KR102354058B1 - Method for monitoring server, apparatus and system for executing the method - Google Patents

Abstract

A server monitoring method and an apparatus and system for performing the same are disclosed. The server monitoring system according to the disclosed embodiment obtains monitoring data for one or more servers to be monitored, records the time stamp value of the monitoring data in the time stamp table of the database, the time stamp value and monitoring Checks whether the timestamp value of the collection server and timestamp table that matches data and stores it in the database is updated. and a monitoring server that extracts monitoring data and broadcasts an updated timestamp value.

Description

Server monitoring method and device and system for performing the same

Embodiments of the present invention relate to techniques for monitoring server status.

With the development of communication technology, the number of servers connected to and operated in a communication network is increasing. In order to provide a safe and reliable service using a server, it is necessary to monitor the status of the server in real time.

In the past, when a user (administrator) accesses the inquiry page of the monitoring server to understand the server status, the monitoring server inquires monitoring data from the database, loads the monitoring data into the memory of the monitoring server, and transfers the loaded monitoring data to the user's terminal. It goes through the process of expressing in the form of a page. In this case, as the number of users to check the server status increases and the amount of monitoring data increases, the resource usage of the monitoring server increases, and the loading speed of the web page also slows down.

Korean Patent Publication No. 10-1641306 (2016.07.20)

Disclosed embodiments are to provide a server monitoring method capable of lowering the resource usage rate of the monitoring server and increasing the response speed, and an apparatus and system for performing the same.

According to an exemplary embodiment, a collection server for obtaining monitoring data for one or more servers to be monitored, and storing the obtained monitoring data and a time stamp value of the monitoring data in a database; and a monitoring server that checks whether the timestamp value stored in the database is updated, and extracts monitoring data corresponding to the updated timestamp value from the database when the timestamp value is updated. this is provided

The monitoring server broadcasts the updated type stamp value to one or more user terminals, and the one or more user terminals compare the time stamp value received from the monitoring server with a pre-stored time stamp value, and the received time When the stamp value is newer than the pre-stored time stamp value, it is possible to request transmission of monitoring data to the monitoring server.

The monitoring server loads the updated time stamp value and the monitoring data into a memory area, and when receiving a request to transmit monitoring data from the user terminal, extracts the monitoring data loaded into the memory area and may be transmitted to the user terminal.

The user terminal may update the pre-stored time stamp value with the received time stamp value.

The monitoring server may broadcast the extracted monitoring data to one or more terminals.

The monitoring data may include resource usage related information of the server, server related information, and status related information.

The collection server, respectively, transmits a monitoring request to the one or more servers, and receives resource usage related information of the corresponding server and server related information of the corresponding server from the one or more servers in response to the monitoring request, respectively, By analyzing the received resource usage related information, it is possible to generate status related information of the corresponding server.

According to another exemplary embodiment, there is provided a computing device including one or more processors and a memory for storing one or more programs executed by the one or more processors, and an update for checking whether a timestamp value stored in a database is updated. verification module; and a data extraction module for extracting monitoring data corresponding to the updated time stamp value from the database when the time stamp value is updated.

The method may further include a data transmission module that broadcasts the updated timestamp value to one or more user terminals.

When the data extraction module loads the updated time stamp value and the monitoring data into a memory area of the computing device, the data transmission module receives a request for transmission of monitoring data from the user terminal, The monitoring data loaded in the memory area may be extracted and transmitted to the user terminal.

The device may further include a data transmission module for broadcasting the extracted monitoring data to one or more user terminals.

According to another exemplary embodiment, there is provided a computing device having one or more processors and a memory for storing one or more programs executed by the one or more processors, communicatively coupled to a monitoring server, and Receives a broadcast time stamp value, and requests transmission of monitoring data to the monitoring server when the received time stamp value is updated by comparing it with a pre-stored time stamp value, and monitoring corresponding to the request from the monitoring server A computing device is provided, comprising a pre-processing module for receiving data.

The pre-processing module may update the pre-stored timestamp value with the updated timestamp value.

According to another exemplary embodiment, there is provided a method performed in a computing device having one or more processors and a memory for storing one or more programs executed by the one or more processors, whether a timestamp value stored in a database has been updated. checking whether or not; and when the time stamp value is updated, extracting monitoring data corresponding to the updated time stamp value from the database.

The method may further include, after performing the extracting, broadcasting the updated timestamp value to one or more user terminals.

The extracting may further include loading the extracted time stamp value and monitoring data into a memory area of the computing device.

The method may further include, when receiving a request for transmission of monitoring data from the user terminal after the step of broadcasting, extracting the monitoring data loaded in the memory area and transmitting it to the user terminal.

The method may further include, after the extracting is performed, broadcasting the extracted monitoring data to one or more user terminals.

According to another exemplary embodiment, there is provided a method performed in a computing device having one or more processors and a memory for storing one or more programs executed by the one or more processors, a time stamp value broadcast from a monitoring server receiving; comparing the received time stamp value with a pre-stored time stamp value and requesting transmission of monitoring data to the monitoring server when the received time stamp value is updated by comparing the received time stamp value with a pre-stored time stamp value; and receiving monitoring data corresponding to the request from the monitoring server, a server monitoring method is provided.

The method may further include updating the pre-stored timestamp value to the received timestamp value after the receiving step is performed.

According to the disclosed embodiments, the monitoring server checks whether the monitoring data is updated through the time stamp value of the database, preloads the monitoring data into the memory area, and then broadcasts the corresponding time stamp value to the user terminal, so that the user When a request for transmission of monitoring data comes from the terminal, monitoring data can be transmitted quickly, so that the response speed perceived by the user can be improved.

In addition, by mounting the pre-processing module in the user terminal, the user does not need to perform a separate connection process to check the server status, and it is possible to automatically check the updated monitoring data.

1 is a diagram showing the configuration of a server monitoring system according to an embodiment of the present invention;
2 is a flowchart illustrating a server monitoring method according to an embodiment of the present invention;
3 is a block diagram showing the configuration of a collection server according to an embodiment of the present invention;
4 is a block diagram showing the configuration of a monitoring server according to an embodiment of the present invention;
5 is a block diagram illustrating and describing a computing environment including a computing device suitable for use in example embodiments;

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The following detailed description is provided to provide a comprehensive understanding of the methods, devices, and/or systems described herein. However, this is merely an example, and the present invention is not limited thereto.

In describing the embodiments of the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. And, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification. The terminology used in the detailed description is for the purpose of describing embodiments of the present invention only, and should in no way be limiting. Unless explicitly used otherwise, expressions in the singular include the meaning of the plural. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, acts, elements, some or a combination thereof, one or more other than those described. It should not be construed to exclude the presence or possibility of other features, numbers, steps, acts, elements, or any part or combination thereof.

In the following description, the terms "transmission", "communication", "transmission", "reception" and other similar meanings of a signal or information are not only directly transmitted from one component to another component, but also a signal or information This includes passing through other components. In particular, to “transmit” or “transmit” a signal or information to a component indicates the final destination of the signal or information and does not imply a direct destination. The same is true for "reception" of signals or information. In addition, in this specification, when two or more data or information are "related", it means that when one data (or information) is acquired, at least a part of other data (or information) can be acquired based thereon.

Also, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The above terms may be used for the purpose of distinguishing one component from another component. For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component.

1 is a diagram showing the configuration of a server monitoring system according to an embodiment of the present invention.

Referring to FIG. 1 , the server monitoring system 100 may include a collection server 102 , a database 104 , a monitoring server 106 , and a user terminal 108 .

The aggregation server 102 and the monitoring server 106 are communicatively connected to the database 104 through a communication network (not shown). In addition, each user terminal 108 is communicatively connected to the monitoring server 106 through a communication network (not shown). In some embodiments, a communication network (not shown) is the Internet, one or more local area networks, wide area networks, cellular networks, mobile networks, other types of networks, or such It may include a combination of networks.

The collection server 102 is communicatively connected to one or more servers 112 to be monitored. The collection server 102 acquires monitoring data for one or more servers 112 that are a target of monitoring. The monitoring data may include resource usage related information of the corresponding server 112 , status related information of the corresponding server 112 , and server related information of the corresponding server 112 .

Here, the resource usage related information is information related to the resource usage of each server 112 , and the resource usage related information includes, for example, CPU usage rate, nonvolatile memory usage, hard disk usage, and the corresponding server of the corresponding server 112 . component temperature of 112 (eg, CPU temperature, hard disk temperature, etc.), and the like.

In addition, the state-related information may mean information about the state in which the corresponding server 112 is. In an exemplary embodiment, the server 112 may be in any one of a Normal state, an Event state, and a Down state. The normal state may be a state in which the corresponding server 112 is within a preset normal range. The event state may be a state in which an abnormality has occurred in the corresponding server 112 . For example, the event may include a fever event, resource usage excess event, and the like. The down state may be a state in which the corresponding server 112 does not respond. In this case, the state-related information may indicate in which state the server 112 is in a normal state, an event state, and a down state.

In addition, the server-related information may include information for identifying each server 112 to be monitored. For example, the server-related information may include an ID of the corresponding server 112 , IP (Public IP, Private IP, etc.) information of the corresponding server 112 , hardware information constituting the corresponding server 112 , and the like.

In an exemplary embodiment, the aggregation server 102 may receive resource usage related information and server related information from one or more servers 112 . The collection server 102 may generate state related information of the corresponding server 112 based on the received resource usage related information. In this case, the collection server 102 may receive resource usage related information from one or more servers 112 at a preset period. However, the present invention is not limited thereto, and the collection server 102 may receive and obtain all resource usage related information, server related information, and status related information from the servers 112 .

Specifically, the collection server 102 receives resource usage related information (eg, CPU usage rate, non-volatile memory usage, hard disk usage, and component temperature of the corresponding server 112) within a preset normal range. In this case, it may be determined that the state of the corresponding server 112 is a normal state. The collection server 102 receives resource usage-related information (eg, CPU usage rate, non-volatile memory usage, hard disk usage, and component temperature of the corresponding server 112) exceeds a preset threshold, the corresponding It may be determined that the state of the server 112 is an event state. When there is no response to the monitoring request from the server 112, the collection server 102 may determine that the server 112 is in a down state.

In addition, the collection server 102 may acquire monitoring data in a group unit including one or more servers 112 . At this time, the server-related information of the monitoring data includes information related to the addition of the servers 112 belonging to the corresponding group (information on the server newly added to the group) and information related to the deletion of the servers 112 belonging to the group (corresponding to the corresponding group). information about the server deleted from the group), and the like.

The aggregation server 102 may store monitoring data for one or more servers 112 in the database 104 . In this case, the collection server 102 may match and store the time stamp corresponding to the acquisition time of the monitoring data with the monitoring data. In an exemplary embodiment, the collection server 102 may record a time stamp in each of the resource usage related information and the server related information of the corresponding server 112 among the monitoring data. For example, the collection server 102 separately stores a timestamp (first timestamp) corresponding to the acquisition time of resource usage-related information and a timestamp (first timestamp) corresponding to the acquisition time of server-related information. and manage. The collection server 102 may record the first timestamp and second timestamp values for the monitoring data in a timestamp table. Table 1 is a table showing a time stamp table according to an exemplary embodiment. In embodiments of the present invention, the time stamp is used to mean including at least one of the above-described first time stamp and second time stamp.

group name Resource usage related information_time
(1st timestamp) Server-related information_time
(second timestamp) A_Group 1494921420000 1494921420000

As shown in Table 1, the collection server 102 updates a timestamp value for the updated monitoring data (eg, resource usage-related information and server-related information) whenever monitoring data is updated in the database 104 . can do.

The database 104 may match and store the monitoring data of each server 112 with a time stamp of the corresponding monitoring data. The database 104 may record and store a time stamp of the corresponding monitoring data in a time stamp table. Database 104 may be a physical storage space, such as a hard disk or memory of a computing device. However, the present invention is not limited thereto, and the database 104 may have various forms other than those disclosed, such as local storage such as direct attached storage (DAS), network storage such as network attached storage (NAS) or storage area network (SAN), and cloud storage. storage may be included.

The monitoring server 106 may check whether the timestamp value of the timestamp table of the database 104 is updated. The monitoring server 106 may check whether the timestamp value of the timestamp table of the database 104 is updated at a preset period. The monitoring server 106 can check whether the monitoring data for one or more servers 102 has been updated by the aggregation server 102 by checking the timestamp value of the timestamp table.

When the time stamp value of the time stamp table is updated, the monitoring server 106 may extract monitoring data matching the updated time stamp value from the database 104 . The monitoring server 106 stores the updated time stamp value and monitoring data matching the time stamp value in the data storage area of the monitoring server 106 (eg, HDD (Hard Disk Drive), SDD (Solid State Drive), etc.) ) can be stored in The monitoring server 106 may load the updated timestamp value and monitoring data matching the timestamp value into a memory area (eg, random access memory (RAM), etc.) of the monitoring server 106. have.

In an embodiment, the monitoring server 106 may broadcast the updated time stamp value to each user terminal 108 communicatively connected to the monitoring server 106 . That is, the monitoring server 106 may pre-broadcast only the timestamp value among the monitoring data. When receiving the monitoring data transmission request from the user terminal 108 , the monitoring server 106 may extract monitoring data corresponding to the transmission request from the memory area and transmit it to the user terminal 108 .

Each user terminal 108 may include a pre-processing module 108a communicatively connected to the monitoring server 106 . The preprocessing module 108a may receive and store the updated timestamp value from the monitoring server 106 . The preprocessing module 108a may compare the received time stamp value with a pre-stored time stamp value. The pre-processing module 108a sends the monitoring data to the monitoring server 106 when the received timestamp value is greater than the pre-stored timestamp value (that is, the received timestamp value is newer than the pre-stored timestamp value). may request to be sent.

The preprocessing module 108a may receive monitoring data matching the received time stamp value from the monitoring server 106 . At this time, since the monitoring data is pre-loaded in the memory area of the monitoring server 106 , the pre-processing module 108a can quickly receive the monitoring data from the monitoring server 106 . The pre-processing module 108a may configure a server monitoring screen based on the received monitoring data and transmit it to the user terminal 108 . When monitoring data is received from the monitoring server 106 , the pre-processing module 108a may update a pre-stored time stamp value with a time stamp value corresponding to the received monitoring data.

The pre-processing module 108a checks the status of the corresponding server 112 through status related information among the received monitoring data, and when the status of the corresponding server 112 is an event status, the server 112 is displayed on the server monitoring screen. Event status can be displayed.

Meanwhile, when the monitoring data is not stored in the user terminal 108 , the pre-processing module 108a may access the monitoring server 106 (ie, an initial connection) and request the transmission of the monitoring data. That is, when the monitoring data is not stored in the user terminal 108 , the preprocessing module 108a may request transmission of the monitoring data even if the time stamp value has not been separately received from the monitoring server 106 . In this case, the monitoring server 106 extracts the monitoring data matching the time stamp value broadcast to the user terminals 108 communicatively connected to the monitoring server 106 from the memory area and transmits it to the user terminal 108 . can Then, the pre-processing module 108a may extract and store the received monitoring data and a time stamp value corresponding to the corresponding monitoring data. Thereafter, when a time stamp value is received from the monitoring server 106 , the preprocessing module 108a may request transmission of monitoring data by comparing the received time stamp value with a pre-stored time stamp value.

According to the disclosed embodiment, the monitoring server 106 checks whether the monitoring data is updated through the time stamp value of the database 104, preloads the monitoring data into the memory area, and then transfers the time stamp value to the user terminal ( 108), when a request for transmission of monitoring data is received from the user terminal 108, monitoring data can be transmitted quickly, thereby improving the response speed perceived by the user.

In addition, by mounting the pre-processing module 108a in the user terminal 108, the user does not need to perform a separate connection process to check the server state, and can automatically check the updated monitoring data.

On the other hand, here, when the monitoring server 106 updates the time stamp value of the database 104 , the updated time stamp value is broadcast to the user terminal 108 , and then the monitoring data transmission request from the user terminal 108 . It has been described that when receiving , monitoring data corresponding to the updated time stamp value is transmitted to the user terminal 108 . However, the present invention is not limited thereto. According to an embodiment, when the time stamp value of the database 104 is updated, the monitoring server 106 extracts monitoring data corresponding to the updated time stamp value from the database, and then extracts the extracted monitoring data. It may be configured to broadcast to user terminals 108 .

2 is a flowchart illustrating a server monitoring method according to an embodiment of the present invention. In the illustrated flowchart, the method is described by dividing the method into a plurality of steps, but at least some of the steps are performed in a different order, are performed in combination with other steps, are omitted, are performed in separate steps, or are not shown. One or more steps may be added and performed.

Referring to FIG. 2 , the collection server 102 receives resource usage related information and server related information of the corresponding server 112 from one or more servers 112 ( S 101 ).

Next, the collection server 102 generates status related information of the corresponding server 112 based on the received resource usage related information of the corresponding server 112 (S103).

Next, the collection server 102 stores the monitoring data including resource usage related information, server related information, and status related information of the corresponding server 112 in the database 104 (S 105). At this time, the collection server 102 records the storage time of the monitoring data as a time stamp value in the time stamp table (S 107).

Next, the monitoring server 106 checks whether the timestamp value of the timestamp table of the database 104 is updated (S109).

As a result of checking in step S 109 , when the time stamp value is updated, the monitoring server 106 extracts the stored monitoring data matching the updated time stamp value from the database 104 ( S 111 ).

Next, the monitoring server 106 loads the extracted time stamp value and monitoring data into the memory area of the monitoring server 106 (Loading) (S113).

Next, the monitoring server 106 broadcasts the extracted time stamp value to the user terminal 108 (more specifically, the preprocessing module 108a of the user terminal 108) connected to the monitoring server 106 (S 115) .

Next, the user terminal 108 checks whether the time stamp value received from the monitoring server 106 is newer than the pre-stored time stamp value (S117). Since the timestamp value is a value that is counted as time passes based on a preset time, when the received timestamp value is greater than the pre-stored timestamp value, the received timestamp value is greater than the pre-stored timestamp value. become the latest

As a result of checking in step S 117 , when the received time stamp value is newer than the pre-stored time stamp value, the user terminal 108 requests transmission of the monitoring data to the monitoring server 106 ( S 119 ).

Next, the monitoring server 106 extracts monitoring data matching the broadcast time stamp value from the memory area and transmits it to the user terminal 108 (S121).

Next, the user terminal 108 configures and displays the server monitoring screen based on the monitoring data received from the monitoring server 106 (S123).

3 is a block diagram showing the configuration of a collection server according to an embodiment of the present invention.

Referring to FIG. 3 , the collection server 102 may include a monitoring request module 121 , a state analysis module 123 , and a storage management module 125 .

The monitoring request module 121 may transmit a monitoring request to one or more servers 112 . The monitoring request module 121 may receive resource usage related information and server related information of the corresponding server 112 from one or more servers 112 in response to the monitoring request.

The state analysis module 123 may analyze the resource usage-related information received from one or more servers 112 to generate state-related information on the state of the corresponding server 112 .

The storage management module 125 may store monitoring data including resource usage related information, server related information, and status related information of the corresponding server 112 in the database 104 . The storage management module 125 may record the storage time of the monitoring data as a timestamp value in the timestamp table.

4 is a block diagram showing the configuration of a monitoring server according to an embodiment of the present invention.

Referring to FIG. 4 , the monitoring server 106 may include an update confirmation module 131 , a data extraction module 133 , and a data transmission module 135 .

The update check module 131 may check whether the timestamp value of the timestamp table of the database 104 is updated.

When the time stamp value of the time stamp table is updated as a result of the check, the data extraction module 133 may extract monitoring data matching the updated time stamp value from the database 104 . The data extraction module 133 may load the updated time stamp value and the monitoring data into a memory area of the monitoring server 106 .

The data transmission module 135 may broadcast the updated time stamp value to each user terminal 108 communicatively connected to the monitoring server 106, or broadcast the extracted monitoring data to one or more user terminals. .

In one embodiment, the data transmission module 135 may broadcast the updated timestamp value to each user terminal 108 . Thereafter, when receiving a request for transmission of monitoring data from the user terminal 108, the or data transmission module 135 extracts monitoring data matching the broadcast time stamp value from the memory area and then transmits it to the user terminal 108 can

In another embodiment, the data transmission module 135 may directly broadcast the extracted monitoring data to each user terminal 108 . In this case, the step of transmitting the time stamp value from the data transmission module 135 and receiving the request for transmission of the monitoring data from the user terminal 108 can be omitted, so that the overall process is simplified.

In this specification, a module may mean a functional and structural combination of hardware for carrying out the technical idea of the present invention and software for driving the hardware. For example, the “module” may mean a logical unit of a predetermined code and a hardware resource for executing the predetermined code, and does not necessarily mean physically connected code or a single type of hardware. .

5 is a block diagram illustrating and describing a computing environment 10 including a computing device suitable for use in example embodiments. In the illustrated embodiment, each component may have different functions and capabilities other than those described below, and may include additional components in addition to those described below.

The illustrated computing environment 10 includes a computing device 12 . In one embodiment, computing device 12 may be an aggregation server (eg, aggregation server 102 ). Also, computing device 12 may be a monitoring server (eg, monitoring server 106 ). Also, computing device 12 may be a user terminal (eg, user terminal 108 ).

Computing device 12 includes at least one processor 14 , computer readable storage medium 16 , and communication bus 18 . The processor 14 may cause the computing device 12 to operate in accordance with the exemplary embodiments discussed above. For example, the processor 14 may execute one or more programs stored in the computer-readable storage medium 16 . The one or more programs may include one or more computer-executable instructions that, when executed by the processor 14, configure the computing device 12 to perform operations in accordance with the exemplary embodiment. can be

Computer-readable storage medium 16 is configured to store computer-executable instructions or program code, program data, and/or other suitable form of information. The program 20 stored in the computer-readable storage medium 16 includes a set of instructions executable by the processor 14 . In one embodiment, computer-readable storage medium 16 includes memory (volatile memory, such as random access memory, non-volatile memory, or a suitable combination thereof), one or more magnetic disk storage devices, optical disk storage devices, flash It may be memory devices, other forms of storage medium accessed by computing device 12 and capable of storing desired information, or a suitable combination thereof.

Communication bus 18 interconnects various other components of computing device 12 , including processor 14 and computer readable storage medium 16 .

Computing device 12 may also include one or more input/output interfaces 22 and one or more network communication interfaces 26 that provide interfaces for one or more input/output devices 24 . The input/output interface 22 and the network communication interface 26 are coupled to the communication bus 18 . Input/output device 24 may be coupled to other components of computing device 12 via input/output interface 22 . Exemplary input/output device 24 may include a pointing device (such as a mouse or trackpad), a keyboard, a touch input device (such as a touchpad or touchscreen), a voice or sound input device, various types of sensor devices, and/or imaging devices. input devices, and/or output devices such as display devices, printers, speakers and/or network cards. The exemplary input/output device 24 may be included in the computing device 12 as a component constituting the computing device 12 , and may be connected to the computing device 12 as a separate device distinct from the computing device 12 . may be

Although representative embodiments of the present invention have been described in detail above, those of ordinary skill in the art to which the present invention pertains will understand that various modifications are possible within the limits without departing from the scope of the present invention with respect to the above-described embodiments. . Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined by the claims described below as well as the claims and equivalents.

100: server monitoring system
102: collection server
104: database
106: monitoring server
108: user terminal
108a: preprocessing module
112 : server
121: monitoring request module
123: state analysis module
125: storage management module
131: update check module
133: data extraction module
135: transmission module

Claims (20)

a collection server that acquires monitoring data for one or more servers to be monitored, and stores the obtained monitoring data and time stamp values of the monitoring data in a database; and
a monitoring server that checks whether the timestamp value stored in the database is updated, and extracts monitoring data corresponding to the updated timestamp value from the database when the timestamp value is updated;
The monitoring server broadcasts the updated type stamp value to one or more user terminals,
The one or more user terminals compare the time stamp value received from the monitoring server with a pre-stored time stamp value, and when the received time stamp value is newer than the pre-stored time stamp value, the monitoring data to the monitoring server A server monitoring system that requests transmission.
delete The method according to claim 1,
The monitoring server,
Loading the updated time stamp value and the monitoring data into a memory area,
When receiving a request for transmission of monitoring data from the user terminal, extracting the monitoring data loaded in the memory area and transmitting it to the user terminal, the server monitoring system.
The method according to claim 1,
The user terminal, for updating the pre-stored timestamp value to the received timestamp value, server monitoring system.
The method according to claim 1,
The monitoring server, for broadcasting the extracted monitoring data to one or more terminals, server monitoring system.
The method according to claim 1,
The monitoring data is
A server monitoring system, including resource usage related information of the server, server related information, and status related information.
7. The method of claim 6,
The collection server,
Each of the monitoring requests is transmitted to the one or more servers, and resource usage related information of the corresponding server and server related information of the corresponding server are respectively received from the one or more servers in response to the monitoring request, and the received resource usage A server monitoring system that analyzes the related information and generates information related to the status of the corresponding server.
delete delete delete delete A computing device having one or more processors and a memory storing one or more programs executed by the one or more processors, the computing device comprising:
It is communicatively connected to the monitoring server, receives the time stamp value broadcast from the monitoring server, and when the received time stamp value is updated by comparing it with a pre-stored time stamp value, the monitoring data is transmitted to the monitoring server Computing device comprising a pre-processing module for making a request and receiving monitoring data corresponding to the request from the monitoring server.
13. The method of claim 12,
The pre-processing module is
The computing device for updating the pre-stored timestamp value with the updated timestamp value.
delete delete delete delete delete A method performed on a computing device having one or more processors and a memory storing one or more programs to be executed by the one or more processors, the method comprising:
receiving a time stamp value broadcast from a monitoring server;
comparing the received time stamp value with a pre-stored time stamp value and requesting transmission of monitoring data to the monitoring server when the received time stamp value is updated by comparing the received time stamp value with a pre-stored time stamp value; and
Including the step of receiving monitoring data corresponding to the request from the monitoring server, server monitoring method.
20. The method of claim 19,
After performing the receiving step, the server monitoring method further comprising the step of updating the stored timestamp value to the received timestamp value.

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