AU2021103087A4 - Big data testing method and system - Google Patents

Abstract

The application provides a big data testing method and a big data testing system, which are used for carrying out example tracking on example running records in target testing requirement execution data of a target big data testing service to be subjected to big data testing, and carrying out partition repair and whole-area repair to realize big data testing processing so as to obtain a testing example corresponding to the target testing requirement execution data corresponding to a target example in the target testing requirement execution data within a set testing range. Because the test case corresponding to the target test requirement execution data in the set test range is determined by considering the influence of the partition test requirement execution data and the whole area test requirement execution data, the test case corresponding to the target test requirement execution data in the set test range can be determined quickly and accurately, and the expected test case does not need to be determined by consuming more time, so that the efficiency of testing the big data aiming at the target big data test service can be improved as much as possible, and the stagnation of the big data test process can be relieved in time. 100 Test 200 Test Equipment 200 Equipment Fig.1

Description

The application provides a big data testing method and a big data testing system, which are used for carrying out example tracking on example running records in target testing requirement execution data of a target big data testing service to be subjected to big data testing, and carrying out partition repair and whole-area repair to realize big data testing processing so as to obtain a testing example corresponding to the target testing requirement execution data corresponding to a target example in the target testing requirement execution data within a set testing range. Because the test case corresponding to the target test requirement execution data in the set test range is determined by considering the influence of the partition test requirement execution data and the whole area test requirement execution data, the test case corresponding to the target test requirement execution data in the set test range can be determined quickly and accurately, and the expected test case does not need to be determined by consuming more time, so that the efficiency of testing the big data aiming at the target big data test service can be improved as much as possible, and the stagnation of the big data test process can be relieved in time.

Test 200 Test Equipment 200 Equipment

Fig.1

EDITORIAL NOTE 2021103087

There are 19 pages of description only.

Big data testing method and system Technical Field The invention relates to the technical field of big data testing, in particular to a big data testing method and a big data testing system. Background Testing a big data application verifies its data handling more than testing individual functions of the software product. Performance and functional testing is critical when large data testing is involved. The processing can be of three types: batch, real-time, interactive, it is necessary to check the quality of the data before testing the application and treat it as part of the database test. It involves checking various fields such as consistency, accuracy, duplication, consistency, validity, data integrity, etc. In the related art, the inventor researches and discovers that the influence of the execution data of the partition test requirement and the execution data of the whole partition test requirement is not considered in the current scheme, and much time is required for determining the expected test case. Disclosure of Invention In order to overcome at least the above-mentioned deficiencies in the prior art, an object of the present invention is to provide a method and a system for testing big data, which perform instance tracking on instance operation records in target test requirement execution data of a target big data test service to be subjected to big data testing, and perform partition repair and whole area repair to implement big data test processing, so as to obtain a test instance corresponding to the target test requirement execution data corresponding to a target instance in the target test requirement execution data within a set test range. Because the test case corresponding to the target test requirement execution data in the set test range is determined by considering the influence of the partition test requirement execution data and the whole area test requirement execution data, the test case corresponding to the target test requirement execution data in the set test range can be determined quickly and accurately, and the expected test case does not need to be determined by consuming more time, so that the efficiency of testing the big data aiming at the target big data test service can be improved as much as possible, and the stagnation of the big data test process can be relieved in time. In a first aspect, the present invention provides a big data testing method, applied to a big data testing server communicating with a testing device, the method including: acquiring target test requirement execution data of a target big data test service to be subjected to big data test, and respectively performing error operation instance tracking and failure operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain an error operation instance tracking result and a failure operation instance tracking result; performing partition repair processing on the erroneously operated instance tracking result through a preset partition repair network aiming at the instance tracking result to obtain a test instance corresponding to the execution data of the partition test requirement comprising the erroneously operated instance within a set test range; performing whole-area repair processing on the example tracking result of the failed operation through a preset whole-area repair network aiming at the example tracking result to obtain a test example corresponding to the whole-area test requirement execution data including the example of the failed operation within a set test range; performing big data test processing on a test case corresponding to the partition test requirement execution data in a set test range and a test case corresponding to the whole partition test requirement execution data in the set test range to obtain a test case corresponding to target test requirement execution data corresponding to a target case in the target test requirement execution data in the set test range; the target example comprises at least one of an error operation example and a failure operation example, and the test example corresponding to the target test requirement execution data in a set test range is used for performing big data test on the target big data test service. In a possible design of the first aspect, the performing error operation instance tracing and failed operation instance tracing on the multiple instance operation records in the target test requirement execution data respectively to obtain an error operation instance tracing result and a failed operation instance tracing result includes: respectively carrying out error operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain error operation instance tracking indexes in the instance operation records and initial test instance category labels corresponding to the error operation instance tracking indexes; determining an example tracking result of the error operation based on the error operation example tracking index and the corresponding initial test example category label in each example operation record; and respectively carrying out failed operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain a failed operation instance tracking result. In a possible design of the first aspect, the performing instance tracing on failed operations on a plurality of instance operation records in the target test requirement execution data to obtain an instance tracing result of failed operations includes: respectively analyzing expected output paths of a plurality of example operation records in the target test requirement execution data to obtain expected output path analysis results corresponding to the example operation records; respectively analyzing expected service conversion paths of a plurality of example operation records in the target test requirement execution data to obtain expected service conversion path analysis results corresponding to the example operation records; correlating the expected output path analysis result corresponding to the same instance element with the expected service conversion path analysis result; performing failed operation instance tracking processing on an expected service conversion path analysis result associated with a target expected output path analysis result in the target test requirement execution data to obtain a failed operation instance tracking result; wherein the target expected output path analysis result is an expected output path analysis result corresponding to the marked instance element. In a possible design of the first aspect, the performing, by using a preset partition repair network for an instance tracking result, partition repair processing on the instance tracking result that is operated in error to obtain a test instance corresponding to the execution data of the partition test requirement that includes the instance that is operated in error within a set test range includes: respectively carrying out instance type matching on each instance operation record in the instance tracking result of the error operation to obtain a unique test instance category label corresponding to each instance operation record; respectively performing instance tracking index repair processing based on analysis index repair records of the error operation instance tracking indexes corresponding to the corresponding unique test instance category labels in each instance operation record to obtain repaired error operation instance tracking results; continuously repairing the repaired error operation example tracking result to obtain a plurality of test examples corresponding to the execution data of the partition candidate test requirement comprising the error operation examples in a set test range; according to the error operation types corresponding to the test cases corresponding to the partition candidate test requirement execution data in the set test range, performing partition case repairing processing on the test cases corresponding to the partition candidate test requirement execution data belonging to the same error operation type in the set test range to obtain the test cases corresponding to the partition test requirement execution data including the error operation cases in the set test range; wherein, the performing instance type matching on each instance operation record in the instance tracking result of the erroneous operation respectively to obtain a unique test instance category label corresponding to each instance operation record respectively comprises: for each instance operation record in the instance tracking result of the error operation, when the number of types of the initial test instance type labels of the instance operation record is not less than two, obtaining instance linkage test index information of each initial test instance type label; when the initial test case type labels with the highest index strength corresponding to the example linkage test index information are one, taking the initial test case type labels with the highest index strength corresponding to the example linkage test index information as the unique test case type labels of the corresponding example running records; when the initial test example type labels with the highest index strength corresponding to the example linkage test index information are not less than two, acquiring the example tracking index change degree of the corresponding error operation example tracking index aiming at the initial test example type label with the highest index strength corresponding to each example linkage test index information; determining a unique test case type label corresponding to the corresponding case operation record according to the initial test case type label corresponding to the highest case tracking index change degree; the method for repairing the instance tracking indexes comprises the following steps of respectively performing instance tracking index repairing treatment on the basis of analysis index repairing records of the error operation instance tracking indexes corresponding to the corresponding unique test instance type labels in each instance operation record to obtain repaired error operation instance tracking results, wherein the method comprises the following steps: for each instance operation record, acquiring interface calling frequency information of an error operation instance tracking index corresponding to the corresponding unique test instance type label in each instance operation record; when the current interface calling times corresponding to the interface calling time information are within a preset interface calling time interval, maintaining a corresponding error operation instance tracking result, wherein the maintained error operation instance tracking result comprises an error operation instance tracking index and a unique test instance type label corresponding to the error operation instance tracking index; when the current interface calling times corresponding to the interface calling time information are not in the preset interface calling time interval, deleting the tracking result of the error operation example of the corresponding example operation record; and obtaining the repaired error operation instance tracking result based on the error operation instance tracking result corresponding to each instance operation record. In a possible design of the first aspect, the performing an uninterrupted repair process on the repaired instance tracking result of the faulty operation to obtain a plurality of test instances corresponding to the execution data of the candidate partition test requirement including the faulty operation instance within a set test range includes: continuously repairing the repaired example tracking result of the error operation to obtain a plurality of groups of self-adaptive test examples and non-self-adaptive test examples; determining a test case comparison result corresponding to the test requirement execution data between each group of self-adaptive test cases and non-self-adaptive test cases in a set test range; when the matching parameter corresponding to the test case comparison result corresponding to the test requirement execution data in the set test range is greater than or equal to the preset matching parameter, taking the test case corresponding to the test requirement execution data in the set test range, which is formed by the adaptive test case and the non-adaptive test case of the corresponding group, as the test case corresponding to the partition candidate test requirement execution data in the set test range; for the test case corresponding to each partition candidate test requirement execution data in the set test range, determining a target error operation type with the most statistical times according to the repaired unique test case category labels corresponding to the example operation records in the test case corresponding to the partition candidate test requirement execution data in the set test range; taking the target error operation type as an error operation type corresponding to an error operation example included in a test example corresponding to the execution data of the candidate test requirement of the corresponding partition in a set test range; the method for performing continuous repair on the repaired incorrectly-operated instance tracking result to obtain multiple groups of adaptive test instances and non-adaptive test instances comprises the following steps: taking the example running record corresponding to the first static cycle tracking result in the repaired error running example tracking result in the current repairing treatment as the self adaptive test example of the current group; traversing the instance running records behind the self-adaptive test instances of the current group; when the traversed current instance running record corresponds to a dynamic loop tracking result and the error running instance tracking results corresponding to the instance running record in the whole preset time length from the current instance running record are all dynamic loop tracking results, taking the current instance running record as the current group of non-adaptive test instances; taking the example running record corresponding to the first static cycle tracking result after the current group of non-adaptive test examples as the next self-adaptive test example of the current group for repairing, and returning to the step of traversing the example running record after the current group of self-adaptive test examples to continue executing until obtaining multiple groups of self-adaptive test examples and non-adaptive test examples; when the traversed current instance running record corresponds to a dynamic loop trace result and the error running instance trace results corresponding to the instance running records within the preset time duration of the whole area from the current instance running record are all dynamic loop trace results, before the current instance running record is used as the current group of non-adaptive test instances, the method further comprises: when the continuous testing cycle time of the testing example corresponding to the testing requirement execution data determined by the traversed current example running record and the self-adaptive testing example of the current group in the set testing range is less than a set testing cycle time threshold, determining whether the tracking result of the error running example corresponding to the current example running record is a dynamic cycle tracking result; when the current instance operation record corresponds to a static cycle tracking result, taking the current instance operation record as one instance operation record in the test instances corresponding to the test requirement execution data corresponding to the current group in a set test range; and when the dynamic loop trace result corresponding to the current instance operation record and the static loop trace result is included in the error operation instance trace result in the whole-area preset time length from the beginning of the current instance operation record, taking the instance operation record corresponding to the first static loop trace result in the whole-area preset time length from the beginning of the current instance operation record as a traversed next instance operation record, and returning to the step of determining whether the error operation instance trace result corresponding to the current instance operation record is the dynamic loop trace result when the continuous test cycle time of the test instance corresponding to the test requirement execution data determined by the traversed current instance operation record and the current group of adaptive test instances in the set test range is less than the set test cycle time threshold value. In a possible design of the first aspect, the taking, as the current group of adaptive test instances, an instance operation record corresponding to a first static loop trace result in the current repair process in the repaired instance trace result of the faulty operation includes: determining target test requirement execution data corresponding to a first static cycle tracking result in the repaired error operation instance tracking result in the current repairing treatment; when the tracking result of the wrong operation example corresponding to the next example operation record of the target test requirement execution data is the dynamic cycle tracking result, deleting the tracking result of the wrong operation example corresponding to the target test requirement execution data; and when the tracking result of the error operation example corresponding to the next example operation record of the target test requirement execution data is the static cycle tracking result, taking the target test requirement execution data as the current group of self-adaptive test examples. In a possible design solution of thefirst aspect, the performing, according to the error operation type corresponding to each test instance of the partition candidate test requirement execution data within the set test range, partition instance repairing processing is performed on the test instance corresponding to the partition candidate test requirement execution data belonging to the same error operation type within the set test range, so as to obtain the test instance corresponding to the partition test requirement execution data including the error operation instance within the set test range, where the method includes: determining error operation types respectively corresponding to the test cases corresponding to the execution data of the candidate partition test requirements in the set test range; when the test cases corresponding to the more than one partition candidate test requirement execution data in the set test range adjacent in time sequence all belong to the same error operation type, performing test case splicing on the test cases corresponding to the more than one partition candidate test requirement execution data in the set test range to obtain the test cases corresponding to the partition test requirement execution data corresponding to the same error operation type in the set test range. In a possible design of the first aspect, the performing, by using a preset whole area repair network for example trace results, whole area repair processing on the example trace results that fail to operate to obtain a test example corresponding to the whole area test requirement execution data including the example that fail to operate within a set test range includes: continuously repairing the tracking result of the failed running example to obtain a plurality of test examples corresponding to the execution data of the whole area candidate test requirement comprising the failed running example in a set test range; and according to the failure operation type corresponding to the test case corresponding to each whole area candidate test requirement execution data in the set test range, performing whole area example repair processing on the test case corresponding to the whole area candidate test requirement execution data belonging to the same failure operation type in the set test range to obtain the test case corresponding to the whole area test requirement execution data including the failure operation example in the set test range. In a second aspect, an embodiment of the present invention further provides a big data testing system, where the big data testing system includes a testing device and a big data testing server in communication with the testing device, and the system includes: the big data test server is used for: acquiring target test requirement execution data of a target big data test service to be subjected to big data test, and respectively performing error operation instance tracking and failure operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain an error operation instance tracking result and a failure operation instance tracking result; performing partition repair processing on the erroneously operated instance tracking result through a preset partition repair network aiming at the instance tracking result to obtain a test instance corresponding to the execution data of the partition test requirement comprising the erroneously operated instance within a set test range; performing whole-area repair processing on the example tracking result of the failed operation through a preset whole-area repair network aiming at the example tracking result to obtain a test example corresponding to the whole-area test requirement execution data including the example of the failed operation within a set test range; performing big data test processing on a test case corresponding to the partition test requirement execution data in a set test range and a test case corresponding to the whole partition test requirement execution data in the set test range to obtain a test case corresponding to target test requirement execution data corresponding to a target case in the target test requirement execution data in the set test range; the target example comprises at least one of an error operation example and a failure operation example, and the test example corresponding to the target test requirement execution data in a set test range is used for performing big data test on the target big data test service.

In a third aspect, an embodiment of the present invention further provides a big data testing server, where the big data testing server includes a processor, a machine-readable storage medium, and a network interface, where the machine-readable storage medium, the network interface, and the processor are connected through a bus system, the network interface is used for being communicatively connected with at least one testing device, the machine-readable storage medium is used for storing a program, an instruction, or a code, and the processor is used for executing the program, the instruction, or the code in the machine-readable storage medium to perform a big data testing method in the first aspect or any one of possible implementation manners in the first aspect. In a fourth aspect, an embodiment of the present invention provides a computer-readable storage medium, where instructions are stored, and when executed, cause a computer to perform the big data testing method in the first aspect or any one of the possible implementation manners of the first aspect. Based on any one of the above aspects, in the embodiment of the present invention, the example operation record in the target test requirement execution data of the target big data test service to be subjected to the big data test is subjected to example tracking, and the partition repair and the whole-area repair are performed to implement the big data test processing, so as to obtain the test example corresponding to the target test requirement execution data corresponding to the target example in the target test requirement execution data within the set test range. Because the test case corresponding to the target test requirement execution data in the set test range is determined by considering the influence of the partition test requirement execution data and the whole area test requirement execution data, the test case corresponding to the target test requirement execution data in the set test range can be determined quickly and accurately, and the expected test case does not need to be determined by consuming more time, so that the efficiency of testing the big data aiming at the target big data test service can be improved as much as possible, and the stagnation of the big data test process can be relieved in time. Drawings In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts. Fig. 1 is a schematic view of an application scenario of a big data testing system according to an embodiment of the present invention; FIG. 2 is a schematic flow chart of a big data testing method according to an embodiment of the present invention; FIG. 3 is a functional block diagram of a big data testing apparatus according to an embodiment of the present invention; fig. 4 is a schematic block diagram of a structure of a big data testing server for implementing the big data testing method according to an embodiment of the present invention. Detailed Description In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only examples or embodiments of the present description, and that for a person skilled in the art, the present description can also be applied to other similar scenarios on the basis of these drawings without inventive effort. Unless otherwise apparent from the context, or otherwise indicated, like reference numbers in the figures refer to the same structure or operation. Flow charts are used in this description to illustrate operations performed by a system according to embodiments of the present description. It should be understood that the preceding or following operations are not necessarily performed in the exact order in which they are performed. Rather, the various steps may be processed in reverse order or simultaneously. Meanwhile, other operations may be added to the processes, or a certain step or several steps of operations may be removed from the processes. FIG. 1 is an interactive schematic diagram of a big data test system 10 provided by an embodiment of the present invention. The big data test system 10 may include a big data test server 100 and a test apparatus 200 communicatively connected to the big data test server 100. The big data test system 10 shown in FIG. 1 is only one possible example, and in other possible embodiments, the big data test system 10 may include only a portion of the components shown in FIG. 1 or may include other components. In this embodiment, the big data testing server 100 and the testing device 200 in the big data testing system 10 may perform the big data testing method described in the following method embodiment in a matching manner, and the detailed description of the method embodiment may be referred to for the specific steps performed by the big data testing server 100 and the testing device 200. To solve the technical problem in the foregoing background art, fig. 2 is a schematic flow chart of a big data testing method according to an embodiment of the present invention, which can be executed by the big data testing server 100 shown in fig. 1, and the big data testing method is described in detail below. Step S110, acquiring target test requirement execution data of a target big data test service to be subjected to big data test, and respectively performing error operation instance tracking and failure operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain an error operation instance tracking result and a failure operation instance tracking result. For example, the target big data test service may be a service for which a test requirement exists after big data analysis or feedback of a manager, such as a big data test service corresponding to a frequent user use scenario or a large user access amount. The test requirement execution data may be understood as execution record data obtained after a big data acquisition stability test is performed based on a preset test requirement, and may include instance data (such as an order service instance) of a service object or a service object set and a corresponding time sequence, where the test requirement execution data is used for analyzing a test abnormal condition. The instance run record can be used to describe the record situation during the instance run. Further, the tracking of the error operation instance and the tracking of the failure operation instance can be performed through error codes existing in the operation process of the instance or operation data of an error prompt or a failure prompt. In practical application, the faulty operation and the failed operation may be performed simultaneously, where the faulty operation instance trace refers to a faulty operation test node where the faulty operation does not occur, and the faulty operation test node where the faulty operation occurs may be classified as a faulty operation instance trace. And step S120, performing partition repair processing on the example tracking result which is operated in error through a preset partition repair network aiming at the example tracking result to obtain a test example corresponding to the partition test requirement execution data comprising the example which is operated in error in a set test range. For example, the partition repair network may be a deep learning model, and the set test range may be set in advance according to the user access amount in the service scenario of the target big data test service, for example, if the user access amount is large, the set test range may be set to be relatively small, and if the user access amount is small, the set test range may be set to be relatively large, which is not limited herein. Further, the partition test requirement execution data may be test requirement execution data corresponding to a part of the service area in the target big data test service, for example, there are 20 service areas in the target big data test service, and then the partition test requirement execution data may be 2 or 4 service areas in the target big data test service, which is not limited herein. Step S130, the whole area repairing processing is carried out on the example tracking result of the failed operation through a preset whole area repairing network aiming at the example tracking result, and a test example corresponding to the whole area test requirement execution data including the example of the failed operation in a set test range is obtained. For example, the whole-area repair network may also be a deep learning model, further, the partitioned repair network and the whole-area repair network may adopt different training sets during training, or may perform different model parameter adjustments during later-stage model use to differentiate between the partitioned repair network and the whole-area repair network. Further, the test requirement execution data of the whole area may be the test requirement execution data corresponding to all the service areas in the target big data test service. Step S140, performing big data test processing on the test case corresponding to the partition test requirement execution data in the set test range and the test case corresponding to the whole partition test requirement execution data in the set test range to obtain a test case corresponding to the target test requirement execution data corresponding to the target case in the target test requirement execution data in the set test range; the target example comprises at least one of an error operation example and a failure operation example, and the test example corresponding to the target test requirement execution data in a set test range is used for performing big data test on the target big data test service. For example, the big data testing process may be a whole area adjustment process for test cases of different business objects, for example, prediction of test cases of different business objects may be implemented by combining different algorithms, so as to implement test case testing for as many business objects as possible in the target big data testing business. Furthermore, the big data server can generate test case test instructions corresponding to different service objects according to the test case corresponding to the target test requirement execution data in the set test range, and sends the test case test instructions to the test terminal corresponding to the service object, so that the service object in the target big data test service can perform test case adjustment according to the corresponding test case test instructions, it can be understood that the test case corresponding to the target test requirement execution data in the set test range can be understood as a case after the test is completed, that is, the big data server can realize the feedback test of the test cases of different service objects according to the expected test case analyzed in advance, because the test case corresponding to the target test requirement execution data in the set test range is determined by considering the influence of the partition test requirement execution data and the whole area test requirement execution data, therefore, the test case corresponding to the target test requirement execution data in the set test range can be quickly and accurately determined, and the expected test case does not need to be determined by consuming more time, so that the big data test efficiency aiming at the target big data test service can be improved as much as possible, and the stagnation of the big data test process can be relieved in time. In the following, some alternative embodiments will be described, which should be understood as examples and not as technical features essential for implementing the present solution. Under some possible design solutions, the performing of the faulty operation instance tracking and the failed operation instance tracking on the multiple instance operation records in the target test requirement execution data described in step SI10 respectively to obtain a faulty operation instance tracking result and a failed operation instance tracking result, which may include the contents described in steps SI101 to S1103 below. Step SI101, performing error operation instance tracking on the multiple instance operation records in the target test requirement execution data, to obtain an error operation instance tracking index in each instance operation record and an initial test instance category label corresponding to each error operation instance tracking index. For example, the error run instance tracking index may be performed by an error code during the instance run, and the initial test instance class label may include an instance type that is adjusted for changes in the business test object. Step S1102, determining an example tracking result of the erroneous operation based on the error operation example tracking index and the corresponding initial test example category label in each example operation record. Step S1103, performing fail operation instance tracking on the multiple instance operation records in the target test requirement execution data, respectively, to obtain a fail operation instance tracking result. It can be understood that by implementing the above steps SI101-S1103, different tracking indexes of the incorrectly-operated instance and the corresponding initial test instance type labels thereof can be considered when determining the incorrectly-operated instance tracking result, so as to ensure that the incorrectly-operated instance tracking result can take the real-time situation into account, thereby ensuring the integrity and accuracy of the instance tracking result. Under some possible design solutions, the step S1103 performs fail-run instance tracing on the multiple instance run records in the target test requirement execution data, respectively, to obtain a fail-run instance tracing result, which further may include the contents described in the following steps S11031 to S11034. Step S11031, performing expected output path analysis on the multiple instance operation records in the target test requirement execution data, respectively, to obtain expected output path analysis results corresponding to the instance operation records, respectively. Step S11032, performing expected service conversion path analysis on the multiple instance operation records in the target test requirement execution data, respectively, to obtain an expected service conversion path analysis result corresponding to each instance operation record, respectively. Step S11033, associate the expected output path analysis result corresponding to the same instance element with the expected service conversion path analysis result. Step S11034, carrying out fail operation instance tracking processing on an expected service conversion path analysis result associated with a target expected output path analysis result in the target test requirement execution data to obtain a fail operation instance tracking result; wherein the target expected output path analysis result is an expected output path analysis result corresponding to the marked instance element.

Therefore, when the contents described in the steps S11031 to S11034 are applied, the expected output path analysis result and the expected service conversion path analysis result can be subjected to correlation analysis, so that the obtained instance tracking result of the failed operation is ensured to be matched with the actual service object test state, and thus the instance tracking of the failed operation can be realized from the whole area level. For some possible embodiments, the performing, by the preset partition repair network for the instance tracking result, the partition repair processing on the instance tracking result of the faulty operation described in step S120 to obtain the test instance corresponding to the execution data of the partition test requirement including the faulty operation instance within the set test range may include the following contents described in step S1201-step S1204. Step S1201, performing instance type matching on each instance operation record in the erroneously operated instance tracking result, to obtain a unique test instance category label corresponding to each instance operation record. Step S1202, based on the analysis index repair records of the error operation instance tracking indexes corresponding to the corresponding unique test instance type labels in each instance operation record, respectively performing instance tracking index repair processing to obtain repaired error operation instance tracking results. Step S1203, performing an uninterrupted repair process on the repaired erroneously operated instance tracking result to obtain a plurality of test instances corresponding to the candidate partition test requirement execution data including the erroneously operated instance within a set test range. Step S1204, according to the error operation type corresponding to each test case corresponding to each partition candidate test requirement execution data in the set test range, performing partition case repair processing on the test case corresponding to the partition candidate test requirement execution data belonging to the same error operation type in the set test range, to obtain the test case corresponding to the partition test requirement execution data including the error operation case in the set test range. By adopting the design, based on the steps S1201 to S1204, the error operation type can be considered, so that the partition instance repairing process is performed on the test instance corresponding to the partition candidate test requirement execution data belonging to the same error operation type within the set test range, thereby eliminating the influence of the partition test requirement execution data on the execution data of the whole partition test requirement as much as possible, and facilitating the subsequent determination of the test instance corresponding to the target test requirement execution data within the set test range more quickly. Further, in step S1201, performing instance type matching on each instance operation record in the instance tracking result of the faulty operation, respectively, to obtain a unique test instance category label corresponding to each instance operation record, which may include the following steps S12011 to S12013. Step S12011, for each instance running record in the instance tracking result of the erroneous running, when the number of types of the initial test instance type labels of the instance running record is not less than two, obtaining the instance linkage test index information of each initial test instance type label. For example, example linkage test indicator information may be used to characterize the reason for the occurrence of a test linkage. Step S12012, when the initial test case type labels with the highest index strength corresponding to the example linkage test index information are one, the initial test case type labels with the highest index strength corresponding to the example linkage test index information are used as the only test case type labels of the corresponding example running records. For example, the index strength is used for representing the test linkage degree, and the higher the index strength is, the more complex the test queue is. Step S12013, when the initial test case type labels with the highest index strength corresponding to the example linkage test index information are not less than two, acquiring the example tracking index change degree of the corresponding error operation example tracking index aiming at the initial test case type label with the highest index strength corresponding to each example linkage test index information; and determining the unique test case type label corresponding to the corresponding case operation record according to the initial test case type label corresponding to the highest case tracking index change degree. For example, the change degree of the instance tracking index is used for representing the real-time change condition of the error operation instance tracking index, and it can be understood that the test condition is changed in real time, and the one-to-one corresponding relation between the corresponding instance operation record and the test instance category label can be accurately and reliably determined by considering the change degree of the instance tracking index. It can be understood that when the contents described in steps S12011 to S12013 are applied, the test condition that changes in real time can be taken into account when the instance type matching is performed, so that the one-to-one correspondence relationship between the corresponding instance running record and the test instance category label can be accurately and reliably determined. In another embodiment, the analysis index repair records based on the error operation instance tracking index corresponding to the corresponding unique test instance class label in each instance operation record described in step S1202 respectively perform instance tracking index repair processing to obtain repaired error operation instance tracking results, which may include the contents described in steps S12021-S12024 below. Step S12021, for each instance operation record, obtaining interface call frequency information of the error operation instance tracking index corresponding to the corresponding unique test instance category label in each instance operation record. For example, the interface call frequency information may be used to characterize the usage heat of the tracking index of the faulty running instance, and a higher interface call frequency indicates that the corresponding tracking index of the faulty running instance is used more frequently. Step S12022, when the current interface call frequency corresponding to the interface call frequency information is within a preset interface call frequency interval, maintaining a corresponding tracking result of the faulty running instance, where the maintained tracking result of the faulty running instance includes a tracking index of the faulty running instance and a unique test instance type tag corresponding to the tracking index of the faulty running instance. For example, the preset interface calling frequency interval may be adaptively adjusted according to actual situations, which will not be further described herein. Step S12023, when the current interface call frequency corresponding to the interface call frequency information is not within the preset interface call frequency interval, deleting the tracking result of the faulty running instance of the corresponding instance running record. Step S12024, obtaining the repaired instance tracking result of the faulty operation based on the respective faulty operation instance tracking result of each instance operation record. It can be understood that, by executing the steps S12021 to S12024, the interface call frequency information of the tracking index of the incorrectly-operated instance can be analyzed when the repaired incorrectly-operated instance tracking result is determined, so that the historical use condition of the tracking index of the incorrectly-operated instance is taken into account, and thus the repaired incorrectly-operated instance tracking result can be ensured to be matched with the mainstream analysis result as much as possible, and a reliable decision basis is provided for the subsequent big data test. Under some possible design solutions, the step S1203 performs uninterrupted repair processing on the repaired instance tracking result of the faulty operation to obtain a plurality of test instances corresponding to the candidate partition test requirement execution data including the faulty operation instance within the set test range, and may include the following steps S12031 to S12035. Step S12031, performing uninterrupted repair processing on the repaired example tracking result of the faulty operation to obtain multiple sets of adaptive test examples and non-adaptive test examples. Step S12032, determining a test case comparison result corresponding to the test requirement execution data between each group of adaptive test cases and non-adaptive test cases within the set test range. Step S12033, when the matching parameter corresponding to the test case comparison result corresponding to the test requirement execution data in the set test range is greater than or equal to the preset matching parameter, taking the test case corresponding to the test requirement execution data in the set test range, which is composed of the adaptive test case and the non adaptive test case, as the test case corresponding to the partition candidate test requirement execution data in the set test range. For example, the preset matching parameters may be adjusted according to actual situations, and are not limited herein. Step S12034, for the test case corresponding to each test requirement execution data candidate in the set test range, determining the target faulty operation type with the largest number of statistics according to the repaired unique test case category label corresponding to each case operation record in the test case corresponding to the test requirement execution data candidate in the set test range. Step S12035, regarding the target faulty operation type as a faulty operation type corresponding to a faulty operation instance included in a test instance corresponding to the candidate test requirement execution data of the corresponding partition within the set test range. Therefore, when the repaired example tracking result of the error operation is subjected to uninterrupted repair processing, the adaptive test example and the non-adaptive test example can be analyzed in a distinguishing manner, so that the adaptive test example and the non-adaptive test example are prevented from being mixed up in the repair processing of the example tracking result. In some possible designs, the tracking result of the incorrectly-executed instance in the tracking result of the incorrectly-executed instance includes a dynamic loop tracking result and a static loop tracking result, based on which the step S12031 performs uninterrupted repair processing on the repaired incorrectly-executed instance tracking result to obtain multiple sets of adaptive test instances and non-adaptive test instances, which may include the following steps S120311 to S120314. Step S120311, taking the instance operation record corresponding to the first static loop tracking result in the current repair process in the repaired instance tracking result of the faulty operation as the current set of adaptive test instances. Step S120312, traverse the instance running record after the adaptive test instance of the current group.

Step S120313, when the traversed current instance operation record corresponds to the dynamic loop trace result and all the error operation instance trace results corresponding to the instance operation records within the preset time duration of the whole area from the current instance operation record are dynamic loop trace results, taking the current instance operation record as the current group of non-adaptive test instances. Step S120314, using the instance running record corresponding to the first static loop tracking result after the non-adaptive test instance of the current group as the adaptive test instance of the current group for the next repairing process, and returning to the step of traversing the instance running record after the adaptive test instance of the current group to continue executing until obtaining multiple groups of adaptive test instances and non-adaptive test instances. Thus, when the steps S120311 to S120314 are applied to distinguish the adaptive test case from the non-adaptive test case, the dynamic loop trace result and the static loop trace result can be considered comprehensively, so as to ensure the accurate distinction between the adaptive test case and the non-adaptive test case as much as possible and avoid the intersection and confusion between the adaptive test case and the non-adaptive test case. For an optional embodiment, before the step 2313, when the traversed current instance operation record corresponds to the dynamic loop trace result and the trace results of the error operation instances corresponding to the instance operation records within the preset time duration of the whole area from the current instance operation record are all dynamic loop trace results, and the current instance operation record is used as the current group of non-adaptive test instances, the method may further include the following technical solutions described in the steps a to c. Step a, when the continuous testing cycle time of the testing example corresponding to the testing requirement execution data determined by the traversed current example operation record and the self-adaptive testing example of the current group in the set testing range is smaller than a set testing cycle time threshold, determining whether the tracking result of the error operation example corresponding to the current example operation record is the dynamic cycle tracking result. And b, when the current instance operation record corresponds to a static cycle tracking result, taking the current instance operation record as one instance operation record in the test instance corresponding to the test requirement execution data corresponding to the current group in a set test range. Step c, when the current instance running record corresponds to the dynamic loop tracking result and the error running instance tracking result in the whole area preset time length from the current instance running record comprises the static loop tracking result, taking the example running record corresponding to the first static loop tracking result in the whole area preset time length from the current example running record as the next example running record of traversal, and returning to the step when the continuous test cycle time of the test case corresponding to the test requirement execution data determined by the traversed current case operation record and the current group of adaptive test cases in the set test range is less than the set test cycle time threshold, and determining whether the tracking result of the error operation example corresponding to the current example operation record is the dynamic loop tracking result or not. In some possible designs, in the step S120311, taking, as the current set of adaptive test instances, an instance operation record corresponding to the first static loop trace result in the current repair process in the instance trace result of the repaired faulty operation, may include: determining target test requirement execution data corresponding to a first static cycle tracking result in the repaired error operation instance tracking result in the current repairing treatment; when the tracking result of the wrong operation example corresponding to the next example operation record of the target test requirement execution data is the dynamic cycle tracking result, deleting the tracking result of the wrong operation example corresponding to the target test requirement execution data; and when the tracking result of the error operation example corresponding to the next example operation record of the target test requirement execution data is the static cycle tracking result, taking the target test requirement execution data as the current group of self adaptive test examples. In some possible design solutions, the step S1204, according to the error operation types respectively corresponding to the test cases corresponding to the partition candidate test requirement execution data in the set test range, performs partition case repairing processing on the test cases corresponding to the partition candidate test requirement execution data belonging to the same error operation type in the set test range, to obtain the test cases corresponding to the partition test requirement execution data including the error operation cases in the set test range, and may include the following steps S12041 and S12042. Step S12041, determining error operation types respectively corresponding to the test cases corresponding to the candidate test requirement execution data of each partition within the set test range. Step S12042, when the test cases corresponding to the more than one partition candidate test requirement execution data in the set test range, which are adjacent in time sequence, all belong to the same error operation type, performing test case splicing on the test cases corresponding to the more than one partition candidate test requirement execution data in the set test range, so as to obtain the test cases corresponding to the partition test requirement execution data corresponding to the same error operation type in the set test range. By the design, when the partition instance is repaired, the instances are spliced according to the time sequence, so that the mutual influence between the execution data of different partition test requirements can be improved as much as possible, and an accurate decision basis is provided for the subsequent whole-area big data test. In some possible design solutions, the whole area repairing process is performed on the example tracking result of the failed operation through a preset whole area repairing network for the example tracking result described in step S130, so as to obtain a test example corresponding to the whole area test requirement execution data including the example of the failed operation within the set test range, which may include the contents described in step S1301 and step S1302 below. Step S1301, performing uninterrupted repair processing on the tracking result of the failed running instance to obtain a plurality of test instances corresponding to the execution data of the whole area candidate test requirement including the failed running instance within a set test range. Step S1302, according to the failure operation type corresponding to the test case corresponding to each of the whole area candidate test requirement execution data in the set test range, performing whole area case repairing processing on the test case corresponding to the whole area candidate test requirement execution data belonging to the same failure operation type in the set test range, so as to obtain the test case corresponding to the whole area test requirement execution data including the failure operation case in the set test range. It can be understood that, through the above steps S1301 and S1302, the failed operation type can be taken into account, so as to take into account the test authorization influence between the whole area candidate test requirement execution data, which can ensure that the test authorization influence is eliminated as much as possible when the whole area example repair processing is performed, thereby ensuring that the test examples corresponding to the whole area test requirement execution data including the failed operation examples in the set test range are not influenced by the authorization of the partition test requirement execution data as much as possible. Under some possible design solutions, the performing of the big data test processing based on the test case corresponding to the partition test requirement execution data in the set test range and the test case corresponding to the whole partition test requirement execution data in the set test range, which is described in step S140, to obtain the test case corresponding to the target test requirement execution data corresponding to the target example in the target test requirement execution data in the set test range, may include the following contents described in steps S1401 to S1403. Step S1401, when the test case corresponding to the whole area test requirement execution data in the set test range is completely within the test case corresponding to the partition test requirement execution data in the set test range, or the test case corresponding to the partition test requirement execution data in the set test range is completely within the test case corresponding to the whole area test requirement execution data in the set test range, repairing the test case corresponding to the whole area test requirement execution data in the set test range and maintaining the test case corresponding to the partition test requirement execution data in the set test range, to obtain the test case corresponding to the target test requirement execution data corresponding to the faulty operation case in the set test range. Step S1402, when the subsequent instance operation records in the test instance corresponding to the partition test requirement execution data in the set test range intersect with the previous instance operation records in the test instance corresponding to the entire area test requirement execution data in the set test range, maintaining the test instance corresponding to the partition test requirement execution data in the set test range as the test instance corresponding to the target test requirement execution data corresponding to the faulty operation instance in the set test range, and using the non-adaptive test instance in the test instance corresponding to the partition test requirement execution data in the set test range as the adaptive test instance of the test instance corresponding to the entire area test requirement execution data in the set test range to obtain the repaired test instance corresponding to the entire area test requirement execution data in the set test range, and taking the test case corresponding to the repaired whole-area test requirement execution data in the set test range as the test case corresponding to the target test requirement execution data corresponding to the failed operation case in the set test range. Step S1403, when the subsequent instance operation records in the test instance corresponding to the whole area test requirement execution data in the set test range intersect with the previous instance operation records in the test instance corresponding to the partition test requirement execution data in the set test range, maintaining the test instance corresponding to the partition test requirement execution data in the set test range as the test instance corresponding to the target test requirement execution data corresponding to the faulty operation instance in the set test range, and taking the adaptive test instance in the test instance corresponding to the partition test requirement execution data in the set test range as the non-adaptive test instance of the test instance corresponding to the whole area test requirement execution data in the set test range to obtain the repaired test instance corresponding to the whole area test requirement execution data in the set test range, and taking the test case corresponding to the repaired whole-area test requirement execution data in the set test range as the test case corresponding to the target test requirement execution data corresponding to the failed operation case in the set test range. It can be understood that, by implementing the contents described in the above steps S1401 to S1403, the inclusion relationship between the whole area test requirement execution data and the form examples corresponding to the partition test requirement execution data can be taken into consideration, and the test examples corresponding to the target test requirement execution data within the set test range are determined by combining the adaptive test examples and the non adaptive test examples, so that when the test examples (desired test examples) corresponding to the target test requirement execution data within the set test range are determined, the mutual test authorization influence between the whole area test requirement execution data and the partition test requirement execution data can be weakened as much as possible, thereby reducing the time consumption for determining the desired test examples, which can improve the big data test efficiency for the target big data test service, so that the big data server can quickly generate and issue the indication information related to the test policy based on the desired test examples, thereby rapidly improving the stagnation of the target big data test service. Fig. 3 is a schematic diagram of functional modules of a big data testing apparatus 300 according to an embodiment of the present invention, and in this embodiment, the big data testing apparatus 300 may be divided into the functional modules according to the method embodiment executed by the big data testing server 100, that is, the following functional modules corresponding to the big data testing apparatus 300 may be used to execute the method embodiments executed by the big data testing server 100. The functions of the functional blocks of the big data testing apparatus 300 will be described in detail below. The obtaining module 310 is configured to obtain target test requirement execution data of a target big data test service to be subjected to a big data test, and perform error operation instance tracking and failure operation instance tracking on a plurality of instance operation records in the target test requirement execution data, to obtain an error operation instance tracking result and a failure operation instance tracking result. And the repairing module 320 is configured to perform partition repairing processing on the example tracking result of the erroneous operation through a preset partition repairing network for the example tracking result, so as to obtain a test example corresponding to the partition test requirement execution data including the erroneous operation example within the set test range. The repairing module 330 is configured to perform a whole-area repairing process on the example tracking result of the failed operation through a preset whole-area repairing network for the example tracking result, so as to obtain a test example corresponding to the whole-area test requirement execution data including the example of the failed operation within the set test range. The test module 340 is configured to perform big data test processing on the test case corresponding to the partition test requirement execution data in the set test range and the test case corresponding to the whole partition test requirement execution data in the set test range, so as to obtain a test case corresponding to the target test requirement execution data corresponding to the target case in the target test requirement execution data in the set test range. The target example comprises at least one of an error operation example and a failure operation example, and the test example corresponding to the target test requirement execution data in the set test range is used for carrying out big data test on the target big data test service. It should be noted that the division of the modules of the above apparatus is only a logical division, and the actual implementation may be wholly or partially integrated into one physical entity, or may be physically separated. And these modules can be realized in the form of software called by processing element; or may be implemented entirely in hardware; and part of the modules can be realized in the form of calling software by the processing element, and part of the modules can be realized in the form of hardware. For example, the obtaining module 310 may be a processing element separately set up, or may be implemented by being integrated into a chip of the apparatus, or may be stored in a memory of the apparatus in the form of program code, and the processing element of the apparatus calls and executes the functions of the obtaining module 310. Other modules are implemented similarly. In addition, all or part of the modules can be integrated together or can be independently realized. The processing element described herein may be an integrated circuit having signal processing capabilities. In implementation, each step of the above method or each module above may be implemented by an integrated logic circuit of hardware in a processor element or an instruction in the form of software. For example, the above modules may be one or more integrated circuits configured to implement the above methods, such as: one or more Application Specific Integrated Circuits (ASICs), or one or more microprocessors (DSPs), or one or more Field Programmable Gate Arrays (FPGAs), among others. For another example, when some of the above modules are implemented in the form of processing element protection program code, the processing element may be a general purpose processor, such as a Central Processing Unit (CPU) or other processor that can call the program code. As another example, these modules may be integrated together, implemented in the form of a system-on-a-chip (SOC). Fig. 4 is a schematic diagram illustrating a hardware structure of a big data testing server 100 for implementing the big data testing method, according to an embodiment of the present invention, and as shown in fig. 4, the big data testing server 100 may include a processor 110, a machine readable storage medium 120, a bus 130, and a transceiver 140. In a specific implementation process, at least one processor110 executes computer-executable instructions stored in the machine-readable storage medium 120 (for example, the obtaining module 310, the clustering module 320, the configuring module 330, and the pushing module 340 included in the big data testing apparatus 300 shown in fig. 3), so that the processor 110 may execute the big data testing method according to the above method embodiment, where the processor 110, the machine-readable storage medium 120, and the transceiver 140 are connected through the bus 130, and the processor 110 may be configured to control the transceiving action of the transceiver 140, so as to perform data transceiving with the testing device 200. For a specific implementation process of the processor 110, reference may be made to the above mentioned method embodiments executed by the big data test server 100, and implementation principles and technical effects thereof are similar, and details of this embodiment are not described herein again. In the embodiment shown in fig. 4, it should be understood that the Processor may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor, or in a combination of the hardware and software modules within the processor. The machine-readable storage medium 120 may comprise high-speed RAM memory and may also include non-volatile storage NVM, such as at least one disk memory.

The bus 130 may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. The bus 130 may be divided into an address bus, a data bus, a control bus, and the like. For ease of illustration, the buses in the figures of the present invention are not limited to only one bus or one type of bus. In addition, the embodiment of the present invention further provides a readable storage medium, where the readable storage medium stores computer execution instructions, and when a processor executes the computer execution instructions, the big data testing method is implemented. Finally, it should be understood that the embodiments described herein are merely illustrative of the principles of the embodiments of the present disclosure. Other variations are also possible within the scope of the present description. Thus, by way of example, and not limitation, alternative configurations of the embodiments of the specification can be considered consistent with the teachings of the specification. Accordingly, the embodiments of the present description are not limited to only those embodiments explicitly described and depicted herein.

EDITORIAL NOTE 2021103087

There are 7 pages of claims only.

1. A big data testing method is applied to a big data testing server communicated with testing equipment, and the method comprises the following steps: acquiring target test requirement execution data of a target big data test service to be subjected to big data test, and respectively performing error operation instance tracking and failure operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain an error operation instance tracking result and a failure operation instance tracking result; performing partition repair processing on the erroneously operated instance tracking result through a preset partition repair network aiming at the instance tracking result to obtain a test instance corresponding to the execution data of the partition test requirement comprising the erroneously operated instance within a set test range; performing whole-area repair processing on the example tracking result of the failed operation through a preset whole-area repair network aiming at the example tracking result to obtain a test example corresponding to the whole-area test requirement execution data including the example of the failed operation within a set test range; performing big data test processing on a test case corresponding to the partition test requirement execution data in a set test range and a test case corresponding to the whole partition test requirement execution data in the set test range to obtain a test case corresponding to target test requirement execution data corresponding to a target case in the target test requirement execution data in the set test range; the target example comprises at least one of an error operation example and a failure operation example, and the test example corresponding to the target test requirement execution data in a set test range is used for performing big data test on the target big data test service. 2. The big data testing method according to claim 1, wherein the performing of the faulty operation instance trace and the failed operation instance trace on the plurality of instance operation records in the target testing requirement execution data to obtain the faulty operation instance trace result and the failed operation instance trace result respectively comprises: respectively carrying out error operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain error operation instance tracking indexes in the instance operation records and initial test instance category labels corresponding to the error operation instance tracking indexes; determining an example tracking result of the error operation based on the error operation example tracking index and the corresponding initial test example category label in each example operation record; and respectively carrying out failed operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain a failed operation instance tracking result. 3. The big data testing method according to claim 2, wherein the performing of fail run instance tracking on the multiple instance run records in the target test requirement execution data to obtain a fail run instance tracking result comprises: respectively analyzing expected output paths of a plurality of example operation records in the target test requirement execution data to obtain expected output path analysis results corresponding to the example operation records; respectively analyzing expected service conversion paths of a plurality of example operation records in the target test requirement execution data to obtain expected service conversion path analysis results corresponding to the example operation records; correlating the expected output path analysis result corresponding to the same instance element with the expected service conversion path analysis result; performing failed operation instance tracking processing on an expected service conversion path analysis result associated with a target expected output path analysis result in the target test requirement execution data to obtain a failed operation instance tracking result; wherein the target expected output path analysis result is an expected output path analysis result corresponding to the marked instance element. 4. The big data testing method according to any one of claims I to 3, wherein the performing partition repair processing on the example trace result of the faulty operation through a preset partition repair network for the example trace result to obtain a test example corresponding to the partition test requirement execution data including the faulty operation example within a set test range includes: respectively carrying out instance type matching on each instance operation record in the instance tracking result of the error operation to obtain a unique test instance category label corresponding to each instance operation record; respectively performing instance tracking index repair processing based on analysis index repair records of the error operation instance tracking indexes corresponding to the corresponding unique test instance category labels in each instance operation record to obtain repaired error operation instance tracking results; continuously repairing the repaired error operation example tracking result to obtain a plurality of test examples corresponding to the execution data of the partition candidate test requirement comprising the error operation examples in a set test range; according to the error operation types corresponding to the test cases corresponding to the partition candidate test requirement execution data in the set test range, performing partition case repairing processing on the test cases corresponding to the partition candidate test requirement execution data belonging to the same error operation type in the set test range to obtain the test cases corresponding to the partition test requirement execution data including the error operation casesin the set testrange; wherein, the performing instance type matching on each instance operation record in the instance tracking result of the erroneous operation respectively to obtain a unique test instance category label corresponding to each instance operation record respectively comprises: for each instance operation record in the instance tracking result of the error operation, when the number of types of the initial test instance type labels of the instance operation record is not less than two, obtaining instance linkage test index information of each initial test instance type label; when the initial test case type labels with the highest index strength corresponding to the example linkage test index information are one, taking the initial test case type labels with the highest index strength corresponding to the example linkage test index information as the unique test case type labels of the corresponding example running records; when the initial test example type labels with the highest index strength corresponding to the example linkage test index information are not less than two, acquiring the example tracking index change degree of the corresponding error operation example tracking index aiming at the initial test example type label with the highest index strength corresponding to each example linkage test index information; determining a unique test case type label corresponding to the corresponding case operation record according to the initial test case type label corresponding to the highest case tracking index change degree;

Claims (1)

1. the method for repairing the instance tracking indexes comprises the following steps of respectively performing instance tracking index repairing treatment on the basis of analysis index repairing records of the error operation instance tracking indexes corresponding to the corresponding unique test instance type labels in each instance operation record to obtain repaired error operation instance tracking results, wherein the method comprises the following steps: for each instance operation record, acquiring interface calling frequency information of an error operation instance tracking index corresponding to the corresponding unique test instance type label in each instance operation record; when the current interface calling times corresponding to the interface calling time information are within a preset interface calling time interval, maintaining a corresponding error operation instance tracking result, wherein the maintained error operation instance tracking result comprises an error operation instance tracking index and a unique test instance type label corresponding to the error operation instance tracking index; when the current interface calling times corresponding to the interface calling time information are not in the preset interface calling time interval, deleting the tracking result of the error operation example of the corresponding example operation record; and obtaining the repaired error operation instance tracking result based on the error operation instance tracking result corresponding to each instance operation record. 5. The big data testing method according to claim 4, wherein the step of performing uninterrupted repair processing on the repaired incorrectly-operated instance tracking result to obtain a plurality of test instances corresponding to the execution data of the candidate partition test requirement including the incorrectly-operated instance within a set test range comprises: continuously repairing the repaired example tracking result of the error operation to obtain a plurality of groups of self-adaptive test examples and non-self-adaptive test examples; determining a test case comparison result corresponding to the test requirement execution data between each group of self-adaptive test cases and non-self-adaptive test cases in a set test range; when the matching parameter corresponding to the test case comparison result corresponding to the test requirement execution data in the set test range is greater than or equal to the preset matching parameter, taking the test case corresponding to the test requirement execution data in the set test range, which is formed by the adaptive test case and the non-adaptive test case of the corresponding group, as the test case corresponding to the partition candidate test requirement execution data in the set test range; for the test case corresponding to each partition candidate test requirement execution data in the set test range, determining a target error operation type with the most statistical times according to the repaired unique test case category labels corresponding to the example operation records in the test case corresponding to the partition candidate test requirement execution data in the set test range; taking the target error operation type as an error operation type corresponding to an error operation example included in a test example corresponding to the execution data of the candidate test requirement of the corresponding partition in a set test range; the method for performing continuous repair on the repaired incorrectly-operated instance tracking result to obtain multiple groups of adaptive test instances and non-adaptive test instances comprises the following steps: taking the example running record corresponding to the first static cycle tracking result in the repaired error running example tracking result in the current repairing treatment as the self adaptive test example of the current group; traversing the instance running records behind the self-adaptive test instances of the current group; when the traversed current instance running record corresponds to a dynamic loop tracking result and the error running instance tracking results corresponding to the instance running record in the whole preset time length from the current instance running record are all dynamic loop tracking results, taking the current instance running record as the current group of non-adaptive test instances; taking the example running record corresponding to the first static cycle tracking result after the current group of non-adaptive test examples as the next self-adaptive test example of the current group for repairing, and returning to the step of traversing the example running record after the current group of self-adaptive test examples to continue executing until obtaining multiple groups of self-adaptive test examples and non-adaptive test examples; when the traversed current instance running record corresponds to a dynamic loop trace result and the error running instance trace results corresponding to the instance running records within the preset time duration of the whole area from the current instance running record are all dynamic loop trace results, before the current instance running record is used as the current group of non-adaptive test instances, the method further comprises: when the continuous testing cycle time of the testing example corresponding to the testing requirement execution data determined by the traversed current example running record and the self-adaptive testing example of the current group in the set testing range is less than a set testing cycle time threshold, determining whether the tracking result of the error running example corresponding to the current example running record is a dynamic cycle tracking result; when the current instance operation record corresponds to a static cycle tracking result, taking the current instance operation record as one instance operation record in the test instances corresponding to the test requirement execution data corresponding to the current group in a set test range; and when the dynamic loop trace result corresponding to the current instance operation record and the static loop trace result is included in the error operation instance trace result in the whole-area preset time length from the beginning of the current instance operation record, taking the instance operation record corresponding to the first static loop trace result in the whole-area preset time length from the beginning of the current instance operation record as a traversed next instance operation record, and returning to the step of determining whether the error operation instance trace result corresponding to the current instance operation record is the dynamic loop trace result when the continuous test cycle time of the test instance corresponding to the test requirement execution data determined by the traversed current instance operation record and the current group of adaptive test instances in the set test range is less than the set test cycle time threshold value. 6. The big data testing method according to claim 5, wherein the step of using, as the current group of adaptive test instances, an instance operation record corresponding to a first static loop trace result in the current repair process among the repaired incorrectly-operated instance trace results comprises: determining target test requirement execution data corresponding to a first static cycle tracking result in the repaired error operation instance tracking result in the current repairing treatment; when the tracking result of the wrong operation example corresponding to the next example operation record of the target test requirement execution data is the dynamic cycle tracking result, deleting the tracking result of the wrong operation example corresponding to the target test requirement execution data; and when the tracking result of the error operation example corresponding to the next example operation record of the target test requirement execution data is the static cycle tracking result, taking the target test requirement execution data as the current group of self-adaptive test examples. 7. The big data testing method according to claim 4, wherein the performing data corresponding to the test cases in the set test range according to the candidate test requirements of each partition respectively corresponds to the faulty run type, and performing partition case repairing processing on the test cases corresponding to the candidate test requirement of the partition belonging to the same faulty run type in the set test range to obtain the test cases corresponding to the test requirement of the partition including the faulty run case in the set test range, comprises: determining error operation types respectively corresponding to the test cases corresponding to the execution data of the candidate partition test requirements in the set test range; when the test cases corresponding to the more than one partition candidate test requirement execution data in the set test range adjacent in time sequence all belong to the same error operation type, performing test case splicing on the test cases corresponding to the more than one partition candidate test requirement execution data in the set test range to obtain the test cases corresponding to the partition test requirement execution data corresponding to the same error operation type in the set test range. 8. The big data testing method according to any one of claims I to 7, wherein the performing the whole area repair processing on the example tracing result of the failed operation through a preset whole area repair network for the example tracing result to obtain a test example corresponding to the whole area test requirement execution data including the example of the failed operation within a set test range includes: continuously repairing the tracking result of the failed running example to obtain a plurality of test examples corresponding to the execution data of the whole area candidate test requirement comprising the failed running example in a set test range; and according to the failure operation type corresponding to the test case corresponding to each whole area candidate test requirement execution data in the set test range, performing whole area example repair processing on the test case corresponding to the whole area candidate test requirement execution data belonging to the same failure operation type in the set test range to obtain the test case corresponding to the whole area test requirement execution data including the failure operation example in the set test range. 9. A big data test system is characterized in that the big data test system comprises test equipment and a big data test server communicated with the test equipment; the big data test service is to: acquiring target test requirement execution data of a target big data test service to be subjected to big data test, and respectively performing error operation instance tracking and failure operation instance tracking on a plurality of instance operation records in the target test requirement execution data to obtain an error operation instance tracking result and a failure operation instance tracking result; performing partition repair processing on the erroneously operated instance tracking result through a preset partition repair network aiming at the instance tracking result to obtain a test instance corresponding to the execution data of the partition test requirement comprising the erroneously operated instance within a set test range; performing whole-area repair processing on the example tracking result of the failed operation through a preset whole-area repair network aiming at the example tracking result to obtain a test example corresponding to the whole-area test requirement execution data including the example of the failed operation within a set test range; performing big data test processing on a test case corresponding to the partition test requirement execution data in a set test range and a test case corresponding to the whole partition test requirement execution data in the set test range to obtain a test case corresponding to target test requirement execution data corresponding to a target case in the target test requirement execution data in the set test range; the target example comprises at least one of an error operation example and a failure operation example, and the test example corresponding to the target test requirement execution data in a set test range is used for performing big data test on the target big data test service. 10. The big data testing system according to claim 9, wherein the performing partition repair processing on the example trace result of the faulty operation through a preset partition repair network for the example trace result to obtain a test example corresponding to the execution data of the partition test requirement including the example of the faulty operation within a set test range includes: respectively carrying out instance type matching on each instance operation record in the instance tracking result of the error operation to obtain a unique test instance category label corresponding to each instance operation record; respectively performing instance tracking index repair processing based on analysis index repair records of the error operation instance tracking indexes corresponding to the corresponding unique test instance category labels in each instance operation record to obtain repaired error operation instance tracking results; continuously repairing the repaired error operation example tracking result to obtain a plurality of test examples corresponding to the execution data of the partition candidate test requirement comprising the error operation examples in a set test range; according to the error operation types corresponding to the test cases corresponding to the partition candidate test requirement execution data in the set test range, performing partition case repairing processing on the test cases corresponding to the partition candidate test requirement execution data belonging to the same error operation type in the set test range to obtain the test cases corresponding to the partition test requirement execution data including the error operation casesin the set testrange; wherein, the performing instance type matching on each instance operation record in the instance tracking result of the erroneous operation respectively to obtain a unique test instance category label corresponding to each instance operation record respectively comprises: for each instance operation record in the instance tracking result of the error operation, when the number of types of the initial test instance type labels of the instance operation record is not less than two, obtaining instance linkage test index information of each initial test instance type label; when the initial test case type labels with the highest index strength corresponding to the example linkage test index information are one, taking the initial test case type labels with the highest index strength corresponding to the example linkage test index information as the unique test case type labels of the corresponding example running records; when the initial test example type labels with the highest index strength corresponding to the example linkage test index information are not less than two, acquiring the example tracking index change degree of the corresponding error operation example tracking index aiming at the initial test example type label with the highest index strength corresponding to each example linkage test index information; determining a unique test case type label corresponding to the corresponding case operation record according to the initial test case type label corresponding to the highest case tracking index change degree; the method for repairing the instance tracking indexes comprises the following steps of respectively performing instance tracking index repairing treatment on the basis of analysis index repairing records of the error operation instance tracking indexes corresponding to the corresponding unique test instance type labels in each instance operation record to obtain repaired error operation instance tracking results, wherein the method comprises the following steps: for each instance operation record, acquiring interface calling frequency information of an error operation instance tracking index corresponding to the corresponding unique test instance type label in each instance operation record; when the current interface calling times corresponding to the interface calling time information are within a preset interface calling time interval, maintaining a corresponding error operation instance tracking result, wherein the maintained error operation instance tracking result comprises an error operation instance tracking index and a unique test instance type label corresponding to the error operation instance tracking index; when the current interface calling times corresponding to the interface calling time information are not in the preset interface calling time interval, deleting the tracking result of the error operation example of the corresponding example operation record; and obtaining the repaired error operation instance tracking result based on the error operation instance tracking result corresponding to each instance operation record.

   Test Test Equipment Equipment

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   Fig.3 04 Jun 2021 2021103087

   Processor transceiver

   Machine-readable storage medium

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