and 9) are examples and deviate from the gist of the present invention. Needless to say, unnecessary parts may be deleted or new parts may be added within the range not specified.

Further, the processing flow of the first monitoring program, the second monitoring program, and the management program described in the above embodiment (see FIGS. 5 to 7 and 10) is also an example, and does not deviate from the gist of the present invention. Needless to say, unnecessary steps may be deleted, new steps may be added, or the processing order may be changed within the range.

10, 10A Monitoring data transfer system 12 First monitoring server 14 Second monitoring server 16 Management server 18 Network 20 Image forming device 22 Mobile terminal 24 Monitoring unit 26 Storage unit 28 Related data definition information receiving unit 30 Request signal transmitting unit 31 Rewriting unit 32 Log information 34 Related data definition information 35 Server authority information 36 Storage unit 38 Data request flag 40 Related data storage unit 42 Confirmation unit 44 Related data transmission unit 46 Related data 48 Transmission unit 50 Rewriting unit 52 Related data reception unit

Claims (10)

When an event occurs, it is defined in the related data definition information receiver that receives the related data definition information that defines the related data related to the event that can occur in the monitoring server from the management server, and the related data definition information. A first monitoring server provided in a local environment, including a request signal transmission unit that transmits a request signal requesting that the data request flag corresponding to the related data related to the event be rewritten to the request state to the management server. When,
A second monitoring provided in the local environment is provided with a related data transmission unit that transmits the related data corresponding to the data request flag to the management server when the data request flag corresponding to the local server is in the request state. With the server
When the request signal is received from the first monitoring server, a rewriting unit that rewrites the data request flag corresponding to the related data related to the event to the request state, the related data definition information, and the related data are provided. A management unit provided in a cloud environment, including a storage unit that stores the obtained data request flag and a related data receiving unit that receives the related data in which the data request flag is in the request state from the second monitoring server. With the server
Surveillance data transfer system with. The storage unit stores server authority information regarding a monitoring server having access authority, and stores the server authority information.
When the rewriting unit receives the request signal from the first monitoring server and determines from the server authority information that the first monitoring server has the access authority, the rewriting unit requests the data request flag. The monitoring data transfer system according to claim 1. The storage unit stores server authority information regarding a monitoring server having access authority, and stores the server authority information.
When the rewriting unit receives the request signal from the first monitoring server and determines from the server authority information that the first monitoring server does not have the access authority, the first monitoring server The monitoring data transfer system according to claim 1 or 2, which rejects the request from the server. The monitoring data transfer according to any one of claims 1 to 3, wherein the rewriting unit rewrites the data request flag to a non-requested state after the related data is transmitted from the related data transmitting unit to the management server. system. The storage unit stores server authority information regarding a monitoring server having access authority, and stores the server authority information.
When the rewriting unit is requested by the second monitoring server to rewrite the data request flag to the non-requested state, and determines from the server authority information that the second monitoring server has the access authority, the rewriting unit determines that the second monitoring server has the access authority. The monitoring data transfer system according to claim 4, wherein the data request flag is rewritten to a non-request state. The storage unit stores server authority information regarding a monitoring server having access authority, and stores the server authority information.
When the rewriting unit is requested by the second monitoring server to rewrite the data request flag to the non-requested state, and determines from the server authority information that the second monitoring server does not have the access authority. The monitoring data transfer system according to claim 4, wherein the request from the second monitoring server is rejected. When an event occurs, it is defined in the related data definition information receiver that receives the related data definition information that defines the related data related to the event that can occur in the monitoring server from the management server, and the related data definition information. A first monitoring server provided in the local environment, which includes a rewriting unit that rewrites the data request flag corresponding to the related data related to the event to the request state, and
A second monitoring provided in the local environment is provided with a related data transmission unit that transmits the related data corresponding to the data request flag to the management server when the data request flag corresponding to the local server is in the request state. With the server
A storage unit that stores the related data definition information and a data request flag provided for each related data, and a related data receiving unit that receives related data in which the data request flag is in a request state from the second monitoring server. And, with a management server installed in a cloud environment,
Surveillance data transfer system with. The monitoring data transfer according to any one of claims 1 to 7, wherein the second monitoring server includes a confirmation unit for confirming the data request flag corresponding to the second monitoring server at predetermined intervals. system. The monitoring data transfer system according to claim 8, wherein the related data transmission unit transmits the related data to the management server for a period longer than the predetermined interval. When an event occurs, it is defined in the related data definition information receiver that receives the related data definition information that defines the related data related to the event that can occur in the monitoring server from the management server, and the related data definition information. A first monitoring server provided in a local environment, including a request signal transmission unit that transmits a request signal requesting that the data request flag corresponding to the related data related to the event be rewritten to the request state to the management server. When the request signal is received, a rewriting unit that rewrites the data request flag corresponding to the related data related to the event to the request state, and
A storage unit that stores the related data definition information and a data request flag provided for each related data, and a storage unit.
A second monitoring server provided in the local environment, including a related data transmission unit that transmits the related data corresponding to the data request flag to the management server when the data request flag corresponding to the local server is in the request state. From the related data receiving unit that receives the related data for which the data request flag is in the request state,
A management server installed in a cloud environment.

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