CN113609006A - Interface automatic test platform capable of high multiplexing - Google Patents

Abstract

The invention relates to an interface automatic test platform capable of high multiplexing, which comprises a service unit, wherein the service unit is connected with and manages an interface management unit and a case management unit; the interface management unit comprises an interface storage module, an interface processing module and an interface debugging module, wherein the interface processing module is used for adding and/or deleting and/or modifying and/or inquiring an interface; the use case management unit is used for storing and executing use cases, and is set to configure an interface associated with the use cases through the service unit; the interface processing module is set to complete parameter addition by synchronizing general parameters and/or service parameters in the internal interface platform when an interface is newly added. The use case test is completed by rapidly synchronizing parameters from the internal interface platform to the interface, so that the working efficiency is improved; the problem of among the prior art manual adding parameter inefficiency to parameter is likely to appear and is lacked to fill out, fill out by mistake, influences the test result is solved.

Description

Interface automatic test platform capable of high multiplexing

Technical Field

The invention relates to the technical field of interface testing, in particular to an interface automatic testing platform capable of realizing high multiplexing.

Background

At present, the complexity of a software system is continuously increased, and the quality and the progress of a project are difficult to ensure only by a single-side function test, so the status of an interface test in the test industry is getting more and more important. There are many interface testing tools available on the market, for example, common jmeter, postman and soap ui can perform interface testing locally on a user, and most of these tools configure an environment by locally installing an app, and then manually fill in interface parameter information to be tested to perform testing work. When the team cooperates, the effect of sharing the interface script information is achieved by generating the interface script and transmitting the file.

The interface testing tools of the jmeter, postman and the soap UI in the prior art mainly have the following technical problems:

1) downloading to the local and configuring the local environment are needed, so that the labor and time cost is high, and once a machine has hardware problems, environmental problems or damaged tool files, the situation that the whole test tool cannot be used is likely to happen;

2) the system is used in a local environment, so that the collaboration is very poor, only after a script is edited by one user, the script is sent to another user to be debugged and used in the local environment, the whole process is complicated, and in many cases, the environment of the users on two sides is different, the tool version is different, and the damage during script transmission affects the whole collaboration process, so that the working efficiency is reduced;

3) the test tools are all in an initialized state after being downloaded, so when a new project is started, interface information needs to be added again, the time for manually and manually adding parameters one by one is long, the conditions of parameter missing filling and filling errors are likely to occur along with the increase of the parameters, and certain energy and time are consumed when problems are solved.

Therefore, it is desirable to provide an interface automation test platform which does not need to configure a local environment and has strong collaboration capability and improved work efficiency to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problem, the invention provides an interface automatic test platform capable of high multiplexing. The problem of among the prior art manual adding parameter inefficiency to parameter is likely to appear and is lacked to fill out, fill out by mistake, influences the test result is solved.

The technical effects of the invention are realized as follows:

a high-multiplexing interface automatic test platform comprises a service unit, wherein the service unit is connected with and manages an interface management unit and a case management unit;

the interface management unit comprises an interface storage module, an interface processing module and an interface debugging module, wherein the interface storage module is used for storing interface information, the interface processing module is used for adding and/or deleting and/or modifying and/or inquiring an interface, and the interface debugging module is used for debugging the added interface;

the use case management unit is used for storing and executing use cases, and is set to configure an interface associated with the use cases through the service unit. Each interface script and interface case are grouped according to the dimension of the service line through the interface automatic test platform, so that centralized classification management is achieved, and the whole management of the interface scripts is more systematic. Through the mode of the integrated instrument of the automatic test platform of interface, the customization realizes user's demand to make the user that satisfies can solve a plurality of problems simultaneously, solved among the prior art and need realize the diversified work demand of user through downloading a plurality of instruments, reduce work efficiency's problem.

Further, the interface processing module is configured to complete parameter addition by synchronizing general parameters and/or service parameters in the internal interface platform when an interface is newly added. By means of the customization project data synchronization mode, the internal interface platform can quickly synchronize general parameters and service parameters, manual addition of the general parameters is avoided, working errors caused by the fact that the parameters are added one by one are reduced, time and labor cost are saved, and working efficiency is improved.

Further, the use case management unit is provided with a use case operation page, the use case operation page is used for adding a test step, the test step corresponds to the interface one by one, and the use case operation page is set to be synchronous to the test step through the interface so as to finish use case test.

The test case operation page is connected with the test case operation page, the test report generation unit is used for generating an execution report, and the test report is used for storing the operation result corresponding to the test step. By uniformly storing the operation results corresponding to the test steps, the test steps are recorded clearly, and the problems can be reproduced at any time, so that the problems can be checked more conveniently.

The test case management unit is connected with the interface management unit, the case management unit and the test report generation unit respectively.

The interface automation test platform is set to enter through the Web multi-terminal cooperation page. The interface testing tool is used in a webpage platform mode, and the problems that in the prior art, the interface testing tool needs to be downloaded locally to configure a local environment, the labor and time cost are high, and the whole testing tool cannot be used due to hardware problems, environmental problems or damage to tool files of a machine are solved.

Furthermore, the Web multi-end collaboration page also comprises a user login module, and the user login module is used for logging in the Web multi-end collaboration page through an account to perform data testing. The method has the advantages that mutual cooperation is not needed in a mode of generating entity script files, and a mode of logging in through the webpage platform is adopted, so that all users can directly perform testing work on the platform, scripts edited by other users can be directly used, repeated information does not need to be added again, and the work cooperation efficiency is improved.

The system further comprises a public parameter pool, wherein the public parameter pool is connected with the interface management unit and is used for storing general parameters configured to the interface management unit.

Further, the interface debugging module is configured to complete debugging of the newly added interface by identifying the request information of the newly added interface.

Further, the request information at least comprises a request header, request parameters, a request assertion and a return result parameter extraction.

As described above, the present invention has the following advantageous effects:

1) by means of the customization project data synchronization mode, the internal interface platform can quickly synchronize general parameters and service parameters, manual addition of the general parameters is avoided, working errors caused by the fact that the parameters are added one by one are reduced, time and labor cost are saved, and working efficiency is improved.

2) Each interface script and interface case are grouped according to the dimension of the service line through the interface automatic test platform, so that centralized classification management is achieved, and the whole management of the interface scripts is more systematic.

3) Through the mode of the integrated instrument of the automatic test platform of interface, the customization realizes user's demand to make the user that satisfies can solve a plurality of problems simultaneously, solved among the prior art and need realize the diversified work demand of user through downloading a plurality of instruments, reduce work efficiency's problem.

4) The method needs to perform mutual cooperation by generating the entity script file, but performs logging in through a webpage platform, so that all users can directly perform testing work on the platform, and can directly use scripts edited by other users, repeated information does not need to be added again, and the work cooperation efficiency is improved.

5) The interface testing tool is used in a webpage platform mode, and the problems that in the prior art, the interface testing tool needs to be downloaded locally to configure a local environment, the labor and time cost are high, and the whole testing tool cannot be used due to hardware problems, environmental problems or damage to tool files of a machine are solved.

6) By uniformly storing the operation results corresponding to the test steps, the test steps are recorded clearly, and the problems can be reproduced at any time, so that the problems can be checked more conveniently.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings used in the description of the embodiment or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art it is also possible to derive other drawings from these drawings without inventive effort.

Fig. 1 is a block diagram of a high-multiplexing interface automation test platform according to an embodiment of the present disclosure.

Wherein the reference numerals in the figures correspond to:

the system comprises a service unit 1, an interface management unit 2, an interface storage module 21, an interface processing unit 22, an interface debugging module 23, a use case management unit 3, a use case operation page 31, a test report generation unit 4, a data monitoring unit 5, a Web multi-terminal cooperation page 6, a user login module 61, a public parameter pool 7, an environment pool 8 and an internal interface platform 9.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Example 1:

as shown in fig. 1, an embodiment of the present specification provides a highly reusable interface automation test platform, where the platform includes:

the system comprises a service unit 1, wherein the service unit 1 is connected with and manages an interface management unit 2 and a use case management unit 3; the interface management unit 2 includes an interface storage module 21, an interface processing module 22, and an interface debugging module 23, where the interface storage module 21 is configured to store interface information, and the interface information includes an interface name, an interface description, an interface packet, a request protocol, an interface basic path, and the like. The interface processing module 22 is used for adding and/or deleting and/or modifying and/or inquiring an interface, and the interface debugging module 23 is used for debugging the added interface; the use case management unit 3 is used for storing and executing use cases, and the use case management unit 3 is configured to configure interfaces associated with the use cases through the service unit 1.

Specifically, the service unit 1 is respectively connected with the interface management unit 2 and the use case management unit 3, so that the service unit 1 can group and configure the interfaces and the use cases of the service lines.

In this embodiment, the interface processing module 22 is configured to complete parameter addition by synchronizing the general parameters and/or the service parameters in the internal interface platform 9 when an interface is newly added.

Specifically, the interface processing module 22 synchronizes general parameters and/or service parameters in the internal interface platform 9 to the newly added interface in a one-key synchronization manner, so as to add parameters. The internal interface platform 9 is a platform for calling interface information set by each enterprise, the internal interface platform 9 of each enterprise is necessarily associated with a database, and is used for storing the interface information and calling a packaging method of the interface information codes, and one-key synchronization of the interface information can be realized through the internal interface platform 9. In this embodiment, the interface debugging module 23 is configured to complete debugging of the newly added interface by identifying request information of the newly added interface, where the request information includes a request header, a request parameter, a request assertion, and a returned result parameter.

Specifically, the interface debugging module 23 calls the http request method with the request information, and the interface debugging and assertion can be realized by obtaining the returned result. The interface management unit 2 is provided with a display page, and the interface debugging module 23 directly displays the result after the interface debugging is completed, so as to complete the test of the newly added interface.

In this embodiment, the use case management unit 3 is provided with a use case operation page 31, the use case operation page 31 is used for adding a test step, the test step corresponds to an interface one by one, and the use case operation page 31 is set to synchronize to the test step through the interface to complete use case test.

Specifically, the use case management unit 3 is used to store use case information, and the use case operation page 31 is implemented by adding 1 or more test steps, where one test step is implemented by binding one interface, and the interface binding mode can be implemented by one-key synchronization from the interface management unit 2. The testing step can directly realize context association by returning result parameter extraction. The interface type may be an http interface or a dubbo interface.

In this embodiment, the test system further includes a test report generating unit 4, where the test report generating unit 4 is connected to the use case operation page 31, and the test report generating unit 4 is configured to store an operation result corresponding to the test step.

Specifically, the test report generating unit 4 generates and stores a test report after executing the case test, and the test report stores the operation result of each step (i.e., interface). The test report generation unit 4 may also generate a log detail corresponding to a date for the user to query.

In this embodiment, the test system further includes a data monitoring unit 5, and the data monitoring unit 5 is connected to the interface management unit 2, the use case management unit 3, and the test report generation unit 4, respectively.

Specifically, the data monitoring unit 5 counts data of the interface, the use case, and the execution report by being connected to the interface management unit 2, the use case management unit 3, and the test report generation unit 4, respectively. For example, the interface management module 2 counts the number of newly added interfaces per day/week/month and the number of newly added interfaces per user/service line group, the case management unit 3 counts the number of newly added cases per day/week/month and the number of newly added interfaces per user/service line group, and the test report generation unit 4 counts the success rate of executing case tests. The data monitoring unit 5 may also count the number of timing tasks in the interface management unit 2, the use case management unit 3, and the test report generation unit 4.

In the embodiment, the system further comprises a Web multi-terminal cooperation page 6, the Web multi-terminal cooperation page 6 is connected with the use case management unit 3, and the interface automation test platform is set to enter through the Web multi-terminal cooperation page 6. The whole platform is presented to the user for use in a webpage mode, the user does not need to download a testing tool, testing work can be directly carried out on the platform as long as networking is carried out, scripts edited by other users can be directly used, repeated information does not need to be added again, and work cooperation efficiency is improved.

Specifically, the use case operation page 31 completes the creation of the test step through the Web multi-end collaboration page 6, the Web multi-end collaboration page 6 needs to select an environment address before the creation of the test step, the interface automation test platform further comprises an environment pool 8, the environment pool 8 is used for storing the environment address, the environment address comprises a test environment and a pre-release environment, the environment address can be configured in a public parameter pool, a corresponding environment address is selected when the interface and the use case are run, corresponding parameters are transmitted through the front end, the rear end matches different environment address requests according to different conditions, and the interface and the use case can be run by binding a specific environment.

In this embodiment, the Web multi-end collaboration page 6 further includes a user login module 61, and the user login module 61 is configured to log in the Web multi-end collaboration page 6 through an account to perform data testing.

In this embodiment, the device further includes a common parameter pool 7, where the common parameter pool 7 is connected to the interface management unit 2, and the common parameter pool 7 is used to store the general parameter configuration to the interface management unit 2.

Specifically, the common parameter pool 7 is used to store some common parameters, which are equivalent to the common item configuration of the interface automation test platform, the service unit 1 adds service line groups (group a, group B) through the common parameter pool 7, and the added group a and group B can be applied in the interface management and use case management processes, so that the interface, use case, and the added group a and group B can be associated.

In this embodiment, the interface debugging module 23 is configured to complete the debugging of the newly added interface by identifying the request information of the newly added interface.

The working process of the interface automation test platform comprises the following steps:

1) adding an interface: an interface is newly added through an interface processing module 22, universal parameters are synchronized by one key from an internal interface platform 9, and test data are input and stored;

2) interface debugging: after the interface is saved, the interface is debugged through the interface debugging module 23, and after debugging is finished, the result is directly displayed on the display page of the interface management unit 2, so that the test of the newly added interface is finished;

3) newly adding a case: adding a new use case through the use case management unit 3, adding a test step through the use case operation page 31, and synchronizing to the test step through an interface corresponding to the test step;

4) case execution: the test is executed to the single case or the multi-use case simultaneously through the case management unit 3;

5) and (3) test report: the test report page of the test report generating unit 4 can display the test result after the case is executed, and the test report generating unit 4 stores all execution data and log records;

6) data monitoring: the data monitoring unit 5 automatically counts the number of interfaces, the number of use cases and the success rate of execution of use cases at regular time.

The user use process of the interface automation test platform comprises the following steps:

1) entering a page: the method has the advantages that the user can enter a platform by opening a browser, inputting a platform address and logging in an account without downloading entity software such as a tool installation package;

2) and (3) cooperative use: all the organization users can see all the script information on the platform and can be directly networked for online cooperative use;

3) adding an interface: entering an interface management page, adding an interface, synchronizing general parameters by one key from an internal interface platform, inputting and storing test data;

4) interface debugging: after the interface is stored, the interface is debugged, and after the debugging is finished, the result is directly displayed on a page, namely the test of the newly added interface is finished;

5) grouping management: each interface binds each service line parameter, and the interface management page can search the interface according to the service line key word;

6) newly adding a case: entering a case management page, newly adding a case, and adding one or more test steps, wherein each test step can directly synchronize an interface from an existing interface list, and test data is added and stored;

7) case execution: the single use case directly executes the use case on the operation bar of the use case, and the multi-use case execution can select a plurality of use cases in batch and execute the use cases simultaneously;

8) and (3) test report: the test results after the use cases are executed can be correspondingly found in a test report page, and all execution data and log records are stored in a database;

9) data monitoring: the platform automatically counts the execution success rate and failure rate of the newly added interface, the newly added use case and the use case, automatically counts the number of scripts designed by each service line, and visually reflects the number of scripts through a chart.

As described above, the present invention has the following advantageous effects:

1) by means of the customization project data synchronization mode, the internal interface platform can quickly synchronize general parameters and service parameters, manual addition of the general parameters is avoided, working errors caused by the fact that the parameters are added one by one are reduced, time and labor cost are saved, and working efficiency is improved.

2) Each interface script and interface case are grouped according to the dimension of the service line through the interface automatic test platform, so that centralized classification management is achieved, and the whole management of the interface scripts is more systematic.

3) Through the mode of the integrated instrument of the automatic test platform of interface, the customization realizes user's demand to make the user that satisfies can solve a plurality of problems simultaneously, solved among the prior art and need realize the diversified work demand of user through downloading a plurality of instruments, reduce work efficiency's problem.

4) The method needs to perform mutual cooperation by generating the entity script file, but performs logging in through a webpage platform, so that all users can directly perform testing work on the platform, and can directly use scripts edited by other users, repeated information does not need to be added again, and the work cooperation efficiency is improved.

5) The interface testing tool is used in a webpage platform mode, and the problems that in the prior art, the interface testing tool needs to be downloaded locally to configure a local environment, the labor and time cost are high, and the whole testing tool cannot be used due to hardware problems, environmental problems or damage to tool files of a machine are solved.

6) By uniformly storing the operation results corresponding to the test steps, the test steps are recorded clearly, and the problems can be reproduced at any time, so that the problems can be checked more conveniently.

In this document, the terms front, back, upper and lower are used to define the components in the drawings and the positions of the components relative to each other, and are used for clarity and convenience of the technical solution. It is to be understood that the use of the directional terms should not be taken to limit the scope of the claims.

The embodiments and features of the embodiments described herein above can be combined with each other without conflict.

While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

Claims (10)

1. The high-multiplexing interface automatic test platform is characterized by comprising a service unit (1), wherein the service unit (1) is respectively connected with and manages an interface management unit (2) and a case management unit (3), and the service unit (1) is used for grouping interfaces in the interface management unit (2) and cases in the case management unit (3);

the interface management unit (2) comprises an interface storage module (21) and an interface debugging module (23), wherein the interface storage module (21) is used for storing interface information, and the interface debugging module (23) is used for debugging a newly added interface;

the use case management unit (3) is used for storing and executing use cases, and the use case management unit (3) is set to configure interfaces associated with the use cases through the service unit (1).

2. The automated test platform for highly reusable interfaces according to claim 1, further comprising an interface processing module (22), wherein the interface processing module (22) is configured to add and/or delete and/or modify and/or query interfaces,

the interface processing module (22) is arranged to perform the addition of parameters by synchronizing general and/or business parameters in the internal interface platform (9) when an interface is newly added.

3. The high-multiplexing interface automation test platform according to claim 1, wherein the use case management unit (3) is provided with a use case operation page (31), the use case operation page (31) is used for adding test steps, the test steps are in one-to-one correspondence with the interfaces, and the use case operation page (31) is configured to be synchronized to the test steps through the interfaces to complete use case tests.

4. The high-multiplexing interface automation test platform according to claim 3, further comprising a test report generation unit (4), wherein the test report generation unit (4) is connected to the use case operation page (31), the test report generation unit (4) is configured to generate an execution report, and the test report is used to store a running result corresponding to the test step.

5. The high-multiplexing interface automation test platform according to claim 4, further comprising a data monitoring unit (5), wherein the data monitoring unit (5) is respectively connected to the interface management unit (2), the use case management unit (3) and the test report generation unit (4), and the data monitoring unit (5) is configured to count data of interfaces, use cases and test reports.

6. The interface automation test platform capable of being multiplexed according to claim 1, further comprising a Web multi-end collaboration page (6), wherein the Web multi-end collaboration page (6) is connected with the use case management unit (3), and the interface automation test platform is configured to be accessed through the Web multi-end collaboration page (6).

7. The automated testing platform of claim 6, wherein the Web multi-port collaboration page further comprises a user login module (61), and the user login module (61) is used for logging in the Web multi-port collaboration page through an account to perform data testing.

8. The interface automation test platform capable of high multiplexing according to claim 1, further comprising a common parameter pool (7), wherein the common parameter pool (7) is connected to the interface management unit (2), and the common parameter pool (7) is used for storing general parameter configuration to the interface management unit (2).

9. The automated test platform for highly reusable interfaces as claimed in claim 1, wherein the interface debugging module (23) is configured to complete the debugging of the newly added interface by identifying the request information of the newly added interface.

10. The automated interface test platform capable of high multiplexing according to claim 9, wherein the request information comprises at least a request header, a request parameter, a request assertion, and a return result parameter extraction.

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