CN117614723A - Intelligent data blood-edge tracking method - Google Patents

Abstract

The invention relates to the technical field of data processing, in particular to an intelligent data blood-edge tracking method, which comprises the following steps: s100: matching marks corresponding to a plurality of data terminals, and respectively matching the marks corresponding to the data terminals according to nodes in a data transmission link; s200: according to the marks of the corresponding data terminals, the marks in the corresponding processed data are marked with the same type of data marks; s300: according to a plurality of data endowed in the transmission link node, data tracking can be sequentially carried out according to marks on the data; s400: and judging the data transmission or data processing quality of the data terminal corresponding to the plurality of nodes by using a feedback method, and assisting in tracing the data or further distributing the data. Through the set marking method, the data mark corresponding to each data is formed, and the data can be efficiently traced by the data mark in combination with the feedback method.

Description

Intelligent data blood-edge tracking method

Technical Field

The invention relates to the technical field of data processing, in particular to an intelligent data blood-margin tracking method.

Background

The big data blood-edge refers to that in the big data processing process, the data flow paths related to each processing logic are tracked to form the dependence and the generation relation among different data tables, so that the effect analysis of the data downwards or the trace analysis of the data upwards is realized, and the management of resources and the investigation of the problems by users are facilitated.

In the existing data blood-edge tracking method, the characteristics of the data to be tracked are usually required to be extracted, a step-by-step tracing mode is adopted to find the source of the data, and the tracing efficiency of the mode is lower for the data processed in multiple stages, so that the intelligent data blood-edge tracking method is provided.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides an intelligent data blood-edge tracking method, which can effectively solve the problem of low tracing efficiency of multilevel processing data during the existing data tracking.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides an intelligent data blood-edge tracking method, which comprises the following steps:

s100: the corresponding marks of the corresponding multiple data terminals are matched, and the corresponding data terminals are respectively matched according to the nodes in the data transmission link: the device comprises a data acquisition terminal, a data processing terminal, a data transmission terminal and a data receiving terminal;

s200: according to the marks of the corresponding data terminals, the marks in the corresponding processed data are marked with the same type of data marks, and according to the data transmission logic relation of a plurality of data terminals, when the data are transmitted, the marked different marks can be overlapped, and when each data is transmitted, the data terminals through which the data flow passes are recorded, and a corresponding data terminal link is formed;

s300: according to a plurality of data endowed in the transmission link node, data tracking can be sequentially carried out according to marks on the data, or further distributed transmission can be carried out in subsequent transmission;

s400: and judging the data transmission or data processing quality of the data terminal corresponding to the plurality of nodes by using a feedback method, recording the data transmission characteristics of the nodes in the current data transmission link, and assisting in data tracing or further distribution of data.

Further, the step S200 further includes a data marking method:

s210: determining the node position of the current data terminal in the data transmission link, and matching one or more marks in the corresponding data acquisition terminal, data processing terminal, data transmission terminal and data receiving terminal;

s220: and respectively distributing corresponding character spaces at the head ends of the corresponding data, marking the data by using marks on the corresponding data terminals, and overlapping the marks in a sequential mode at the tail ends of the data along with the increase of the marks.

Further, in step S220, further includes:

s221: and allocating corresponding character spaces at the tail ends of the corresponding data, and superposing a plurality of marks at the tail ends of the data.

Further, the method also comprises a data link processing method for sequencing a plurality of data terminals through which the unit data packet flows; the method comprises the following steps:

s230: classifying each data terminal link, and determining the corresponding number of the data acquisition terminal, the data processing terminal, the data transmission terminal and the data receiving terminal in the unit data packet transmission link;

s240: grouping the plurality of data terminals according to categories, endowing the same terminal characters to the plurality of terminals in the same group, and correspondingly reflecting the terminal characters in the data marks.

Further, the feedback method comprises the following steps:

s410: determining the size of a unit data packet when data is transmitted to a corresponding data terminal;

s420: and judging whether the change of the size of the unit data packet is the character size corresponding to the mark corresponding to the data transmission terminal or not according to the change of the size of the unit data packet corresponding to the data transmission terminal when the data is transmitted through the data terminal;

s430: if so, judging the data terminal as a normal data terminal, and if the change of the unit data packet size is inconsistent with the corresponding character size, judging the data terminal as an abnormal data terminal.

Further, the abnormal data tracking method includes the steps of:

s500: after receiving the data, the data receiving terminal restores the data into a plurality of unit data packets in the transmission process, and judges whether the data are abnormal according to the plurality of unit data packets, wherein the abnormal unit data packets are abnormal data;

s510: finding a corresponding data terminal link according to corresponding data marks in a plurality of abnormal unit data packets, judging the overlapped data terminals in the plurality of data links, firstly judging whether the overlapped data terminals are abnormal data terminals, and if so, judging that the abnormal data are caused by the abnormal data terminals;

s520: if the overlapped data terminals in the data links are not abnormal data terminals, further judging whether the corresponding data terminal links have abnormal terminals or not, and if so, respectively carrying out tracing checking calculation of the unit data packets and subsequent transmission checking calculation of the unit data packets by taking the abnormal data terminals as starting points;

s530: and after the abnormal terminal is determined, restoring the abnormal data according to the data transmission characteristics of the node in the current data transmission link, and continuously tracing the singular data packet.

Advantageous effects

Compared with the known public technology, the technical scheme provided by the invention has the following beneficial effects:

according to the invention, the data transmitted in the transmission link are marked sequentially by the marking method and are superimposed in the data to form the data mark corresponding to each data, and the data can be tracked efficiently by the data mark in combination with the feedback method.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of a whole blood-margin tracing method according to the present invention;

FIG. 2 is a schematic diagram of the whole data marking method of the present invention;

FIG. 3 is a schematic diagram illustrating an abnormal data tracking method according to the present invention;

FIG. 4 is a diagram of a character string marked with data according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Example 1

An intelligent data blood-edge tracking method comprises the following steps:

s100: the corresponding marks of the corresponding multiple data terminals are matched, and the corresponding data terminals are respectively matched according to the nodes in the data transmission link: the device comprises a data acquisition terminal, a data processing terminal, a data transmission terminal and a data receiving terminal;

s200: according to the marks of the corresponding data terminals, the marks in the corresponding processed data are marked with the same type of data marks, and according to the data transmission logic relation of a plurality of data terminals, when the data are transmitted, the marked different marks can be overlapped, and when each data is transmitted, the data terminals through which the data flow passes are recorded, and a corresponding data terminal link is formed;

s300: according to a plurality of data endowed in the transmission link node, data tracking can be sequentially carried out according to marks on the data, or further distributed transmission can be carried out in subsequent transmission;

s400: and judging the data transmission or data processing quality of the data terminal corresponding to the plurality of nodes by using a feedback method, recording the data transmission characteristics of the nodes in the current data transmission link, and assisting in data tracing or further distribution of data.

Through steps S100-S400, in the actual data tracking process, the data receiving terminal is usually traced step by step, the data transmission mode in different data terminals is judged, tracing is performed on the data according to the data coincidence ratio, a longer time is required for comparing the data, the data is smaller and easy to implement, if the data is larger, the corresponding efficiency is low, and if the data is transmitted through the multi-stage data transmission terminal, the number of times of comparing the coincidence ratio is required to be correspondingly increased, so that the whole data tracing efficiency is lower, and the data is not modified only for a simple data transmission terminal, but also for some data terminals, if some data terminals have the data modification function, such as encryption, the data modification part of the data terminal needs to be further removed, so that the whole data tracing is complicated.

In the scheme, in a link of data transmission, firstly, the function of each data terminal is clarified, on the basis of the definition of the function, in the data processing or data transmission process, corresponding data marks are carried out on each data, the data marks can show nodes in a data transmission link utilized in each link of data acquisition, processing, transmission and reception, a plurality of data terminals through which the data flow are recorded, and in the recording mode, the data need to be traced when in a data receiving terminal, in the process of tracing, the source of the data can be well clarified according to the data marks on the data; of course, in the above-mentioned situation, when the data is transmitted to the data receiving terminal, there is no damage, which is understood that no large packet loss or messy code occurs;

specifically, the step S200 further includes a data marking method:

s210: determining the node position of the current data terminal in the data transmission link, and matching one or more marks in the corresponding data acquisition terminal, data processing terminal, data transmission terminal and data receiving terminal;

s220: and respectively distributing corresponding character spaces at the head ends of the corresponding data, marking the data by using marks on the corresponding data terminals, and overlapping the marks in a sequential mode at the tail ends of the data along with the increase of the marks.

Specifically, the so-called data marking method is that a data transmission link records a plurality of nodes in the links through which data flows, the nodes correspond to data terminals and are used for assisting in effective transmission of the data, and is worth explaining that in the scheme, the corresponding data is marked at the end of a unit data packet in a way that marks are added, the unit data packet is generated in the transmission process of the data, in order to ensure stable transmission in each link, preprocessing is performed on the data, so that one complete data can be subdivided into a plurality of unit data packets with certain sizes for transmission, and the size of a specific unit data packet is determined according to factors such as the bandwidth of the link in the current data source transmission link, in the scheme, redundant description is omitted, so-called marks are added at the end of the unit data packet, and the size of a character mark made for each unit data packet is negligible compared with the size of the whole unit data packet; in this case, each corresponding mark occupies a character with a certain space, and the size of the character space depends on the number of nodes and data terminals passing through from the beginning of data acquisition to the completion of data reception in the transmission process, for example, in the process of realizing complete data acquisition and reception for one data through 4 nodes, the space of the corresponding character can be the space occupied by 4 codes, which only needs to ensure that the character code corresponding to the mark on each data terminal is not disordered;

for example: during data transmission, a data acquisition terminal, a data processing terminal, a data transmission terminal and a data receiving terminal are respectively passed through, and the character string corresponding to the unit data packet of the transmission is assumed to be: 1011101011;

after passing through a data acquisition terminal, the string becomes:

00011011101011；

after passing through a data processing terminal, the string becomes:

000100011011101011；

after passing through a data transmission terminal, the character string becomes:

0001000100011011101011；

upon reaching the data receiving terminal, the character string becomes:

00010001000100011011101011；

according to what is shown in fig. 4, at the time of the data receiving terminal, it will add a corresponding plurality of marks: 0001 (data receiving terminal mark), 0001 (data transmitting terminal mark), 0001 (data processing terminal mark), 0001 (data collecting terminal mark) to facilitate the subsequent multiple unit data package to form complete data after transmission.

And a plurality of unit data packets with marked characters can be synchronously stored, and in the process of tracking and tracing data, a plurality of data terminals through which the unit data packets flow can be quickly found by marking the characters in a character space, and finally a corresponding data acquisition terminal is found.

Step S220 further includes S221: and allocating corresponding character spaces at the tail ends of the corresponding data, and superposing a plurality of marks at the tail ends of the data.

In the above steps S200-S220, by adding the character mark to the first segment of the unit data packet, and in step S221, the corresponding character mark is added to the tail of the unit data packet, on the one hand, the character mark can be checked with the character mark located at the first end of the unit data packet, on the other hand, when the character mark part is lost due to modification of the data terminal in the unit data packet, by increasing the number of character marks, the possibility that the character mark is reserved can be increased, and further tracing is performed better.

The method also comprises a data link processing method which is used for sequencing a plurality of data terminals through which the unit data packet flows; the method comprises the following steps: s230: classifying each data terminal link, and determining the corresponding number of the data acquisition terminal, the data processing terminal, the data transmission terminal and the data receiving terminal in the unit data packet transmission link; s240: grouping the plurality of data terminals according to categories, endowing the same terminal characters to the plurality of terminals in the same group, and correspondingly reflecting the terminal characters in the data marks.

In this case, a plurality of data terminals corresponding to the formed data link of the same unit data packet transmission are found out, the data terminals with the same functionality are classified according to the functions of each data terminal, the data terminals with the same functionality are assigned with the same terminal character, and the character is reflected in a character mark.

The feedback method comprises the following steps:

s410: determining the size of a unit data packet when data is transmitted to a corresponding data terminal; s420: and judging whether the change of the size of the unit data packet is the character size corresponding to the mark corresponding to the data transmission terminal or not according to the change of the size of the unit data packet corresponding to the data transmission terminal when the data is transmitted through the data terminal; s430: if so, judging the data terminal as a normal data terminal, and if the change of the unit data packet size is inconsistent with the corresponding character size, judging the data terminal as an abnormal data terminal.

In the process of data transmission, the feedback method is used for feeding back the data transmission and processing quality of a plurality of data terminals in a data transmission link so as to better grasp the overall situation of the data transmission link, specifically, for the data transmission terminal, the common knowledge is taken as a data transmission medium, the content of a unit data packet is not regulated, and certainly in the scheme, the data transmission terminal can carry out data marking on the unit data packet transmitted by the data transmission terminal and does not regulate the content of the unit data packet, therefore, when the unit data packet is received from a data transmission terminal and is output subsequently, the difference of the sizes of the unit data packet is the size of characters corresponding to the data marking, the transmission quality of the unit data packet in the current data transmission terminal can be determined through the judgment, if the size change of the unit data packet is consistent with the corresponding size of the characters, the data transmission terminal is considered to be a normal data terminal, and if the size change of the unit data packet is inconsistent, the current data terminal is judged to be an abnormal data terminal.

The method for tracking the abnormal data comprises the following steps:

s500: after receiving the data, the data receiving terminal restores the data into a plurality of unit data packets in the transmission process, and judges whether the data are abnormal according to the plurality of unit data packets, wherein the abnormal unit data packets are abnormal data;

s510: finding a corresponding data terminal link according to corresponding data marks in a plurality of abnormal unit data packets, judging the overlapped data terminals in the plurality of data links, firstly judging whether the overlapped data terminals are abnormal data terminals, and if so, judging that the abnormal data are caused by the abnormal data terminals;

s520: if the overlapped data terminals in the data links are not abnormal data terminals, further judging whether the corresponding data terminal links have abnormal terminals or not, and if so, respectively carrying out tracing checking calculation of the unit data packets and subsequent transmission checking calculation of the unit data packets by taking the abnormal data terminals as starting points;

s530: and after the abnormal terminal is determined, restoring the abnormal data according to the data transmission characteristics of the node in the current data transmission link, and continuously tracing the singular data packet.

Through steps S500-S530, effective tracing can be performed on abnormal data, specifically, after the data receiving terminal receives the abnormal data, the abnormal data refers to that the unit data packet is abnormal, in this case, of course, when the unit data packet is abnormal, the complete data combined into the data receiving terminal is abnormal, when the unit data packet is detected to be abnormal, the data terminal link corresponding to the abnormal data is found, and it is to be noted that when the unit data packet is abnormal, the data terminal for transmitting the data is usually problematic, so that a plurality of unit data packets flowing through the data terminal are problematic, so that when the data receiving terminal detects that a plurality of unit data packets are problematic, the data terminal links corresponding to the unit data packet are found respectively, and the data terminal links are the sequential combination of the plurality of data terminals formed according to the transmission sequence of the unit data packet in the data transmission process;

when a plurality of data terminal links corresponding to the abnormal data are found, the data terminal links which are overlapped in the plurality of data terminal links are found out, and the overlapped data terminals can be one or a plurality of data terminals; it should be noted that, in the data transmission process, the data terminals can be already distinguished by using the feedback method, and are divided into an abnormal data terminal and a normal data terminal, on the basis, when a data terminal which is overlapped is provided with a data terminal marked as an abnormal data terminal, the abnormal probability of the unit data packet is caused by the abnormal data terminal, so that in the data tracing process, other data terminals between the abnormal data terminal and the data receiving terminal do not need to trace the source step by step, the abnormal data terminal can be traced to the position of the abnormal data terminal directly, in the step S400, the node data transmission characteristic in the current data transmission link can be recorded by using the feedback method, and the purpose is that the abnormal data terminal has the problem that in the data transmission process, a part of characters are deleted, or the data terminal is subjected to directional modification aiming at a character, and then the transmission of a unit data packet has abnormality, in this case, the data mark of the corresponding unit data packet can be restored well through the grasped data transmission characteristic of the current abnormal data terminal, and the data corresponding unit data packet can be traced back well, and trace the source can be traced step by step conveniently and quickly;

if the overlapped data terminals are not abnormal data terminals in the data terminal links corresponding to the unit data packets, the data terminals need to be independently evaluated whether the abnormal data terminals exist in the data links corresponding to the unit data packets, if the abnormal data terminals exist, whether the abnormality of the unit data packets is caused by the data terminals is judged, and the unit data packets are restored according to the node data transmission characteristics in the current data transmission link.

Example two

In step S230-S240, statistics is performed for the numbers corresponding to the data acquisition terminal, the data processing terminal, the data transmission terminal and the data receiving terminal in the transmission link in the unit data packet, and grouping is performed according to the category for the plurality of data terminals, and the same terminal characters are given to the plurality of terminals in the same group, and correspondingly embodied in the data mark;

for the same data, the data are divided into a plurality of unit data packets for transmission, and of course, the actual data terminal links are different, the difference is the difference of the data transmission terminals, and the different links are adopted for explanation, but the acquisition, the processing and the receiving of the corresponding data terminals are consistent, so in the scheme, when the unit data packets are defined as abnormal data, the unit data packets are classified, whether the unit data packets are derived from the same data is determined, if so, the tracing can be carried out for the plurality of unit data packets distributed for the same data at the same time, the centralized tracing can be carried out for the data transmission terminals at first, and the tracing efficiency of the data tracing can be further improved by referring to the mode in the steps S500-S530;

and in the transmission links corresponding to the unit data packets distributed by the same data, the plurality of data transmission terminals are regarded as the same group, so that the same terminal character is respectively assigned to the corresponding plurality of unit data packets, and in the tracing process, especially when the data is abnormal, the data terminals corresponding to the same terminal character can be preferentially considered, thereby being used as the tracing starting points to respectively carry out tracing checking calculation of the unit data packets and subsequent transmission checking calculation of the unit data packets.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims (6)

1. An intelligent data blood-edge tracking method is characterized by comprising the following steps:

s100: the corresponding marks of the corresponding multiple data terminals are matched, and the corresponding data terminals are respectively matched according to the nodes in the data transmission link: the device comprises a data acquisition terminal, a data processing terminal, a data transmission terminal and a data receiving terminal;

s200: according to the marks of the corresponding data terminals, the marks in the corresponding processed data are marked with the same type of data marks, and according to the data transmission logic relation of a plurality of data terminals, when the data are transmitted, the marked different marks can be overlapped, and when each data is transmitted, the data terminals through which the data flow passes are recorded, and a corresponding data terminal link is formed;

s300: according to a plurality of data endowed in the transmission link node, data tracking can be sequentially carried out according to marks on the data, or further distributed transmission can be carried out in subsequent transmission;

s400: and judging the data transmission or data processing quality of the data terminal corresponding to the plurality of nodes by using a feedback method, recording the data transmission characteristics of the nodes in the current data transmission link, and assisting in data tracing or further distribution of data.

2. The intelligent data blood-edge tracking method according to claim 1, wherein the step S200 further comprises a data marking method:

s210: determining the node position of the current data terminal in the data transmission link, and matching one or more marks in the corresponding data acquisition terminal, data processing terminal, data transmission terminal and data receiving terminal;

s220: and respectively distributing corresponding character spaces at the head ends of the corresponding data, marking the data by using marks on the corresponding data terminals, and overlapping the marks in a sequential mode at the tail ends of the data along with the increase of the marks.

3. The intelligent data blood-edge tracking method according to claim 2, further comprising, in step S220:

s221: and allocating corresponding character spaces at the tail ends of the corresponding data, and superposing a plurality of marks at the tail ends of the data.

4. The intelligent data edge tracking method according to claim 3, further comprising a data link processing method for ordering a plurality of data terminals through which unit data packets flow; the method comprises the following steps:

s230: classifying each data terminal link, and determining the corresponding number of the data acquisition terminal, the data processing terminal, the data transmission terminal and the data receiving terminal in the unit data packet transmission link;

s240: grouping the plurality of data terminals according to categories, endowing the same terminal characters to the plurality of terminals in the same group, and correspondingly reflecting the terminal characters in the data marks.

5. The method of claim 4, wherein the feedback method comprises the steps of:

s410: determining the size of a unit data packet when data is transmitted to a corresponding data terminal;

s420: and judging whether the change of the size of the unit data packet is the character size corresponding to the mark corresponding to the data transmission terminal or not according to the change of the size of the unit data packet corresponding to the data transmission terminal when the data is transmitted through the data terminal;

s430: if so, judging the data terminal as a normal data terminal, and if the change of the unit data packet size is inconsistent with the corresponding character size, judging the data terminal as an abnormal data terminal.

6. The intelligent data blood-edge tracking method according to claim 5, further comprising an abnormal data tracking method, wherein the abnormal data tracking method comprises the steps of:

s500: after receiving the data, the data receiving terminal restores the data into a plurality of unit data packets in the transmission process, and judges whether the data are abnormal according to the plurality of unit data packets, wherein the abnormal unit data packets are abnormal data;

s510: finding a corresponding data terminal link according to corresponding data marks in a plurality of abnormal unit data packets, judging the overlapped data terminals in the plurality of data links, firstly judging whether the overlapped data terminals are abnormal data terminals, and if so, judging that the abnormal data are caused by the abnormal data terminals;

s520: if the overlapped data terminals in the data links are not abnormal data terminals, further judging whether the corresponding data terminal links have abnormal terminals or not, and if so, respectively carrying out tracing checking calculation of the unit data packets and subsequent transmission checking calculation of the unit data packets by taking the abnormal data terminals as starting points;

s530: and after the abnormal terminal is determined, restoring the abnormal data according to the data transmission characteristics of the node in the current data transmission link, and continuously tracing the singular data packet.