KR101624898B1 - Data service performance integration management method - Google Patents

Abstract

The present invention generates performance information based on a GUID (Global Unique IDentifier) through an EUM (End User Monitoring) server and a collection server between a client and a web server during a service request to a service response, Data service performance integration that generates and distributes performance information based on GUID (Global Unique IDentifier) through EUM server and collection server between network transmission time and application transmission time between client, web server, and web application server (WAS) Management method.
Accordingly, the present invention generates performance information including network transmission time and application transmission time based on a GUID, and thus has an effect of measuring a performance that the user actually senses. The user can respond to a failure through performance information It has an effect of increasing the satisfaction level of users and has an effect of being utilized in a cloud computing and a big data environment in which the amount, type, speed and complexity of data are increased by integrated management of performance information.

Description

[0002] Data service performance integration management method [

The present invention relates to a data service performance integrated management method, and more particularly, to a method and system for managing a data service performance by integrating a network transmission time between a client and a web server through an EUM (End User Monitoring) (Global Unique IDentifier), and transmits the network transmission time and application transmission time between the client, the Web server, and the WAS (Web Application Server) server through the EUM server and the collection server using the GUID The present invention relates to a data service performance integrated management method for generating and managing performance information on the basis of a data service.

Recently, OLTP (Online Transaction Processing), which processes large amount of transactions in real time, has been widespread in a web-based system, which is becoming larger and more complicated, and the load caused by many simultaneous users using the Web is irregular And processes are performed in a complicated environment in which a plurality of servers are distributed so that the client requests are processed step by step and finally the response is transmitted to the client.

The response time for Web service is the most common indicator of service quality perceived by the user, and it uses expensive specialized tools to measure the response time to the service.

The professional tool has a problem in that it can not measure the user's perceived response time, which is felt by the user, because the measurement is performed mainly on the server and the network.

As a related art related to the related art, Korean Patent Laid-Open Publication No. 10-2012-0004953 discloses a web service monitoring method and a recording medium on which a program for the same is recorded and a computing device, A first step of recording a request time of the group unit service as a group unit service start time when the group service is a measurement target setting service, A second step of, when the HTTP request of the web application server is issued to the web application server, recording the HTTP information request time of the transaction unit service as a transaction unit service start time by the platform engine of the user computing device; For HTTP information requests of business A third step of, when the HTTP request is forwarded to the user computing device, recording a response time in response to the HTTP information response by the platform engine in a transaction unit business time when the HTTP request is forwarded to the user computing device; A fourth step of recording the group unit end time at a unit work end time as a group unit work end time; and a fourth step of recording the group unit work start time, the group unit work end time, And providing information on the end time to the web application server and storing the information in the database.

However, according to the conventional technology, it is possible to separately measure the response time for each section by dividing the response time for each service interval, but since the network processing time between the client and the web server can not be measured, There is a problem that the response speed can not be measured and the response to the service request can not be managed integrally based on the GUID.

Patent Document 1. Korean Patent Laid-Open Publication No. 10-2012-0004953 (method for monitoring user's perceived performance of web service, recording medium on which a program for this is recorded, and computing device)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to acquire performance information that can be sensed by a user based on a GUID for a service request to a service response.

According to an aspect of the present invention, there is provided a method of managing integrated data service performance, the method comprising: a first step of transmitting request data by a client; and a step of, after the EUM server receives request data from the client, A second step of generating a first transmission time until a web server receives a GUID to identify the first transmission time; and a second step of transmitting, by the web server, A third step of processing the data and extracting from the database the response data for the request data and generating a first execution time which is processed to combine and transmit the GUID to the extracted response data; A fourth step of generating a second transmission time until response data combined with the EUM is received by the EUM server; The UM server generates the third transmission time through the transmission rate at which the GUID-separated response data is transmitted to the client, and multiplies the second transmission time by the fourth transmission time And a collection server for receiving the 1, 2, and 4 transmission time, the first execution time, and the GUID to construct a network transmission time with a sum of the first, second, and fourth transmission times, And generating performance information including the network transmission time and the application processing time based on the GUID by constructing an application processing time according to the GUID. In the sixth step, the client transmits the request data, The collecting server acquires the client processing time at the second execution time in the case of generating the second execution time to be processed And the data service performance integrated management method, characterized in that to generate the performance information to the network transmission time and processing time and client application processing time on the basis of the GUID to the solving means.

According to another embodiment of the present invention, there is provided a data service performance unified management method including a first step of a client transmitting request data, a GUID for identifying an EUM server from the client after receiving the request data, A second step of generating a first transmission time until a web server receives a connection request from the EUM server; a second step of generating a first transmission time until a web server receives the request message; A third step of generating a first execution time which is processed to transmit request data combined with GUID to the WAS server; and a third step of receiving the request data in which the GUID is combined from the web server and separating the GUID The response data for the request data is extracted from the database and is transmitted to the web server in the second execution time A fifth step of the web server generating the third execution time to receive the response data from the WAS server and to combine the received response data with the GUID to be transmitted to the EUM server, A sixth step of the EUM server generating a second transmission time from the web server until the response data in which the GUID is combined is received in the EUM server; and a step in which the EUM server receives response data combined with the GUID from the web server A fourth transmission time that is twice the third transmission time until transmission of the response data separated by GUID and transmitted to the client, and a fourth transmission time when the collection server transmits the first, second and fourth transmission times, 2, 3, and GUID, establishes a network transmission time as a sum of the first, second, and fourth transmission times, constructs an application processing time as a sum of the first, second, and third execution times, standard To be solved by means of the made of a eighth step of generating a performance information including the network transmission time and the application processing time.

As described above, according to the present invention, performance information including a network transmission time and an application transmission time is generated on the basis of a GUID, and thus the performance of the user is actually measured. In addition, And it has an effect of being utilized in a cloud computing and a big data environment in which the amount, type, speed and complexity of data are increased by integrated management of performance information.

FIG. 1 is a flowchart illustrating a data service performance integrated management method according to an exemplary embodiment of the present invention.
FIG. 2 is a block diagram of a data service performance integrated management system according to an embodiment of the present invention.
3 is an exemplary network transmission time diagram for request data according to an embodiment of the present invention.
4 is an exemplary network transmission time diagram for response data in accordance with an embodiment of the present invention.
FIG. 5 is a flowchart illustrating a data service performance integrated management method according to another embodiment of the present invention.
FIG. 6 is a block diagram of a data service performance integrated management system according to another embodiment of the present invention.

Best Mode for Carrying Out the Invention Hereinafter, a configuration and an operation of a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a flowchart illustrating a data service performance unified management method according to an embodiment of the present invention. Referring to FIG. 1, the integrated service method for data service performance management includes a first step (S10) A second step (S20) of generating a first transmission time until a web server receives a GUID (Global Unique IDentifier) for identifying the requested data after receiving the data, A first process for extracting from the database the response data for the request data for processing the request data by separating the GUID from the request data combined with the GUID, combining the GUID with the extracted response data, (S30) of generating a time, and the EUM server transmits response data, in which the GUID is combined from the web server, to the EUM server A step S40 of generating a second transmission time until the EUM server receives the response data including the GUID after receiving the response data combined with the GUID, (S50) of generating a fourth transmission time in which the first transmission time is generated and the second transmission time is doubled in the third transmission time, and a fifth step Establishing a network transmission time as a sum of the first, second and fourth transmission times, constructing an application processing time with the first execution time, and storing performance information including the network transmission time and the application processing time based on the GUID (Step S60).

The above steps S10 to S60 will be described in detail with the components shown in Fig.

The first step S10 of the client transmitting the request data is to provide the response data for the request data from the EUM server 200 by transmitting the request data to the EUM server 200 To receive it.

The second step (S20) of generating a first transmission time from the reception of the request data from the client by the EUM server to the reception of the web server by combining the GUID for identifying the request data, And the process of receiving the GUID-combined request data from the web server 300 is the network transmission time for the requested data.

That is, the network transmission time for the requested data is the transmission time from the client 100 to the EUM server 200, that is, the transmission time from the A portion shown in FIG. 3 and the EUM server 200 to the web server 300 , And part B shown in FIG.

At this time, since the time for operating A is different for each client and is not synchronized with the EUM server 200, the transmission time can not be accurately measured.

On the other hand, the portion A will be described in the fifth step (S50), which will be described below, by measuring the transmission time using the response data.

The B part is a first transmission time from when the EUM server 200 receives the request data from the client 100 to when the web server 300 receives the GUID combined request data, (200).

In addition, the reason why the EUM server 200 combines the GUID with the request data is to generate the performance information based on the GUID.

The web server receives the request data combined with the GUID from the EUM server, processes the request data by separating the GUID, extracts response data for the request data from the database, combines the extracted response data with GUID The third step S30 of generating a first execution time to be processed in order to process the request data by separating the GUID will be described first. The GUID is for generating the performance information based on the GUID, The request data is actually processed in the web server 300, and the GUID is separated in processing the request data.

After the request data is processed, the web server 300 extracts response data to be provided to the client 100 from the database.

At this time, since the GUID is combined with the extracted response data, the web server 300 can group the request data and the response data based on the GUID, so that the transmission time of the request data having the same GUID and the transmission time of the response data So that the performance information including the network transmission time can be generated in the collection server 400.

Accordingly, the web server 300 generates the first execution time for a series of processes for receiving the combined request data with the GUID and combining the response data with the GUID.

In the fourth step S40, the EUM server generates a second transmission time from the web server until the response data having the GUID combined is received in the EUM server. In step S40, the response data including the GUID of the web server 300 is transmitted And the process of receiving the response data from the client 100 is the network transmission time for the response data.

That is, the network transmission time for the response data is the transmission time from the Web server 300 to the EUM server 200, that is, the A part shown in FIG. 4 and the transmission time from the EUM server 200 to the client 100 , And part B shown in FIG.

At this time, since the A part is synchronized between the Web server 300 and the EUM server 200, the transmission time at which the GUID combined response data is transmitted from the Web server 300 and the transmission time at which the GUID is combined in the EUM server 200 The EUM server 200 generates the second transmission time through the reception time at which the response data is received.

The EUM server generates a third transmission time through a transmission rate at which response data obtained by separating the GUID after receiving the response data combined with the GUID is transmitted to the client, and generates a fourth transmission time (B) in FIG. 4 corresponds to the network transmission time for the response data together with the second transmission time in the fourth step. In the fifth step S50, the EUM server 200 transmits the response data to the client 100) to generate a third transmission time through the transmission rate.

Then, the EUM server 200 generates a fourth transmission time that is two times the third transmission time, which is equivalent to B shown in FIG. 4, that is, B 'having the same value as the third transmission time, That is, the transmission time of the request data transmitted from the client 100 to the EUM server 200.

Therefore, the EUM server 200 generates the transmission time at which the request data is transmitted from the client 100 to the EUM server 200 through the operation at the third transmission time.

The collection server receives the 1, 2, and 4 transmission time, the first execution time, and the GUID to construct a network transmission time with a sum of the first, second, and fourth transmission times, and transmits the application processing time as the first execution time (S60) of generating performance information including the network transmission time and the application processing time based on the GUID, the method comprising the steps of: generating first and second half transmission times Is the network transmission time for the requested data and the network transmission time for the response data through the second and fourth half transmission times.

Therefore, when the first, second, and fourth transmission times are summed, the network transmission time is the sum of the network transmission time for the requested data and the network transmission time for the response data.

Accordingly, the collection server 400 generates performance information including the network transmission time and the application processing time based on the GUID.

Meanwhile, in the sixth step S60, when the client 100 generates the second execution time to process the request data and receive the response data, the collection server 400 performs the second execution And generate performance information based on the network transmission time, the application processing time, and the client processing time based on the GUID.

That is, the collection server 400 further includes the client processing time in the performance information to manage the performance of the entire network from an administrator's point of view.

FIG. 5 is a flowchart illustrating a data service performance unified management method according to another exemplary embodiment of the present invention, wherein the integrated service method for data service performance includes a first step (S10) of a client transmitting request data, A second step (S20) of generating a first transmission time until a web server receives a GUID (Global Unique IDentifier) for identifying the request data after receiving the request data; A third step (S30) of receiving the request data combined with the GUID, separating the GUID, processing the request data, and generating a first execution time processed for transmitting the GUID-combined request data to the WAS server; The WAS server receives the request data combined with the GUID from the web server, separates the GUID, (S40) of generating a second execution time to be processed for extracting the response data from the WAS server and transmitting the extracted response data to the web server, A fifth step (S50) of generating a third execution time to be processed for transmission to the EUM server, and a second transmission time from when the EUM server receives response data combined with the GUID from the web server to the EUM server A fourth transmission step (S60) in which the EUM server receives the response data combined with the GUID from the web server and transmits the response data separated from the GUID to the client, A seventh step S70 of generating a time and a collection server receiving the first, second and fourth transmission times, the first, second and third execution times, and the GUID and generating a sum of the first, second and fourth transmission times Establish network transmission times and The eighth step comprises a first, second, by building an application processing time by the sum of the three processing time for generating performance information based on the GUID includes the network transmission time and the application processing time (S80).

Each of the above steps S10 to S80 will be described in more detail below with the components shown in Fig.

The first step S10 of the client transmitting the request data is to provide the response data for the request data from the EUM server 200 by transmitting the request data to the EUM server 200 To receive it.

The second step (S20) of generating a first transmission time from the reception of the request data from the client by the EUM server to the reception of the web server by combining the GUID for identifying the request data, And the process of receiving the GUID-combined request data from the web server 300 is the network transmission time for the requested data.

That is, the network transmission time for the requested data is the transmission time from the client 100 to the EUM server 200, that is, the transmission time from the A portion shown in FIG. 3 and the EUM server 200 to the web server 300 , And part B shown in FIG.

At this time, since the time for operating A is different for each client and is not synchronized with the EUM server 200, the transmission time can not be accurately measured.

On the other hand, the portion A is measured in the seventh step (S70), which will be described later, by measuring the transmission time using the response data.

The B part is a first transmission time from when the EUM server 200 receives the request data from the client 100 to when the web server 300 receives the GUID combined request data, (200).

In addition, the reason why the EUM server 200 combines the GUID with the request data is to generate the performance information based on the GUID.

The web server receives the GUID combined request data from the EUM server, separates the GUID to process the request data, and generates the first execution time processed to transmit the GUID-combined request data to the WAS server. In step S30, the GUID is for generating the performance information based on the GUID, and substantially separates the GUID from the request data when the request data is processed in the web server 300.

Then, the web server 300 transmits the combined request data to the WAS server 500 in order to generate performance information based on the GUID.

In this manner, the web server 300 separates the GUID, processes the request data, and generates the first execution time to be transmitted to the WAS server 500 in order to transmit the GUID-bound request data.

The WAS server receives the request data combined with the GUID from the web server, separates the GUID, extracts the response data for the request data from the database, and generates a second execution time to be transmitted to the web server In the fourth step S40, the GUID is for generating the performance information based on the GUID, and the response data for the request data is actually extracted from the database by the WAS server 500. The GUID is extracted .

Then, the WAS server 500 combines the GUID with the response data extracted to generate performance information based on the GUID, and transmits the GUID to the web server 300.

In this way, the WAS server 500 extracts the response data using the combined request data of the GUID and combines the GUID with the response data to generate a second execution time to be transmitted to the web server 300 .

The fifth step (S50) of the web server to receive the response data from the WAS server and to generate a third execution time to be transmitted to the EUM server by combining GUID with the response data, 300) generates a third execution time required for coupling the GUID to the response data received from the WAS server 500 and transmitting the GUID to the EUM server 200 in order to build the performance information based on the GUID.

The sixth step S60 of the EUM server generating a second transmission time from the web server to the reception of the response data combined with the GUID in the EUM server is performed in such a manner that the response data in which the GUID of the web server 300 is combined is transmitted And the process of receiving the response data from the client 100 is the network transmission time for the response data.

That is, the network transmission time for the response data is the transmission time from the Web server 300 to the EUM server 200, that is, the A part shown in FIG. 4 and the transmission time from the EUM server 200 to the client 100 , And part B shown in FIG.

At this time, since the A part is synchronized between the Web server 300 and the EUM server 200, the transmission time at which the GUID combined response data is transmitted from the Web server 300 and the transmission time at which the GUID is combined in the EUM server 200 The EUM server 200 generates the second transmission time through the reception time at which the response data is received.

A seventh step (S70) of generating a fourth transmission time in which the EUM server receives the response data combined with the GUID from the web server and multiplies the third transmission time by two ) Corresponds to the network transmission time for the response data together with the second transmission time in the sixth step (S60), and part B shown in FIG. 4 corresponds to the network transmission time for the response data in the EUM server 200, And a third transmission time is generated through a transmission rate at the time of transmission.

Then, the EUM server 200 generates a fourth transmission time that is two times the third transmission time, which is equivalent to B shown in FIG. 4, that is, B 'having the same value as the third transmission time, That is, the transmission time of the request data transmitted from the client 100 to the EUM server 200.

Therefore, the EUM server 200 generates the transmission time at which the request data is transmitted from the client 100 to the EUM server 200 through the operation at the third transmission time.

The collection server receives the first, second and fourth transmission times, the first, second and third execution times, and the GUID to construct a network transmission time as a sum of the first, second and fourth transmission times, And 3 execution time, and generates performance information including the network transmission time and the application processing time based on the GUID, in step S80. In the eighth step S80, the first, second, and fourth transmission times The network transmission time for the requested data is half the transmission time of the first and fourth half, and the network transmission time for the response data is the half of the second and fourth half transmission times.

Therefore, when the first, second, and fourth transmission times are summed, the network transmission time is the sum of the network transmission time for the requested data and the network transmission time for the response data.

Therefore, the collection server 400 generates performance information including the network transmission time and the application processing time based on the GUID.

Meanwhile, in the eighth step S80, when the client 100 generates the fourth execution time to process the request data and receive the response data, the collection server 400 performs the fourth execution And generate performance information based on the network transmission time, the application processing time, and the client processing time based on the GUID.

That is, the collection server 400 further includes the client processing time in the performance information to manage the performance of the entire network from an administrator's point of view.

Particularly, it is also preferable that the collection server 400 generates performance information for a first section corresponding to a network transmission time, a second section corresponding to an application processing time, and a third section corresponding to a client processing time Do.

That is, the collection server 400 manages the performance of each section separately from the manager side by generating performance information for each of the first, second, and third sections.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, It is not used to limit the scope.

Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: client 200: user management server
300: Web server 400: collection server
500: WAS server

Claims (5)

A first step of the client transmitting the request data;
A second step in which a GUID (Global Unique IDentifier) for identifying the request data is combined after the EUM server receives the request data from the client to generate a first transmission time until the web server receives the request;
The web server receives the request data combined with the GUID from the EUM server, processes the request data by separating the GUID, extracts the response data for the request data from the database, combines the extracted response data with GUID A third step of generating a first execution time to be processed for processing;
A fourth step in which the EUM server generates a second transmission time from the web server until the response data in which the GUID is combined is received in the EUM server;
The EUM server generates a third transmission time through a transmission rate at which response data obtained by separating the GUID after receiving the response data combined with the GUID is transmitted to the client, and generates a fourth transmission time A fifth step of generating the second signal;
The collection server receives the 1, 2, and 4 transmission time, the first execution time, and the GUID, establishes the network transmission time as the sum of the first, second, and fourth transmission times, and establishes the application processing time as the first execution time And generating performance information including the network transmission time and the application processing time based on the GUID, wherein the sixth step is a step of transmitting the request data and the response data to the client, When generating the second execution time, the collection server constructs the client processing time with the second execution time and generates performance information based on the network transfer time, the application processing time and the client processing time based on the GUID Wherein the data service performance management method comprises:
delete A first step of the client transmitting the request data;
A second step in which a GUID (Global Unique IDentifier) for identifying the request data is combined after the EUM server receives the request data from the client to generate a first transmission time until the web server receives the request;
The web server receives the GUID combined request data from the EUM server, separates the GUID to process the request data, and generates the first execution time processed to transmit the GUID-combined request data to the WAS server. ;
The WAS server receives the request data combined with the GUID from the web server, separates the GUID, extracts response data for the request data from the database, and generates a second execution time to be transmitted to the web server 4 steps;
A fifth step of the web server receiving the response data from the WAS server and generating a third execution time which is processed to combine GUID with the response data received and transmit to the EUM server;
A sixth step of the EUM server generating a second transmission time from the web server to the reception of the response data combined with the GUID in the EUM server;
A seventh step of generating a fourth transmission time in which the EUM server receives the response data combined with the GUID from the web server and multiplies the third transmission time until transmission of the response data separated from the GUID to the client;
The collection server receives the first, second and fourth transmission times, the first, second and third execution times, and the GUID to construct a network transmission time as a sum of the first, second and fourth transmission times, 3 < / RTI > execution time, and generating performance information including the network transmission time and the application processing time based on the GUID.
4. The method of claim 3,
In case the client generates the fourth execution time to process the request data and receive the response data,
Wherein the collection server constructs a client processing time at the fourth execution time and generates performance information based on the network transmission time, the application processing time, and the client processing time based on the GUID.
The system according to claim 3,
Wherein the performance information is generated for each of the first section corresponding to the network transmission time, the second section corresponding to the application processing time, and the third section corresponding to the client processing time.

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