KR101591324B1 - Data extracting system for hierarchical data relation and method thereof - Google Patents

Abstract

The present invention relates to a system for extracting a hierarchical relation of data which extracts data to have hierarchical relations for all processes performed based on globally unique identifiers with respect to a plurality of processes performed from a request of a service to the conclusion of the service. According to the present invention, even if a plurality of the processes are used to process one request, data are hierarchically extracted, and thus the data can be integrally managed according to the processes. The data can be diagramed in various patterns as the data are extracted to have hierarchical relations. As the data are variously patterned, error analysis can be easily performed and a user can easily identify which processor is used.

Description

Technical Field [0001] The present invention relates to a hierarchical data extraction system,

The present invention relates to a system and method for extracting hierarchical relationships of data, and more particularly, to a hierarchical relationship extracting system and method for extracting hierarchical relationships of data from a service request to a service end, The present invention relates to a system and method for hierarchical relationship extraction of data.

There has been a problem in that it is difficult to confirm how a process is used because the performance management of the data and the process logic that are being processed by the process is not performed conventionally.

In addition, when a process error occurs, there is a problem in that it can not be ascertained through a certain path from the start point to the error point that the data has been delivered to the error point because the hierarchical relationship of the process in which the data is processed is unknown.

As a related art, a method for visualizing a transaction as a flow through a map of logical subsystems is disclosed in Korean Patent Publication No. 10-2012-0115477, which is a computer implemented method for visualizing flows through an application, The method comprising: a first step of accessing a data storage medium for accessing data obtained from an application; and a second step of providing the data using the instrumentation installed in the application and displaying a classification map area on the user interface, Wherein the classification map area graphically displays sub-systems of the application and dependencies between the subsystems, the subsystems being represented as nodes having names of the subsystems, A third step of displaying the auxiliary area of the user interface based on the accessed data, which is displayed using arrows connecting the nodes, and the fourth step of providing information related to the transaction instance .

However, since the data for visualization can not be extracted in a hierarchical relationship, it is necessary to analyze errors and determine whether or not to use any processor There was a difficult problem to analyze.

Patent Document 1. Korean Patent Publication No. 10-2012-0115477 (a method of visualizing a transaction as flows through a map of logical subsystems)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is therefore an object of the present invention to provide a method and apparatus for processing raw data, And to collectively manage the data for one request.

According to an aspect of the present invention, there is provided a method for processing a message including a globally unique identifier uniquely assigned to each request, a self sequence having information about the called first process itself, And a performance management module for generating a sequence header including an association sequence having information on a second process and generating a call tree for original data combined with the sequence header, Wow; After receiving each of the sequence headers and the call tree from each of the second and third processes, extracting, from among the call trees corresponding to the sequence headers having the same globally unique identifier, an association sequence of arbitrary sequence headers, And a second server for hierarchically extracting call trees to be hierarchically related to each other.

And the second server schematizes the hierarchically extracted call tree.

The performance management module may include sequence number information in the association sequence according to the number of calls of the process. The second server may include a sequence header of a plurality of sequence identifiers having the global unique identifier of the sequence header, A call tree having its own sequence in an arbitrary sequence header having a different association sequence is hierarchically extracted and the call tree can be hierarchically represented according to the sequence number information of the linked sequence.

Also, the first server may be replaced with a system including a plurality of clients and a plurality of third servers.

Further, according to another embodiment, it is possible to have a global unique identifier uniquely assigned to each request, a self sequence having information about the called first process itself, information about a second process called and executed after the first process And a third process including a performance management module for generating a sequence header including an association sequence and generating a call tree for original data combined with the sequence header, and an agent for transmitting the sequence header and the call tree When a first server is activated and each sequence header and a call tree are received from each of the second and third processes and then a sequence sequence of an arbitrary sequence header among the call trees corresponding to a sequence header having the same globally unique identifier is different A second server for hierarchically extracting a call tree which is a self sequence in an arbitrary sequence header is driven It is made of a method of extracting the hierarchy of data to the solving means.

As described above, according to the present invention, even if a plurality of processes are used in order to process a single request, the data is extracted in a hierarchical relationship, There is an effect to be able to easily analyze whether error analysis and which processor is used due to various schemes.

1 is a diagram showing a hierarchical relationship extracting system of data according to an embodiment of the present invention;
FIG. 2 is a sequence header example according to an embodiment of the present invention.
FIG. 3 is a diagram illustrating a sequence header according to an embodiment of the present invention,
4 is a diagram illustrating an example of generating a call tree according to an embodiment of the present invention.
5 illustrates an example of sequence number information of a linked sequence according to the number of process calls according to an embodiment of the present invention.
6 illustrates an example of extracting a call tree in which global unique identifiers correspond to the same sequence header according to an embodiment of the present invention
7 is a diagram illustrating an example of extracting a call tree corresponding to a sequence header according to an embodiment of the present invention
Figure 8 is an example of a call tree diagram according to an embodiment of the present invention.
9 is a diagram illustrating an example of a call tree diagram based on sequence number information of a linkage sequence according to an 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.

First, the process described in the present invention is a kind of program such as an application driven in hardware.

FIG. 1 is a diagram illustrating a hierarchical relationship extracting system of data according to an embodiment of the present invention. The hierarchical relationship extracting system of data includes a first server 100 and a second server 200.

More specifically, the first server 100 has a globally unique identifier uniquely assigned to each request, its own sequence having information about the first process itself called, a second process called after the first process, A second process including a performance management module 110 for generating a sequence header including an association sequence having information and generating a call tree for original data combined with the sequence header.

That is, the performance management module 110 of the first server 100 generates a sequence header including a globally unique identifier and sequence information, and the sequence header includes a globally unique identifier, A sequence, and a sequence sequence.

For example, as shown in FIG. 2, the global unique identifier is uniquely assigned to each request so that the connection can be maintained even if a single request is processed through a plurality of processes, It remains uniquely.

In addition, the callee sequence has information about the first process itself which is called and executed at present, and the caller sequence is associated with the next call process to be called, that is, after the first process is performed And has information about the second process to be performed.

On the other hand, the performance management module 100 included in the processor, which is called after the initially called process, receives the sequence header and the transfer data including the original data from the initially called process, To generate a sequence header.

For example, assuming that the first process is the first called process and the second process is a process called after the first process, as shown in FIG. 3, the first process is the first called process, The association sequence is not initialized to be the initial value and the association sequence 1 has process information to be called next.

At this time, the performance management module 110 included in the second process receives the delivery data composed of the first sequence header and the original data from the first process, and causes the association sequence 1 to become its own sequence 2 and the association sequence 2 to A sequence header is generated to have process information to be called.

The reason for making the association sequence be its own sequence is that the second server 200 extracts a process in which the association sequence is its own sequence and hierarchically displays the process.

Next, the performance management module 110 generates a call tree. If a process from service request to service response is performed through the first through third processes as shown in FIG. 4, the first process sequence header 1 Is assumed to have a hierarchical structure in which the association sequence 1 of the second process sequence header 2 becomes its own sequence 2 and the association sequence 2 of the second process sequence header 2 becomes its own sequence 3 of the third process sequence header 3.

At this time, the first process called first generates a call tree as shown in FIG. 4A for original data processing, and the second process associated with the first process combines sequence header 1 and original data from the first process (2) is generated by hooking forwarded transfer data 1, and Process 2 generates a call tree as shown in FIG. 4 (b) for raw data processing, and a third processor associated with the second process generates a sequence from the second process Sequence header 3 is generated by hooking transfer data combining head 2 and original data, and process 3 generates a call tree as shown in FIG. 4C for original data processing.

Particularly, the performance management module 110 preferably includes sequence number information in the association sequence according to the number of calls of the process.

For example, assuming that the first process is called first and then the second process is called twice, as shown in Fig. 5, the first process is created for the first process call with no previous association sequence because it is the first one called Since the sequence number of the sequence information is set to 00, which is the initial value, and the sequence number of the call is 01 because the call sequence is called by itself, the association sequence is 00:01.

The transfer data transferred when the second process is invoked includes the sequence of sequence information generated in the second process call as the association sequence of the first process, which is the previous process, because the sequence of the sequence information is included in the original data, 2 process, the sequence of the sequence information generated in the second process call is 00:01 since it is the same as the association sequence of the first process, which is the previous process, and the second process Is 00:01:01, and the next association sequence is 00:01:02.

As described above, the performance management module 110 includes sequential number information such as 00:01:01 and 00:01:02 in the association sequence as the number of calls of the second process.

It is also preferable that the system is constructed by a plurality of clients and a plurality of third servers instead of the first server 100.

That is, the process performed from the service request to the service termination may be implemented by a single hardware, such as the first server 100, but may be implemented by a system composed of a plurality of hardware, that is, a plurality of clients and a plurality of third servers.

The second server 200 receives each of the sequence headers and the call tree from each of the two or more third processes and then selects one of the call trees corresponding to the sequence headers having the same globally unique identifier, A call tree that is a sequence of its own is extracted hierarchically from an arbitrary sequence header.

For example, when the second server 200 receives a plurality of sequence headers and a call tree as shown in (a), (b), (c), (d), and (e) (A), (c), and (e) having the globally unique identifier 1 as shown in FIG. 6 are extracted.

6, it is assumed that the association sequence of any sequence header is a sequence of any other sequence header. That is, (a) the association sequence 2 of the sequence header is set to (c ) Sequence header 5 of the sequence header, and (c) the association sequence 6 of the sequence header as shown in FIG. 6 extracts a call tree in which (e) the sequence header 9 of the sequence header is as shown in FIG. 6 .

That is, when the collet corresponding to the sequence header in FIG. 7A is (a) as shown in FIG. 8 and the collet corresponding to the sequence header in FIG. 7C is as shown in FIG. 8 (b), and the collet corresponding to the sequence header in (e) of FIG. 6 is (c) as shown in FIG. 8, the second server 200, as shown in FIG. 8, , (b), and (c) are hierarchically extracted as shown in FIG. 8 (d).

In particular, it is preferable that the second server 200 schematizes the hierarchically extracted call tree.

That is, the second server 200 can be hierarchically structured as shown in FIG. 8 (d) as shown in FIG. 8, but it is also possible to design a continuous call tree in various forms, It acts as an integrated call tree.

Meanwhile, the second server 200 hierarchically extracts a call tree in which a sequence sequence of any sequence headers among the plurality of sequence headers having the same global unique identifier of the sequence header is a sequence of the random sequence headers, It is also preferable to hierarchically represent the call tree according to the sequence number information of the linkage sequence.

For example, if the second server 200 is called in the first first process and called twice in the second process as shown in FIG. 9, (a) is executed in the first process (B) is a call tree that is called twice in the second process. In this case, the call tree is called twice according to the sequence number information as shown in (c).

On the other hand, the hierarchical relationship extraction method of data includes a global unique identifier uniquely assigned to each request, a self sequence having information about the called first process itself, information about a second process called after the first process And a third process including a performance management module for generating a sequence header including the association sequence having the association sequence and generating a call tree for the original data combined with the sequence header, and an agent for transmitting the sequence header and the call tree Receiving a sequence header and a call tree from each of the two or more third processes and generating a sequence sequence of arbitrary sequence headers among call trees corresponding to sequence headers having the same globally unique identifier, A second server for hierarchically extracting a call tree as its own sequence in the sequence header is driven And extracts the hierarchical relationship of the data.

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: first server
110: Performance management module
200: second server

Claims (6)

A sequence header including a globally unique identifier uniquely assigned to each request, a self sequence having information about the called first process itself, an association sequence having information about a second process to be invoked after the first process, And a performance management module for generating a call tree for the original data to be combined with the sequence header; a first server in which two or more third processes are installed;
After receiving each of the sequence headers and the call tree from each of the second and third processes, extracting, from among the call trees corresponding to the sequence headers having the same globally unique identifier, an association sequence of arbitrary sequence headers, And a second server for hierarchically extracting a call tree to be used as a search result.
The system according to claim 1, wherein the second server
And hierarchically extracting the call tree.
The system of claim 1, wherein the performance management module
And the sequential number information is included in the linked sequence according to the number of calls of the process.
The system according to claim 3, wherein the second server
A call tree hierarchically extracting a call tree in which a sequence sequence of an arbitrary sequence header is a sequence of an arbitrary sequence header among a plurality of sequence headers having the global unique identifiers of the sequence headers,
Wherein the call tree is hierarchically structured in accordance with the sequence number information of the association sequence.
The method according to claim 1,
And a system configured by a plurality of clients and a plurality of third servers in place of the first server.
A sequence header including a globally unique identifier uniquely assigned to each request, a self sequence having information about the called first process itself, and an association sequence having information about a second process to be invoked after the first process, And a third process including a third process including a performance management module for generating a call tree for original data combined with the sequence header and an agent for transmitting the sequence header and the call tree,
After receiving each of the sequence headers and the call tree from each of the second and third processes, extracting, from among the call trees corresponding to the sequence headers having the same globally unique identifier, an association sequence of arbitrary sequence headers, A hierarchical relation extracting step of hierarchically extracting a call tree which is a hierarchical tree structure of a plurality of hierarchical tree structures;

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