CN113419945A - Interconnection-based automatic testing method and system - Google Patents
Interconnection-based automatic testing method and system Download PDFInfo
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- CN113419945A CN113419945A CN202110596272.2A CN202110596272A CN113419945A CN 113419945 A CN113419945 A CN 113419945A CN 202110596272 A CN202110596272 A CN 202110596272A CN 113419945 A CN113419945 A CN 113419945A
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- G06F11/36—Preventing errors by testing or debugging software
- G06F11/3668—Software testing
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Abstract
An interconnection-based automated testing method comprises the following steps: s100, an automatic test framework and a vehicle-mounted end simulation controller are pre-installed, and an automatic test script is well written according to the service; s200, an interconnection channel is established between a mobile terminal and a computer terminal, the mobile terminal establishes a virtual screen, and an interface on the virtual screen is projected to a vehicle-mounted end simulation controller for display; establishing an interconnection channel (channel 1) between the mobile terminal and a vehicle-mounted end simulator on the computer terminal, and establishing a control channel (channel 2) between the automatic test framework and the mobile terminal; s300, executing the automatic test scripts one by the automatic test framework, carrying out operations such as button clicking or interface sliding and the like on each automatic test script according to design, inquiring and judging whether a control on the virtual screen exists according to a text or a control identification, and if so, displaying the test on the virtual screen to pass; if not, it does not pass. The invention has high efficiency and low cost.
Description
Technical Field
The invention relates to the technical field of mobile phone interconnection, in particular to an interconnection-based automatic testing method and system.
Background
With the development of the internet of vehicles industry, mobile phone interconnection is becoming a low-cost and efficient solution for internet of vehicles, wherein the scheme of mobile phone screen mapping is most widely applied. The screen mapping refers to a technology of projecting the screen content of the mobile phone to a vehicle-mounted navigator screen so as to display the functions running on the mobile phone screen on the vehicle-mounted navigator screen. The reverse control refers to a technology that an interface is operated on a vehicle-mounted screen and correspondingly changed on a mobile phone.
The existing automatic testing framework aims at the main screen of the mobile phone, and when the mobile phone is interconnected and split-screen projected, the display and the counter control of the virtual screen of the mobile phone need to be connected with a multimedia host for testing. The test of the mobile phone interconnection virtual screen is very inefficient and can only depend on manual test. When the test is carried out manually, the multimedia host needs to be debugged and logs need to be acquired when the multimedia host needs to be used, so that the test efficiency is low and the test cost is high.
Disclosure of Invention
The invention aims to provide an interconnection-based automatic testing method and system with high efficiency and low cost for a virtual screen of a mobile phone.
In order to achieve the purpose, the invention relates to an interconnection-based automatic testing method, which comprises the following steps:
s100, an automatic test framework and a vehicle-mounted end simulation controller are pre-installed, and an automatic test script is well written according to the service;
s200, an interconnection channel is established between a mobile terminal and a computer terminal, the mobile terminal establishes a virtual screen, and an interface on the virtual screen is projected to a vehicle-mounted end simulation controller for display; the automated test framework establishes a control channel (channel 2) with the mobile terminal.
The mobile terminal can be connected with a computer through a USB (universal serial bus), or connected with the computer through WiFi (wireless fidelity), then an interconnection channel (channel 1) is established with a vehicle-mounted terminal simulator on the computer terminal, and an automatic test framework and the mobile terminal establish a control channel (channel 2).
S300 automated test framework executes automated test scripts item by item
Each automatic test script carries out operations such as button clicking or interface sliding and the like according to design, then queries and judges whether a control on the virtual screen exists according to a text or a control identification, and if the control exists, the virtual screen display test passes; if not, it does not pass.
The step S300 includes the steps of:
s301, after an interconnection channel is established between the mobile terminal and the vehicle-mounted end analog controller, the vehicle-mounted end analog controller receives and displays screen projection contents of the virtual screen;
s302, the automatic test framework executes the automatic test scripts one by one, and each automatic test script inquires and judges whether a target control on the virtual screen exists according to the text or the control identification
Inquiring according to the text or the control identification, judging whether a target control on the virtual screen is displayed in the vehicle-mounted end simulation controller or not, if so, judging that the screen projection display test fails; if not, the screen is projected to display that the test is passed.
Further, if the virtual screen display test in step S300 passes, step S400 is performed to determine whether the reverse control test passes
The automatic test framework controls the vehicle-mounted end simulation controller to operate the current page according to the automatic test script, whether the execution is successful is judged, if the corresponding interface response exists, the execution is successful, the test is passed, and the next piece is continuously tested; if no corresponding interface response exists, the execution fails, and the test fails.
Further, the step S400 includes the steps of:
s401, the automatic test framework inquires the control coordinates or the control ID through the control channel (channel 2) and outputs a control signal
The automatic test framework inquires the control coordinates or the control ID transmitted by the virtual screen through a control channel (channel 2); and the automatic test framework executes the automatic test script and sends the control signal to the vehicle-mounted end analog controller.
S402, the vehicle-mounted end analog controller carries out analog inverse control operation on an interface according to the control signal, and operates a current page according to the control signal;
s403, the vehicle-mounted end simulation controller transmits a reverse control operation command to a virtual screen of the mobile terminal through an interconnection channel (channel 1);
s404, the virtual screen executes a counter control operation command, and after waiting for several seconds, the automatic test framework inquires the control parameters of the changed page through the control channel (channel 2);
s405, judging whether the reverse control test is passed or not
And judging whether the control parameters received by the automation frame have text or id parameter elements to be inquired, if so, returning to 'success', and if not, returning to 'failure'.
Further, the automatic test script comprises a screen projection display sequence, test logic, inverse control connection and inverse control, initialization application, screen projection inverse control in application, control query and screen inverse control.
The operation in step S402 includes: and clicking a control rectangular box displayed on the current interface, or executing sliding, keying messages and the like.
Further, the query control comprises a coordinate point query control, a text query control or an id query control.
An interconnection-based automatic test system comprises a mobile terminal and a computer terminal, wherein an interconnection channel is established between the mobile terminal and the computer terminal; the mobile terminal comprises a display screen and a virtual screen, wherein the virtual screen is connected with the display screen; the computer terminal comprises an automatic test frame, a vehicle-mounted terminal simulator and an automatic test script module, wherein the automatic test frame is connected with the virtual screen, the vehicle-mounted terminal simulator and the automatic test script module, and the automatic test script module is connected with the vehicle-mounted terminal simulator.
Further, the virtual screen transmits the first control information and the control coordinate information to the automated testing script module, the vehicle-mounted terminal simulator transmits the current second control information to the automated testing script module, and the automated testing framework judges whether screen projection display and counter control pass or not according to the testing logic and the testing sequence of the automated testing script module.
Further, when the mobile terminal is an android system, the automatic testing framework is connected with the display screen.
According to the interconnection-based automatic testing method and system, the vehicle-mounted end simulation controller realizes the automatic testing of control query and coordinate inverse control on the mobile terminal virtual screen through the mobile terminal interconnection channel, the interconnection of the mobile terminal and the vehicle-mounted multimedia is not needed, the limitation of hardware and a testing scene is avoided, the virtual screen is not tested manually, the testing efficiency is improved, and the testing cost is saved.
Drawings
FIG. 1 is a flow chart of an interconnection-based automated testing method of the present invention;
FIG. 2 is a flow chart of another embodiment of an interconnection-based automated testing method of the present invention;
FIG. 3 is a flowchart of step S300 of the interconnection-based automated testing method of the present invention;
FIG. 4 is a flowchart of step S400 of the interconnection-based automated testing method of the present invention;
FIG. 5 is a schematic diagram of an interconnect-based automated test system according to the present invention.
Detailed Description
The invention relates to an interconnection-based automatic testing method and system, which is based on an automatic test that a vehicle-mounted end simulation controller carries out control query and coordinate inverse control on a virtual screen of a mobile terminal through a mobile terminal interconnection channel. The invention is described in further detail below with reference to the following figures and specific examples:
referring to fig. 1 to 4, an interconnection-based automated testing method includes the following steps:
s100, installing an automatic test framework and a vehicle-mounted end simulation controller on a computer terminal, and compiling an automatic test script according to the service;
and (4) leading in a pre-programmed automatic test script by the computer terminal, and installing an automatic test framework. The automatic test script comprises a screen projection display sequence, test logic, inverse control connection and inverse control, initialization application, screen projection inverse control in application, query controls, screen inverse control and the like, wherein the query controls comprise coordinate point query controls, text query controls or id query controls.
S200, an interconnection channel is established between a mobile terminal and a computer terminal, the mobile terminal establishes a virtual screen, and an interface on the virtual screen is projected to a vehicle-mounted end simulation controller for display; control channel (channel 2) established between automatic testing frame and mobile terminal
The mobile terminal can be connected with a computer through a USB (universal serial bus), or is connected with the computer through WiFi (wireless fidelity), then an interconnection channel (channel 1) is established with a vehicle-mounted end simulator on the computer terminal, a control channel (channel 2) is established between the automatic test framework and a virtual screen of the mobile terminal, and when the mobile terminal is an Android system, the automatic test framework establishes a control channel with the virtual screen through an ADB (Android Debug Bridge system).
The virtual display screen is created in the android system by calling a CreateVirtualDisplay Interface by using an API (Application Program Interface) call Interface. The virtual display screen is created in the IOS system by using an API (application program interface) call [ [ UIWindowalloc ] initWithFrame [ [ UISCREENScreen ]. bound ] interface. And the screen of the mobile terminal is independently displayed with the virtual screen.
The mobile terminal is pre-equipped with mobile terminal interconnection application, and the computer terminal is pre-equipped with vehicle-mounted interconnection application. The mobile terminal interconnection application is a common interconnection client in the market, such as hundred million driving assistants APP, driving partners APP and the like of my department; the vehicle-mounted interconnection application is a common interconnection server on the market.
S300 automated test framework executes automated test scripts item by item
Each automatic test is operated by clicking a button or sliding an interface and the like according to design, whether a control on the virtual screen exists in the vehicle-mounted simulator or not is inquired according to a text or a control identification, and if the control exists, the virtual screen displays that the test is passed; if not, it does not pass.
The method specifically comprises the following steps:
the step S300 includes the steps of:
s301, after an interconnection channel is established between the mobile terminal and the vehicle-mounted end analog controller, the vehicle-mounted end analog controller receives and displays screen projection contents of the virtual screen;
s302, the automatic test framework executes the automatic test scripts one by one, and each automatic test script inquires and judges whether a target control on the virtual screen exists according to the text or the control identification
Inquiring according to the text or the control identification, judging whether a target control on the virtual screen is displayed in the vehicle-mounted end simulation controller or not, if so, judging that the screen projection display test fails; if not, the screen is projected to display that the test is passed.
Step S302 specifically includes the steps of:
s3021, querying an event in the first control information according to the text query control or the id query control in the automated test script, for example: findElementBy (text = "voice") or findElementBy (id = "speed");
s3022 finding the corresponding text or control identification in the target control on the virtual screen, if the text or control identification exists, returning to success, and if the text or control identification does not exist, returning to failure.
If the virtual screen display test in the step S300 passes, the step S400 is entered to judge whether the inverse control test passes, the automated testing framework controls the vehicle-mounted end simulation controller to operate the current page according to the automated testing script to judge whether the execution is successful, if the corresponding interface response exists, the execution is successful, the test passes, and the next test is continued; if no corresponding interface response exists, the execution fails, and the test fails.
Step S400 specifically includes the following steps:
s401, the automatic test framework receives control coordinates or control IDs through a control channel and outputs control signals
The automatic test framework receives the control coordinates or the control ID transmitted by the virtual screen; and the automatic test framework executes the automatic test script and sends the control signal to the vehicle-mounted end analog controller.
S402, the vehicle-mounted end analog controller carries out analog inverse control operation on an interface according to the control signal, and operates a current page according to the control signal; the operations include: clicking a rectangular frame control displayed on the current page, executing sliding, clicking a key and the like.
S403, the vehicle-mounted end simulation controller transmits a reverse control operation command to a virtual screen of the mobile terminal through an interconnection channel;
s404, the virtual screen executes a reverse control operation command, and after waiting for preset time, the automatic test framework inquires the control parameters of the changed page through a control channel (channel 2);
and the virtual screen executes the inverse control operation command, and the virtual screen transmits the control parameters of the changed page back to the automatic test frame. The preset time is several seconds.
S405, judging whether the inverse control is passed
Judging whether a text or id parameter element to be inquired exists in the control parameters received by the automation frame, for example: findElementRectAndClick (text = "voice"); if present, returns "success" and if not, returns "failure". For example: and searching a home page voice button, if the home page voice button exists, clicking the home page voice button, and returning failure does not exist.
The automatic test framework inquires whether a characteristic element (checkpoint) exists in the received characteristic parameters, and if yes, the execution is successful; if not, the execution fails. For example: and after the search control is clicked in the navigation interface, if the input characteristic element appears, the execution is successful.
Referring to fig. 5, an interconnection-based automated testing system includes a mobile terminal 1 and a computer terminal 2, and an interconnection channel is established between the mobile terminal 1 and the computer terminal 2. The mobile terminal 1 is a smart phone or a tablet, and the computer terminal 2 is a computer.
The mobile terminal 1 comprises a display screen 11 and a virtual screen 12, wherein the virtual screen 12 is connected with the display screen 11, and the display screen 11 and the virtual screen 12 are displayed independently.
The computer terminal 2 comprises an automated test framework 21, a vehicle-mounted terminal simulator 22 and an automated test script module 23. The automatic test framework 21 is connected with the virtual screen 12, the vehicle-mounted terminal simulator 22 and the automatic test script module 23, and the automatic test script module 23 is connected with the vehicle-mounted terminal simulator 22. A control channel is established between the automated test framework 21 and the virtual screen 12.
The automated testing framework 21 is responsible for data transmission between the mobile terminal virtual screen and the vehicle-mounted multimedia terminal through the mobile terminal interconnection communication protocol pxClient. And an interconnection channel is established between the vehicle-mounted terminal simulator 22 and the mobile terminal 1 through USB or Wifi. The virtual screen 12 projects the page to the vehicle-mounted terminal simulator 22 through the interconnection channel for displaying.
The virtual screen 12 transmits the first control information and the control coordinate information to the automated test script module 23, and the vehicle-mounted terminal simulator 22 transmits the current second control information to the automated test script module 23. The automated testing framework 21 judges whether the screen projection display and the inverse control pass according to the testing logic and the testing sequence of the automated testing script module 23.
Further, when the mobile terminal 1 is an android system, the automatic testing framework 21 is connected with the display screen 11, so that the automatic testing framework 21 controls the display screen 11. Specifically, the automated testing framework 21 implements control of the display screen 11 through the UI testing tool Uiautomator.
According to the interconnection-based automatic testing method and system, the vehicle-mounted end simulation controller realizes the automatic testing of control query and coordinate inverse control on the virtual screen of the mobile terminal through the mobile terminal interconnection channel, and simulates the return result of the server end to respond to the application of the mobile terminal, so as to verify whether the function is correctly responded. The problem that virtual screen testing can only be performed manually is solved, testing efficiency is improved, and testing cost is saved. Meanwhile, the automatic test does not need the interconnection of the mobile terminal and the vehicle-mounted multimedia and is not limited by hardware and a test scene.
Claims (10)
1. An interconnection-based automatic testing method is characterized by comprising the following steps:
s100, an automatic test framework and a vehicle-mounted end simulation controller are pre-installed, and an automatic test script is written according to the service
The computer terminal is provided with an automatic test frame and a vehicle-mounted end analog controller, and a pre-programmed automatic test script is imported;
s200, an interconnection channel is established between a mobile terminal and a computer terminal, the mobile terminal establishes a virtual screen, and an interface on the virtual screen is projected to a vehicle-mounted end simulation controller for display; the automatic test framework and the mobile terminal establish a control channel;
s300 automated test framework executes automated test scripts item by item
Each automatic test script carries out operations such as button clicking or interface sliding and the like according to design, then queries and judges whether a control on the virtual screen exists according to a text or a control identification, and if the control exists, the virtual screen display test passes; if not, not passing;
the step S300 includes the steps of:
s301, after an interconnection channel is established between the mobile terminal and the vehicle-mounted end analog controller, screen projection contents of the virtual screen are received and displayed;
s302, the automatic test framework executes the automatic test scripts one by one, and each automatic test script inquires and judges whether a target control on the virtual screen exists according to the text or the control identification.
2. An interconnection-based automated testing method according to claim 1, wherein the step S302 is:
inquiring according to the text or the control identification, judging whether a target control on the virtual screen is displayed in the vehicle-mounted end simulation controller or not, if so, judging that the screen projection display test fails; if not, the screen is projected to display that the test is passed.
3. The method according to claim 2, wherein if the virtual screen display test in step S300 passes, the step S400 is performed to determine whether the counter control test passes:
the automatic test framework controls the vehicle-mounted end simulation controller to operate the current page according to the automatic test script, whether the execution is successful is judged, if the corresponding interface response exists, the execution is successful, the test is passed, and the next piece is continuously tested; if no corresponding interface response exists, the execution fails, and the test fails.
4. An interconnect-based automated testing method according to claim 3, wherein the step S400 comprises the steps of:
s401, the automatic test framework inquires the control coordinates or the control ID through the control channel and outputs a control signal
The automatic test framework inquires control coordinates or control IDs transmitted by the virtual screen through a control channel; the automatic test framework executes the automatic test script and sends a control signal to the vehicle-mounted end analog controller;
s402, the vehicle-mounted end analog controller carries out analog inverse control operation on an interface according to the control signal, and operates a current page according to the control signal;
s403, the vehicle-mounted end simulation controller transmits a reverse control operation command to a virtual screen of the mobile terminal through an interconnection channel;
s404, the virtual screen executes a reverse control operation command, and after waiting for preset time, the automatic test framework inquires the control parameters of the changed page through the control channel;
s405, judging whether the reverse control test is passed or not
And judging whether the control parameters received by the automation frame have text or id parameter elements to be inquired, if so, returning to 'success', and if not, returning to 'failure'.
5. An interconnection-based automated testing method according to claim 4, wherein the operation in step S402 comprises: and clicking a rectangular frame control displayed on the current page, executing sliding and clicking a key.
6. The method according to claim 1, wherein the automated test script comprises a screen projection display sequence, test logic, inverse control connection and inverse control, initialization application, in-application screen projection inverse control, query control, and screen inverse control.
7. An interconnection-based automated testing method according to claim 6, wherein the query control comprises a coordinate point query control, a text query control, or an id query control.
8. An interconnection-based automatic test system is characterized by comprising a mobile terminal (1) and a computer terminal (2), wherein an interconnection channel is established between the mobile terminal (1) and the computer terminal (2);
the mobile terminal (1) comprises a display screen (11) and a virtual screen (12), wherein the virtual screen (12) is connected with the display screen (11);
the computer terminal (2) comprises an automatic test frame (21), a vehicle-mounted terminal simulator (22) and an automatic test script module (23), wherein the automatic test frame (21) is connected with the virtual screen (12), the vehicle-mounted terminal simulator (22) and the automatic test script module (23), and the automatic test script module (23) is connected with the vehicle-mounted terminal simulator (22).
9. The interconnection-based automated testing system of claim 8, wherein the virtual screen (12) transmits target control information and control coordinate information to the automated testing script module (23), the vehicle-mounted terminal simulator (22) transmits display information to the automated testing script module (23), and the automated testing framework (21) judges whether screen projection display and counter control pass according to the testing logic and the testing sequence of the automated testing script module (23).
10. The interconnection-based automated testing system of claim 8, wherein the automated testing framework (21) is connected to the display screen (11) when the mobile terminal (1) is an android system.
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