CN113872831B - Network test visualization system and method - Google Patents

Abstract

The invention provides a network test visualization system and a network test visualization method, which solve the technical problems that test data in the existing test engineering is lack of readability and visual evaluation cannot be formed on the test process. The system comprises: the service distribution response device is used for receiving the test data in the test service in real time and establishing a test item cache sequence for determining the test service; the service process sensing device is used for identifying the test time sequence characteristics and the test description dimensions of the stage test results of the determined test services to form process description data of the test items; the visual process modeling device is used for forming a visual interactive object for visually expressing the process description data, controlling the visual interactive object to be distributed as required according to human-computer interaction and forming a visual display process of the test service. The testing processes of the whole testing service and the independent testing project are visually displayed, and monitoring and ordered scheduling are implemented, so that information standardization, automation and visualization of the full life cycle monitoring of the mass testing project are realized.

Description

Network test visualization system and method

Technical Field

The invention relates to the technical field of data interaction, in particular to a network test visualization system and a network test visualization method.

Background

In the existing network test technology, test engineering can be automatically carried out according to a test script, and test intermediate data and test result data need to be read by professional testers. The service quality of testers is poor, the testing process is lack of technical guarantee and monitoring, the illegal testing behaviors of the testers are difficult to control and trace, and the loss evaluation caused by the illegal testing is difficult to avoid. Meanwhile, the readability of the test information is poor, the control of operators and customers on the project is greatly reduced, and the reliable promotion of the project is seriously influenced.

Disclosure of Invention

In view of the above problems, embodiments of the present invention provide a network test visualization system and method, which solve the technical problems that test data in the existing test engineering lacks readability and cannot form intuitive evaluation on a test process.

The network test visualization system of the embodiment of the invention comprises:

the service distribution response device is used for receiving the test data in the test service in real time and establishing a test item cache sequence for determining the test service;

the service process sensing device is used for identifying the test time sequence characteristics and the test description dimensions of the stage test results of the determined test services to form process description data of the test items;

the visual process modeling device is used for forming a visual interactive object for visually expressing the process description data, controlling the visual interactive object to be distributed as required according to human-computer interaction and forming a visual display process of the test service.

In an embodiment of the present invention, the service allocation responding apparatus includes:

the data filtering and collecting module is used for filtering the test data, determining a tester, a test project and a test service to which the test data belongs, acquiring test authority according to the tester, acquiring test progress according to the test project and acquiring a human resource allocation limit according to the test service;

and the buffer sequence forming module is used for establishing a test item queue for determining the test service according to the time sequence and establishing the data mapping between the test data of the determined test item and the tester in the test item queue.

In an embodiment of the present invention, the business process sensing apparatus includes:

the data dimension division module is used for forming the quantitative data of the test data of all participants in the service, carrying out the dimension extraction on the test data according to the test items, and forming the quantitative data of the test behavior dimension of each participant;

the dimension data mapping module is used for performing relevance mapping on the same-dimension test data between the same test items and different test items in the test service to form quantitative data of the time sequence of the continuous test behaviors;

and determining process description data of the test items in the test service according to the quantitative data.

In an embodiment of the present invention, the visual process modeling apparatus includes:

the data receiving and mapping module is used for forming a mapping interface for receiving the process description data by the visual interactive object and mapping the process description data with the visual interactive object and the defined data display type;

the data heterogeneous synchronization module is used for receiving customized or prefabricated synchronous control data and forming synchronous display of the same test data or related test data among different visual interactive objects according to the synchronous control data;

and the display man-machine interaction module is used for forming control object identification on the visual interaction object and forming visual interaction object control or test service control according to the type of the control object.

In an embodiment of the present invention, the method further includes:

and the interactive feedback forwarding device is used for converting interactive control into control data of a test service or a test object in the visual display process and adaptively forwarding the control data.

In an embodiment of the present invention, the interactive feedback forwarding apparatus includes:

the one-key recovery module is used for recovering the authority or resource of recognizable test services, test items or test personnel in visual display in the network test visualization system by one key according to the human-computer interaction instruction;

and the one-key isolation module is used for operating and isolating the recognizable test object in the visual display in the network test visual system according to the human-computer interaction instruction.

The network test visualization of the embodiment of the invention comprises the following steps:

receiving test data in the test service in real time, and establishing a test item cache sequence for determining the test service;

identifying test time sequence characteristics and test description dimensions of a stage test result of the determined test service to form process description data of the test project;

and forming a visual interactive object for visually expressing the process description data, and controlling the visual interactive object to be laid out as required according to the man-machine interaction to form a visual display process of the test service.

In an embodiment of the present invention, the method further includes:

and in the visual display process, the interactive control is converted into the control data of the test service or the test object and is adapted and forwarded.

The network test visualization system of the embodiment of the invention comprises:

the memory is used for storing the corresponding program codes in the processing process of the network test visualization method;

a processor for executing the program code.

The network test visualization system and the network test visualization method provided by the embodiment of the invention can be used for visualizing the network mass test service process. The test parameters, situation effects, test results, chart analysis and real-time ranking conditions of the overall test service and the independent test items are visually displayed, monitoring and ordered scheduling are implemented, and a visual monitoring technical means in the field of public testing is innovatively formed. Therefore, information standardization, automation and visualization of the full life cycle monitoring of the mass measurement project are realized.

Drawings

Fig. 1 is a schematic structural diagram of a network test visualization system according to an embodiment of the present invention.

Fig. 2 is a schematic flow chart of a network test visualization method according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a specific visual interface of a test service formed by applying the network test visualization method and system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and more obvious, the present invention is further described below with reference to the accompanying drawings and the detailed description. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 shows a network test visualization system according to an embodiment of the present invention. In fig. 1, the present embodiment includes:

the service allocation responding device 100 is configured to receive test data in the test service in real time and establish a test item cache sequence for determining the test service.

As will be understood by those skilled in the art, the test service scheme adopted in the concurrent network test service for a specific service, a system architecture, a network hardware facility and a software configuration environment involved in an application necessarily includes test resources such as test policies, test tools and testers corresponding to test items. Test behaviors and polymorphic coupling forms among test data exist among test links of each test item, and randomness and fragmentation exist in test intermediate results. The test integrity of the business test link is ensured by forming the cache sequence of the test items, and the test business log formed by the cache sequence is beneficial to the log analysis and adjustment of future test schemes and effects.

The service process sensing device 200 is configured to identify a test time sequence feature and a test description dimension of a stage test result of a certain test service, and form process description data of a test item.

As can be understood by those skilled in the art, the dynamic test process formed by the test items has the characteristics of target consistency and time sequence discreteness. And identifying the time sequence data in the stage test result to determine a test time node, and identifying the dimension data in the stage test result to determine quantitative nodes and contents corresponding to the test service scheme, such as a test step node, a test content node, a test effect node, a test statistic node and the like. The test description dimensions include but are not limited to coupling dimension characterization between main description dimensions such as testers, vulnerability types, attack behaviors, attack strategies, attack duration, influence ranges and the like.

The visual process modeling device 300 is used for forming a visual interactive object for visually expressing the process description data, controlling the visual interactive object to be distributed as required according to human-computer interaction, and forming a visual display process of the test service.

Visual interactive objects include, but are not limited to, single or combined graphics processing controls of a stereoscopic model, a table, a graphic, and the like. The visual interactive object forms a formatted data interface of the input process description data, forms a preset or customized visual layout according to the test business process, and forms a visual display of the data of the test business process according to the requirement.

As shown in fig. 1, in an embodiment of the present invention, the method further includes:

and the interactive feedback forwarding device 400 is used for converting the interactive control into the control data of the test service or the test object in the visualization display process and adapting and forwarding the control data.

As will be appreciated by those skilled in the art, there is decision-making behavior in the visualization presentation. The decision data formed by the interaction control aiming at the visual interaction object in the visual display environment acts on the object to be decided, so that the control effect of the test service and the network security of the test object can be effectively improved.

The network test visualization system provided by the embodiment of the invention can be used for visualizing the network public test service process. The test parameters, situation effects, test results, chart analysis and real-time ranking conditions of the overall test service and the independent test items are visually displayed, monitoring and ordered scheduling are implemented, and a visual monitoring technical means in the field of public testing is innovatively formed. Therefore, information standardization, automation and visualization of the full life cycle monitoring of the mass measurement project are realized.

As shown in fig. 1, in an embodiment of the present invention, a service allocation responding apparatus 100 includes:

the data filtering and collecting module 110 is configured to filter the test data, determine a tester, a test project and a test service to which the test data belongs, obtain a test right according to the tester, obtain a test progress according to the test project, and obtain a human resource allocation limit according to the test service.

And the acquired data elements correspond to the management side of the public testing platform for corresponding service resources.

The buffer sequence forming module 120 is configured to establish a test item queue for determining the test service according to the time sequence, and establish a data mapping between the test data for determining the test item and the tester in the test item queue.

The buffer sequence is updated along with the test process, and log data in an additional division form of the test data is formed.

The network test visualization system of the embodiment of the invention carries out ordered processing on the discreteness and the relevance of the test data of the mass test platform by forming the cache sequence, and forms the mapping connection between manpower, progress and business outside the platform background management, so that the test resources form an information standardization basis.

As shown in fig. 1, in an embodiment of the present invention, a business process aware apparatus 200 includes:

the data dimension division module 210 is configured to form quantized data of general dimensions such as the test data performance type, frequency, hit rate, and the like of all participants in the service, and perform dimension extraction on the test data according to test items to form quantized data of the test behavior dimension of each participant.

The dimension data mapping module 220 is configured to perform relevance mapping on the same-dimension test data between the same test item and different test items in the test service to form quantitative data of the time sequence of the continuous test behavior;

and determining process description data of the test items in the test service according to the quantitative data.

The general dimension, the testing behavior dimension and the continuous testing behavior dimension jointly form testing entity information and testing behavior information in the process description data of the test project.

The network test visualization system of the embodiment of the invention determines the quantization nodes of the participants in the test business in the test behavior and the test process through the dimension quantization of the test data, and forms the data basis of the time sequence progress measurement among the testers and the test projects in the test business. Thereby enabling the allocation and optimization of test resources (people, property, things, etc.) to have a data basis.

As shown in FIG. 1, in one embodiment of the present invention, a visual process modeling apparatus 300 includes:

and the data receiving and mapping module 310 is configured to form a mapping interface for the visualization interaction object to receive the process description data, and map the process description data with the visualization interaction object and the defined data display type.

The mapping interface enables the visual interactive object to automatically receive the test data and automatically maintain a continuous presentation of the test data.

And the data heterogeneous synchronization module 320 is configured to receive customized or prefabricated synchronization control data, and form on-demand synchronization display of the same test data or related test data among different visual interactive objects according to the synchronization control data.

And synchronously displaying the homologous test data or the non-homologous associated data on different visual interactive objects in an independent mode.

And the display man-machine interaction module 330 is used for forming control object identification on the visual interaction object and forming visual interaction object control or test service control according to the type of the control object.

Control object types include, but are not limited to, a test data dimension type, a visual interaction object attribute type, a test item type, and a test business object type.

The network test visualization system of the embodiment of the invention utilizes the mapping module and the synchronization module to establish the visual and ordered display of the test data. And displaying linkage and data synchronization of the test data in the displaying process are formed. Control feedback in the visual monitoring process is formed through man-machine interaction to directly judge and operate the test service, so that the monitoring and scheduling flexibility of the mass testing platform is improved, and the requirement on monitoring skills is effectively reduced.

As shown in fig. 1, in an embodiment of the present invention, an interaction feedback forwarding apparatus 400 includes:

and the one-key recovery module 410 is used for recovering the authority or resource of the recognizable test service, test item or test personnel in the visual display in the network test visualization system by one key according to the human-computer interaction instruction.

And the one-key isolation module 420 is used for operating and isolating the recognizable test objects in the visual display in the network test visualization system according to the human-computer interaction instruction.

The network test visualization system of the embodiment of the invention provides a monitoring quick response means to form risk isolation and resource optimization in the test process.

Fig. 2 shows a network test visualization method according to an embodiment of the present invention. In fig. 2, the present embodiment includes:

step 10, receiving test data in the test service in real time, and establishing a test item cache sequence for determining the test service;

step 20, identifying the test time sequence characteristics and the test description dimensions of the stage test results of the determined test services to form process description data of the test items;

and step 30, forming a visual interactive object for visually expressing the process description data, and controlling the visual interactive object to be distributed as required according to the man-machine interaction to form a visual display process of the test service.

As shown in fig. 2, in an embodiment of the present invention, the method further includes:

and 40, converting the interactive control into control data of the test service or the test object in the visual display process, and adaptively forwarding the control data.

As shown in fig. 2, in an embodiment of the present invention, step 10 includes:

step 11: filtering the test data, determining a tester, a test project and a test service to which the test data belongs, acquiring test authority according to the tester, acquiring test progress according to the test project, and acquiring a human resource allocation limit according to the test service;

step 12: and establishing a test item queue for determining the test service according to the time sequence, and establishing a data mapping between the test data for determining the test item and the tester in the test item queue.

As shown in fig. 2, in an embodiment of the present invention, step 20 includes:

step 21: the method comprises the steps of forming test data of all participants in a service, carrying out dimension extraction on the test data according to test items, and forming dimension quantitative data of test behaviors of each participant, wherein the test data comprises general dimensions such as types, frequencies, hit rates and the like;

step 22: performing relevance mapping on same-dimension test data between the same test item and different test items in the test service to form quantitative data of the time sequence of continuous test behaviors;

and determining process description data of the test items in the test service according to the quantitative data.

As shown in fig. 2, in an embodiment of the present invention, step 30 includes:

step 31: forming a mapping interface for receiving process description data by a visual interactive object, and mapping the process description data, the visual interactive object and the defined data display type;

step 32: receiving customized or prefabricated synchronous control data, and forming synchronous display of the same test data or related test data among different visual interactive objects according to the synchronous control data;

step 33: and forming control object identification on the visual interactive object, and forming visual interactive object control or test service control according to the type of the control object.

As shown in fig. 2, in an embodiment of the present invention, step 40 includes:

step 41: and withdrawing the authority or resource of the recognizable test service, test item and tester in the visual display in the network test visualization system by one key according to the human-computer interaction instruction.

Step 42: and carrying out operation isolation on recognizable test objects in visual display in the network test visualization system according to the human-computer interaction instruction.

The network test visualization system implemented by the invention comprises:

the memory is used for storing corresponding program codes in the processing process of the network test visualization method of the embodiment;

and the processor is used for executing corresponding program codes in the processing process of the network test visualization method of the embodiment.

The processor may adopt a dsp (digital Signal processor), an FPGA (Field-Programmable Gate Array), an mcu (microcontroller unit) system board, an soc (system on a chip) system board, or a plc (Programmable Logic controller) minimum system including I/O, and a computing resource and a storage resource formed based on public cloud resources.

In practical application, a visual layout for visual testing monitoring formed by using the network testing visualization system and method of the above embodiment is shown in fig. 3, according to the number of vulnerabilities submitted by a white hat and the auditing result in the process of developing the test items, visual interactive objects included in the visual layout include:

the real-time dynamic effect map 501 is characterized in that a large ball in the middle represents an attacker, small icons on the periphery represent targets, and when the attacker (white hat) submits a leak, the large ball starts to attack and bombs the animation effect of the corresponding small icons in real time;

the warfare report broadcasting header 502 is used for broadcasting the action information of the vulnerability submitted by the white hat in real time, if xxx submits a serious vulnerability to the target unit A;

real-time ranking form 503: taking the total number of the scores of the audited effective vulnerabilities as a ranking basis (score setting: effective severity > effective high-risk > effective medium-risk > effective low-risk, specific score is based on project setting, and scores of unverified vulnerabilities and ignored vulnerabilities are not counted), updating a ranking list while the vulnerabilities are audited, and displaying ranking, a white cap nickname, a total score and the number of effective vulnerabilities;

attack total statistics table 504: updating real-time data according to the total number of the acquired bugs of the project;

effective vulnerability statistics form 505: when the auditor audits and grades the acquired loopholes in the project, updating effective loophole data in real time;

real-time attack data scroll form 506: when the white hat submits the vulnerability to the platform, the module displays vulnerability information submitted by the white hat in real time, wherein the vulnerability information comprises submission time, a white hat nickname, a target unit, a vulnerability title, vulnerability grades and the like, and the vulnerability information is displayed in a rolling mode;

vulnerability class and vulnerability type chart 507: the platform carries out level and type proportion statistics on the received effective loopholes, visually displays the test results of the project, and timely adjusts the operation strategy (for example, the number of the XXS type loopholes is low, the submission of the type loopholes needs to be induced);

an attack total number condition display form 508, which is used for ranking and displaying according to the number of the vulnerabilities received by the target system;

the effective vulnerability condition display form 509 performs ranking display according to the effective vulnerability number received by the target system.

In practical application, the people's testing platform utilizes the monitoring visual layout to display the situation according to the dimension of the test item, so that the whole process of safety testing of a tester can be clearly and visually known.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. A network test visualization system, comprising:

the service distribution response device is used for receiving the test data in the test service in real time and establishing a test item cache sequence for determining the test service; the cache sequence is updated along with the test process to form additional log data in a division form of the test data; the service distribution response device comprises:

the data filtering and collecting module is used for filtering the test data, determining a tester, a test project and a test service to which the test data belongs, acquiring test authority according to the tester, acquiring test progress according to the test project and acquiring a human resource allocation limit according to the test service;

the buffer memory sequence forming module is used for establishing a test item queue for determining the test service according to the time sequence and establishing the data mapping between the test data of the determined test item and the tester in the test item queue;

the service process sensing device is used for identifying the test time sequence characteristics and the test description dimensions of the stage test results of the determined test services to form process description data of the test items so as to determine test time nodes, test step nodes, test content nodes, test effect nodes and test statistic nodes; the business process perceiving device comprises:

the data dimension dividing module is used for forming the test data of all participants in the service into universal dimension quantitative data comprising types, frequencies and hit rates, and meanwhile, performing dimension extraction on the test data according to test items to form quantitative data of test behavior dimensions of each participant;

the dimension data mapping module is used for performing relevance mapping on the same-dimension test data between the same test items and different test items in the test service to form quantitative data of the time sequence of the continuous test behaviors; determining process description data of a test item in the test service according to the quantitative data; the general dimension, the testing behavior dimension and the continuous testing behavior dimension in the process description data jointly form testing entity information and testing behavior information; the visual process modeling device is used for forming a visual interactive object for visually expressing the process description data, controlling the visual interactive object to be distributed as required according to human-computer interaction and forming a visual display process of the test service.

2. The network test visualization system of claim 1 wherein the visual process modeling means comprises:

the data receiving and mapping module is used for forming a mapping interface for receiving the process description data by the visual interactive object and mapping the process description data with the defined data display type in the visual interactive object;

the data heterogeneous synchronization module is used for receiving customized or prefabricated synchronous control data and forming synchronous display of the same test data or related test data among different visual interactive objects according to the synchronous control data;

and the display man-machine interaction module is used for forming control object identification on the visual interaction object and forming visual interaction object control or test service control according to the type of the control object.

3. The network test visualization system of claim 1 further comprising:

and the interactive feedback forwarding device is used for converting interactive control into control data of a test service or a test object in the visual display process and adaptively forwarding the control data.

4. The network test visualization system of claim 3 wherein the interactive feedback forwarding means comprises:

the one-key recovery module is used for recovering the authority or resource of the recognizable test service, test item or tester in the visual display in the network test visualization system by one key according to the human-computer interaction instruction;

and the one-key isolation module is used for operating and isolating the recognizable test object in the visual display in the network test visualization system according to the human-computer interaction instruction.

5. A network test visualization method is characterized by comprising the following steps:

receiving test data in the test service in real time, and establishing a test item cache sequence for determining the test service; the cache sequence is updated along with the test process to form log data of an additional division form of the test data; the method comprises the following steps:

filtering the test data, determining a tester, a test project and a test service to which the test data belongs, acquiring test authority according to the tester, acquiring test progress according to the test project, and acquiring a human resource allocation limit according to the test service;

establishing a test item queue for determining test services according to the time sequence, and establishing data mapping between test data of the determined test items and test personnel in the test item queue;

identifying the test time sequence characteristics and the test description dimensions of the stage test results of the determined test services to form process description data of the test items so as to determine test time nodes, test step nodes, test content nodes, test effect nodes and test statistic nodes; the method comprises the following steps:

forming test data of all participants in the business into universal dimensional quantitative data comprising types, frequencies and hit rates, and simultaneously performing dimensional extraction on the test data according to test items to form dimensional quantitative data of test behaviors of each participant;

performing relevance mapping on same-dimension test data between the same test item and different test items in the test service to form quantitative data of the time sequence of continuous test behaviors; determining process description data of a test item in the test service according to the quantitative data;

the general dimension, the testing behavior dimension and the continuous testing behavior dimension in the process description data jointly form testing entity information and testing behavior information;

and forming a visual interactive object for visually expressing the process description data, and controlling the visual interactive object to be laid out as required according to the man-machine interaction to form a visual display process of the test service.

6. The network test visualization method of claim 5, further comprising:

and in the visual display process, the interactive control is converted into the control data of the test service or the test object and is adaptively forwarded.

7. A network test visualization system, comprising:

a memory for storing corresponding program code during processing of the network test visualization method as claimed in any one of claims 5 to 6;

a processor for executing the program code.

Images