CN111858372A - Automatic testing system and method for TSRS system - Google Patents

Abstract

A testing personnel can call an execution command to test by only clicking a button or menu marked to start execution on characters displayed on an interface of a TATS client after a test case is imported into the TATS client, the TATS client can automatically pack and send the execution command to a TATS server according to the command type of the execution command, the TATS server generates a command receipt according to the execution command and sends the command receipt to the TATS client, the command receipt is automatically collected and analyzed by the TATS client, and a final test result is displayed on the interface of the TATS client by comparing with an expected result. The defects that in the prior art, the number of blocked lines is large, the issuing speed limit flow is complicated, the number of test items is large, large manpower and material resources are consumed, and the test result of the test items is inaccurate and the test efficiency is low due to human negligence and fatigue are effectively overcome.

Description

Automatic testing system and method for TSRS system

Technical Field

The embodiment of the invention relates to the technical field of TSRS system testing, in particular to an automatic testing system and method for a TSRS system.

Background

The high-speed railway, called high-speed rail for short, is a railway system with high design standard grade and capable of allowing trains to run safely at high speed. The concept is not limited to tracks, let alone trains. In recent years, the number of high-speed railway constructions is increasing, and the electric service department and the train control equipment manufacturers need to test the TSRS temporary speed limiting servers of a plurality of lines every year. The problem that the speed limit issuing process is complicated due to the large number of the blocked lines, the test items are large, large manpower and material resources are consumed, the test result of the test items is inaccurate due to human negligence, fatigue and the like, and the problem that the test efficiency is low is increasingly highlighted along with the increase of the opened lines.

Disclosure of Invention

In order to solve the above problems, embodiments of the present invention provide an automated testing system and method for a TSRS system, which effectively avoid the defects in the prior art that the number of blocked lines in the TSRS test is large, the issued speed limit process is complicated, a large number of test items consume large manpower and material resources, and the test result of a test item is inaccurate and the test efficiency is low due to human negligence and fatigue.

In order to overcome the defects in the prior art, the embodiment of the invention provides a solution for an automatic testing system and mode of a TSRS system, which comprises the following specific steps:

an approach to an automated testing architecture for a TSRS system, comprising:

after a test case is imported into the TATS client, a tester can call an execution command to test by only clicking a button or a menu which is marked to start execution and displayed on an interface of the TATS client, the TATS client can automatically pack and send the execution command to the TATS server according to the command type of the execution command, the TATS server generates a command receipt according to the execution command and sends the command receipt to the TATS client, the command receipt is automatically collected and analyzed by the TATS client, and a final test result is displayed on the interface of the TATS client by comparing the command receipt with an expected result.

Further, in the testing process, the interface of the TATS client has a real-time dynamic state display function, so that a tester can constantly master information such as the latest testing progress and passing rate. After the test is finished, the TATS client side can automatically generate a test report containing a final test result, transmit the test report to the TATS server side for storage, and provide a download link for a tester to store the information of the test report.

Furthermore, the automatic testing system of the TSRS system is in communication connection with the TSRS device to be tested, and a communication protocol between the automatic testing system of the TSRS system and the TSRS device to be tested is a railway safety communication protocol.

Furthermore, a tester aiming at the automatic testing system of the TSRS system can automatically create a self-defined test case on a template or a webpage according to a testing purpose; meanwhile, the user-defined test cases support grouping functions, and test cases of different types are grouped and compiled and displayed in groups; the test case compiled by the user-defined test case template does not need format conversion, and can directly conduct activities such as leading-in, leading-out and execution of the test case.

Further, the interface of the TATS client includes:

the login interface is used for inputting an account number and a password so that a tester can safely log in the automatic test page;

the test case display interface is used for checking the imported test case on a webpage after the test case is imported;

the system comprises an import, export and clearing interface, a data configuration module and a data configuration module, wherein the import, export and clearing interface is used for downloading a data configuration template, inputting corresponding configuration data and importing all the configuration data successfully; executing export configuration, and successfully exporting the configuration; executing an emptying function, and successfully emptying all configuration information;

and the system state interface displays the TCC/CTC simulation connection state on the system state interface and can control the TCC simulation of any station to be started or closed.

Further, the module for creating the test case includes:

presetting an identifiable test case downloading template, wherein the test platform is provided with the identifiable test case downloading template;

the test case module is used for importing and exporting the template and can successfully import and export the functions of the test cases in batches;

the test case module is manually input and deleted on line, and the test platform can have the functions of manually inputting and deleting test cases on line;

the test platform automatically generates a test case module which can enable the test platform to automatically generate a test case with any block as a step length according to input engineering data;

the test platform can be provided with a downloadable template of the user-defined test case, and the user-defined test case can be successfully imported into the platform after being input.

Further, the module for executing the test case includes:

the automatic execution test case module is used for verifying that the test platform can automatically issue temporary speed limit commands to the TSRS one by one according to the written temporary speed limit test cases;

the execution drafting, verification, execution, drafting cancellation, verification cancellation and execution cancellation module is used for verifying that the test platform can execute operations of drafting, verification, execution, drafting cancellation, verification cancellation and execution cancellation;

the test case one-by-one execution module is used for verifying that the test interface is executed along with the test cases one by one, and the test interface is rolled upwards to pause the test, continue the test and stop the test, so that the test interface has the functions of pausing the test, continuing the test and stopping the test;

the artificial disorder operation simulation module is used for verifying that the test interface has the function of automatically simulating artificial disorder operation;

the temporary speed limit server basic speed limit test module is used for verifying test contents such as a plurality of temporary speed limits in one direction, side line speed limit test records, TCC blocking partition speed limit records, mile post trip point test records, boundary speed limit test records, user-defined test records and the like of the temporary speed limit server;

the temporary speed limit server basic function test module is used for testing that the line number is not in the jurisdiction range; starting and ending milestones are invalid; the TSR cancel command is not consistent with the TSR number of the original setting command; the speed limit areas are overlapped; in the execution, the functions of the speed limit server in the technical specifications such as deletion and the like cannot be deleted;

the module is used for automatically judging whether the test result passes or not, and the test interface has the function of automatically judging whether the test result passes or not according to the TSRS receipt;

and the error reason display module is used for displaying the error reason when the test fails in the test interface.

Further, the module for generating the test report includes:

the automatic generation exportable test report module is used for the test platform to automatically generate an exportable test report after the test is finished, and the test time and the test result are checked in the test report;

the automatic generation exportable test record module is used for automatically generating exportable test records after the test is finished;

the generation exportable test case module is used for automatically generating exportable test cases after the test is finished;

and the statistical information module is used for enabling the test platform to have the function of displaying the passing, failing, passing rate and other statistical information in real time.

Further, the automated testing system for the TSRS system includes: a TATS server side and a TATS client side;

the TATS server side is in communication connection with the TATS client side;

the TATS server is designed based on a Django framework, three databases including Redis, Mongobb and SQlite are combined, the TATS server and the TATS client adopt a B/S framework, a tester can log in through a browser terminal, operate and check the TATS server serving as a test platform, and a railway engineering data table is stored on the TATS server.

The embodiment of the invention has the beneficial effects that:

the invention designs a webpage by using a Web server based on a Django framework, adopts Python language to develop software, adopts development technology combining three databases of Redis, Mongodb and SQlite and B/S architecture design to realize the lower limit speed function of a one-key full-automatic test temporary speed limit server, and testers can log in a test interface by using a webpage of a client (such as a PC, a mobile phone based on ANDROID, IOS and WINDOWS systems, a tablet and the like) of a browser to check and operate, thereby improving the efficiency and accuracy of electric service simulators for the software simulation test of the temporary speed limit server.

Drawings

FIG. 1 is a partial flow diagram of the manner in which the present invention is applied to an automated testing architecture for TSRS systems.

FIG. 2 is a block diagram of an automated testing architecture for a TSRS system in accordance with the present invention.

Detailed Description

The embodiments of the present invention will be further described with reference to the drawings and the embodiments.

The invention carries out research aiming at the problems in the prior art, develops an automatic testing system and a method for a TSRS system as a temporary speed-limiting server software simulation automatic testing system, simulates interfaces of a CTC-TSRS temporary speed-limiting server and the like, automatically issues temporary speed-limiting commands, automatically collects receipt information and synchronously carries out consistency check according to pre-compiled test scripts and engineering data of relevant lines, and realizes the automatic testing of temporary speed-limiting server software simulation. The system can automatically generate test cases, automatically test and automatically analyze test results, realize one-key full-automatic test, and effectively improve the efficiency and accuracy of the simulation test of the electric service simulation personnel on the temporary speed-limiting server software.

As shown in fig. 1-2, the method for an automated testing architecture of a TSRS system includes:

the process of the mode of the automatic testing system of the TSRS system is full-automatic testing, after a testing case is imported into a TATS client, a tester can call an execution command to test by only clicking a button or a menu which is displayed on an interface of the TATS client and starts to execute, no additional operation is needed, the TATS client can automatically pack and send the execution command to a TATS server according to the command type of the execution command, the TATS server generates a command receipt according to the execution command and sends the command receipt to the TATS client, the command receipt is automatically collected and analyzed by the TATS client, and a final testing result is displayed on the interface of the TATS client by comparing with an expected result.

In the testing process, the interface of the TATS client side has a richer real-time dynamic state display function, so that a tester can master information such as latest testing progress and passing rate at any time. After the automatic test is finished, the TATS client side can automatically generate a test report containing a final test result, transmit the test report to the TATS server side for storage, and provide a download link such as a cloud disk for a tester to store information such as the test report. The command type of the execution command is a transfer command. The latest test progress is that the TATS client is in a stage of automatically packing and issuing the execution command to the TATS server, a stage of automatically collecting and analyzing command receipt by the TATS client, a stage of comparing the command receipt with an expected result, and a stage of displaying a final test result on an interface of the TATS client; the pass rate can be a ratio of the number of items that pass the test to the total number of items tested. If the comparison with the expected result meets the requirement of the preset result, the item passes the test.

The mode of the automatic testing system of the TSRS system mainly comprises the following functions:

1. automatically executing the test case:

the test case can support manual writing, and then directly loads the system and automatically executes the case.

2. Automatically generating a test case:

and automatically generating a temporary speed limit command test case with one block as a step length according to the engineering data. That is, the TATS client processes in advance from the railway engineering data table stored on the TATS server to automatically generate a temporary speed limit message as a test scene and an expected result of a temporary speed limit command test case: the engineering data table at least comprises: the system comprises a route information meter, a split-phase information meter, a transponder position meter, a signal point track section data meter, a line slope meter, an odometer information meter, a line mileage broken link detail meter and a line speedometer.

3. Automatically judging the test result:

the testing process does not need manual intervention, and the full-automatic judgment is realized on the speed limit execution condition and the test report is automatically generated.

The TATS server end of the automatic testing system of the TSRS system is in communication connection with the TSRS device to be tested, a communication protocol between the TATS server end of the automatic testing system of the TSRS system and the TSRS device to be tested is a railway safety communication protocol, the railway safety communication protocol is already used on a plurality of lines, and the accuracy, the stability and the availability of the system can be guaranteed.

Aiming at the automatic test system of the TSRS system, a more flexible and convenient self-defined test case template is provided on the basis of supporting the existing test case formats in different forms. The tester can automatically create a self-defined test case on the template or the webpage according to the test purpose; meanwhile, the user-defined test cases support grouping functions, and test cases of different types are grouped and compiled and displayed in groups; the test case compiled by the user-defined test case template does not need format conversion, and can directly conduct activities such as leading-in, leading-out and execution of the test case.

At present, the research of a Temporary speed limit Server (TSRS) automatic test platform developed based on XML language and C # language in China cannot realize the functions of logging in a webpage platform and testing the speed limit of the Temporary speed limit Server in a one-key full-automatic mode. The invention designs a webpage by using a Web server based on a Django framework, adopts Python language to develop software, adopts development technology combining three databases of Redis, Mongodb and SQlite and B/S architecture design to realize the lower limit speed function of a one-key full-automatic test temporary speed limit server, and testers can log in a test interface by using a webpage of a client (such as a PC, a mobile phone based on ANDROID, IOS and WINDOWS systems, a tablet and the like) of a browser to check and operate, thereby improving the efficiency and accuracy of electric service simulators for the software simulation test of the temporary speed limit server.

The interface of the TATS client comprises:

the login interface is used for inputting an account number and a password so that a tester can safely log in the automatic test page;

the test case display interface is used for checking the imported test case on a webpage after the test case is imported;

the system comprises an import, export and clearing interface, a data configuration module and a data configuration module, wherein the import, export and clearing interface is used for downloading a data configuration template, inputting corresponding configuration data and importing all the configuration data successfully; executing export configuration, and successfully exporting the configuration; executing an emptying function, and successfully emptying all configuration information;

and the system state interface displays the TCC/CTC simulation connection state on the system state interface and can control the TCC simulation of any station to be started or closed.

The module for creating the test case comprises:

presetting an identifiable test case download template, wherein a TATS server end serving as a test platform is provided with the identifiable test case download template;

the test case module is used for importing and exporting the template with the correlation and can successfully import and export the test cases in batches;

the test case module is manually input and deleted on line, and the test platform can have the functions of manually inputting and deleting test cases on line;

the test platform automatically generates a test case module which can enable the test platform to automatically generate a test case with any block as a step length according to input engineering data;

the test platform can be provided with a downloadable template of the user-defined test case, and the user-defined test case can be successfully imported into the platform after being input.

The module for executing the test case comprises:

the automatic execution test case module is used for verifying that the test platform can automatically issue temporary speed limit commands to the TSRS one by one according to the written temporary speed limit test cases;

the execution drafting, verification, execution, drafting cancellation, verification cancellation and execution cancellation module is used for verifying that the test platform can execute operations of drafting, verification, execution, drafting cancellation, verification cancellation and execution cancellation;

the test case one-by-one execution module is used for verifying that the test interface is executed along with the test cases one by one, and the test interface is rolled upwards to pause the test, continue the test and stop the test, so that the test interface has the functions of pausing the test, continuing the test and stopping the test;

the artificial disorder operation simulation module is used for verifying that the test interface has the function of automatically simulating artificial disorder operation;

the temporary speed limit server basic speed limit test module is used for verifying test contents such as a plurality of temporary speed limits in one direction, side line speed limit test records, TCC blocking partition speed limit records, mile post trip point test records, boundary speed limit test records, user-defined test records and the like of the temporary speed limit server;

the temporary speed limit server basic function test module is used for testing that the line number is not in the jurisdiction range; starting and ending milestones are invalid; the TSR cancel command is not consistent with the TSR number of the original setting command; the speed limit areas are overlapped; in the execution, the functions of the speed limit server in the technical specifications such as deletion and the like cannot be deleted;

the module is used for automatically judging whether the test result passes or not, and the test interface has the function of automatically judging whether the test result passes or not according to the TSRS receipt;

and the error reason display module is used for displaying the error reason when the test fails in the test interface.

The module for generating the test report comprises:

the automatic generation exportable test report module is used for the test platform to automatically generate an exportable test report after the test is finished, and the test time and the test result are checked in the test report;

the automatic generation exportable test record module is used for automatically generating exportable test records after the test is finished;

the generation exportable test case module is used for automatically generating exportable test cases after the test is finished;

and the statistical information module is used for enabling the test platform to have the function of displaying the passing, failing, passing rate and other statistical information in real time.

The automatic testing system for the TSRS system comprises: a TATS server side and a TATS client side;

the TATS server side is in communication connection with the TATS client side;

the TATS server is designed based on a Django framework, three databases including Redis, Mongobb and SQlite are combined, the TATS server and the TATS client adopt a B/S framework, a tester can log in through a browser terminal, operate and check the TATS server serving as a test platform, and a railway engineering data table is stored on the TATS server. The TATS server side and the TATS client side can be computers.

The technical indexes of the automatic testing system for the TSRS system comprise:

1. the system supports the use for 7 days and 24 hours, and the downtime cannot exceed 10 percent;

2. the system response time is not higher than 10 seconds;

3. meanwhile, 10 users are supported to check the test progress and report on line, and single-user operation is supported;

4. the user operating machine supports an Android system, an IOS system and a Windows system;

5, the device performance requirements of the TATS server and the TATS client are as follows:

the CPU is Intel I5-8250U or above;

memory: 8G or more;

hard disk: a hybrid hard disk, Solid State Disk (SSD)256G or more + mechanical hard disk 500G or more;

display resolution: 1366 x 768 or more;

operating the system: windows 10 professional edition 64 bits;

an Ethernet port: the number is 1 or more;

a USB port: the number is 2 or more.

The invention develops research aiming at the problems that a new high-speed rail is opened, a TSRS temporary speed limiting server is complex to test, test items are prone to inaccurate test results and low test efficiency due to human negligence, fatigue and the like. The automatic testing system for the TSRS system, which is developed and used as a temporary speed-limiting server software simulation automatic testing system, can automatically issue speed limits and automatically collect receipt, and realizes the automatic testing of the TSRS system through a software program. Through simulating a CTC-TSRS interface, according to a pre-compiled test script and engineering data of a relevant line, an execution command of temporary speed limit is automatically issued, receipt information is automatically collected, meanwhile, consistency verification is carried out, whether the execution command is consistent with an expected receipt is judged, so that automatic test of a TSRS system is realized, and test efficiency and accuracy are effectively improved. The invention respectively carries out system installation and field trial evaluation on Hangzhou yellow TSRS, Ningqi line TSRS by Beijing Alligation of micro corporation and Ningan intercity TSRS by Beijing iron institute in Shanghai signal factory. The operation is stable, the unattended full-automatic test work of the real TSRS equipment can be completed, the test time consumption is greatly reduced, and the test accuracy and consistency are ensured. The process accords with the business operation standard, can realize the lower speed limiting function of the temporary speed limiting server of one-key automated test, for simplifying the temporary speed limiting server test process, raise test efficiency and accuracy and provide the effective technological means. Therefore, the method has good practical value and popularization and application prospects.

While the embodiments of the present invention have been described above in terms of procedures illustrated by the embodiments, it will be understood by those skilled in the art that the present disclosure is not limited to the embodiments described above, and that various changes, modifications, and substitutions can be made without departing from the scope of the embodiments of the present invention.

Claims (9)

1. An automated testing architecture for a TSRS system, comprising:

after a test case is imported into the TATS client, a tester can call an execution command to test by only clicking a button or a menu which is marked to start execution and displayed on an interface of the TATS client, the TATS client can automatically pack and send the execution command to the TATS server according to the command type of the execution command, the TATS server generates a command receipt according to the execution command and sends the command receipt to the TATS client, the command receipt is automatically collected and analyzed by the TATS client, and a final test result is displayed on the interface of the TATS client by comparing the command receipt with an expected result.

2. The method according to claim 1, wherein during the testing process, the interface of the TATS client has a real-time dynamic status display function, so that a tester can constantly know information such as the latest testing progress and passing rate. After the test is finished, the TATS client side can automatically generate a test report containing a final test result, transmit the test report to the TATS server side for storage, and provide a download link for a tester to store the information of the test report.

3. The method for the automatic testing system of the TSRS system according to claim 1, wherein the automatic testing system of the TSRS system is in communication connection with a TSRS device to be tested, and a communication protocol between the automatic testing system of the TSRS system and the TSRS device to be tested is a railway safety communication protocol.

4. The method for an automated testing architecture for a TSRS system of claim 1, wherein a tester for the automated testing architecture for the TSRS system can create a customized test case on a template or a web page according to a testing purpose; meanwhile, the user-defined test cases support grouping functions, and test cases of different types are grouped and compiled and displayed in groups; the test case compiled by the user-defined test case template does not need format conversion, and can directly conduct activities such as leading-in, leading-out and execution of the test case.

5. The manner of automated testing architecture for TSRS systems of claim 1, wherein said TATS client interface comprises:

the login interface is used for inputting an account number and a password so that a tester can safely log in the automatic test page;

the test case display interface is used for checking the imported test case on a webpage after the test case is imported;

the system comprises an import, export and clearing interface, a data configuration module and a data configuration module, wherein the import, export and clearing interface is used for downloading a data configuration template, inputting corresponding configuration data and importing all the configuration data successfully; executing export configuration, and successfully exporting the configuration; executing an emptying function, and successfully emptying all configuration information;

and the system state interface displays the TCC/CTC simulation connection state on the system state interface and can control the TCC simulation of any station to be started or closed.

6. The manner of automating test architecture for a TSRS system as set forth in claim 1, wherein said means for creating test cases comprises:

presetting an identifiable test case downloading template, wherein the test platform is provided with the identifiable test case downloading template;

the test case module is used for importing and exporting the template and can successfully import and export the functions of the test cases in batches;

the test case module is manually input and deleted on line, and the test platform can have the functions of manually inputting and deleting test cases on line;

the test platform automatically generates a test case module which can enable the test platform to automatically generate a test case with any block as a step length according to input engineering data;

the test platform can be provided with a downloadable template of the user-defined test case, and the user-defined test case can be successfully imported into the platform after being input.

7. The manner of automating test architecture for a TSRS system as recited in claim 1, wherein said means for executing test cases comprises:

the automatic execution test case module is used for verifying that the test platform can automatically issue temporary speed limit commands to the TSRS one by one according to the written temporary speed limit test cases;

the execution drafting, verification, execution, drafting cancellation, verification cancellation and execution cancellation module is used for verifying that the test platform can execute operations of drafting, verification, execution, drafting cancellation, verification cancellation and execution cancellation;

the test case one-by-one execution module is used for verifying that the test interface is executed along with the test cases one by one, and the test interface is rolled upwards to pause the test, continue the test and stop the test, so that the test interface has the functions of pausing the test, continuing the test and stopping the test;

the artificial disorder operation simulation module is used for verifying that the test interface has the function of automatically simulating artificial disorder operation;

the temporary speed limit server basic speed limit test module is used for verifying test contents such as a plurality of temporary speed limits in one direction, side line speed limit test records, TCC blocking partition speed limit records, mile post trip point test records, boundary speed limit test records, user-defined test records and the like of the temporary speed limit server;

the temporary speed limit server basic function test module is used for testing that the line number is not in the jurisdiction range; starting and ending milestones are invalid; the TSR cancel command is not consistent with the TSR number of the original setting command; the speed limit areas are overlapped; in the execution, the functions of the speed limit server in the technical specifications such as deletion and the like cannot be deleted;

the module is used for automatically judging whether the test result passes or not, and the test interface has the function of automatically judging whether the test result passes or not according to the TSRS receipt;

and the error reason display module is used for displaying the error reason when the test fails in the test interface.

8. The manner of automated testing regime for a TSRS system of claim 1, wherein the means for generating the test report comprises:

the automatic generation exportable test report module is used for the test platform to automatically generate an exportable test report after the test is finished, and the test time and the test result are checked in the test report;

the automatic generation exportable test record module is used for automatically generating exportable test records after the test is finished;

the generation exportable test case module is used for automatically generating exportable test cases after the test is finished;

and the statistical information module is used for enabling the test platform to have the function of displaying the passing, failing, passing rate and other statistical information in real time.

9. An automated testing architecture for a TSRS system, comprising: a TATS server side and a TATS client side;

the TATS server side is in communication connection with the TATS client side;

the TATS server is designed based on a Django framework, three databases including Redis, Mongobb and SQlite are combined, the TATS server and the TATS client adopt a B/S framework, a tester can log in through a browser terminal, operate and check the TATS server serving as a test platform, and a railway engineering data table is stored on the TATS server.

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